import org.cojen.classfile.TypeDesc;
import org.simantics.scl.compiler.common.datatypes.Constructor;
import org.simantics.scl.compiler.common.names.Name;
+import org.simantics.scl.compiler.constants.Constant;
import org.simantics.scl.compiler.constants.JavaTypeInstanceConstructor;
import org.simantics.scl.compiler.constants.SCLConstructor;
import org.simantics.scl.compiler.constants.StringConstant;
import org.simantics.scl.compiler.constants.generic.ClassRef;
import org.simantics.scl.compiler.constants.generic.ConvertToListFilter;
import org.simantics.scl.compiler.constants.generic.MethodRef;
+import org.simantics.scl.compiler.constants.generic.MethodRef.FieldRef;
import org.simantics.scl.compiler.constants.generic.OutputFilter;
import org.simantics.scl.compiler.constants.generic.ParameterStackItem;
import org.simantics.scl.compiler.constants.generic.Pop2OutputFilter;
import org.simantics.scl.compiler.constants.generic.PopOutputFilter;
import org.simantics.scl.compiler.constants.generic.StackItem;
import org.simantics.scl.compiler.constants.generic.ThreadLocalStackItem;
+import org.simantics.scl.compiler.constants.singletons.SafeCoerce;
import org.simantics.scl.compiler.elaboration.contexts.TranslationContext;
import org.simantics.scl.compiler.elaboration.contexts.TypeTranslationContext;
import org.simantics.scl.compiler.elaboration.errors.NotPatternException;
import org.simantics.scl.compiler.internal.codegen.effects.EffectConstructor;
import org.simantics.scl.compiler.internal.codegen.effects.ThreadLocalVariable;
import org.simantics.scl.compiler.internal.codegen.types.JavaReferenceValidator;
+import org.simantics.scl.compiler.internal.codegen.types.JavaReferenceValidatorFactory;
import org.simantics.scl.compiler.internal.codegen.types.JavaTypeTranslator;
import org.simantics.scl.compiler.internal.codegen.types.StandardTypeConstructor;
import org.simantics.scl.compiler.internal.codegen.utils.Constants;
import org.simantics.scl.compiler.internal.deriving.InstanceDerivers;
import org.simantics.scl.compiler.internal.elaboration.profiling.BranchPointInjector;
import org.simantics.scl.compiler.internal.elaboration.utils.StronglyConnectedComponents;
+import org.simantics.scl.compiler.internal.header.ModuleHeader;
import org.simantics.scl.compiler.internal.parsing.declarations.ConstructorAst;
import org.simantics.scl.compiler.internal.parsing.declarations.DAnnotationAst;
import org.simantics.scl.compiler.internal.parsing.declarations.DClassAst;
import org.simantics.scl.compiler.internal.parsing.types.TypeAst;
import org.simantics.scl.compiler.module.ConcreteModule;
import org.simantics.scl.compiler.module.ImportDeclaration;
+import org.simantics.scl.compiler.module.InvalidModulePathException;
+import org.simantics.scl.compiler.module.ModuleUtils;
import org.simantics.scl.compiler.module.repository.ImportFailure;
import org.simantics.scl.compiler.module.repository.ImportFailureException;
import org.simantics.scl.compiler.types.TCon;
private final CompilationContext compilationContext;
private final ErrorLog errorLog;
private final String moduleName;
+ private final ModuleHeader moduleHeader;
private final ArrayList<ImportDeclaration> importsAst;
+ private final JavaReferenceValidatorFactory jrvFactory;
final JavaReferenceValidator<Object, Object, Object, Object> javaReferenceValidator;
private final ValueRepository valueDefinitionsAst;
private final RelationRepository relationDefinitionsAst;
THashMap<String, ClassRef> classRefs = new THashMap<String, ClassRef>();
THashMap<String, BranchPoint[]> branchPoints;
- @SuppressWarnings("unchecked")
public Elaboration(CompilationContext compilationContext, CompilationTimer timer, EnvironmentFactory localEnvironmentFactory,
