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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 2008 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.checkNotNull;

import com.google.common.annotations.GwtIncompatible;
import com.google.common.base.CaseFormat;
import com.google.debugging.sourcemap.proto.Mapping.OriginalMapping;
import com.google.javascript.jscomp.JsMessage.Builder;
import com.google.javascript.jscomp.NodeTraversal.AbstractPostOrderCallback;
import com.google.javascript.jscomp.parsing.parser.util.format.SimpleFormat;
import com.google.javascript.rhino.JSDocInfo;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.Token;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
import java.util.regex.Pattern;
import javax.annotation.Nullable;

/**
 * Traverses across parsed tree and finds I18N messages. Then it passes it to {@link
 * JsMessageVisitor#processJsMessage(JsMessage, JsMessageDefinition)}.
 *
 * @author [email protected] (Anatol Pomazau)
 */
@GwtIncompatible("JsMessage, java.util.regex")
public abstract class JsMessageVisitor extends AbstractPostOrderCallback implements CompilerPass {

  private static final String MSG_FUNCTION_NAME = "goog.getMsg";
  private static final String MSG_FALLBACK_FUNCTION_NAME = "goog.getMsgWithFallback";

  static final DiagnosticType MESSAGE_HAS_NO_DESCRIPTION =
      DiagnosticType.warning(
          "JSC_MSG_HAS_NO_DESCRIPTION", "Message {0} has no description. Add @desc JsDoc tag.");

  static final DiagnosticType MESSAGE_HAS_NO_TEXT =
      DiagnosticType.warning(
          "JSC_MSG_HAS_NO_TEXT",
          "Message value of {0} is just an empty string. " + "Empty messages are forbidden.");

  static final DiagnosticType MESSAGE_TREE_MALFORMED =
      DiagnosticType.error("JSC_MSG_TREE_MALFORMED", "Message parse tree malformed. {0}");

  static final DiagnosticType MESSAGE_HAS_NO_VALUE =
      DiagnosticType.error("JSC_MSG_HAS_NO_VALUE", "message node {0} has no value");

  static final DiagnosticType MESSAGE_DUPLICATE_KEY =
      DiagnosticType.error(
          "JSC_MSG_KEY_DUPLICATED",
          "duplicate message variable name found for {0}, " + "initial definition {1}:{2}");

  static final DiagnosticType MESSAGE_NODE_IS_ORPHANED =
      DiagnosticType.warning(
          "JSC_MSG_ORPHANED_NODE",
          MSG_FUNCTION_NAME + "() function could be used only with MSG_* property or variable");

  static final DiagnosticType MESSAGE_NOT_INITIALIZED_USING_NEW_SYNTAX =
      DiagnosticType.warning(
          "JSC_MSG_NOT_INITIALIZED_USING_NEW_SYNTAX",
          "message not initialized using " + MSG_FUNCTION_NAME);

  static final DiagnosticType BAD_FALLBACK_SYNTAX =
      DiagnosticType.error(
          "JSC_MSG_BAD_FALLBACK_SYNTAX",
          SimpleFormat.format(
              "Bad syntax. " + "Expected syntax: %s(MSG_1, MSG_2)", MSG_FALLBACK_FUNCTION_NAME));

  static final DiagnosticType FALLBACK_ARG_ERROR =
      DiagnosticType.error(
          "JSC_MSG_FALLBACK_ARG_ERROR", "Could not find message entry for fallback argument {0}");

  private static final String PH_JS_PREFIX = "{$";
  private static final String PH_JS_SUFFIX = "}";

  static final String MSG_PREFIX = "MSG_";

  /**
   * Pattern for unnamed messages.
   *
   * 

All JS messages in JS code should have unique name but messages in generated code (i.e. from * soy template) could have duplicated message names. Later we replace the message names with ids * constructed as a hash of the message content. * *

Soy generates messages with names * MSG_UNNAMED.* . This pattern recognizes such messages. */ private static final Pattern MSG_UNNAMED_PATTERN = Pattern.compile("MSG_UNNAMED.*"); private static final Pattern CAMELCASE_PATTERN = Pattern.compile("[a-z][a-zA-Z\\d]*[_\\d]*"); static final String HIDDEN_DESC_PREFIX = "@hidden"; // For old-style JS messages private static final String DESC_SUFFIX = "_HELP"; private final boolean needToCheckDuplications; private final JsMessage.Style style; private final JsMessage.IdGenerator idGenerator; final AbstractCompiler compiler; /** * The names encountered associated with their defining node and source. We use it for tracking * duplicated message ids in the source code. */ private final Map messageNames = new HashMap<>(); private final Map unnamedMessages = new HashMap<>(); /** * List of found goog.getMsg call nodes. * *

