GPT tut interaction 20110530 on creating: Difference between revisions
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[[Tutorial on the interaction function details|Tutorial on the interaction function details]]<br><br> | [[Tutorial on the interaction function details|Tutorial on the interaction function details]]<br><br> | ||
<span style="color: CornflowerBlue">'''This file was output automatically on clicking Panel: Edit in the newly saved project called GPT tut interaction 20110530'''<br><br> | <span style="color: CornflowerBlue">'''This file was output automatically on clicking Panel: Edit in the newly saved project called GPT tut interaction 20110530'''<br><br> | ||
<span style="color: CornflowerBlue">Section 1</span> | |||
<span style="color: CornflowerBlue">Section 1 | |||
function m = gpt_tut_interaction_20110530( m ) | function m = gpt_tut_interaction_20110530( m ) | ||
<span style="color: Green">%m = gpt_tut_interaction_20110530( m )</span> | <span style="color: Green">%m = gpt_tut_interaction_20110530( m )</span> | ||
Line 77: | Line 76: | ||
<span style="color: CornflowerBlue">Section 3 | <span style="color: CornflowerBlue">Section 3</span> | ||
<span style="color: Green">%%% END OF USER CODE: INITIALISATION</span> | <span style="color: Green">%%% END OF USER CODE: INITIALISATION</span> | ||
Line 135: | Line 134: | ||
<span style="color: Green">% In this section you may modify the mesh in any way that does not</span> | <span style="color: Green">% In this section you may modify the mesh in any way that does not</span> | ||
<span style="color: CornflowerBlue">Section 4</span> | |||
<span style="color: Green">% alter the set of nodes.</span> | <span style="color: Green">% alter the set of nodes.</span> | ||
Line 193: | Line 193: | ||
<span style="color: Green">% 'add', true ); % These discs are added to any discs existing already</span> | <span style="color: Green">% 'add', true ); % These discs are added to any discs existing already</span> | ||
<span style="color: Green">% end</span> | <span style="color: Green">% end</span> | ||
<span style="color: CornflowerBlue">Section 6</span> | |||
<span style="color: Green">% Directives for creating latex representation directly from Matlab code</span> | |||
<span style="color: Green">% not fully implemented yet but will use @@ directives</span> | |||
<span style="color: Green">% @@at t</span> | |||
<span style="color: Green">% @@before t</span> | |||
<span style="color: Green">% @@after t</span> | |||
<span style="color: Green">% @@between t1 t2</span> | |||
<span style="color: CornflowerBlue">Section 7</span> | <span style="color: CornflowerBlue">Section 7</span> | ||
<span style="color: Green">% % If you want to define different phases according to the absolute</span> | |||
<span style="color: Green">% % time, create a morphogen for each phase and modulate</span> | |||
<span style="color: Green">% % expressions using the morphogen</span> | |||
<span style="color: Green">% % like. For example:</span> | |||
<span style="color: Green">% if (realtime < 10) % first growth phase</span> | |||
<span style="color: Green">% f_firstgrowth_p = 1;</span> | |||
<span style="color: Green">% else</span> | |||
<span style="color: Green">% f_firstgrowth_p = 0;</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% if (realtime >= 10) % second growth phase</span> | |||
<span style="color: Green">% f_secondgrowth_p = 1;</span> | |||
<span style="color: Green">% else</span> | |||
<span style="color: Green">% f_secondgrowth_p = 0;</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% % If you want one morphogen to affect others only during a certain</span> | |||
<span style="color: Green">% % phase, write something like:</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth</span> | |||
<span style="color: CornflowerBlue">Section 8</span> | |||
<span style="color: Green">% Code common to all models.</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: CornflowerBlue">Section 9</span> | |||
<span style="color: Green">% Code for specific models.</span> | |||
switch modelname | |||
case 'MODEL1' <span style="color: Green">% @@model MODEL1</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% P(:) = ... % @@ Eqn xx</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% kapar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kaper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbpar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% knor_p(:) = 0; % @@ Eqn xx</span> | |||
kapar_p(:) = id_a_l .* inh(1,id_b_l); <span style="color: Green">% growth rate</span> | |||
kaper_p(:) = kapar_p; <span style="color: Green">% isotropic growth</span> | |||
kbpar_p(:) = kapar_p; <span style="color: Green">% same on both sides of the sheet</span> | |||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | |||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | |||
case 'MODEL2' <span style="color: Green">% @@model MODEL2</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% P(:) = ... % @@ Eqn xx</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% kapar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kaper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbpar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% knor_p(:) = 0; % @@ Eqn xx</span> | |||
kapar_p(:) = id_a_l .* inh(1,id_b_l); <span style="color: Green">% growth rate</span> | |||
kaper_p(:) = kapar_p; <span style="color: Green">% isotropic growth</span> | |||
kbpar_p(:) = kapar_p; <span style="color: Green">% same on both sides of the sheet</span> | |||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | |||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | |||
otherwise | |||
<span style="color: Green">% If this happens, maybe you forgot a model.</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 10</span> | |||
<span style="color: Green">%%% END OF USER CODE: MORPHOGEN INTERACTIONS</span> | |||
<span style="color: Green">%%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE</span> | |||
<span style="color: Green">%%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT.</span> | |||
m.morphogens(:,polariser_i) = P; | |||
m.morphogens(:,kapar_i) = kapar_p; | |||
m.morphogens(:,kaper_i) = kaper_p; | |||
m.morphogens(:,kbpar_i) = kbpar_p; | |||
m.morphogens(:,kbper_i) = kbper_p; | |||
m.morphogens(:,knor_i) = knor_p; | |||
m.morphogens(:,strainret_i) = strainret_p; | |||
m.morphogens(:,arrest_i) = arrest_p; | |||
m.morphogens(:,id_plusorg_i) = id_plusorg_p; | |||
m.morphogens(:,id_negorg_i) = id_negorg_p; | |||
m.morphogens(:,id_a_i) = id_a_p; | |||
m.morphogens(:,id_b_i) = id_b_p; | |||
<span style="color: Green">%%% USER CODE: FINALISATION</span> | |||
<span style="color: CornflowerBlue">Section 11</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | |||
<span style="color: CornflowerBlue">Section 12</span> | |||
<span style="color: Green">% If needed force FE to subdivide (increase number FE's) here</span> | |||
<span style="color: Green">% if realtime==280+dt</span> | |||
<span style="color: Green">% m = leaf_subdivide( m, 'morphogen','id_vent',...</span> | |||
<span style="color: Green">% 'min',0.5,'max',1,...</span> | |||
<span style="color: Green">% 'mode','mid','levels','all');</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% Cut the mesh along the seams (see above)</span> | |||
<span style="color: Green">% if m.userdata.CutOpen==1</span> | |||
<span style="color: Green">% m=leaf_dissect(m);</span> | |||
<span style="color: Green">% m.userdata.CutOpen=2;</span> | |||
<span style="color: Green">% Relax accumulated stresses slowly i.e. 0.95 to 0.999</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'freezing', 0.999 );</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">%%% END OF USER CODE: FINALISATION</span> | |||
end | |||
<span style="color: Green">%%% USER CODE: SUBFUNCTIONS</span> | |||
<span style="color: CornflowerBlue">Section 13</span> | |||
function m = local_setproperties( m ) | |||
<span style="color: Green">% This function is called at time zero in the INITIALISATION section of the</span> | |||
<span style="color: Green">% interaction function. It provides commands to set each of the properties</span> | |||
<span style="color: Green">% that are contained in m.globalProps. Uncomment whichever ones you would</span> | |||
<span style="color: Green">% like to set yourself, and put in whatever value you want.</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% Some of these properties are for internal use only and should never be</span> | |||
<span style="color: Green">% set by the user. At some point these will be moved into a different</span> | |||
<span style="color: Green">% component of m, but for the present, just don't change anything unless</span> | |||
<span style="color: Green">% you know what it is you're changing.</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'trinodesvalid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'prismnodesvalid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessRelative', 0.020000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessArea', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessMode', 'physical' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'activeGrowth', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'displayedGrowth', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'displayedMulti', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowNegativeGrowth', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usePrevDispAsEstimate', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'resetRand', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mingradient', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'relativepolgrad', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usefrozengradient', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'userpolarisation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thresholdsq', 0.000841 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'splitmargin', 1.400000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'splitmorphogen', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thresholdmgen', 0.500000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bulkmodulus', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'unitbulkmodulus', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'poissonsRatio', 0.300000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'starttime', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'timestep', 0.010000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'timeunitname', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'distunitname', 'mm' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'scalebarvalue', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'validateMesh', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'rectifyverticals', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitLongFEM', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitBentFEM', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitBio', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowFlipEdges', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowElideEdges', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mincellangle', 0.200000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'alwaysFlat', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flattenforceconvex', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flatten', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flattenratio', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'useGrowthTensors', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'plasticGrowth', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'showinternalrotation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'performinternalrotation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'internallyrotated', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxFEcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'inittotalcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApresplitproc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApostsplitproc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxBioAcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxBioBcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colors', (6 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colorvariation', 0.050000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colorparams', (12 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'freezing', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'canceldrift', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mgen_interaction', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowInteraction', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'interactionValid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'gaussInfo', (unknown type ''struct'') );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stitchDFs', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'D', (36 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'C', (36 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'G', (6 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solver', 'cgs' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solverprecision', 'double' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solvertolerance', 0.001000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowsparse', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxIters', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'cgiters', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'simsteps', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stepsperrender', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'growthEnabled', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'diffusionEnabled', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flashmovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'makemovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'moviefile', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'codec', 'None' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'autonamemovie', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'overwritemovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'framesize', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mov', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'jiggleProportion', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'cvtperiter', 0.200000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'boingNeeded', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'initialArea', 0.031326 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bendunitlength', 0.176992 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'targetRelArea', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultinterp', 'min' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'readonly', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowsave', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'addedToPath', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bendsplit', 0.300000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usepolfreezebc', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'dorsaltop', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultazimuth', -45.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultelevation', 33.750000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultroll', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultViewParams', (unknown type ''struct'') );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'comment', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioAsplitcells', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApullin', 0.142857 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioAfakepull', 0.202073 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'interactive', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'coderevision', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'coderevisiondate', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelrevision', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelrevisiondate', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'savedrunname', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'savedrundesc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'vxgrad', (108 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'lengthscale', 0.200000 );</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 14</span> | |||
<span style="color: Green">% Here you may write any functions of your own, that you want to call from</span> | |||
<span style="color: Green">% the interaction function, but never need to call from outside it.</span> | |||
<span style="color: Green">% Remember that they do not have access to any variables except those</span> | |||
<span style="color: Green">% that you pass as parameters, and cannot change anything except by</span> | |||
<span style="color: Green">% returning new values as results.</span> | |||
<span style="color: Green">% Whichever section they are called from, they must respect the same</span> | |||
<span style="color: Green">% restrictions on what modifications they are allowed to make to the mesh.</span> | |||
<span style="color: Green">% For example:</span> | |||
<span style="color: CornflowerBlue">Section 15</span> | |||
<span style="color: Green">% function m = do_something( m )</span> | |||
<span style="color: Green">% % Change m in some way.</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% Call it from the main body of the interaction function like this:</span> | |||
<span style="color: Green">% m = do_something( m );</span> | |||
<span style="color: CornflowerBlue">Section 1</span> | |||
function m = gpt_tut_interaction_20110530( m ) | |||
<span style="color: Green">%m = gpt_tut_interaction_20110530( m )</span> | |||
<span style="color: Green">% Morphogen interaction function.</span> | |||
<span style="color: Green">% Written at 2011-05-30 09:42:07.</span> | |||
<span style="color: Green">% GFtbox revision 0, .</span> | |||
<span style="color: Green">% The user may edit any part of this function between delimiters</span> | |||
<span style="color: Green">% of the form "USER CODE..." and "END OF USER CODE...". The</span> | |||
<span style="color: Green">% delimiters themselves must not be moved, edited, deleted, or added.</span> | |||
if isempty(m), return; end | |||
fprintf( 1, '<span style="color: Green">%s found in %s\n', mfilename(), which(mfilename()) );</span> | |||
try | |||
m = local_setproperties( m ); | |||
catch | |||
end | |||
realtime = m.globalDynamicProps.currenttime; | |||
<span style="color: Green">%%% USER CODE: INITIALISATION</span> | |||
<span style="color: CornflowerBlue">Section 2</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | |||
if (Steps(m)==0) && m.globalDynamicProps.doinit <span style="color: Green">% First iteration</span> | |||
<span style="color: Green">% Zero out a lot of stuff to create a blank slate.</span> | |||
<span style="color: Green">% If no morphogens are set in the GUI it may be useful to</span> | |||
<span style="color: Green">% zero some arrays by uncommenting the following.</span> | |||
<span style="color: Green">% m.morphogens(:) = 0;</span> | |||
<span style="color: Green">% m.morphogenclamp(:) = 0;</span> | |||
<span style="color: Green">% m.mgen_production(:) = 0;</span> | |||
<span style="color: Green">% m.mgen_absorption(:) = 0;</span> | |||
<span style="color: Green">% m.seams(:) = false;</span> | |||
<span style="color: Green">% m.mgen_dilution(:) = false;</span> | |||
<span style="color: Green">% Set up names for variant models. Useful for running multiple models on a cluster.</span> | |||
m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; <span style="color: Green">% CLUSTER</span> | |||
m.userdata.ranges.modelname.index = 1; <span style="color: Green">% CLUSTER</span> | |||
end | |||
modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; <span style="color: Green">% CLUSTER</span> | |||
disp(sprintf('\nRunning <span style="color: Green">%s model %s\n',mfilename, modelname));</span> | |||
switch modelname | |||
case 'MODEL1' | |||
<span style="color: Green">% Set up the parameters (e.g. mutations) for this model here.</span> | |||
case 'MODEL2' | |||
<span style="color: Green">% Set up the parameters (e.g. mutations) for this model here.</span> | |||
otherwise | |||
<span style="color: Green">% If you reach here, you probably forgot a case.</span> | |||
end | |||
<span style="color: Green">% More examples of code for all iterations.</span> | |||
<span style="color: Green">% Set priorities for simultaneous plotting of multiple morphogens, if desired.</span> | |||
<span style="color: Green">% m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] );</span> | |||
<span style="color: Green">% Set colour of polariser gradient arrows.</span> | |||
<span style="color: Green">% m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]);</span> | |||
<span style="color: Green">% setup a multiplot of the following morphogens</span> | |||
<span style="color: Green">% m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'});</span> | |||
<span style="color: Green">% to plot polariser on the A side and resultant areal growth rate on the B side:</span> | |||
<span style="color: Green">% m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ...</span> | |||
<span style="color: Green">% 'outputquantityB', 'resultantgrowthrate', ...</span> | |||
<span style="color: Green">% 'outputaxesB', 'areal' );</span> | |||
<span style="color: Green">% monitor properties of vertices must be done here - so that it reports newly equilibrated levels</span> | |||
<span style="color: Green">% m=leaf_profile_monitor(m,... % essential</span> | |||
<span style="color: Green">% 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential</span> | |||
<span style="color: Green">% 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL)</span> | |||
<span style="color: Green">% 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory')</span> | |||
<span style="color: CornflowerBlue">Section 3</span> | |||
<span style="color: Green">%%% END OF USER CODE: INITIALISATION</span> | |||
<span style="color: Green">%%% SECTION 1: ACCESSING MORPHOGENS AND TIME.</span> | |||
<span style="color: Green">%%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT.</span> | |||
if isempty(m), return; end | |||
setGlobals(); | |||
global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER | |||
global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST | |||
dt = m.globalProps.timestep; | |||
polariser_i = gNEW_POLARISER; | |||
P = m.morphogens(:,polariser_i); | |||
[kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); | |||
[kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); | |||
[kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); | |||
[kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); | |||
[knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); | |||
[strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); | |||
[arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); | |||
[id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); | |||
[id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); | |||
[id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); | |||
[id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); | |||
<span style="color: Green">% Mesh type: circle</span> | |||
<span style="color: Green">% centre: 0</span> | |||
<span style="color: Green">% circumpts: 48</span> | |||
<span style="color: Green">% coneangle: 0</span> | |||
<span style="color: Green">% dealign: 0</span> | |||
<span style="color: Green">% height: 0</span> | |||
<span style="color: Green">% innerpts: 0</span> | |||
<span style="color: Green">% randomness: 0.1</span> | |||
<span style="color: Green">% rings: 6</span> | |||
<span style="color: Green">% version: 1</span> | |||
<span style="color: Green">% xwidth: 0.2</span> | |||
<span style="color: Green">% ywidth: 0.2</span> | |||
<span style="color: Green">% Morphogen Diffusion Decay Dilution Mutant</span> | |||
<span style="color: Green">% -------------------------------------------------</span> | |||
<span style="color: Green">% KAPAR ---- ---- ---- ----</span> | |||
<span style="color: Green">% KAPER ---- ---- ---- ----</span> | |||
<span style="color: Green">% KBPAR ---- ---- ---- ----</span> | |||
<span style="color: Green">% KBPER ---- ---- ---- ----</span> | |||
<span style="color: Green">% KNOR ---- ---- ---- ----</span> | |||
<span style="color: Green">% POLARISER ---- ---- ---- ----</span> | |||
<span style="color: Green">% STRAINRET ---- ---- ---- ----</span> | |||
<span style="color: Green">% ARREST ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_PLUSORG ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_NEGORG ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_A ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_B ---- ---- ---- ----</span> | |||
<span style="color: Green">%%% USER CODE: MORPHOGEN INTERACTIONS</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way that does not</span> | |||
<span style="color: CornflowerBlue">Section 4</span> | |||
<span style="color: Green">% alter the set of nodes.</span> | |||
if (Steps(m)==0) && m.globalDynamicProps.doinit <span style="color: Green">% Initialisation code.</span> | |||
<span style="color: Green">% Put any code here that should only be performed at the start of</span> | |||
<span style="color: Green">% the simulation, for example, to set up initial morphogen values.</span> | |||
<span style="color: Green">% m.nodes is the set of vertex positions, an N by 3 array if there</span> | |||
<span style="color: Green">% are N vertices. Row number K contains the X, Y, and Z</span> | |||
<span style="color: Green">% coordinates of the Kth vertex. To obtain a list of the X</span> | |||
<span style="color: Green">% coordinates of every vertex, write m.nodes(:,1). The Y</span> | |||
<span style="color: Green">% coordinates are given by m.nodes(:,2) and the Z coordinates by</span> | |||
<span style="color: Green">% m.nodes(:,3).</span> | |||
<span style="color: Green">% Set up a morphogen promoter (_p suffix) region where x values are minimum</span> | |||
<span style="color: Green">% id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1;</span> | |||
<span style="color: Green">% if the morphogen level (_l suffix) is to be used in this iteration</span> | |||
<span style="color: Green">% set the level using the morphogen activity (_a suffix).</span> | |||
<span style="color: Green">% id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI</span> | |||
<span style="color: Green">% the activity (_a) is set to zero</span> | |||
id_a_p(m.nodes(:,1)<-0.03)=1; <span style="color: Green">% setup region for A where identity factor A is represented by id_a_p</span> | |||
id_b_p(m.nodes(:,2)<-0.01)=1; <span style="color: Green">% setup region for B</span> | |||
<span style="color: Green">% One way to set up a morphogen gradient is by ...</span> | |||
<span style="color: Green">% Setting up a gradient by clamping the ends (execute only once)</span> | |||
<span style="color: Green">% P=id_prox_p;</span> | |||
<span style="color: Green">% m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1;</span> | |||
<span style="color: Green">% m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser</span> | |||
<span style="color: Green">% m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser</span> | |||
<span style="color: Green">% Fixing vertices, i.e. fix z for the base to prevent base from moving up or down</span> | |||
<span style="color: Green">% m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z');</span> | |||
<span style="color: Green">% To cut the mesh, set a temporary morphogen to 1 in places to cut</span> | |||
<span style="color: Green">% seams=zeros(size(P));</span> | |||
<span style="color: Green">% seams(indexes to places to cut)=1;</span> | |||
<span style="color: Green">% m=leaf_set_seams(m,seams);</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 5</span> | |||
<span style="color: Green">% Second way to generate a gradient</span> | |||
<span style="color: Green">% generating (+) and sinking (-) a diffusing signal (in this case polariser)</span> | |||
<span style="color: Green">% m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p;</span> | |||
<span style="color: Green">% Monitor growth by scattering discs that deform over time (c.f. inducing biological clones)</span> | |||
<span style="color: Green">% (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true,</span> | |||
<span style="color: Green">% because a quirk of the Matlab z-buffer means that they can get hidden by mistake)</span> | |||
<span style="color: Green">% if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340</span> | |||
<span style="color: Green">% m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells.</span> | |||
<span style="color: Green">% 'mode', 'each', ... % Make discs randomly scattered over the canvas.</span> | |||
<span style="color: Green">% 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas.</span> | |||
<span style="color: Green">% 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas)</span> | |||
<span style="color: Green">% 'numcells',4500,...%number of discs (that will become ellipses)</span> | |||
<span style="color: Green">% 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon.</span> | |||
<span style="color: Green">% 'colors', [0.5 0.5 0.5], ... % Default colour is gray but</span> | |||
<span style="color: Green">% 'colorvariation',1,... % Each disc is a random colour</span> | |||
<span style="color: Green">% 'add', true ); % These discs are added to any discs existing already</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: CornflowerBlue">Section 6</span> | |||
<span style="color: Green">% Directives for creating latex representation directly from Matlab code</span> | <span style="color: Green">% Directives for creating latex representation directly from Matlab code</span> | ||
<span style="color: Green">% not fully implemented yet but will use @@ directives</span> | <span style="color: Green">% not fully implemented yet but will use @@ directives</span> | ||
Line 201: | Line 676: | ||
<span style="color: Green">% @@after t</span> | <span style="color: Green">% @@after t</span> | ||
<span style="color: Green">% @@between t1 t2</span> | <span style="color: Green">% @@between t1 t2</span> | ||
<span style="color: CornflowerBlue">Section 7</span> | |||
<span style="color: Green">% % If you want to define different phases according to the absolute</span> | |||
<span style="color: Green">% % time, create a morphogen for each phase and modulate</span> | |||
<span style="color: Green">% % expressions using the morphogen</span> | |||
<span style="color: Green">% % like. For example:</span> | |||
<span style="color: Green">% if (realtime < 10) % first growth phase</span> | |||
<span style="color: Green">% f_firstgrowth_p = 1;</span> | |||
<span style="color: Green">% else</span> | |||
<span style="color: Green">% f_firstgrowth_p = 0;</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% if (realtime >= 10) % second growth phase</span> | |||
<span style="color: Green">% f_secondgrowth_p = 1;</span> | |||
