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version: "1.0.1" name: matlab-build-simbiology-model description: "Build, modify, and diagram SimBiology models — API reference, helper functions, and layout patterns. Use when constructing or editing models programmatically or visually." license: MathWorks BSD-3-Clause metadata: author: MathWorks version: "1.2"
Build SimBiology Models
API reference, helper functions, and patterns for building, modifying, and diagramming SimBiology models. Works in all MATLAB environments (desktop, headless, batch, remote). Diagram/layout features require the Model Builder app and are activated only when the user requests visual output.
When to Use
- Building or modifying SimBiology models (compartments, species, reactions, parameters, rules, events, doses, observables, variants)
- Opening, saving, or loading models in the Model Builder / Analyzer apps
- Designing or adjusting diagram layouts
- Keywords: "build", "create", "modify", "add compartment/species/reaction", "diagram", "layout"
When NOT to Use
- Simulation and analysis (use
matlab-simulate-simbiology-model) - Parameter fitting, population modeling, NCA (use
matlab-fit-simbiology-model)
Must-Follow Rules
1. Add helper scripts to the MATLAB path first
Run at the start of every session:
addpath(fullfile('<WORKSPACE_ROOT>', '.claude', 'skills', 'matlab-build-simbiology-model', 'scripts'));disp('Helper scripts added to path.')
2. Only open the Builder when needed
Do NOT open the Model Builder by default. Open it when:
- The user explicitly requests a diagram, layout, or visual
- The input is an
.sbprojfile — useloadViaBuilderto preserve
diagram layout/styling (sbioloadproject loses this data)
A model is fully functional without a diagram — it can be simulated, fitted, and analyzed using only the model object on sbioroot.
3. Model construction uses standard SimBiology API
Build models using addcompartment, addspecies, addreaction, etc. directly. This works in all environments: desktop, headless, batch, remote.
model = sbiomodel('MyModel'); disp(model.uuid)comp = addcompartment(model, 'Central', 1);addspecies(comp, 'Drug', 100);addparameter(model, 'ke', 0.1);rx = addreaction(model, 'Central.Drug -> null');kl = addkineticlaw(rx, 'MassAction');kl.ParameterVariableNames = {'ke'};
For standard PK models (1- or 2-compartment with standard dosing and elimination), use references/pk-library-guidance.md as the reference for correct parameterization, naming, and rules. When no diagram is needed, call PKModelDesign directly. When the user requests a diagram, construct the model manually following the same PK library conventions but use addAndPositionCompartment for layout control (see Rule 8b).
4. Write reactions in the biological forward direction
The diagram renders arrows on products and plain lines on reactants (based on the forward direction of the reaction string). Writing a reaction backwards produces incorrect arrows even if the kinetics are equivalent.
% CORRECT — L and R get plain lines, C gets an arrowaddreaction(model, 'cell.L + cell.R <-> cell.C');% WRONG — same kinetics but L and R get arrows (they're "products" now)addreaction(model, 'cell.C <-> cell.L + cell.R');
Guidelines:
- Binding: write
A + B -> C(substrates on left, complex on right) - Degradation/elimination: write
Drug -> null(notnull -> Drug) - Synthesis: write
null -> mRNA(notmRNA -> null) - Transport: write
Source.Drug -> Dest.Drug(source on left)
5. Always use qualified names for species and reaction-scoped parameters
Always reference species and reaction-scoped parameters by their qualified name. If any of the names are not valid MATLAB variable names, surround them with square brackets before building the qualified name.
- Species:
CompartmentName.SpeciesName(e.g.,Central.Drug,Peripheral.[Drug-bound]) - Reaction-scoped parameters:
ReactionName.ParameterName(e.g.,Elimination.ke)
Qualification is always exactly one level deep — the immediate parent compartment only. Multi-level paths like Body.Central.Drug are invalid in reaction strings. This is never ambiguous because compartment names must be globally unique across the entire model (SimBiology enforces this regardless of nesting depth). So Central.Drug is always sufficient.
