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eclipse / stem / org.eclipse.stem / f8606de3564b87b4fdb3c5b5b27f3120a22d8ad3 / . / modelgen / org.eclipse.stem.model.codegen / xtend-gen / org / eclipse / stem / model / codegen / xtext / ExpressionsClassGenerator.java
blob: 82697d3caa80605a9cfd71273aa05126b82d5d14 [file] [log] [blame]
package org.eclipse.stem.model.codegen.xtext;
import com.google.common.base.Objects;
import com.google.common.collect.Iterables;
import java.util.Arrays;
import java.util.List;
import java.util.Set;
import org.eclipse.emf.codegen.ecore.genmodel.GenFeature;
import org.eclipse.emf.codegen.ecore.genmodel.GenPackage;
import org.eclipse.emf.common.notify.Notifier;
import org.eclipse.emf.common.util.EList;
import org.eclipse.emf.common.util.TreeIterator;
import org.eclipse.emf.ecore.EObject;
import org.eclipse.emf.ecore.resource.Resource;
import org.eclipse.stem.model.codegen.xtext.ModelExpressionGenerator;
import org.eclipse.stem.model.ctdl.ContextSensitiveResourceWrapper;
import org.eclipse.stem.model.ctdl.ctdl.AbsoluteCompartmentValueReference;
import org.eclipse.stem.model.ctdl.ctdl.Block;
import org.eclipse.stem.model.ctdl.ctdl.BooleanLiteral;
import org.eclipse.stem.model.ctdl.ctdl.CompartmentTransitionDefinitions;
import org.eclipse.stem.model.ctdl.ctdl.DefStatement;
import org.eclipse.stem.model.ctdl.ctdl.Div;
import org.eclipse.stem.model.ctdl.ctdl.Evaluation;
import org.eclipse.stem.model.ctdl.ctdl.Expression;
import org.eclipse.stem.model.ctdl.ctdl.ExternalFunctionReference;
import org.eclipse.stem.model.ctdl.ctdl.FunctionCall;
import org.eclipse.stem.model.ctdl.ctdl.FunctionReference;
import org.eclipse.stem.model.ctdl.ctdl.GlobalVariableReference;
import org.eclipse.stem.model.ctdl.ctdl.LocalVariableReference;
import org.eclipse.stem.model.ctdl.ctdl.MetamodelResource;
import org.eclipse.stem.model.ctdl.ctdl.Minus;
import org.eclipse.stem.model.ctdl.ctdl.ModelParamReference;
import org.eclipse.stem.model.ctdl.ctdl.Multi;
import org.eclipse.stem.model.ctdl.ctdl.NumberLiteral;
import org.eclipse.stem.model.ctdl.ctdl.Plus;
import org.eclipse.stem.model.ctdl.ctdl.PrimaryExpression;
import org.eclipse.stem.model.ctdl.ctdl.RelativeCompartmentValueReference;
import org.eclipse.stem.model.ctdl.ctdl.ReturnStatement;
import org.eclipse.stem.model.ctdl.ctdl.ScopedVariableReference;
import org.eclipse.stem.model.ctdl.ctdl.StringLiteral;
import org.eclipse.stem.model.ctdl.ctdl.TransitionBlock;
import org.eclipse.stem.model.ctdl.ctdl.VariableReference;
import org.eclipse.stem.model.ctdl.functions.ExternalFunctionDefinition;
import org.eclipse.stem.model.ctdl.functions.FunctionArgumentReference;
import org.eclipse.stem.model.ctdl.functions.JavaMethodArgument;
import org.eclipse.stem.model.ctdl.functions.SystemArgumentReference;
import org.eclipse.stem.model.ctdl.serializer.ITypeSerializer;
import org.eclipse.stem.model.ctdl.serializer.TypeSerializerFactory;
import org.eclipse.stem.model.metamodel.Compartment;
import org.eclipse.stem.model.metamodel.ModelParam;
import org.eclipse.stem.model.metamodel.Transition;
import org.eclipse.xtend2.lib.StringConcatenation;
import org.eclipse.xtext.generator.IFileSystemAccess;
import org.eclipse.xtext.resource.XtextResource;
import org.eclipse.xtext.xbase.lib.IterableExtensions;
import org.eclipse.xtext.xbase.lib.IteratorExtensions;
import org.eclipse.xtext.xbase.lib.StringExtensions;
@SuppressWarnings("all")
public class ExpressionsClassGenerator extends ModelExpressionGenerator {
public void doGenerate(final List<XtextResource> resources, final IFileSystemAccess fsa) {
String _name = this.modelGenClass.getName();
String fileName = (_name + "Expressions.java");
CharSequence _build = this.build(resources);
fsa.generateFile(fileName, _build);
}
public void doGenerate(final Resource resource, final IFileSystemAccess fsa) {