<span style="color: Green">% else</span> | |||
<span style="color: Green">% f_secondgrowth_p = 0;</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% % If you want one morphogen to affect others only during a certain</span> | |||
<span style="color: Green">% % phase, write something like:</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth</span> | |||
<span style="color: CornflowerBlue">Section 8</span> | <span style="color: CornflowerBlue">Section 8</span> | ||
<span style="color: Green">% Code common to all models.</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: CornflowerBlue">Section 9</span> | |||
<span style="color: Green">% Code for specific models.</span> | |||
switch modelname | |||
case 'MODEL1' <span style="color: Green">% @@model MODEL1</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% P(:) = ... % @@ Eqn xx</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% kapar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kaper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbpar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% knor_p(:) = 0; % @@ Eqn xx</span> | |||
kapar_p(:) = id_a_l .* inh(1,id_b_l); <span style="color: Green">% growth rate</span> | |||
kaper_p(:) = kapar_p; <span style="color: Green">% isotropic growth</span> | |||
kbpar_p(:) = kapar_p; <span style="color: Green">% same on both sides of the sheet</span> | |||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | |||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | |||
case 'MODEL2' <span style="color: Green">% @@model MODEL2</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% P(:) = ... % @@ Eqn xx</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% kapar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kaper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbpar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% knor_p(:) = 0; % @@ Eqn xx</span> | |||
kapar_p(:) = id_a_l .* inh(1,id_b_l); <span style="color: Green">% growth rate</span> | |||
kaper_p(:) = kapar_p; <span style="color: Green">% isotropic growth</span> | |||
kbpar_p(:) = kapar_p; <span style="color: Green">% same on both sides of the sheet</span> | |||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | |||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | |||
otherwise | |||
<span style="color: Green">% If this happens, maybe you forgot a model.</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 10</span> | |||
<span style="color: Green">%%% END OF USER CODE: MORPHOGEN INTERACTIONS</span> | |||
<span style="color: Green">%%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE</span> | |||
<span style="color: Green">%%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT.</span> | |||
m.morphogens(:,polariser_i) = P; | |||
m.morphogens(:,kapar_i) = kapar_p; | |||
m.morphogens(:,kaper_i) = kaper_p; | |||
m.morphogens(:,kbpar_i) = kbpar_p; | |||
m.morphogens(:,kbper_i) = kbper_p; | |||
m.morphogens(:,knor_i) = knor_p; | |||
m.morphogens(:,strainret_i) = strainret_p; | |||
m.morphogens(:,arrest_i) = arrest_p; | |||
m.morphogens(:,id_plusorg_i) = id_plusorg_p; | |||
m.morphogens(:,id_negorg_i) = id_negorg_p; | |||
m.morphogens(:,id_a_i) = id_a_p; | |||
m.morphogens(:,id_b_i) = id_b_p; | |||
<span style="color: Green">%%% USER CODE: FINALISATION</span> | |||
<span style="color: CornflowerBlue">Section 11</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | |||
<span style="color: CornflowerBlue">Section 12</span> | |||
<span style="color: Green">% If needed force FE to subdivide (increase number FE's) here</span> | |||
<span style="color: Green">% if realtime==280+dt</span> | |||
<span style="color: Green">% m = leaf_subdivide( m, 'morphogen','id_vent',...</span> | |||
<span style="color: Green">% 'min',0.5,'max',1,...</span> | |||
<span style="color: Green">% 'mode','mid','levels','all');</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% Cut the mesh along the seams (see above)</span> | |||
<span style="color: Green">% if m.userdata.CutOpen==1</span> | |||
<span style="color: Green">% m=leaf_dissect(m);</span> | |||
<span style="color: Green">% m.userdata.CutOpen=2;</span> | |||
<span style="color: Green">% Relax accumulated stresses slowly i.e. 0.95 to 0.999</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'freezing', 0.999 );</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">%%% END OF USER CODE: FINALISATION</span> | |||
end | |||
<span style="color: Green">%%% USER CODE: SUBFUNCTIONS</span> | |||
<span style="color: CornflowerBlue">Section 13</span> | |||
function m = local_setproperties( m ) | |||
<span style="color: Green">% This function is called at time zero in the INITIALISATION section of the</span> | |||
<span style="color: Green">% interaction function. It provides commands to set each of the properties</span> | |||
<span style="color: Green">% that are contained in m.globalProps. Uncomment whichever ones you would</span> | |||
<span style="color: Green">% like to set yourself, and put in whatever value you want.</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% Some of these properties are for internal use only and should never be</span> | |||
<span style="color: Green">% set by the user. At some point these will be moved into a different</span> | |||
<span style="color: Green">% component of m, but for the present, just don't change anything unless</span> | |||
<span style="color: Green">% you know what it is you're changing.</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'trinodesvalid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'prismnodesvalid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessRelative', 0.020000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessArea', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessMode', 'physical' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'activeGrowth', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'displayedGrowth', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'displayedMulti', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowNegativeGrowth', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usePrevDispAsEstimate', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'resetRand', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mingradient', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'relativepolgrad', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usefrozengradient', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'userpolarisation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thresholdsq', 0.000841 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'splitmargin', 1.400000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'splitmorphogen', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thresholdmgen', 0.500000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bulkmodulus', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'unitbulkmodulus', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'poissonsRatio', 0.300000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'starttime', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'timestep', 0.010000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'timeunitname', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'distunitname', 'mm' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'scalebarvalue', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'validateMesh', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'rectifyverticals', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitLongFEM', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitBentFEM', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitBio', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowFlipEdges', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowElideEdges', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mincellangle', 0.200000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'alwaysFlat', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flattenforceconvex', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flatten', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flattenratio', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'useGrowthTensors', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'plasticGrowth', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'showinternalrotation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'performinternalrotation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'internallyrotated', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxFEcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'inittotalcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApresplitproc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApostsplitproc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxBioAcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxBioBcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colors', (6 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colorvariation', 0.050000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colorparams', (12 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'freezing', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'canceldrift', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mgen_interaction', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowInteraction', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'interactionValid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'gaussInfo', (unknown type ''struct'') );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stitchDFs', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'D', (36 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'C', (36 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'G', (6 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solver', 'cgs' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solverprecision', 'double' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solvertolerance', 0.001000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowsparse', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxIters', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'cgiters', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'simsteps', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stepsperrender', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'growthEnabled', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'diffusionEnabled', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flashmovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'makemovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'moviefile', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'codec', 'None' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'autonamemovie', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'overwritemovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'framesize', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mov', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'jiggleProportion', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'cvtperiter', 0.200000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'boingNeeded', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'initialArea', 0.031326 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bendunitlength', 0.176992 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'targetRelArea', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultinterp', 'min' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'readonly', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowsave', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'addedToPath', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bendsplit', 0.300000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usepolfreezebc', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'dorsaltop', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultazimuth', -45.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultelevation', 33.750000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultroll', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultViewParams', (unknown type ''struct'') );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'comment', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioAsplitcells', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApullin', 0.142857 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioAfakepull', 0.202073 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'interactive', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'coderevision', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'coderevisiondate', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelrevision', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelrevisiondate', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'savedrunname', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'savedrundesc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'vxgrad', (108 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'lengthscale', 0.200000 );</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 14</span> | |||
<span style="color: Green">% Here you may write any functions of your own, that you want to call from</span> | |||
<span style="color: Green">% the interaction function, but never need to call from outside it.</span> | |||
<span style="color: Green">% Remember that they do not have access to any variables except those</span> | |||
<span style="color: Green">% that you pass as parameters, and cannot change anything except by</span> | |||
<span style="color: Green">% returning new values as results.</span> | |||
<span style="color: Green">% Whichever section they are called from, they must respect the same</span> | |||
<span style="color: Green">% restrictions on what modifications they are allowed to make to the mesh.</span> | |||
<span style="color: Green">% For example:</span> | |||
<span style="color: CornflowerBlue">Section 15</span> | |||
<span style="color: Green">% function m = do_something( m )</span> | |||
<span style="color: Green">% % Change m in some way.</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% Call it from the main body of the interaction function like this:</span> | |||
<span style="color: Green">% m = do_something( m );</span> | |||
<span style="color: CornflowerBlue">Section 1</span> | |||
function m = gpt_tut_interaction_20110530( m ) | |||
<span style="color: Green">%m = gpt_tut_interaction_20110530( m )</span> | |||
<span style="color: Green">% Morphogen interaction function.</span> | |||
<span style="color: Green">% Written at 2011-05-30 09:42:07.</span> | |||
<span style="color: Green">% GFtbox revision 0, .</span> | |||
<span style="color: Green">% The user may edit any part of this function between delimiters</span> | |||
<span style="color: Green">% of the form "USER CODE..." and "END OF USER CODE...". The</span> | |||
<span style="color: Green">% delimiters themselves must not be moved, edited, deleted, or added.</span> | |||
if isempty(m), return; end | |||
fprintf( 1, '<span style="color: Green">%s found in %s\n', mfilename(), which(mfilename()) );</span> | |||
try | |||
m = local_setproperties( m ); | |||
catch | |||
end | |||
realtime = m.globalDynamicProps.currenttime; | |||
<span style="color: CornflowerBlue">Section 2</span> | |||
<span style="color: Green">%%% USER CODE: INITIALISATION</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | |||
if (Steps(m)==0) && m.globalDynamicProps.doinit <span style="color: Green">% First iteration</span> | |||
<span style="color: Green">% Zero out a lot of stuff to create a blank slate.</span> | |||
<span style="color: Green">% If no morphogens are set in the GUI it may be useful to</span> | |||
<span style="color: Green">% zero some arrays by uncommenting the following.</span> | |||
<span style="color: Green">% m.morphogens(:) = 0;</span> | |||
<span style="color: Green">% m.morphogenclamp(:) = 0;</span> | |||
<span style="color: Green">% m.mgen_production(:) = 0;</span> | |||
<span style="color: Green">% m.mgen_absorption(:) = 0;</span> | |||
<span style="color: Green">% m.seams(:) = false;</span> | |||
<span style="color: Green">% m.mgen_dilution(:) = false;</span> | |||
<span style="color: Green">% Set up names for variant models. Useful for running multiple models on a cluster.</span> | |||
m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; <span style="color: Green">% CLUSTER</span> | |||
m.userdata.ranges.modelname.index = 1; <span style="color: Green">% CLUSTER</span> | |||
end | |||
modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; <span style="color: Green">% CLUSTER</span> | |||
disp(sprintf('\nRunning <span style="color: Green">%s model %s\n',mfilename, modelname));</span> | |||
switch modelname | |||
case 'MODEL1' | |||
<span style="color: Green">% Set up the parameters (e.g. mutations) for this model here.</span> | |||
case 'MODEL2' | |||
<span style="color: Green">% Set up the parameters (e.g. mutations) for this model here.</span> | |||
otherwise | |||
<span style="color: Green">% If you reach here, you probably forgot a case.</span> | |||
end | |||
<span style="color: Green">% More examples of code for all iterations.</span> | |||
<span style="color: Green">% Set priorities for simultaneous plotting of multiple morphogens, if desired.</span> | |||
<span style="color: Green">% m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] );</span> | |||
<span style="color: Green">% Set colour of polariser gradient arrows.</span> | |||
<span style="color: Green">% m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]);</span> | |||
<span style="color: Green">% setup a multiplot of the following morphogens</span> | |||
<span style="color: Green">% m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'});</span> | |||
<span style="color: Green">% to plot polariser on the A side and resultant areal growth rate on the B side:</span> | |||
<span style="color: Green">% m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ...</span> | |||
<span style="color: Green">% 'outputquantityB', 'resultantgrowthrate', ...</span> | |||
<span style="color: Green">% 'outputaxesB', 'areal' );</span> | |||
<span style="color: Green">% monitor properties of vertices must be done here - so that it reports newly equilibrated levels</span> | |||
<span style="color: Green">% m=leaf_profile_monitor(m,... % essential</span> | |||
<span style="color: Green">% 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential</span> | |||
<span style="color: Green">% 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL)</span> | |||
<span style="color: Green">% 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory')</span> | |||
<span style="color: Green">%%% END OF USER CODE: INITIALISATION</span> | |||
<span style="color: CornflowerBlue">Section 3</span> | |||
<span style="color: Green">%%% SECTION 1: ACCESSING MORPHOGENS AND TIME.</span> | |||
<span style="color: Green">%%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT.</span> | |||
if isempty(m), return; end | |||
setGlobals(); | |||
global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER | |||
global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST | |||
dt = m.globalProps.timestep; | |||
polariser_i = gNEW_POLARISER; | |||
P = m.morphogens(:,polariser_i); | |||
[kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); | |||
[kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); | |||
[kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); | |||
[kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); | |||
[knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); | |||
[strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); | |||
[arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); | |||
[id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); | |||
[id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); | |||
[id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); | |||
[id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); | |||
<span style="color: Green">% Mesh type: circle</span> | |||
<span style="color: Green">% centre: 0</span> | |||
<span style="color: Green">% circumpts: 48</span> | |||
<span style="color: Green">% coneangle: 0</span> | |||
<span style="color: Green">% dealign: 0</span> | |||
<span style="color: Green">% height: 0</span> | |||
<span style="color: Green">% innerpts: 0</span> | |||
<span style="color: Green">% randomness: 0.1</span> | |||
<span style="color: Green">% rings: 6</span> | |||
<span style="color: Green">% version: 1</span> | |||
<span style="color: Green">% xwidth: 0.2</span> | |||
<span style="color: Green">% ywidth: 0.2</span> | |||
<span style="color: Green">% Morphogen Diffusion Decay Dilution Mutant</span> | |||
<span style="color: Green">% -------------------------------------------------</span> | |||
<span style="color: Green">% KAPAR ---- ---- ---- ----</span> | |||
<span style="color: Green">% KAPER ---- ---- ---- ----</span> | |||
<span style="color: Green">% KBPAR ---- ---- ---- ----</span> | |||
<span style="color: Green">% KBPER ---- ---- ---- ----</span> | |||
<span style="color: Green">% KNOR ---- ---- ---- ----</span> | |||
<span style="color: Green">% POLARISER ---- ---- ---- ----</span> | |||
<span style="color: Green">% STRAINRET ---- ---- ---- ----</span> | |||
<span style="color: Green">% ARREST ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_PLUSORG ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_NEGORG ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_A ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_B ---- ---- ---- ----</span> | |||
<span style="color: Green">%%% USER CODE: MORPHOGEN INTERACTIONS</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way that does not</span> | |||
<span style="color: CornflowerBlue">Section 4</span> | |||
<span style="color: Green">% alter the set of nodes.</span> | |||
if (Steps(m)==0) && m.globalDynamicProps.doinit <span style="color: Green">% Initialisation code.</span> | |||
<span style="color: Green">% Put any code here that should only be performed at the start of</span> | |||
<span style="color: Green">% the simulation, for example, to set up initial morphogen values.</span> | |||
<span style="color: Green">% m.nodes is the set of vertex positions, an N by 3 array if there</span> | |||
<span style="color: Green">% are N vertices. Row number K contains the X, Y, and Z</span> | |||
<span style="color: Green">% coordinates of the Kth vertex. To obtain a list of the X</span> | |||
<span style="color: Green">% coordinates of every vertex, write m.nodes(:,1). The Y</span> | |||
<span style="color: Green">% coordinates are given by m.nodes(:,2) and the Z coordinates by</span> | |||
<span style="color: Green">% m.nodes(:,3).</span> | |||
<span style="color: Green">% Set up a morphogen promoter (_p suffix) region where x values are minimum</span> | |||
<span style="color: Green">% id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1;</span> | |||
<span style="color: Green">% if the morphogen level (_l suffix) is to be used in this iteration</span> | |||
<span style="color: Green">% set the level using the morphogen activity (_a suffix).</span> | |||
<span style="color: Green">% id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI</span> | |||
<span style="color: Green">% the activity (_a) is set to zero</span> | |||
id_a_p(m.nodes(:,1)<-0.03)=1; <span style="color: Green">% setup region for A where identity factor A is represented by id_a_p</span> | |||
id_b_p(m.nodes(:,2)<-0.01)=1; <span style="color: Green">% setup region for B</span> | |||
<span style="color: Green">% One way to set up a morphogen gradient is by ...</span> | |||
<span style="color: Green">% Setting up a gradient by clamping the ends (execute only once)</span> | |||
<span style="color: Green">% P=id_prox_p;</span> | |||
<span style="color: Green">% m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1;</span> | |||
<span style="color: Green">% m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser</span> | |||
<span style="color: Green">% m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser</span> | |||
<span style="color: Green">% Fixing vertices, i.e. fix z for the base to prevent base from moving up or down</span> | |||
<span style="color: Green">% m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z');</span> | |||
<span style="color: Green">% To cut the mesh, set a temporary morphogen to 1 in places to cut</span> | |||
<span style="color: Green">% seams=zeros(size(P));</span> | |||
<span style="color: Green">% seams(indexes to places to cut)=1;</span> | |||
<span style="color: Green">% m=leaf_set_seams(m,seams);</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 5</span> | |||
<span style="color: Green">% Second way to generate a gradient</span> | |||
<span style="color: Green">% generating (+) and sinking (-) a diffusing signal (in this case polariser)</span> | |||
<span style="color: Green">% m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p;</span> | |||
<span style="color: Green">% Monitor growth by scattering discs that deform over time (c.f. inducing biological clones)</span> | |||
<span style="color: Green">% (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true,</span> | |||
<span style="color: Green">% because a quirk of the Matlab z-buffer means that they can get hidden by mistake)</span> | |||
<span style="color: Green">% if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340</span> | |||
<span style="color: Green">% m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells.</span> | |||
<span style="color: Green">% 'mode', 'each', ... % Make discs randomly scattered over the canvas.</span> | |||
<span style="color: Green">% 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas.</span> | |||
<span style="color: Green">% 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas)</span> | |||
<span style="color: Green">% 'numcells',4500,...%number of discs (that will become ellipses)</span> | |||
<span style="color: Green">% 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon.</span> | |||
<span style="color: Green">% 'colors', [0.5 0.5 0.5], ... % Default colour is gray but</span> | |||
<span style="color: Green">% 'colorvariation',1,... % Each disc is a random colour</span> | |||
<span style="color: Green">% 'add', true ); % These discs are added to any discs existing already</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: CornflowerBlue">Section 6</span> | |||
<span style="color: Green">% Directives for creating latex representation directly from Matlab code</span> | |||
<span style="color: Green">% not fully implemented yet but will use @@ directives</span> | |||
<span style="color: Green">% @@at t</span> | |||
<span style="color: Green">% @@before t</span> | |||
<span style="color: Green">% @@after t</span> | |||
<span style="color: Green">% @@between t1 t2</span> | |||
<span style="color: CornflowerBlue">Section 7</span> | |||
<span style="color: Green">% % If you want to define different phases according to the absolute</span> | <span style="color: Green">% % If you want to define different phases according to the absolute</span> | ||
<span style="color: Green">% % time, create a morphogen for each phase and modulate</span> | <span style="color: Green">% % time, create a morphogen for each phase and modulate</span> | ||
Line 222: | Line 1,172: | ||
<span style="color: Green">%</span> | <span style="color: Green">%</span> | ||
<span style="color: Green">% mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth</span> | <span style="color: Green">% mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth</span> | ||
<span style="color: CornflowerBlue">Section 8</span> | |||
<span style="color: Green">% Code common to all models.</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: CornflowerBlue">Section 9</span> | <span style="color: CornflowerBlue">Section 9</span> | ||
<span style="color: Green">% Code for specific models.</span> | |||
switch modelname | |||
<span style="color: CornflowerBlue">Section 10</span> | |||
case 'MODEL1' <span style="color: Green">% @@model MODEL1</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% P(:) = ... % @@ Eqn xx</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% kapar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kaper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbpar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% knor_p(:) = 0; % @@ Eqn xx</span> | |||
kapar_p(:) = id_a_l .* inh(1,id_b_l); <span style="color: Green">% growth rate</span> | |||
kaper_p(:) = kapar_p; <span style="color: Green">% isotropic growth</span> | |||
kbpar_p(:) = kapar_p; <span style="color: Green">% same on both sides of the sheet</span> | |||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | |||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | |||
<span style="color: CornflowerBlue">Section 11</span> | |||
case 'MODEL2' <span style="color: Green">% @@model MODEL2</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% P(:) = ... % @@ Eqn xx</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% kapar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kaper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbpar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% knor_p(:) = 0; % @@ Eqn xx</span> | |||
kapar_p(:) = id_a_l .* inh(1,id_b_l); <span style="color: Green">% growth rate</span> | |||
kaper_p(:) = kapar_p; <span style="color: Green">% isotropic growth</span> | |||
kbpar_p(:) = kapar_p; <span style="color: Green">% same on both sides of the sheet</span> | |||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | |||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | |||
otherwise | |||
<span style="color: Green">% If this happens, maybe you forgot a model.</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 12</span> | |||
<span style="color: Green">%%% END OF USER CODE: MORPHOGEN INTERACTIONS</span> | |||
<span style="color: Green">%%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE</span> | |||
<span style="color: Green">%%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT.</span> | |||
m.morphogens(:,polariser_i) = P; | |||
m.morphogens(:,kapar_i) = kapar_p; | |||
m.morphogens(:,kaper_i) = kaper_p; | |||
m.morphogens(:,kbpar_i) = kbpar_p; | |||
m.morphogens(:,kbper_i) = kbper_p; | |||
m.morphogens(:,knor_i) = knor_p; | |||
m.morphogens(:,strainret_i) = strainret_p; | |||
m.morphogens(:,arrest_i) = arrest_p; | |||
m.morphogens(:,id_plusorg_i) = id_plusorg_p; | |||
m.morphogens(:,id_negorg_i) = id_negorg_p; | |||
m.morphogens(:,id_a_i) = id_a_p; | |||
m.morphogens(:,id_b_i) = id_b_p; | |||
<span style="color: Green">%%% USER CODE: FINALISATION</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | |||
<span style="color: CornflowerBlue">Section 13</span> | |||
<span style="color: Green">% If needed force FE to subdivide (increase number FE's) here</span> | |||
<span style="color: Green">% if realtime==280+dt</span> | |||
<span style="color: Green">% m = leaf_subdivide( m, 'morphogen','id_vent',...</span> | |||
<span style="color: Green">% 'min',0.5,'max',1,...</span> | |||
<span style="color: Green">% 'mode','mid','levels','all');</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% Cut the mesh along the seams (see above)</span> | |||
