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Liferay Frontend JS Minifier
/*
* Copyright 2016 The Closure Compiler Authors.
*
* Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.google.javascript.jscomp;
import static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkState;
import com.google.javascript.jscomp.FunctionInjector.InliningMode;
import com.google.javascript.jscomp.FunctionInjector.Reference;
import com.google.javascript.jscomp.NodeTraversal.AbstractPostOrderCallback;
import com.google.javascript.rhino.IR;
import com.google.javascript.rhino.Node;
import java.util.HashMap;
import java.util.Map;
/**
* This pass targets J2CL output. It looks for static get and set methods defined within a class
* that match the signature of J2CL static fields and inlines them at their
* call sites. This is done for performance reasons since getter and setter accesses are slower
* than regular field accesses.
*
* This will be done by looking at all property accesses and determining if they have a
* corresponding get or set method on the property qualifiers definition. Some caveats:
*
* - Avoid inlining if the property is set using compound assignments.
* - Avoid inlining if the property is incremented using ++ or --
*
*
* Since this pass only really works after the AggressiveInlineAliases pass has run, we
* have to look for Object.defineProperties instead of es6 get and set nodes since es6
* transpilation has already occurred if the language out is ES5.
*
*/
public class J2clPropertyInlinerPass implements CompilerPass {
final AbstractCompiler compiler;
public J2clPropertyInlinerPass(AbstractCompiler compiler) {
this.compiler = compiler;
}
@Override
public void process(Node externs, Node root) {
if (!J2clSourceFileChecker.shouldRunJ2clPasses(compiler)) {
return;
}
new StaticFieldGetterSetterInliner(root).run();
}
class StaticFieldGetterSetterInliner {
Node root;
StaticFieldGetterSetterInliner(Node root) {
this.root = root;
}
private void run() {
GatherJ2CLClassGetterSetters gatherer = new GatherJ2CLClassGetterSetters();
NodeTraversal.traverseEs6(compiler, root, gatherer);
Map result = gatherer.getResults();
NodeTraversal.traverseEs6(compiler, root, new DetermineInlinableProperties(result));
new InlinePropertiesPass(result).run();
}
private abstract class J2clProperty {
final Node getKey;
final Node setKey;
boolean isSafeToInline;
public J2clProperty(Node getKey, Node setKey) {
this.getKey = getKey;
this.setKey = setKey;
this.isSafeToInline = true;
}
abstract void remove();
}
/** A J2CL property with a getter and setter from an Object.defineProperties call */
private class J2clPropertyEs5 extends J2clProperty {
public J2clPropertyEs5(Node getKey, Node setKey) {
super(getKey, setKey);
checkArgument(getKey.isStringKey() && getKey.getString().equals("get"), getKey);
checkArgument(setKey.isStringKey() && setKey.getString().equals("set"), setKey);
}
@Override
void remove() {
Node nodeToDetach = getKey.getGrandparent();
Node objectLit = nodeToDetach.getParent();
checkState(objectLit.isObjectLit(), objectLit);
nodeToDetach.detach();
NodeUtil.markFunctionsDeleted(nodeToDetach, compiler);
compiler.reportChangeToEnclosingScope(objectLit);
if (!objectLit.hasChildren()) {
// Remove the whole Object.defineProperties call if there are no properties left.
