From c41381a961263c28d60976e68923157916c78b15 Mon Sep 17 00:00:00 2001
From: Johannes Ranke <jranke@uni-bremen.de>
Date: Thu, 16 Sep 2021 15:31:13 +0200
Subject: Adapt and improve the dimethenamid vignette

Adapt to the corrected data and unify control parameters for saemix and
nlmixr with saem. Update docs
---
 docs/dev/reference/dimethenamid_2018-1.png   | Bin 264364 -> 263830 bytes
 docs/dev/reference/dimethenamid_2018-2.png   | Bin 245108 -> 246327 bytes
 docs/dev/reference/dimethenamid_2018.html    | 320 +++++++++++++--------------
 docs/dev/reference/endpoints.html            |   2 +-
 docs/dev/reference/index.html                |   2 +-
 docs/dev/reference/mean_degparms.html        |   2 +-
 docs/dev/reference/mkinmod.html              |   6 +-
 docs/dev/reference/nlme-1.png                | Bin 68943 -> 68789 bytes
 docs/dev/reference/nlme-2.png                | Bin 94409 -> 92904 bytes
 docs/dev/reference/nlme.html                 |  18 +-
 docs/dev/reference/nlme.mmkin.html           |   2 +-
 docs/dev/reference/nlmixr.mmkin.html         |  31 +--
 docs/dev/reference/plot.mixed.mmkin.html     |   6 +-
 docs/dev/reference/reexports.html            |   2 +-
 docs/dev/reference/saem.html                 |  40 ++--
 docs/dev/reference/summary.nlmixr.mmkin.html |  10 +-
 docs/dev/reference/tffm0.html                |   2 +-
 17 files changed, 219 insertions(+), 224 deletions(-)

(limited to 'docs/dev/reference')

diff --git a/docs/dev/reference/dimethenamid_2018-1.png b/docs/dev/reference/dimethenamid_2018-1.png
index 52b8a2be..b8c5355f 100644
Binary files a/docs/dev/reference/dimethenamid_2018-1.png and b/docs/dev/reference/dimethenamid_2018-1.png differ
diff --git a/docs/dev/reference/dimethenamid_2018-2.png b/docs/dev/reference/dimethenamid_2018-2.png
index a81b2aaf..3b8a123b 100644
Binary files a/docs/dev/reference/dimethenamid_2018-2.png and b/docs/dev/reference/dimethenamid_2018-2.png differ
diff --git a/docs/dev/reference/dimethenamid_2018.html b/docs/dev/reference/dimethenamid_2018.html
index a77cf0f4..919e9363 100644
--- a/docs/dev/reference/dimethenamid_2018.html
+++ b/docs/dev/reference/dimethenamid_2018.html
@@ -77,7 +77,7 @@ constrained by data protection regulations." />
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
@@ -162,7 +162,7 @@ constrained by data protection regulations.</p>
 
     <h2 class="hasAnchor" id="format"><a class="anchor" href="#format"></a>Format</h2>
 
-    <p>An <a href='mkindsg.html'>mkindsg</a> object grouping eight datasets with some meta information</p>
+    <p>An <a href='mkindsg.html'>mkindsg</a> object grouping seven datasets with some meta information</p>
     <h2 class="hasAnchor" id="source"><a class="anchor" href="#source"></a>Source</h2>
 
     <p>Rapporteur Member State Germany, Co-Rapporteur Member State Bulgaria (2018)
@@ -177,42 +177,36 @@ specific pieces of information in the comments.</p>
 
     <h2 class="hasAnchor" id="examples"><a class="anchor" href="#examples"></a>Examples</h2>
     <pre class="examples"><div class='input'><span class='fu'><a href='https://rdrr.io/r/base/print.html'>print</a></span><span class='op'>(</span><span class='va'>dimethenamid_2018</span><span class='op'>)</span>
-</div><div class='output co'>#&gt; &lt;mkindsg&gt; holding 8 mkinds objects
+</div><div class='output co'>#&gt; &lt;mkindsg&gt; holding 7 mkinds objects
 #&gt; Title $title:  Aerobic soil degradation data on dimethenamid-P from the EU assessment in 2018 
 #&gt; Occurrence of observed compounds $observed_n:
 #&gt; DMTAP   M23   M27   M31  DMTA 
-#&gt;     4     7     7     7     4 
+#&gt;     3     7     7     7     4 
 #&gt; Time normalisation factors $f_time_norm:
-#&gt; [1] 1.0000000 0.9706477 0.9706477 1.2284784 1.2284784 0.6233856 0.7678922
-#&gt; [8] 0.6733938
+#&gt; [1] 1.0000000 0.9706477 1.2284784 1.2284784 0.6233856 0.7678922 0.6733938
 #&gt; Meta information $meta:
-#&gt;                       study  usda_soil_type study_moisture_ref_type
-#&gt; Calke         Unsworth 2014      Sandy loam                     pF2
-#&gt; Borstel 1 Staudenmaier 2013            Sand                     pF1
-#&gt; Borstel 2 Staudenmaier 2009            Sand                     pF1
-#&gt; Elliot 1         Wendt 1997       Clay loam                   pF2.5
-#&gt; Elliot 2         Wendt 1997       Clay loam                   pF2.5
-#&gt; Flaach           König 1996 Sandy clay loam                     pF1
-#&gt; BBA 2.2          König 1995      Loamy sand                     pF1
-#&gt; BBA 2.3          König 1995      Sandy loam                     pF1
-#&gt;           rel_moisture study_ref_moisture temperature
-#&gt; Calke             1.00                 NA          20
-#&gt; Borstel 1         0.50              23.00          20
-#&gt; Borstel 2         0.50              23.00          20
-#&gt; Elliot 1          0.75              33.37          23
-#&gt; Elliot 2          0.75              33.37          23
-#&gt; Flaach            0.40                 NA          20
-#&gt; BBA 2.2           0.40                 NA          20
-#&gt; BBA 2.3           0.40                 NA          20</div><div class='input'><span class='va'>dmta_ds</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/r/base/lapply.html'>lapply</a></span><span class='op'>(</span><span class='fl'>1</span><span class='op'>:</span><span class='fl'>8</span>, <span class='kw'>function</span><span class='op'>(</span><span class='va'>i</span><span class='op'>)</span> <span class='op'>{</span>
+#&gt;                      study  usda_soil_type study_moisture_ref_type rel_moisture
+#&gt; Calke        Unsworth 2014      Sandy loam                     pF2         1.00
+#&gt; Borstel  Staudenmaier 2009            Sand                     pF1         0.50
+#&gt; Elliot 1        Wendt 1997       Clay loam                   pF2.5         0.75
+#&gt; Elliot 2        Wendt 1997       Clay loam                   pF2.5         0.75
+#&gt; Flaach          König 1996 Sandy clay loam                     pF1         0.40
+#&gt; BBA 2.2         König 1995      Loamy sand                     pF1         0.40
+#&gt; BBA 2.3         König 1995      Sandy loam                     pF1         0.40
+#&gt;          study_ref_moisture temperature
+#&gt; Calke                    NA          20
+#&gt; Borstel               23.00          20
+#&gt; Elliot 1              33.37          23
+#&gt; Elliot 2              33.37          23
+#&gt; Flaach                   NA          20
+#&gt; BBA 2.2                  NA          20
+#&gt; BBA 2.3                  NA          20</div><div class='input'><span class='va'>dmta_ds</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/r/base/lapply.html'>lapply</a></span><span class='op'>(</span><span class='fl'>1</span><span class='op'>:</span><span class='fl'>7</span>, <span class='kw'>function</span><span class='op'>(</span><span class='va'>i</span><span class='op'>)</span> <span class='op'>{</span>
   <span class='va'>ds_i</span> <span class='op'>&lt;-</span> <span class='va'>dimethenamid_2018</span><span class='op'>$</span><span class='va'>ds</span><span class='op'>[[</span><span class='va'>i</span><span class='op'>]</span><span class='op'>]</span><span class='op'>$</span><span class='va'>data</span>
   <span class='va'>ds_i</span><span class='op'>[</span><span class='va'>ds_i</span><span class='op'>$</span><span class='va'>name</span> <span class='op'>==</span> <span class='st'>"DMTAP"</span>, <span class='st'>"name"</span><span class='op'>]</span> <span class='op'>&lt;-</span>  <span class='st'>"DMTA"</span>
   <span class='va'>ds_i</span><span class='op'>$</span><span class='va'>time</span> <span class='op'>&lt;-</span> <span class='va'>ds_i</span><span class='op'>$</span><span class='va'>time</span> <span class='op'>*</span> <span class='va'>dimethenamid_2018</span><span class='op'>$</span><span class='va'>f_time_norm</span><span class='op'>[</span><span class='va'>i</span><span class='op'>]</span>
   <span class='va'>ds_i</span>
 <span class='op'>}</span><span class='op'>)</span>
 <span class='fu'><a href='https://rdrr.io/r/base/names.html'>names</a></span><span class='op'>(</span><span class='va'>dmta_ds</span><span class='op'>)</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/r/base/lapply.html'>sapply</a></span><span class='op'>(</span><span class='va'>dimethenamid_2018</span><span class='op'>$</span><span class='va'>ds</span>, <span class='kw'>function</span><span class='op'>(</span><span class='va'>ds</span><span class='op'>)</span> <span class='va'>ds</span><span class='op'>$</span><span class='va'>title</span><span class='op'>)</span>
-<span class='va'>dmta_ds</span><span class='op'>[[</span><span class='st'>"Borstel"</span><span class='op'>]</span><span class='op'>]</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/r/base/cbind.html'>rbind</a></span><span class='op'>(</span><span class='va'>dmta_ds</span><span class='op'>[[</span><span class='st'>"Borstel 1"</span><span class='op'>]</span><span class='op'>]</span>, <span class='va'>dmta_ds</span><span class='op'>[[</span><span class='st'>"Borstel 2"</span><span class='op'>]</span><span class='op'>]</span><span class='op'>)</span>
-<span class='va'>dmta_ds</span><span class='op'>[[</span><span class='st'>"Borstel 1"</span><span class='op'>]</span><span class='op'>]</span> <span class='op'>&lt;-</span> <span class='cn'>NULL</span>
-<span class='va'>dmta_ds</span><span class='op'>[[</span><span class='st'>"Borstel 2"</span><span class='op'>]</span><span class='op'>]</span> <span class='op'>&lt;-</span> <span class='cn'>NULL</span>
 <span class='va'>dmta_ds</span><span class='op'>[[</span><span class='st'>"Elliot"</span><span class='op'>]</span><span class='op'>]</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/r/base/cbind.html'>rbind</a></span><span class='op'>(</span><span class='va'>dmta_ds</span><span class='op'>[[</span><span class='st'>"Elliot 1"</span><span class='op'>]</span><span class='op'>]</span>, <span class='va'>dmta_ds</span><span class='op'>[[</span><span class='st'>"Elliot 2"</span><span class='op'>]</span><span class='op'>]</span><span class='op'>)</span>
 <span class='va'>dmta_ds</span><span class='op'>[[</span><span class='st'>"Elliot 1"</span><span class='op'>]</span><span class='op'>]</span> <span class='op'>&lt;-</span> <span class='cn'>NULL</span>
 <span class='va'>dmta_ds</span><span class='op'>[[</span><span class='st'>"Elliot 2"</span><span class='op'>]</span><span class='op'>]</span> <span class='op'>&lt;-</span> <span class='cn'>NULL</span>
@@ -231,33 +225,33 @@ specific pieces of information in the comments.</p>
 </div><div class='output co'>#&gt; <span class='message'>With est = 'saem', a different error model is required for each observed variableChanging the error model to 'obs_tc' (Two-component error for each observed variable)</span></div><div class='output co'>#&gt; function () 
 #&gt; {
 #&gt;     ini({
-#&gt;         DMTA_0 = 98.7697627680706
-#&gt;         eta.DMTA_0 ~ 2.35171765917765
+#&gt;         DMTA_0 = 98.7132391714013
+#&gt;         eta.DMTA_0 ~ 2.32692496033921
 #&gt;         log_k_M23 = -3.92162409637283
 #&gt;         eta.log_k_M23 ~ 0.549278519419884
-#&gt;         log_k_M27 = -4.33774620773911
-#&gt;         eta.log_k_M27 ~ 0.864474956685295
-#&gt;         log_k_M31 = -4.24767627688461
-#&gt;         eta.log_k_M31 ~ 0.750297149164171
-#&gt;         log_k1 = -2.2341008812259
-#&gt;         eta.log_k1 ~ 0.902976221565793
-#&gt;         log_k2 = -3.7762779983269
-#&gt;         eta.log_k2 ~ 1.57684519529298
-#&gt;         g_qlogis = 0.450175725479389
-#&gt;         eta.g_qlogis ~ 3.0851335687675
-#&gt;         f_DMTA_tffm0_1_qlogis = -2.09240906629456
+#&gt;         log_k_M27 = -4.33057580082049
+#&gt;         eta.log_k_M27 ~ 0.855184233768426
+#&gt;         log_k_M31 = -4.24415516780733
+#&gt;         eta.log_k_M31 ~ 0.745746058085877
+#&gt;         log_k1 = -2.23515804885306
+#&gt;         eta.log_k1 ~ 0.901033446532357
+#&gt;         log_k2 = -3.77581484944379
+#&gt;         eta.log_k2 ~ 1.57682329638124
+#&gt;         g_qlogis = 0.436302910942805
+#&gt;         eta.g_qlogis ~ 3.10190528862808
+#&gt;         f_DMTA_tffm0_1_qlogis = -2.0914852208395
 #&gt;         eta.f_DMTA_tffm0_1_qlogis ~ 0.3
-#&gt;         f_DMTA_tffm0_2_qlogis = -2.18057573598794
+#&gt;         f_DMTA_tffm0_2_qlogis = -2.17879574608926
 #&gt;         eta.f_DMTA_tffm0_2_qlogis ~ 0.3
-#&gt;         f_DMTA_tffm0_3_qlogis = -2.14267187609763
+#&gt;         f_DMTA_tffm0_3_qlogis = -2.14036526460782
 #&gt;         eta.f_DMTA_tffm0_3_qlogis ~ 0.3
-#&gt;         sigma_low_DMTA = 0.697933852349996
+#&gt;         sigma_low_DMTA = 0.700117227383809
 #&gt;         rsd_high_DMTA = 0.0257724286053519
-#&gt;         sigma_low_M23 = 0.697933852349996
+#&gt;         sigma_low_M23 = 0.700117227383809