Compartment naming rules:
- Names must be unique across the entire model — no two compartments can
share a name even at different nesting levels
- If you need hierarchical naming, use underscores:
Body_Central(not
nested compartments both named Central)
- Species names must be unique within a compartment but can repeat across
different compartments (disambiguated by Compartment.Species)
6. Use modern property names (Value, Units, Constant)
SimBiology objects (species, compartments, parameters) share a unified property interface. Always use the modern names:
| Modern | Deprecated (do NOT use) | Applies to | |
|---|---|---|---|
Value | InitialAmount, Capacity | species, compartments, parameters | |
Units | InitialAmountUnits, CapacityUnits, ValueUnits | species, compartments, parameters | |
Constant | ConstantAmount, ConstantCapacity, ConstantValue | species, compartments, parameters |
sp.Value = 100; % NOT sp.InitialAmountsp.Units = 'milligram'; % NOT sp.InitialAmountUnitssp.Constant = false; % NOT sp.ConstantAmountcomp.Value = 1; % NOT comp.Capacitycomp.Units = 'liter'; % NOT comp.CapacityUnitscomp.Constant = true; % NOT comp.ConstantCapacityp.Value = 0.1; % NOT redundant, but never use p.ValueUnits or p.ConstantValuep.Units = '1/hour';p.Constant = true;
7. Close Builder and Analyzer before sbioreset
sbioreset does NOT close these apps, leaving orphaned windows:
try mb = SimBiology.web.desktophandler.getModelBuilder();if ~isempty(mb) && isfield(mb,'webWindow') && isvalid(mb.webWindow), mb.webWindow.close(); endcatch, endtry ma = SimBiology.web.desktophandler.getModelAnalyzer();if ~isempty(ma) && isfield(ma,'webWindow') && isvalid(ma.webWindow), ma.webWindow.close(); endcatch, endpause(1); sbioreset;
8. Diagram rules (only when user requests a diagram)
The following rules apply ONLY when the user asks for a diagram or layout. Skip all of these for pure model construction.
Model size limit (precondition): Layout helpers bail out above 400 total blocks (species + reactions). For large models, skip automated layout — use simple grid positioning instead (reactions at midpoints of connected species).
a. Use `addAndPositionCompartment` for diagram layout
When building a diagram, use addAndPositionCompartment instead of raw addcompartment + setBlock — it atomically creates, positions, and validates each compartment.
% speciesInfo: cell array of structs with .Name, .Value, .PositionspeciesInfo = {struct('Name', 'Drug', 'Value', 100, 'Position', [40, 30, 50, 16]);struct('Name', 'DrugBound', 'Value', 0, 'Position', [140, 30, 100, 16])};[comp, sp] = addAndPositionCompartment(model, 'Central', 1, [20, 20, 280, 80], speciesInfo);% sp is a SimBiology Species ARRAY — index with sp(1), sp(2), NOT sp{1}
b. Diagram build order
- Open the Builder first — the diagram does not exist until the Builder
creates it. All simbio.diagram.* calls and addAndPositionCompartment will fail without this step.
- Plan
[x y w h]positions for ALL compartments up front (leave 80 px gaps minimum) - Build ONE compartment at a time with
addAndPositionCompartment - Add ALL parameters (including rule LHS targets), reactions, rules, doses, events
repositionAllReactions(model)thencheckDiagramLayout(model)— fix until zero violationspositionAncillaryBlocks(model)— positions rule/parameter blocks in a grid to the right
c. Leave 80 px gaps between connected compartments
Inter-compartment reaction nodes (15×15) are placed in these gaps by repositionAllReactions. Without adequate gaps, reaction lines cross through compartment blocks. For compartments with many shared reactions (3+), increase to 120 px.
d. Post-placement validation is mandatory
After placing all blocks:
repositionAllReactions(model);results = checkDiagramLayout(model);if results.nTotal > 0for i = 1:numel(model.Reactions)pos = computeSafeReactionPosition(model, model.Reactions(i));simbio.diagram.setBlock(model.Reactions(i), 'Position', pos);endresults = checkDiagramLayout(model);endpositionAncillaryBlocks(model); % must run LAST, after all objects exist
e. Always use the safe-open pattern for the Builder
Never call simBiologyModelBuilder(model) without first checking isAppOpen('builder'). If open, close it, wait 2s, then reopen.
