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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 2018 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.lint;

import com.google.common.base.Preconditions;
import com.google.common.collect.ImmutableSet;
import com.google.javascript.jscomp.AbstractCompiler;
import com.google.javascript.jscomp.CompilerPass;
import com.google.javascript.jscomp.DiagnosticType;
import com.google.javascript.jscomp.NodeTraversal;
import com.google.javascript.jscomp.NodeTraversal.AbstractPostOrderCallback;
import com.google.javascript.jscomp.NodeUtil;
import com.google.javascript.rhino.JSDocInfo;
import com.google.javascript.rhino.JSTypeExpression;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.Token;
import java.util.HashSet;

/**
 * Checks for missing or redundant nullability modifiers.
 *
 * 

Primitive and literal types should not be preceded by a `!` modifier. Reference types must be * preceded by a `?` or `!` modifier. */ public class CheckNullabilityModifiers extends AbstractPostOrderCallback implements CompilerPass { /** The diagnostic for a missing nullability modifier. */ public static final DiagnosticType MISSING_NULLABILITY_MODIFIER_JSDOC = DiagnosticType.disabled( "JSC_MISSING_NULLABILITY_MODIFIER_JSDOC", "{0} is a reference type with no nullability modifier, " + "which is disallowed by the style guide.\n" + "Please add a '!' to make it explicitly non-nullable, " + "or a '?' to make it explicitly nullable."); /** The diagnostic for a missing nullability modifier, where the value is clearly nullable. */ public static final DiagnosticType NULL_MISSING_NULLABILITY_MODIFIER_JSDOC = DiagnosticType.disabled( "JSC_NULL_MISSING_NULLABILITY_MODIFIER_JSDOC", "{0} is a reference type with no nullability modifier that is explicitly set to null.\n" + "Add a '?' to make it explicitly nullable."); /** The diagnostic for a redundant nullability modifier. */ public static final DiagnosticType REDUNDANT_NULLABILITY_MODIFIER_JSDOC = DiagnosticType.disabled( "JSC_REDUNDANT_NULLABILITY_MODIFIER_JSDOC", "{0} is a non-reference type which is already non-nullable.\n" + "Please remove the redundant '!', which is disallowed by the style guide."); /** The set of primitive type names. Note that `void` is a synonym for `undefined`. */ private static final ImmutableSet PRIMITIVE_TYPE_NAMES = ImmutableSet.of("boolean", "number", "string", "symbol", "undefined", "void", "null"); private final AbstractCompiler compiler; // Store the candidate warnings and template types found while traversing a single script node. private final HashSet redundantCandidates = new HashSet<>(); private final HashSet missingCandidates = new HashSet<>(); private final HashSet nullMissingCandidates = new HashSet<>(); private final HashSet templateTypeNames = new HashSet<>(); public CheckNullabilityModifiers(AbstractCompiler compiler) { this.compiler = compiler; } @Override public void process(Node externs, Node root) { NodeTraversal.traverseRoots(compiler, this, externs, root); } @Override public void visit(NodeTraversal t, Node n, Node parent) { JSDocInfo info = n.getJSDocInfo(); if (info != null) { templateTypeNames.addAll(info.getTemplateTypeNames()); templateTypeNames.addAll(info.getTypeTransformations().keySet()); if (info.hasType()) { handleHasType(info.getType(), n); } for (String param : info.getParameterNames()) { if (info.hasParameterType(param)) { visitTypeExpression(info.getParameterType(param), false); } } if (info.hasReturnType()) { visitTypeExpression(info.getReturnType(), false); } if (info.hasEnumParameterType()) { // JSDocInfoParser wraps the @enum type in an artificial '!' if it's not a primitive type. // Thus a missing modifier warning can never trigger, but a redundant modifier warning can. visitTypeExpression(info.getEnumParameterType(), false); } if (info.hasTypedefType()) { visitTypeExpression(info.getTypedefType(), false); } if (info.hasThisType()) { // JSDocInfoParser wraps the @this type in an artificial '!'