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Closure Compiler is a JavaScript optimizing compiler. It parses your JavaScript, analyzes it, removes dead code and rewrites and minimizes what's left. It also checks syntax, variable references, and types, and warns about common JavaScript pitfalls. It is used in many of Google's JavaScript apps, including Gmail, Google Web Search, Google Maps, and Google Docs. This binary checks for style issues such as incorrect or missing JSDoc usage, and missing goog.require() statements. It does not do more advanced checks such as typechecking.

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/*
 * Copyright 2019 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.checkNotNull;
import static com.google.common.base.Preconditions.checkState;

import com.google.common.collect.ImmutableSet;
import com.google.javascript.jscomp.AccessorSummary.PropertyAccessKind;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.jstype.JSType;
import com.google.javascript.rhino.jstype.JSTypeNative;

/**
 * Logic for answering questions about portions of the AST.
 *
 * 

What kind of methods should go here? * *

Methods that answer questions about some portion of the AST and that may require global * information about the compilation, generally taking at least one {@link Node} as an argument. For * example: * *

    *
  • Does a node have side effects? *
  • Can we statically determine the value of a node? *
* *

What kind of logic should not go here? * *

Really simple logic that requires no global information, like finding the parameter list node * of a function, should be in {@link NodeUtil}. Logic that creates new Nodes or modifies the AST * should go in {@link AstFactory}. */ public class AstAnalyzer { /** * The set of builtin constructors that don't have side effects. * *

TODO(bradfordcsmith): If all of these are annotated {@code sideefectfree}, can we drop this * list? */ private static final ImmutableSet CONSTRUCTORS_WITHOUT_SIDE_EFFECTS = ImmutableSet.of("Array", "Date", "Error", "Object", "RegExp", "XMLHttpRequest"); // A list of built-in object creation or primitive type cast functions that // can also be called as constructors but lack side-effects. // TODO(johnlenz): consider adding an extern annotation for this. private static final ImmutableSet BUILTIN_FUNCTIONS_WITHOUT_SIDEEFFECTS = ImmutableSet.of("Object", "Array", "String", "Number", "Boolean", "RegExp", "Error"); private static final ImmutableSet OBJECT_METHODS_WITHOUT_SIDEEFFECTS = ImmutableSet.of("toString", "valueOf"); private static final ImmutableSet REGEXP_METHODS = ImmutableSet.of("test", "exec"); private static final ImmutableSet STRING_REGEXP_METHODS = ImmutableSet.of("match", "replace", "search", "split"); private final AbstractCompiler compiler; private final boolean assumeGettersAndSettersAreSideEffectFree; AstAnalyzer(AbstractCompiler compiler, boolean assumeGettersAndSettersAreSideEffectFree) { this.compiler = checkNotNull(compiler); this.assumeGettersAndSettersAreSideEffectFree = assumeGettersAndSettersAreSideEffectFree; } /** * Returns true if the node may create new mutable state, or change existing state. * * @see XKCD Cartoon */ boolean mayEffectMutableState(Node n) { return checkForStateChangeHelper(n, /* checkForNewObjects= */ true); } /** * Returns true if the node which may have side effects when executed. This version default to the * "safe" assumptions when the compiler object is not provided (RegExp have side-effects, etc). */ public boolean mayHaveSideEffects(Node n) { return checkForStateChangeHelper(n, /* checkForNewObjects= */ false); } /** * Returns true if this function call may have side effects. * *