 #&gt;         rsd_high_M23 = 0.0257724286053519
-#&gt;         sigma_low_M27 = 0.697933852349996
+#&gt;         sigma_low_M27 = 0.700117227383809
 #&gt;         rsd_high_M27 = 0.0257724286053519
-#&gt;         sigma_low_M31 = 0.697933852349996
+#&gt;         sigma_low_M31 = 0.700117227383809
 #&gt;         rsd_high_M31 = 0.0257724286053519
 #&gt;     })
 #&gt;     model({
@@ -295,7 +289,7 @@ specific pieces of information in the comments.</p>
 #&gt;         M31 ~ add(sigma_low_M31) + prop(rsd_high_M31)
 #&gt;     })
 #&gt; }
-#&gt; &lt;environment: 0x555559ac3820&gt;</div><div class='input'><span class='co'># The focei fit takes about four minutes on my system</span>
+#&gt; &lt;environment: 0x555559e97ac0&gt;</div><div class='input'><span class='co'># The focei fit takes about four minutes on my system</span>
 <span class='fu'><a href='https://rdrr.io/r/base/system.time.html'>system.time</a></span><span class='op'>(</span>
   <span class='va'>f_dmta_nlmixr_focei</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_dmta_mkin_tc</span>, est <span class='op'>=</span> <span class='st'>"focei"</span>,
     control <span class='op'>=</span> <span class='fu'>nlmixr</span><span class='fu'>::</span><span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/foceiControl.html'>foceiControl</a></span><span class='op'>(</span>print <span class='op'>=</span> <span class='fl'>500</span><span class='op'>)</span><span class='op'>)</span>
@@ -308,7 +302,7 @@ specific pieces of information in the comments.</p>
 #&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in inner model...</span></div><div class='output co'>#&gt; [====|====|====|====|====|====|====|====|====|====] 0:00:07 
 #&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; [====|====|====|====|====|====|====|====|====|====] 0:00:00 
 #&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; [====|====|====|====|====|====|====|====|====|====] 0:00:00 
-#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling inner model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling events FD model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; [1] "CMT"</div><div class='output co'>#&gt; <span class='message'>RxODE 1.1.0 using 8 threads (see ?getRxThreads)</span>
+#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling inner model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling events FD model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; [1] "CMT"</div><div class='output co'>#&gt; <span class='message'>RxODE 1.1.1 using 8 threads (see ?getRxThreads)</span>
 #&gt; <span class='message'>  no cache: create with `rxCreateCache()`</span></div><div class='output co'>#&gt; <span style='font-weight: bold;'>Key:</span> U: Unscaled Parameters; X: Back-transformed parameters; G: Gill difference gradient approximation
 #&gt; F: Forward difference gradient approximation
 #&gt; C: Central difference gradient approximation
@@ -324,12 +318,12 @@ specific pieces of information in the comments.</p>
 #&gt; <span style='text-decoration: underline;'>|.....................|        o9 |       o10 |...........|...........|</span>
 #&gt; calculating covariance matrix
 #&gt; done</div><div class='output co'>#&gt; <span class='message'>Calculating residuals/tables</span></div><div class='output co'>#&gt; <span class='message'>done</span></div><div class='output co'>#&gt; <span class='warning'>Warning: initial ETAs were nudged; (can control by foceiControl(etaNudge=., etaNudge2=))</span></div><div class='output co'>#&gt; <span class='warning'>Warning: last objective function was not at minimum, possible problems in optimization</span></div><div class='output co'>#&gt; <span class='warning'>Warning: S matrix non-positive definite</span></div><div class='output co'>#&gt; <span class='warning'>Warning: using R matrix to calculate covariance</span></div><div class='output co'>#&gt; <span class='warning'>Warning: gradient problems with initial estimate and covariance; see $scaleInfo</span></div><div class='output co'>#&gt;    user  system elapsed 
-#&gt; 232.621  14.126 246.850 </div><div class='input'><span class='fu'><a href='https://rdrr.io/r/base/summary.html'>summary</a></span><span class='op'>(</span><span class='va'>f_dmta_nlmixr_focei</span><span class='op'>)</span>
-</div><div class='output co'>#&gt; nlmixr version used for fitting:    2.0.4 
-#&gt; mkin version used for pre-fitting:  1.0.5 
-#&gt; R version used for fitting:         4.1.0 
-#&gt; Date of fit:     Wed Aug  4 15:53:54 2021 
-#&gt; Date of summary: Wed Aug  4 15:53:54 2021 
+#&gt; 230.015   8.962 238.957 </div><div class='input'><span class='fu'><a href='https://rdrr.io/r/base/summary.html'>summary</a></span><span class='op'>(</span><span class='va'>f_dmta_nlmixr_focei</span><span class='op'>)</span>
+</div><div class='output co'>#&gt; nlmixr version used for fitting:    2.0.5 
+#&gt; mkin version used for pre-fitting:  1.1.0 
+#&gt; R version used for fitting:         4.1.1 
+#&gt; Date of fit:     Thu Sep 16 14:06:55 2021 
+#&gt; Date of summary: Thu Sep 16 14:06:55 2021 
 #&gt; 
 #&gt; Equations:
 #&gt; d_DMTA/dt = - ((k1 * g * exp(-k1 * time) + k2 * (1 - g) * exp(-k2 *
@@ -346,23 +340,23 @@ specific pieces of information in the comments.</p>
 #&gt;            exp(-k2 * time))) * DMTA - k_M31 * M31
 #&gt; 
 #&gt; Data:
-#&gt; 568 observations of 4 variable(s) grouped in 6 datasets
+#&gt; 563 observations of 4 variable(s) grouped in 6 datasets
 #&gt; 
 #&gt; Degradation model predictions using RxODE
 #&gt; 
-#&gt; Fitted in 246.669 s
+#&gt; Fitted in 238.792 s
 #&gt; 
 #&gt; Variance model: Two-component variance function 
 #&gt; 
 #&gt; Mean of starting values for individual parameters:
 #&gt;       DMTA_0    log_k_M23    log_k_M27    log_k_M31 f_DMTA_ilr_1 f_DMTA_ilr_2 
-#&gt;      98.7698      -3.9216      -4.3377      -4.2477       0.1380       0.1393 
+#&gt;      98.7132      -3.9216      -4.3306      -4.2442       0.1376       0.1388 
 #&gt; f_DMTA_ilr_3       log_k1       log_k2     g_qlogis 
-#&gt;      -1.7571      -2.2341      -3.7763       0.4502 
+#&gt;      -1.7554      -2.2352      -3.7758       0.4363 
 #&gt; 
 #&gt; Mean of starting values for error model parameters:
 #&gt; sigma_low  rsd_high 
-#&gt;   0.69793   0.02577 
+#&gt;   0.70012   0.02577 
 #&gt; 
 #&gt; Fixed degradation parameter values:
 #&gt; None
@@ -371,20 +365,20 @@ specific pieces of information in the comments.</p>
 #&gt; 
 #&gt; Likelihood calculated by focei  
 #&gt;    AIC  BIC logLik
-#&gt;   1936 2031 -945.9
+#&gt;   1918 2014 -937.2
 #&gt; 
 #&gt; Optimised parameters:
 #&gt;                          est.   lower   upper
-#&gt; DMTA_0                98.7698 98.7356 98.8039
-#&gt; log_k_M23             -3.9216 -3.9235 -3.9197
-#&gt; log_k_M27             -4.3377 -4.3398 -4.3357
-#&gt; log_k_M31             -4.2477 -4.2497 -4.2457
-#&gt; log_k1                -2.2341 -2.2353 -2.2329
-#&gt; log_k2                -3.7763 -3.7781 -3.7744
-#&gt; g_qlogis               0.4502  0.4496  0.4507
-#&gt; f_DMTA_tffm0_1_qlogis -2.0924 -2.0936 -2.0912
-#&gt; f_DMTA_tffm0_2_qlogis -2.1806 -2.1818 -2.1794
-#&gt; f_DMTA_tffm0_3_qlogis -2.1427 -2.1439 -2.1415
+#&gt; DMTA_0                98.7132 98.6801 98.7464
+#&gt; log_k_M23             -3.9216 -3.9235 -3.9198
+#&gt; log_k_M27             -4.3306 -4.3326 -4.3286
+#&gt; log_k_M31             -4.2442 -4.2461 -4.2422
+#&gt; log_k1                -2.2352 -2.2364 -2.2340
+#&gt; log_k2                -3.7758 -3.7776 -3.7740
+#&gt; g_qlogis               0.4363  0.4358  0.4368
+#&gt; f_DMTA_tffm0_1_qlogis -2.0915 -2.0926 -2.0903
+#&gt; f_DMTA_tffm0_2_qlogis -2.1788 -2.1800 -2.1776
+#&gt; f_DMTA_tffm0_3_qlogis -2.1404 -2.1415 -2.1392
 #&gt; 
 #&gt; Correlation: 
 #&gt;                       DMTA_0 l__M23 l__M27 l__M31 log_k1 log_k2 g_qlgs
@@ -410,10 +404,10 @@ specific pieces of information in the comments.</p>
 #&gt; 
 #&gt; Random effects (omega):
 #&gt;                           eta.DMTA_0 eta.log_k_M23 eta.log_k_M27 eta.log_k_M31
-#&gt; eta.DMTA_0                     2.352        0.0000        0.0000        0.0000
+#&gt; eta.DMTA_0                     2.327        0.0000        0.0000        0.0000
 #&gt; eta.log_k_M23                  0.000        0.5493        0.0000        0.0000
-#&gt; eta.log_k_M27                  0.000        0.0000        0.8645        0.0000
-#&gt; eta.log_k_M31                  0.000        0.0000        0.0000        0.7503
+#&gt; eta.log_k_M27                  0.000        0.0000        0.8552        0.0000
+#&gt; eta.log_k_M31                  0.000        0.0000        0.0000        0.7457
 #&gt; eta.log_k1                     0.000        0.0000        0.0000        0.0000
 #&gt; eta.log_k2                     0.000        0.0000        0.0000        0.0000
 #&gt; eta.g_qlogis                   0.000        0.0000        0.0000        0.0000
@@ -425,9 +419,9 @@ specific pieces of information in the comments.</p>
 #&gt; eta.log_k_M23                  0.000      0.000        0.000
 #&gt; eta.log_k_M27                  0.000      0.000        0.000
 #&gt; eta.log_k_M31                  0.000      0.000        0.000
-#&gt; eta.log_k1                     0.903      0.000        0.000
+#&gt; eta.log_k1                     0.901      0.000        0.000
 #&gt; eta.log_k2                     0.000      1.577        0.000
-#&gt; eta.g_qlogis                   0.000      0.000        3.085
+#&gt; eta.g_qlogis                   0.000      0.000        3.102
 #&gt; eta.f_DMTA_tffm0_1_qlogis      0.000      0.000        0.000
 #&gt; eta.f_DMTA_tffm0_2_qlogis      0.000      0.000        0.000
 #&gt; eta.f_DMTA_tffm0_3_qlogis      0.000      0.000        0.000
@@ -456,44 +450,44 @@ specific pieces of information in the comments.</p>
 #&gt; 
 #&gt; Variance model:
 #&gt; sigma_low  rsd_high 
-#&gt;   0.69793   0.02577 
+#&gt;   0.70012   0.02577 
 #&gt; 
 #&gt; Backtransformed parameters:
 #&gt;                   est.    lower    upper
-#&gt; DMTA_0        98.76976 98.73563 98.80390
+#&gt; DMTA_0        98.71324 98.68012 98.74636
 #&gt; k_M23          0.01981  0.01977  0.01985
-#&gt; k_M27          0.01307  0.01304  0.01309
-#&gt; k_M31          0.01430  0.01427  0.01433
-#&gt; f_DMTA_to_M23  0.10984       NA       NA
-#&gt; f_DMTA_to_M27  0.09036       NA       NA
-#&gt; f_DMTA_to_M31  0.08399       NA       NA
-#&gt; k1             0.10709  0.10696  0.10722
-#&gt; k2             0.02291  0.02287  0.02295
-#&gt; g              0.61068  0.61055  0.61081
+#&gt; k_M27          0.01316  0.01313  0.01319
+#&gt; k_M31          0.01435  0.01432  0.01438
+#&gt; f_DMTA_to_M23  0.10993       NA       NA
+#&gt; f_DMTA_to_M27  0.09049       NA       NA
+#&gt; f_DMTA_to_M31  0.08414       NA       NA
+#&gt; k1             0.10698  0.10685  0.10710
+#&gt; k2             0.02292  0.02288  0.02296
+#&gt; g              0.60738  0.60725  0.60751
 #&gt; 
 #&gt; Resulting formation fractions:
 #&gt;                ff
-#&gt; DMTA_M23  0.10984
-#&gt; DMTA_M27  0.09036
-#&gt; DMTA_M31  0.08399
-#&gt; DMTA_sink 0.71581
+#&gt; DMTA_M23  0.10993
+#&gt; DMTA_M27  0.09049
+#&gt; DMTA_M31  0.08414
+#&gt; DMTA_sink 0.71543
 #&gt; 
 #&gt; Estimated disappearance times:
-#&gt;       DT50   DT90 DT50back DT50_k1 DT50_k2
-#&gt; DMTA 10.66  59.78       18   6.473   30.26
-#&gt; M23  34.99 116.24       NA      NA      NA
-#&gt; M27  53.05 176.23       NA      NA      NA
-#&gt; M31  48.48 161.05       NA      NA      NA</div><div class='input'><span class='fu'><a href='https://rdrr.io/r/graphics/plot.default.html'>plot</a></span><span class='op'>(</span><span class='va'>f_dmta_nlmixr_focei</span><span class='op'>)</span>
+#&gt;       DT50  DT90 DT50back DT50_k1 DT50_k2
+#&gt; DMTA 10.72  60.1    18.09    6.48   30.24
+#&gt; M23  34.99 116.2       NA      NA      NA
+#&gt; M27  52.67 175.0       NA      NA      NA
+#&gt; M31  48.31 160.5       NA      NA      NA</div><div class='input'><span class='fu'><a href='https://rdrr.io/r/graphics/plot.default.html'>plot</a></span><span class='op'>(</span><span class='va'>f_dmta_nlmixr_focei</span><span class='op'>)</span>
 </div><div class='img'><img src='dimethenamid_2018-1.png' alt='' width='700' height='433' /></div><div class='input'><span class='co'># Using saemix takes about 18 minutes</span>
 <span class='fu'><a href='https://rdrr.io/r/base/system.time.html'>system.time</a></span><span class='op'>(</span>
   <span class='va'>f_dmta_saemix</span> <span class='op'>&lt;-</span> <span class='fu'><a href='saem.html'>saem</a></span><span class='op'>(</span><span class='va'>f_dmta_mkin_tc</span>, test_log_parms <span class='op'>=</span> <span class='cn'>TRUE</span><span class='op'>)</span>
 <span class='op'>)</span>
 </div><div class='output co'>#&gt; Running main SAEM algorithm
-#&gt; [1] "Wed Aug  4 15:53:55 2021"
+#&gt; [1] "Thu Sep 16 14:06:56 2021"
 #&gt; ....