TreeIterator<EObject> _allContents = resource.getAllContents();
Iterable<EObject> _iterable = IteratorExtensions.<EObject>toIterable(_allContents);
Iterable<CompartmentTransitionDefinitions> _filter = Iterables.<CompartmentTransitionDefinitions>filter(_iterable, CompartmentTransitionDefinitions.class);
CompartmentTransitionDefinitions ctd = IterableExtensions.<CompartmentTransitionDefinitions>head(_filter);
MetamodelResource mm = ctd.getMetamodel();
Transition trans = mm.getTransition();
Compartment _source = trans.getSource();
String _name = _source.getName();
String _plus = (_name + "_");
Compartment _target = trans.getTarget();
String _name_1 = _target.getName();
String fname = (_plus + _name_1);
CharSequence _compile = this.compile(resource);
fsa.generateFile(fname, _compile);
}
public CharSequence build(final List<XtextResource> r) {
StringConcatenation _builder = new StringConcatenation();
_builder.append("package ");
GenPackage _genPackage = this.modelGenClass.getGenPackage();
String _classPackageName = _genPackage.getClassPackageName();
_builder.append(_classPackageName, "");
_builder.append(";");
CharSequence pkg = _builder;
StringConcatenation _builder_1 = new StringConcatenation();
_builder_1.append("\t\t");
_builder_1.append("/**");
_builder_1.newLine();
_builder_1.append("\t\t ");
_builder_1.append("* Generated expressions class for ");
String _name = this.modelGenClass.getName();
_builder_1.append(_name, " ");
_builder_1.append(".");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t\t ");
_builder_1.append("* DO NOT EDIT DIRECTLY. Use extended class and override methods for transitions as desired.");
_builder_1.newLine();
_builder_1.append("\t\t ");
_builder_1.append("* @generated");
_builder_1.newLine();
_builder_1.append("\t\t ");
_builder_1.append("*/");
_builder_1.newLine();
_builder_1.append("\t\t");
_builder_1.append("public class ");
String _name_1 = this.modelGenClass.getName();
_builder_1.append(_name_1, " ");
_builder_1.append("Expressions {");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t");
_builder_1.append("public void calculate(double t, long timeDelta, ");
String _importedName = this.getImportedName("org.eclipse.stem.core.model.STEMTime");
_builder_1.append(_importedName, " ");
_builder_1.append(" time, ");
String _importGenClassInterface = this.importGenClassInterface(this.modelGenClass);
_builder_1.append(_importGenClassInterface, " ");
_builder_1.append(" model, ");
String _importGenClassInterface_1 = this.importGenClassInterface(this.labelGenClass);
_builder_1.append(_importGenClassInterface_1, " ");
_builder_1.append(" label, ");
String _importGenClassInterface_2 = this.importGenClassInterface(this.labelValueGenClass);
_builder_1.append(_importGenClassInterface_2, " ");
_builder_1.append(" labelValue, ");
String _importedName_1 = this.getImportedName("org.eclipse.stem.core.graph.Node");
_builder_1.append(_importedName_1, " ");
_builder_1.append(" node, ");
String _importGenClassInterface_3 = this.importGenClassInterface(this.labelValueGenClass);
_builder_1.append(_importGenClassInterface_3, " ");
_builder_1.append(" deltaValue) {");
_builder_1.newLineIfNotEmpty();
{
Set<Compartment> _affectedCompartments = this.getAffectedCompartments(r);
for(final Compartment s : _affectedCompartments) {
_builder_1.append("\t\t");
_builder_1.append("double delta");
String _accessorName = this.getAccessorName(s);
_builder_1.append(_accessorName, " ");
_builder_1.append(" = 0.0;");
_builder_1.newLineIfNotEmpty();
}
}
_builder_1.append("\t\t");
_builder_1.newLine();
{
Iterable<ContextSensitiveResourceWrapper> _filter = Iterables.<ContextSensitiveResourceWrapper>filter(r, ContextSensitiveResourceWrapper.class);
for(final ContextSensitiveResourceWrapper s_1 : _filter) {
_builder_1.append("\t\t");
_builder_1.append("// Calculate delta for transition ");
Transition _transition = s_1.getTransition();