<span style="color: Green">% if m.userdata.CutOpen==1</span> | |||
<span style="color: Green">% m=leaf_dissect(m);</span> | |||
<span style="color: Green">% m.userdata.CutOpen=2;</span> | |||
<span style="color: Green">% Relax accumulated stresses slowly i.e. 0.95 to 0.999</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'freezing', 0.999 );</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">%%% END OF USER CODE: FINALISATION</span> | |||
end | |||
<span style="color: Green">%%% USER CODE: SUBFUNCTIONS</span> | |||
<span style="color: CornflowerBlue">Section 14</span> | |||
function m = local_setproperties( m ) | |||
<span style="color: Green">% This function is called at time zero in the INITIALISATION section of the</span> | |||
<span style="color: Green">% interaction function. It provides commands to set each of the properties</span> | |||
<span style="color: Green">% that are contained in m.globalProps. Uncomment whichever ones you would</span> | |||
<span style="color: Green">% like to set yourself, and put in whatever value you want.</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% Some of these properties are for internal use only and should never be</span> | |||
<span style="color: Green">% set by the user. At some point these will be moved into a different</span> | |||
<span style="color: Green">% component of m, but for the present, just don't change anything unless</span> | |||
<span style="color: Green">% you know what it is you're changing.</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'trinodesvalid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'prismnodesvalid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessRelative', 0.020000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessArea', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessMode', 'physical' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'activeGrowth', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'displayedGrowth', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'displayedMulti', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowNegativeGrowth', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usePrevDispAsEstimate', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'resetRand', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mingradient', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'relativepolgrad', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usefrozengradient', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'userpolarisation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thresholdsq', 0.000841 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'splitmargin', 1.400000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'splitmorphogen', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thresholdmgen', 0.500000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bulkmodulus', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'unitbulkmodulus', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'poissonsRatio', 0.300000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'starttime', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'timestep', 0.010000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'timeunitname', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'distunitname', 'mm' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'scalebarvalue', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'validateMesh', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'rectifyverticals', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitLongFEM', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitBentFEM', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitBio', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowFlipEdges', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowElideEdges', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mincellangle', 0.200000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'alwaysFlat', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flattenforceconvex', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flatten', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flattenratio', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'useGrowthTensors', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'plasticGrowth', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'showinternalrotation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'performinternalrotation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'internallyrotated', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxFEcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'inittotalcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApresplitproc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApostsplitproc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxBioAcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxBioBcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colors', (6 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colorvariation', 0.050000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colorparams', (12 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'freezing', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'canceldrift', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mgen_interaction', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowInteraction', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'interactionValid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'gaussInfo', (unknown type ''struct'') );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stitchDFs', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'D', (36 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'C', (36 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'G', (6 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solver', 'cgs' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solverprecision', 'double' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solvertolerance', 0.001000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowsparse', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxIters', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'cgiters', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'simsteps', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stepsperrender', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'growthEnabled', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'diffusionEnabled', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flashmovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'makemovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'moviefile', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'codec', 'None' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'autonamemovie', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'overwritemovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'framesize', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mov', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'jiggleProportion', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'cvtperiter', 0.200000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'boingNeeded', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'initialArea', 0.031326 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bendunitlength', 0.176992 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'targetRelArea', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultinterp', 'min' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'readonly', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowsave', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'addedToPath', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bendsplit', 0.300000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usepolfreezebc', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'dorsaltop', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultazimuth', -45.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultelevation', 33.750000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultroll', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultViewParams', (unknown type ''struct'') );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'comment', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioAsplitcells', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApullin', 0.142857 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioAfakepull', 0.202073 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'interactive', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'coderevision', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'coderevisiondate', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelrevision', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelrevisiondate', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'savedrunname', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'savedrundesc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'vxgrad', (108 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'lengthscale', 0.200000 );</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 15</span> | |||
<span style="color: Green">% Here you may write any functions of your own, that you want to call from</span> | |||
<span style="color: Green">% the interaction function, but never need to call from outside it.</span> | |||
<span style="color: Green">% Remember that they do not have access to any variables except those</span> | |||
<span style="color: Green">% that you pass as parameters, and cannot change anything except by</span> | |||
<span style="color: Green">% returning new values as results.</span> | |||
<span style="color: Green">% Whichever section they are called from, they must respect the same</span> | |||
<span style="color: Green">% restrictions on what modifications they are allowed to make to the mesh.</span> | |||
<span style="color: Green">% For example:</span> | |||
<span style="color: CornflowerBlue">Section 16</span> | |||
<span style="color: Green">% function m = do_something( m )</span> | |||
<span style="color: Green">% % Change m in some way.</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% Call it from the main body of the interaction function like this:</span> | |||
<span style="color: Green">% m = do_something( m );</span> | |||
<span style="color: CornflowerBlue">Section 1</span> | |||
function m = gpt_tut_interaction_20110530( m ) | |||
<span style="color: Green">%m = gpt_tut_interaction_20110530( m )</span> | |||
<span style="color: Green">% Morphogen interaction function.</span> | |||
<span style="color: Green">% Written at 2011-05-30 09:42:07.</span> | |||
<span style="color: Green">% GFtbox revision 0, .</span> | |||
<span style="color: Green">% The user may edit any part of this function between delimiters</span> | |||
<span style="color: Green">% of the form "USER CODE..." and "END OF USER CODE...". The</span> | |||
<span style="color: Green">% delimiters themselves must not be moved, edited, deleted, or added.</span> | |||
if isempty(m), return; end | |||
fprintf( 1, '<span style="color: Green">%s found in %s\n', mfilename(), which(mfilename()) );</span> | |||
try | |||
m = local_setproperties( m ); | |||
catch | |||
end | |||
realtime = m.globalDynamicProps.currenttime; | |||
<span style="color: CornflowerBlue">Section 2</span> | |||
<span style="color: Green">%%% USER CODE: INITIALISATION</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | |||
if (Steps(m)==0) && m.globalDynamicProps.doinit <span style="color: Green">% First iteration</span> | |||
<span style="color: Green">% Zero out a lot of stuff to create a blank slate.</span> | |||
<span style="color: Green">% If no morphogens are set in the GUI it may be useful to</span> | |||
<span style="color: Green">% zero some arrays by uncommenting the following.</span> | |||
<span style="color: Green">% m.morphogens(:) = 0;</span> | |||
<span style="color: Green">% m.morphogenclamp(:) = 0;</span> | |||
<span style="color: Green">% m.mgen_production(:) = 0;</span> | |||
<span style="color: Green">% m.mgen_absorption(:) = 0;</span> | |||
<span style="color: Green">% m.seams(:) = false;</span> | |||
<span style="color: Green">% m.mgen_dilution(:) = false;</span> | |||
<span style="color: Green">% Set up names for variant models. Useful for running multiple models on a cluster.</span> | |||
m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; <span style="color: Green">% CLUSTER</span> | |||
m.userdata.ranges.modelname.index = 1; <span style="color: Green">% CLUSTER</span> | |||
end | |||
modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; <span style="color: Green">% CLUSTER</span> | |||
disp(sprintf('\nRunning <span style="color: Green">%s model %s\n',mfilename, modelname));</span> | |||
switch modelname | |||
case 'MODEL1' | |||
<span style="color: Green">% Set up the parameters (e.g. mutations) for this model here.</span> | |||
case 'MODEL2' | |||
<span style="color: Green">% Set up the parameters (e.g. mutations) for this model here.</span> | |||
otherwise | |||
<span style="color: Green">% If you reach here, you probably forgot a case.</span> | |||
end | |||
<span style="color: Green">% More examples of code for all iterations.</span> | |||
<span style="color: Green">% Set priorities for simultaneous plotting of multiple morphogens, if desired.</span> | |||
<span style="color: Green">% m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] );</span> | |||
<span style="color: Green">% Set colour of polariser gradient arrows.</span> | |||
<span style="color: Green">% m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]);</span> | |||
<span style="color: Green">% setup a multiplot of the following morphogens</span> | |||
<span style="color: Green">% m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'});</span> | |||
<span style="color: Green">% to plot polariser on the A side and resultant areal growth rate on the B side:</span> | |||
<span style="color: Green">% m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ...</span> | |||
<span style="color: Green">% 'outputquantityB', 'resultantgrowthrate', ...</span> | |||
<span style="color: Green">% 'outputaxesB', 'areal' );</span> | |||
<span style="color: Green">% monitor properties of vertices must be done here - so that it reports newly equilibrated levels</span> | |||
<span style="color: Green">% m=leaf_profile_monitor(m,... % essential</span> | |||
<span style="color: Green">% 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential</span> | |||
<span style="color: Green">% 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL)</span> | |||
<span style="color: Green">% 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory')</span> | |||
<span style="color: Green">%%% END OF USER CODE: INITIALISATION</span> | |||
<span style="color: CornflowerBlue">Section 3</span> | |||
<span style="color: Green">%%% SECTION 1: ACCESSING MORPHOGENS AND TIME.</span> | |||
<span style="color: Green">%%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT.</span> | |||
if isempty(m), return; end | |||
setGlobals(); | |||
global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER | |||
global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST | |||
dt = m.globalProps.timestep; | |||
polariser_i = gNEW_POLARISER; | |||
P = m.morphogens(:,polariser_i); | |||
[kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); | |||
[kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); | |||
[kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); | |||
[kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); | |||
[knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); | |||
[strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); | |||
[arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); | |||
[id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); | |||
[id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); | |||
[id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); | |||
[id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); | |||
<span style="color: Green">% Mesh type: circle</span> | |||
<span style="color: Green">% centre: 0</span> | |||
<span style="color: Green">% circumpts: 48</span> | |||
<span style="color: Green">% coneangle: 0</span> | |||
<span style="color: Green">% dealign: 0</span> | |||
<span style="color: Green">% height: 0</span> | |||
<span style="color: Green">% innerpts: 0</span> | |||
<span style="color: Green">% randomness: 0.1</span> | |||
<span style="color: Green">% rings: 6</span> | |||
<span style="color: Green">% version: 1</span> | |||
<span style="color: Green">% xwidth: 0.2</span> | |||
<span style="color: Green">% ywidth: 0.2</span> | |||
<span style="color: Green">% Morphogen Diffusion Decay Dilution Mutant</span> | |||
<span style="color: Green">% -------------------------------------------------</span> | |||
<span style="color: Green">% KAPAR ---- ---- ---- ----</span> | |||
<span style="color: Green">% KAPER ---- ---- ---- ----</span> | |||
<span style="color: Green">% KBPAR ---- ---- ---- ----</span> | |||
<span style="color: Green">% KBPER ---- ---- ---- ----</span> | |||
<span style="color: Green">% KNOR ---- ---- ---- ----</span> | |||
<span style="color: Green">% POLARISER ---- ---- ---- ----</span> | |||
<span style="color: Green">% STRAINRET ---- ---- ---- ----</span> | |||
<span style="color: Green">% ARREST ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_PLUSORG ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_NEGORG ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_A ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_B ---- ---- ---- ----</span> | |||
<span style="color: Green">%%% USER CODE: MORPHOGEN INTERACTIONS</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way that does not</span> | |||
<span style="color: CornflowerBlue">Section 4</span> | |||
<span style="color: Green">% alter the set of nodes.</span> | |||
if (Steps(m)==0) && m.globalDynamicProps.doinit <span style="color: Green">% Initialisation code.</span> | |||
<span style="color: Green">% Put any code here that should only be performed at the start of</span> | |||
<span style="color: Green">% the simulation, for example, to set up initial morphogen values.</span> | |||
<span style="color: Green">% m.nodes is the set of vertex positions, an N by 3 array if there</span> | |||
<span style="color: Green">% are N vertices. Row number K contains the X, Y, and Z</span> | |||
<span style="color: Green">% coordinates of the Kth vertex. To obtain a list of the X</span> | |||
<span style="color: Green">% coordinates of every vertex, write m.nodes(:,1). The Y</span> | |||
<span style="color: Green">% coordinates are given by m.nodes(:,2) and the Z coordinates by</span> | |||
<span style="color: Green">% m.nodes(:,3).</span> | |||
<span style="color: Green">% Set up a morphogen promoter (_p suffix) region where x values are minimum</span> | |||
<span style="color: Green">% id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1;</span> | |||
<span style="color: Green">% if the morphogen level (_l suffix) is to be used in this iteration</span> | |||
<span style="color: Green">% set the level using the morphogen activity (_a suffix).</span> | |||
<span style="color: Green">% id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI</span> | |||
<span style="color: Green">% the activity (_a) is set to zero</span> | |||
id_a_p(m.nodes(:,1)<-0.03)=1; <span style="color: Green">% setup region for A where identity factor A is represented by id_a_p</span> | |||
id_b_p(m.nodes(:,2)<-0.01)=1; <span style="color: Green">% setup region for B</span> | |||
<span style="color: Green">% One way to set up a morphogen gradient is by ...</span> | |||
<span style="color: Green">% Setting up a gradient by clamping the ends (execute only once)</span> | |||
<span style="color: Green">% P=id_prox_p;</span> | |||
<span style="color: Green">% m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1;</span> | |||
<span style="color: Green">% m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser</span> | |||
<span style="color: Green">% m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser</span> | |||
<span style="color: Green">% Fixing vertices, i.e. fix z for the base to prevent base from moving up or down</span> | |||
<span style="color: Green">% m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z');</span> | |||
<span style="color: Green">% To cut the mesh, set a temporary morphogen to 1 in places to cut</span> | |||
<span style="color: Green">% seams=zeros(size(P));</span> | |||
<span style="color: Green">% seams(indexes to places to cut)=1;</span> | |||
<span style="color: Green">% m=leaf_set_seams(m,seams);</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 5</span> | |||
<span style="color: Green">% Second way to generate a gradient</span> | |||
<span style="color: Green">% generating (+) and sinking (-) a diffusing signal (in this case polariser)</span> | |||
<span style="color: Green">% m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p;</span> | |||
<span style="color: Green">% Monitor growth by scattering discs that deform over time (c.f. inducing biological clones)</span> | |||
<span style="color: Green">% (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true,</span> | |||
<span style="color: Green">% because a quirk of the Matlab z-buffer means that they can get hidden by mistake)</span> | |||
<span style="color: Green">% if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340</span> | |||
<span style="color: Green">% m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells.</span> | |||
<span style="color: Green">% 'mode', 'each', ... % Make discs randomly scattered over the canvas.</span> | |||
<span style="color: Green">% 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas.</span> | |||
<span style="color: Green">% 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas)</span> | |||
<span style="color: Green">% 'numcells',4500,...%number of discs (that will become ellipses)</span> | |||
<span style="color: Green">% 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon.</span> | |||
<span style="color: Green">% 'colors', [0.5 0.5 0.5], ... % Default colour is gray but</span> | |||
<span style="color: Green">% 'colorvariation',1,... % Each disc is a random colour</span> | |||
<span style="color: Green">% 'add', true ); % These discs are added to any discs existing already</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: CornflowerBlue">Section 6</span> | |||
<span style="color: Green">% Directives for creating latex representation directly from Matlab code</span> | |||
<span style="color: Green">% not fully implemented yet but will use @@ directives</span> | |||
<span style="color: Green">% @@at t</span> | |||
<span style="color: Green">% @@before t</span> | |||
<span style="color: Green">% @@after t</span> | |||
<span style="color: Green">% @@between t1 t2</span> | |||
<span style="color: CornflowerBlue">Section 7</span> | |||
<span style="color: Green">% % If you want to define different phases according to the absolute</span> | |||
<span style="color: Green">% % time, create a morphogen for each phase and modulate</span> | |||
<span style="color: Green">% % expressions using the morphogen</span> | |||
<span style="color: Green">% % like. For example:</span> | |||
<span style="color: Green">% if (realtime < 10) % first growth phase</span> | |||
<span style="color: Green">% f_firstgrowth_p = 1;</span> | |||
<span style="color: Green">% else</span> | |||
<span style="color: Green">% f_firstgrowth_p = 0;</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% if (realtime >= 10) % second growth phase</span> | |||
<span style="color: Green">% f_secondgrowth_p = 1;</span> | |||
<span style="color: Green">% else</span> | |||
<span style="color: Green">% f_secondgrowth_p = 0;</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% % If you want one morphogen to affect others only during a certain</span> | |||
<span style="color: Green">% % phase, write something like:</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth</span> | |||
<span style="color: CornflowerBlue">Section 8</span> | |||
<span style="color: Green">% Code common to all models.</span> | <span style="color: Green">% Code common to all models.</span> | ||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | <span style="color: Green">% @@PRN Polariser Regulatory Network</span> | ||
Line 232: | Line 1,658: | ||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | <span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | ||
<span style="color: CornflowerBlue">Section 9</span> | |||
<span style="color: Green">% Code for specific models.</span> | |||
switch modelname | |||
<span style="color: CornflowerBlue">Section 10</span> | <span style="color: CornflowerBlue">Section 10</span> | ||
case 'MODEL1' <span style="color: Green">% @@model MODEL1</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% P(:) = ... % @@ Eqn xx</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% kapar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kaper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbpar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% knor_p(:) = 0; % @@ Eqn xx</span> | |||
kapar_p(:) = id_a_l .* inh(1,id_b_l); <span style="color: Green">% growth rate</span> | |||
kaper_p(:) = kapar_p; <span style="color: Green">% isotropic growth</span> | |||
kbpar_p(:) = kapar_p; <span style="color: Green">% same on both sides of the sheet</span> | |||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | |||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | |||
<span style="color: CornflowerBlue">Section 11</span> | |||
case 'MODEL2' <span style="color: Green">% @@model MODEL2</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% P(:) = ... % @@ Eqn xx</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% kapar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kaper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbpar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% knor_p(:) = 0; % @@ Eqn xx</span> | |||
kapar_p(:) = id_a_l .* inh(1,id_b_l); <span style="color: Green">% growth rate</span> | |||
kaper_p(:) = kapar_p; <span style="color: Green">% isotropic growth</span> | |||
kbpar_p(:) = kapar_p; <span style="color: Green">% same on both sides of the sheet</span> | |||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | |||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | |||
otherwise | |||
<span style="color: Green">% If this happens, maybe you forgot a model.</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 12</span> | |||
<span style="color: Green">%%% END OF USER CODE: MORPHOGEN INTERACTIONS</span> | |||
<span style="color: Green">%%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE</span> | |||
<span style="color: Green">%%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT.</span> | |||
m.morphogens(:,polariser_i) = P; | |||
m.morphogens(:,kapar_i) = kapar_p; | |||
m.morphogens(:,kaper_i) = kaper_p; | |||
m.morphogens(:,kbpar_i) = kbpar_p; | |||
m.morphogens(:,kbper_i) = kbper_p; | |||
m.morphogens(:,knor_i) = knor_p; | |||
m.morphogens(:,strainret_i) = strainret_p; | |||
m.morphogens(:,arrest_i) = arrest_p; | |||
m.morphogens(:,id_plusorg_i) = id_plusorg_p; | |||
m.morphogens(:,id_negorg_i) = id_negorg_p; | |||
m.morphogens(:,id_a_i) = id_a_p; | |||
m.morphogens(:,id_b_i) = id_b_p; | |||
<span style="color: Green">%%% USER CODE: FINALISATION</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | |||
<span style="color: CornflowerBlue">Section 13</span> | |||
<span style="color: Green">% If needed force FE to subdivide (increase number FE's) here</span> | |||
<span style="color: Green">% if realtime==280+dt</span> | |||
<span style="color: Green">% m = leaf_subdivide( m, 'morphogen','id_vent',...</span> | |||
<span style="color: Green">% 'min',0.5,'max',1,...</span> | |||
<span style="color: Green">% 'mode','mid','levels','all');</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% Cut the mesh along the seams (see above)</span> | |||
<span style="color: Green">% if m.userdata.CutOpen==1</span> | |||
<span style="color: Green">% m=leaf_dissect(m);</span> | |||
<span style="color: Green">% m.userdata.CutOpen=2;</span> | |||
<span style="color: Green">% Relax accumulated stresses slowly i.e. 0.95 to 0.999</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'freezing', 0.999 );</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">%%% END OF USER CODE: FINALISATION</span> | |||
end | |||
<span style="color: Green">%%% USER CODE: SUBFUNCTIONS</span> | |||
<span style="color: CornflowerBlue">Section 14</span> | |||
function m = local_setproperties( m ) | |||
<span style="color: Green">% This function is called at time zero in the INITIALISATION section of the</span> | |||
<span style="color: Green">% interaction function. It provides commands to set each of the properties</span> | |||
<span style="color: Green">% that are contained in m.globalProps. Uncomment whichever ones you would</span> | |||
<span style="color: Green">% like to set yourself, and put in whatever value you want.</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% Some of these properties are for internal use only and should never be</span> | |||
<span style="color: Green">% set by the user. At some point these will be moved into a different</span> | |||
<span style="color: Green">% component of m, but for the present, just don't change anything unless</span> | |||