objectLit.getParent().getParent().detach();
}
}
}
/** A J2CL property created with a ES6-style static getter and setter */
private class J2clPropertyEs6 extends J2clProperty {
public J2clPropertyEs6(Node getKey, Node setKey) {
super(getKey, setKey);
checkArgument(getKey.isGetterDef(), getKey);
checkArgument(setKey.isSetterDef(), setKey);
}
@Override
void remove() {
Node classMembers = getKey.getParent();
checkState(classMembers.isClassMembers(), classMembers);
classMembers.removeChild(getKey);
classMembers.removeChild(setKey);
NodeUtil.markFunctionsDeleted(getKey, compiler);
NodeUtil.markFunctionsDeleted(setKey, compiler);
compiler.reportChangeToEnclosingScope(classMembers);
}
}
/**
* We match J2CL property getters by looking for the following signature:
* {@code
* get: function() { return (ClassName.$clinit(), ClassName.$fieldName)};
*
*/
private boolean matchesJ2clGetKeySignature(String className, Node getKey) {
if (!getKey.hasChildren() || !getKey.getFirstChild().isFunction()) {
return false;
}
Node getFunction = getKey.getFirstChild();
if (!getFunction.hasChildren() || !getFunction.getLastChild().isNormalBlock()) {
return false;
}
Node getBlock = getFunction.getLastChild();
if (!getBlock.hasChildren()
|| !getBlock.hasOneChild()
|| !getBlock.getFirstChild().isReturn()) {
return false;
}
Node returnStatement = getBlock.getFirstChild();
if (!returnStatement.getFirstChild().isComma()) {
return false;
}
Node multiExpression = returnStatement.getFirstChild();
if (!multiExpression.getFirstChild().isCall()
|| !multiExpression.getSecondChild().isGetProp()) {
return false;
}
Node clinitFunction = multiExpression.getFirstFirstChild();
Node internalProp = multiExpression.getSecondChild();
if (!clinitFunction.matchesQualifiedName(className + ".$clinit")) {
return false;
}
if (!internalProp.getQualifiedName().startsWith(className + ".$")) {
return false;
}
return true;
}
/**
* We match J2CL property getters by looking for the following signature:
* {@code
* set: function(value) { (ClassName.$clinit(), ClassName.$fieldName = value)};
*
*/
private boolean matchesJ2clSetKeySignature(String className, Node setKey) {
if (!setKey.hasChildren() || !setKey.getFirstChild().isFunction()) {
return false;
}
Node setFunction = setKey.getFirstChild();
if (!setFunction.hasChildren()
|| !setFunction.getLastChild().isNormalBlock()
|| !setFunction.getSecondChild().isParamList()) {
return false;
}
if (!setFunction.getSecondChild().hasOneChild()) {
// There is a single parameter "value".
return false;
}
Node setBlock = setFunction.getLastChild();
if (!setBlock.hasChildren()
|| !setBlock.getFirstChild().isExprResult()
|| !setBlock.getFirstFirstChild().isComma()) {
return false;
}
Node multiExpression = setBlock.getFirstFirstChild();
if (multiExpression.getChildCount() != 2 || !multiExpression.getSecondChild().isAssign()) {
return false;
}
Node clinitFunction = multiExpression.getFirstFirstChild();
if (!clinitFunction.matchesQualifiedName(className + ".$clinit")) {
return false;
}
return true;
}
/**
* This class traverses the ast and gathers get and set methods contained in
* Object.defineProperties nodes.
*/
private class GatherJ2CLClassGetterSetters extends AbstractPostOrderCallback {
private final Map j2clPropertiesByName = new HashMap<>();
private Map getResults() {
return j2clPropertiesByName;
}
@Override
public void visit(NodeTraversal t, Node n, Node parent) {
if (n.isClass()) {
visitClass(n);
} else if (NodeUtil.isObjectDefinePropertiesDefinition(n)) {
visitObjectDefineProperties(n);
}
}
void visitObjectDefineProperties(Node n) {
Node className = n.getSecondChild();
if (!className.isName()) {
return;
}
String classNameString = className.getString();
for (Node p : NodeUtil.getObjectDefinedPropertiesKeys(n)) {
String name = p.getString();
// J2cl static fields are always synthesized with both a getter and setter.
Node propertyLiteral = p.getFirstChild();
Node getKey = null;
Node setKey = null;
for (Node innerKey : propertyLiteral.children()) {
if (!innerKey.isStringKey()) {
continue;
}
switch (innerKey.getString()) {
case "get":
if (matchesJ2clGetKeySignature(classNameString, innerKey)) {
getKey = innerKey;
}
break;
case "set":
if (matchesJ2clSetKeySignature(classNameString, innerKey)) {
setKey = innerKey;
}
break;
default: // fall out
}
}
if (getKey != null && setKey != null) {
j2clPropertiesByName.put(
classNameString + "." + name, new J2clPropertyEs5(getKey, setKey));
}
}
}
void visitClass(Node classNode) {
String className = NodeUtil.getName(classNode);
Node classMembers = NodeUtil.getClassMembers(classNode);
Node getKey = null;
Node setterDef = null;
String name = "";
Map nameToGetterOrSetterDef = new HashMap<>();
// These J2CL-created getters and setters always come in pairs. The first time seeing a
// getter/setter for a given name, add it to the nameToGetterOrSetterDef map.