if isAppOpen('builder')trymb = SimBiology.web.desktophandler.getModelBuilder();if ~isempty(mb) && isfield(mb, 'webWindow') && isvalid(mb.webWindow)mb.webWindow.close();endcatch, endpause(2);end% If Analyzer is open, it already has a model loaded — open Builder% without an argument so it picks up the Analyzer's active model.% Passing a model argument when Analyzer is open can cause conflicts.if isAppOpen('analyzer')simBiologyModelBuilder();elsesimBiologyModelBuilder(model);end
f. Never close the Builder to make modifications
The model handle is on sbioroot — all code works on the live model and updates the diagram in real time. Only close when the user explicitly asks.
Helper Functions (scripts/)
Model construction (always available)
| Function | Signature | Purpose | |
|---|---|---|---|
getModelByUUID | model = getModelByUUID(uuid) | Look up model by UUID |
Diagram & Builder (only when user requests diagram/layout)
| Function | Signature | Purpose | |
|---|---|---|---|
addAndPositionCompartment | [comp,sp] = addAndPositionCompartment(model,name,cap,compPos,speciesInfo,Name=Value) | Create compartment + species and position atomically. `sp` is a Species array — index with `sp(1)`, NOT `sp{1}`. Options: FontWeight ("bold"), TextLocation ("center"), Padding (20), AutoExpand (true), AutoFixPositions (true) | |
checkDiagramLayout | results = checkDiagramLayout(model) | Containment + line-through-block + overlap checks | |
computeSafeReactionPosition | pos = computeSafeReactionPosition(model,rxn) | Crossing-free reaction node position | |
repositionAllReactions | nFixed = repositionAllReactions(model) | Batch-reposition all reactions (up to 3 passes) | |
positionAncillaryBlocks | n = positionAncillaryBlocks(model) | Grid-position rule/parameter blocks to the right of compartments | |
openLiveBuilder | openLiveBuilder(model) | Open Builder with safe-open pattern | |
isAppOpen | tf = isAppOpen(appName) | Check if Builder/Analyzer is open | |
loadViaBuilder | model = loadViaBuilder(filePath) | Load .sbproj preserving diagram | |
saveViaBuilder | saveViaBuilder(filePath) | Save from Builder preserving diagram | |
lineIntersectsRect | hit = lineIntersectsRect(x1,y1,x2,y2,rect) | Shared geometry helper (used internally by layout scripts) |
checkDiagramLayout output
results.nTotal % total violations (must be 0 before presenting)results.nContainment % species outside parent compartmentresults.nLineThrough % connection lines through unrelated blocksresults.nOverlap % blocks <10px apart
API Quick Reference
Model
sbiomodel(name)— create model;model.uuid— unique IDsbioloadproject('file.sbproj')— returns a struct with the model name as field; extract dynamically:
``matlab proj = sbioloadproject('file.sbproj'); fn = fieldnames(proj); model = proj.(fn{1}); ``
copyobj(model)— deep clone (does NOT copy diagram layout);verify(model)— check consistencysbioreset— clear all models (close apps first!)
Compartments
addcompartment(model, name, value)comp.Value,comp.Constant,comp.Units,model.Compartments- Units consistency: If any component has units, ALL components must have units (compartments, species, parameters). Missing units cause
'Dimensional analysis failed'errors at simulation/fit time.