This method is guaranteed to return true all calls that have side-effects, but may also * return true for calls that have none. * * @param callNode - function call node */ boolean functionCallHasSideEffects(Node callNode) { checkState(callNode.isCall() || callNode.isTaggedTemplateLit(), callNode); if (callNode.isNoSideEffectsCall()) { return false; } if (callNode.isOnlyModifiesArgumentsCall() && NodeUtil.allArgsUnescapedLocal(callNode)) { return false; } Node callee = callNode.getFirstChild(); // Built-in functions with no side effects. if (callee.isName()) { String name = callee.getString(); if (BUILTIN_FUNCTIONS_WITHOUT_SIDEEFFECTS.contains(name)) { return false; } } else if (callee.isGetProp()) { if (callNode.hasOneChild() && OBJECT_METHODS_WITHOUT_SIDEEFFECTS.contains(callee.getLastChild().getString())) { return false; } if (callNode.isOnlyModifiesThisCall() && NodeUtil.evaluatesToLocalValue(callee.getFirstChild())) { return false; } // Many common Math functions have no side-effects. // TODO(nicksantos): This is a terrible terrible hack, until // I create a definitionProvider that understands namespacing. if (callee.getFirstChild().isName() && callee.isQualifiedName() && callee.getFirstChild().getString().equals("Math")) { switch (callee.getLastChild().getString()) { case "abs": case "acos": case "acosh": case "asin": case "asinh": case "atan": case "atanh": case "atan2": case "cbrt": case "ceil": case "cos": case "cosh": case "exp": case "expm1": case "floor": case "hypot": case "log": case "log10": case "log1p": case "log2": case "max": case "min": case "pow": case "round": case "sign": case "sin": case "sinh": case "sqrt": case "tan": case "tanh": case "trunc": return false; case "random": return !callNode.hasOneChild(); // no parameters default: // Unknown Math.* function, so fall out of this switch statement. } } if (!compiler.hasRegExpGlobalReferences()) { if (callee.getFirstChild().isRegExp() && REGEXP_METHODS.contains(callee.getLastChild().getString())) { return false; } else if (isTypedAsString(callee.getFirstChild())) { // Unlike regexs, string methods don't need to be hosted on a string literal // to avoid leaking mutating global state changes, it is just necessary that // the regex object can't be referenced. String method = callee.getLastChild().getString(); Node param = callee.getNext(); if (param != null) { if (param.isString()) { if (STRING_REGEXP_METHODS.contains(method)) { return false; } } else if (param.isRegExp()) { if ("replace".equals(method)) { // Assume anything but a string constant has side-effects return !param.getNext().isString(); } else if (STRING_REGEXP_METHODS.contains(method)) { return false; } } } } } } return true; } private boolean isTypedAsString(Node n) { if (n.isString()) { return true; } if (compiler.getOptions().useTypesForLocalOptimization) { JSType type = n.getJSType(); if (type != null) { JSType nativeStringType = compiler.getTypeRegistry().getNativeType(JSTypeNative.STRING_TYPE); if (type.isEquivalentTo(nativeStringType)) { return true; } } } return false; } /** * Returns true if some node in n's subtree changes application state. If {@code * checkForNewObjects} is true, we assume that newly created mutable objects (like object * literals) change state. Otherwise, we assume that they have no side effects. */ private boolean checkForStateChangeHelper(Node n, boolean checkForNewObjects) { Node parent = n.getParent(); // Rather than id which ops may have side effects, id the ones // that we know to be safe switch (n.getToken()) { case THROW: // Throw is a side-effect by definition. case YIELD: case AWAIT: case FOR_AWAIT_OF: // Context switches can conceal side-effects. case FOR_OF: case FOR_IN: // Enhanced for loops are almost always side-effectful; it's not worth checking them // further. Particularly, they represent a kind of assignment op. case VAR: case LET: case CONST: case EXPORT: // Variable declarations are side-effects. return true; case OBJECTLIT: case ARRAYLIT: case REGEXP: if (checkForNewObjects) { return true; } break; case REST: case SPREAD: if (parent.isObjectPattern() || parent.isObjectLit()) { // Object-rest and object-spread may trigger a getter. return !assumeGettersAndSettersAreSideEffectFree; } else if (NodeUtil.iteratesImpureIterable(n)) { return true; } break; case NAME: // TODO(b/129564961): Consider EXPORT declarations. if (n.hasChildren()) { // This is the left side of a var/let/const return true; } break; case FUNCTION: // Function expressions don't have side-effects, but function // declarations change the namespace. Either way, we don't need to // check the children, since they aren't executed at declaration time. return checkForNewObjects || NodeUtil.isFunctionDeclaration(n); case GETTER_DEF: case SETTER_DEF: case MEMBER_FUNCTION_DEF: // simply defining a member function, getter, or setter has no side effects return false; case CLASS: return checkForNewObjects || NodeUtil.isClassDeclaration(n) // Check the extends clause for side effects. || checkForStateChangeHelper(n.getSecondChild(), checkForNewObjects) // Check for class members that are computed properties with side effects. || checkForStateChangeHelper(n.getLastChild(), checkForNewObjects); case CLASS_MEMBERS: for (Node member = n.getFirstChild(); member != null; member = member.getNext()) { if (member.isComputedProp() && checkForStateChangeHelper(member.getFirstChild(), checkForNewObjects)) { return true; } } return false; case NEW: if (checkForNewObjects) { return true; } if (!constructorCallHasSideEffects(n)) { // loop below will see if the constructor parameters have // side-effects break; } return true; case CALL: // calls to functions that have no side effects have the no // side effect property set. if (!functionCallHasSideEffects(n)) { // loop below will see if the function parameters have // side-effects break; } return true; case TAGGED_TEMPLATELIT: // TODO(b/128527671): Inspect the children of the expression for side-effects. return functionCallHasSideEffects(n); case CAST: case AND: case BLOCK: case ROOT: case EXPR_RESULT: case HOOK: case IF: case PARAM_LIST: case DEFAULT_VALUE: // Any context that supports DEFAULT_VALUE is already an assignment. The possiblity of a // default doesn't itself create a side-effect. Therefore, we prefer to defer the decision. case NUMBER: case OR: case THIS: case TRUE: case FALSE: case NULL: case STRING: case SWITCH: case TEMPLATELIT_SUB: case TRY: case EMPTY: case TEMPLATELIT: case TEMPLATELIT_STRING: case COMPUTED_PROP: // Assume that COMPUTED_PROP keys in OBJECT_PATTERN never trigger getters. break; case STRING_KEY: if (parent.isObjectPattern()) { // This STRING_KEY names a property being read from. // Assumption: GETELEM (via a COMPUTED_PROP) never triggers a getter or setter. if (getPropertyKind(n.getString()).hasGetter()) { return true; } } break; case GETELEM: // Since we can't see what property is accessed we cannot tell whether obj[someProp] will // trigger a getter or setter, and thus could have side effects. // We will assume it does not. This introduces some risk of code breakage, but the code // size cost of assuming all GETELEM nodes have side effects is completely unacceptable. break; case GETPROP: if (getPropertyKind(n.getLastChild().getString()).hasGetterOrSetter()) { // TODO(b/135640150): Use the parent nodes to determine whether this is a get or set. return true; } break; default: if (NodeUtil.isSimpleOperator(n)) { break; } if (NodeUtil.isAssignmentOp(n)) { Node assignTarget = n.getFirstChild(); if (assignTarget.isName()) { return true; } // Assignments will have side effects if // a) The RHS has side effects, or // b) The LHS has side effects, or // c) A name on the LHS will exist beyond the life of this statement. if (checkForStateChangeHelper(n.getFirstChild(), checkForNewObjects) || checkForStateChangeHelper(n.getLastChild(), checkForNewObjects)) { return true; } if (NodeUtil.isGet(assignTarget)) { // If the object being assigned to is a local object, don't // consider this a side-effect as it can't be referenced // elsewhere. Don't do this recursively as the property might // be an alias of another object, unlike a literal below. Node current = assignTarget.getFirstChild(); if (NodeUtil.evaluatesToLocalValue(current)) { return false; } // A literal value as defined by "isLiteralValue" is guaranteed // not to be an alias, or any components which are aliases of // other objects. // If the root object is a literal don't consider this a // side-effect. while (NodeUtil.isGet(current)) { current = current.getFirstChild(); } return !NodeUtil.isLiteralValue(current, true); } else { // TODO(johnlenz): remove this code and make this an exception. This // is here only for legacy reasons, the AST is not valid but // preserve existing behavior. return !NodeUtil.isLiteralValue(assignTarget, true); } } return true; } for (Node c = n.getFirstChild(); c != null; c = c.getNext()) { if (checkForStateChangeHelper(c, checkForNewObjects)) { return true; } } return false; } /** * Do calls to this constructor have side effects? * * @param newNode - constructor call node */ boolean constructorCallHasSideEffects(Node newNode) { checkArgument(newNode.isNew(), "Expected NEW node, got %s", newNode.getToken()); if (newNode.isNoSideEffectsCall()) { return false; } // allArgsUnescapedLocal() is actually confirming that all of the arguments are literals or // values created at the point they are passed in to the call and are not saved anywhere in the // calling scope. // TODO(bradfordcsmith): It would be good to rename allArgsUnescapedLocal() to something // that makes this clearer. if (newNode.isOnlyModifiesArgumentsCall() && NodeUtil.allArgsUnescapedLocal(newNode)) { return false; } Node nameNode = newNode.getFirstChild(); return !nameNode.isName() || !CONSTRUCTORS_WITHOUT_SIDE_EFFECTS.contains(nameNode.getString()); } /** * Returns true if the current node's type implies side effects. * *

