TypeVariableImpl<GenericDeclaration> parseTypeVariableSignature() { // TypeVariableSignature ::= "T" Ident ";". expect('T'); scanIdentifier(); expect(';'); // Reference to type variable: // Note: we don't know the declaring GenericDeclaration yet. return new TypeVariableImpl<GenericDeclaration>(genericDecl, identifier); }
Type parseClassTypeSignature() { // ClassTypeSignature ::= "L" {Ident "/"} Ident // OptTypeArguments {"." Ident OptTypeArguments} ";". expect('L'); StringBuilder qualIdent = new StringBuilder(); scanIdentifier(); while (symbol == '/') { scanSymbol(); qualIdent.append(identifier).append("."); scanIdentifier(); } qualIdent.append(this.identifier); ListOfTypes typeArgs = parseOptTypeArguments(); ParameterizedTypeImpl parentType = new ParameterizedTypeImpl(null, qualIdent.toString(), typeArgs, loader); ParameterizedTypeImpl type = parentType; while (symbol == '.') { // Deal with Member Classes: scanSymbol(); scanIdentifier(); qualIdent.append("$").append(identifier); // FIXME: is "$" correct? typeArgs = parseOptTypeArguments(); type = new ParameterizedTypeImpl(parentType, qualIdent.toString(), typeArgs, loader); } expect(';'); return type; }
ListOfTypes parseOptTypeArguments() { // OptTypeArguments ::= "<" TypeArgument {TypeArgument} ">". ListOfTypes typeArgs = new ListOfTypes(8); if (symbol == '<') { scanSymbol(); typeArgs.add(parseTypeArgument()); while ((symbol != '>') && (symbol > 0)) { typeArgs.add(parseTypeArgument()); } expect('>'); } return typeArgs; }
TypeVariableImpl<GenericDeclaration> parseFormalTypeParameter() { // FormalTypeParameter ::= Ident ClassBound {InterfaceBound}. scanIdentifier(); String name = identifier.intern(); // FIXME: is this o.k.? ListOfTypes bounds = new ListOfTypes(8); // ClassBound ::= ":" [FieldTypeSignature]. expect(':'); if (symbol == 'L' || symbol == '[' || symbol == 'T') { bounds.add(parseFieldTypeSignature()); } while (symbol == ':') { // InterfaceBound ::= ":" FieldTypeSignature. scanSymbol(); bounds.add(parseFieldTypeSignature()); } return new TypeVariableImpl<GenericDeclaration>(genericDecl, name, bounds); }
void parseOptFormalTypeParameters() { // OptFormalTypeParameters ::= // ["<" FormalTypeParameter {FormalTypeParameter} ">"]. ListOfVariables typeParams = new ListOfVariables(); if (symbol == '<') { scanSymbol(); typeParams.add(parseFormalTypeParameter()); while ((symbol != '>') && (symbol > 0)) { typeParams.add(parseFormalTypeParameter()); } expect('>'); } this.formalTypeParameters = typeParams.getArray(); }
TypeVariableImpl<GenericDeclaration> parseTypeVariableSignature() { // TypeVariableSignature ::= "T" Ident ";". expect('T'); scanIdentifier(); expect(';'); // Reference to type variable: // Note: we don't know the declaring GenericDeclaration yet. return new TypeVariableImpl<GenericDeclaration>(genericDecl, identifier); }
TypeVariableImpl<GenericDeclaration> parseTypeVariableSignature() { // TypeVariableSignature ::= "T" Ident ";". expect('T'); scanIdentifier(); expect(';'); // Reference to type variable: // Note: we don't know the declaring GenericDeclaration yet. return new TypeVariableImpl<GenericDeclaration>(genericDecl, identifier); }
TypeVariableImpl<GenericDeclaration> parseTypeVariableSignature() { // TypeVariableSignature ::= "T" Ident ";". expect('T'); scanIdentifier(); expect(';'); // Reference to type variable: // Note: we don't know the declaring GenericDeclaration yet. return new TypeVariableImpl<GenericDeclaration>(genericDecl, identifier); }