String _formattedName = this.getFormattedName(_transition);
_builder_1.append(_formattedName, " ");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t\t");
_builder_1.append("double generated_");
Transition _transition_1 = s_1.getTransition();
String _methodName = this.getMethodName(_transition_1);
_builder_1.append(_methodName, " ");
_builder_1.append(" = ");
Transition _transition_2 = s_1.getTransition();
String _methodName_1 = this.getMethodName(_transition_2);
_builder_1.append(_methodName_1, " ");
_builder_1.append("(t,timeDelta,time,model,label,labelValue,label.getNode());");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t\t");
_builder_1.append("delta");
Transition _transition_3 = s_1.getTransition();
Compartment _source = _transition_3.getSource();
String _accessorName_1 = this.getAccessorName(_source);
_builder_1.append(_accessorName_1, " ");
_builder_1.append(" -= generated_");
Transition _transition_4 = s_1.getTransition();
String _methodName_2 = this.getMethodName(_transition_4);
_builder_1.append(_methodName_2, " ");
_builder_1.append(";");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t\t");
_builder_1.append("delta");
Transition _transition_5 = s_1.getTransition();
Compartment _target = _transition_5.getTarget();
String _accessorName_2 = this.getAccessorName(_target);
_builder_1.append(_accessorName_2, " ");
_builder_1.append(" += generated_");
Transition _transition_6 = s_1.getTransition();
String _methodName_3 = this.getMethodName(_transition_6);
_builder_1.append(_methodName_3, " ");
_builder_1.append(";");
_builder_1.newLineIfNotEmpty();
{
Transition _transition_7 = s_1.getTransition();
EList<Compartment> _forIncidence = _transition_7.getForIncidence();
for(final Compartment c : _forIncidence) {
_builder_1.append("\t\t");
_builder_1.append("\t");
_builder_1.append("delta");
String _accessorName_3 = this.getAccessorName(c);
_builder_1.append(_accessorName_3, " ");
_builder_1.append(" += generated_");
Transition _transition_8 = s_1.getTransition();
String _methodName_4 = this.getMethodName(_transition_8);
_builder_1.append(_methodName_4, " ");
_builder_1.append(";");
_builder_1.newLineIfNotEmpty();
}
}
_builder_1.append("\t\t");
_builder_1.newLine();
_builder_1.append("\t\t");
_builder_1.append("\t");
_builder_1.append("// Stochastic exchange for ");
Transition _transition_9 = s_1.getTransition();
String _formattedName_1 = this.getFormattedName(_transition_9);
_builder_1.append(_formattedName_1, " ");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t\t");
_builder_1.append("\t");
String _importedName_2 = this.getImportedName("org.eclipse.stem.core.graph.Exchange");
_builder_1.append(_importedName_2, " ");
_builder_1.append(" exchange_");
Transition _transition_10 = s_1.getTransition();
String _methodName_5 = this.getMethodName(_transition_10);
_builder_1.append(_methodName_5, " ");
_builder_1.append(" = (");
String _importedName_3 = this.getImportedName("org.eclipse.stem.core.graph.Exchange");
_builder_1.append(_importedName_3, " ");
_builder_1.append(")");
String _importedName_4 = this.getImportedName("org.eclipse.stem.core.graph.ExchangePool");
_builder_1.append(_importedName_4, " ");
_builder_1.append(".POOL.get();");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t\t");
_builder_1.append("\t");
_builder_1.append("//deltaValue.getDepartures().add(exchange_");
Transition _transition_11 = s_1.getTransition();
String _methodName_6 = this.getMethodName(_transition_11);
_builder_1.append(_methodName_6, " ");
_builder_1.append(");");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t\t");
_builder_1.append("\t");
_builder_1.append("exchange_");
Transition _transition_12 = s_1.getTransition();
String _methodName_7 = this.getMethodName(_transition_12);
_builder_1.append(_methodName_7, " ");
_builder_1.append(".setType(");
String _importedName_5 = this.getImportedName("org.eclipse.stem.core.graph.ExchangeType");