 #&gt;     Minimisation finished
-#&gt; [1] "Wed Aug  4 16:12:40 2021"</div><div class='output co'>#&gt;     user   system  elapsed 
-#&gt; 1192.021    0.064 1192.182 </div><div class='input'>
+#&gt; [1] "Thu Sep 16 14:25:28 2021"</div><div class='output co'>#&gt;     user   system  elapsed 
+#&gt; 1176.278    0.021 1176.388 </div><div class='input'>
 <span class='co'># nlmixr with est = "saem" is pretty fast with default iteration numbers, most</span>
 <span class='co'># of the time (about 2.5 minutes) is spent for calculating the log likelihood at the end</span>
 <span class='co'># The likelihood calculated for the nlmixr fit is much lower than that found by saemix</span>
@@ -504,15 +498,15 @@ specific pieces of information in the comments.</p>
   <span class='va'>f_dmta_nlmixr_saem</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_dmta_mkin_tc</span>, est <span class='op'>=</span> <span class='st'>"saem"</span>,
     control <span class='op'>=</span> <span class='fu'>nlmixr</span><span class='fu'>::</span><span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/saemControl.html'>saemControl</a></span><span class='op'>(</span>print <span class='op'>=</span> <span class='fl'>500</span>, logLik <span class='op'>=</span> <span class='cn'>TRUE</span>, nmc <span class='op'>=</span> <span class='fl'>9</span><span class='op'>)</span><span class='op'>)</span>
 <span class='op'>)</span>
-</div><div class='output co'>#&gt; <span class='message'>With est = 'saem', a different error model is required for each observed variableChanging the error model to 'obs_tc' (Two-component error for each observed variable)</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'>→ generate SAEM model</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; 1:    98.3427   -3.5148   -3.3187   -3.7728   -2.1163   -2.8457    0.9482   -2.8064   -2.7412   -2.8745    2.7912    0.6805    0.8213    0.8055    0.8578    1.4980    2.9309    0.2850    0.2854    0.2850    4.0990    0.3821    3.5349    0.6537    5.4143    0.0002    4.5093    0.1905
-#&gt; 500:    97.8277   -4.3506   -4.0318   -4.1520   -3.0553   -3.5843    1.1326   -2.0873   -2.0421   -2.0751    0.2960    1.2515    0.2531    0.3807    0.7928    0.8863    6.5211    0.1433    0.1082    0.3353    0.8960    0.0470    0.7501    0.0475    0.9527    0.0281    0.7321    0.0594</div><div class='output co'>#&gt; <span class='message'>Calculating covariance matrix</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>Calculating -2LL by Gaussian quadrature (nnodes=3,nsd=1.6)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; [1] "CMT"</div><div class='output co'>#&gt; <span class='message'>Calculating residuals/tables</span></div><div class='output co'>#&gt; <span class='message'>done</span></div><div class='output co'>#&gt;    user  system elapsed 
-#&gt; 813.299   3.736 151.935 </div><div class='input'><span class='fu'>traceplot</span><span class='op'>(</span><span class='va'>f_dmta_nlmixr_saem</span><span class='op'>$</span><span class='va'>nm</span><span class='op'>)</span>
+</div><div class='output co'>#&gt; <span class='message'>With est = 'saem', a different error model is required for each observed variableChanging the error model to 'obs_tc' (Two-component error for each observed variable)</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'>→ generate SAEM model</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; 1:    98.3400   -3.5096   -3.3392   -3.7596   -2.2055   -2.7755    1.0281   -2.7872   -2.7223   -2.8341    2.6422    0.7027    0.8124    0.7085    0.8560    1.4980    3.2777    0.3063    0.2850    0.2850    4.1120    0.3716    4.4582    0.3994    4.4820    0.4025    3.7803    0.5780
+#&gt; 500:    97.8212   -4.4030   -4.0872   -4.1289   -2.8278   -4.3505    2.6614   -2.1252   -2.1308   -2.0749    2.9463    1.2933    0.2802    0.3467    0.4814    0.7877    3.0743    0.1508    0.1523    0.3155    0.9557    0.0333    0.4787    0.1073    0.6826    0.0707    0.7849    0.0356</div><div class='output co'>#&gt; <span class='message'>Calculating covariance matrix</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>Calculating -2LL by Gaussian quadrature (nnodes=3,nsd=1.6)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; [1] "CMT"</div><div class='output co'>#&gt; <span class='message'>Calculating residuals/tables</span></div><div class='output co'>#&gt; <span class='message'>done</span></div><div class='output co'>#&gt;    user  system elapsed 
+#&gt; 800.784   3.715 149.687 </div><div class='input'><span class='fu'>traceplot</span><span class='op'>(</span><span class='va'>f_dmta_nlmixr_saem</span><span class='op'>$</span><span class='va'>nm</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='error'>Error in traceplot(f_dmta_nlmixr_saem$nm): could not find function "traceplot"</span></div><div class='input'><span class='fu'><a href='https://rdrr.io/r/base/summary.html'>summary</a></span><span class='op'>(</span><span class='va'>f_dmta_nlmixr_saem</span><span class='op'>)</span>
-</div><div class='output co'>#&gt; nlmixr version used for fitting:    2.0.4 
-#&gt; mkin version used for pre-fitting:  1.0.5 
-#&gt; R version used for fitting:         4.1.0 
-#&gt; Date of fit:     Wed Aug  4 16:16:18 2021 
-#&gt; Date of summary: Wed Aug  4 16:16:18 2021 
+</div><div class='output co'>#&gt; nlmixr version used for fitting:    2.0.5 
+#&gt; mkin version used for pre-fitting:  1.1.0 
+#&gt; R version used for fitting:         4.1.1 
+#&gt; Date of fit:     Thu Sep 16 14:29:02 2021 
+#&gt; Date of summary: Thu Sep 16 14:29:02 2021 
 #&gt; 
 #&gt; Equations:
 #&gt; d_DMTA/dt = - ((k1 * g * exp(-k1 * time) + k2 * (1 - g) * exp(-k2 *
@@ -529,25 +523,25 @@ specific pieces of information in the comments.</p>
 #&gt;            exp(-k2 * time))) * DMTA - k_M31 * M31
 #&gt; 
 #&gt; Data:
-#&gt; 568 observations of 4 variable(s) grouped in 6 datasets
+#&gt; 563 observations of 4 variable(s) grouped in 6 datasets
 #&gt; 
 #&gt; Degradation model predictions using RxODE
 #&gt; 
-#&gt; Fitted in 151.67 s
+#&gt; Fitted in 149.421 s
 #&gt; 
 #&gt; Variance model: Two-component variance function 
 #&gt; 
 #&gt; Mean of starting values for individual parameters:
 #&gt;       DMTA_0    log_k_M23    log_k_M27    log_k_M31 f_DMTA_ilr_1 f_DMTA_ilr_2 
-#&gt;      98.7698      -3.9216      -4.3377      -4.2477       0.1380       0.1393 
+#&gt;      98.7132      -3.9216      -4.3306      -4.2442       0.1376       0.1388 
 #&gt; f_DMTA_ilr_3       log_k1       log_k2     g_qlogis 
-#&gt;      -1.7571      -2.2341      -3.7763       0.4502 
+#&gt;      -1.7554      -2.2352      -3.7758       0.4363 
 #&gt; 
 #&gt; Mean of starting values for error model parameters:
 #&gt; sigma_low_DMTA  rsd_high_DMTA  sigma_low_M23   rsd_high_M23  sigma_low_M27 
-#&gt;        0.69793        0.02577        0.69793        0.02577        0.69793 
+#&gt;        0.70012        0.02577        0.70012        0.02577        0.70012 
 #&gt;   rsd_high_M27  sigma_low_M31   rsd_high_M31 
-#&gt;        0.02577        0.69793        0.02577 
+#&gt;        0.02577        0.70012        0.02577 
 #&gt; 
 #&gt; Fixed degradation parameter values:
 #&gt; None
@@ -556,32 +550,32 @@ specific pieces of information in the comments.</p>
 #&gt; 
 #&gt; Likelihood calculated by focei  
 #&gt;    AIC  BIC logLik
-#&gt;   2036 2157 -989.8
+#&gt;   1953 2074 -948.3
 #&gt; 
 #&gt; Optimised parameters:
 #&gt;                         est.  lower  upper
-#&gt; DMTA_0                97.828 96.121 99.535
-#&gt; log_k_M23             -4.351 -5.300 -3.401
-#&gt; log_k_M27             -4.032 -4.470 -3.594
-#&gt; log_k_M31             -4.152 -4.689 -3.615
-#&gt; log_k1                -3.055 -3.785 -2.325
-#&gt; log_k2                -3.584 -4.517 -2.651
-#&gt; g_qlogis               1.133 -2.165  4.430
-#&gt; f_DMTA_tffm0_1_qlogis -2.087 -2.407 -1.768
-#&gt; f_DMTA_tffm0_2_qlogis -2.042 -2.336 -1.748
-#&gt; f_DMTA_tffm0_3_qlogis -2.075 -2.557 -1.593
+#&gt; DMTA_0                97.821 95.862 99.780
+#&gt; log_k_M23             -4.403 -5.376 -3.430
+#&gt; log_k_M27             -4.087 -4.545 -3.629
+#&gt; log_k_M31             -4.129 -4.639 -3.618
+#&gt; log_k1                -2.828 -3.389 -2.266
+#&gt; log_k2                -4.351 -5.472 -3.229
+#&gt; g_qlogis               2.661  0.824  4.499
+#&gt; f_DMTA_tffm0_1_qlogis -2.125 -2.449 -1.801
+#&gt; f_DMTA_tffm0_2_qlogis -2.131 -2.468 -1.794
+#&gt; f_DMTA_tffm0_3_qlogis -2.075 -2.540 -1.610
 #&gt; 
 #&gt; Correlation: 
 #&gt;                       DMTA_0 l__M23 l__M27 l__M31 log_k1 log_k2 g_qlgs
-#&gt; log_k_M23             -0.031                                          
-#&gt; log_k_M27             -0.050  0.004                                   
-#&gt; log_k_M31             -0.032  0.003  0.078                            
-#&gt; log_k1                 0.014 -0.002 -0.002 -0.001                     
-#&gt; log_k2                 0.059  0.006 -0.001  0.002 -0.037              
-#&gt; g_qlogis              -0.077  0.005  0.009  0.004  0.035 -0.201       
-#&gt; f_DMTA_tffm0_1_qlogis -0.104  0.066  0.009  0.006  0.000 -0.011  0.014
-#&gt; f_DMTA_tffm0_2_qlogis -0.120  0.013  0.081 -0.033 -0.002 -0.013  0.017
-#&gt; f_DMTA_tffm0_3_qlogis -0.086  0.010  0.060  0.078 -0.002 -0.005  0.010
+#&gt; log_k_M23             -0.019                                          
+#&gt; log_k_M27             -0.028  0.004                                   
+#&gt; log_k_M31             -0.019  0.003  0.075                            
+#&gt; log_k1                 0.038 -0.004 -0.006 -0.003                     
+#&gt; log_k2                 0.046  0.011  0.008  0.009  0.068              
+#&gt; g_qlogis              -0.067  0.004  0.006  0.001 -0.076 -0.409       
+#&gt; f_DMTA_tffm0_1_qlogis -0.062  0.055  0.006  0.004 -0.008 -0.004  0.012
+#&gt; f_DMTA_tffm0_2_qlogis -0.062  0.010  0.058 -0.034 -0.008 -0.007  0.014
+#&gt; f_DMTA_tffm0_3_qlogis -0.052  0.009  0.056  0.071 -0.006 -0.001  0.008
 #&gt;                       f_DMTA_0_1 f_DMTA_0_2
 #&gt; log_k_M23                                  
 #&gt; log_k_M27                                  
@@ -590,15 +584,15 @@ specific pieces of information in the comments.</p>
 #&gt; log_k2                                     
 #&gt; g_qlogis                                   
 #&gt; f_DMTA_tffm0_1_qlogis                      
-#&gt; f_DMTA_tffm0_2_qlogis  0.026               
-#&gt; f_DMTA_tffm0_3_qlogis  0.019      0.002    
+#&gt; f_DMTA_tffm0_2_qlogis  0.017               
+#&gt; f_DMTA_tffm0_3_qlogis  0.014     -0.005    
 #&gt; 
 #&gt; Random effects (omega):
 #&gt;                           eta.DMTA_0 eta.log_k_M23 eta.log_k_M27 eta.log_k_M31
-#&gt; eta.DMTA_0                     0.296         0.000        0.0000        0.0000
-#&gt; eta.log_k_M23                  0.000         1.252        0.0000        0.0000
-#&gt; eta.log_k_M27                  0.000         0.000        0.2531        0.0000
-#&gt; eta.log_k_M31                  0.000         0.000        0.0000        0.3807
+#&gt; eta.DMTA_0                     2.946         0.000        0.0000        0.0000
+#&gt; eta.log_k_M23                  0.000         1.293        0.0000        0.0000
+#&gt; eta.log_k_M27                  0.000         0.000        0.2802        0.0000
+#&gt; eta.log_k_M31                  0.000         0.000        0.0000        0.3467
 #&gt; eta.log_k1                     0.000         0.000        0.0000        0.0000
 #&gt; eta.log_k2                     0.000         0.000        0.0000        0.0000
 #&gt; eta.g_qlogis                   0.000         0.000        0.0000        0.0000
@@ -610,9 +604,9 @@ specific pieces of information in the comments.</p>
 #&gt; eta.log_k_M23                 0.0000     0.0000        0.000
 #&gt; eta.log_k_M27                 0.0000     0.0000        0.000
 #&gt; eta.log_k_M31                 0.0000     0.0000        0.000
-#&gt; eta.log_k1                    0.7928     0.0000        0.000
-#&gt; eta.log_k2                    0.0000     0.8863        0.000
-#&gt; eta.g_qlogis                  0.0000     0.0000        6.521
+#&gt; eta.log_k1                    0.4814     0.0000        0.000
+#&gt; eta.log_k2                    0.0000     0.7877        0.000
+#&gt; eta.g_qlogis                  0.0000     0.0000        3.074
 #&gt; eta.f_DMTA_tffm0_1_qlogis     0.0000     0.0000        0.000
 #&gt; eta.f_DMTA_tffm0_2_qlogis     0.0000     0.0000        0.000
 #&gt; eta.f_DMTA_tffm0_3_qlogis     0.0000     0.0000        0.000
@@ -624,8 +618,8 @@ specific pieces of information in the comments.</p>
 #&gt; eta.log_k1                                   0.0000                    0.0000
 #&gt; eta.log_k2                                   0.0000                    0.0000
 #&gt; eta.g_qlogis                                 0.0000                    0.0000
-#&gt; eta.f_DMTA_tffm0_1_qlogis                    0.1433                    0.0000
-#&gt; eta.f_DMTA_tffm0_2_qlogis                    0.0000                    0.1082
+#&gt; eta.f_DMTA_tffm0_1_qlogis                    0.1508                    0.0000
+#&gt; eta.f_DMTA_tffm0_2_qlogis                    0.0000                    0.1523
 #&gt; eta.f_DMTA_tffm0_3_qlogis                    0.0000                    0.0000
 #&gt;                           eta.f_DMTA_tffm0_3_qlogis
