org.jruby.ast.AttrAssignNode Maven / Gradle / Ivy
/*
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* Version: EPL 1.0/GPL 2.0/LGPL 2.1
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* The contents of this file are subject to the Eclipse Public
* License Version 1.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.eclipse.org/legal/epl-v10.html
*
* Software distributed under the License is distributed on an "AS
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* implied. See the License for the specific language governing
* rights and limitations under the License.
*
* Copyright (C) 2006-2007 Thomas E Enebo
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* or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
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package org.jruby.ast;
import java.util.List;
import org.jruby.Ruby;
import org.jruby.RubyArray;
import org.jruby.RubyClass;
import org.jruby.RubyString;
import org.jruby.ast.types.INameNode;
import org.jruby.ast.visitor.NodeVisitor;
import org.jruby.evaluator.ASTInterpreter;
import org.jruby.exceptions.JumpException;
import org.jruby.internal.runtime.methods.DynamicMethod;
import org.jruby.runtime.Helpers;
import org.jruby.lexer.yacc.ISourcePosition;
import org.jruby.runtime.Block;
import org.jruby.runtime.CallSite;
import org.jruby.runtime.CallType;
import org.jruby.runtime.MethodIndex;
import org.jruby.runtime.ThreadContext;
import org.jruby.runtime.Visibility;
import org.jruby.runtime.builtin.IRubyObject;
import org.jruby.util.DefinedMessage;
/**
* Node that represents an assignment of either an array element or attribute.
*/
public class AttrAssignNode extends Node implements INameNode, IArgumentNode {
protected final Node receiverNode;
private String name;
private Node argsNode;
public CallSite callAdapter;
public AttrAssignNode(ISourcePosition position, Node receiverNode, String name, Node argsNode) {
super(position);
assert receiverNode != null : "receiverNode is not null";
// TODO: At least ParserSupport.attrset passes argsNode as null. ImplicitNil is wrong magic for
// setupArgs since it will IRubyObject[] { nil }. So we need to figure out a nice fast
// null pattern for setupArgs.
// assert argsNode != null : "receiverNode is not null";
this.receiverNode = receiverNode;
this.name = name;
setArgsInternal(argsNode);
this.callAdapter = receiverNode instanceof SelfNode ?
MethodIndex.getFunctionalCallSite(name) :
MethodIndex.getCallSite(name);
}
public NodeType getNodeType() {
return NodeType.ATTRASSIGNNODE;
}
/**
* Accept for the visitor pattern.
* @param visitor the visitor
**/
public Object accept(NodeVisitor visitor) {
return visitor.visitAttrAssignNode(this);
}
/**
* Gets the name.
* name is the name of the method called
* @return name
*/
public String getName() {
return name;
}
/**
* Gets the receiverNode.
* receiverNode is the object on which the method is being called
* @return receiverNode
*/
public Node getReceiverNode() {
return receiverNode;
}
/**
* Gets the argsNode.
* argsNode representing the method's arguments' value for this call.
* @return argsNode
*/
public Node getArgsNode() {
return argsNode;
}
protected Node newAttrAssignNode(ArrayNode argsNode) {
int size = argsNode.size();
switch (size) {
case 1:
return new AttrAssignOneArgNode(getPosition(), receiverNode, name, argsNode);
case 2:
return new AttrAssignTwoArgNode(getPosition(), receiverNode, name, argsNode);
case 3:
return new AttrAssignThreeArgNode(getPosition(), receiverNode, name, argsNode);
default:
return new AttrAssignNode(getPosition(), receiverNode, name, argsNode);
}
}
protected Node newMutatedAttrAssignNode(ArrayNode argsNode) {
int size = argsNode.size();
switch (size) {
case 1:
if (!(this instanceof AttrAssignOneArgNode)) {
return new AttrAssignOneArgNode(getPosition(), receiverNode, name, argsNode);
} else {
return this;
}
case 2:
if (!(this instanceof AttrAssignTwoArgNode)) {
return new AttrAssignTwoArgNode(getPosition(), receiverNode, name, argsNode);
} else {
return this;
}
case 3:
if (!(this instanceof AttrAssignThreeArgNode)) {
return new AttrAssignThreeArgNode(getPosition(), receiverNode, name, argsNode);
} else {
return this;
}
default:
return new AttrAssignNode(getPosition(), receiverNode, name, argsNode);
}
}
/**
* Set the argsNode
*
* @param argsNode set the arguments for this node.