. Thus a missing modifier // warning can never trigger, but a top-level '!' should be ignored if it precedes a // primitive or literal type; otherwise it will trigger a spurious redundant modifier // warning. visitTypeExpression(info.getThisType(), true); } for (JSTypeExpression expr : info.getThrownTypes()) { visitTypeExpression(expr, false); } // JSDocInfoParser enforces the @extends and @implements types to be unqualified in the source // code, so we don't need to check them. } if (n.isScript()) { // If exiting a script node, report applicable warnings and clear the maps. report(t); redundantCandidates.clear(); missingCandidates.clear(); nullMissingCandidates.clear(); templateTypeNames.clear(); return; } } private void handleHasType(JSTypeExpression expr, Node n) { // Check if the type is explicitly set to null, if so use NULL_MISSING_NULLABILITY diagnostic. if (NodeUtil.isNameDeclOrSimpleAssignLhs(n.getFirstChild(), n)) { Node rValue = NodeUtil.getRValueOfLValue(n.getFirstChild()); if (rValue != null && rValue.isNull()) { visitTypeExpression(expr, false, rValue); return; } } visitTypeExpression(expr, false); } private void report(NodeTraversal t) { for (Node n : missingCandidates) { if (shouldReport(n)) { t.report(n, MISSING_NULLABILITY_MODIFIER_JSDOC, getReportedTypeName(n)); } } for (Node n : nullMissingCandidates) { if (shouldReport(n)) { t.report(n, NULL_MISSING_NULLABILITY_MODIFIER_JSDOC, getReportedTypeName(n)); } } for (Node n : redundantCandidates) { if (shouldReport(n)) { // Report on parent so that modifier is also highlighted. t.report(n.getParent(), REDUNDANT_NULLABILITY_MODIFIER_JSDOC, getReportedTypeName(n)); } } } private boolean shouldReport(Node n) { // Ignore type names that appear in @template clauses in the same source file. In rare cases, // this may cause a false negative (if the name is used in a non-template capacity in the same // file) or a false positive (if the name is used in a template capacity in a separate file), // but it makes this check possible in the absence of type information. If the style guide ever // mandates template types (and nothing else) to be all-caps, we can use that assumption to make // this check more precise. return !n.isString() || !templateTypeNames.contains(n.getString()); } private void visitTypeExpression(JSTypeExpression expr, boolean hasArtificialTopLevelBang) { visitTypeExpression(expr, hasArtificialTopLevelBang, /* rValue= */ null); } private void visitTypeExpression( JSTypeExpression expr, boolean hasArtificialTopLevelBang, Node rValue) { Node root = expr.getRoot(); NodeUtil.visitPreOrder( root, (Node node) -> { Node parent = node.getParent(); boolean isPrimitiveOrLiteral = isPrimitiveType(node) || isFunctionLiteral(node) || isRecordLiteral(node); boolean isReference = isReferenceType(node); // Whether the node is preceded by a '!' or '?'. boolean hasBang = parent != null && parent.getToken() == Token.BANG; boolean hasQmark = parent != null && parent.getToken() == Token.QMARK; // Whether the node is preceded by a '!' that wasn't artificially added. boolean hasNonArtificialBang = hasBang && !(hasArtificialTopLevelBang && parent == root); // Whether the node is the type in function(new:T) or function(this:T). boolean isNewOrThis = parent != null && (parent.isNew() || parent.isThis()); // Whether the node is the type name in a typeof expression. boolean isTypeOfType = parent != null && parent.isTypeOf(); if (isReference && !hasBang && !hasQmark && !isNewOrThis && !isTypeOfType) { if (rValue != null && rValue.isNull()) { nullMissingCandidates.add(node); } else { missingCandidates.add(node); } } else if (isPrimitiveOrLiteral && hasNonArtificialBang) { redundantCandidates.add(node); } }); } private static boolean isPrimitiveType(Node node) { return node.isString() && PRIMITIVE_TYPE_NAMES.contains(node.getString()); } private static boolean isReferenceType(Node node) { return node.isString() && !PRIMITIVE_TYPE_NAMES.contains(node.getString()); } private static boolean isFunctionLiteral(Node node) { return node.isFunction(); } private static boolean isRecordLiteral(Node node) { return node.getToken() == Token.LC; } private static String getReportedTypeName(Node node) { if (isFunctionLiteral(node)) { return "Function"; } if (isRecordLiteral(node)) { return "Record literal"; } Preconditions.checkState(isPrimitiveType(node) || isReferenceType(node)); return node.getString(); } }





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