 #&gt; eta.DMTA_0                                   0.0000
@@ -637,40 +631,40 @@ specific pieces of information in the comments.</p>
 #&gt; eta.g_qlogis                                 0.0000
 #&gt; eta.f_DMTA_tffm0_1_qlogis                    0.0000
 #&gt; eta.f_DMTA_tffm0_2_qlogis                    0.0000
-#&gt; eta.f_DMTA_tffm0_3_qlogis                    0.3353
+#&gt; eta.f_DMTA_tffm0_3_qlogis                    0.3155
 #&gt; 
 #&gt; Variance model:
 #&gt; sigma_low_DMTA  rsd_high_DMTA  sigma_low_M23   rsd_high_M23  sigma_low_M27 
-#&gt;        0.89603        0.04704        0.75015        0.04753        0.95265 
+#&gt;        0.95572        0.03325        0.47871        0.10733        0.68264 
 #&gt;   rsd_high_M27  sigma_low_M31   rsd_high_M31 
-#&gt;        0.02810        0.73212        0.05942 
+#&gt;        0.07072        0.78486        0.03557 
 #&gt; 
 #&gt; Backtransformed parameters:
 #&gt;                   est.     lower    upper
-#&gt; DMTA_0        97.82774 96.120503 99.53498
-#&gt; k_M23          0.01290  0.004991  0.03334
-#&gt; k_M27          0.01774  0.011451  0.02749
-#&gt; k_M31          0.01573  0.009195  0.02692
-#&gt; f_DMTA_to_M23  0.11033        NA       NA
-#&gt; f_DMTA_to_M27  0.10218        NA       NA
-#&gt; f_DMTA_to_M31  0.08784        NA       NA
-#&gt; k1             0.04711  0.022707  0.09773
-#&gt; k2             0.02775  0.010918  0.07056
-#&gt; g              0.75632  0.102960  0.98823
+#&gt; DMTA_0        97.82122 95.862233 99.78020
+#&gt; k_M23          0.01224  0.004625  0.03239
+#&gt; k_M27          0.01679  0.010615  0.02654
+#&gt; k_M31          0.01610  0.009664  0.02683
+#&gt; f_DMTA_to_M23  0.10668        NA       NA
+#&gt; f_DMTA_to_M27  0.09481        NA       NA
+#&gt; f_DMTA_to_M31  0.08908        NA       NA
+#&gt; k1             0.05914  0.033731  0.10370
+#&gt; k2             0.01290  0.004204  0.03958
+#&gt; g              0.93471  0.695081  0.98900
 #&gt; 
 #&gt; Resulting formation fractions:
 #&gt;                ff
-#&gt; DMTA_M23  0.11033
-#&gt; DMTA_M27  0.10218
-#&gt; DMTA_M31  0.08784
-#&gt; DMTA_sink 0.69965
+#&gt; DMTA_M23  0.10668
+#&gt; DMTA_M27  0.09481
+#&gt; DMTA_M31  0.08908
+#&gt; DMTA_sink 0.70943
 #&gt; 
 #&gt; Estimated disappearance times:
 #&gt;       DT50   DT90 DT50back DT50_k1 DT50_k2
-#&gt; DMTA 16.59  57.44    17.29   14.71   24.97
-#&gt; M23  53.74 178.51       NA      NA      NA
-#&gt; M27  39.07 129.78       NA      NA      NA
-#&gt; M31  44.06 146.36       NA      NA      NA</div><div class='input'><span class='fu'><a href='https://rdrr.io/r/graphics/plot.default.html'>plot</a></span><span class='op'>(</span><span class='va'>f_dmta_nlmixr_saem</span><span class='op'>)</span>
+#&gt; DMTA 12.57  45.43    13.67   11.72   53.73
+#&gt; M23  56.63 188.11       NA      NA      NA
+#&gt; M27  41.29 137.18       NA      NA      NA
+#&gt; M31  43.05 143.01       NA      NA      NA</div><div class='input'><span class='fu'><a href='https://rdrr.io/r/graphics/plot.default.html'>plot</a></span><span class='op'>(</span><span class='va'>f_dmta_nlmixr_saem</span><span class='op'>)</span>
 </div><div class='img'><img src='dimethenamid_2018-2.png' alt='' width='700' height='433' /></div><div class='input'><span class='co'># }</span>
 </div></pre>
   </div>
diff --git a/docs/dev/reference/endpoints.html b/docs/dev/reference/endpoints.html
index dc1d1f17..aa5bd773 100644
--- a/docs/dev/reference/endpoints.html
+++ b/docs/dev/reference/endpoints.html
@@ -78,7 +78,7 @@ advantage that the SFORB model can also be used for metabolites." />
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
diff --git a/docs/dev/reference/index.html b/docs/dev/reference/index.html
index bb030605..d5ec387a 100644
--- a/docs/dev/reference/index.html
+++ b/docs/dev/reference/index.html
@@ -71,7 +71,7 @@
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
diff --git a/docs/dev/reference/mean_degparms.html b/docs/dev/reference/mean_degparms.html
index f63dbc31..5981c625 100644
--- a/docs/dev/reference/mean_degparms.html
+++ b/docs/dev/reference/mean_degparms.html
@@ -72,7 +72,7 @@
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
diff --git a/docs/dev/reference/mkinmod.html b/docs/dev/reference/mkinmod.html
index ac7c2daa..6478cda4 100644
--- a/docs/dev/reference/mkinmod.html
+++ b/docs/dev/reference/mkinmod.html
@@ -76,7 +76,7 @@ components." />
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
@@ -344,7 +344,7 @@ Evaluating and Calculating Degradation Kinetics in Environmental Media</p>
    parent <span class='op'>=</span> <span class='fu'>mkinsub</span><span class='op'>(</span><span class='st'>"SFO"</span>, <span class='st'>"m1"</span>, full_name <span class='op'>=</span> <span class='st'>"Test compound"</span><span class='op'>)</span>,
    m1 <span class='op'>=</span> <span class='fu'>mkinsub</span><span class='op'>(</span><span class='st'>"SFO"</span>, full_name <span class='op'>=</span> <span class='st'>"Metabolite M1"</span><span class='op'>)</span>,
    name <span class='op'>=</span> <span class='st'>"SFO_SFO"</span>, dll_dir <span class='op'>=</span> <span class='va'>DLL_dir</span>, unload <span class='op'>=</span> <span class='cn'>TRUE</span>, overwrite <span class='op'>=</span> <span class='cn'>TRUE</span><span class='op'>)</span>
-</div><div class='output co'>#&gt; <span class='message'>Copied DLL from /tmp/RtmpKZJMFk/file179ba717d15c81.so to /home/jranke/.local/share/mkin/SFO_SFO.so</span></div><div class='input'><span class='co'># Now we can save the model and restore it in a new session</span>
+</div><div class='output co'>#&gt; <span class='message'>Copied DLL from /tmp/RtmpTzKqT5/file7993c266a7f90.so to /home/jranke/.local/share/mkin/SFO_SFO.so</span></div><div class='input'><span class='co'># Now we can save the model and restore it in a new session</span>
 <span class='fu'><a href='https://rdrr.io/r/base/readRDS.html'>saveRDS</a></span><span class='op'>(</span><span class='va'>SFO_SFO.2</span>, file <span class='op'>=</span> <span class='st'>"~/SFO_SFO.rds"</span><span class='op'>)</span>
 <span class='co'># Terminate the R session here if you would like to check, and then do</span>
 <span class='kw'><a href='https://rdrr.io/r/base/library.html'>library</a></span><span class='op'>(</span><span class='va'><a href='https://pkgdown.jrwb.de/mkin/'>mkin</a></span><span class='op'>)</span>
@@ -393,7 +393,7 @@ Evaluating and Calculating Degradation Kinetics in Environmental Media</p>
 #&gt;     })
 #&gt;     return(predicted)
 #&gt; }
-#&gt; &lt;environment: 0x555559c54f78&gt;</div><div class='input'>
+#&gt; &lt;environment: 0x555559365690&gt;</div><div class='input'>
 <span class='co'># If we have several parallel metabolites</span>
 <span class='co'># (compare tests/testthat/test_synthetic_data_for_UBA_2014.R)</span>
 <span class='va'>m_synth_DFOP_par</span> <span class='op'>&lt;-</span> <span class='fu'>mkinmod</span><span class='op'>(</span>
diff --git a/docs/dev/reference/nlme-1.png b/docs/dev/reference/nlme-1.png
index 365aaef0..e4bc2fde 100644
Binary files a/docs/dev/reference/nlme-1.png and b/docs/dev/reference/nlme-1.png differ
diff --git a/docs/dev/reference/nlme-2.png b/docs/dev/reference/nlme-2.png
index 40841404..31910ce4 100644
Binary files a/docs/dev/reference/nlme-2.png and b/docs/dev/reference/nlme-2.png differ
diff --git a/docs/dev/reference/nlme.html b/docs/dev/reference/nlme.html
index 55a94443..500ac391 100644
--- a/docs/dev/reference/nlme.html
+++ b/docs/dev/reference/nlme.html
@@ -75,7 +75,7 @@ datasets. They are used internally by the nlme.mmkin() method." />
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
@@ -216,28 +216,28 @@ datasets. They are used internally by the <code><a href='nlme.mmkin.html'>nlme.m
 #&gt;   Model: value ~ nlme_f(name, time, parent_0, log_k_parent_sink) 
 #&gt;   Data: grouped_data 
 #&gt;        AIC      BIC    logLik
-#&gt;   300.6824 310.2426 -145.3412
+#&gt;   289.8295 299.4886 -139.9148
 #&gt; 
 #&gt; Random effects:
 #&gt;  Formula: list(parent_0 ~ 1, log_k_parent_sink ~ 1)
 #&gt;  Level: ds
 #&gt;  Structure: Diagonal
 #&gt;         parent_0 log_k_parent_sink Residual
-#&gt; StdDev: 1.697361         0.6801209 3.666073
+#&gt; StdDev: 1.839278         0.6988919 3.059894
 #&gt; 
 #&gt; Fixed effects:  parent_0 + log_k_parent_sink ~ 1 
 #&gt;                       Value Std.Error DF  t-value p-value
-#&gt; parent_0          100.99378 1.3890416 46 72.70753       0
-#&gt; log_k_parent_sink  -3.07521 0.4018589 46 -7.65246       0
+#&gt; parent_0          100.52780 1.3507449 47 74.42397       0
+#&gt; log_k_parent_sink  -3.08477 0.4124053 47 -7.47995       0
 #&gt;  Correlation: 
 #&gt;                   prnt_0
-#&gt; log_k_parent_sink 0.027 
+#&gt; log_k_parent_sink 0.019 
 #&gt; 
 #&gt; Standardized Within-Group Residuals:
-#&gt;        Min         Q1        Med         Q3        Max 
-#&gt; -1.9942823 -0.5622565  0.1791579  0.7165038  2.0704781 
+#&gt;         Min          Q1         Med          Q3         Max 
+#&gt; -2.22350411 -0.51546184  0.04803417  0.55987705  3.49178405 
 #&gt; 
-#&gt; Number of Observations: 50
+#&gt; Number of Observations: 51
 #&gt; Number of Groups: 3 </div><div class='input'><span class='fu'><a href='https://rdrr.io/r/graphics/plot.default.html'>plot</a></span><span class='op'>(</span><span class='fu'><a href='https://rdrr.io/pkg/nlme/man/augPred.html'>augPred</a></span><span class='op'>(</span><span class='va'>m_nlme</span>, level <span class='op'>=</span> <span class='fl'>0</span><span class='op'>:</span><span class='fl'>1</span><span class='op'>)</span>, layout <span class='op'>=</span> <span class='fu'><a href='https://rdrr.io/r/base/c.html'>c</a></span><span class='op'>(</span><span class='fl'>3</span>, <span class='fl'>1</span><span class='op'>)</span><span class='op'>)</span>
 </div><div class='img'><img src='nlme-1.png' alt='' width='700' height='433' /></div><div class='input'><span class='co'># augPred does not work on fits with more than one state</span>
 <span class='co'># variable</span>
diff --git a/docs/dev/reference/nlme.mmkin.html b/docs/dev/reference/nlme.mmkin.html
index db863392..866091ca 100644
--- a/docs/dev/reference/nlme.mmkin.html
+++ b/docs/dev/reference/nlme.mmkin.html
@@ -74,7 +74,7 @@ have been obtained by fitting the same model to a list of datasets." />
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
diff --git a/docs/dev/reference/nlmixr.mmkin.html b/docs/dev/reference/nlmixr.mmkin.html
index 99a7ad14..db114483 100644
--- a/docs/dev/reference/nlmixr.mmkin.html
+++ b/docs/dev/reference/nlmixr.mmkin.html
@@ -74,7 +74,7 @@ Expectation Maximisation algorithm (SAEM)." />
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
@@ -4416,7 +4416,8 @@ obtained by fitting the same model to a list of datasets using <a href='mkinfit.
 #&gt; |.....................| 5.960e-07 |    0.6941 |     1.222 |     1.493 |
 #&gt; |    X|<span style='font-weight: bold;'>     288.66432</span> |     94.40 |    0.8038 |     7.793 |     2.283 |
 #&gt; |.....................| 5.960e-07 |    0.6941 |     1.222 |     1.493 |
-#&gt; done</div><div class='output co'>#&gt; <span class='message'>Calculating residuals/tables</span></div><div class='output co'>#&gt; <span class='message'>done</span></div><div class='output co'>#&gt; <span class='warning'>Warning: initial ETAs were nudged; (can control by foceiControl(etaNudge=., etaNudge2=))</span></div><div class='output co'>#&gt; <span class='warning'>Warning: ETAs were reset to zero during optimization; (Can control by foceiControl(resetEtaP=.))</span></div><div class='output co'>#&gt; <span class='warning'>Warning: last objective function was not at minimum, possible problems in optimization</span></div><div class='output co'>#&gt; <span class='warning'>Warning: parameter estimate near boundary; covariance not calculated</span>
+#&gt; done</div><div class='output co'>#&gt; <span class='message'>Calculating residuals/tables</span></div><div class='output co'>#&gt; <span class='message'>done</span></div><div class='output co'>#&gt; <span class='warning'>Warning: initial ETAs were nudged; (can control by foceiControl(etaNudge=., etaNudge2=))</span></div><div class='output co'>#&gt; <span class='warning'>Warning: ETAs were reset to zero during optimization; (Can control by foceiControl(resetEtaP=.))</span></div><div class='output co'>#&gt; <span class='warning'>Warning: last objective function was not at minimum, possible problems in optimization</span></div><div class='output co'>#&gt; <span class='warning'>Warning: parameter estimate near boundary; covariance not calculated:</span>
+#&gt; <span class='warning'>   "rsd_high" </span>
 #&gt; <span class='warning'> use 'getVarCov' to calculate anyway</span></div><div class='output co'>#&gt; <span class='warning'>Warning: gradient problems with initial estimate; see $scaleInfo</span></div><div class='input'>
 <span class='fu'><a href='https://rdrr.io/r/stats/AIC.html'>AIC</a></span><span class='op'>(</span>
   <span class='va'>f_nlmixr_sfo_saem</span><span class='op'>$</span><span class='va'>nm</span>, <span class='va'>f_nlmixr_sfo_focei</span><span class='op'>$</span><span class='va'>nm</span>,
@@ -4501,7 +4502,7 @@ obtained by fitting the same model to a list of datasets using <a href='mkinfit.