<span style="color: Green">% you know what it is you're changing.</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'trinodesvalid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'prismnodesvalid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessRelative', 0.020000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessArea', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessMode', 'physical' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'activeGrowth', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'displayedGrowth', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'displayedMulti', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowNegativeGrowth', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usePrevDispAsEstimate', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'resetRand', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mingradient', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'relativepolgrad', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usefrozengradient', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'userpolarisation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thresholdsq', 0.000841 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'splitmargin', 1.400000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'splitmorphogen', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thresholdmgen', 0.500000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bulkmodulus', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'unitbulkmodulus', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'poissonsRatio', 0.300000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'starttime', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'timestep', 0.010000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'timeunitname', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'distunitname', 'mm' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'scalebarvalue', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'validateMesh', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'rectifyverticals', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitLongFEM', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitBentFEM', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitBio', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowFlipEdges', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowElideEdges', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mincellangle', 0.200000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'alwaysFlat', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flattenforceconvex', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flatten', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flattenratio', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'useGrowthTensors', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'plasticGrowth', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'showinternalrotation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'performinternalrotation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'internallyrotated', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxFEcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'inittotalcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApresplitproc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApostsplitproc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxBioAcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxBioBcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colors', (6 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colorvariation', 0.050000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colorparams', (12 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'freezing', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'canceldrift', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mgen_interaction', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowInteraction', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'interactionValid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'gaussInfo', (unknown type ''struct'') );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stitchDFs', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'D', (36 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'C', (36 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'G', (6 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solver', 'cgs' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solverprecision', 'double' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solvertolerance', 0.001000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowsparse', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxIters', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'cgiters', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'simsteps', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stepsperrender', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'growthEnabled', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'diffusionEnabled', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flashmovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'makemovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'moviefile', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'codec', 'None' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'autonamemovie', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'overwritemovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'framesize', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mov', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'jiggleProportion', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'cvtperiter', 0.200000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'boingNeeded', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'initialArea', 0.031326 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bendunitlength', 0.176992 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'targetRelArea', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultinterp', 'min' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'readonly', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowsave', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'addedToPath', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bendsplit', 0.300000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usepolfreezebc', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'dorsaltop', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultazimuth', -45.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultelevation', 33.750000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultroll', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultViewParams', (unknown type ''struct'') );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'comment', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioAsplitcells', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApullin', 0.142857 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioAfakepull', 0.202073 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'interactive', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'coderevision', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'coderevisiondate', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelrevision', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelrevisiondate', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'savedrunname', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'savedrundesc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'vxgrad', (108 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'lengthscale', 0.200000 );</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 15</span> | |||
<span style="color: Green">% Here you may write any functions of your own, that you want to call from</span> | |||
<span style="color: Green">% the interaction function, but never need to call from outside it.</span> | |||
<span style="color: Green">% Remember that they do not have access to any variables except those</span> | |||
<span style="color: Green">% that you pass as parameters, and cannot change anything except by</span> | |||
<span style="color: Green">% returning new values as results.</span> | |||
<span style="color: Green">% Whichever section they are called from, they must respect the same</span> | |||
<span style="color: Green">% restrictions on what modifications they are allowed to make to the mesh.</span> | |||
<span style="color: Green">% For example:</span> | |||
<span style="color: CornflowerBlue">Section 16</span> | |||
<span style="color: Green">% function m = do_something( m )</span> | |||
<span style="color: Green">% % Change m in some way.</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% Call it from the main body of the interaction function like this:</span> | |||
<span style="color: Green">% m = do_something( m );</span> | |||
<span style="color: CornflowerBlue">Section 1</span> | |||
function m = gpt_tut_interaction_20110530( m ) | |||
<span style="color: Green">%m = gpt_tut_interaction_20110530( m )</span> | |||
<span style="color: Green">% Morphogen interaction function.</span> | |||
<span style="color: Green">% Written at 2011-05-30 09:42:07.</span> | |||
<span style="color: Green">% GFtbox revision 0, .</span> | |||
<span style="color: Green">% The user may edit any part of this function between delimiters</span> | |||
<span style="color: Green">% of the form "USER CODE..." and "END OF USER CODE...". The</span> | |||
<span style="color: Green">% delimiters themselves must not be moved, edited, deleted, or added.</span> | |||
if isempty(m), return; end | |||
fprintf( 1, '<span style="color: Green">%s found in %s\n', mfilename(), which(mfilename()) );</span> | |||
try | |||
m = local_setproperties( m ); | |||
catch | |||
end | |||
realtime = m.globalDynamicProps.currenttime; | |||
<span style="color: CornflowerBlue">Section 2</span> | |||
<span style="color: Green">%%% USER CODE: INITIALISATION</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | |||
if (Steps(m)==0) && m.globalDynamicProps.doinit <span style="color: Green">% First iteration</span> | |||
<span style="color: Green">% Zero out a lot of stuff to create a blank slate.</span> | |||
<span style="color: Green">% If no morphogens are set in the GUI it may be useful to</span> | |||
<span style="color: Green">% zero some arrays by uncommenting the following.</span> | |||
<span style="color: Green">% m.morphogens(:) = 0;</span> | |||
<span style="color: Green">% m.morphogenclamp(:) = 0;</span> | |||
<span style="color: Green">% m.mgen_production(:) = 0;</span> | |||
<span style="color: Green">% m.mgen_absorption(:) = 0;</span> | |||
<span style="color: Green">% m.seams(:) = false;</span> | |||
<span style="color: Green">% m.mgen_dilution(:) = false;</span> | |||
<span style="color: Green">% Set up names for variant models. Useful for running multiple models on a cluster.</span> | |||
m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; <span style="color: Green">% CLUSTER</span> | |||
m.userdata.ranges.modelname.index = 1; <span style="color: Green">% CLUSTER</span> | |||
end | |||
modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; <span style="color: Green">% CLUSTER</span> | |||
disp(sprintf('\nRunning <span style="color: Green">%s model %s\n',mfilename, modelname));</span> | |||
switch modelname | |||
case 'MODEL1' | |||
<span style="color: Green">% Set up the parameters (e.g. mutations) for this model here.</span> | |||
case 'MODEL2' | |||
<span style="color: Green">% Set up the parameters (e.g. mutations) for this model here.</span> | |||
otherwise | |||
<span style="color: Green">% If you reach here, you probably forgot a case.</span> | |||
end | |||
<span style="color: Green">% More examples of code for all iterations.</span> | |||
<span style="color: Green">% Set priorities for simultaneous plotting of multiple morphogens, if desired.</span> | |||
<span style="color: Green">% m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] );</span> | |||
<span style="color: Green">% Set colour of polariser gradient arrows.</span> | |||
<span style="color: Green">% m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]);</span> | |||
<span style="color: Green">% setup a multiplot of the following morphogens</span> | |||
<span style="color: Green">% m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'});</span> | |||
<span style="color: Green">% to plot polariser on the A side and resultant areal growth rate on the B side:</span> | |||
<span style="color: Green">% m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ...</span> | |||
<span style="color: Green">% 'outputquantityB', 'resultantgrowthrate', ...</span> | |||
<span style="color: Green">% 'outputaxesB', 'areal' );</span> | |||
<span style="color: Green">% monitor properties of vertices must be done here - so that it reports newly equilibrated levels</span> | |||
<span style="color: Green">% m=leaf_profile_monitor(m,... % essential</span> | |||
<span style="color: Green">% 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential</span> | |||
<span style="color: Green">% 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL)</span> | |||
<span style="color: Green">% 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory')</span> | |||
<span style="color: Green">%%% END OF USER CODE: INITIALISATION</span> | |||
<span style="color: CornflowerBlue">Section 3</span> | |||
<span style="color: Green">%%% SECTION 1: ACCESSING MORPHOGENS AND TIME.</span> | |||
<span style="color: Green">%%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT.</span> | |||
if isempty(m), return; end | |||
setGlobals(); | |||
global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER | |||
global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST | |||
dt = m.globalProps.timestep; | |||
polariser_i = gNEW_POLARISER; | |||
P = m.morphogens(:,polariser_i); | |||
[kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); | |||
[kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); | |||
[kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); | |||
[kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); | |||
[knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); | |||
[strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); | |||
[arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); | |||
[id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); | |||
[id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); | |||
[id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); | |||
[id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); | |||
<span style="color: Green">% Mesh type: circle</span> | |||
<span style="color: Green">% centre: 0</span> | |||
<span style="color: Green">% circumpts: 48</span> | |||
<span style="color: Green">% coneangle: 0</span> | |||
<span style="color: Green">% dealign: 0</span> | |||
<span style="color: Green">% height: 0</span> | |||
<span style="color: Green">% innerpts: 0</span> | |||
<span style="color: Green">% randomness: 0.1</span> | |||
<span style="color: Green">% rings: 6</span> | |||
<span style="color: Green">% version: 1</span> | |||
<span style="color: Green">% xwidth: 0.2</span> | |||
<span style="color: Green">% ywidth: 0.2</span> | |||
<span style="color: Green">% Morphogen Diffusion Decay Dilution Mutant</span> | |||
<span style="color: Green">% -------------------------------------------------</span> | |||
<span style="color: Green">% KAPAR ---- ---- ---- ----</span> | |||
<span style="color: Green">% KAPER ---- ---- ---- ----</span> | |||
<span style="color: Green">% KBPAR ---- ---- ---- ----</span> | |||
<span style="color: Green">% KBPER ---- ---- ---- ----</span> | |||
<span style="color: Green">% KNOR ---- ---- ---- ----</span> | |||
<span style="color: Green">% POLARISER ---- ---- ---- ----</span> | |||
<span style="color: Green">% STRAINRET ---- ---- ---- ----</span> | |||
<span style="color: Green">% ARREST ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_PLUSORG ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_NEGORG ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_A ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_B ---- ---- ---- ----</span> | |||
<span style="color: Green">%%% USER CODE: MORPHOGEN INTERACTIONS</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way that does not</span> | |||
<span style="color: CornflowerBlue">Section 4</span> | |||
<span style="color: Green">% alter the set of nodes.</span> | |||
if (Steps(m)==0) && m.globalDynamicProps.doinit <span style="color: Green">% Initialisation code.</span> | |||
<span style="color: Green">% Put any code here that should only be performed at the start of</span> | |||
<span style="color: Green">% the simulation, for example, to set up initial morphogen values.</span> | |||
<span style="color: Green">% m.nodes is the set of vertex positions, an N by 3 array if there</span> | |||
<span style="color: Green">% are N vertices. Row number K contains the X, Y, and Z</span> | |||
<span style="color: Green">% coordinates of the Kth vertex. To obtain a list of the X</span> | |||
<span style="color: Green">% coordinates of every vertex, write m.nodes(:,1). The Y</span> | |||
<span style="color: Green">% coordinates are given by m.nodes(:,2) and the Z coordinates by</span> | |||
<span style="color: Green">% m.nodes(:,3).</span> | |||
<span style="color: Green">% Set up a morphogen promoter (_p suffix) region where x values are minimum</span> | |||
<span style="color: Green">% id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1;</span> | |||
<span style="color: Green">% if the morphogen level (_l suffix) is to be used in this iteration</span> | |||
<span style="color: Green">% set the level using the morphogen activity (_a suffix).</span> | |||
<span style="color: Green">% id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI</span> | |||
<span style="color: Green">% the activity (_a) is set to zero</span> | |||
id_a_p(m.nodes(:,1)<-0.03)=1; <span style="color: Green">% setup region for A where identity factor A is represented by id_a_p</span> | |||
id_b_p(m.nodes(:,2)<-0.01)=1; <span style="color: Green">% setup region for B</span> | |||
<span style="color: Green">% One way to set up a morphogen gradient is by ...</span> | |||
<span style="color: Green">% Setting up a gradient by clamping the ends (execute only once)</span> | |||
<span style="color: Green">% P=id_prox_p;</span> | |||
<span style="color: Green">% m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1;</span> | |||
<span style="color: Green">% m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser</span> | |||
<span style="color: Green">% m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser</span> | |||
<span style="color: Green">% Fixing vertices, i.e. fix z for the base to prevent base from moving up or down</span> | |||
<span style="color: Green">% m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z');</span> | |||
<span style="color: Green">% To cut the mesh, set a temporary morphogen to 1 in places to cut</span> | |||
<span style="color: Green">% seams=zeros(size(P));</span> | |||
<span style="color: Green">% seams(indexes to places to cut)=1;</span> | |||
<span style="color: Green">% m=leaf_set_seams(m,seams);</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 5</span> | |||
<span style="color: Green">% Second way to generate a gradient</span> | |||
<span style="color: Green">% generating (+) and sinking (-) a diffusing signal (in this case polariser)</span> | |||
<span style="color: Green">% m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p;</span> | |||
<span style="color: Green">% Monitor growth by scattering discs that deform over time (c.f. inducing biological clones)</span> | |||
<span style="color: Green">% (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true,</span> | |||
<span style="color: Green">% because a quirk of the Matlab z-buffer means that they can get hidden by mistake)</span> | |||
<span style="color: Green">% if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340</span> | |||
<span style="color: Green">% m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells.</span> | |||
<span style="color: Green">% 'mode', 'each', ... % Make discs randomly scattered over the canvas.</span> | |||
<span style="color: Green">% 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas.</span> | |||
<span style="color: Green">% 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas)</span> | |||
<span style="color: Green">% 'numcells',4500,...%number of discs (that will become ellipses)</span> | |||
<span style="color: Green">% 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon.</span> | |||
<span style="color: Green">% 'colors', [0.5 0.5 0.5], ... % Default colour is gray but</span> | |||
<span style="color: Green">% 'colorvariation',1,... % Each disc is a random colour</span> | |||
<span style="color: Green">% 'add', true ); % These discs are added to any discs existing already</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: CornflowerBlue">Section 6</span> | |||
<span style="color: Green">% Directives for creating latex representation directly from Matlab code</span> | |||
<span style="color: Green">% not fully implemented yet but will use @@ directives</span> | |||
<span style="color: Green">% @@at t</span> | |||
<span style="color: Green">% @@before t</span> | |||
<span style="color: Green">% @@after t</span> | |||
<span style="color: Green">% @@between t1 t2</span> | |||
<span style="color: CornflowerBlue">Section 7</span> | |||
<span style="color: Green">% % If you want to define different phases according to the absolute</span> | |||
<span style="color: Green">% % time, create a morphogen for each phase and modulate</span> | |||
<span style="color: Green">% % expressions using the morphogen</span> | |||
<span style="color: Green">% % like. For example:</span> | |||
<span style="color: Green">% if (realtime < 10) % first growth phase</span> | |||
<span style="color: Green">% f_firstgrowth_p = 1;</span> | |||
<span style="color: Green">% else</span> | |||
<span style="color: Green">% f_firstgrowth_p = 0;</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% if (realtime >= 10) % second growth phase</span> | |||
<span style="color: Green">% f_secondgrowth_p = 1;</span> | |||
<span style="color: Green">% else</span> | |||
<span style="color: Green">% f_secondgrowth_p = 0;</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% % If you want one morphogen to affect others only during a certain</span> | |||
<span style="color: Green">% % phase, write something like:</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth</span> | |||
<span style="color: CornflowerBlue">Section 8</span> | |||
<span style="color: Green">% Code common to all models.</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: CornflowerBlue">Section 9</span> | |||
<span style="color: Green">% Code for specific models.</span> | <span style="color: Green">% Code for specific models.</span> | ||
switch modelname | switch modelname | ||
<span style="color: CornflowerBlue">Section 10</span> | |||
case 'MODEL1' <span style="color: Green">% @@model MODEL1</span> | case 'MODEL1' <span style="color: Green">% @@model MODEL1</span> | ||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | <span style="color: Green">% @@PRN Polariser Regulatory Network</span> | ||
Line 253: | Line 2,156: | ||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | ||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | ||
<span style="color: CornflowerBlue">Section 11</span> | |||
case 'MODEL2' <span style="color: Green">% @@model MODEL2</span> | case 'MODEL2' <span style="color: Green">% @@model MODEL2</span> | ||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | <span style="color: Green">% @@PRN Polariser Regulatory Network</span> | ||
Line 275: | Line 2,179: | ||
end | end | ||
<span style="color: CornflowerBlue">Section | <span style="color: CornflowerBlue">Section 12</span> | ||
<span style="color: Green">%%% END OF USER CODE: MORPHOGEN INTERACTIONS</span> | <span style="color: Green">%%% END OF USER CODE: MORPHOGEN INTERACTIONS</span> | ||
Line 296: | Line 2,200: | ||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | <span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | ||
<span style="color: CornflowerBlue">Section 13</span> | |||
<span style="color: Green">% If needed force FE to subdivide (increase number FE's) here</span> | |||
<span style="color: Green">% if realtime==280+dt</span> | |||
<span style="color: Green">% m = leaf_subdivide( m, 'morphogen','id_vent',...</span> | |||
<span style="color: Green">% 'min',0.5,'max',1,...</span> | |||
<span style="color: Green">% 'mode','mid','levels','all');</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% Cut the mesh along the seams (see above)</span> | |||
<span style="color: Green">% if m.userdata.CutOpen==1</span> | |||
<span style="color: Green">% m=leaf_dissect(m);</span> | |||
<span style="color: Green">% m.userdata.CutOpen=2;</span> | |||
<span style="color: Green">% Relax accumulated stresses slowly i.e. 0.95 to 0.999</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'freezing', 0.999 );</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">%%% END OF USER CODE: FINALISATION</span> | |||
end | |||
<span style="color: Green">%%% USER CODE: SUBFUNCTIONS</span> | |||
<span style="color: CornflowerBlue">Section 14</span> | |||
function m = local_setproperties( m ) | |||
<span style="color: Green">% This function is called at time zero in the INITIALISATION section of the</span> | |||
<span style="color: Green">% interaction function. It provides commands to set each of the properties</span> | |||
<span style="color: Green">% that are contained in m.globalProps. Uncomment whichever ones you would</span> | |||
<span style="color: Green">% like to set yourself, and put in whatever value you want.</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% Some of these properties are for internal use only and should never be</span> | |||
<span style="color: Green">% set by the user. At some point these will be moved into a different</span> | |||
<span style="color: Green">% component of m, but for the present, just don't change anything unless</span> | |||
<span style="color: Green">% you know what it is you're changing.</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'trinodesvalid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'prismnodesvalid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessRelative', 0.020000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessArea', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thicknessMode', 'physical' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'activeGrowth', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'displayedGrowth', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'displayedMulti', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowNegativeGrowth', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usePrevDispAsEstimate', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'resetRand', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mingradient', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'relativepolgrad', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usefrozengradient', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'userpolarisation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thresholdsq', 0.000841 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'splitmargin', 1.400000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'splitmorphogen', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'thresholdmgen', 0.500000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bulkmodulus', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'unitbulkmodulus', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'poissonsRatio', 0.300000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'starttime', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'timestep', 0.010000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'timeunitname', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'distunitname', 'mm' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'scalebarvalue', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'validateMesh', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'rectifyverticals', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitLongFEM', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitBentFEM', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowSplitBio', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowFlipEdges', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowElideEdges', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mincellangle', 0.200000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'alwaysFlat', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flattenforceconvex', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flatten', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flattenratio', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'useGrowthTensors', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'plasticGrowth', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'showinternalrotation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'performinternalrotation', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'internallyrotated', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxFEcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'inittotalcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApresplitproc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApostsplitproc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxBioAcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxBioBcells', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colors', (6 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colorvariation', 0.050000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'colorparams', (12 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'freezing', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'canceldrift', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mgen_interaction', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowInteraction', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'interactionValid', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'gaussInfo', (unknown type ''struct'') );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stitchDFs', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'D', (36 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'C', (36 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'G', (6 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solver', 'cgs' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solverprecision', 'double' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solvertolerance', 0.001000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowsparse', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxIters', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'cgiters', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'simsteps', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'stepsperrender', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'growthEnabled', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'diffusionEnabled', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'flashmovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'makemovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'moviefile', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'codec', 'None' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'autonamemovie', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'overwritemovie', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'framesize', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'mov', [] );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'jiggleProportion', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'cvtperiter', 0.200000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'boingNeeded', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'initialArea', 0.031326 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bendunitlength', 0.176992 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'targetRelArea', 1.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultinterp', 'min' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'readonly', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'allowsave', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'addedToPath', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bendsplit', 0.300000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'usepolfreezebc', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'dorsaltop', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultazimuth', -45.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultelevation', 33.750000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultroll', 0.000000 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'defaultViewParams', (unknown type ''struct'') );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'comment', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioAsplitcells', true );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioApullin', 0.142857 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'bioAfakepull', 0.202073 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'interactive', false );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'coderevision', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'coderevisiondate', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelrevision', 0 );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'modelrevisiondate', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'savedrunname', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'savedrundesc', '' );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'vxgrad', (108 values) );</span> | |||