When we visit goog.getMsg() node we add it, and later when we visit its parent we remove it. * All nodes that are left at the end of traversing are orphaned nodes. It means have no * corresponding var or property node. */ private final Set googMsgNodes = new HashSet<>(); private final CheckLevel checkLevel; /** * Creates JS message visitor. * * @param compiler the compiler instance * @param needToCheckDuplications whether to check duplicated messages in traversed * @param style style that should be used during parsing * @param idGenerator generator that used for creating unique ID for the message */ protected JsMessageVisitor( AbstractCompiler compiler, boolean needToCheckDuplications, JsMessage.Style style, JsMessage.IdGenerator idGenerator) { this.compiler = compiler; this.needToCheckDuplications = needToCheckDuplications; this.style = style; this.idGenerator = idGenerator; checkLevel = (style == JsMessage.Style.CLOSURE) ? CheckLevel.ERROR : CheckLevel.WARNING; // TODO(anatol): add flag that decides whether to process UNNAMED messages. // Some projects would not want such functionality (unnamed) as they don't // use SOY templates. } @Override public void process(Node externs, Node root) { NodeTraversal.traverse(compiler, root, this); for (Node msgNode : googMsgNodes) { compiler.report(JSError.make(msgNode, checkLevel, MESSAGE_NODE_IS_ORPHANED)); } } @Override public void visit(NodeTraversal traversal, Node node, Node unused) { collectGetMsgCall(traversal, node); checkMessageInitialization(traversal, node); } private void checkMessageInitialization(NodeTraversal traversal, Node node) { final Node parent = node.getParent(); String messageKey; final String originalMessageKey; final Node msgNode; final boolean isVar; switch (node.getToken()) { case NAME: // Case: `var MSG_HELLO = 'Message';` if (parent == null || !NodeUtil.isNameDeclaration(parent)) { return; } messageKey = node.getString(); originalMessageKey = node.getOriginalName(); msgNode = node.getFirstChild(); isVar = true; break; case ASSIGN: // Case: `somenamespace.someclass.MSG_HELLO = 'Message';` Node getProp = node.getFirstChild(); if (!getProp.isGetProp()) { return; } messageKey = getProp.getLastChild().getString(); originalMessageKey = getProp.getOriginalName(); msgNode = node.getLastChild(); isVar = false; break; case STRING_KEY: // Case: `var t = {MSG_HELLO: 'Message'}`; // Case: `var {MSG_HELLO} = x; if (node.isQuotedString() || !node.hasChildren()) { return; } messageKey = node.getString(); originalMessageKey = node.getOriginalName(); msgNode = node.getFirstChild(); isVar = false; break; default: return; } if (originalMessageKey != null) { messageKey = originalMessageKey; } // Is this a message name? boolean isNewStyleMessage = msgNode != null && msgNode.isCall(); if (!isMessageName(messageKey, isNewStyleMessage)) { return; } if (msgNode == null) { compiler.report(JSError.make(node, MESSAGE_HAS_NO_VALUE, messageKey)); return; } if (isLegalMessageVarAlias(msgNode, messageKey)) { return; } // Report a warning if a qualified messageKey that looks like a message (e.g. "a.b.MSG_X") // doesn't use goog.getMsg(). if (isNewStyleMessage) { googMsgNodes.remove(msgNode); } else if (style != JsMessage.Style.LEGACY) { // TODO(johnlenz): promote this to an error once existing conflicts have been // cleaned up. compiler.report(JSError.make(node, MESSAGE_NOT_INITIALIZED_USING_NEW_SYNTAX)); if (style == JsMessage.Style.CLOSURE) { // Don't extract the message if we aren't accepting LEGACY messages return; } } boolean isUnnamedMsg = isUnnamedMessageName(messageKey); JsMessage.Builder builder = new JsMessage.Builder(isUnnamedMsg ? null : messageKey); OriginalMapping mapping = compiler.getSourceMapping( traversal.getSourceName(), traversal.getLineNumber(), traversal.getCharno()); if (mapping != null) { builder.setSourceName(mapping.getOriginalFile()); } else { builder.setSourceName(traversal.getSourceName()); } try { if (isVar) { extractMessageFromVariable(builder, node, parent, parent.getParent()); } else { extractMessageFrom(builder, msgNode, node); } } catch (MalformedException ex) { compiler.report(JSError.make(ex.getNode(), MESSAGE_TREE_MALFORMED, ex.getMessage())); return; } JsMessage extractedMessage = builder.build(idGenerator); // If asked to check named internal messages. if (needToCheckDuplications && !isUnnamedMsg && !extractedMessage.isExternal()) { checkIfMessageDuplicated(messageKey, msgNode); } trackMessage(traversal, extractedMessage, messageKey, msgNode, isUnnamedMsg); if (extractedMessage.isEmpty()) { // value of the message is an empty string. Translators do not like it. compiler.report(JSError.make(node, MESSAGE_HAS_NO_TEXT, messageKey)); } // New-style messages must have descriptions. We don't emit a warning // for legacy-style messages, because there are thousands of // them in legacy code that are not worth the effort to fix, since they've // already been translated anyway. String desc = extractedMessage.getDesc(); if (isNewStyleMessage && (desc == null || desc.trim().isEmpty()) && !extractedMessage.isExternal()) { compiler.report(JSError.make(node, MESSAGE_HAS_NO_DESCRIPTION, messageKey)); } JsMessageDefinition msgDefinition = new JsMessageDefinition(msgNode); processJsMessage(extractedMessage, msgDefinition); } private void collectGetMsgCall(NodeTraversal traversal, Node call) { if (!call.isCall()) { return; } // goog.getMsg() if (call.getFirstChild().matchesQualifiedName(MSG_FUNCTION_NAME)) { googMsgNodes.add(call); } else if (call.getFirstChild().matchesQualifiedName(MSG_FALLBACK_FUNCTION_NAME)) { visitFallbackFunctionCall(traversal, call); } } /** * Track a message for later retrieval. * *