 #&gt; <span class='message'>k_A1=rx_expr_11;</span>
 #&gt; <span class='message'>f_parent=1/(1+exp(-(ETA[4]+THETA[4])));</span>
 #&gt; <span class='message'>tad=tad();</span>
-#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 5.723 0.414 6.136</span></div><div class='input'><span class='va'>f_nlmixr_fomc_sfo_focei_const</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_const</span><span class='op'>[</span><span class='st'>"FOMC-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
+#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 5.579 0.328 5.909</span></div><div class='input'><span class='va'>f_nlmixr_fomc_sfo_focei_const</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_const</span><span class='op'>[</span><span class='st'>"FOMC-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ calculate jacobian</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate sensitivities</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(f)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(R²)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling inner model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling events FD model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Model:</span></div><div class='output co'>#&gt; <span class='message'>cmt(parent);</span>
 #&gt; <span class='message'>cmt(A1);</span>
 #&gt; <span class='message'>rx_expr_6~ETA[1]+THETA[1];</span>
@@ -4550,7 +4551,7 @@ obtained by fitting the same model to a list of datasets using <a href='mkinfit.
 #&gt; <span class='message'>beta=exp(rx_expr_8);</span>
 #&gt; <span class='message'>f_parent=1/(1+exp(-(ETA[3]+THETA[3])));</span>
 #&gt; <span class='message'>tad=tad();</span>
-#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 6.874 0.399 7.27</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_focei_const</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_const</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
+#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 7.125 0.34 7.462</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_focei_const</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_const</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ calculate jacobian</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate sensitivities</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(f)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(R²)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling inner model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling events FD model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Model:</span></div><div class='output co'>#&gt; <span class='message'>cmt(parent);</span>
 #&gt; <span class='message'>cmt(A1);</span>
 #&gt; <span class='message'>rx_expr_6~ETA[1]+THETA[1];</span>
@@ -4607,10 +4608,10 @@ obtained by fitting the same model to a list of datasets using <a href='mkinfit.
 #&gt; <span class='message'>f_parent=1/(1+exp(-(ETA[3]+THETA[3])));</span>
 #&gt; <span class='message'>g=1/(rx_expr_20);</span>
 #&gt; <span class='message'>tad=tad();</span>
-#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 14.83 0.382 15.21</span></div><div class='input'>
+#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 15.03 0.407 15.43</span></div><div class='input'>
 <span class='co'># Variance by variable is supported by 'saem' and 'focei'</span>
 <span class='va'>f_nlmixr_fomc_sfo_saem_obs</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_obs</span><span class='op'>[</span><span class='st'>"FOMC-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"saem"</span><span class='op'>)</span>
-</div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'>→ generate SAEM model</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='error'>Error in configsaem(model = model, data = dat, inits = inits, mcmc = .mcmc,     ODEopt = .ODEopt, seed = .seed, distribution = .dist, DEBUG = .DEBUG,     addProp = .addProp, tol = .tol, itmax = .itmax, type = .type,     powRange = .powRange, lambdaRange = .lambdaRange): covariate(s) not found: f_parent_to_A1</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 1.22 0.146 1.365</span></div><div class='input'><span class='va'>f_nlmixr_fomc_sfo_focei_obs</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_obs</span><span class='op'>[</span><span class='st'>"FOMC-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
+</div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'>→ generate SAEM model</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='error'>Error in configsaem(model = model, data = dat, inits = inits, mcmc = .mcmc,     ODEopt = .ODEopt, seed = .seed, distribution = .dist, DEBUG = .DEBUG,     addProp = .addProp, tol = .tol, itmax = .itmax, type = .type,     powRange = .powRange, lambdaRange = .lambdaRange): covariate(s) not found: f_parent_to_A1</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 1.253 0.121 1.373</span></div><div class='input'><span class='va'>f_nlmixr_fomc_sfo_focei_obs</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_obs</span><span class='op'>[</span><span class='st'>"FOMC-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ calculate jacobian</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate sensitivities</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(f)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(R²)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling inner model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling events FD model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Model:</span></div><div class='output co'>#&gt; <span class='message'>cmt(parent);</span>
 #&gt; <span class='message'>cmt(A1);</span>
 #&gt; <span class='message'>rx_expr_6~ETA[1]+THETA[1];</span>
@@ -4659,8 +4660,8 @@ obtained by fitting the same model to a list of datasets using <a href='mkinfit.
 #&gt; <span class='message'>beta=exp(rx_expr_8);</span>
 #&gt; <span class='message'>f_parent=1/(1+exp(-(ETA[3]+THETA[3])));</span>
 #&gt; <span class='message'>tad=tad();</span>
-#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 6.6 0.416 7.016</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_saem_obs</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_obs</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"saem"</span><span class='op'>)</span>
-</div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'>→ generate SAEM model</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='error'>Error in configsaem(model = model, data = dat, inits = inits, mcmc = .mcmc,     ODEopt = .ODEopt, seed = .seed, distribution = .dist, DEBUG = .DEBUG,     addProp = .addProp, tol = .tol, itmax = .itmax, type = .type,     powRange = .powRange, lambdaRange = .lambdaRange): covariate(s) not found: f_parent_to_A1</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 1.551 0.126 1.673</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_focei_obs</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_obs</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
+#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 6.487 0.387 6.872</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_saem_obs</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_obs</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"saem"</span><span class='op'>)</span>
+</div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'>→ generate SAEM model</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='error'>Error in configsaem(model = model, data = dat, inits = inits, mcmc = .mcmc,     ODEopt = .ODEopt, seed = .seed, distribution = .dist, DEBUG = .DEBUG,     addProp = .addProp, tol = .tol, itmax = .itmax, type = .type,     powRange = .powRange, lambdaRange = .lambdaRange): covariate(s) not found: f_parent_to_A1</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 1.385 0.1 1.485</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_focei_obs</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_obs</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ calculate jacobian</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate sensitivities</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(f)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(R²)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling inner model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling events FD model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Model:</span></div><div class='output co'>#&gt; <span class='message'>cmt(parent);</span>
 #&gt; <span class='message'>cmt(A1);</span>
 #&gt; <span class='message'>rx_expr_6~ETA[1]+THETA[1];</span>
@@ -4717,7 +4718,7 @@ obtained by fitting the same model to a list of datasets using <a href='mkinfit.
 #&gt; <span class='message'>f_parent=1/(1+exp(-(ETA[3]+THETA[3])));</span>
 #&gt; <span class='message'>g=1/(rx_expr_19);</span>
 #&gt; <span class='message'>tad=tad();</span>
-#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 15.24 0.429 15.67</span></div><div class='input'>
+#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 15.06 0.434 15.49</span></div><div class='input'>
 <span class='co'># Identical two-component error for all variables is only possible with</span>
 <span class='co'># est = 'focei' in nlmixr</span>
 <span class='va'>f_nlmixr_fomc_sfo_focei_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_tc</span><span class='op'>[</span><span class='st'>"FOMC-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
@@ -4771,7 +4772,7 @@ obtained by fitting the same model to a list of datasets using <a href='mkinfit.
 #&gt; <span class='message'>beta=exp(rx_expr_8);</span>
 #&gt; <span class='message'>f_parent=1/(1+exp(-(ETA[3]+THETA[3])));</span>
 #&gt; <span class='message'>tad=tad();</span>
-#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 8.644 0.416 9.058</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_focei_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_tc</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
+#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 8.599 0.38 8.975</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_focei_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_tc</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ calculate jacobian</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate sensitivities</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(f)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(R²)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling inner model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling events FD model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Model:</span></div><div class='output co'>#&gt; <span class='message'>cmt(parent);</span>
 #&gt; <span class='message'>cmt(A1);</span>
 #&gt; <span class='message'>rx_expr_6~ETA[1]+THETA[1];</span>
@@ -4830,12 +4831,12 @@ obtained by fitting the same model to a list of datasets using <a href='mkinfit.
 #&gt; <span class='message'>f_parent=1/(1+exp(-(ETA[3]+THETA[3])));</span>
 #&gt; <span class='message'>g=1/(rx_expr_21);</span>
 #&gt; <span class='message'>tad=tad();</span>
-#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 18.76 0.426 19.18</span></div><div class='input'>
+#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 17.64 0.453 18.09</span></div><div class='input'>
 <span class='co'># Two-component error by variable is possible with both estimation methods</span>
 <span class='co'># Variance by variable is supported by 'saem' and 'focei'</span>
 <span class='va'>f_nlmixr_fomc_sfo_saem_obs_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_tc</span><span class='op'>[</span><span class='st'>"FOMC-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"saem"</span>,
   error_model <span class='op'>=</span> <span class='st'>"obs_tc"</span><span class='op'>)</span>
-</div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='error'>Error in configsaem(model = model, data = dat, inits = inits, mcmc = .mcmc,     ODEopt = .ODEopt, seed = .seed, distribution = .dist, DEBUG = .DEBUG,     addProp = .addProp, tol = .tol, itmax = .itmax, type = .type,     powRange = .powRange, lambdaRange = .lambdaRange): covariate(s) not found: f_parent_to_A1</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 0.757 0.072 0.829</span></div><div class='input'><span class='va'>f_nlmixr_fomc_sfo_focei_obs_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_tc</span><span class='op'>[</span><span class='st'>"FOMC-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span>,
+</div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='error'>Error in configsaem(model = model, data = dat, inits = inits, mcmc = .mcmc,     ODEopt = .ODEopt, seed = .seed, distribution = .dist, DEBUG = .DEBUG,     addProp = .addProp, tol = .tol, itmax = .itmax, type = .type,     powRange = .powRange, lambdaRange = .lambdaRange): covariate(s) not found: f_parent_to_A1</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 0.772 0.04 0.813</span></div><div class='input'><span class='va'>f_nlmixr_fomc_sfo_focei_obs_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_tc</span><span class='op'>[</span><span class='st'>"FOMC-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span>,
   error_model <span class='op'>=</span> <span class='st'>"obs_tc"</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ calculate jacobian</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate sensitivities</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(f)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(R²)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling inner model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling events FD model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Model:</span></div><div class='output co'>#&gt; <span class='message'>cmt(parent);</span>
 #&gt; <span class='message'>cmt(A1);</span>
@@ -4887,9 +4888,9 @@ obtained by fitting the same model to a list of datasets using <a href='mkinfit.
 #&gt; <span class='message'>beta=exp(rx_expr_8);</span>
 #&gt; <span class='message'>f_parent=1/(1+exp(-(ETA[3]+THETA[3])));</span>
 #&gt; <span class='message'>tad=tad();</span>
-#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 8.417 0.388 8.803</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_saem_obs_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_tc</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"saem"</span>,
+#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 8.33 0.419 8.745</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_saem_obs_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_tc</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"saem"</span>,
   error_model <span class='op'>=</span> <span class='st'>"obs_tc"</span><span class='op'>)</span>
-</div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='error'>Error in configsaem(model = model, data = dat, inits = inits, mcmc = .mcmc,     ODEopt = .ODEopt, seed = .seed, distribution = .dist, DEBUG = .DEBUG,     addProp = .addProp, tol = .tol, itmax = .itmax, type = .type,     powRange = .powRange, lambdaRange = .lambdaRange): covariate(s) not found: f_parent_to_A1</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 0.82 0.035 0.857</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_focei_obs_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_tc</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span>,
+</div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='error'>Error in configsaem(model = model, data = dat, inits = inits, mcmc = .mcmc,     ODEopt = .ODEopt, seed = .seed, distribution = .dist, DEBUG = .DEBUG,     addProp = .addProp, tol = .tol, itmax = .itmax, type = .type,     powRange = .powRange, lambdaRange = .lambdaRange): covariate(s) not found: f_parent_to_A1</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 0.832 0.032 0.866</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_focei_obs_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_tc</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span>, est <span class='op'>=</span> <span class='st'>"focei"</span>,
   error_model <span class='op'>=</span> <span class='st'>"obs_tc"</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ calculate jacobian</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate sensitivities</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(f)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(R²)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling inner model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling events FD model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Model:</span></div><div class='output co'>#&gt; <span class='message'>cmt(parent);</span>
 #&gt; <span class='message'>cmt(A1);</span>
@@ -4949,7 +4950,7 @@ obtained by fitting the same model to a list of datasets using <a href='mkinfit.
 #&gt; <span class='message'>f_parent=1/(1+exp(-(ETA[3]+THETA[3])));</span>
 #&gt; <span class='message'>g=1/(rx_expr_19);</span>
 #&gt; <span class='message'>tad=tad();</span>
-#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 17.61 0.452 18.06</span></div><div class='input'>
+#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_A1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 18.15 0.42 18.57</span></div><div class='input'>
 <span class='fu'><a href='https://rdrr.io/r/stats/AIC.html'>AIC</a></span><span class='op'>(</span>
   <span class='va'>f_nlmixr_sfo_sfo_focei_const</span><span class='op'>$</span><span class='va'>nm</span>,
   <span class='va'>f_nlmixr_fomc_sfo_focei_const</span><span class='op'>$</span><span class='va'>nm</span>,
diff --git a/docs/dev/reference/plot.mixed.mmkin.html b/docs/dev/reference/plot.mixed.mmkin.html
index 746a8640..9f0eb965 100644
--- a/docs/dev/reference/plot.mixed.mmkin.html
+++ b/docs/dev/reference/plot.mixed.mmkin.html
@@ -72,7 +72,7 @@
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
@@ -296,10 +296,10 @@ corresponding model prediction lines for the different datasets.</p></td>
 </div><div class='img'><img src='plot.mixed.mmkin-2.png' alt='' width='700' height='433' /></div><div class='input'>
 <span class='va'>f_saem</span> <span class='op'>&lt;-</span> <span class='fu'><a href='saem.html'>saem</a></span><span class='op'>(</span><span class='va'>f</span>, transformations <span class='op'>=</span> <span class='st'>"saemix"</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; Running main SAEM algorithm
-#&gt; [1] "Wed Aug  4 16:21:52 2021"
+#&gt; [1] "Thu Sep 16 14:34:31 2021"
 #&gt; ....