<span style="color: Green">% m = leaf_setproperty( m, 'lengthscale', 0.200000 );</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 15</span> | |||
<span style="color: Green">% Here you may write any functions of your own, that you want to call from</span> | |||
<span style="color: Green">% the interaction function, but never need to call from outside it.</span> | |||
<span style="color: Green">% Remember that they do not have access to any variables except those</span> | |||
<span style="color: Green">% that you pass as parameters, and cannot change anything except by</span> | |||
<span style="color: Green">% returning new values as results.</span> | |||
<span style="color: Green">% Whichever section they are called from, they must respect the same</span> | |||
<span style="color: Green">% restrictions on what modifications they are allowed to make to the mesh.</span> | |||
<span style="color: Green">% For example:</span> | |||
<span style="color: CornflowerBlue">Section 16</span> | |||
<span style="color: Green">% function m = do_something( m )</span> | |||
<span style="color: Green">% % Change m in some way.</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% Call it from the main body of the interaction function like this:</span> | |||
<span style="color: Green">% m = do_something( m );</span> | |||
<span style="color: CornflowerBlue">Section 1</span> | |||
function m = gpt_tut_interaction_20110530( m ) | |||
<span style="color: Green">%m = gpt_tut_interaction_20110530( m )</span> | |||
<span style="color: Green">% Morphogen interaction function.</span> | |||
<span style="color: Green">% Written at 2011-05-30 09:42:07.</span> | |||
<span style="color: Green">% GFtbox revision 0, .</span> | |||
<span style="color: Green">% The user may edit any part of this function between delimiters</span> | |||
<span style="color: Green">% of the form "USER CODE..." and "END OF USER CODE...". The</span> | |||
<span style="color: Green">% delimiters themselves must not be moved, edited, deleted, or added.</span> | |||
if isempty(m), return; end | |||
fprintf( 1, '<span style="color: Green">%s found in %s\n', mfilename(), which(mfilename()) );</span> | |||
try | |||
m = local_setproperties( m ); | |||
catch | |||
end | |||
realtime = m.globalDynamicProps.currenttime; | |||
<span style="color: CornflowerBlue">Section 2</span> | |||
<span style="color: Green">%%% USER CODE: INITIALISATION</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | |||
if (Steps(m)==0) && m.globalDynamicProps.doinit <span style="color: Green">% First iteration</span> | |||
<span style="color: Green">% Zero out a lot of stuff to create a blank slate.</span> | |||
<span style="color: Green">% If no morphogens are set in the GUI it may be useful to</span> | |||
<span style="color: Green">% zero some arrays by uncommenting the following.</span> | |||
<span style="color: Green">% m.morphogens(:) = 0;</span> | |||
<span style="color: Green">% m.morphogenclamp(:) = 0;</span> | |||
<span style="color: Green">% m.mgen_production(:) = 0;</span> | |||
<span style="color: Green">% m.mgen_absorption(:) = 0;</span> | |||
<span style="color: Green">% m.seams(:) = false;</span> | |||
<span style="color: Green">% m.mgen_dilution(:) = false;</span> | |||
<span style="color: Green">% Set up names for variant models. Useful for running multiple models on a cluster.</span> | |||
m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; <span style="color: Green">% CLUSTER</span> | |||
m.userdata.ranges.modelname.index = 1; <span style="color: Green">% CLUSTER</span> | |||
end | |||
modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; <span style="color: Green">% CLUSTER</span> | |||
disp(sprintf('\nRunning <span style="color: Green">%s model %s\n',mfilename, modelname));</span> | |||
switch modelname | |||
case 'MODEL1' | |||
<span style="color: Green">% Set up the parameters (e.g. mutations) for this model here.</span> | |||
case 'MODEL2' | |||
<span style="color: Green">% Set up the parameters (e.g. mutations) for this model here.</span> | |||
otherwise | |||
<span style="color: Green">% If you reach here, you probably forgot a case.</span> | |||
end | |||
<span style="color: Green">% More examples of code for all iterations.</span> | |||
<span style="color: Green">% Set priorities for simultaneous plotting of multiple morphogens, if desired.</span> | |||
<span style="color: Green">% m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] );</span> | |||
<span style="color: Green">% Set colour of polariser gradient arrows.</span> | |||
<span style="color: Green">% m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]);</span> | |||
<span style="color: Green">% setup a multiplot of the following morphogens</span> | |||
<span style="color: Green">% m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'});</span> | |||
<span style="color: Green">% to plot polariser on the A side and resultant areal growth rate on the B side:</span> | |||
<span style="color: Green">% m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ...</span> | |||
<span style="color: Green">% 'outputquantityB', 'resultantgrowthrate', ...</span> | |||
<span style="color: Green">% 'outputaxesB', 'areal' );</span> | |||
<span style="color: Green">% monitor properties of vertices must be done here - so that it reports newly equilibrated levels</span> | |||
<span style="color: Green">% m=leaf_profile_monitor(m,... % essential</span> | |||
<span style="color: Green">% 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential</span> | |||
<span style="color: Green">% 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL)</span> | |||
<span style="color: Green">% 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory')</span> | |||
<span style="color: Green">%%% END OF USER CODE: INITIALISATION</span> | |||
<span style="color: CornflowerBlue">Section 3</span> | |||
<span style="color: Green">%%% SECTION 1: ACCESSING MORPHOGENS AND TIME.</span> | |||
<span style="color: Green">%%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT.</span> | |||
if isempty(m), return; end | |||
setGlobals(); | |||
global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER | |||
global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST | |||
dt = m.globalProps.timestep; | |||
polariser_i = gNEW_POLARISER; | |||
P = m.morphogens(:,polariser_i); | |||
[kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); | |||
[kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); | |||
[kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); | |||
[kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); | |||
[knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); | |||
[strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); | |||
[arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); | |||
[id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); | |||
[id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); | |||
[id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); | |||
[id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); | |||
<span style="color: Green">% Mesh type: circle</span> | |||
<span style="color: Green">% centre: 0</span> | |||
<span style="color: Green">% circumpts: 48</span> | |||
<span style="color: Green">% coneangle: 0</span> | |||
<span style="color: Green">% dealign: 0</span> | |||
<span style="color: Green">% height: 0</span> | |||
<span style="color: Green">% innerpts: 0</span> | |||
<span style="color: Green">% randomness: 0.1</span> | |||
<span style="color: Green">% rings: 6</span> | |||
<span style="color: Green">% version: 1</span> | |||
<span style="color: Green">% xwidth: 0.2</span> | |||
<span style="color: Green">% ywidth: 0.2</span> | |||
<span style="color: Green">% Morphogen Diffusion Decay Dilution Mutant</span> | |||
<span style="color: Green">% -------------------------------------------------</span> | |||
<span style="color: Green">% KAPAR ---- ---- ---- ----</span> | |||
<span style="color: Green">% KAPER ---- ---- ---- ----</span> | |||
<span style="color: Green">% KBPAR ---- ---- ---- ----</span> | |||
<span style="color: Green">% KBPER ---- ---- ---- ----</span> | |||
<span style="color: Green">% KNOR ---- ---- ---- ----</span> | |||
<span style="color: Green">% POLARISER ---- ---- ---- ----</span> | |||
<span style="color: Green">% STRAINRET ---- ---- ---- ----</span> | |||
<span style="color: Green">% ARREST ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_PLUSORG ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_NEGORG ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_A ---- ---- ---- ----</span> | |||
<span style="color: Green">% ID_B ---- ---- ---- ----</span> | |||
<span style="color: Green">%%% USER CODE: MORPHOGEN INTERACTIONS</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way that does not</span> | |||
<span style="color: CornflowerBlue">Section 4</span> | |||
<span style="color: Green">% alter the set of nodes.</span> | |||
if (Steps(m)==0) && m.globalDynamicProps.doinit <span style="color: Green">% Initialisation code.</span> | |||
<span style="color: Green">% Put any code here that should only be performed at the start of</span> | |||
<span style="color: Green">% the simulation, for example, to set up initial morphogen values.</span> | |||
<span style="color: Green">% m.nodes is the set of vertex positions, an N by 3 array if there</span> | |||
<span style="color: Green">% are N vertices. Row number K contains the X, Y, and Z</span> | |||
<span style="color: Green">% coordinates of the Kth vertex. To obtain a list of the X</span> | |||
<span style="color: Green">% coordinates of every vertex, write m.nodes(:,1). The Y</span> | |||
<span style="color: Green">% coordinates are given by m.nodes(:,2) and the Z coordinates by</span> | |||
<span style="color: Green">% m.nodes(:,3).</span> | |||
<span style="color: Green">% Set up a morphogen promoter (_p suffix) region where x values are minimum</span> | |||
<span style="color: Green">% id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1;</span> | |||
<span style="color: Green">% if the morphogen level (_l suffix) is to be used in this iteration</span> | |||
<span style="color: Green">% set the level using the morphogen activity (_a suffix).</span> | |||
<span style="color: Green">% id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI</span> | |||
<span style="color: Green">% the activity (_a) is set to zero</span> | |||
id_a_p(m.nodes(:,1)<-0.03)=1; <span style="color: Green">% setup region for A where identity factor A is represented by id_a_p</span> | |||
id_b_p(m.nodes(:,2)<-0.01)=1; <span style="color: Green">% setup region for B</span> | |||
<span style="color: Green">% One way to set up a morphogen gradient is by ...</span> | |||
<span style="color: Green">% Setting up a gradient by clamping the ends (execute only once)</span> | |||
<span style="color: Green">% P=id_prox_p;</span> | |||
<span style="color: Green">% m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1;</span> | |||
<span style="color: Green">% m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser</span> | |||
<span style="color: Green">% m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser</span> | |||
<span style="color: Green">% Fixing vertices, i.e. fix z for the base to prevent base from moving up or down</span> | |||
<span style="color: Green">% m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z');</span> | |||
<span style="color: Green">% To cut the mesh, set a temporary morphogen to 1 in places to cut</span> | |||
<span style="color: Green">% seams=zeros(size(P));</span> | |||
<span style="color: Green">% seams(indexes to places to cut)=1;</span> | |||
<span style="color: Green">% m=leaf_set_seams(m,seams);</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 5</span> | |||
<span style="color: Green">% Second way to generate a gradient</span> | |||
<span style="color: Green">% generating (+) and sinking (-) a diffusing signal (in this case polariser)</span> | |||
<span style="color: Green">% m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p;</span> | |||
<span style="color: Green">% Monitor growth by scattering discs that deform over time (c.f. inducing biological clones)</span> | |||
<span style="color: Green">% (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true,</span> | |||
<span style="color: Green">% because a quirk of the Matlab z-buffer means that they can get hidden by mistake)</span> | |||
<span style="color: Green">% if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340</span> | |||
<span style="color: Green">% m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells.</span> | |||
<span style="color: Green">% 'mode', 'each', ... % Make discs randomly scattered over the canvas.</span> | |||
<span style="color: Green">% 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas.</span> | |||
<span style="color: Green">% 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas)</span> | |||
<span style="color: Green">% 'numcells',4500,...%number of discs (that will become ellipses)</span> | |||
<span style="color: Green">% 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon.</span> | |||
<span style="color: Green">% 'colors', [0.5 0.5 0.5], ... % Default colour is gray but</span> | |||
<span style="color: Green">% 'colorvariation',1,... % Each disc is a random colour</span> | |||
<span style="color: Green">% 'add', true ); % These discs are added to any discs existing already</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: CornflowerBlue">Section 6</span> | |||
<span style="color: Green">% Directives for creating latex representation directly from Matlab code</span> | |||
<span style="color: Green">% not fully implemented yet but will use @@ directives</span> | |||
<span style="color: Green">% @@at t</span> | |||
<span style="color: Green">% @@before t</span> | |||
<span style="color: Green">% @@after t</span> | |||
<span style="color: Green">% @@between t1 t2</span> | |||
<span style="color: CornflowerBlue">Section 7</span> | |||
<span style="color: Green">% % If you want to define different phases according to the absolute</span> | |||
<span style="color: Green">% % time, create a morphogen for each phase and modulate</span> | |||
<span style="color: Green">% % expressions using the morphogen</span> | |||
<span style="color: Green">% % like. For example:</span> | |||
<span style="color: Green">% if (realtime < 10) % first growth phase</span> | |||
<span style="color: Green">% f_firstgrowth_p = 1;</span> | |||
<span style="color: Green">% else</span> | |||
<span style="color: Green">% f_firstgrowth_p = 0;</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">% if (realtime >= 10) % second growth phase</span> | |||
<span style="color: Green">% f_secondgrowth_p = 1;</span> | |||
<span style="color: Green">% else</span> | |||
<span style="color: Green">% f_secondgrowth_p = 0;</span> | |||
<span style="color: Green">% end</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% % If you want one morphogen to affect others only during a certain</span> | |||
<span style="color: Green">% % phase, write something like:</span> | |||
<span style="color: Green">%</span> | |||
<span style="color: Green">% mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth</span> | |||
<span style="color: CornflowerBlue">Section 8</span> | |||
<span style="color: Green">% Code common to all models.</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: CornflowerBlue">Section 9</span> | |||
<span style="color: Green">% Code for specific models.</span> | |||
switch modelname | |||
<span style="color: CornflowerBlue">Section 10</span> | |||
case 'MODEL1' <span style="color: Green">% @@model MODEL1</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% P(:) = ... % @@ Eqn xx</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% kapar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kaper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbpar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% knor_p(:) = 0; % @@ Eqn xx</span> | |||
kapar_p(:) = id_a_l .* inh(1,id_b_l); <span style="color: Green">% growth rate</span> | |||
kaper_p(:) = kapar_p; <span style="color: Green">% isotropic growth</span> | |||
kbpar_p(:) = kapar_p; <span style="color: Green">% same on both sides of the sheet</span> | |||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | |||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | |||
<span style="color: CornflowerBlue">Section 11</span> | |||
case 'MODEL2' <span style="color: Green">% @@model MODEL2</span> | |||
<span style="color: Green">% @@PRN Polariser Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% P(:) = ... % @@ Eqn xx</span> | |||
<span style="color: Green">% @@GRN Gene Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% @@KRN Growth Regulatory Network</span> | |||
<span style="color: Green">% Every equation to be formatted should end with an at-at Eqn N comment.</span> | |||
<span style="color: Green">% kapar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kaper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbpar_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% kbper_p(:) = 0; % @@ Eqn xx</span> | |||
<span style="color: Green">% knor_p(:) = 0; % @@ Eqn xx</span> | |||
kapar_p(:) = id_a_l .* inh(1,id_b_l); <span style="color: Green">% growth rate</span> | |||
kaper_p(:) = kapar_p; <span style="color: Green">% isotropic growth</span> | |||
kbpar_p(:) = kapar_p; <span style="color: Green">% same on both sides of the sheet</span> | |||
kbper_p(:) = kapar_p; <span style="color: Green">% same</span> | |||
knor_p(:) = 0; <span style="color: Green">% thickness not growing</span> | |||
otherwise | |||
<span style="color: Green">% If this happens, maybe you forgot a model.</span> | |||
end | |||
<span style="color: CornflowerBlue">Section 12</span> | <span style="color: CornflowerBlue">Section 12</span> | ||
<span style="color: Green">%%% END OF USER CODE: MORPHOGEN INTERACTIONS</span> | |||
<span style="color: Green">%%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE</span> | |||
<span style="color: Green">%%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT.</span> | |||
m.morphogens(:,polariser_i) = P; | |||
m.morphogens(:,kapar_i) = kapar_p; | |||
m.morphogens(:,kaper_i) = kaper_p; | |||
m.morphogens(:,kbpar_i) = kbpar_p; | |||
m.morphogens(:,kbper_i) = kbper_p; | |||
m.morphogens(:,knor_i) = knor_p; | |||
m.morphogens(:,strainret_i) = strainret_p; | |||
m.morphogens(:,arrest_i) = arrest_p; | |||
m.morphogens(:,id_plusorg_i) = id_plusorg_p; | |||
m.morphogens(:,id_negorg_i) = id_negorg_p; | |||
m.morphogens(:,id_a_i) = id_a_p; | |||
m.morphogens(:,id_b_i) = id_b_p; | |||
<span style="color: Green">%%% USER CODE: FINALISATION</span> | |||
<span style="color: Green">% In this section you may modify the mesh in any way whatsoever.</span> | |||
<span style="color: CornflowerBlue">Section 13</span> | |||
<span style="color: Green">% If needed force FE to subdivide (increase number FE's) here</span> | <span style="color: Green">% If needed force FE to subdivide (increase number FE's) here</span> | ||
<span style="color: Green">% if realtime==280+dt</span> | <span style="color: Green">% if realtime==280+dt</span> | ||
Line 319: | Line 2,699: | ||
<span style="color: Green">%%% USER CODE: SUBFUNCTIONS</span> | <span style="color: Green">%%% USER CODE: SUBFUNCTIONS</span> | ||
<span style="color: CornflowerBlue">Section | <span style="color: CornflowerBlue">Section 14</span> | ||
function m = local_setproperties( m ) | function m = local_setproperties( m ) | ||
<span style="color: Green">% This function is called at time zero in the INITIALISATION section of the</span> | <span style="color: Green">% This function is called at time zero in the INITIALISATION section of the</span> | ||
Line 457: | Line 2,837: | ||
end | end | ||
<span style="color: CornflowerBlue">Section | <span style="color: CornflowerBlue">Section 15</span> | ||
<span style="color: Green">% Here you may write any functions of your own, that you want to call from</span> | <span style="color: Green">% Here you may write any functions of your own, that you want to call from</span> | ||
<span style="color: Green">% the interaction function, but never need to call from outside it.</span> | <span style="color: Green">% the interaction function, but never need to call from outside it.</span> | ||
Line 468: | Line 2,848: | ||
<span style="color: Green">% For example:</span> | <span style="color: Green">% For example:</span> | ||
<span style="color: CornflowerBlue">Section | <span style="color: CornflowerBlue">Section 16</span> | ||
<span style="color: Green">% function m = do_something( m )</span> | <span style="color: Green">% function m = do_something( m )</span> | ||
<span style="color: Green">% % Change m in some way.</span> | <span style="color: Green">% % Change m in some way.</span> |
Revision as of 19:05, 30 May 2011
Tutorial on the interaction function details
This file was output automatically on clicking Panel: Edit in the newly saved project called GPT tut interaction 20110530
Section 1 function m = gpt_tut_interaction_20110530( m ) %m = gpt_tut_interaction_20110530( m ) % Morphogen interaction function. % Written at 2011-05-30 09:42:07. % GFtbox revision 0, . % The user may edit any part of this function between delimiters % of the form "USER CODE..." and "END OF USER CODE...". The % delimiters themselves must not be moved, edited, deleted, or added. if isempty(m), return; end fprintf( 1, '%s found in %s\n', mfilename(), which(mfilename()) ); try m = local_setproperties( m ); catch end realtime = m.globalDynamicProps.currenttime; %%% USER CODE: INITIALISATION Section 2 % In this section you may modify the mesh in any way whatsoever. if (Steps(m)==0) && m.globalDynamicProps.doinit % First iteration % Zero out a lot of stuff to create a blank slate. % If no morphogens are set in the GUI it may be useful to % zero some arrays by uncommenting the following. % m.morphogens(:) = 0; % m.morphogenclamp(:) = 0; % m.mgen_production(:) = 0; % m.mgen_absorption(:) = 0; % m.seams(:) = false; % m.mgen_dilution(:) = false; % Set up names for variant models. Useful for running multiple models on a cluster. m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; % CLUSTER m.userdata.ranges.modelname.index = 1; % CLUSTER end modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; % CLUSTER disp(sprintf('\nRunning %s model %s\n',mfilename, modelname)); switch modelname case 'MODEL1' % Set up the parameters (e.g. mutations) for this model here. case 'MODEL2' % Set up the parameters (e.g. mutations) for this model here. otherwise % If you reach here, you probably forgot a case. end % More examples of code for all iterations. % Set priorities for simultaneous plotting of multiple morphogens, if desired. % m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] ); % Set colour of polariser gradient arrows. % m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]); % setup a multiplot of the following morphogens % m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'}); % to plot polariser on the A side and resultant areal growth rate on the B side: % m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ... % 'outputquantityB', 'resultantgrowthrate', ... % 'outputaxesB', 'areal' ); % monitor properties of vertices must be done here - so that it reports newly equilibrated levels % m=leaf_profile_monitor(m,... % essential % 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential % 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL) % 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory') Section 3 %%% END OF USER CODE: INITIALISATION %%% SECTION 1: ACCESSING MORPHOGENS AND TIME. %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. if isempty(m), return; end setGlobals(); global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST dt = m.globalProps.timestep; polariser_i = gNEW_POLARISER; P = m.morphogens(:,polariser_i); [kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); [kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); [kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); [kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); [knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); [strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); [arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); [id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); [id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); [id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); [id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); % Mesh type: circle % centre: 0 % circumpts: 48 % coneangle: 0 % dealign: 0 % height: 0 % innerpts: 0 % randomness: 0.1 % rings: 6 % version: 1 % xwidth: 0.2 % ywidth: 0.2 % Morphogen Diffusion Decay Dilution Mutant % ------------------------------------------------- % KAPAR ---- ---- ---- ---- % KAPER ---- ---- ---- ---- % KBPAR ---- ---- ---- ---- % KBPER ---- ---- ---- ---- % KNOR ---- ---- ---- ---- % POLARISER ---- ---- ---- ---- % STRAINRET ---- ---- ---- ---- % ARREST ---- ---- ---- ---- % ID_PLUSORG ---- ---- ---- ---- % ID_NEGORG ---- ---- ---- ---- % ID_A ---- ---- ---- ---- % ID_B ---- ---- ---- ---- %%% USER CODE: MORPHOGEN INTERACTIONS % In this section you may modify the mesh in any way that does not Section 4 % alter the set of nodes. if (Steps(m)==0) && m.globalDynamicProps.doinit % Initialisation code. % Put any code here that should only be performed at the start of % the simulation, for example, to set up initial morphogen values. % m.nodes is the set of vertex positions, an N by 3 array if there % are N vertices. Row number K contains the X, Y, and Z % coordinates of the Kth vertex. To obtain a list of the X % coordinates of every vertex, write m.nodes(:,1). The Y % coordinates are given by m.nodes(:,2) and the Z coordinates by % m.nodes(:,3). % Set up a morphogen promoter (_p suffix) region where x values are minimum % id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1; % if the morphogen level (_l suffix) is to be used in this iteration % set the level using the morphogen activity (_a suffix). % id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI % the activity (_a) is set to zero id_a_p(m.nodes(:,1)<-0.03)=1; % setup region for A where identity factor A is represented by id_a_p id_b_p(m.nodes(:,2)<-0.01)=1; % setup region for B % One way to set up a morphogen gradient is by ... % Setting up a gradient by clamping the ends (execute only once) % P=id_prox_p; % m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1; % m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser % m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser % Fixing vertices, i.e. fix z for the base to prevent base from moving up or down % m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z'); % To cut the mesh, set a temporary morphogen to 1 in places to cut % seams=zeros(size(P)); % seams(indexes to places to cut)=1; % m=leaf_set_seams(m,seams); end Section 5 % Second way to generate a gradient % generating (+) and sinking (-) a diffusing signal (in this case polariser) % m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p; % Monitor growth by scattering discs that deform over time (c.f. inducing biological clones) % (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true, % because a quirk of the Matlab z-buffer means that they can get hidden by mistake) % if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340 % m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells. % 'mode', 'each', ... % Make discs randomly scattered over the canvas. % 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas. % 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas) % 'numcells',4500,...