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/*
 * Copyright 2009 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 com.google.javascript.jscomp.NodeTraversal.AbstractPostOrderCallback;
import com.google.javascript.rhino.JSDocInfo;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.jstype.FunctionType;
import com.google.javascript.rhino.jstype.JSType;
import com.google.javascript.rhino.jstype.ObjectType;
import javax.annotation.Nullable;

/**
 * Sets the {@link JSDocInfo} on all {@code JSType}s, including their properties, using the JSDoc on
 * the node defining that type or property.
 *
 * 

This pass propagates JSDocs across the type graph, but not across the symbol graph. For * example: * *

{@code
 * /**
 *  * I'm a user type!
 *  * @constructor
 *  *\/
 * var Foo = function() { };
 *
 * var Bar = Foo;
 * }
* * will assign the "I'm a user type!" JSDoc from the `Foo` node to type "Foo" and type "ctor{Foo}". * However, this pass says nothing about JSDocs being propagated to the `Bar` node. * *

JSDoc is initially attached to AST Nodes at parse time. There are 3 cases where JSDocs get * attached to the type system, always from the associated declaration node: * *

    *
  • Nominal types (e.g. constructors, interfaces, enums). *
  • Object type properties (e.g. `Foo.prototype.bar`). *
  • Anonymous structural types, including functions. (Some function types with the same * signature are unique and therefore can have distinct JSDocs.) (b/111070482: it's unclear * why we support this.) *
* *

#1 is fairly straight-forward with the additional detail that JSDocs are propagated to both * the instance type and the declaration type (i.e. the ctor or enum type). #2 should also * be mostly self-explanatory; it covers scenarios like the following: * *