 #&gt;     Minimisation finished
-#&gt; [1] "Wed Aug  4 16:22:00 2021"</div><div class='input'><span class='fu'><a href='https://rdrr.io/r/graphics/plot.default.html'>plot</a></span><span class='op'>(</span><span class='va'>f_saem</span><span class='op'>)</span>
+#&gt; [1] "Thu Sep 16 14:34:38 2021"</div><div class='input'><span class='fu'><a href='https://rdrr.io/r/graphics/plot.default.html'>plot</a></span><span class='op'>(</span><span class='va'>f_saem</span><span class='op'>)</span>
 </div><div class='img'><img src='plot.mixed.mmkin-3.png' alt='' width='700' height='433' /></div><div class='input'>
 <span class='va'>f_obs</span> <span class='op'>&lt;-</span> <span class='fu'><a href='mmkin.html'>mmkin</a></span><span class='op'>(</span><span class='fu'><a href='https://rdrr.io/r/base/list.html'>list</a></span><span class='op'>(</span><span class='st'>"DFOP-SFO"</span> <span class='op'>=</span> <span class='va'>dfop_sfo</span><span class='op'>)</span>, <span class='va'>ds</span>, quiet <span class='op'>=</span> <span class='cn'>TRUE</span>, error_model <span class='op'>=</span> <span class='st'>"obs"</span><span class='op'>)</span>
 <span class='va'>f_nlmix</span> <span class='op'>&lt;-</span> <span class='fu'>nlmix</span><span class='op'>(</span><span class='va'>f_obs</span><span class='op'>)</span>
diff --git a/docs/dev/reference/reexports.html b/docs/dev/reference/reexports.html
index f5ace044..ac4fa4d9 100644
--- a/docs/dev/reference/reexports.html
+++ b/docs/dev/reference/reexports.html
@@ -81,7 +81,7 @@ below to see their documentation.
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
diff --git a/docs/dev/reference/saem.html b/docs/dev/reference/saem.html
index 620173b2..8d986126 100644
--- a/docs/dev/reference/saem.html
+++ b/docs/dev/reference/saem.html
@@ -74,7 +74,7 @@ Expectation Maximisation algorithm (SAEM)." />
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
@@ -288,27 +288,27 @@ using <a href='mmkin.html'>mmkin</a>.</p>
   state.ini <span class='op'>=</span> <span class='fu'><a href='https://rdrr.io/r/base/c.html'>c</a></span><span class='op'>(</span>parent <span class='op'>=</span> <span class='fl'>100</span><span class='op'>)</span>, fixed_initials <span class='op'>=</span> <span class='st'>"parent"</span>, quiet <span class='op'>=</span> <span class='cn'>TRUE</span><span class='op'>)</span>
 <span class='va'>f_saem_p0_fixed</span> <span class='op'>&lt;-</span> <span class='fu'>saem</span><span class='op'>(</span><span class='va'>f_mmkin_parent_p0_fixed</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; Running main SAEM algorithm
-#&gt; [1] "Wed Aug  4 16:22:05 2021"
+#&gt; [1] "Thu Sep 16 14:34:42 2021"
 #&gt; ....
 #&gt;     Minimisation finished
-#&gt; [1] "Wed Aug  4 16:22:06 2021"</div><div class='input'>
+#&gt; [1] "Thu Sep 16 14:34:43 2021"</div><div class='input'>
 <span class='va'>f_mmkin_parent</span> <span class='op'>&lt;-</span> <span class='fu'><a href='mmkin.html'>mmkin</a></span><span class='op'>(</span><span class='fu'><a href='https://rdrr.io/r/base/c.html'>c</a></span><span class='op'>(</span><span class='st'>"SFO"</span>, <span class='st'>"FOMC"</span>, <span class='st'>"DFOP"</span><span class='op'>)</span>, <span class='va'>ds</span>, quiet <span class='op'>=</span> <span class='cn'>TRUE</span><span class='op'>)</span>
 <span class='va'>f_saem_sfo</span> <span class='op'>&lt;-</span> <span class='fu'>saem</span><span class='op'>(</span><span class='va'>f_mmkin_parent</span><span class='op'>[</span><span class='st'>"SFO"</span>, <span class='op'>]</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; Running main SAEM algorithm
-#&gt; [1] "Wed Aug  4 16:22:08 2021"
+#&gt; [1] "Thu Sep 16 14:34:45 2021"
 #&gt; ....
 #&gt;     Minimisation finished
-#&gt; [1] "Wed Aug  4 16:22:10 2021"</div><div class='input'><span class='va'>f_saem_fomc</span> <span class='op'>&lt;-</span> <span class='fu'>saem</span><span class='op'>(</span><span class='va'>f_mmkin_parent</span><span class='op'>[</span><span class='st'>"FOMC"</span>, <span class='op'>]</span><span class='op'>)</span>
+#&gt; [1] "Thu Sep 16 14:34:47 2021"</div><div class='input'><span class='va'>f_saem_fomc</span> <span class='op'>&lt;-</span> <span class='fu'>saem</span><span class='op'>(</span><span class='va'>f_mmkin_parent</span><span class='op'>[</span><span class='st'>"FOMC"</span>, <span class='op'>]</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; Running main SAEM algorithm
-#&gt; [1] "Wed Aug  4 16:22:10 2021"
+#&gt; [1] "Thu Sep 16 14:34:47 2021"
 #&gt; ....
 #&gt;     Minimisation finished
-#&gt; [1] "Wed Aug  4 16:22:12 2021"</div><div class='input'><span class='va'>f_saem_dfop</span> <span class='op'>&lt;-</span> <span class='fu'>saem</span><span class='op'>(</span><span class='va'>f_mmkin_parent</span><span class='op'>[</span><span class='st'>"DFOP"</span>, <span class='op'>]</span><span class='op'>)</span>
+#&gt; [1] "Thu Sep 16 14:34:49 2021"</div><div class='input'><span class='va'>f_saem_dfop</span> <span class='op'>&lt;-</span> <span class='fu'>saem</span><span class='op'>(</span><span class='va'>f_mmkin_parent</span><span class='op'>[</span><span class='st'>"DFOP"</span>, <span class='op'>]</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; Running main SAEM algorithm
-#&gt; [1] "Wed Aug  4 16:22:12 2021"
+#&gt; [1] "Thu Sep 16 14:34:49 2021"
 #&gt; ....
 #&gt;     Minimisation finished
-#&gt; [1] "Wed Aug  4 16:22:16 2021"</div><div class='input'>
+#&gt; [1] "Thu Sep 16 14:34:52 2021"</div><div class='input'>
 <span class='co'># The returned saem.mmkin object contains an SaemixObject, therefore we can use</span>
 <span class='co'># functions from saemix</span>
 <span class='kw'><a href='https://rdrr.io/r/base/library.html'>library</a></span><span class='op'>(</span><span class='va'>saemix</span><span class='op'>)</span>
@@ -357,10 +357,10 @@ using <a href='mmkin.html'>mmkin</a>.</p>
 <span class='va'>f_mmkin_parent_tc</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/r/stats/update.html'>update</a></span><span class='op'>(</span><span class='va'>f_mmkin_parent</span>, error_model <span class='op'>=</span> <span class='st'>"tc"</span><span class='op'>)</span>
 <span class='va'>f_saem_fomc_tc</span> <span class='op'>&lt;-</span> <span class='fu'>saem</span><span class='op'>(</span><span class='va'>f_mmkin_parent_tc</span><span class='op'>[</span><span class='st'>"FOMC"</span>, <span class='op'>]</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; Running main SAEM algorithm
-#&gt; [1] "Wed Aug  4 16:22:19 2021"
+#&gt; [1] "Thu Sep 16 14:34:55 2021"
 #&gt; ....
 #&gt;     Minimisation finished
-#&gt; [1] "Wed Aug  4 16:22:24 2021"</div><div class='input'><span class='fu'><a href='https://rdrr.io/pkg/saemix/man/compare.saemix.html'>compare.saemix</a></span><span class='op'>(</span><span class='va'>f_saem_fomc</span><span class='op'>$</span><span class='va'>so</span>, <span class='va'>f_saem_fomc_tc</span><span class='op'>$</span><span class='va'>so</span><span class='op'>)</span>
+#&gt; [1] "Thu Sep 16 14:35:00 2021"</div><div class='input'><span class='fu'><a href='https://rdrr.io/pkg/saemix/man/compare.saemix.html'>compare.saemix</a></span><span class='op'>(</span><span class='va'>f_saem_fomc</span><span class='op'>$</span><span class='va'>so</span>, <span class='va'>f_saem_fomc_tc</span><span class='op'>$</span><span class='va'>so</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='message'>Likelihoods calculated by importance sampling</span></div><div class='output co'>#&gt;        AIC      BIC
 #&gt; 1 467.7096 464.9757
 #&gt; 2 469.6831 466.5586</div><div class='input'>
@@ -381,15 +381,15 @@ using <a href='mmkin.html'>mmkin</a>.</p>
 <span class='co'># four minutes</span>
 <span class='va'>f_saem_sfo_sfo</span> <span class='op'>&lt;-</span> <span class='fu'>saem</span><span class='op'>(</span><span class='va'>f_mmkin</span><span class='op'>[</span><span class='st'>"SFO-SFO"</span>, <span class='op'>]</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; Running main SAEM algorithm
-#&gt; [1] "Wed Aug  4 16:22:27 2021"
+#&gt; [1] "Thu Sep 16 14:35:03 2021"
 #&gt; ....
 #&gt;     Minimisation finished
-#&gt; [1] "Wed Aug  4 16:22:32 2021"</div><div class='input'><span class='va'>f_saem_dfop_sfo</span> <span class='op'>&lt;-</span> <span class='fu'>saem</span><span class='op'>(</span><span class='va'>f_mmkin</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span><span class='op'>)</span>
+#&gt; [1] "Thu Sep 16 14:35:08 2021"</div><div class='input'><span class='va'>f_saem_dfop_sfo</span> <span class='op'>&lt;-</span> <span class='fu'>saem</span><span class='op'>(</span><span class='va'>f_mmkin</span><span class='op'>[</span><span class='st'>"DFOP-SFO"</span>, <span class='op'>]</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; Running main SAEM algorithm
-#&gt; [1] "Wed Aug  4 16:22:33 2021"
+#&gt; [1] "Thu Sep 16 14:35:08 2021"
 #&gt; ....
 #&gt;     Minimisation finished
-#&gt; [1] "Wed Aug  4 16:22:42 2021"</div><div class='input'><span class='co'># We can use print, plot and summary methods to check the results</span>
+#&gt; [1] "Thu Sep 16 14:35:17 2021"</div><div class='input'><span class='co'># We can use print, plot and summary methods to check the results</span>
 <span class='fu'><a href='https://rdrr.io/r/base/print.html'>print</a></span><span class='op'>(</span><span class='va'>f_saem_dfop_sfo</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; Kinetic nonlinear mixed-effects model fit by SAEM
 #&gt; Structural model:
@@ -430,10 +430,10 @@ using <a href='mmkin.html'>mmkin</a>.</p>
 #&gt; SD.g_qlogis          0.44816 -1.25437  2.1507</div><div class='input'><span class='fu'><a href='https://rdrr.io/pkg/saemix/man/plot-SaemixObject-method.html'>plot</a></span><span class='op'>(</span><span class='va'>f_saem_dfop_sfo</span><span class='op'>)</span>
 </div><div class='img'><img src='saem-5.png' alt='' width='700' height='433' /></div><div class='input'><span class='fu'><a href='https://rdrr.io/pkg/saemix/man/summary-methods.html'>summary</a></span><span class='op'>(</span><span class='va'>f_saem_dfop_sfo</span>, data <span class='op'>=</span> <span class='cn'>TRUE</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; saemix version used for fitting:      3.1.9000 
-#&gt; mkin version used for pre-fitting:  1.0.5 
-#&gt; R version used for fitting:         4.1.0 
-#&gt; Date of fit:     Wed Aug  4 16:22:43 2021 
-#&gt; Date of summary: Wed Aug  4 16:22:43 2021 
+#&gt; mkin version used for pre-fitting:  1.1.0 
+#&gt; R version used for fitting:         4.1.1 
+#&gt; Date of fit:     Thu Sep 16 14:35:18 2021 
+#&gt; Date of summary: Thu Sep 16 14:35:18 2021 
 #&gt; 
 #&gt; Equations:
 #&gt; d_parent/dt = - ((k1 * g * exp(-k1 * time) + k2 * (1 - g) * exp(-k2 *
@@ -448,7 +448,7 @@ using <a href='mmkin.html'>mmkin</a>.</p>
 #&gt; 
 #&gt; Model predictions using solution type analytical 
 #&gt; 
-#&gt; Fitted in 10.143 s using 300, 100 iterations
+#&gt; Fitted in 9.349 s using 300, 100 iterations
 #&gt; 
 #&gt; Variance model: Constant variance 
 #&gt; 
diff --git a/docs/dev/reference/summary.nlmixr.mmkin.html b/docs/dev/reference/summary.nlmixr.mmkin.html
index 70a71683..4831bbdf 100644
--- a/docs/dev/reference/summary.nlmixr.mmkin.html
+++ b/docs/dev/reference/summary.nlmixr.mmkin.html
@@ -76,7 +76,7 @@ endpoints such as formation fractions and DT50 values. Optionally
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
@@ -258,12 +258,12 @@ nlmixr authors for the parts inherited from nlmixr.</p>
   quiet <span class='op'>=</span> <span class='cn'>TRUE</span>, error_model <span class='op'>=</span> <span class='st'>"tc"</span>, cores <span class='op'>=</span> <span class='fl'>5</span><span class='op'>)</span>
 <span class='va'>f_saemix_dfop_sfo</span> <span class='op'>&lt;-</span> <span class='fu'>mkin</span><span class='fu'>::</span><span class='fu'><a href='saem.html'>saem</a></span><span class='op'>(</span><span class='va'>f_mmkin_dfop_sfo</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; Running main SAEM algorithm
-#&gt; [1] "Wed Aug  4 16:22:46 2021"
+#&gt; [1] "Thu Sep 16 14:35:21 2021"
 #&gt; ....