%number of discs (that will become ellipses) % 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon. % 'colors', [0.5 0.5 0.5], ... % Default colour is gray but % 'colorvariation',1,... % Each disc is a random colour % 'add', true ); % These discs are added to any discs existing already % end Section 6 % Directives for creating latex representation directly from Matlab code % not fully implemented yet but will use @@ directives % @@at t % @@before t % @@after t % @@between t1 t2 Section 7 % % If you want to define different phases according to the absolute % % time, create a morphogen for each phase and modulate % % expressions using the morphogen % % like. For example: % if (realtime < 10) % first growth phase % f_firstgrowth_p = 1; % else % f_firstgrowth_p = 0; % end % if (realtime >= 10) % second growth phase % f_secondgrowth_p = 1; % else % f_secondgrowth_p = 0; % end % % % If you want one morphogen to affect others only during a certain % % phase, write something like: % % mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth Section 8 % Code common to all models. % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. Section 9 % Code for specific models. switch modelname case 'MODEL1' % @@model MODEL1 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing case 'MODEL2' % @@model MODEL2 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing otherwise % If this happens, maybe you forgot a model. end Section 10 %%% END OF USER CODE: MORPHOGEN INTERACTIONS %%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. m.morphogens(:,polariser_i) = P; m.morphogens(:,kapar_i) = kapar_p; m.morphogens(:,kaper_i) = kaper_p; m.morphogens(:,kbpar_i) = kbpar_p; m.morphogens(:,kbper_i) = kbper_p; m.morphogens(:,knor_i) = knor_p; m.morphogens(:,strainret_i) = strainret_p; m.morphogens(:,arrest_i) = arrest_p; m.morphogens(:,id_plusorg_i) = id_plusorg_p; m.morphogens(:,id_negorg_i) = id_negorg_p; m.morphogens(:,id_a_i) = id_a_p; m.morphogens(:,id_b_i) = id_b_p; %%% USER CODE: FINALISATION Section 11 % In this section you may modify the mesh in any way whatsoever. Section 12 % If needed force FE to subdivide (increase number FE's) here % if realtime==280+dt % m = leaf_subdivide( m, 'morphogen','id_vent',... % 'min',0.5,'max',1,... % 'mode','mid','levels','all'); % end % Cut the mesh along the seams (see above) % if m.userdata.CutOpen==1 % m=leaf_dissect(m); % m.userdata.CutOpen=2; % Relax accumulated stresses slowly i.e. 0.95 to 0.999 % m = leaf_setproperty( m, 'freezing', 0.999 ); % end %%% END OF USER CODE: FINALISATION end %%% USER CODE: SUBFUNCTIONS Section 13 function m = local_setproperties( m ) % This function is called at time zero in the INITIALISATION section of the % interaction function. It provides commands to set each of the properties % that are contained in m.globalProps. Uncomment whichever ones you would % like to set yourself, and put in whatever value you want. % % Some of these properties are for internal use only and should never be % set by the user. At some point these will be moved into a different % component of m, but for the present, just don't change anything unless % you know what it is you're changing. % m = leaf_setproperty( m, 'trinodesvalid', true ); % m = leaf_setproperty( m, 'prismnodesvalid', true ); % m = leaf_setproperty( m, 'thicknessRelative', 0.020000 ); % m = leaf_setproperty( m, 'thicknessArea', 0.000000 ); % m = leaf_setproperty( m, 'thicknessMode', 'physical' ); % m = leaf_setproperty( m, 'activeGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedMulti', [] ); % m = leaf_setproperty( m, 'allowNegativeGrowth', true ); % m = leaf_setproperty( m, 'usePrevDispAsEstimate', true ); % m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 ); % m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 ); % m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 ); % m = leaf_setproperty( m, 'resetRand', false ); % m = leaf_setproperty( m, 'mingradient', 0.000000 ); % m = leaf_setproperty( m, 'relativepolgrad', false ); % m = leaf_setproperty( m, 'usefrozengradient', true ); % m = leaf_setproperty( m, 'userpolarisation', false ); % m = leaf_setproperty( m, 'thresholdsq', 0.000841 ); % m = leaf_setproperty( m, 'splitmargin', 1.400000 ); % m = leaf_setproperty( m, 'splitmorphogen', ); % m = leaf_setproperty( m, 'thresholdmgen', 0.500000 ); % m = leaf_setproperty( m, 'bulkmodulus', 1.000000 ); % m = leaf_setproperty( m, 'unitbulkmodulus', true ); % m = leaf_setproperty( m, 'poissonsRatio', 0.300000 ); % m = leaf_setproperty( m, 'starttime', 0.000000 ); % m = leaf_setproperty( m, 'timestep', 0.010000 ); % m = leaf_setproperty( m, 'timeunitname', ); % m = leaf_setproperty( m, 'distunitname', 'mm' ); % m = leaf_setproperty( m, 'scalebarvalue', 0.000000 ); % m = leaf_setproperty( m, 'validateMesh', true ); % m = leaf_setproperty( m, 'rectifyverticals', false ); % m = leaf_setproperty( m, 'allowSplitLongFEM', true ); % m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 ); % m = leaf_setproperty( m, 'allowSplitBentFEM', false ); % m = leaf_setproperty( m, 'allowSplitBio', true ); % m = leaf_setproperty( m, 'allowFlipEdges', false ); % m = leaf_setproperty( m, 'allowElideEdges', true ); % m = leaf_setproperty( m, 'mincellangle', 0.200000 ); % m = leaf_setproperty( m, 'alwaysFlat', 0.000000 ); % m = leaf_setproperty( m, 'flattenforceconvex', true ); % m = leaf_setproperty( m, 'flatten', false ); % m = leaf_setproperty( m, 'flattenratio', 1.000000 ); % m = leaf_setproperty( m, 'useGrowthTensors', false ); % m = leaf_setproperty( m, 'plasticGrowth', false ); % m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 ); % m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 ); % m = leaf_setproperty( m, 'showinternalrotation', false ); % m = leaf_setproperty( m, 'performinternalrotation', false ); % m = leaf_setproperty( m, 'internallyrotated', false ); % m = leaf_setproperty( m, 'maxFEcells', 0 ); % m = leaf_setproperty( m, 'inittotalcells', 0 ); % m = leaf_setproperty( m, 'bioApresplitproc', ); % m = leaf_setproperty( m, 'bioApostsplitproc', ); % m = leaf_setproperty( m, 'maxBioAcells', 0 ); % m = leaf_setproperty( m, 'maxBioBcells', 0 ); % m = leaf_setproperty( m, 'colors', (6 values) ); % m = leaf_setproperty( m, 'colorvariation', 0.050000 ); % m = leaf_setproperty( m, 'colorparams', (12 values) ); % m = leaf_setproperty( m, 'freezing', 0.000000 ); % m = leaf_setproperty( m, 'canceldrift', false ); % m = leaf_setproperty( m, 'mgen_interaction', ); % m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowInteraction', true ); % m = leaf_setproperty( m, 'interactionValid', true ); % m = leaf_setproperty( m, 'gaussInfo', (unknown type struct) ); % m = leaf_setproperty( m, 'stitchDFs', [] ); % m = leaf_setproperty( m, 'D', (36 values) ); % m = leaf_setproperty( m, 'C', (36 values) ); % m = leaf_setproperty( m, 'G', (6 values) ); % m = leaf_setproperty( m, 'solver', 'cgs' ); % m = leaf_setproperty( m, 'solverprecision', 'double' ); % m = leaf_setproperty( m, 'solvertolerance', 0.001000 ); % m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' ); % m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 ); % m = leaf_setproperty( m, 'allowsparse', true ); % m = leaf_setproperty( m, 'maxIters', 0 ); % m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 ); % m = leaf_setproperty( m, 'cgiters', 0 ); % m = leaf_setproperty( m, 'simsteps', 0 ); % m = leaf_setproperty( m, 'stepsperrender', 0 ); % m = leaf_setproperty( m, 'growthEnabled', true ); % m = leaf_setproperty( m, 'diffusionEnabled', true ); % m = leaf_setproperty( m, 'flashmovie', false ); % m = leaf_setproperty( m, 'makemovie', false ); % m = leaf_setproperty( m, 'moviefile', ); % m = leaf_setproperty( m, 'codec', 'None' ); % m = leaf_setproperty( m, 'autonamemovie', true ); % m = leaf_setproperty( m, 'overwritemovie', false ); % m = leaf_setproperty( m, 'framesize', [] ); % m = leaf_setproperty( m, 'mov', [] ); % m = leaf_setproperty( m, 'jiggleProportion', 1.000000 ); % m = leaf_setproperty( m, 'cvtperiter', 0.200000 ); % m = leaf_setproperty( m, 'boingNeeded', false ); % m = leaf_setproperty( m, 'initialArea', 0.031326 ); % m = leaf_setproperty( m, 'bendunitlength', 0.176992 ); % m = leaf_setproperty( m, 'targetRelArea', 1.000000 ); % m = leaf_setproperty( m, 'defaultinterp', 'min' ); % m = leaf_setproperty( m, 'readonly', false ); % m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' ); % m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowsave', true ); % m = leaf_setproperty( m, 'addedToPath', false ); % m = leaf_setproperty( m, 'bendsplit', 0.300000 ); % m = leaf_setproperty( m, 'usepolfreezebc', false ); % m = leaf_setproperty( m, 'dorsaltop', true ); % m = leaf_setproperty( m, 'defaultazimuth', -45.000000 ); % m = leaf_setproperty( m, 'defaultelevation', 33.750000 ); % m = leaf_setproperty( m, 'defaultroll', 0.000000 ); % m = leaf_setproperty( m, 'defaultViewParams', (unknown type struct) ); % m = leaf_setproperty( m, 'comment', ); % m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' ); % m = leaf_setproperty( m, 'bioAsplitcells', true ); % m = leaf_setproperty( m, 'bioApullin', 0.142857 ); % m = leaf_setproperty( m, 'bioAfakepull', 0.202073 ); % m = leaf_setproperty( m, 'interactive', false ); % m = leaf_setproperty( m, 'coderevision', 0 ); % m = leaf_setproperty( m, 'coderevisiondate', ); % m = leaf_setproperty( m, 'modelrevision', 0 ); % m = leaf_setproperty( m, 'modelrevisiondate', ); % m = leaf_setproperty( m, 'savedrunname', ); % m = leaf_setproperty( m, 'savedrundesc', ); % m = leaf_setproperty( m, 'vxgrad', (108 values) ); % m = leaf_setproperty( m, 'lengthscale', 0.200000 ); end Section 14 % Here you may write any functions of your own, that you want to call from % the interaction function, but never need to call from outside it. % Remember that they do not have access to any variables except those % that you pass as parameters, and cannot change anything except by % returning new values as results. % Whichever section they are called from, they must respect the same % restrictions on what modifications they are allowed to make to the mesh. % For example: Section 15 % function m = do_something( m ) % % Change m in some way. % end % Call it from the main body of the interaction function like this: % m = do_something( m ); Section 1 function m = gpt_tut_interaction_20110530( m ) %m = gpt_tut_interaction_20110530( m ) % Morphogen interaction function. % Written at 2011-05-30 09:42:07. % GFtbox revision 0, . % The user may edit any part of this function between delimiters % of the form "USER CODE..." and "END OF USER CODE...". The % delimiters themselves must not be moved, edited, deleted, or added. if isempty(m), return; end fprintf( 1, '%s found in %s\n', mfilename(), which(mfilename()) ); try m = local_setproperties( m ); catch end realtime = m.globalDynamicProps.currenttime; %%% USER CODE: INITIALISATION Section 2 % In this section you may modify the mesh in any way whatsoever. if (Steps(m)==0) && m.globalDynamicProps.doinit % First iteration % Zero out a lot of stuff to create a blank slate. % If no morphogens are set in the GUI it may be useful to % zero some arrays by uncommenting the following. % m.morphogens(:) = 0; % m.morphogenclamp(:) = 0; % m.mgen_production(:) = 0; % m.mgen_absorption(:) = 0; % m.seams(:) = false; % m.mgen_dilution(:) = false; % Set up names for variant models. Useful for running multiple models on a cluster. m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; % CLUSTER m.userdata.ranges.modelname.index = 1; % CLUSTER end modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; % CLUSTER disp(sprintf('\nRunning %s model %s\n',mfilename, modelname)); switch modelname case 'MODEL1' % Set up the parameters (e.g. mutations) for this model here. case 'MODEL2' % Set up the parameters (e.g. mutations) for this model here. otherwise % If you reach here, you probably forgot a case. end % More examples of code for all iterations. % Set priorities for simultaneous plotting of multiple morphogens, if desired. % m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] ); % Set colour of polariser gradient arrows. % m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]); % setup a multiplot of the following morphogens % m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'}); % to plot polariser on the A side and resultant areal growth rate on the B side: % m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ... % 'outputquantityB', 'resultantgrowthrate', ... % 'outputaxesB', 'areal' ); % monitor properties of vertices must be done here - so that it reports newly equilibrated levels % m=leaf_profile_monitor(m,... % essential % 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential % 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL) % 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory') Section 3 %%% END OF USER CODE: INITIALISATION %%% SECTION 1: ACCESSING MORPHOGENS AND TIME. %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. if isempty(m), return; end setGlobals(); global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST dt = m.globalProps.timestep; polariser_i = gNEW_POLARISER; P = m.morphogens(:,polariser_i); [kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); [kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); [kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); [kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); [knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); [strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); [arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); [id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); [id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); [id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); [id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); % Mesh type: circle % centre: 0 % circumpts: 48 % coneangle: 0 % dealign: 0 % height: 0 % innerpts: 0 % randomness: 0.1 % rings: 6 % version: 1 % xwidth: 0.2 % ywidth: 0.2 % Morphogen Diffusion Decay Dilution Mutant % ------------------------------------------------- % KAPAR ---- ---- ---- ---- % KAPER ---- ---- ---- ---- % KBPAR ---- ---- ---- ---- % KBPER ---- ---- ---- ---- % KNOR ---- ---- ---- ---- % POLARISER ---- ---- ---- ---- % STRAINRET ---- ---- ---- ---- % ARREST ---- ---- ---- ---- % ID_PLUSORG ---- ---- ---- ---- % ID_NEGORG ---- ---- ---- ---- % ID_A ---- ---- ---- ---- % ID_B ---- ---- ---- ---- %%% USER CODE: MORPHOGEN INTERACTIONS % In this section you may modify the mesh in any way that does not Section 4 % alter the set of nodes. if (Steps(m)==0) && m.globalDynamicProps.doinit % Initialisation code. % Put any code here that should only be performed at the start of % the simulation, for example, to set up initial morphogen values. % m.nodes is the set of vertex positions, an N by 3 array if there % are N vertices. Row number K contains the X, Y, and Z % coordinates of the Kth vertex. To obtain a list of the X % coordinates of every vertex, write m.nodes(:,1). The Y % coordinates are given by m.nodes(:,2) and the Z coordinates by % m.nodes(:,3). % Set up a morphogen promoter (_p suffix) region where x values are minimum % id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1; % if the morphogen level (_l suffix) is to be used in this iteration % set the level using the morphogen activity (_a suffix). % id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI % the activity (_a) is set to zero id_a_p(m.nodes(:,1)<-0.03)=1; % setup region for A where identity factor A is represented by id_a_p id_b_p(m.nodes(:,2)<-0.01)=1; % setup region for B % One way to set up a morphogen gradient is by ... % Setting up a gradient by clamping the ends (execute only once) % P=id_prox_p; % m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1; % m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser % m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser % Fixing vertices, i.e. fix z for the base to prevent base from moving up or down % m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z'); % To cut the mesh, set a temporary morphogen to 1 in places to cut % seams=zeros(size(P)); % seams(indexes to places to cut)=1; % m=leaf_set_seams(m,seams); end Section 5 % Second way to generate a gradient % generating (+) and sinking (-) a diffusing signal (in this case polariser) % m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p; % Monitor growth by scattering discs that deform over time (c.f. inducing biological clones) % (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true, % because a quirk of the Matlab z-buffer means that they can get hidden by mistake) % if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340 % m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells. % 'mode', 'each', ... % Make discs randomly scattered over the canvas. % 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas. % 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas) % 'numcells',4500,...%number of discs (that will become ellipses) % 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon. % 'colors', [0.5 0.5 0.5], ... % Default colour is gray but % 'colorvariation',1,... % Each disc is a random colour % 'add', true ); % These discs are added to any discs existing already % end Section 6 % Directives for creating latex representation directly from Matlab code % not fully implemented yet but will use @@ directives % @@at t % @@before t % @@after t % @@between t1 t2 Section 7 % % If you want to define different phases according to the absolute % % time, create a morphogen for each phase and modulate % % expressions using the morphogen % % like. For example: % if (realtime < 10) % first growth phase % f_firstgrowth_p = 1; % else % f_firstgrowth_p = 0; % end % if (realtime >= 10) % second growth phase % f_secondgrowth_p = 1; % else % f_secondgrowth_p = 0; % end % % % If you want one morphogen to affect others only during a certain % % phase, write something like: % % mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth Section 8 % Code common to all models. % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. Section 9 % Code for specific models. switch modelname case 'MODEL1' % @@model MODEL1 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing case 'MODEL2' % @@model MODEL2 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing otherwise % If this happens, maybe you forgot a model. end Section 10 %%% END OF USER CODE: MORPHOGEN INTERACTIONS %%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. m.morphogens(:,polariser_i) = P; m.morphogens(:,kapar_i) = kapar_p; m.morphogens(:,kaper_i) = kaper_p; m.morphogens(:,kbpar_i) = kbpar_p; m.morphogens(:,kbper_i) = kbper_p; m.morphogens(:,knor_i) = knor_p; m.morphogens(:,strainret_i) = strainret_p; m.morphogens(:,arrest_i) = arrest_p; m.morphogens(:,id_plusorg_i) = id_plusorg_p; m.morphogens(:,id_negorg_i) = id_negorg_p; m.morphogens(:,id_a_i) = id_a_p; m.morphogens(:,id_b_i) = id_b_p; %%% USER CODE: FINALISATION Section 11 % In this section you may modify the mesh in any way whatsoever. Section 12 % If needed force FE to subdivide (increase number FE's) here % if realtime==280+dt % m = leaf_subdivide( m, 'morphogen','id_vent',... % 'min',0.5,'max',1,... % 'mode','mid','levels','all'); % end % Cut the mesh along the seams (see above) % if m.userdata.CutOpen==1 % m=leaf_dissect(m); % m.userdata.CutOpen=2; % Relax accumulated stresses slowly i.e. 0.95 to 0.999 % m = leaf_setproperty( m, 'freezing', 0.999 ); % end %%% END OF USER CODE: FINALISATION end %%% USER CODE: SUBFUNCTIONS Section 13 function m = local_setproperties( m ) % This function is called at time zero in the INITIALISATION section of the % interaction function. It provides commands to set each of the properties % that are contained in m.globalProps. Uncomment whichever ones you would % like to set yourself, and put in whatever value you want. % % Some of these properties are for internal use only and should never be % set by the user. At some point these will be moved into a different % component of m, but for the present, just don't change anything unless % you know what it is you're changing. % m = leaf_setproperty( m, 'trinodesvalid', true ); % m = leaf_setproperty( m, 'prismnodesvalid', true ); % m = leaf_setproperty( m, 'thicknessRelative', 0.020000 ); % m = leaf_setproperty( m, 'thicknessArea', 0.000000 ); % m = leaf_setproperty( m, 'thicknessMode', 'physical' ); % m = leaf_setproperty( m, 'activeGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedMulti', [] ); % m = leaf_setproperty( m, 'allowNegativeGrowth', true ); % m = leaf_setproperty( m, 'usePrevDispAsEstimate', true ); % m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 ); % m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 ); % m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 ); % m = leaf_setproperty( m, 'resetRand', false ); % m = leaf_setproperty( m, 'mingradient', 0.000000 ); % m = leaf_setproperty( m, 'relativepolgrad', false ); % m = leaf_setproperty( m, 'usefrozengradient', true ); % m = leaf_setproperty( m, 'userpolarisation', false ); % m = leaf_setproperty( m, 'thresholdsq', 0.000841 ); % m = leaf_setproperty( m, 'splitmargin', 1.400000 ); % m = leaf_setproperty( m, 'splitmorphogen', ); % m = leaf_setproperty( m, 'thresholdmgen', 0.500000 ); % m = leaf_setproperty( m, 'bulkmodulus', 1.000000 ); % m = leaf_setproperty( m, 'unitbulkmodulus', true ); % m = leaf_setproperty( m, 'poissonsRatio', 0.300000 ); % m = leaf_setproperty( m, 'starttime', 0.000000 ); % m = leaf_setproperty( m, 'timestep', 0.010000 ); % m = leaf_setproperty( m, 'timeunitname', ); % m = leaf_setproperty( m, 'distunitname', 'mm' ); % m = leaf_setproperty( m, 'scalebarvalue', 0.000000 ); % m = leaf_setproperty( m, 'validateMesh', true ); % m = leaf_setproperty( m, 'rectifyverticals', false ); % m = leaf_setproperty( m, 'allowSplitLongFEM', true ); % m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 ); % m = leaf_setproperty( m, 'allowSplitBentFEM', false ); % m = leaf_setproperty( m, 'allowSplitBio', true ); % m = leaf_setproperty( m, 'allowFlipEdges', false ); % m = leaf_setproperty( m, 'allowElideEdges', true ); % m = leaf_setproperty( m, 'mincellangle', 0.200000 ); % m = leaf_setproperty( m, 'alwaysFlat', 0.000000 ); % m = leaf_setproperty( m, 'flattenforceconvex', true ); % m = leaf_setproperty( m, 'flatten', false ); % m = leaf_setproperty( m, 'flattenratio', 1.000000 ); % m = leaf_setproperty( m, 'useGrowthTensors', false ); % m = leaf_setproperty( m, 'plasticGrowth', false ); % m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 ); % m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 ); % m = leaf_setproperty( m, 'showinternalrotation', false ); % m = leaf_setproperty( m, 'performinternalrotation', false ); % m = leaf_setproperty( m, 'internallyrotated', false ); % m = leaf_setproperty( m, 'maxFEcells', 0 ); % m = leaf_setproperty( m, 'inittotalcells', 0 ); % m = leaf_setproperty( m, 'bioApresplitproc', ); % m = leaf_setproperty( m, 'bioApostsplitproc', ); % m = leaf_setproperty( m, 'maxBioAcells', 0 ); % m = leaf_setproperty( m, 'maxBioBcells', 0 ); % m = leaf_setproperty( m, 'colors', (6 values) ); % m = leaf_setproperty( m, 'colorvariation', 0.050000 ); % m = leaf_setproperty( m, 'colorparams', (12 values) ); % m = leaf_setproperty( m, 'freezing', 0.000000 ); % m = leaf_setproperty( m, 'canceldrift', false ); % m = leaf_setproperty( m, 'mgen_interaction', ); % m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowInteraction', true ); % m = leaf_setproperty( m, 'interactionValid', true ); % m = leaf_setproperty( m, 'gaussInfo', (unknown type struct) ); % m = leaf_setproperty( m, 'stitchDFs', [] ); % m = leaf_setproperty( m, 'D', (36 values) ); % m = leaf_setproperty( m, 'C', (36 values) ); % m = leaf_setproperty( m, 'G', (6 values) ); % m = leaf_setproperty( m, 'solver', 'cgs' ); % m = leaf_setproperty( m, 'solverprecision', 'double' ); % m = leaf_setproperty( m, 'solvertolerance', 0.001000 ); % m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' ); % m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 ); % m = leaf_setproperty( m, 'allowsparse', true ); % m = leaf_setproperty( m, 'maxIters', 0 ); % m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 ); % m = leaf_setproperty( m, 'cgiters', 0 ); % m = leaf_setproperty( m, 'simsteps', 0 ); % m = leaf_setproperty( m, 'stepsperrender', 0 ); % m = leaf_setproperty( m, 'growthEnabled', true ); % m = leaf_setproperty( m, 'diffusionEnabled', true ); % m = leaf_setproperty( m, 'flashmovie', false ); % m = leaf_setproperty( m, 'makemovie', false ); % m = leaf_setproperty( m, 'moviefile', ); % m = leaf_setproperty( m, 'codec', 'None' ); % m = leaf_setproperty( m, 'autonamemovie', true ); % m = leaf_setproperty( m, 'overwritemovie', false ); % m = leaf_setproperty( m, 'framesize', [] ); % m = leaf_setproperty( m, 'mov', [] ); % m = leaf_setproperty( m, 'jiggleProportion', 1.000000 ); % m = leaf_setproperty( m, 'cvtperiter', 0.200000 ); % m = leaf_setproperty( m, 'boingNeeded', false ); % m = leaf_setproperty( m, 'initialArea', 0.031326 ); % m = leaf_setproperty( m, 'bendunitlength', 0.176992 ); % m = leaf_setproperty( m, 'targetRelArea', 1.000000 ); % m = leaf_setproperty( m, 'defaultinterp', 'min' ); % m = leaf_setproperty( m, 'readonly', false ); % m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' ); % m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowsave', true ); % m = leaf_setproperty( m, 'addedToPath', false ); % m = leaf_setproperty( m, 'bendsplit', 0.300000 ); % m = leaf_setproperty( m, 'usepolfreezebc', false ); % m = leaf_setproperty( m, 'dorsaltop', true ); % m = leaf_setproperty( m, 'defaultazimuth', -45.000000 ); % m = leaf_setproperty( m, 'defaultelevation', 33.750000 ); % m = leaf_setproperty( m, 'defaultroll', 0.000000 ); % m = leaf_setproperty( m, 'defaultViewParams', (unknown type struct) ); % m = leaf_setproperty( m, 'comment', ); % m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' ); % m = leaf_setproperty( m, 'bioAsplitcells', true ); % m = leaf_setproperty( m, 'bioApullin', 0.142857 ); % m = leaf_setproperty( m, 'bioAfakepull', 0.202073 ); % m = leaf_setproperty( m, 'interactive', false ); % m = leaf_setproperty( m, 'coderevision', 0 ); % m = leaf_setproperty( m, 'coderevisiondate', ); % m = leaf_setproperty( m, 'modelrevision', 0 ); % m = leaf_setproperty( m, 'modelrevisiondate', ); % m = leaf_setproperty( m, 'savedrunname', ); % m = leaf_setproperty( m, 'savedrundesc', ); % m = leaf_setproperty( m, 'vxgrad', (108 values) ); % m = leaf_setproperty( m, 'lengthscale', 0.200000 ); end Section 14 % Here you may write any functions of your own, that you want to call from % the interaction function, but never need to call from outside it. % Remember that they do not have access to any variables except those % that you pass as parameters, and cannot change anything except by % returning new values as results. % Whichever section they are called from, they must respect the same % restrictions on what modifications they are allowed to make to the mesh. % For example: Section 15 % function m = do_something( m ) % % Change m in some way. % end % Call it from the main body of the interaction function like this: % m = do_something( m ); Section 1 function m = gpt_tut_interaction_20110530( m ) %m = gpt_tut_interaction_20110530( m ) % Morphogen interaction function. % Written at 2011-05-30 09:42:07. % GFtbox revision 0, . % The user may edit any part of this function between delimiters % of the form "USER CODE..." and "END OF USER CODE...". The % delimiters themselves must not be moved, edited, deleted, or added. if isempty(m), return; end fprintf( 1, '%s found in %s\n', mfilename(), which(mfilename()) ); try m = local_setproperties( m ); catch end realtime = m.globalDynamicProps.currenttime; Section 2 %%% USER CODE: INITIALISATION % In this section you may modify the mesh in any way whatsoever. if (Steps(m)==0) && m.globalDynamicProps.doinit % First iteration % Zero out a lot of stuff to create a blank slate. % If no morphogens are set in the GUI it may be useful to % zero some arrays by uncommenting the following. % m.morphogens(:) = 0; % m.morphogenclamp(:) = 0; % m.mgen_production(:) = 0; % m.mgen_absorption(:) = 0; % m.seams(:) = false; % m.mgen_dilution(:) = false; % Set up names for variant models. Useful for running multiple models on a cluster. m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; % CLUSTER m.userdata.ranges.modelname.index = 1; % CLUSTER end modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; % CLUSTER disp(sprintf('\nRunning %s model %s\n',mfilename, modelname)); switch modelname case 'MODEL1' % Set up the parameters (e.g. mutations) for this model here. case 'MODEL2' % Set up the parameters (e.g. mutations) for this model here. otherwise % If you reach here, you probably forgot a case. end % More examples of code for all iterations. % Set priorities for simultaneous plotting of multiple morphogens, if desired. % m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] ); % Set colour of polariser gradient arrows. % m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]); % setup a multiplot of the following morphogens % m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'}); % to plot polariser on the A side and resultant areal growth rate on the B side: % m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ... % 'outputquantityB', 'resultantgrowthrate', ... % 'outputaxesB', 'areal' ); % monitor properties of vertices must be done here - so that it reports newly equilibrated levels % m=leaf_profile_monitor(m,... % essential % 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential % 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL) % 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory') %%% END OF USER CODE: INITIALISATION Section 3 %%% SECTION 1: ACCESSING MORPHOGENS AND TIME. %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. if isempty(m), return; end setGlobals(); global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST dt = m.globalProps.timestep; polariser_i = gNEW_POLARISER; P = m.morphogens(:,polariser_i); [kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); [kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); [kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); [kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); [knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); [strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); [arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); [id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); [id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); [id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); [id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); % Mesh type: circle % centre: 0 % circumpts: 48 % coneangle: 0 % dealign: 0 % height: 0 % innerpts: 0 % randomness: 0.1 % rings: 6 % version: 1 % xwidth: 0.2 % ywidth: 0.2 % Morphogen Diffusion Decay Dilution Mutant % ------------------------------------------------- % KAPAR ---- ---- ---- ---- % KAPER ---- ---- ---- ---- % KBPAR ---- ---- ---- ---- % KBPER ---- ---- ---- ---- % KNOR ---- ---- ---- ---- % POLARISER ---- ---- ---- ---- % STRAINRET ---- ---- ---- ---- % ARREST ---- ---- ---- ---- % ID_PLUSORG ---- ---- ---- ---- % ID_NEGORG ---- ---- ---- ---- % ID_A ---- ---- ---- ---- % ID_B ---- ---- ---- ---- %%% USER CODE: MORPHOGEN INTERACTIONS % In this section you may modify the mesh in any way that does not Section 4 % alter the set of nodes. if (Steps(m)==0) && m.globalDynamicProps.doinit % Initialisation code. % Put any code here that should only be performed at the start of % the simulation, for example, to set up initial morphogen values. % m.nodes is the set of vertex positions, an N by 3 array if there % are N vertices. Row number K contains the X, Y, and Z % coordinates of the Kth vertex. To obtain a list of the X % coordinates of every vertex, write m.nodes(:,1). The Y % coordinates are given by m.nodes(:,2) and the Z coordinates by % m.nodes(:,3). % Set up a morphogen promoter (_p suffix) region where x values are minimum % id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1; % if the morphogen level (_l suffix) is to be used in this iteration % set the level using the morphogen activity (_a suffix). % id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI % the activity (_a) is set to zero id_a_p(m.nodes(:,1)<-0.03)=1; % setup region for A where identity factor A is represented by id_a_p id_b_p(m.nodes(:,2)<-0.01)=1; % setup region for B % One way to set up a morphogen gradient is by ... % Setting up a gradient by clamping the ends (execute only once) % P=id_prox_p; % m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1; % m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser % m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser % Fixing vertices, i.e. fix z for the base to prevent base from moving up or down % m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z'); % To cut the mesh, set a temporary morphogen to 1 in places to cut % seams=zeros(size(P)); % seams(indexes to places to cut)=1; % m=leaf_set_seams(m,seams); end Section 5 % Second way to generate a gradient % generating (+) and sinking (-) a diffusing signal (in this case polariser) % m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p; % Monitor growth by scattering discs that deform over time (c.f. inducing biological clones) % (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true, % because a quirk of the Matlab z-buffer means that they can get hidden by mistake) % if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340 % m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells. % 'mode', 'each', ... % Make discs randomly scattered over the canvas. % 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas. % 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas) % 'numcells',4500,...