{@code
 * /**
 *  * I'm a method!
 *  * @param {number} x
 *  * @return {number}
 *  *\/
 * Foo.prototype.bar = function(x) { ... };
 * }
* * in which JSDocInfo will appear on the "bar" slot of `Foo.prototype` and `Foo`. The function type * used as the RHS of the assignments (i.e. `function(this:Foo, number): number`) is not considered. * Note that this example would work equally well if `bar` were declared abstract. #3 is a bit * trickier; it covers types such as the following declarations: * *
{@code
 * /** I'm an anonymous structural object type! *\/
 * var myObject = {a: 5, b: 'Hello'};
 *
 * /**
 *  * I'm an anonymous structural function type!
 *  * @param {number} x
 *  * @return {string}
 *  *\/
 * var myFunction = function(x) { ... };
 *
 * }
* * which define unique types with their own JSDoc attributes. Object literal or function types with * the same structure will get different JSDocs despite possibly comparing equal. Additionally, when * assigning instances of these types as properties of nominal types (e.g. using `myFunction` as the * RHS of #2) the structural type JSDoc plays no part. */ class InferJSDocInfo extends AbstractPostOrderCallback implements CompilerPass { private final AbstractCompiler compiler; InferJSDocInfo(AbstractCompiler compiler) { this.compiler = compiler; } @Override public void process(Node externs, Node root) { if (externs != null) { NodeTraversal.traverse(compiler, externs, this); } if (root != null) { NodeTraversal.traverse(compiler, root, this); } } @Override public void visit(NodeTraversal t, Node n, Node parent) { switch (n.getToken()) { // Infer JSDocInfo on types of all type declarations on variables. case NAME: { if (parent == null) { return; } // Only allow JSDoc on variable declarations, named functions, named classes, and assigns. final JSDocInfo typeDoc; final JSType inferredType; if (NodeUtil.isNameDeclaration(parent)) { // Case: `/** ... */ (var|let|const) x = function() { ... }`. // Case: `(var|let|const) /** ... */ x = function() { ... }`. JSDocInfo nameInfo = n.getJSDocInfo(); typeDoc = (nameInfo != null) ? nameInfo : parent.getJSDocInfo(); inferredType = n.getJSType(); } else if (NodeUtil.isFunctionDeclaration(parent) || NodeUtil.isClassDeclaration(parent)) { // Case: `/** ... */ function f() { ... }`. // Case: `/** ... */ class Foo() { ... }`. typeDoc = parent.getJSDocInfo(); inferredType = parent.getJSType(); } else if (parent.isAssign() && n.isFirstChildOf(parent)) { // Case: `/** ... */ x = function () { ... }` typeDoc = parent.getJSDocInfo(); inferredType = n.getJSType(); } else { return; } if (typeDoc == null) { return; } // If we have no type, or the type already has a JSDocInfo, then we're done. ObjectType objType = dereferenced(inferredType); if (objType == null || objType.getJSDocInfo() != null) { return; } attachJSDocInfoToNominalTypeOrShape(objType, typeDoc, n.getString()); } return; case STRING_KEY: case GETTER_DEF: case SETTER_DEF: case MEMBER_FUNCTION_DEF: case MEMBER_FIELD_DEF: { JSDocInfo typeDoc = n.getJSDocInfo(); if (typeDoc == null) { return; } final ObjectType owningType; if (parent.isClassMembers()) { FunctionType ctorType = JSType.toMaybeFunctionType(parent.getParent().getJSType()); if (ctorType == null) { return; } if (n.isStaticMember()) { owningType = ctorType; } else if (n.isMemberFieldDef()) { owningType = ctorType.getInstanceType(); } else { owningType = ctorType.getPrototype(); } } else { owningType = dereferenced(parent.getJSType()); } if (owningType == null) { return; } String propName = n.getString(); if (owningType.hasOwnProperty(propName) && owningType.getPropertyJSDocInfo(propName) == null) { owningType.setPropertyJSDocInfo(propName, typeDoc); } } return; case GETPROP: { // Infer JSDocInfo on properties. // There are two ways to write doc comments on a property. final JSDocInfo typeDoc; if (parent.isAssign() && n.isFirstChildOf(parent)) { // Case: `/** @deprecated */ obj.prop = ...;` typeDoc = parent.getJSDocInfo(); } else if (parent.isExprResult()) { // Case: `/** @deprecated */ obj.prop;` typeDoc = n.getJSDocInfo(); } else { return; } if (typeDoc == null || !typeDoc.containsDeclaration()) { return; } ObjectType lhsType = dereferenced(n.getFirstChild().getJSType()); if (lhsType == null) { return; } // Put the JSDoc in the property slot, if there is one. String propName = n.getString(); if (lhsType.hasOwnProperty(propName) && lhsType.getPropertyJSDocInfo(propName) == null) { lhsType.setPropertyJSDocInfo(propName, typeDoc); } // Put the JSDoc in any constructors or function shapes as well. ObjectType propType = dereferenced(lhsType.getPropertyType(propName)); if (propType != null) { attachJSDocInfoToNominalTypeOrShape(propType, typeDoc, n.getQualifiedName()); } } return; default: return; } } /** Nullsafe wrapper for {@code JSType#dereference()}. */ private static ObjectType dereferenced(@Nullable JSType type) { return type == null ? null : type.dereference(); } /** Handle cases #1 and #3 in the class doc. */ private static void attachJSDocInfoToNominalTypeOrShape( ObjectType objType, JSDocInfo docInfo, @Nullable String qName) { if (objType.isConstructor() || objType.isInterface()) { if (!isReferenceNameOf(objType, qName)) { return; } objType.setJSDocInfo(docInfo); JSType.toMaybeFunctionType(objType).getInstanceType().setJSDocInfo(docInfo); } else if (objType.isEnumType()) { // Given: `/** @enum {number} */ MyEnum = { FOO: 0 };` // Then: typeOf(MyEnum).referenceName() == "enum{MyEnum}" // Then: typeOf(MyEnum.FOO).referenceName() == "MyEnum" ObjectType elementType = objType.toMaybeEnumType().getElementsType(); if (!isReferenceNameOf(elementType, qName)) { return; } objType.setJSDocInfo(docInfo); elementType.setJSDocInfo(docInfo); } else if (!objType.isNativeObjectType() && objType.isFunctionType()) { // Anonymous function types identified by their parameter and return types. Remember there can // be many unique but equal instances. objType.setJSDocInfo(docInfo); } } private static boolean isReferenceNameOf(ObjectType type, String name) { return type.hasReferenceName() && type.getReferenceName().equals(name); } }




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