 #&gt;     Minimisation finished
-#&gt; [1] "Wed Aug  4 16:22:59 2021"</div><div class='input'><span class='va'>f_nlme_dfop_sfo</span> <span class='op'>&lt;-</span> <span class='fu'>mkin</span><span class='fu'>::</span><span class='fu'><a href='https://rdrr.io/pkg/nlme/man/nlme.html'>nlme</a></span><span class='op'>(</span><span class='va'>f_mmkin_dfop_sfo</span><span class='op'>)</span>
+#&gt; [1] "Thu Sep 16 14:35:33 2021"</div><div class='input'><span class='va'>f_nlme_dfop_sfo</span> <span class='op'>&lt;-</span> <span class='fu'>mkin</span><span class='fu'>::</span><span class='fu'><a href='https://rdrr.io/pkg/nlme/man/nlme.html'>nlme</a></span><span class='op'>(</span><span class='va'>f_mmkin_dfop_sfo</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='warning'>Warning: Iteration 4, LME step: nlminb() did not converge (code = 1). PORT message: false convergence (8)</span></div><div class='output co'>#&gt; <span class='warning'>Warning: Iteration 6, LME step: nlminb() did not converge (code = 1). PORT message: false convergence (8)</span></div><div class='input'><span class='va'>f_nlmixr_dfop_sfo_saem</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_dfop_sfo</span>, est <span class='op'>=</span> <span class='st'>"saem"</span><span class='op'>)</span>
-</div><div class='output co'>#&gt; <span class='message'>With est = 'saem', a different error model is required for each observed variableChanging the error model to 'obs_tc' (Two-component error for each observed variable)</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'>→ generate SAEM model</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='error'>Error in configsaem(model = model, data = dat, inits = inits, mcmc = .mcmc,     ODEopt = .ODEopt, seed = .seed, distribution = .dist, DEBUG = .DEBUG,     addProp = .addProp, tol = .tol, itmax = .itmax, type = .type,     powRange = .powRange, lambdaRange = .lambdaRange): covariate(s) not found: f_parent_to_m1</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 1.383 0.12 1.503</span></div><div class='input'><span class='co'># The following takes a very long time but gives</span>
+</div><div class='output co'>#&gt; <span class='message'>With est = 'saem', a different error model is required for each observed variableChanging the error model to 'obs_tc' (Two-component error for each observed variable)</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'>→ generate SAEM model</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='error'>Error in configsaem(model = model, data = dat, inits = inits, mcmc = .mcmc,     ODEopt = .ODEopt, seed = .seed, distribution = .dist, DEBUG = .DEBUG,     addProp = .addProp, tol = .tol, itmax = .itmax, type = .type,     powRange = .powRange, lambdaRange = .lambdaRange): covariate(s) not found: f_parent_to_m1</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 1.412 0.101 1.525</span></div><div class='input'><span class='co'># The following takes a very long time but gives</span>
 <span class='va'>f_nlmixr_dfop_sfo_focei</span> <span class='op'>&lt;-</span> <span class='fu'><a href='https://rdrr.io/pkg/nlmixr/man/nlmixr.html'>nlmixr</a></span><span class='op'>(</span><span class='va'>f_mmkin_dfop_sfo</span>, est <span class='op'>=</span> <span class='st'>"focei"</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> parameter labels from comments are typically ignored in non-interactive mode</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BBBB;'>ℹ</span> Need to run with the source intact to parse comments</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ creating full model...</span></div><div class='output co'>#&gt; <span class='message'>→ pruning branches (<span style='color: #262626; background-color: #DADADA;'>`if`</span>/<span style='color: #262626; background-color: #DADADA;'>`else`</span>)...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ loading into <span style='color: #0000BB;'>symengine</span> environment...</span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ calculate jacobian</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate sensitivities</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(f)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ calculate ∂(R²)/∂(η)</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in inner model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in EBE model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling inner model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ finding duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ optimizing duplicate expressions in FD model...</span></div><div class='output co'>#&gt; </div><div class='output co'>#&gt; <span class='message'>→ compiling EBE model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>→ compiling events FD model...</span></div><div class='output co'>#&gt; <span class='message'> </span></div><div class='output co'>#&gt; <span class='message'><span style='color: #00BB00;'>✔</span> done</span></div><div class='output co'>#&gt; <span class='message'>Model:</span></div><div class='output co'>#&gt; <span class='message'>cmt(parent);</span>
 #&gt; <span class='message'>cmt(m1);</span>
@@ -323,7 +323,7 @@ nlmixr authors for the parts inherited from nlmixr.</p>
 #&gt; <span class='message'>f_parent=1/(1+exp(-(ETA[3]+THETA[3])));</span>
 #&gt; <span class='message'>g=1/(rx_expr_21);</span>
 #&gt; <span class='message'>tad=tad();</span>
-#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_m1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 18.43 0.422 18.87</span></div><div class='input'><span class='fu'><a href='https://rdrr.io/r/stats/AIC.html'>AIC</a></span><span class='op'>(</span><span class='va'>f_nlmixr_dfop_sfo_saem</span><span class='op'>$</span><span class='va'>nm</span>, <span class='va'>f_nlmixr_dfop_sfo_focei</span><span class='op'>$</span><span class='va'>nm</span><span class='op'>)</span>
+#&gt; <span class='message'>dosenum=dosenum();</span></div><div class='output co'>#&gt; <span class='message'>Needed Covariates:</span></div><div class='output co'>#&gt; <span class='message'>[1] "f_parent_to_m1" "CMT"           </span></div><div class='output co'>#&gt; <span class='error'>Error in (function (data, inits, PKpars, model = NULL, pred = NULL, err = NULL,     lower = -Inf, upper = Inf, fixed = NULL, skipCov = NULL,     control = foceiControl(), thetaNames = NULL, etaNames = NULL,     etaMat = NULL, ..., env = NULL, keep = NULL, drop = NULL) {    set.seed(control$seed)    .pt &lt;- proc.time()    RxODE::.setWarnIdSort(FALSE)    on.exit(RxODE::.setWarnIdSort(TRUE))    loadNamespace("n1qn1")    if (!RxODE::rxIs(control, "foceiControl")) {        control &lt;- do.call(foceiControl, control)    }    if (is.null(env)) {        .ret &lt;- new.env(parent = emptyenv())    }    else {        .ret &lt;- env    }    .ret$origData &lt;- data    .ret$etaNames &lt;- etaNames    .ret$thetaFixed &lt;- fixed    .ret$control &lt;- control    .ret$control$focei.mu.ref &lt;- integer(0)    if (is(model, "RxODE") || is(model, "character")) {        .ret$ODEmodel &lt;- TRUE        if (class(pred) != "function") {            stop("pred must be a function specifying the prediction variables in this model.")        }    }    else {        .ret$ODEmodel &lt;- TRUE        model &lt;- RxODE::rxGetLin(PKpars)        pred &lt;- eval(parse(text = "function(){return(Central);}"))    }    .square &lt;- function(x) x * x    .ret$diagXformInv &lt;- c(sqrt = ".square", log = "exp", identity = "identity")[control$diagXform]    if (is.null(err)) {        err &lt;- eval(parse(text = paste0("function(){err", paste(inits$ERROR[[1]],             collapse = ""), "}")))    }    .covNames &lt;- .parNames &lt;- c()    .ret$adjLik &lt;- control$adjLik    .mixed &lt;- !is.null(inits$OMGA) &amp;&amp; length(inits$OMGA) &gt; 0    if (!exists("noLik", envir = .ret)) {        .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))        .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))        .ssAtol &lt;- rep(control$ssAtol, length(RxODE::rxModelVars(model)$state))        .ssRtol &lt;- rep(control$ssRtol, length(RxODE::rxModelVars(model)$state))        .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred, PKpars,             err, grad = (control$derivMethod == 2L), pred.minus.dv = TRUE,             sum.prod = control$sumProd, theta.derivs = FALSE,             optExpression = control$optExpression, interaction = (control$interaction ==                 1L), only.numeric = !.mixed, run.internal = TRUE,             addProp = control$addProp)        if (!is.null(.ret$model$inner)) {            .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.atol)))            .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.rtol)))            .ret$control$rxControl$atol &lt;- .atol            .ret$control$rxControl$rtol &lt;- .rtol            .ssAtol &lt;- c(.ssAtol, rep(control$ssAtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssAtol)))            .ssRtol &lt;- c(.ssRtol, rep(control$ssRtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                 length(.ssRtol)))            .ret$control$rxControl$ssAtol &lt;- .ssAtol            .ret$control$rxControl$ssRtol &lt;- .ssRtol        }        .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)        .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",             "ETA"), "[", numbers, "]", end), .covNames) == -1]        colnames(data) &lt;- sapply(names(data), function(x) {            if (any(x == .covNames)) {                return(x)            }            else {                return(toupper(x))            }        })        .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),             RxODE::rxLhs(.ret$model$pred.only))        if (length(.lhs) &gt; 0) {            .covNames &lt;- .covNames[regexpr(rex::rex(start, or(.lhs),                 end), .covNames) == -1]        }        if (length(.covNames) &gt; 0) {            if (!all(.covNames %in% names(data))) {                message("Model:")                RxODE::rxCat(.ret$model$pred.only)                message("Needed Covariates:")                nlmixrPrint(.covNames)                stop("Not all the covariates are in the dataset.")            }            message("Needed Covariates:")            print(.covNames)        }        .extraPars &lt;- .ret$model$extra.pars    }    else {        if (.ret$noLik) {            .atol &lt;- rep(control$atol, length(RxODE::rxModelVars(model)$state))            .rtol &lt;- rep(control$rtol, length(RxODE::rxModelVars(model)$state))            .ret$model &lt;- RxODE::rxSymPySetupPred(model, pred,                 PKpars, err, grad = FALSE, pred.minus.dv = TRUE,                 sum.prod = control$sumProd, theta.derivs = FALSE,                 optExpression = control$optExpression, run.internal = TRUE,                 only.numeric = TRUE, addProp = control$addProp)            if (!is.null(.ret$model$inner)) {                .atol &lt;- c(.atol, rep(control$atolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.atol)))                .rtol &lt;- c(.rtol, rep(control$rtolSens, length(RxODE::rxModelVars(.ret$model$inner)$state) -                   length(.rtol)))                .ret$control$rxControl$atol &lt;- .atol                .ret$control$rxControl$rtol &lt;- .rtol            }            .covNames &lt;- .parNames &lt;- RxODE::rxParams(.ret$model$pred.only)            .covNames &lt;- .covNames[regexpr(rex::rex(start, or("THETA",                 "ETA"), "[", numbers, "]", end), .covNames) ==                 -1]            colnames(data) &lt;- sapply(names(data), function(x) {                if (any(x == .covNames)) {                  return(x)                }                else {                  return(toupper(x))                }            })            .lhs &lt;- c(names(RxODE::rxInits(.ret$model$pred.only)),                 RxODE::rxLhs(.ret$model$pred.only))            if (length(.lhs) &gt; 0) {                .covNames &lt;- .covNames[regexpr(rex::rex(start,                   or(.lhs), end), .covNames) == -1]            }            if (length(.covNames) &gt; 0) {                if (!all(.covNames %in% names(data))) {                  message("Model:")                  RxODE::rxCat(.ret$model$pred.only)                  message("Needed Covariates:")                  nlmixrPrint(.covNames)                  stop("Not all the covariates are in the dataset.")                }                message("Needed Covariates:")                print(.covNames)            }            .extraPars &lt;- .ret$model$extra.pars        }        else {            .extraPars &lt;- NULL        }    }    .ret$skipCov &lt;- skipCov    if (is.null(skipCov)) {        if (is.null(fixed)) {            .tmp &lt;- rep(FALSE, length(inits$THTA))        }        else {            if (length(fixed) &lt; length(inits$THTA)) {                .tmp &lt;- c(fixed, rep(FALSE, length(inits$THTA) -                   length(fixed)))            }            else {                .tmp &lt;- fixed[1:length(inits$THTA)]            }        }        if (exists("uif", envir = .ret)) {            .uifErr &lt;- .ret$uif$ini$err[!is.na(.ret$uif$ini$ntheta)]            .uifErr &lt;- sapply(.uifErr, function(x) {                if (is.na(x)) {                  return(FALSE)                }                return(!any(x == c("pow2", "tbs", "tbsYj")))            })            .tmp &lt;- (.tmp | .uifErr)        }        .ret$skipCov &lt;- c(.tmp, rep(TRUE, length(.extraPars)))        .ret$control$focei.mu.ref &lt;- .ret$uif$focei.mu.ref    }    if (is.null(.extraPars)) {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)))    }    else {        .nms &lt;- c(sprintf("THETA[%s]", seq_along(inits$THTA)),             sprintf("ERR[%s]", seq_along(.extraPars)))    }    if (!is.null(thetaNames) &amp;&amp; (length(inits$THTA) + length(.extraPars)) ==         length(thetaNames)) {        .nms &lt;- thetaNames    }    .ret$thetaNames &lt;- .nms    .thetaReset$thetaNames &lt;- .nms    if (length(lower) == 1) {        lower &lt;- rep(lower, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        print(inits$THTA)        print(lower)        stop("Lower must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (length(upper) == 1) {        upper &lt;- rep(upper, length(inits$THTA))    }    else if (length(lower) != length(inits$THTA)) {        stop("Upper must be a single constant for all the THETA lower bounds, or match the dimension of THETA.")    }    if (!is.null(.extraPars)) {        .ret$model$extra.pars &lt;- eval(call(control$diagXform,             .ret$model$extra.pars))        if (length(.ret$model$extra.pars) &gt; 0) {            inits$THTA &lt;- c(inits$THTA, .ret$model$extra.pars)            .lowerErr &lt;- rep(control$atol[1] * 10, length(.ret$model$extra.pars))            .upperErr &lt;- rep(Inf, length(.ret$model$extra.pars))            lower &lt;- c(lower, .lowerErr)            upper &lt;- c(upper, .upperErr)        }    }    if (is.null(data$ID))         stop("\"ID\" not found in data")    if (is.null(data$DV))         stop("\"DV\" not found in data")    if (is.null(data$EVID))         data$EVID &lt;- 0    if (is.null(data$AMT))         data$AMT &lt;- 0    for (.v in c("TIME", "AMT", "DV", .covNames)) {        data[[.v]] &lt;- as.double(data[[.v]])    }    .ret$dataSav &lt;- data    .ds &lt;- data[data$EVID != 0 &amp; data$EVID != 2, c("ID", "TIME",         "AMT", "EVID", .covNames)]    .w &lt;- which(tolower(names(data)) == "limit")    .limitName &lt;- NULL    if (length(.w) == 1L) {        .limitName &lt;- names(data)[.w]    }    .censName &lt;- NULL    .w &lt;- which(tolower(names(data)) == "cens")    if (length(.w) == 1L) {        .censName &lt;- names(data[.w])    }    data &lt;- data[data$EVID == 0 | data$EVID == 2, c("ID", "TIME",         "DV", "EVID", .covNames, .limitName, .censName)]    .w &lt;- which(!(names(.ret$dataSav) %in% c(.covNames, keep)))    names(.ret$dataSav)[.w] &lt;- tolower(names(.ret$dataSav[.w]))    if (.mixed) {        .lh &lt;- .parseOM(inits$OMGA)        .nlh &lt;- sapply(.lh, length)        .osplt &lt;- rep(1:length(.lh), .nlh)        .lini &lt;- list(inits$THTA, unlist(.lh))        .nlini &lt;- sapply(.lini, length)        .nsplt &lt;- rep(1:length(.lini), .nlini)        .om0 &lt;- .genOM(.lh)        if (length(etaNames) == dim(.om0)[1]) {            .ret$etaNames &lt;- .ret$etaNames        }        else {            .ret$etaNames &lt;- sprintf("ETA[%d]", seq(1, dim(.om0)[1]))        }        .ret$rxInv &lt;- RxODE::rxSymInvCholCreate(mat = .om0, diag.xform = control$diagXform)        .ret$xType &lt;- .ret$rxInv$xType        .om0a &lt;- .om0        .om0a &lt;- .om0a/control$diagOmegaBoundLower        .om0b &lt;- .om0        .om0b &lt;- .om0b * control$diagOmegaBoundUpper        .om0a &lt;- RxODE::rxSymInvCholCreate(mat = .om0a, diag.xform = control$diagXform)        .om0b &lt;- RxODE::rxSymInvCholCreate(mat = .om0b, diag.xform = control$diagXform)        .omdf &lt;- data.frame(a = .om0a$theta, m = .ret$rxInv$theta,             b = .om0b$theta, diag = .om0a$theta.diag)        .omdf$lower &lt;- with(.omdf, ifelse(a &gt; b, b, a))        .omdf$lower &lt;- with(.omdf, ifelse(lower == m, -Inf, lower))        .omdf$lower &lt;- with(.omdf, ifelse(!diag, -Inf, lower))        .omdf$upper &lt;- with(.omdf, ifelse(a &lt; b, b, a))        .omdf$upper &lt;- with(.omdf, ifelse(upper == m, Inf, upper))        .omdf$upper &lt;- with(.omdf, ifelse(!diag, Inf, upper))        .ret$control$nomega &lt;- length(.omdf$lower)        .ret$control$neta &lt;- sum(.omdf$diag)        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)        lower &lt;- c(lower, .omdf$lower)        upper &lt;- c(upper, .omdf$upper)    }    else {        .ret$control$nomega &lt;- 0        .ret$control$neta &lt;- 0        .ret$xType &lt;- -1        .ret$control$ntheta &lt;- length(lower)        .ret$control$nfixed &lt;- sum(fixed)    }    .ret$lower &lt;- lower    .ret$upper &lt;- upper    .ret$thetaIni &lt;- inits$THTA    .scaleC &lt;- double(length(lower))    if (is.null(control$scaleC)) {        .scaleC &lt;- rep(NA_real_, length(lower))    }    else {        .scaleC &lt;- as.double(control$scaleC)        if (length(lower) &gt; length(.scaleC)) {            .scaleC &lt;- c(.scaleC, rep(NA_real_, length(lower) -                 length(.scaleC)))        }        else if (length(lower) &lt; length(.scaleC)) {            .scaleC &lt;- .scaleC[seq(1, length(lower))]            warning("scaleC control option has more options than estimated population parameters, please check.")        }    }    .ret$scaleC &lt;- .scaleC    if (exists("uif", envir = .ret)) {        .ini &lt;- as.data.frame(.ret$uif$ini)[!is.na(.ret$uif$ini$err),             c("est", "err", "ntheta")]        for (.i in seq_along(.ini$err)) {            if (is.na(.ret$scaleC[.ini$ntheta[.i]])) {                if (any(.ini$err[.i] == c("boxCox", "yeoJohnson",                   "pow2", "tbs", "tbsYj"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 1                }                else if (any(.ini$err[.i] == c("prop", "add",                   "norm", "dnorm", "logn", "dlogn", "lnorm",                   "dlnorm"))) {                  .ret$scaleC[.ini$ntheta[.i]] &lt;- 0.5 * abs(.ini$est[.i])                }            }        }        for (.i in .ini$model$extraProps$powTheta) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- 1        }        .ini &lt;- as.data.frame(.ret$uif$ini)        for (.i in .ini$model$extraProps$factorial) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i] +                   1))        }        for (.i in .ini$model$extraProps$gamma) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- abs(1/digamma(.ini$est[.i]))        }        for (.i in .ini$model$extraProps$log) {            if (is.na(.ret$scaleC[.i]))                 .ret$scaleC[.i] &lt;- log(abs(.ini$est[.i])) * abs(.ini$est[.i])        }        for (.i in .ret$logitThetas) {            .b &lt;- .ret$logitThetasLow[.i]            .c &lt;- .ret$logitThetasHi[.i]            .a &lt;- .ini$est[.i]            if (is.na(.ret$scaleC[.i])) {                .ret$scaleC[.i] &lt;- 1 * (-.b + .c) * exp(-.a)/((1 +                   exp(-.a))^2 * (.b + 1 * (-.b + .c)/(1 + exp(-.a))))            }        }    }    names(.ret$thetaIni) &lt;- sprintf("THETA[%d]", seq_along(.ret$thetaIni))    if (is.null(etaMat) &amp; !is.null(control$etaMat)) {        .ret$etaMat &lt;- control$etaMat    }    else {        .ret$etaMat &lt;- etaMat    }    .ret$setupTime &lt;- (proc.time() - .pt)["elapsed"]    if (exists("uif", envir = .ret)) {        .tmp &lt;- .ret$uif$logThetasList        .ret$logThetas &lt;- .tmp[[1]]        .ret$logThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasList        .ret$logitThetas &lt;- .tmp[[1]]        .ret$logitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListLow        .ret$logitThetasLow &lt;- .tmp[[1]]        .ret$logitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$logitThetasListHi        .ret$logitThetasHi &lt;- .tmp[[1]]        .ret$logitThetasHiF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasList        .ret$probitThetas &lt;- .tmp[[1]]        .ret$probitThetasF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListLow        .ret$probitThetasLow &lt;- .tmp[[1]]        .ret$probitThetasLowF &lt;- .tmp[[2]]        .tmp &lt;- .ret$uif$probitThetasListHi        .ret$probitThetasHi &lt;- .tmp[[1]]        .ret$probitThetasHiF &lt;- .tmp[[2]]    }    else {        .ret$logThetasF &lt;- integer(0)        .ret$logitThetasF &lt;- integer(0)        .ret$logitThetasHiF &lt;- numeric(0)        .ret$logitThetasLowF &lt;- numeric(0)        .ret$logitThetas &lt;- integer(0)        .ret$logitThetasHi &lt;- numeric(0)        .ret$logitThetasLow &lt;- numeric(0)        .ret$probitThetasF &lt;- integer(0)        .ret$probitThetasHiF &lt;- numeric(0)        .ret$probitThetasLowF &lt;- numeric(0)        .ret$probitThetas &lt;- integer(0)        .ret$probitThetasHi &lt;- numeric(0)        .ret$probitThetasLow &lt;- numeric(0)    }    if (exists("noLik", envir = .ret)) {        if (!.ret$noLik) {            .ret$.params &lt;- c(sprintf("THETA[%d]", seq_along(.ret$thetaIni)),                 sprintf("ETA[%d]", seq(1, dim(.om0)[1])))            .ret$.thetan &lt;- length(.ret$thetaIni)            .ret$nobs &lt;- sum(data$EVID == 0)        }    }    .ret$control$printTop &lt;- TRUE    .ret$control$nF &lt;- 0    .est0 &lt;- .ret$thetaIni    if (!is.null(.ret$model$pred.nolhs)) {        .ret$control$predNeq &lt;- length(.ret$model$pred.nolhs$state)    }    else {        .ret$control$predNeq &lt;- 0L    }    .fitFun &lt;- function(.ret) {        this.env &lt;- environment()        assign("err", "theta reset", this.env)        while (this.env$err == "theta reset") {            assign("err", "", this.env)            .ret0 &lt;- tryCatch({                foceiFitCpp_(.ret)            }, error = function(e) {                if (regexpr("theta reset", e$message) != -1) {                  assign("zeroOuter", FALSE, this.env)                  assign("zeroGrad", FALSE, this.env)                  if (regexpr("theta reset0", e$message) != -1) {                    assign("zeroGrad", TRUE, this.env)                  }                  else if (regexpr("theta resetZ", e$message) !=                     -1) {                    assign("zeroOuter", TRUE, this.env)                  }                  assign("err", "theta reset", this.env)                }                else {                  assign("err", e$message, this.env)                }            })            if (this.env$err == "theta reset") {                .nm &lt;- names(.ret$thetaIni)                .ret$thetaIni &lt;- setNames(.thetaReset$thetaIni +                   0, .nm)                .ret$rxInv$theta &lt;- .thetaReset$omegaTheta                .ret$control$printTop &lt;- FALSE                .ret$etaMat &lt;- .thetaReset$etaMat                .ret$control$etaMat &lt;- .thetaReset$etaMat                .ret$control$maxInnerIterations &lt;- .thetaReset$maxInnerIterations                .ret$control$nF &lt;- .thetaReset$nF                .ret$control$gillRetC &lt;- .thetaReset$gillRetC                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillRet &lt;- .thetaReset$gillRet                .ret$control$gillDf &lt;- .thetaReset$gillDf                .ret$control$gillDf2 &lt;- .thetaReset$gillDf2                .ret$control$gillErr &lt;- .thetaReset$gillErr                .ret$control$rEps &lt;- .thetaReset$rEps                .ret$control$aEps &lt;- .thetaReset$aEps                .ret$control$rEpsC &lt;- .thetaReset$rEpsC                .ret$control$aEpsC &lt;- .thetaReset$aEpsC                .ret$control$c1 &lt;- .thetaReset$c1                .ret$control$c2 &lt;- .thetaReset$c2                if (this.env$zeroOuter) {                  message("Posthoc reset")                  .ret$control$maxOuterIterations &lt;- 0L                }                else if (this.env$zeroGrad) {                  message("Theta reset (zero gradient values); Switch to bobyqa")                  RxODE::rxReq("minqa")                  .ret$control$outerOptFun &lt;- .bobyqa                  .ret$control$outerOpt &lt;- -1L                }                else {                  message("Theta reset (ETA drift)")                }            }        }        if (this.env$err != "") {            stop(this.env$err)        }        else {            return(.ret0)        }    }    .ret0 &lt;- try(.fitFun(.ret))    .n &lt;- 1    while (inherits(.ret0, "try-error") &amp;&amp; control$maxOuterIterations !=         0 &amp;&amp; .n &lt;= control$nRetries) {        message(sprintf("Restart %s", .n))        .ret$control$nF &lt;- 0        .estNew &lt;- .est0 + 0.2 * .n * abs(.est0) * stats::runif(length(.est0)) -             0.1 * .n        .estNew &lt;- sapply(seq_along(.est0), function(.i) {            if (.ret$thetaFixed[.i]) {                return(.est0[.i])            }            else if (.estNew[.i] &lt; lower[.i]) {                return(lower + (.Machine$double.eps)^(1/7))            }            else if (.estNew[.i] &gt; upper[.i]) {                return(upper - (.Machine$double.eps)^(1/7))            }            else {                return(.estNew[.i])            }        })        .ret$thetaIni &lt;- .estNew        .ret0 &lt;- try(.fitFun(.ret))        .n &lt;- .n + 1    }    if (inherits(.ret0, "try-error"))         stop("Could not fit data.")    .ret &lt;- .ret0    if (exists("parHistData", .ret)) {        .tmp &lt;- .ret$parHistData        .tmp &lt;- .tmp[.tmp$type == "Unscaled", names(.tmp) !=             "type"]        .iter &lt;- .tmp$iter        .tmp &lt;- .tmp[, names(.tmp) != "iter"]        .ret$parHistStacked &lt;- data.frame(stack(.tmp), iter = .iter)        names(.ret$parHistStacked) &lt;- c("val", "par", "iter")        .ret$parHist &lt;- data.frame(iter = .iter, .tmp)    }    if (.mixed) {        .etas &lt;- .ret$ranef        .thetas &lt;- .ret$fixef        .pars &lt;- .Call(`_nlmixr_nlmixrParameters`, .thetas, .etas)        .ret$shrink &lt;- .Call(`_nlmixr_calcShrinkOnly`, .ret$omega,             .pars$eta.lst, length(.etas$ID))        .updateParFixed(.ret)    }    else {        .updateParFixed(.ret)    }    if (!exists("table", .ret)) {        .ret$table &lt;- tableControl()    }    if (control$calcTables) {        .ret &lt;- addTable(.ret, updateObject = "no", keep = keep,             drop = drop, table = .ret$table)    }    .ret})(data = dat, inits = .FoceiInits, PKpars = .pars, model = .mod,     pred = function() {        return(nlmixr_pred)    }, err = uif$error, lower = uif$focei.lower, upper = uif$focei.upper,     fixed = uif$focei.fixed, thetaNames = uif$focei.names, etaNames = uif$eta.names,     control = control, env = env, keep = .keep, drop = .drop): Not all the covariates are in the dataset.</span></div><div class='output co'>#&gt; <span class='message'>Timing stopped at: 18.28 0.455 18.73</span></div><div class='input'><span class='fu'><a href='https://rdrr.io/r/stats/AIC.html'>AIC</a></span><span class='op'>(</span><span class='va'>f_nlmixr_dfop_sfo_saem</span><span class='op'>$</span><span class='va'>nm</span>, <span class='va'>f_nlmixr_dfop_sfo_focei</span><span class='op'>$</span><span class='va'>nm</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='error'>Error in AIC(f_nlmixr_dfop_sfo_saem$nm, f_nlmixr_dfop_sfo_focei$nm): object 'f_nlmixr_dfop_sfo_saem' not found</span></div><div class='input'><span class='fu'><a href='https://rdrr.io/pkg/saemix/man/summary-methods.html'>summary</a></span><span class='op'>(</span><span class='va'>f_nlmixr_dfop_sfo_sfo</span>, data <span class='op'>=</span> <span class='cn'>TRUE</span><span class='op'>)</span>
 </div><div class='output co'>#&gt; <span class='error'>Error in h(simpleError(msg, call)): error in evaluating the argument 'object' in selecting a method for function 'summary': object 'f_nlmixr_dfop_sfo_sfo' not found</span></div><div class='input'><span class='co'># }</span>
 
diff --git a/docs/dev/reference/tffm0.html b/docs/dev/reference/tffm0.html
index d993e8ff..67f26b85 100644
--- a/docs/dev/reference/tffm0.html
+++ b/docs/dev/reference/tffm0.html
@@ -81,7 +81,7 @@ from RxODE." />
       </button>
       <span class="navbar-brand">
         <a class="navbar-link" href="../index.html">mkin</a>
-        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.0.5</span>
+        <span class="version label label-info" data-toggle="tooltip" data-placement="bottom" title="In-development version">1.1.0</span>
       </span>
     </div>
 
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