private static SimpleName getMethodInvocationName(MethodReference methodReference) { SimpleName name = null; if (methodReference instanceof ExpressionMethodReference) { name = ((ExpressionMethodReference) methodReference).getName(); } else if (methodReference instanceof TypeMethodReference) { name = ((TypeMethodReference) methodReference).getName(); } else if (methodReference instanceof SuperMethodReference) { name = ((SuperMethodReference) methodReference).getName(); } return name; }
@Override public boolean visit(TypeMethodReference node) { getChildNode(node, TypeMethodReference.TYPE_PROPERTY).accept(this); this.result.append("::"); //$NON-NLS-1$ visitList(node, TypeMethodReference.TYPE_ARGUMENTS_PROPERTY, Util.EMPTY_STRING, String.valueOf('<'), String.valueOf('>')); node.getName().accept(this); return false; }
public boolean visit(TypeMethodReference node) { getChildNode(node, TypeMethodReference.TYPE_PROPERTY).accept(this); this.result.append("::"); //$NON-NLS-1$ visitList(node, TypeMethodReference.TYPE_ARGUMENTS_PROPERTY, Util.EMPTY_STRING, String.valueOf('<'), String.valueOf('>')); node.getName().accept(this); return false; }
public boolean visit(TypeMethodReference node) { getChildNode(node, TypeMethodReference.TYPE_PROPERTY).accept(this); this.result.append("::"); //$NON-NLS-1$ visitList(node, TypeMethodReference.TYPE_ARGUMENTS_PROPERTY, Util.EMPTY_STRING, String.valueOf('<'), String.valueOf('>')); node.getName().accept(this); return false; }
@Override public boolean visit(TypeMethodReference node) { node.getType().accept(this); visitReferenceTypeArguments(node.typeArguments()); node.getName().accept(this); return false; }
public boolean visit(TypeMethodReference node) { node.getType().accept(this); visitReferenceTypeArguments(node.typeArguments()); node.getName().accept(this); return false; }
@Override public boolean visit(TypeMethodReference node) { node.getType().accept(this); printReferenceTypeArguments(node.typeArguments()); node.getName().accept(this); return false; }
@Override public boolean visit(TypeMethodReference node) { node.getType().accept(this); printReferenceTypeArguments(node.typeArguments()); node.getName().accept(this); return false; }
public boolean visit(TypeMethodReference node) { node.getType().accept(this); visitReferenceTypeArguments(node.typeArguments()); node.getName().accept(this); return false; }
@Override int treeSize() { return memSize() + (this.type == null ? 0 : getType().treeSize()) + (this.typeArguments == null ? 0 : this.typeArguments.listSize()) + (this.methodName == null ? 0 : getName().treeSize()); } }
int treeSize() { return memSize() + (this.type == null ? 0 : getType().treeSize()) + (this.typeArguments == null ? 0 : this.typeArguments.listSize()) + (this.methodName == null ? 0 : getName().treeSize()); } }
@Override void accept0(ASTVisitor visitor) { boolean visitChildren = visitor.visit(this); if (visitChildren) { // visit children in normal left to right reading order acceptChild(visitor, getType()); acceptChildren(visitor, this.typeArguments); acceptChild(visitor, getName()); } visitor.endVisit(this); }
void accept0(ASTVisitor visitor) { boolean visitChildren = visitor.visit(this); if (visitChildren) { // visit children in normal left to right reading order acceptChild(visitor, getType()); acceptChildren(visitor, this.typeArguments); acceptChild(visitor, getName()); } visitor.endVisit(this); }
void accept0(ASTVisitor visitor) { boolean visitChildren = visitor.visit(this); if (visitChildren) { // visit children in normal left to right reading order acceptChild(visitor, getType()); acceptChildren(visitor, this.typeArguments); acceptChild(visitor, getName()); } visitor.endVisit(this); }
void accept0(ASTVisitor visitor) { boolean visitChildren = visitor.visit(this); if (visitChildren) { // visit children in normal left to right reading order acceptChild(visitor, getType()); acceptChildren(visitor, this.typeArguments); acceptChild(visitor, getName()); } visitor.endVisit(this); }
void accept0(ASTVisitor visitor) { boolean visitChildren = visitor.visit(this); if (visitChildren) { // visit children in normal left to right reading order acceptChild(visitor, getType()); acceptChildren(visitor, this.typeArguments); acceptChild(visitor, getName()); } visitor.endVisit(this); }
@Override ASTNode clone0(AST target) { TypeMethodReference result = new TypeMethodReference(target); result.setSourceRange(getStartPosition(), getLength()); result.setType((Type) ASTNode.copySubtree(target, getType())); result.typeArguments().addAll(ASTNode.copySubtrees(target, typeArguments())); result.setName((SimpleName) getName().clone(target)); return result; }
ASTNode clone0(AST target) { TypeMethodReference result = new TypeMethodReference(target); result.setSourceRange(getStartPosition(), getLength()); result.setType((Type) ASTNode.copySubtree(target, getType())); result.typeArguments().addAll(ASTNode.copySubtrees(target, typeArguments())); result.setName((SimpleName) getName().clone(target)); return result; }
ASTNode clone0(AST target) { TypeMethodReference result = new TypeMethodReference(target); result.setSourceRange(getStartPosition(), getLength()); result.setType((Type) ASTNode.copySubtree(target, getType())); result.typeArguments().addAll(ASTNode.copySubtrees(target, typeArguments())); result.setName((SimpleName) getName().clone(target)); return result; }
ASTNode clone0(AST target) { TypeMethodReference result = new TypeMethodReference(target); result.setSourceRange(getStartPosition(), getLength()); result.setType((Type) ASTNode.copySubtree(target, getType())); result.typeArguments().addAll(ASTNode.copySubtrees(target, typeArguments())); result.setName((SimpleName) getName().clone(target)); return result; }