This is used for tracking duplicates, and for figuring out message fallback. Not all message * types are trackable, because that would require a more sophisticated analysis. e.g., function * f(s) { s.MSG_UNNAMED_X = 'Some untrackable message'; } */ private void trackMessage( NodeTraversal t, JsMessage message, String msgName, Node msgNode, boolean isUnnamedMessage) { if (!isUnnamedMessage) { MessageLocation location = new MessageLocation(message, msgNode); messageNames.put(msgName, location); } else { Var var = t.getScope().getVar(msgName); if (var != null) { unnamedMessages.put(var, message); } } } /** * Defines any special cases that are exceptions to what would otherwise be illegal message * assignments. * *

These exceptions are generally due to the pass being designed before new syntax was * introduced. */ private static boolean isLegalMessageVarAlias(Node msgNode, String msgKey) { if (msgNode.isGetProp() && msgNode.isQualifiedName() && msgNode.getLastChild().getString().equals(msgKey)) { // Case: `foo.Thing.MSG_EXAMPLE = bar.OtherThing.MSG_EXAMPLE;` // // This kind of construct is created by Es6ToEs3ClassSideInheritance. Just ignore it; the // message will have already been extracted from the base class. return true; } if (!msgNode.isName()) { return false; } // In modules, the NAME node will be rewritten with a module-qualified name (e.g. // `var {MSG_HELLO: goog$module$my$module_MSG_HELLO} = x;`). String aliasName = (msgNode.getOriginalName() != null) ? msgNode.getOriginalName() : msgNode.getString(); if (msgNode.getGrandparent().isObjectPattern()) { // Case: `var {MSG_HELLO} = x; // // It's a destructuring import. Ignore it if the name is the same. if (aliasName.equals(msgKey)) { return true; } } if (msgNode.getParent().isAssign() && msgNode.getPrevious().isGetProp()) { // Case: `exports = {MSG_FOO}` or 'exports = {MSG_FOO: MSG_FOO}' when used with // declareLegacyNamespace. if (aliasName.equals(msgKey)) { return true; } } Node greatGrandparent = msgNode.getGrandparent().getParent(); if (greatGrandparent == null) { return false; } if (msgNode.isName() && msgNode.getString().equals(msgKey) && msgNode.getGrandparent().isObjectLit() && greatGrandparent.isAssign() && greatGrandparent.getFirstChild().isName() && greatGrandparent.getFirstChild().getString().equals("exports")) { // Case: 'exports = {MSG_FOO};' or 'exports = {MSG_FOO: MSG_FOO}' // // This is an export of a message variable. return true; } // TODO(nickreid): Should `var MSG_HELLO = x.MSG_HELLO;` also be allowed? return false; } /** Get a previously tracked message. */ private JsMessage getTrackedMessage(NodeTraversal t, String msgName) { boolean isUnnamedMessage = isUnnamedMessageName(msgName); if (!isUnnamedMessage) { MessageLocation location = messageNames.get(msgName); return location == null ? null : location.message; } else { Var var = t.getScope().getVar(msgName); if (var != null) { return unnamedMessages.get(var); } } return null; } /** * Checks if message already processed. If so - it generates 'message duplicated' compiler error. * * @param msgName the name of the message * @param msgNode the node that represents JS message */ private void checkIfMessageDuplicated(String msgName, Node msgNode) { if (messageNames.containsKey(msgName)) { MessageLocation location = messageNames.get(msgName); compiler.report( JSError.make( msgNode, MESSAGE_DUPLICATE_KEY, msgName, location.messageNode.getSourceFileName(), Integer.toString(location.messageNode.getLineno()))); } } /** * Creates a {@link JsMessage} for a JS message defined using a JS variable declaration (e.g * var MSG_X = ...;). * * @param builder the message builder * @param nameNode a NAME node for a JS message variable * @param parentNode a VAR node, parent of {@code nameNode} * @param grandParentNode the grandparent of {@code nameNode}. This node is only used to get meta * data about the message that might be surrounding it (e.g. a message description). This * argument may be null if the meta data is not needed. * @throws MalformedException if {@code varNode} does not correspond to a valid JS message VAR * node */ private void extractMessageFromVariable( Builder builder, Node nameNode, Node parentNode, @Nullable Node grandParentNode) throws MalformedException { // Determine the message's value Node valueNode = nameNode.getFirstChild(); switch (valueNode.getToken()) { case STRING: case ADD: maybeInitMetaDataFromJsDocOrHelpVar(builder, parentNode, grandParentNode); builder.appendStringPart(extractStringFromStringExprNode(valueNode)); break; case