Species
addspecies(comp, name, value)sp.Value,sp.Units,sp.BoundaryCondition,sp.Constantsp.Parent.Name— parent compartment;model.Species
Parameters
addparameter(model, name, value)— model-scopedaddparameter(kineticLaw, name, value)— reaction-scopedp.Value,p.Units,p.Constant,model.Parameters
Reactions
addreaction(model, 'A -> B')— forward;'A <-> B'— reversiblekl = addkineticlaw(rx, 'MassAction'); kl.ParameterVariableNames = {'k1'}(or{'kf','kr'}for reversible)- Multi-compartment:
'Central.Drug -> Peripheral.Drug'
Rules, Events, Doses
addrule(model, 'x = expr', ruleType)—'initialAssignment','repeatedAssignment','rate'- Rule/reaction exclusivity: A species that is the LHS of a rate rule or repeated assignment rule cannot also appear as a reactant or product in a reaction. Use one or the other to govern its dynamics.
- Rule LHS requirement: The LHS must be an existing species, parameter,
or compartment with Constant = false. Create the parameter before the rule (not after as a fix — this ensures diagram blocks exist for layout): ``matlab p = addparameter(model, 'RO', 0); p.Constant = false; addrule(model, 'RO = Complex / (Target + Complex)', 'repeatedAssignment'); ``
addevent(model, 'trigger', {'action1', 'action2'})- Event action requirement: Any parameter modified in an event action
must have Constant = false (parameters default to true): ``matlab p = sbioselect(model, 'Type', 'parameter', 'Name', 'kgrow'); p.Constant = false; addevent(model, 'Tumor.Cancer < 1e6', {'kgrow = kgrow * 0.5'}); ``
sbiodose(name, 'schedule')/sbiodose(name, 'repeat')- Schedule:
.TargetName,.Amount,.Time,.Rate - Repeat:
.TargetName,.Amount,.StartTime,.Interval,.RepeatCount adddose(model, d)/removedose(model, d)
Observables & Variants
addobservable(model, name, expression)— use./and.*for element-wise ops- StatesToLog caveat: If the observable references a constant parameter (e.g.,
'Drug ./ Vd'), add that parameter toStatesToLog— otherwise it logs as NaN. Observables themselves are auto-logged when their dependencies are present (do NOT add observables to StatesToLog — it only accepts species, parameters, and compartments). v = addvariant(model, name)thenaddcontent(v, {'type','name','prop',val})v.Content,getvariant(model, name)
Simulation Config
cs = getconfigset(model, 'active')cs.StopTime,cs.SolverType('ode15s','ode45','sundials')cs.RuntimeOptions.StatesToLog—'all'or handle array
Selection
sbioselect(model, 'Type', type, 'Name', name)- For reactions: use
'Reaction'property (not'Name')
Core Patterns
Model creation (standard — no diagram)
model = sbiomodel('MyModel');disp(model.uuid)comp = addcompartment(model, 'Central', 1);addspecies(comp, 'Drug', 100);addparameter(model, 'ke', 0.1);
Reactions
% MassAction (always use qualified species names)rx = addreaction(model, 'Central.Drug -> null');kl = addkineticlaw(rx, 'MassAction');kl.ParameterVariableNames = {'ke'};% Custom raterx = addreaction(model, 'Central.E + Central.S <-> Central.ES');rx.ReactionRate = 'kf*Central.E*Central.S - kr*Central.ES';% Multi-compartment transferrx = addreaction(model, 'Central.Drug -> Peripheral.Drug');% Species with invalid MATLAB variable namesrx = addreaction(model, 'Central.[Drug-bound] -> Central.[Drug-free]');
Removing components
delete(sbioselect(model, 'Type', 'species', 'Name', 'Drug'));delete(sbioselect(model, 'Type', 'reaction', 'Reaction', 'Drug -> null'));removedose(model, model.Doses(1)); % doses use removedose, not delete
Doses
% Bolusd = sbiodose('Dose', 'schedule');d.TargetName = 'Drug'; d.Amount = 100; d.Time = 0;adddose(model, d);% Repeat dosed = sbiodose('RepeatDose', 'repeat');d.TargetName = 'Drug'; d.Amount = 50;d.StartTime = 0; d.Interval = 8; d.RepeatCount = 3;adddose(model, d);
Events, variants, observables
% Event modifying a parameter — mark non-constant firstp = sbioselect(model, 'Type', 'parameter', 'Name', 'ke');p.Constant = false;ev = addevent(model, 'time >= 10', {'ke = ke * 2'}); ev.Name = 'EnzymeInduction';% Event modifying a species (species default Constant=false — no extra step)ev = addevent(model, 'time >= 10', {'Drug = 50'}); ev.Name = 'RescueDose';v = addvariant(model, 'HighDose'); addcontent(v, {'parameter','ke','Value',0.5});obs = addobservable(model, 'DrugConc', 'Drug ./ Central');
Saving Models
- Standard:
save('mymodel.mat', 'model')/loaded = load('mymodel.mat'); model = loaded.model;
Do NOT use sbiosaveproject (deprecated, requires base workspace hacks).
