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/*
 * Copyright 2011 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.checkState;

import com.google.javascript.rhino.IR;
import com.google.javascript.rhino.Node;

/**
 * A pass that looks for assignments to properties of an object or array
 * immediately following its creation using the abbreviated syntax.
 * 

* E.g. {@code var a = [];a[0] = 0} is optimized to {@code var a = [0]} and * similarly for the object constructor. * * @author [email protected] (Mike Samuel) */ final class PeepholeCollectPropertyAssignments extends AbstractPeepholeOptimization { @Override Node optimizeSubtree(Node subtree) { if (!subtree.isScript() && !subtree.isNormalBlock()) { return subtree; } boolean codeChanged = false; // Look for variable declarations or simple assignments // and start processing there. for (Node child = subtree.getFirstChild(); child != null; child = child.getNext()) { if (!child.isVar() && !NodeUtil.isExprAssign(child)) { continue; } if (!isPropertyAssignmentToName(child.getNext())) { // Quick check to see if there's anything to collapse. continue; } checkState(child.hasOneChild()); Node name = getName(child); if (!name.isName()) { // The assignment target is not a simple name. continue; } Node value = getValue(child); if (value == null || !isInterestingValue(value)) { // No initializer or not an Object or Array literal. continue; } Node propertyCandidate; while ((propertyCandidate = child.getNext()) != null) { // This does not infinitely loop because collectProperty always // removes propertyCandidate from its parent when it returns true. if (!collectProperty(propertyCandidate, name.getString(), value)) { break; } codeChanged = true; } } if (codeChanged) { compiler.reportChangeToEnclosingScope(subtree); } return subtree; } private static Node getName(Node n) { if (n.isVar()) { return n.getFirstChild(); } else if (NodeUtil.isExprAssign(n)) { return n.getFirstFirstChild(); } throw new IllegalStateException(); } private static Node getValue(Node n) { if (n.isVar()) { return n.getFirstFirstChild(); } else if (NodeUtil.isExprAssign(n)) { return n.getFirstChild().getLastChild(); } throw new IllegalStateException(); } static boolean isInterestingValue(Node n) { return n.isObjectLit() || n.isArrayLit(); } private static boolean isPropertyAssignmentToName(Node propertyCandidate) { if (propertyCandidate == null) { return false; } // Must be an assignment... if (!NodeUtil.isExprAssign(propertyCandidate)) { return false; } Node expr = propertyCandidate.getFirstChild(); // to a property... Node lhs = expr.getFirstChild(); if (!NodeUtil.isGet(lhs)) { return false; } // of a variable. Node obj = lhs.getFirstChild(); return obj.isName(); } private boolean collectProperty( Node propertyCandidate, String name, Node value) { if (!isPropertyAssignmentToName(propertyCandidate)) { return false; } Node lhs = propertyCandidate.getFirstFirstChild(); // Must be an assignment to the recent variable... if (!name.equals(lhs.getFirstChild().getString())) { return false; } Node rhs = lhs.getNext(); // with a value that cannot change the values of the variables, if (mayHaveSideEffects(rhs) || NodeUtil.canBeSideEffected(rhs)) { return false; } // and does not have a reference to a variable initialized after it. if (!NodeUtil.isLiteralValue(rhs, true) && mightContainForwardReference(rhs, name)) { return false; } switch (value.getToken()) { case ARRAYLIT: if (!collectArrayProperty(value, propertyCandidate)) { return false; } break; case OBJECTLIT: if (!collectObjectProperty(value, propertyCandidate)) { return false; } break; default: throw new IllegalStateException(); } return true; } private static boolean collectArrayProperty( Node arrayLiteral, Node propertyCandidate) { Node assignment = propertyCandidate.getFirstChild(); final int sizeOfArrayAtStart = arrayLiteral.getChildCount(); int maxIndexAssigned = sizeOfArrayAtStart - 1; Node lhs = assignment.getFirstChild(); Node rhs = lhs.getNext(); if (!lhs.isGetElem()) { return false; } Node obj = lhs.getFirstChild(); Node property = obj.getNext(); // The left hand side must have a numeric index if (!property.isNumber()) { return false; } // that is a valid array index double dindex = property.getDouble(); if (!(dindex >= 0) // Handles NaN and negatives. || Double.isInfinite(dindex) || dindex > 0x7fffffffL) { return false; } int index = (int) dindex; if (dindex != index) { return false; } // that would not make the array so sparse that they take more space // when rendered than x[9]=1. if (maxIndexAssigned + 4 < index) { return false; } if (index > maxIndexAssigned) { while (maxIndexAssigned < index - 1) { // Pad the array if it is sparse. // So if array is [0] and integer 3 is assigned at index is 2, then // we want to produce [0,,2]. Node emptyNode = IR.empty().srcref(arrayLiteral); arrayLiteral.addChildToBack(emptyNode); ++maxIndexAssigned; } arrayLiteral.addChildToBack(rhs.detach()); } else { // An out of order assignment. Allow it if it's a hole. Node currentValue = arrayLiteral.getChildAtIndex(index); if (!currentValue.isEmpty()) { // We've already collected a value for this index. return false; } arrayLiteral.replaceChild(currentValue, rhs.detach()); } propertyCandidate.detach(); return true; } private static boolean collectObjectProperty( Node objectLiteral, Node propertyCandidate) { Node assignment = propertyCandidate.getFirstChild(); Node lhs = assignment.getFirstChild(); Node rhs = lhs.getNext(); Node obj = lhs.getFirstChild(); Node property = obj.getNext(); // The property must be statically known. if (lhs.isGetElem() && (!property.isString() && !property.isNumber())) { return false; } String propertyName; if (property.isNumber()) { propertyName = NodeUtil.getStringValue(property); } else { propertyName = property.getString(); } // Check if the new property already exists in the object literal // Note: Duplicate keys are invalid in strict mode Node existingProperty = null; for (Node currentProperty : objectLiteral.children()) { // Get the name of the current property String currentPropertyName = currentProperty.getString(); // Get the value of the property Node currentValue = currentProperty.getFirstChild(); // Compare the current property name with the new property name if (currentPropertyName.equals(propertyName)) { existingProperty = currentProperty; // Check if the current value and the new value are side-effect boolean isCurrentValueSideEffect = NodeUtil.canBeSideEffected(currentValue); boolean isNewValueSideEffect = NodeUtil.canBeSideEffected(rhs); // If they are side-effect free then replace the current value with the new one if (isCurrentValueSideEffect || isNewValueSideEffect) { return false; } // Break the loop if the property exists break; } } Node newProperty = IR.stringKey(propertyName) .useSourceInfoIfMissingFrom(property); // Preserve the quotedness of a property reference if (lhs.isGetElem()) { newProperty.setQuotedString(); } Node newValue = rhs.detach(); newProperty.addChildToBack(newValue); if (existingProperty != null) { objectLiteral.removeChild(existingProperty); } // If the property does not already exist we can safely add it objectLiteral.addChildToBack(newProperty); propertyCandidate.detach(); return true; } private static boolean mightContainForwardReference( Node node, String varName) { if (node.isName()) { return varName.equals(node.getString()); } for (Node child = node.getFirstChild(); child != null; child = child.getNext()) { if (mightContainForwardReference(child, varName)) { return true; } } return false; } }





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