%number of discs (that will become ellipses) % 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon. % 'colors', [0.5 0.5 0.5], ... % Default colour is gray but % 'colorvariation',1,... % Each disc is a random colour % 'add', true ); % These discs are added to any discs existing already % end Section 6 % Directives for creating latex representation directly from Matlab code % not fully implemented yet but will use @@ directives % @@at t % @@before t % @@after t % @@between t1 t2 Section 7 % % If you want to define different phases according to the absolute % % time, create a morphogen for each phase and modulate % % expressions using the morphogen % % like. For example: % if (realtime < 10) % first growth phase % f_firstgrowth_p = 1; % else % f_firstgrowth_p = 0; % end % if (realtime >= 10) % second growth phase % f_secondgrowth_p = 1; % else % f_secondgrowth_p = 0; % end % % % If you want one morphogen to affect others only during a certain % % phase, write something like: % % mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth Section 8 % Code common to all models. % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. Section 9 % Code for specific models. switch modelname Section 10 case 'MODEL1' % @@model MODEL1 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing Section 11 case 'MODEL2' % @@model MODEL2 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing otherwise % If this happens, maybe you forgot a model. end Section 12 %%% END OF USER CODE: MORPHOGEN INTERACTIONS %%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. m.morphogens(:,polariser_i) = P; m.morphogens(:,kapar_i) = kapar_p; m.morphogens(:,kaper_i) = kaper_p; m.morphogens(:,kbpar_i) = kbpar_p; m.morphogens(:,kbper_i) = kbper_p; m.morphogens(:,knor_i) = knor_p; m.morphogens(:,strainret_i) = strainret_p; m.morphogens(:,arrest_i) = arrest_p; m.morphogens(:,id_plusorg_i) = id_plusorg_p; m.morphogens(:,id_negorg_i) = id_negorg_p; m.morphogens(:,id_a_i) = id_a_p; m.morphogens(:,id_b_i) = id_b_p; %%% USER CODE: FINALISATION % In this section you may modify the mesh in any way whatsoever. Section 13 % If needed force FE to subdivide (increase number FE's) here % if realtime==280+dt % m = leaf_subdivide( m, 'morphogen','id_vent',... % 'min',0.5,'max',1,... % 'mode','mid','levels','all'); % end % Cut the mesh along the seams (see above) % if m.userdata.CutOpen==1 % m=leaf_dissect(m); % m.userdata.CutOpen=2; % Relax accumulated stresses slowly i.e. 0.95 to 0.999 % m = leaf_setproperty( m, 'freezing', 0.999 ); % end %%% END OF USER CODE: FINALISATION end %%% USER CODE: SUBFUNCTIONS Section 14 function m = local_setproperties( m ) % This function is called at time zero in the INITIALISATION section of the % interaction function. It provides commands to set each of the properties % that are contained in m.globalProps. Uncomment whichever ones you would % like to set yourself, and put in whatever value you want. % % Some of these properties are for internal use only and should never be % set by the user. At some point these will be moved into a different % component of m, but for the present, just don't change anything unless % you know what it is you're changing. % m = leaf_setproperty( m, 'trinodesvalid', true ); % m = leaf_setproperty( m, 'prismnodesvalid', true ); % m = leaf_setproperty( m, 'thicknessRelative', 0.020000 ); % m = leaf_setproperty( m, 'thicknessArea', 0.000000 ); % m = leaf_setproperty( m, 'thicknessMode', 'physical' ); % m = leaf_setproperty( m, 'activeGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedMulti', [] ); % m = leaf_setproperty( m, 'allowNegativeGrowth', true ); % m = leaf_setproperty( m, 'usePrevDispAsEstimate', true ); % m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 ); % m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 ); % m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 ); % m = leaf_setproperty( m, 'resetRand', false ); % m = leaf_setproperty( m, 'mingradient', 0.000000 ); % m = leaf_setproperty( m, 'relativepolgrad', false ); % m = leaf_setproperty( m, 'usefrozengradient', true ); % m = leaf_setproperty( m, 'userpolarisation', false ); % m = leaf_setproperty( m, 'thresholdsq', 0.000841 ); % m = leaf_setproperty( m, 'splitmargin', 1.400000 ); % m = leaf_setproperty( m, 'splitmorphogen', ); % m = leaf_setproperty( m, 'thresholdmgen', 0.500000 ); % m = leaf_setproperty( m, 'bulkmodulus', 1.000000 ); % m = leaf_setproperty( m, 'unitbulkmodulus', true ); % m = leaf_setproperty( m, 'poissonsRatio', 0.300000 ); % m = leaf_setproperty( m, 'starttime', 0.000000 ); % m = leaf_setproperty( m, 'timestep', 0.010000 ); % m = leaf_setproperty( m, 'timeunitname', ); % m = leaf_setproperty( m, 'distunitname', 'mm' ); % m = leaf_setproperty( m, 'scalebarvalue', 0.000000 ); % m = leaf_setproperty( m, 'validateMesh', true ); % m = leaf_setproperty( m, 'rectifyverticals', false ); % m = leaf_setproperty( m, 'allowSplitLongFEM', true ); % m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 ); % m = leaf_setproperty( m, 'allowSplitBentFEM', false ); % m = leaf_setproperty( m, 'allowSplitBio', true ); % m = leaf_setproperty( m, 'allowFlipEdges', false ); % m = leaf_setproperty( m, 'allowElideEdges', true ); % m = leaf_setproperty( m, 'mincellangle', 0.200000 ); % m = leaf_setproperty( m, 'alwaysFlat', 0.000000 ); % m = leaf_setproperty( m, 'flattenforceconvex', true ); % m = leaf_setproperty( m, 'flatten', false ); % m = leaf_setproperty( m, 'flattenratio', 1.000000 ); % m = leaf_setproperty( m, 'useGrowthTensors', false ); % m = leaf_setproperty( m, 'plasticGrowth', false ); % m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 ); % m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 ); % m = leaf_setproperty( m, 'showinternalrotation', false ); % m = leaf_setproperty( m, 'performinternalrotation', false ); % m = leaf_setproperty( m, 'internallyrotated', false ); % m = leaf_setproperty( m, 'maxFEcells', 0 ); % m = leaf_setproperty( m, 'inittotalcells', 0 ); % m = leaf_setproperty( m, 'bioApresplitproc', ); % m = leaf_setproperty( m, 'bioApostsplitproc', ); % m = leaf_setproperty( m, 'maxBioAcells', 0 ); % m = leaf_setproperty( m, 'maxBioBcells', 0 ); % m = leaf_setproperty( m, 'colors', (6 values) ); % m = leaf_setproperty( m, 'colorvariation', 0.050000 ); % m = leaf_setproperty( m, 'colorparams', (12 values) ); % m = leaf_setproperty( m, 'freezing', 0.000000 ); % m = leaf_setproperty( m, 'canceldrift', false ); % m = leaf_setproperty( m, 'mgen_interaction', ); % m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowInteraction', true ); % m = leaf_setproperty( m, 'interactionValid', true ); % m = leaf_setproperty( m, 'gaussInfo', (unknown type struct) ); % m = leaf_setproperty( m, 'stitchDFs', [] ); % m = leaf_setproperty( m, 'D', (36 values) ); % m = leaf_setproperty( m, 'C', (36 values) ); % m = leaf_setproperty( m, 'G', (6 values) ); % m = leaf_setproperty( m, 'solver', 'cgs' ); % m = leaf_setproperty( m, 'solverprecision', 'double' ); % m = leaf_setproperty( m, 'solvertolerance', 0.001000 ); % m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' ); % m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 ); % m = leaf_setproperty( m, 'allowsparse', true ); % m = leaf_setproperty( m, 'maxIters', 0 ); % m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 ); % m = leaf_setproperty( m, 'cgiters', 0 ); % m = leaf_setproperty( m, 'simsteps', 0 ); % m = leaf_setproperty( m, 'stepsperrender', 0 ); % m = leaf_setproperty( m, 'growthEnabled', true ); % m = leaf_setproperty( m, 'diffusionEnabled', true ); % m = leaf_setproperty( m, 'flashmovie', false ); % m = leaf_setproperty( m, 'makemovie', false ); % m = leaf_setproperty( m, 'moviefile', ); % m = leaf_setproperty( m, 'codec', 'None' ); % m = leaf_setproperty( m, 'autonamemovie', true ); % m = leaf_setproperty( m, 'overwritemovie', false ); % m = leaf_setproperty( m, 'framesize', [] ); % m = leaf_setproperty( m, 'mov', [] ); % m = leaf_setproperty( m, 'jiggleProportion', 1.000000 ); % m = leaf_setproperty( m, 'cvtperiter', 0.200000 ); % m = leaf_setproperty( m, 'boingNeeded', false ); % m = leaf_setproperty( m, 'initialArea', 0.031326 ); % m = leaf_setproperty( m, 'bendunitlength', 0.176992 ); % m = leaf_setproperty( m, 'targetRelArea', 1.000000 ); % m = leaf_setproperty( m, 'defaultinterp', 'min' ); % m = leaf_setproperty( m, 'readonly', false ); % m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' ); % m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowsave', true ); % m = leaf_setproperty( m, 'addedToPath', false ); % m = leaf_setproperty( m, 'bendsplit', 0.300000 ); % m = leaf_setproperty( m, 'usepolfreezebc', false ); % m = leaf_setproperty( m, 'dorsaltop', true ); % m = leaf_setproperty( m, 'defaultazimuth', -45.000000 ); % m = leaf_setproperty( m, 'defaultelevation', 33.750000 ); % m = leaf_setproperty( m, 'defaultroll', 0.000000 ); % m = leaf_setproperty( m, 'defaultViewParams', (unknown type struct) ); % m = leaf_setproperty( m, 'comment', ); % m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' ); % m = leaf_setproperty( m, 'bioAsplitcells', true ); % m = leaf_setproperty( m, 'bioApullin', 0.142857 ); % m = leaf_setproperty( m, 'bioAfakepull', 0.202073 ); % m = leaf_setproperty( m, 'interactive', false ); % m = leaf_setproperty( m, 'coderevision', 0 ); % m = leaf_setproperty( m, 'coderevisiondate', ); % m = leaf_setproperty( m, 'modelrevision', 0 ); % m = leaf_setproperty( m, 'modelrevisiondate', ); % m = leaf_setproperty( m, 'savedrunname', ); % m = leaf_setproperty( m, 'savedrundesc', ); % m = leaf_setproperty( m, 'vxgrad', (108 values) ); % m = leaf_setproperty( m, 'lengthscale', 0.200000 ); end Section 15 % Here you may write any functions of your own, that you want to call from % the interaction function, but never need to call from outside it. % Remember that they do not have access to any variables except those % that you pass as parameters, and cannot change anything except by % returning new values as results. % Whichever section they are called from, they must respect the same % restrictions on what modifications they are allowed to make to the mesh. % For example: Section 16 % function m = do_something( m ) % % Change m in some way. % end % Call it from the main body of the interaction function like this: % m = do_something( m ); Section 1 function m = gpt_tut_interaction_20110530( m ) %m = gpt_tut_interaction_20110530( m ) % Morphogen interaction function. % Written at 2011-05-30 09:42:07. % GFtbox revision 0, . % The user may edit any part of this function between delimiters % of the form "USER CODE..." and "END OF USER CODE...". The % delimiters themselves must not be moved, edited, deleted, or added. if isempty(m), return; end fprintf( 1, '%s found in %s\n', mfilename(), which(mfilename()) ); try m = local_setproperties( m ); catch end realtime = m.globalDynamicProps.currenttime; Section 2 %%% USER CODE: INITIALISATION % In this section you may modify the mesh in any way whatsoever. if (Steps(m)==0) && m.globalDynamicProps.doinit % First iteration % Zero out a lot of stuff to create a blank slate. % If no morphogens are set in the GUI it may be useful to % zero some arrays by uncommenting the following. % m.morphogens(:) = 0; % m.morphogenclamp(:) = 0; % m.mgen_production(:) = 0; % m.mgen_absorption(:) = 0; % m.seams(:) = false; % m.mgen_dilution(:) = false; % Set up names for variant models. Useful for running multiple models on a cluster. m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; % CLUSTER m.userdata.ranges.modelname.index = 1; % CLUSTER end modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; % CLUSTER disp(sprintf('\nRunning %s model %s\n',mfilename, modelname)); switch modelname case 'MODEL1' % Set up the parameters (e.g. mutations) for this model here. case 'MODEL2' % Set up the parameters (e.g. mutations) for this model here. otherwise % If you reach here, you probably forgot a case. end % More examples of code for all iterations. % Set priorities for simultaneous plotting of multiple morphogens, if desired. % m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] ); % Set colour of polariser gradient arrows. % m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]); % setup a multiplot of the following morphogens % m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'}); % to plot polariser on the A side and resultant areal growth rate on the B side: % m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ... % 'outputquantityB', 'resultantgrowthrate', ... % 'outputaxesB', 'areal' ); % monitor properties of vertices must be done here - so that it reports newly equilibrated levels % m=leaf_profile_monitor(m,... % essential % 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential % 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL) % 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory') %%% END OF USER CODE: INITIALISATION Section 3 %%% SECTION 1: ACCESSING MORPHOGENS AND TIME. %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. if isempty(m), return; end setGlobals(); global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST dt = m.globalProps.timestep; polariser_i = gNEW_POLARISER; P = m.morphogens(:,polariser_i); [kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); [kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); [kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); [kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); [knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); [strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); [arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); [id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); [id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); [id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); [id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); % Mesh type: circle % centre: 0 % circumpts: 48 % coneangle: 0 % dealign: 0 % height: 0 % innerpts: 0 % randomness: 0.1 % rings: 6 % version: 1 % xwidth: 0.2 % ywidth: 0.2 % Morphogen Diffusion Decay Dilution Mutant % ------------------------------------------------- % KAPAR ---- ---- ---- ---- % KAPER ---- ---- ---- ---- % KBPAR ---- ---- ---- ---- % KBPER ---- ---- ---- ---- % KNOR ---- ---- ---- ---- % POLARISER ---- ---- ---- ---- % STRAINRET ---- ---- ---- ---- % ARREST ---- ---- ---- ---- % ID_PLUSORG ---- ---- ---- ---- % ID_NEGORG ---- ---- ---- ---- % ID_A ---- ---- ---- ---- % ID_B ---- ---- ---- ---- %%% USER CODE: MORPHOGEN INTERACTIONS % In this section you may modify the mesh in any way that does not Section 4 % alter the set of nodes. if (Steps(m)==0) && m.globalDynamicProps.doinit % Initialisation code. % Put any code here that should only be performed at the start of % the simulation, for example, to set up initial morphogen values. % m.nodes is the set of vertex positions, an N by 3 array if there % are N vertices. Row number K contains the X, Y, and Z % coordinates of the Kth vertex. To obtain a list of the X % coordinates of every vertex, write m.nodes(:,1). The Y % coordinates are given by m.nodes(:,2) and the Z coordinates by % m.nodes(:,3). % Set up a morphogen promoter (_p suffix) region where x values are minimum % id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1; % if the morphogen level (_l suffix) is to be used in this iteration % set the level using the morphogen activity (_a suffix). % id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI % the activity (_a) is set to zero id_a_p(m.nodes(:,1)<-0.03)=1; % setup region for A where identity factor A is represented by id_a_p id_b_p(m.nodes(:,2)<-0.01)=1; % setup region for B % One way to set up a morphogen gradient is by ... % Setting up a gradient by clamping the ends (execute only once) % P=id_prox_p; % m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1; % m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser % m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser % Fixing vertices, i.e. fix z for the base to prevent base from moving up or down % m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z'); % To cut the mesh, set a temporary morphogen to 1 in places to cut % seams=zeros(size(P)); % seams(indexes to places to cut)=1; % m=leaf_set_seams(m,seams); end Section 5 % Second way to generate a gradient % generating (+) and sinking (-) a diffusing signal (in this case polariser) % m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p; % Monitor growth by scattering discs that deform over time (c.f. inducing biological clones) % (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true, % because a quirk of the Matlab z-buffer means that they can get hidden by mistake) % if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340 % m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells. % 'mode', 'each', ... % Make discs randomly scattered over the canvas. % 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas. % 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas) % 'numcells',4500,...%number of discs (that will become ellipses) % 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon. % 'colors', [0.5 0.5 0.5], ... % Default colour is gray but % 'colorvariation',1,... % Each disc is a random colour % 'add', true ); % These discs are added to any discs existing already % end Section 6 % Directives for creating latex representation directly from Matlab code % not fully implemented yet but will use @@ directives % @@at t % @@before t % @@after t % @@between t1 t2 Section 7 % % If you want to define different phases according to the absolute % % time, create a morphogen for each phase and modulate % % expressions using the morphogen % % like. For example: % if (realtime < 10) % first growth phase % f_firstgrowth_p = 1; % else % f_firstgrowth_p = 0; % end % if (realtime >= 10) % second growth phase % f_secondgrowth_p = 1; % else % f_secondgrowth_p = 0; % end % % % If you want one morphogen to affect others only during a certain % % phase, write something like: % % mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth Section 8 % Code common to all models. % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. Section 9 % Code for specific models. switch modelname Section 10 case 'MODEL1' % @@model MODEL1 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing Section 11 case 'MODEL2' % @@model MODEL2 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing otherwise % If this happens, maybe you forgot a model. end Section 12 %%% END OF USER CODE: MORPHOGEN INTERACTIONS %%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. m.morphogens(:,polariser_i) = P; m.morphogens(:,kapar_i) = kapar_p; m.morphogens(:,kaper_i) = kaper_p; m.morphogens(:,kbpar_i) = kbpar_p; m.morphogens(:,kbper_i) = kbper_p; m.morphogens(:,knor_i) = knor_p; m.morphogens(:,strainret_i) = strainret_p; m.morphogens(:,arrest_i) = arrest_p; m.morphogens(:,id_plusorg_i) = id_plusorg_p; m.morphogens(:,id_negorg_i) = id_negorg_p; m.morphogens(:,id_a_i) = id_a_p; m.morphogens(:,id_b_i) = id_b_p; %%% USER CODE: FINALISATION % In this section you may modify the mesh in any way whatsoever. Section 13 % If needed force FE to subdivide (increase number FE's) here % if realtime==280+dt % m = leaf_subdivide( m, 'morphogen','id_vent',... % 'min',0.5,'max',1,... % 'mode','mid','levels','all'); % end % Cut the mesh along the seams (see above) % if m.userdata.CutOpen==1 % m=leaf_dissect(m); % m.userdata.CutOpen=2; % Relax accumulated stresses slowly i.e. 0.95 to 0.999 % m = leaf_setproperty( m, 'freezing', 0.999 ); % end %%% END OF USER CODE: FINALISATION end %%% USER CODE: SUBFUNCTIONS Section 14 function m = local_setproperties( m ) % This function is called at time zero in the INITIALISATION section of the % interaction function. It provides commands to set each of the properties % that are contained in m.globalProps. Uncomment whichever ones you would % like to set yourself, and put in whatever value you want. % % Some of these properties are for internal use only and should never be % set by the user. At some point these will be moved into a different % component of m, but for the present, just don't change anything unless % you know what it is you're changing. % m = leaf_setproperty( m, 'trinodesvalid', true ); % m = leaf_setproperty( m, 'prismnodesvalid', true ); % m = leaf_setproperty( m, 'thicknessRelative', 0.020000 ); % m = leaf_setproperty( m, 'thicknessArea', 0.000000 ); % m = leaf_setproperty( m, 'thicknessMode', 'physical' ); % m = leaf_setproperty( m, 'activeGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedMulti', [] ); % m = leaf_setproperty( m, 'allowNegativeGrowth', true ); % m = leaf_setproperty( m, 'usePrevDispAsEstimate', true ); % m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 ); % m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 ); % m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 ); % m = leaf_setproperty( m, 'resetRand', false ); % m = leaf_setproperty( m, 'mingradient', 0.000000 ); % m = leaf_setproperty( m, 'relativepolgrad', false ); % m = leaf_setproperty( m, 'usefrozengradient', true ); % m = leaf_setproperty( m, 'userpolarisation', false ); % m = leaf_setproperty( m, 'thresholdsq', 0.000841 ); % m = leaf_setproperty( m, 'splitmargin', 1.400000 ); % m = leaf_setproperty( m, 'splitmorphogen', ); % m = leaf_setproperty( m, 'thresholdmgen', 0.500000 ); % m = leaf_setproperty( m, 'bulkmodulus', 1.000000 ); % m = leaf_setproperty( m, 'unitbulkmodulus', true ); % m = leaf_setproperty( m, 'poissonsRatio', 0.300000 ); % m = leaf_setproperty( m, 'starttime', 0.000000 ); % m = leaf_setproperty( m, 'timestep', 0.010000 ); % m = leaf_setproperty( m, 'timeunitname', ); % m = leaf_setproperty( m, 'distunitname', 'mm' ); % m = leaf_setproperty( m, 'scalebarvalue', 0.000000 ); % m = leaf_setproperty( m, 'validateMesh', true ); % m = leaf_setproperty( m, 'rectifyverticals', false ); % m = leaf_setproperty( m, 'allowSplitLongFEM', true ); % m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 ); % m = leaf_setproperty( m, 'allowSplitBentFEM', false ); % m = leaf_setproperty( m, 'allowSplitBio', true ); % m = leaf_setproperty( m, 'allowFlipEdges', false ); % m = leaf_setproperty( m, 'allowElideEdges', true ); % m = leaf_setproperty( m, 'mincellangle', 0.200000 ); % m = leaf_setproperty( m, 'alwaysFlat', 0.000000 ); % m = leaf_setproperty( m, 'flattenforceconvex', true ); % m = leaf_setproperty( m, 'flatten', false ); % m = leaf_setproperty( m, 'flattenratio', 1.000000 ); % m = leaf_setproperty( m, 'useGrowthTensors', false ); % m = leaf_setproperty( m, 'plasticGrowth', false ); % m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 ); % m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 ); % m = leaf_setproperty( m, 'showinternalrotation', false ); % m = leaf_setproperty( m, 'performinternalrotation', false ); % m = leaf_setproperty( m, 'internallyrotated', false ); % m = leaf_setproperty( m, 'maxFEcells', 0 ); % m = leaf_setproperty( m, 'inittotalcells', 0 ); % m = leaf_setproperty( m, 'bioApresplitproc', ); % m = leaf_setproperty( m, 'bioApostsplitproc', ); % m = leaf_setproperty( m, 'maxBioAcells', 0 ); % m = leaf_setproperty( m, 'maxBioBcells', 0 ); % m = leaf_setproperty( m, 'colors', (6 values) ); % m = leaf_setproperty( m, 'colorvariation', 0.050000 ); % m = leaf_setproperty( m, 'colorparams', (12 values) ); % m = leaf_setproperty( m, 'freezing', 0.000000 ); % m = leaf_setproperty( m, 'canceldrift', false ); % m = leaf_setproperty( m, 'mgen_interaction', ); % m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowInteraction', true ); % m = leaf_setproperty( m, 'interactionValid', true ); % m = leaf_setproperty( m, 'gaussInfo', (unknown type struct) ); % m = leaf_setproperty( m, 'stitchDFs', [] ); % m = leaf_setproperty( m, 'D', (36 values) ); % m = leaf_setproperty( m, 'C', (36 values) ); % m = leaf_setproperty( m, 'G', (6 values) ); % m = leaf_setproperty( m, 'solver', 'cgs' ); % m = leaf_setproperty( m, 'solverprecision', 'double' ); % m = leaf_setproperty( m, 'solvertolerance', 0.001000 ); % m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' ); % m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 ); % m = leaf_setproperty( m, 'allowsparse', true ); % m = leaf_setproperty( m, 'maxIters', 0 ); % m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 ); % m = leaf_setproperty( m, 'cgiters', 0 ); % m = leaf_setproperty( m, 'simsteps', 0 ); % m = leaf_setproperty( m, 'stepsperrender', 0 ); % m = leaf_setproperty( m, 'growthEnabled', true ); % m = leaf_setproperty( m, 'diffusionEnabled', true ); % m = leaf_setproperty( m, 'flashmovie', false ); % m = leaf_setproperty( m, 'makemovie', false ); % m = leaf_setproperty( m, 'moviefile', ); % m = leaf_setproperty( m, 'codec', 'None' ); % m = leaf_setproperty( m, 'autonamemovie', true ); % m = leaf_setproperty( m, 'overwritemovie', false ); % m = leaf_setproperty( m, 'framesize', [] ); % m = leaf_setproperty( m, 'mov', [] ); % m = leaf_setproperty( m, 'jiggleProportion', 1.000000 ); % m = leaf_setproperty( m, 'cvtperiter', 0.200000 ); % m = leaf_setproperty( m, 'boingNeeded', false ); % m = leaf_setproperty( m, 'initialArea', 0.031326 ); % m = leaf_setproperty( m, 'bendunitlength', 0.176992 ); % m = leaf_setproperty( m, 'targetRelArea', 1.000000 ); % m = leaf_setproperty( m, 'defaultinterp', 'min' ); % m = leaf_setproperty( m, 'readonly', false ); % m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' ); % m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowsave', true ); % m = leaf_setproperty( m, 'addedToPath', false ); % m = leaf_setproperty( m, 'bendsplit', 0.300000 ); % m = leaf_setproperty( m, 'usepolfreezebc', false ); % m = leaf_setproperty( m, 'dorsaltop', true ); % m = leaf_setproperty( m, 'defaultazimuth', -45.000000 ); % m = leaf_setproperty( m, 'defaultelevation', 33.750000 ); % m = leaf_setproperty( m, 'defaultroll', 0.000000 ); % m = leaf_setproperty( m, 'defaultViewParams', (unknown type struct) ); % m = leaf_setproperty( m, 'comment', ); % m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' ); % m = leaf_setproperty( m, 'bioAsplitcells', true ); % m = leaf_setproperty( m, 'bioApullin', 0.142857 ); % m = leaf_setproperty( m, 'bioAfakepull', 0.202073 ); % m = leaf_setproperty( m, 'interactive', false ); % m = leaf_setproperty( m, 'coderevision', 0 ); % m = leaf_setproperty( m, 'coderevisiondate', ); % m = leaf_setproperty( m, 'modelrevision', 0 ); % m = leaf_setproperty( m, 'modelrevisiondate', ); % m = leaf_setproperty( m, 'savedrunname', ); % m = leaf_setproperty( m, 'savedrundesc', ); % m = leaf_setproperty( m, 'vxgrad', (108 values) ); % m = leaf_setproperty( m, 'lengthscale', 0.200000 ); end Section 15 % Here you may write any functions of your own, that you want to call from % the interaction function, but never need to call from outside it. % Remember that they do not have access to any variables except those % that you pass as parameters, and cannot change anything except by % returning new values as results. % Whichever section they are called from, they must respect the same % restrictions on what modifications they are allowed to make to the mesh. % For example: Section 16 % function m = do_something( m ) % % Change m in some way. % end % Call it from the main body of the interaction function like this: % m = do_something( m ); Section 1 function m = gpt_tut_interaction_20110530( m ) %m = gpt_tut_interaction_20110530( m ) % Morphogen interaction function. % Written at 2011-05-30 09:42:07. % GFtbox revision 0, . % The user may edit any part of this function between delimiters % of the form "USER CODE..." and "END OF USER CODE...". The % delimiters themselves must not be moved, edited, deleted, or added. if isempty(m), return; end fprintf( 1, '%s found in %s\n', mfilename(), which(mfilename()) ); try m = local_setproperties( m ); catch end realtime = m.globalDynamicProps.currenttime; Section 2 %%% USER CODE: INITIALISATION % In this section you may modify the mesh in any way whatsoever. if (Steps(m)==0) && m.globalDynamicProps.doinit % First iteration % Zero out a lot of stuff to create a blank slate. % If no morphogens are set in the GUI it may be useful to % zero some arrays by uncommenting the following. % m.morphogens(:) = 0; % m.morphogenclamp(:) = 0; % m.mgen_production(:) = 0; % m.mgen_absorption(:) = 0; % m.seams(:) = false; % m.mgen_dilution(:) = false; % Set up names for variant models. Useful for running multiple models on a cluster. m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; % CLUSTER m.userdata.ranges.modelname.index = 1; % CLUSTER end modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; % CLUSTER disp(sprintf('\nRunning %s model %s\n',mfilename, modelname)); switch modelname case 'MODEL1' % Set up the parameters (e.g. mutations) for this model here. case 'MODEL2' % Set up the parameters (e.g. mutations) for this model here. otherwise % If you reach here, you probably forgot a case. end % More examples of code for all iterations. % Set priorities for simultaneous plotting of multiple morphogens, if desired. % m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] ); % Set colour of polariser gradient arrows. % m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]); % setup a multiplot of the following morphogens % m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'}); % to plot polariser on the A side and resultant areal growth rate on the B side: % m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ... % 'outputquantityB', 'resultantgrowthrate', ... % 'outputaxesB', 'areal' ); % monitor properties of vertices must be done here - so that it reports newly equilibrated levels % m=leaf_profile_monitor(m,... % essential % 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential % 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL) % 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory') %%% END OF USER CODE: INITIALISATION Section 3 %%% SECTION 1: ACCESSING MORPHOGENS AND TIME. %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. if isempty(m), return; end setGlobals(); global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST dt = m.globalProps.timestep; polariser_i = gNEW_POLARISER; P = m.morphogens(:,polariser_i); [kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); [kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); [kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); [kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); [knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); [strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); [arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); [id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); [id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); [id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); [id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); % Mesh type: circle % centre: 0 % circumpts: 48 % coneangle: 0 % dealign: 0 % height: 0 % innerpts: 0 % randomness: 0.1 % rings: 6 % version: 1 % xwidth: 0.2 % ywidth: 0.2 % Morphogen Diffusion Decay Dilution Mutant % ------------------------------------------------- % KAPAR ---- ---- ---- ---- % KAPER ---- ---- ---- ---- % KBPAR ---- ---- ---- ---- % KBPER ---- ---- ---- ---- % KNOR ---- ---- ---- ---- % POLARISER ---- ---- ---- ---- % STRAINRET ---- ---- ---- ---- % ARREST ---- ---- ---- ---- % ID_PLUSORG ---- ---- ---- ---- % ID_NEGORG ---- ---- ---- ---- % ID_A ---- ---- ---- ---- % ID_B ---- ---- ---- ---- %%% USER CODE: MORPHOGEN INTERACTIONS % In this section you may modify the mesh in any way that does not Section 4 % alter the set of nodes. if (Steps(m)==0) && m.globalDynamicProps.doinit % Initialisation code. % Put any code here that should only be performed at the start of % the simulation, for example, to set up initial morphogen values. % m.nodes is the set of vertex positions, an N by 3 array if there % are N vertices. Row number K contains the X, Y, and Z % coordinates of the Kth vertex. To obtain a list of the X % coordinates of every vertex, write m.nodes(:,1). The Y % coordinates are given by m.nodes(:,2) and the Z coordinates by % m.nodes(:,3). % Set up a morphogen promoter (_p suffix) region where x values are minimum % id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1; % if the morphogen level (_l suffix) is to be used in this iteration % set the level using the morphogen activity (_a suffix). % id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI % the activity (_a) is set to zero id_a_p(m.nodes(:,1)<-0.03)=1; % setup region for A where identity factor A is represented by id_a_p id_b_p(m.nodes(:,2)<-0.01)=1; % setup region for B % One way to set up a morphogen gradient is by ... % Setting up a gradient by clamping the ends (execute only once) % P=id_prox_p; % m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1; % m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser % m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser % Fixing vertices, i.e. fix z for the base to prevent base from moving up or down % m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z'); % To cut the mesh, set a temporary morphogen to 1 in places to cut % seams=zeros(size(P)); % seams(indexes to places to cut)=1; % m=leaf_set_seams(m,seams); end Section 5 % Second way to generate a gradient % generating (+) and sinking (-) a diffusing signal (in this case polariser) % m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p; % Monitor growth by scattering discs that deform over time (c.f. inducing biological clones) % (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true, % because a quirk of the Matlab z-buffer means that they can get hidden by mistake) % if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340 % m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells. % 'mode', 'each', ... % Make discs randomly scattered over the canvas. % 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas. % 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas) % 'numcells',4500,...