_builder_1.append(_importedName_5, " ");
_builder_1.append(".COMPARTMENT_TRANSITION);");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t\t");
_builder_1.append("\t");
_builder_1.append("exchange_");
Transition _transition_13 = s_1.getTransition();
String _methodName_8 = this.getMethodName(_transition_13);
_builder_1.append(_methodName_8, " ");
_builder_1.append(".setSource(");
Transition _transition_14 = s_1.getTransition();
Compartment _source_1 = _transition_14.getSource();
GenFeature _genFeature = this.getGenFeature(_source_1);
String _packageAccessorName = this.getPackageAccessorName(_genFeature);
_builder_1.append(_packageAccessorName, " ");
_builder_1.append(");");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t\t");
_builder_1.append("\t");
_builder_1.append("exchange_");
Transition _transition_15 = s_1.getTransition();
String _methodName_9 = this.getMethodName(_transition_15);
_builder_1.append(_methodName_9, " ");
_builder_1.append(".setTarget(");
Transition _transition_16 = s_1.getTransition();
Compartment _target_1 = _transition_16.getTarget();
GenFeature _genFeature_1 = this.getGenFeature(_target_1);
String _packageAccessorName_1 = this.getPackageAccessorName(_genFeature_1);
_builder_1.append(_packageAccessorName_1, " ");
_builder_1.append(");");
_builder_1.newLineIfNotEmpty();
_builder_1.append("\t\t");
_builder_1.append("\t");
_builder_1.append("exchange_");
Transition _transition_17 = s_1.getTransition();
String _methodName_10 = this.getMethodName(_transition_17);
_builder_1.append(_methodName_10, " ");
_builder_1.append(".setCount(generated_");
Transition _transition_18 = s_1.getTransition();
String _methodName_11 = this.getMethodName(_transition_18);
_builder_1.append(_methodName_11, " ");
_builder_1.append(");");
_builder_1.newLineIfNotEmpty();
{
Transition _transition_19 = s_1.getTransition();
EList<Compartment> _forIncidence_1 = _transition_19.getForIncidence();
for(final Compartment c_1 : _forIncidence_1) {
_builder_1.append("\t\t");
_builder_1.append("\t");
_builder_1.append("exchange_");
Transition _transition_20 = s_1.getTransition();
String _methodName_12 = this.getMethodName(_transition_20);
_builder_1.append(_methodName_12, " ");
_builder_1.append(".getForIncidence().add(");
GenFeature _genFeature_2 = this.getGenFeature(c_1);
String _packageAccessorName_2 = this.getPackageAccessorName(_genFeature_2);
_builder_1.append(_packageAccessorName_2, " ");
_builder_1.append(");");
_builder_1.newLineIfNotEmpty();
}
}
}
}
_builder_1.append("\t\t");
_builder_1.newLine();
{
Set<Compartment> _affectedCompartments_1 = this.getAffectedCompartments(r);
for(final Compartment s_2 : _affectedCompartments_1) {
_builder_1.append("\t\t");
_builder_1.append("deltaValue.set");
String _accessorName_4 = this.getAccessorName(s_2);
_builder_1.append(_accessorName_4, " ");
_builder_1.append("(delta");
String _accessorName_5 = this.getAccessorName(s_2);
_builder_1.append(_accessorName_5, " ");
_builder_1.append(");");
_builder_1.newLineIfNotEmpty();
}
}
_builder_1.append("\t");
_builder_1.append("}");
_builder_1.newLine();
_builder_1.append("\t\t\t");
_builder_1.newLine();
{
for(final XtextResource e : r) {
CharSequence _compile = this.compile(e);
_builder_1.append(_compile, "");
_builder_1.newLineIfNotEmpty();
}
}
_builder_1.append("} //");
CharSequence body = _builder_1;
String imports = this.getSortedImports();
StringConcatenation _builder_2 = new StringConcatenation();
_builder_2.append(pkg, "");
_builder_2.newLineIfNotEmpty();
_builder_2.newLine();
_builder_2.append(imports, "");
_builder_2.newLineIfNotEmpty();
_builder_2.newLine();
_builder_2.append(body, "");
return ((CharSequence) _builder_2);
}
protected CharSequence _compile(final Resource r) {
StringConcatenation _builder = new StringConcatenation();
TreeIterator<EObject> _allContents = r.getAllContents();