- String moduleName, ArrayList<ImportDeclaration> importsAst,
- JavaReferenceValidator<?, ?, ?, ?> javaReferenceValidator,
+ String moduleName, ModuleHeader moduleHeader, ArrayList<ImportDeclaration> importsAst,
+ JavaReferenceValidatorFactory jrvFactory,
ValueRepository valueDefinitionsAst,
RelationRepository relationDefinitionsAst) {
this.compilationContext = compilationContext;
this.errorLog = compilationContext.errorLog;
this.moduleName = moduleName;
+ this.moduleHeader = moduleHeader;
importsAst = processRelativeImports(importsAst);
this.importsAst = importsAst;
- this.javaReferenceValidator = (JavaReferenceValidator<Object, Object, Object, Object>)javaReferenceValidator;
+ this.jrvFactory = jrvFactory;
+ this.javaReferenceValidator = moduleHeader == null || moduleHeader.classLoader == null
+ ? jrvFactory.getDefaultJavaReferenceValidator()
+ : jrvFactory.getJavaReferenceValidator(moduleHeader.classLoader);
+ if(javaReferenceValidator == null)
+ errorLog.log(moduleHeader.classLoaderLocation, "Didn't find the specified class loader.");
this.valueDefinitionsAst = valueDefinitionsAst;
this.relationDefinitionsAst = relationDefinitionsAst;
module = new ConcreteModule(moduleName);
compilationContext.module = module;
+ if(moduleHeader != null && moduleHeader.defaultLocalName != null)
+ module.setDefaultLocalName(moduleHeader.defaultLocalName);
try {
if(timer != null)
timer.suspendTimer();
ArrayList<ImportDeclaration> absoluteImports = new ArrayList<ImportDeclaration>(relativeImports.size());
for(ImportDeclaration relativeImport : relativeImports) {
if(relativeImport.moduleName.startsWith(".")) {
- String absoluteModuleName = convertRelativeModulePath(relativeImport.location, relativeImport.moduleName);
- if(absoluteModuleName != null) {
+ try {
+ String absoluteModuleName = ModuleUtils.resolveAbsolutePath(moduleName, relativeImport.moduleName);
ImportDeclaration absoluteImport = new ImportDeclaration(
absoluteModuleName, relativeImport.localName,
relativeImport.reexport, relativeImport.spec);
absoluteImport.location = relativeImport.location;
absoluteImports.add(absoluteImport);
- }
+ } catch (InvalidModulePathException e) {
+ errorLog.log(relativeImport.location, e.getMessage());
+ }
}
else
absoluteImports.add(relativeImport);
return absoluteImports;
}
- private String convertRelativeModulePath(long location, String relativeModuleName) {
- String originalRelativeModuleName = relativeModuleName;
- int p = moduleName.lastIndexOf('/');
- String parentPackage = p < 0 ? "" : moduleName.substring(0, p);
- while(relativeModuleName.startsWith(".")) {
- if(relativeModuleName.startsWith("./")) {
- relativeModuleName = relativeModuleName.substring(2);
- }
- else if(relativeModuleName.startsWith("../")) {
- relativeModuleName = relativeModuleName.substring(3);
- if(parentPackage.isEmpty()) {
- errorLog.log(location, "Couldn't resolve the relative module name " + originalRelativeModuleName + " when the current module name is " + moduleName + ".");
- return null;
- }
- p = parentPackage.lastIndexOf('/');
- parentPackage = p < 0 ? "" : parentPackage.substring(0, p);
- }
- else {
- errorLog.log(location, "Couldn't resolve the relative module name " + originalRelativeModuleName + ". It has an invalid syntax.");
- return null;
- }
- }
- return parentPackage + "/" + relativeModuleName;
- }
-
public void addTypesToEnvironment(
ArrayList<DDataAst> dataTypesAst,
ArrayList<DTypeAst> typeAliasesAst,
}
public void processDataTypes(ArrayList<DDataAst> dataTypesAst) {
+ ArrayList<Runnable> fieldAccessorGenerators = new ArrayList<Runnable>();
for(DDataAst dataTypeAst : dataTypesAst) {
TypeTranslationContext context = createTypeTranslationContext();