*/
public Node setArgsNode(Node argsNode) {
// Empirical Observations:
// null -> Some arity
// argsNode == this.argsNode then check for arity changes
// newline(splatnode) -> argspushnode
if (this.argsNode == null && argsNode instanceof ArrayNode) {
return newAttrAssignNode((ArrayNode) argsNode);
} else if (this.argsNode == argsNode) {
return newMutatedAttrAssignNode((ArrayNode)argsNode);
}
setArgsInternal(argsNode);
return this;
}
private void setArgsInternal(Node argsNode) {
this.argsNode = argsNode;
if (argsNode instanceof ArrayNode) ((ArrayNode)argsNode).setLightweight(true);
}
public List childNodes() {
return Node.createList(receiverNode, argsNode);
}
@Override
public IRubyObject interpret(Ruby runtime, ThreadContext context, IRubyObject self, Block aBlock) {
IRubyObject receiver = receiverNode.interpret(runtime, context, self, aBlock);
IRubyObject[] args = ASTInterpreter.setupArgs(runtime, context, argsNode, self, aBlock);
assert hasMetaClass(receiver) : receiverClassName(receiver);
// If reciever is self then we do the call the same way as vcall
CallSite callSite;
callSite = callAdapter;
callSite.call(context, self, receiver, args);
return args[args.length - 1];
}
protected static boolean hasMetaClass(IRubyObject object) {
return object.getMetaClass() != null;
}
protected static String receiverClassName(IRubyObject object) {
return object.getClass().getName();
}
@Override
public IRubyObject assign(Ruby runtime, ThreadContext context, IRubyObject self, IRubyObject value, Block block, boolean checkArity) {
IRubyObject receiver = receiverNode.interpret(runtime, context, self, block);
// If reciever is self then we do the call the same way as vcall
if (receiver == self) {
return selfAssign(runtime, context, self, value, block, checkArity);
} else {
return otherAssign(runtime, context, self, value, block, checkArity);
}
}
private IRubyObject selfAssign(Ruby runtime, ThreadContext context, IRubyObject self, IRubyObject value, Block block, boolean checkArity) {
IRubyObject receiver = receiverNode.interpret(runtime, context, self, block);
if (argsNode == null) { // attribute set.
Helpers.invoke(context, receiver, name, value);
} else { // element set
RubyArray args = (RubyArray) argsNode.interpret(runtime, context, self, block);
args.append(value);
Helpers.invoke(context, receiver, name, args.toJavaArray());
}
return runtime.getNil();
}
private IRubyObject otherAssign(Ruby runtime, ThreadContext context, IRubyObject self, IRubyObject value, Block block, boolean checkArity) {
IRubyObject receiver = receiverNode.interpret(runtime, context, self, block);
if (argsNode == null) { // attribute set.
Helpers.invoke(context, receiver, name, value, CallType.NORMAL, Block.NULL_BLOCK);
} else { // element set
RubyArray args = (RubyArray) argsNode.interpret(runtime, context, self, block);
args.append(value);
Helpers.invoke(context, receiver, name, args.toJavaArray(), CallType.NORMAL, Block.NULL_BLOCK);
}
return runtime.getNil();
}
@Override
public RubyString definition(Ruby runtime, ThreadContext context, IRubyObject self, Block aBlock) {
if (receiverNode.definition(runtime, context, self, aBlock) != null) {
try {
IRubyObject receiver = receiverNode.interpret(runtime, context, self, aBlock);
RubyClass metaClass = receiver.getMetaClass();
DynamicMethod method = metaClass.searchMethod(name);
Visibility visibility = method.getVisibility();
if (visibility != Visibility.PRIVATE &&
(visibility != Visibility.PROTECTED || metaClass.getRealClass().isInstance(self))) {
if (metaClass.isMethodBound(name, false)) {
return ASTInterpreter.getArgumentDefinition(runtime, context, argsNode, runtime.getDefinedMessage(DefinedMessage.ASSIGNMENT), self, aBlock);
}
}
} catch (JumpException e) {
}
}
return null;
}
}
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