Iterable<EObject> _iterable = IteratorExtensions.<EObject>toIterable(_allContents);
Iterable<TransitionBlock> _filter = Iterables.<TransitionBlock>filter(_iterable, TransitionBlock.class);
TransitionBlock _head = IterableExtensions.<TransitionBlock>head(_filter);
CharSequence _compile = this.compile(_head);
_builder.append(_compile, "");
return _builder;
}
protected CharSequence _compile(final TransitionBlock t) {
EObject _eContainer = t.eContainer();
CompartmentTransitionDefinitions ctd = ((CompartmentTransitionDefinitions) _eContainer);
MetamodelResource _metamodel = ctd.getMetamodel();
Transition transition = _metamodel.getTransition();
StringConcatenation _builder = new StringConcatenation();
_builder.append("/**");
_builder.newLine();
_builder.append(" ");
_builder.append("* Computes delta for transition ");
Compartment _source = transition.getSource();
String _name = _source.getName();
_builder.append(_name, " ");
_builder.append(" -> ");
Compartment _target = transition.getTarget();
String _name_1 = _target.getName();
_builder.append(_name_1, " ");
_builder.newLineIfNotEmpty();
_builder.append(" ");
_builder.append("* @generated");
_builder.newLine();
_builder.append(" ");
_builder.append("*/");
_builder.newLine();
_builder.append("protected double ");
Compartment _source_1 = transition.getSource();
String _name_2 = _source_1.getName();
_builder.append(_name_2, "");
_builder.append("_");
Compartment _target_1 = transition.getTarget();
String _name_3 = _target_1.getName();
_builder.append(_name_3, "");
_builder.append(" (double t, long timeDelta, ");
String _importedName = this.getImportedName("org.eclipse.stem.core.model.STEMTime");
_builder.append(_importedName, "");
_builder.append(" time, ");
String _importGenClassInterface = this.importGenClassInterface(this.modelGenClass);
_builder.append(_importGenClassInterface, "");
_builder.append(" model, ");
String _importGenClassInterface_1 = this.importGenClassInterface(this.labelGenClass);
_builder.append(_importGenClassInterface_1, "");
_builder.append(" label, ");
String _importGenClassInterface_2 = this.importGenClassInterface(this.labelValueGenClass);
_builder.append(_importGenClassInterface_2, "");
_builder.append(" labelValue, ");
String _importedName_1 = this.getImportedName("org.eclipse.stem.core.graph.Node");
_builder.append(_importedName_1, "");
_builder.append(" node) {");
_builder.newLineIfNotEmpty();
{
Block _block = t.getBlock();
EList<DefStatement> _statements = _block.getStatements();
for(final DefStatement s : _statements) {
CharSequence _compile = this.compile(s);
_builder.append(_compile, "");
}
}
_builder.newLineIfNotEmpty();
_builder.append("return ");
Block _block_1 = t.getBlock();
ReturnStatement _ret = _block_1.getRet();
CharSequence _compile_1 = this.compile(_ret);
_builder.append(_compile_1, "");
_builder.append(";");
_builder.newLineIfNotEmpty();
_builder.append("}");
_builder.newLine();
return ((CharSequence) _builder);
}
protected CharSequence _compile(final DefStatement d) {
StringConcatenation _builder = new StringConcatenation();
_builder.append("double ");
String _varname = d.getVarname();
_builder.append(_varname, "");
_builder.append("=");
Evaluation _expr = d.getExpr();
CharSequence _compile = this.compile(_expr);
_builder.append(_compile, "");
_builder.append(";");
return _builder;
}
protected CharSequence _compile(final Evaluation e) {
StringConcatenation _builder = new StringConcatenation();
Expression _expression = e.getExpression();
CharSequence _compile = this.compile(_expression, Double.TYPE);
_builder.append(_compile, "");
return _builder;
}
protected CharSequence _compile(final PrimaryExpression pe, final Class<? extends Object> expectedType) {
String neg = "";
boolean _isNegate = pe.isNegate();
if (_isNegate) {
neg = "-";
}
StringConcatenation _builder = new StringConcatenation();
_builder.append("(");