// Upon seeing another getter/setter for that name, create a new J2clProperty for the
// getter/setter pair.
for (Node memberFunction : classMembers.children()) {
if (!memberFunction.isStaticMember()) {
// The only getters and setters we care about are static.
continue;
}
switch (memberFunction.getToken()) {
case GETTER_DEF:
if (matchesJ2clGetKeySignature(className, memberFunction)) {
getKey = memberFunction;
name = memberFunction.getString();
setterDef = nameToGetterOrSetterDef.get(name);
if (setterDef != null) {
j2clPropertiesByName.put(
className + "." + name, new J2clPropertyEs6(getKey, setterDef));
nameToGetterOrSetterDef.remove(name);
} else {
nameToGetterOrSetterDef.put(name, getKey);
}
}
break;
case SETTER_DEF:
if (matchesJ2clSetKeySignature(className, memberFunction)) {
setterDef = memberFunction;
name = memberFunction.getString();
getKey = nameToGetterOrSetterDef.get(name);
if (getKey != null) {
j2clPropertiesByName.put(
className + "." + name, new J2clPropertyEs6(getKey, setterDef));
nameToGetterOrSetterDef.remove(name);
} else {
nameToGetterOrSetterDef.put(name, setterDef);
}
}
break;
default: // fall out
}
}
}
}
private class DetermineInlinableProperties extends AbstractPostOrderCallback {
private final Map propertiesByName;
DetermineInlinableProperties(Map allGetterSetters) {
this.propertiesByName = allGetterSetters;
}
@Override
public void visit(NodeTraversal t, Node n, Node parent) {
if (NodeUtil.isCompoundAssignmentOp(n) || n.isInc() || n.isDec()) {
Node assignmentTarget = n.getFirstChild();
if (assignmentTarget.isGetProp()) {
String accessName = assignmentTarget.getQualifiedName();
J2clProperty prop = propertiesByName.get(accessName);
if (prop != null) {
prop.isSafeToInline = false;
}
}
}
}
}
/**
* Look for accesses of j2cl properties and assignments to j2cl properties.
*/
private class InlinePropertiesPass extends AbstractPostOrderCallback {
private final Map propertiesByName;
InlinePropertiesPass(Map allGetterSetters) {
this.propertiesByName = allGetterSetters;
}
private void run() {
NodeTraversal.traverseEs6(compiler, root, this);
for (J2clProperty prop : propertiesByName.values()) {
if (prop.isSafeToInline) {
prop.remove();
}
}
}
@Override
public void visit(NodeTraversal t, Node n, Node parent) {
if (n.isGetProp()) {
if (parent.isExprResult()) {
// This is a stub declaration for the type checker. See: Es6ToEs3ClassSideInheritance
return;
}
if (NodeUtil.isAssignmentOp(parent) && parent.getFirstChild() == n) {
// This case should be handled below. It needs to be inlined differently.
return;
}
String accessName = n.getQualifiedName();
J2clProperty prop = propertiesByName.get(accessName);
if (prop != null && prop.isSafeToInline) {
FunctionInjector injector =
new FunctionInjector(
compiler, compiler.getUniqueNameIdSupplier(), true, true, true);
Node inlinedCall =
injector.inline(
new Reference(n, t.getScope(), t.getModule(), InliningMode.DIRECT),
null,
prop.getKey.getFirstChild());
t.getCompiler().reportChangeToEnclosingScope(inlinedCall);
}
}
if (n.isAssign()) {
Node assignmentTarget = n.getFirstChild();
Node assignmentValue = n.getLastChild();
if (assignmentTarget.isGetProp()) {
String accessName = assignmentTarget.getQualifiedName();
J2clProperty prop = propertiesByName.get(accessName);
if (prop != null && prop.isSafeToInline) {
FunctionInjector injector =
new FunctionInjector(
compiler, compiler.getUniqueNameIdSupplier(), true, true, true);
assignmentValue.detach();
Node functionCall = IR.call(IR.empty(), assignmentValue);
parent.replaceChild(n, functionCall);
Reference reference =
new Reference(functionCall, t.getScope(), t.getModule(), InliningMode.BLOCK);
injector.maybePrepareCall(reference);
Node inlinedCall = injector.inline(reference, null, prop.setKey.getFirstChild());
t.getCompiler().reportChangeToEnclosingScope(inlinedCall);
}
}
}
}
}
}
}