TVar[] typeParameters = new TVar[dataTypeAst.parameters.length];
constructors[j].fieldNames = fieldNames;
constructors[j].recordFieldNames = constructor.fieldNames;
}
+ if(constructors.length == 1) {
+ Constructor constructor = constructors[0];
+ if(constructor.recordFieldNames != null) {
+ fieldAccessorGenerators.add(new Runnable() {
+ @Override
+ public void run() {
+ Type in = Types.apply(dataType.name, dataType.parameters);
+ for(int i=0;i<constructor.recordFieldNames.length;++i) {
+ Type out = constructor.parameterTypes[i];
+ Constant accessor;
+ if(trivialDataType)
+ accessor = new SafeCoerce(dataType.parameters, in, out);
+ else
+ accessor = new CallJava(dataType.parameters, Types.NO_EFFECTS, out,
+ new Type[] {in}, new StackItem[] {new ParameterStackItem(0, in)},
+ new FieldRef(constructor.javaName, constructor.fieldNames != null ? constructor.fieldNames[i] : "c" + i,
+ javaTypeTranslator.toTypeDesc(out)),
+ null);
+ module.addFieldAccessor(constructor.recordFieldNames[i], accessor);
+ }
+ }
+ });
+ }
+ }
}
+
+ for(Runnable fieldAccessorGenerator : fieldAccessorGenerators)
+ fieldAccessorGenerator.run();
}
public void processTypeClasses(ArrayList<ProcessedDClassAst> typeClassesAst) {
if(annotations != null) {
for(DAnnotationAst annotation : annotations)
if(annotation.id.text.equals("@JavaName")) {
- Expression p0 = annotation.parameters[0];
- if(p0 instanceof EVar)
- javaName = ((EVar)p0).name;
- else if(p0 instanceof ELiteral) {
- ELiteral lit = (ELiteral)p0;
- javaName = ((StringConstant)lit.getValue()).getValue();
- }
+ String temp = AnnotationUtils.processStringAnnotation(errorLog, annotation);
+ if(temp != null)
+ javaName = temp;
}
else if(annotation.id.text.equals("@private")) {
+ AnnotationUtils.processTagAnnotation(errorLog, annotation);
isPrivate = true;
}
}
constructor.getParameterTypes());
if(dataType.constructors.length == 1 && (
dataType.getTypeDesc() == null ||
- dataType.constructors[0].javaName.equals(MethodBuilderBase.getClassName(dataType.getTypeDesc()))))
+ (dataType.constructors[0].javaName != null &&
+ dataType.constructors[0].javaName.equals(MethodBuilderBase.getClassName(dataType.getTypeDesc())))))
sclConstructor.setOnlyConstructor(true);
value.setValue(sclConstructor);
value.setType(constructor.getType());
typeMap.put(name.name, valueTypeAst);
}
+ THashMap<String, EVar> exportMap = null;
+ if(moduleHeader != null && moduleHeader.export != null) {
+ exportMap = new THashMap<String, EVar>();
+ for(EVar export : moduleHeader.export)
+ if(exportMap.put(export.name, export) != null)
+ errorLog.log(export.location, "The symbol " + export.name + " is exported multiple times.");
+ }
+
for(String name : valueDefinitionsAst.getValueNames()) {
ArrayList<DValueAst> defs = valueDefinitionsAst.getDefinition(name);
try {
for(DAnnotationAst annotation : annotations) {
handleAnnotation(value, defs, annotation);
}
+ if(exportMap != null && exportMap.remove(name) == null)
+ value.addProperty(PrivateProperty.INSTANCE);
} catch(RuntimeException e) {
errorLog.setExceptionPosition(defs.get(0).location);
throw e;
}
}
+ if(exportMap != null)
+ for(EVar export : exportMap.values())
+ errorLog.log(export.location, "The symbol " + export.name + " is not defined in the module.");
for(String name : relationDefinitionsAst.getRelationNames()) {
ArrayList<DRelationAst> definitions = relationDefinitionsAst.getDefinition(name);
if(definitions.size() > 1) {
}
}
else if(annotation.id.text.equals("@private")) {
+ if(moduleHeader != null && moduleHeader.export != null)
+ errorLog.log(annotation.location, "Annotation @private is not used when module header contains export property.");
value.addProperty(PrivateProperty.INSTANCE);
}
else if(annotation.id.text.equals("@deprecated")) {