FUNCTION: maybeInitMetaDataFromJsDocOrHelpVar(builder, parentNode, grandParentNode); extractFromFunctionNode(builder, valueNode); break; case CALL: maybeInitMetaDataFromJsDoc(builder, parentNode); extractFromCallNode(builder, valueNode); break; default: throw new MalformedException( "Cannot parse value of message " + builder.getKey(), valueNode); } } /** * Creates a {@link JsMessage} for a JS message defined using an assignment to a qualified name * (e.g a.b.MSG_X = goog.getMsg(...);). * * @param builder the message builder * @param valueNode a node in a JS message value * @param docNode the node containing the jsdoc. * @throws MalformedException if {@code getPropNode} does not correspond to a valid JS message * node */ private void extractMessageFrom(Builder builder, Node valueNode, Node docNode) throws MalformedException { maybeInitMetaDataFromJsDoc(builder, docNode); extractFromCallNode(builder, valueNode); } /** * Initializes the meta data in a JsMessage by examining the nodes just before and after a message * VAR node. * * @param builder the message builder whose meta data will be initialized * @param varNode the message VAR node * @param parentOfVarNode {@code varNode}'s parent node */ private void maybeInitMetaDataFromJsDocOrHelpVar( Builder builder, Node varNode, @Nullable Node parentOfVarNode) throws MalformedException { // First check description in @desc if (maybeInitMetaDataFromJsDoc(builder, varNode)) { return; } // Check the preceding node for meta data if ((parentOfVarNode != null) && maybeInitMetaDataFromHelpVar(builder, varNode.getPrevious())) { return; } // Check the subsequent node for meta data maybeInitMetaDataFromHelpVar(builder, varNode.getNext()); } /** * Initializes the meta data in a JsMessage by examining a node just before or after a message VAR * node. * * @param builder the message builder whose meta data will be initialized * @param sibling a node adjacent to the message VAR node * @return true iff message has corresponding description variable */ private static boolean maybeInitMetaDataFromHelpVar(Builder builder, @Nullable Node sibling) throws MalformedException { if ((sibling != null) && (sibling.isVar())) { Node nameNode = sibling.getFirstChild(); String name = nameNode.getString(); if (name.equals(builder.getKey() + DESC_SUFFIX)) { Node valueNode = nameNode.getFirstChild(); String desc = extractStringFromStringExprNode(valueNode); if (desc.startsWith(HIDDEN_DESC_PREFIX)) { builder.setDesc(desc.substring(HIDDEN_DESC_PREFIX.length()).trim()); builder.setIsHidden(true); } else { builder.setDesc(desc); } return true; } } return false; } /** * Initializes the meta data in a message builder given a node that may contain JsDoc properties. * * @param builder the message builder whose meta data will be initialized * @param node the node with the message's JSDoc properties * @return true if message has JsDoc with valid description in @desc annotation */ private static boolean maybeInitMetaDataFromJsDoc(Builder builder, Node node) { boolean messageHasDesc = false; JSDocInfo info = node.getJSDocInfo(); if (info != null) { String desc = info.getDescription(); if (desc != null) { builder.setDesc(desc); messageHasDesc = true; } if (info.isHidden()) { builder.setIsHidden(true); } if (info.getMeaning() != null) { builder.setMeaning(info.getMeaning()); } } return messageHasDesc; } /** * Returns the string value associated with a node representing a JS string or several JS strings * added together (e.g. {@code 'str'} or {@code 's' + 't' + 'r'}). * * @param node the node from where we extract the string * @return String representation of the node * @throws MalformedException if the parsed message is invalid */ private static String extractStringFromStringExprNode(Node node) throws MalformedException { switch (node.getToken()) { case STRING: return node.getString(); case TEMPLATELIT: if (node.hasOneChild()) { // Cooked string can be null only for tagged template literals. // A tagged template literal would hit the default case below. return checkNotNull(node.getFirstChild().getCookedString()); } else { throw new MalformedException( "Template literals with substitutions are not allowed.", node); } case ADD: StringBuilder sb = new StringBuilder(); for (Node child : node.children()) { sb.append(extractStringFromStringExprNode(child)); } return sb.toString(); default: throw new MalformedException( "STRING or ADD node expected; found: " + node.getToken(), node); } } /** * Initializes a message builder from a FUNCTION node. * *