- With diagram (`.sbproj`):
saveViaBuilder('name.sbproj')/loadViaBuilder(path)(requires Builder open) - Switching models: ask user to save first → close Builder →
pause(2)→simBiologyModelBuilder(newModel) - See
references/app-lifecycle-guidance.mdfor full switching/coordination patterns.
Diagram Basics (only when user requests diagram/layout)
Coordinate system
Position = [x y width height] where (x, y) is top-left corner.
Standard block sizes
| Block Type | Default Size | Notes | |
|---|---|---|---|
| Species | [50, 16] | Scale width: <=5 chars → 50, 6-12 → 100, 13+ → 130 | |
| Reaction | [15, 15] | ||
| Rule | [20, 20] |
Compartment sizing from content
| Species Count | Size | Notes | |
|---|---|---|---|
| 1 | 160 x 100 | Single species, centered | |
| 2 (isolated) | 240 x 170 | Vertically stacked | |
| 2 (in chain) | 400 x 100 | Side by side | |
| 3-5 | 160+n*50 x 100+n*35 | Scale to content | |
| 6+ | 240+n*50 x 220+n*35 | Row layout, multiple rows if needed |
Internal padding: 30 px minimum on all sides.
Row-based species placement (3+ species)
Distribute species evenly in a horizontal row at y + height/2 - 8, with 40 px margin from compartment edges. Scale species width by name length: <=5 chars → 50, 6-12 → 100, 13+ → 130.
Species ordering by connection direction
When a compartment has 2+ species that connect to different external compartments, order them so each species faces its connections. This prevents connection lines from crossing through sibling species.
- Horizontal neighbors: place the species connecting LEFT on the left
edge, species connecting RIGHT on the right edge.
- Vertical stacking: place the species connecting UP/LEFT on top, the
species connecting DOWN/RIGHT on bottom.
- Example: Blood has Neutrophil (connects left to Transit3) and
Lymphocyte (connects upper-left to Spleen). Put Lymphocyte on top and Neutrophil on bottom so lines don't cross.
Layout rules
Hard requirements:
- No block overlap (except species inside compartments)
- Labels visible — not overlapping other blocks
- Horizontal/vertical alignment for same-tier compartments
- Inter-compartment reactions outside both compartments (in the gap)
- No connection lines through unrelated blocks
- 50 px minimum reaction-to-species distance
Preferred placement:
- Elimination/degradation reactions inside their parent compartment (communicates the process occurs locally, not across a boundary)
Flow direction by model type
| Model Type | Flow Direction | |
|---|---|---|
| PKPD | PD upper-left, PK lower-right | |
| Metabolic | Top-to-bottom | |
| PBPK | Circulation-based columns | |
| Simple PK | Left-to-right or diagonal |
References
Load on demand for detailed guidance:
references/layout-strategy-guidance.md— strategy selection, pre-build checklist, 7 recipesreferences/pbpk-layout-guidance.md— PBPK circulation and ACAT chain layoutsreferences/evacuation-procedure-guidance.md— 5-phase rearrangement for existing modelsreferences/api-cheatsheet-guidance.md— full simbio.diagram API (getBlock, setBlock, lines, clones)references/app-lifecycle-guidance.md— switching models, Analyzer coordinationreferences/diagram-styling-guidance.md— colors, fonts, cloning mechanicsreferences/pk-library-guidance.md— PKModelDesign for standard PK models
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