TypeVariableImpl<GenericDeclaration> parseTypeVariableSignature() { // TypeVariableSignature ::= "T" Ident ";". expect('T'); scanIdentifier(); expect(';'); // Reference to type variable: // Note: we don't know the declaring GenericDeclaration yet. return new TypeVariableImpl<GenericDeclaration>(genericDecl, identifier); }
TypeVariableImpl<GenericDeclaration> parseTypeVariableSignature() { // TypeVariableSignature ::= "T" Ident ";". expect('T'); scanIdentifier(); expect(';'); // Reference to type variable: // Note: we don't know the declaring GenericDeclaration yet. return new TypeVariableImpl<GenericDeclaration>(genericDecl, identifier); }
TypeVariableImpl<GenericDeclaration> parseTypeVariableSignature() { // TypeVariableSignature ::= "T" Ident ";". expect('T'); scanIdentifier(); expect(';'); // Reference to type variable: // Note: we don't know the declaring GenericDeclaration yet. return new TypeVariableImpl<GenericDeclaration>(genericDecl, identifier); }
ListOfTypes parseOptTypeArguments() { // OptTypeArguments ::= "<" TypeArgument {TypeArgument} ">". ListOfTypes typeArgs = new ListOfTypes(8); if (symbol == '<') { scanSymbol(); typeArgs.add(parseTypeArgument()); while ((symbol != '>') && (symbol > 0)) { typeArgs.add(parseTypeArgument()); } expect('>'); } return typeArgs; }
ListOfTypes parseOptTypeArguments() { // OptTypeArguments ::= "<" TypeArgument {TypeArgument} ">". ListOfTypes typeArgs = new ListOfTypes(8); if (symbol == '<') { scanSymbol(); typeArgs.add(parseTypeArgument()); while ((symbol != '>') && (symbol > 0)) { typeArgs.add(parseTypeArgument()); } expect('>'); } return typeArgs; }
ListOfTypes parseOptTypeArguments() { // OptTypeArguments ::= "<" TypeArgument {TypeArgument} ">". ListOfTypes typeArgs = new ListOfTypes(8); if (symbol == '<') { scanSymbol(); typeArgs.add(parseTypeArgument()); while ((symbol != '>') && (symbol > 0)) { typeArgs.add(parseTypeArgument()); } expect('>'); } return typeArgs; }
ListOfTypes parseOptTypeArguments() { // OptTypeArguments ::= "<" TypeArgument {TypeArgument} ">". ListOfTypes typeArgs = new ListOfTypes(8); if (symbol == '<') { scanSymbol(); typeArgs.add(parseTypeArgument()); while ((symbol != '>') && (symbol > 0)) { typeArgs.add(parseTypeArgument()); } expect('>'); } return typeArgs; }
ListOfTypes parseOptTypeArguments() { // OptTypeArguments ::= "<" TypeArgument {TypeArgument} ">". ListOfTypes typeArgs = new ListOfTypes(8); if (symbol == '<') { scanSymbol(); typeArgs.add(parseTypeArgument()); while ((symbol != '>') && (symbol > 0)) { typeArgs.add(parseTypeArgument()); } expect('>'); } return typeArgs; }
ListOfTypes parseOptTypeArguments() { // OptTypeArguments ::= "<" TypeArgument {TypeArgument} ">". ListOfTypes typeArgs = new ListOfTypes(8); if (symbol == '<') { scanSymbol(); typeArgs.add(parseTypeArgument()); while ((symbol != '>') && (symbol > 0)) { typeArgs.add(parseTypeArgument()); } expect('>'); } return typeArgs; }
void parseOptFormalTypeParameters() { // OptFormalTypeParameters ::= // ["<" FormalTypeParameter {FormalTypeParameter} ">"]. ListOfVariables typeParams = new ListOfVariables(); if (symbol == '<') { scanSymbol(); typeParams.add(parseFormalTypeParameter()); while ((symbol != '>') && (symbol > 0)) { typeParams.add(parseFormalTypeParameter()); } expect('>'); } this.formalTypeParameters = typeParams.getArray(); }
void parseOptFormalTypeParameters() { // OptFormalTypeParameters ::= // ["<" FormalTypeParameter {FormalTypeParameter} ">"]. ListOfVariables typeParams = new ListOfVariables(); if (symbol == '<') { scanSymbol(); typeParams.add(parseFormalTypeParameter()); while ((symbol != '>') && (symbol > 0)) { typeParams.add(parseFormalTypeParameter()); } expect('>'); } this.formalTypeParameters = typeParams.getArray(); }