This is a non-recursive version of the may have side effects check; used to check wherever * the current node's type is one of the reasons why a subtree has side effects. */ boolean nodeTypeMayHaveSideEffects(Node n) { checkNotNull(compiler); if (NodeUtil.isAssignmentOp(n)) { return true; } switch (n.getToken()) { case DELPROP: case DEC: case INC: case YIELD: case THROW: case AWAIT: case FOR_IN: // assigns to a loop LHS case FOR_OF: // assigns to a loop LHS, runs an iterator case FOR_AWAIT_OF: // assigns to a loop LHS, runs an iterator, async operations. return true; case CALL: case TAGGED_TEMPLATELIT: return functionCallHasSideEffects(n); case NEW: return constructorCallHasSideEffects(n); case NAME: // A variable definition. // TODO(b/129564961): Consider EXPORT declarations. return n.hasChildren(); case REST: case SPREAD: if (n.getParent().isObjectPattern() || n.getParent().isObjectLit()) { // Object-rest and object-spread may trigger a getter. return !assumeGettersAndSettersAreSideEffectFree; } else if (NodeUtil.iteratesImpureIterable(n)) { return true; } break; case STRING_KEY: if (n.getParent().isObjectPattern()) { return getPropertyKind(n.getString()).hasGetter(); } break; case GETPROP: return getPropertyKind(n.getLastChild().getString()).hasGetterOrSetter(); default: break; } return false; } private PropertyAccessKind getPropertyKind(String name) { return assumeGettersAndSettersAreSideEffectFree ? PropertyAccessKind.NORMAL : compiler.getAccessorSummary().getKind(name); } }





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