%number of discs (that will become ellipses) % 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon. % 'colors', [0.5 0.5 0.5], ... % Default colour is gray but % 'colorvariation',1,... % Each disc is a random colour % 'add', true ); % These discs are added to any discs existing already % end Section 6 % Directives for creating latex representation directly from Matlab code % not fully implemented yet but will use @@ directives % @@at t % @@before t % @@after t % @@between t1 t2 Section 7 % % If you want to define different phases according to the absolute % % time, create a morphogen for each phase and modulate % % expressions using the morphogen % % like. For example: % if (realtime < 10) % first growth phase % f_firstgrowth_p = 1; % else % f_firstgrowth_p = 0; % end % if (realtime >= 10) % second growth phase % f_secondgrowth_p = 1; % else % f_secondgrowth_p = 0; % end % % % If you want one morphogen to affect others only during a certain % % phase, write something like: % % mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth Section 8 % Code common to all models. % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. Section 9 % Code for specific models. switch modelname Section 10 case 'MODEL1' % @@model MODEL1 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing Section 11 case 'MODEL2' % @@model MODEL2 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing otherwise % If this happens, maybe you forgot a model. end Section 12 %%% END OF USER CODE: MORPHOGEN INTERACTIONS %%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. m.morphogens(:,polariser_i) = P; m.morphogens(:,kapar_i) = kapar_p; m.morphogens(:,kaper_i) = kaper_p; m.morphogens(:,kbpar_i) = kbpar_p; m.morphogens(:,kbper_i) = kbper_p; m.morphogens(:,knor_i) = knor_p; m.morphogens(:,strainret_i) = strainret_p; m.morphogens(:,arrest_i) = arrest_p; m.morphogens(:,id_plusorg_i) = id_plusorg_p; m.morphogens(:,id_negorg_i) = id_negorg_p; m.morphogens(:,id_a_i) = id_a_p; m.morphogens(:,id_b_i) = id_b_p; %%% USER CODE: FINALISATION % In this section you may modify the mesh in any way whatsoever. Section 13 % If needed force FE to subdivide (increase number FE's) here % if realtime==280+dt % m = leaf_subdivide( m, 'morphogen','id_vent',... % 'min',0.5,'max',1,... % 'mode','mid','levels','all'); % end % Cut the mesh along the seams (see above) % if m.userdata.CutOpen==1 % m=leaf_dissect(m); % m.userdata.CutOpen=2; % Relax accumulated stresses slowly i.e. 0.95 to 0.999 % m = leaf_setproperty( m, 'freezing', 0.999 ); % end %%% END OF USER CODE: FINALISATION end %%% USER CODE: SUBFUNCTIONS Section 14 function m = local_setproperties( m ) % This function is called at time zero in the INITIALISATION section of the % interaction function. It provides commands to set each of the properties % that are contained in m.globalProps. Uncomment whichever ones you would % like to set yourself, and put in whatever value you want. % % Some of these properties are for internal use only and should never be % set by the user. At some point these will be moved into a different % component of m, but for the present, just don't change anything unless % you know what it is you're changing. % m = leaf_setproperty( m, 'trinodesvalid', true ); % m = leaf_setproperty( m, 'prismnodesvalid', true ); % m = leaf_setproperty( m, 'thicknessRelative', 0.020000 ); % m = leaf_setproperty( m, 'thicknessArea', 0.000000 ); % m = leaf_setproperty( m, 'thicknessMode', 'physical' ); % m = leaf_setproperty( m, 'activeGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedMulti', [] ); % m = leaf_setproperty( m, 'allowNegativeGrowth', true ); % m = leaf_setproperty( m, 'usePrevDispAsEstimate', true ); % m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 ); % m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 ); % m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 ); % m = leaf_setproperty( m, 'resetRand', false ); % m = leaf_setproperty( m, 'mingradient', 0.000000 ); % m = leaf_setproperty( m, 'relativepolgrad', false ); % m = leaf_setproperty( m, 'usefrozengradient', true ); % m = leaf_setproperty( m, 'userpolarisation', false ); % m = leaf_setproperty( m, 'thresholdsq', 0.000841 ); % m = leaf_setproperty( m, 'splitmargin', 1.400000 ); % m = leaf_setproperty( m, 'splitmorphogen', ); % m = leaf_setproperty( m, 'thresholdmgen', 0.500000 ); % m = leaf_setproperty( m, 'bulkmodulus', 1.000000 ); % m = leaf_setproperty( m, 'unitbulkmodulus', true ); % m = leaf_setproperty( m, 'poissonsRatio', 0.300000 ); % m = leaf_setproperty( m, 'starttime', 0.000000 ); % m = leaf_setproperty( m, 'timestep', 0.010000 ); % m = leaf_setproperty( m, 'timeunitname', ); % m = leaf_setproperty( m, 'distunitname', 'mm' ); % m = leaf_setproperty( m, 'scalebarvalue', 0.000000 ); % m = leaf_setproperty( m, 'validateMesh', true ); % m = leaf_setproperty( m, 'rectifyverticals', false ); % m = leaf_setproperty( m, 'allowSplitLongFEM', true ); % m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 ); % m = leaf_setproperty( m, 'allowSplitBentFEM', false ); % m = leaf_setproperty( m, 'allowSplitBio', true ); % m = leaf_setproperty( m, 'allowFlipEdges', false ); % m = leaf_setproperty( m, 'allowElideEdges', true ); % m = leaf_setproperty( m, 'mincellangle', 0.200000 ); % m = leaf_setproperty( m, 'alwaysFlat', 0.000000 ); % m = leaf_setproperty( m, 'flattenforceconvex', true ); % m = leaf_setproperty( m, 'flatten', false ); % m = leaf_setproperty( m, 'flattenratio', 1.000000 ); % m = leaf_setproperty( m, 'useGrowthTensors', false ); % m = leaf_setproperty( m, 'plasticGrowth', false ); % m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 ); % m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 ); % m = leaf_setproperty( m, 'showinternalrotation', false ); % m = leaf_setproperty( m, 'performinternalrotation', false ); % m = leaf_setproperty( m, 'internallyrotated', false ); % m = leaf_setproperty( m, 'maxFEcells', 0 ); % m = leaf_setproperty( m, 'inittotalcells', 0 ); % m = leaf_setproperty( m, 'bioApresplitproc', ); % m = leaf_setproperty( m, 'bioApostsplitproc', ); % m = leaf_setproperty( m, 'maxBioAcells', 0 ); % m = leaf_setproperty( m, 'maxBioBcells', 0 ); % m = leaf_setproperty( m, 'colors', (6 values) ); % m = leaf_setproperty( m, 'colorvariation', 0.050000 ); % m = leaf_setproperty( m, 'colorparams', (12 values) ); % m = leaf_setproperty( m, 'freezing', 0.000000 ); % m = leaf_setproperty( m, 'canceldrift', false ); % m = leaf_setproperty( m, 'mgen_interaction', ); % m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowInteraction', true ); % m = leaf_setproperty( m, 'interactionValid', true ); % m = leaf_setproperty( m, 'gaussInfo', (unknown type struct) ); % m = leaf_setproperty( m, 'stitchDFs', [] ); % m = leaf_setproperty( m, 'D', (36 values) ); % m = leaf_setproperty( m, 'C', (36 values) ); % m = leaf_setproperty( m, 'G', (6 values) ); % m = leaf_setproperty( m, 'solver', 'cgs' ); % m = leaf_setproperty( m, 'solverprecision', 'double' ); % m = leaf_setproperty( m, 'solvertolerance', 0.001000 ); % m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' ); % m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 ); % m = leaf_setproperty( m, 'allowsparse', true ); % m = leaf_setproperty( m, 'maxIters', 0 ); % m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 ); % m = leaf_setproperty( m, 'cgiters', 0 ); % m = leaf_setproperty( m, 'simsteps', 0 ); % m = leaf_setproperty( m, 'stepsperrender', 0 ); % m = leaf_setproperty( m, 'growthEnabled', true ); % m = leaf_setproperty( m, 'diffusionEnabled', true ); % m = leaf_setproperty( m, 'flashmovie', false ); % m = leaf_setproperty( m, 'makemovie', false ); % m = leaf_setproperty( m, 'moviefile', ); % m = leaf_setproperty( m, 'codec', 'None' ); % m = leaf_setproperty( m, 'autonamemovie', true ); % m = leaf_setproperty( m, 'overwritemovie', false ); % m = leaf_setproperty( m, 'framesize', [] ); % m = leaf_setproperty( m, 'mov', [] ); % m = leaf_setproperty( m, 'jiggleProportion', 1.000000 ); % m = leaf_setproperty( m, 'cvtperiter', 0.200000 ); % m = leaf_setproperty( m, 'boingNeeded', false ); % m = leaf_setproperty( m, 'initialArea', 0.031326 ); % m = leaf_setproperty( m, 'bendunitlength', 0.176992 ); % m = leaf_setproperty( m, 'targetRelArea', 1.000000 ); % m = leaf_setproperty( m, 'defaultinterp', 'min' ); % m = leaf_setproperty( m, 'readonly', false ); % m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' ); % m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowsave', true ); % m = leaf_setproperty( m, 'addedToPath', false ); % m = leaf_setproperty( m, 'bendsplit', 0.300000 ); % m = leaf_setproperty( m, 'usepolfreezebc', false ); % m = leaf_setproperty( m, 'dorsaltop', true ); % m = leaf_setproperty( m, 'defaultazimuth', -45.000000 ); % m = leaf_setproperty( m, 'defaultelevation', 33.750000 ); % m = leaf_setproperty( m, 'defaultroll', 0.000000 ); % m = leaf_setproperty( m, 'defaultViewParams', (unknown type struct) ); % m = leaf_setproperty( m, 'comment', ); % m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' ); % m = leaf_setproperty( m, 'bioAsplitcells', true ); % m = leaf_setproperty( m, 'bioApullin', 0.142857 ); % m = leaf_setproperty( m, 'bioAfakepull', 0.202073 ); % m = leaf_setproperty( m, 'interactive', false ); % m = leaf_setproperty( m, 'coderevision', 0 ); % m = leaf_setproperty( m, 'coderevisiondate', ); % m = leaf_setproperty( m, 'modelrevision', 0 ); % m = leaf_setproperty( m, 'modelrevisiondate', ); % m = leaf_setproperty( m, 'savedrunname', ); % m = leaf_setproperty( m, 'savedrundesc', ); % m = leaf_setproperty( m, 'vxgrad', (108 values) ); % m = leaf_setproperty( m, 'lengthscale', 0.200000 ); end Section 15 % Here you may write any functions of your own, that you want to call from % the interaction function, but never need to call from outside it. % Remember that they do not have access to any variables except those % that you pass as parameters, and cannot change anything except by % returning new values as results. % Whichever section they are called from, they must respect the same % restrictions on what modifications they are allowed to make to the mesh. % For example: Section 16 % function m = do_something( m ) % % Change m in some way. % end % Call it from the main body of the interaction function like this: % m = do_something( m ); Section 1 function m = gpt_tut_interaction_20110530( m ) %m = gpt_tut_interaction_20110530( m ) % Morphogen interaction function. % Written at 2011-05-30 09:42:07. % GFtbox revision 0, . % The user may edit any part of this function between delimiters % of the form "USER CODE..." and "END OF USER CODE...". The % delimiters themselves must not be moved, edited, deleted, or added. if isempty(m), return; end fprintf( 1, '%s found in %s\n', mfilename(), which(mfilename()) ); try m = local_setproperties( m ); catch end realtime = m.globalDynamicProps.currenttime; Section 2 %%% USER CODE: INITIALISATION % In this section you may modify the mesh in any way whatsoever. if (Steps(m)==0) && m.globalDynamicProps.doinit % First iteration % Zero out a lot of stuff to create a blank slate. % If no morphogens are set in the GUI it may be useful to % zero some arrays by uncommenting the following. % m.morphogens(:) = 0; % m.morphogenclamp(:) = 0; % m.mgen_production(:) = 0; % m.mgen_absorption(:) = 0; % m.seams(:) = false; % m.mgen_dilution(:) = false; % Set up names for variant models. Useful for running multiple models on a cluster. m.userdata.ranges.modelname.range = { 'MODEL1', 'MODEL2' }; % CLUSTER m.userdata.ranges.modelname.index = 1; % CLUSTER end modelname = m.userdata.ranges.modelname.range{m.userdata.ranges.modelname.index}; % CLUSTER disp(sprintf('\nRunning %s model %s\n',mfilename, modelname)); switch modelname case 'MODEL1' % Set up the parameters (e.g. mutations) for this model here. case 'MODEL2' % Set up the parameters (e.g. mutations) for this model here. otherwise % If you reach here, you probably forgot a case. end % More examples of code for all iterations. % Set priorities for simultaneous plotting of multiple morphogens, if desired. % m = leaf_mgen_plotpriority( m, {'MGEN1', 'MGEN2'}, [1,2], [0.5,0.75] ); % Set colour of polariser gradient arrows. % m = leaf_plotoptions(m,'highgradcolor',[0,0,0],'lowgradcolor',[1,0,0]); % setup a multiplot of the following morphogens % m = leaf_plotoptions( m, 'morphogen', {'V_PROFILE1','V_PROFILE2','KAPAR','S_LEFTRIGHT'}); % to plot polariser on the A side and resultant areal growth rate on the B side: % m = leaf_plotoptions( m, 'morphogenA', 'POLARISER', ... % 'outputquantityB', 'resultantgrowthrate', ... % 'outputaxesB', 'areal' ); % monitor properties of vertices must be done here - so that it reports newly equilibrated levels % m=leaf_profile_monitor(m,... % essential % 'REGIONLABELS',{'V_PROFILE1','V_PROFILE2'},... % essential % 'MORPHOGENS',{'S_LEFTRIGHT','S_CENTRE'},... % optional (one element per REGIONLABEL) % 'VERTLABELS',false,'FigNum',1,'EXCEL',true,'MODELNAME',modelname); % optional (file in snapshots directory') %%% END OF USER CODE: INITIALISATION Section 3 %%% SECTION 1: ACCESSING MORPHOGENS AND TIME. %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. if isempty(m), return; end setGlobals(); global gNEW_KA_PAR gNEW_KA_PER gNEW_KB_PAR gNEW_KB_PER global gNEW_K_NOR gNEW_POLARISER gNEW_STRAINRET gNEW_ARREST dt = m.globalProps.timestep; polariser_i = gNEW_POLARISER; P = m.morphogens(:,polariser_i); [kapar_i,kapar_p,kapar_a,kapar_l] = getMgenLevels( m, 'KAPAR' ); [kaper_i,kaper_p,kaper_a,kaper_l] = getMgenLevels( m, 'KAPER' ); [kbpar_i,kbpar_p,kbpar_a,kbpar_l] = getMgenLevels( m, 'KBPAR' ); [kbper_i,kbper_p,kbper_a,kbper_l] = getMgenLevels( m, 'KBPER' ); [knor_i,knor_p,knor_a,knor_l] = getMgenLevels( m, 'KNOR' ); [strainret_i,strainret_p,strainret_a,strainret_l] = getMgenLevels( m, 'STRAINRET' ); [arrest_i,arrest_p,arrest_a,arrest_l] = getMgenLevels( m, 'ARREST' ); [id_plusorg_i,id_plusorg_p,id_plusorg_a,id_plusorg_l] = getMgenLevels( m, 'ID_PLUSORG' ); [id_negorg_i,id_negorg_p,id_negorg_a,id_negorg_l] = getMgenLevels( m, 'ID_NEGORG' ); [id_a_i,id_a_p,id_a_a,id_a_l] = getMgenLevels( m, 'ID_A' ); [id_b_i,id_b_p,id_b_a,id_b_l] = getMgenLevels( m, 'ID_B' ); % Mesh type: circle % centre: 0 % circumpts: 48 % coneangle: 0 % dealign: 0 % height: 0 % innerpts: 0 % randomness: 0.1 % rings: 6 % version: 1 % xwidth: 0.2 % ywidth: 0.2 % Morphogen Diffusion Decay Dilution Mutant % ------------------------------------------------- % KAPAR ---- ---- ---- ---- % KAPER ---- ---- ---- ---- % KBPAR ---- ---- ---- ---- % KBPER ---- ---- ---- ---- % KNOR ---- ---- ---- ---- % POLARISER ---- ---- ---- ---- % STRAINRET ---- ---- ---- ---- % ARREST ---- ---- ---- ---- % ID_PLUSORG ---- ---- ---- ---- % ID_NEGORG ---- ---- ---- ---- % ID_A ---- ---- ---- ---- % ID_B ---- ---- ---- ---- %%% USER CODE: MORPHOGEN INTERACTIONS % In this section you may modify the mesh in any way that does not Section 4 % alter the set of nodes. if (Steps(m)==0) && m.globalDynamicProps.doinit % Initialisation code. % Put any code here that should only be performed at the start of % the simulation, for example, to set up initial morphogen values. % m.nodes is the set of vertex positions, an N by 3 array if there % are N vertices. Row number K contains the X, Y, and Z % coordinates of the Kth vertex. To obtain a list of the X % coordinates of every vertex, write m.nodes(:,1). The Y % coordinates are given by m.nodes(:,2) and the Z coordinates by % m.nodes(:,3). % Set up a morphogen promoter (_p suffix) region where x values are minimum % id_prox_p(m.nodes(:,1)==min(m.nodes(:,1)))=1; % if the morphogen level (_l suffix) is to be used in this iteration % set the level using the morphogen activity (_a suffix). % id_prox_l=id_prox_p * id_prox_a; % when a mutation is specified in the GUI % the activity (_a) is set to zero id_a_p(m.nodes(:,1)<-0.03)=1; % setup region for A where identity factor A is represented by id_a_p id_b_p(m.nodes(:,2)<-0.01)=1; % setup region for B % One way to set up a morphogen gradient is by ... % Setting up a gradient by clamping the ends (execute only once) % P=id_prox_p; % m.morphogenclamp( ((id_prox_p==1)|(id_dist_p==1)), polariser_i ) = 1; % m = leaf_mgen_conductivity( m, 'POLARISER', 0.01 ); %specifies the diffusion rate of polariser % m = leaf_mgen_absorption( m, 'POLARISER', 0.1 ); % specifies degradation rate of polariser % Fixing vertices, i.e. fix z for the base to prevent base from moving up or down % m=leaf_fix_vertex(m,'vertex',find(id_prox_p==1),'dfs','z'); % To cut the mesh, set a temporary morphogen to 1 in places to cut % seams=zeros(size(P)); % seams(indexes to places to cut)=1; % m=leaf_set_seams(m,seams); end Section 5 % Second way to generate a gradient % generating (+) and sinking (-) a diffusing signal (in this case polariser) % m.mgen_production( :, polariser_i ) = + 5*s_spur_p - P .* id_dist_p; % Monitor growth by scattering discs that deform over time (c.f. inducing biological clones) % (CARE - if the canvas is flat ensure that Plot:Hide Thickness is true, % because a quirk of the Matlab z-buffer means that they can get hidden by mistake) % if (340>realtime-dt) && (340<realtime+dt) % discs to be added at realtime==340 % m = leaf_makesecondlayer( m, ... % This function adds discs that represent transformed cells. % 'mode', 'each', ... % Make discs randomly scattered over the canvas. % 'relarea', 1/16000, ... % Each discs has area was 1/16000 of the initial area of the canvas. % 'probpervx', 'V_FLOWER', ... % induce discs over whole canvas (V_FLOWER is 1 over whole canvas) % 'numcells',4500,...%number of discs (that will become ellipses) % 'sides', 6, ... % Each discs is approximated as a 6-sided regular polygon. % 'colors', [0.5 0.5 0.5], ... % Default colour is gray but % 'colorvariation',1,... % Each disc is a random colour % 'add', true ); % These discs are added to any discs existing already % end Section 6 % Directives for creating latex representation directly from Matlab code % not fully implemented yet but will use @@ directives % @@at t % @@before t % @@after t % @@between t1 t2 Section 7 % % If you want to define different phases according to the absolute % % time, create a morphogen for each phase and modulate % % expressions using the morphogen % % like. For example: % if (realtime < 10) % first growth phase % f_firstgrowth_p = 1; % else % f_firstgrowth_p = 0; % end % if (realtime >= 10) % second growth phase % f_secondgrowth_p = 1; % else % f_secondgrowth_p = 0; % end % % % If you want one morphogen to affect others only during a certain % % phase, write something like: % % mgen_a_p = f_firstgrowth_p .* (various terms); % will zero except in firstgrowth Section 8 % Code common to all models. % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. Section 9 % Code for specific models. switch modelname Section 10 case 'MODEL1' % @@model MODEL1 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing Section 11 case 'MODEL2' % @@model MODEL2 % @@PRN Polariser Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % P(:) = ... % @@ Eqn xx % @@GRN Gene Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % @@KRN Growth Regulatory Network % Every equation to be formatted should end with an at-at Eqn N comment. % kapar_p(:) = 0; % @@ Eqn xx % kaper_p(:) = 0; % @@ Eqn xx % kbpar_p(:) = 0; % @@ Eqn xx % kbper_p(:) = 0; % @@ Eqn xx % knor_p(:) = 0; % @@ Eqn xx kapar_p(:) = id_a_l .* inh(1,id_b_l); % growth rate kaper_p(:) = kapar_p; % isotropic growth kbpar_p(:) = kapar_p; % same on both sides of the sheet kbper_p(:) = kapar_p; % same knor_p(:) = 0; % thickness not growing otherwise % If this happens, maybe you forgot a model. end Section 12 %%% END OF USER CODE: MORPHOGEN INTERACTIONS %%% SECTION 3: INSTALLING MODIFIED VALUES BACK INTO MESH STRUCTURE %%% AUTOMATICALLY GENERATED CODE: DO NOT EDIT. m.morphogens(:,polariser_i) = P; m.morphogens(:,kapar_i) = kapar_p; m.morphogens(:,kaper_i) = kaper_p; m.morphogens(:,kbpar_i) = kbpar_p; m.morphogens(:,kbper_i) = kbper_p; m.morphogens(:,knor_i) = knor_p; m.morphogens(:,strainret_i) = strainret_p; m.morphogens(:,arrest_i) = arrest_p; m.morphogens(:,id_plusorg_i) = id_plusorg_p; m.morphogens(:,id_negorg_i) = id_negorg_p; m.morphogens(:,id_a_i) = id_a_p; m.morphogens(:,id_b_i) = id_b_p; %%% USER CODE: FINALISATION % In this section you may modify the mesh in any way whatsoever. Section 13 % If needed force FE to subdivide (increase number FE's) here % if realtime==280+dt % m = leaf_subdivide( m, 'morphogen','id_vent',... % 'min',0.5,'max',1,... % 'mode','mid','levels','all'); % end % Cut the mesh along the seams (see above) % if m.userdata.CutOpen==1 % m=leaf_dissect(m); % m.userdata.CutOpen=2; % Relax accumulated stresses slowly i.e. 0.95 to 0.999 % m = leaf_setproperty( m, 'freezing', 0.999 ); % end %%% END OF USER CODE: FINALISATION end %%% USER CODE: SUBFUNCTIONS Section 14 function m = local_setproperties( m ) % This function is called at time zero in the INITIALISATION section of the % interaction function. It provides commands to set each of the properties % that are contained in m.globalProps. Uncomment whichever ones you would % like to set yourself, and put in whatever value you want. % % Some of these properties are for internal use only and should never be % set by the user. At some point these will be moved into a different % component of m, but for the present, just don't change anything unless % you know what it is you're changing. % m = leaf_setproperty( m, 'trinodesvalid', true ); % m = leaf_setproperty( m, 'prismnodesvalid', true ); % m = leaf_setproperty( m, 'thicknessRelative', 0.020000 ); % m = leaf_setproperty( m, 'thicknessArea', 0.000000 ); % m = leaf_setproperty( m, 'thicknessMode', 'physical' ); % m = leaf_setproperty( m, 'activeGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedGrowth', 1.000000 ); % m = leaf_setproperty( m, 'displayedMulti', [] ); % m = leaf_setproperty( m, 'allowNegativeGrowth', true ); % m = leaf_setproperty( m, 'usePrevDispAsEstimate', true ); % m = leaf_setproperty( m, 'perturbInitGrowthEstimate', 0.000010 ); % m = leaf_setproperty( m, 'perturbRelGrowthEstimate', 0.010000 ); % m = leaf_setproperty( m, 'perturbDiffusionEstimate', 0.000100 ); % m = leaf_setproperty( m, 'resetRand', false ); % m = leaf_setproperty( m, 'mingradient', 0.000000 ); % m = leaf_setproperty( m, 'relativepolgrad', false ); % m = leaf_setproperty( m, 'usefrozengradient', true ); % m = leaf_setproperty( m, 'userpolarisation', false ); % m = leaf_setproperty( m, 'thresholdsq', 0.000841 ); % m = leaf_setproperty( m, 'splitmargin', 1.400000 ); % m = leaf_setproperty( m, 'splitmorphogen', ); % m = leaf_setproperty( m, 'thresholdmgen', 0.500000 ); % m = leaf_setproperty( m, 'bulkmodulus', 1.000000 ); % m = leaf_setproperty( m, 'unitbulkmodulus', true ); % m = leaf_setproperty( m, 'poissonsRatio', 0.300000 ); % m = leaf_setproperty( m, 'starttime', 0.000000 ); % m = leaf_setproperty( m, 'timestep', 0.010000 ); % m = leaf_setproperty( m, 'timeunitname', ); % m = leaf_setproperty( m, 'distunitname', 'mm' ); % m = leaf_setproperty( m, 'scalebarvalue', 0.000000 ); % m = leaf_setproperty( m, 'validateMesh', true ); % m = leaf_setproperty( m, 'rectifyverticals', false ); % m = leaf_setproperty( m, 'allowSplitLongFEM', true ); % m = leaf_setproperty( m, 'longSplitThresholdPower', 0.000000 ); % m = leaf_setproperty( m, 'allowSplitBentFEM', false ); % m = leaf_setproperty( m, 'allowSplitBio', true ); % m = leaf_setproperty( m, 'allowFlipEdges', false ); % m = leaf_setproperty( m, 'allowElideEdges', true ); % m = leaf_setproperty( m, 'mincellangle', 0.200000 ); % m = leaf_setproperty( m, 'alwaysFlat', 0.000000 ); % m = leaf_setproperty( m, 'flattenforceconvex', true ); % m = leaf_setproperty( m, 'flatten', false ); % m = leaf_setproperty( m, 'flattenratio', 1.000000 ); % m = leaf_setproperty( m, 'useGrowthTensors', false ); % m = leaf_setproperty( m, 'plasticGrowth', false ); % m = leaf_setproperty( m, 'totalinternalrotation', 0.000000 ); % m = leaf_setproperty( m, 'stepinternalrotation', 2.000000 ); % m = leaf_setproperty( m, 'showinternalrotation', false ); % m = leaf_setproperty( m, 'performinternalrotation', false ); % m = leaf_setproperty( m, 'internallyrotated', false ); % m = leaf_setproperty( m, 'maxFEcells', 0 ); % m = leaf_setproperty( m, 'inittotalcells', 0 ); % m = leaf_setproperty( m, 'bioApresplitproc', ); % m = leaf_setproperty( m, 'bioApostsplitproc', ); % m = leaf_setproperty( m, 'maxBioAcells', 0 ); % m = leaf_setproperty( m, 'maxBioBcells', 0 ); % m = leaf_setproperty( m, 'colors', (6 values) ); % m = leaf_setproperty( m, 'colorvariation', 0.050000 ); % m = leaf_setproperty( m, 'colorparams', (12 values) ); % m = leaf_setproperty( m, 'freezing', 0.000000 ); % m = leaf_setproperty( m, 'canceldrift', false ); % m = leaf_setproperty( m, 'mgen_interaction', ); % m = leaf_setproperty( m, 'mgen_interactionName', 'gpt_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowInteraction', true ); % m = leaf_setproperty( m, 'interactionValid', true ); % m = leaf_setproperty( m, 'gaussInfo', (unknown type struct) ); % m = leaf_setproperty( m, 'stitchDFs', [] ); % m = leaf_setproperty( m, 'D', (36 values) ); % m = leaf_setproperty( m, 'C', (36 values) ); % m = leaf_setproperty( m, 'G', (6 values) ); % m = leaf_setproperty( m, 'solver', 'cgs' ); % m = leaf_setproperty( m, 'solverprecision', 'double' ); % m = leaf_setproperty( m, 'solvertolerance', 0.001000 ); % m = leaf_setproperty( m, 'solvertolerancemethod', 'norm' ); % m = leaf_setproperty( m, 'diffusiontolerance', 0.000010 ); % m = leaf_setproperty( m, 'allowsparse', true ); % m = leaf_setproperty( m, 'maxIters', 0 ); % m = leaf_setproperty( m, 'maxsolvetime', 1000.000000 ); % m = leaf_setproperty( m, 'cgiters', 0 ); % m = leaf_setproperty( m, 'simsteps', 0 ); % m = leaf_setproperty( m, 'stepsperrender', 0 ); % m = leaf_setproperty( m, 'growthEnabled', true ); % m = leaf_setproperty( m, 'diffusionEnabled', true ); % m = leaf_setproperty( m, 'flashmovie', false ); % m = leaf_setproperty( m, 'makemovie', false ); % m = leaf_setproperty( m, 'moviefile', ); % m = leaf_setproperty( m, 'codec', 'None' ); % m = leaf_setproperty( m, 'autonamemovie', true ); % m = leaf_setproperty( m, 'overwritemovie', false ); % m = leaf_setproperty( m, 'framesize', [] ); % m = leaf_setproperty( m, 'mov', [] ); % m = leaf_setproperty( m, 'jiggleProportion', 1.000000 ); % m = leaf_setproperty( m, 'cvtperiter', 0.200000 ); % m = leaf_setproperty( m, 'boingNeeded', false ); % m = leaf_setproperty( m, 'initialArea', 0.031326 ); % m = leaf_setproperty( m, 'bendunitlength', 0.176992 ); % m = leaf_setproperty( m, 'targetRelArea', 1.000000 ); % m = leaf_setproperty( m, 'defaultinterp', 'min' ); % m = leaf_setproperty( m, 'readonly', false ); % m = leaf_setproperty( m, 'projectdir', 'D:\ab\Matlab stuff' ); % m = leaf_setproperty( m, 'modelname', 'GPT_tut_interaction_20110530' ); % m = leaf_setproperty( m, 'allowsave', true ); % m = leaf_setproperty( m, 'addedToPath', false ); % m = leaf_setproperty( m, 'bendsplit', 0.300000 ); % m = leaf_setproperty( m, 'usepolfreezebc', false ); % m = leaf_setproperty( m, 'dorsaltop', true ); % m = leaf_setproperty( m, 'defaultazimuth', -45.000000 ); % m = leaf_setproperty( m, 'defaultelevation', 33.750000 ); % m = leaf_setproperty( m, 'defaultroll', 0.000000 ); % m = leaf_setproperty( m, 'defaultViewParams', (unknown type struct) ); % m = leaf_setproperty( m, 'comment', ); % m = leaf_setproperty( m, 'legendTemplate', '%T: %q\n%m' ); % m = leaf_setproperty( m, 'bioAsplitcells', true ); % m = leaf_setproperty( m, 'bioApullin', 0.142857 ); % m = leaf_setproperty( m, 'bioAfakepull', 0.202073 ); % m = leaf_setproperty( m, 'interactive', false ); % m = leaf_setproperty( m, 'coderevision', 0 ); % m = leaf_setproperty( m, 'coderevisiondate', ); % m = leaf_setproperty( m, 'modelrevision', 0 ); % m = leaf_setproperty( m, 'modelrevisiondate', ); % m = leaf_setproperty( m, 'savedrunname', ); % m = leaf_setproperty( m, 'savedrundesc', ); % m = leaf_setproperty( m, 'vxgrad', (108 values) ); % m = leaf_setproperty( m, 'lengthscale', 0.200000 ); end Section 15 % Here you may write any functions of your own, that you want to call from % the interaction function, but never need to call from outside it. % Remember that they do not have access to any variables except those % that you pass as parameters, and cannot change anything except by % returning new values as results. % Whichever section they are called from, they must respect the same % restrictions on what modifications they are allowed to make to the mesh. % For example: Section 16 % function m = do_something( m ) % % Change m in some way. % end % Call it from the main body of the interaction function like this: % m = do_something( m );