_builder.append(neg, "");
Expression _exp = pe.getExp();
CharSequence _compile = this.compile(_exp, expectedType);
_builder.append(_compile, "");
_builder.append(")");
_builder.newLineIfNotEmpty();
return ((CharSequence) _builder);
}
protected CharSequence _compile(final Plus p, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
_builder.append("(");
Expression _left = p.getLeft();
CharSequence _compile = this.compile(_left, Double.TYPE);
_builder.append(_compile, "");
_builder.append("+");
Expression _right = p.getRight();
CharSequence _compile_1 = this.compile(_right, Double.TYPE);
_builder.append(_compile_1, "");
_builder.append(")");
return _builder;
}
protected CharSequence _compile(final Minus m, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
_builder.append("(");
Expression _left = m.getLeft();
CharSequence _compile = this.compile(_left, Double.TYPE);
_builder.append(_compile, "");
_builder.append("-");
Expression _right = m.getRight();
CharSequence _compile_1 = this.compile(_right, Double.TYPE);
_builder.append(_compile_1, "");
_builder.append(")");
return _builder;
}
protected CharSequence _compile(final Multi m, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
Expression _left = m.getLeft();
CharSequence _compile = this.compile(_left, Double.TYPE);
_builder.append(_compile, "");
_builder.append("*");
Expression _right = m.getRight();
CharSequence _compile_1 = this.compile(_right, Double.TYPE);
_builder.append(_compile_1, "");
return _builder;
}
protected CharSequence _compile(final Div d, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
Expression _left = d.getLeft();
CharSequence _compile = this.compile(_left, Double.TYPE);
_builder.append(_compile, "");
_builder.append("/");
Expression _right = d.getRight();
CharSequence _compile_1 = this.compile(_right, Double.TYPE);
_builder.append(_compile_1, "");
return _builder;
}
protected CharSequence _compileReference(final GlobalVariableReference rf, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
String _name = rf.getName();
_builder.append(_name, "");
return _builder;
}
protected CharSequence _compileReference(final LocalVariableReference rf, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
String _name = rf.getName();
_builder.append(_name, "");
return _builder;
}
protected CharSequence _compileReference(final AbsoluteCompartmentValueReference rf, final Class<? extends Object> expectedType) {
ITypeSerializer serializer = TypeSerializerFactory.getSerializer(rf, expectedType, this.labelValueGenClass);
boolean _notEquals = (!Objects.equal(serializer, null));
if (_notEquals) {
return serializer.serialize();
}
StringConcatenation _builder = new StringConcatenation();
_builder.append("labelValue.get");
Compartment _obj = rf.getObj();
String _name = _obj.getName();
String _firstUpper = StringExtensions.toFirstUpper(_name);
_builder.append(_firstUpper, "");
_builder.append("()");
return ((CharSequence) _builder);
}
protected CharSequence _compileReference(final RelativeCompartmentValueReference rf, final Class<? extends Object> expectedType) {
ITypeSerializer serializer = TypeSerializerFactory.getSerializer(rf, expectedType, this.labelValueGenClass);
boolean _notEquals = (!Objects.equal(serializer, null));
if (_notEquals) {
return serializer.serialize();
}
StringConcatenation _builder = new StringConcatenation();
_builder.append("labelValue.get");
Compartment _obj = rf.getObj();
String _name = _obj.getName();
String _firstUpper = StringExtensions.toFirstUpper(_name);
_builder.append(_firstUpper, "");
_builder.append("()/labelValue.getPopulationCount()");
return ((CharSequence) _builder);
}
protected CharSequence _compileReference(final ModelParamReference rf, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
_builder.append("model.get");
ModelParam _obj = rf.getObj();
String _name = _obj.getName();
String _firstUpper = StringExtensions.toFirstUpper(_name);
_builder.append(_firstUpper, "");
_builder.append("()");
return _builder;
}
protected CharSequence _compile(final VariableReference rf, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
ScopedVariableReference _ref = rf.getRef();
CharSequence _compileReference = this.compileReference(_ref, expectedType);
_builder.append(_compileReference, "");
return _builder;
}
protected CharSequence _compile(final NumberLiteral nl, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
double _value = nl.getValue();
_builder.append(_value, "");
return _builder;
}
protected CharSequence _compile(final StringLiteral sl, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
_builder.append("\"");
String _value = sl.getValue();
_builder.append(_value, "");
_builder.append("\"");
return _builder;
}
protected CharSequence _compile(final BooleanLiteral bl, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
boolean _isValue = bl.isValue();
_builder.append(_isValue, "");
return _builder;
}
protected CharSequence _compile(final Expression exp, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
Expression _exp = exp.getExp();
CharSequence _compile = this.compile(_exp, expectedType);
_builder.append(_compile, "");
return _builder;
}
protected CharSequence _compileArgument(final SystemArgumentReference arg, final FunctionCall fc) {
StringConcatenation _builder = new StringConcatenation();
String _mapsFrom = arg.getMapsFrom();
_builder.append(_mapsFrom, "");
return _builder;
}
protected CharSequence _compileArgument(final FunctionArgumentReference arg, final FunctionCall fc) {
StringConcatenation _builder = new StringConcatenation();
EList<Expression> _args = fc.getArgs();
int _argIndex = arg.getArgIndex();
Expression _get = _args.get(_argIndex);
Class<? extends Object> _javaType = arg.getJavaType();
CharSequence _compile = this.compile(_get, _javaType);
_builder.append(_compile, "");
return _builder;
}
protected CharSequence _compileFunction(final ExternalFunctionReference fcr, final FunctionCall fc) {
StringConcatenation _builder = new StringConcatenation();
ExternalFunctionDefinition _func = fcr.getFunc();
String _className = _func.getClassName();
String _importedName = this.getImportedName(_className);
_builder.append(_importedName, "");
_builder.append(".");
ExternalFunctionDefinition _func_1 = fcr.getFunc();
String _methodName = _func_1.getMethodName();
_builder.append(_methodName, "");
_builder.append("(");
_builder.newLineIfNotEmpty();
{
ExternalFunctionDefinition _func_2 = fcr.getFunc();
EList<JavaMethodArgument> _javaMethodArguments = _func_2.getJavaMethodArguments();
for(final JavaMethodArgument arg : _javaMethodArguments) {
_builder.append("\t\t");
{
ExternalFunctionDefinition _func_3 = fcr.getFunc();
EList<JavaMethodArgument> _javaMethodArguments_1 = _func_3.getJavaMethodArguments();
JavaMethodArgument _head = IterableExtensions.<JavaMethodArgument>head(_javaMethodArguments_1);
boolean _notEquals = (!Objects.equal(arg, _head));
if (_notEquals) {
_builder.append(",");
}
}
_builder.newLineIfNotEmpty();
_builder.append("\t\t");
CharSequence _compileArgument = this.compileArgument(arg, fc);
_builder.append(_compileArgument, " ");
_builder.newLineIfNotEmpty();
_builder.append("\t\t");
}
}
_builder.append(")");
return _builder;
}
protected CharSequence _compileFunction(final FunctionReference fcr, final FunctionCall fc) {
StringConcatenation _builder = new StringConcatenation();
String _name = fcr.getName();
_builder.append(_name, "");
_builder.append("(");
{
EList<Expression> _args = fc.getArgs();
for(final Expression e : _args) {
_builder.append(" ");
_builder.newLineIfNotEmpty();
{
EList<Expression> _args_1 = fc.getArgs();
Expression _head = IterableExtensions.<Expression>head(_args_1);
boolean _equals = Objects.equal(e, _head);
if (_equals) {
CharSequence _compile = this.compile(e);
_builder.append(_compile, "");
_builder.newLineIfNotEmpty();
} else {
_builder.append(",");
CharSequence _compile_1 = this.compile(e);
_builder.append(_compile_1, "");
_builder.newLineIfNotEmpty();
}
}
_builder.append("\t\t\t");
}
}
_builder.append(")");
return _builder;
}
protected CharSequence _compile(final FunctionCall fc, final Class<? extends Object> expectedType) {
StringConcatenation _builder = new StringConcatenation();
FunctionReference _ref = fc.getRef();
CharSequence _compileFunction = this.compileFunction(_ref, fc);
_builder.append(_compileFunction, "");
return _builder;
}
public CharSequence compile(final Notifier e) {
if (e instanceof Evaluation) {
return _compile((Evaluation)e);
} else if (e instanceof DefStatement) {
return _compile((DefStatement)e);
} else if (e instanceof TransitionBlock) {
return _compile((TransitionBlock)e);
} else if (e instanceof Resource) {
return _compile((Resource)e);
} else {
throw new IllegalArgumentException("Unhandled parameter types: " +
Arrays.<Object>asList(e).toString());
}
}
public CharSequence compile(final Expression bl, final Class<? extends Object> expectedType) {
if (bl instanceof BooleanLiteral) {
return _compile((BooleanLiteral)bl, expectedType);
} else if (bl instanceof Div) {
return _compile((Div)bl, expectedType);
} else if (bl instanceof FunctionCall) {
return _compile((FunctionCall)bl, expectedType);
} else if (bl instanceof Minus) {
return _compile((Minus)bl, expectedType);
} else if (bl instanceof Multi) {
return _compile((Multi)bl, expectedType);
} else if (bl instanceof NumberLiteral) {
return _compile((NumberLiteral)bl, expectedType);
} else if (bl instanceof Plus) {
return _compile((Plus)bl, expectedType);
} else if (bl instanceof PrimaryExpression) {
return _compile((PrimaryExpression)bl, expectedType);
} else if (bl instanceof StringLiteral) {
return _compile((StringLiteral)bl, expectedType);
} else if (bl instanceof VariableReference) {
return _compile((VariableReference)bl, expectedType);
} else if (bl != null) {
return _compile(bl, expectedType);
} else {
throw new IllegalArgumentException("Unhandled parameter types: " +
Arrays.<Object>asList(bl, expectedType).toString());
}
}
public CharSequence compileReference(final ScopedVariableReference rf, final Class<? extends Object> expectedType) {
if (rf instanceof AbsoluteCompartmentValueReference) {
return _compileReference((AbsoluteCompartmentValueReference)rf, expectedType);
} else if (rf instanceof RelativeCompartmentValueReference) {
return _compileReference((RelativeCompartmentValueReference)rf, expectedType);
} else if (rf instanceof GlobalVariableReference) {
return _compileReference((GlobalVariableReference)rf, expectedType);
} else if (rf instanceof LocalVariableReference) {
return _compileReference((LocalVariableReference)rf, expectedType);
} else if (rf instanceof ModelParamReference) {
return _compileReference((ModelParamReference)rf, expectedType);
} else {
throw new IllegalArgumentException("Unhandled parameter types: " +
Arrays.<Object>asList(rf, expectedType).toString());
}
}
public CharSequence compileArgument(final JavaMethodArgument arg, final FunctionCall fc) {
if (arg instanceof FunctionArgumentReference) {
return _compileArgument((FunctionArgumentReference)arg, fc);
} else if (arg instanceof SystemArgumentReference) {
return _compileArgument((SystemArgumentReference)arg, fc);
} else {
throw new IllegalArgumentException("Unhandled parameter types: " +
Arrays.<Object>asList(arg, fc).toString());
}
}
public CharSequence compileFunction(final FunctionReference fcr, final FunctionCall fc) {
if (fcr instanceof ExternalFunctionReference) {
return _compileFunction((ExternalFunctionReference)fcr, fc);
} else if (fcr != null) {
return _compileFunction(fcr, fc);
} else {
throw new IllegalArgumentException("Unhandled parameter types: " +
Arrays.<Object>asList(fcr, fc).toString());
}
}
}