* *

   * The tree should look something like:
   *
   * function
   *  |-- name
   *  |-- lp
   *  |   |-- name 
   *  |    -- name 
   *   -- block
   *      |
   *       --return
   *           |
   *            --add
   *               |-- string foo
   *                -- name 
   * 
* * @param builder the message builder * @param node the function node that contains a message * @throws MalformedException if the parsed message is invalid */ private void extractFromFunctionNode(Builder builder, Node node) throws MalformedException { Set phNames = new HashSet<>(); for (Node fnChild : node.children()) { switch (fnChild.getToken()) { case NAME: // This is okay. The function has a name, but it is empty. break; case PARAM_LIST: // Parse the placeholder names from the function argument list. for (Node argumentNode : fnChild.children()) { if (argumentNode.isName()) { String phName = argumentNode.getString(); if (phNames.contains(phName)) { throw new MalformedException("Duplicate placeholder name: " + phName, argumentNode); } else { phNames.add(phName); } } } break; case BLOCK: // Build the message's value by examining the return statement Node returnNode = fnChild.getFirstChild(); if (!returnNode.isReturn()) { throw new MalformedException( "RETURN node expected; found: " + returnNode.getToken(), returnNode); } for (Node child : returnNode.children()) { extractFromReturnDescendant(builder, child); } // Check that all placeholders from the message text have appropriate // object literal keys for (String phName : builder.getPlaceholders()) { if (!phNames.contains(phName)) { throw new MalformedException( "Unrecognized message placeholder referenced: " + phName, returnNode); } } break; default: throw new MalformedException( "NAME, PARAM_LIST, or BLOCK node expected; found: " + node, fnChild); } } } /** * Appends value parts to the message builder by traversing the descendants of the given RETURN * node. * * @param builder the message builder * @param node the node from where we extract a message * @throws MalformedException if the parsed message is invalid */ private static void extractFromReturnDescendant(Builder builder, Node node) throws MalformedException { switch (node.getToken()) { case STRING: builder.appendStringPart(node.getString()); break; case NAME: builder.appendPlaceholderReference(node.getString()); break; case ADD: for (Node child : node.children()) { extractFromReturnDescendant(builder, child); } break; default: throw new MalformedException( "STRING, NAME, or ADD node expected; found: " + node.getToken(), node); } } /** * Initializes a message builder from a CALL node. * *

The tree should look something like: * *

   * call
   *  |-- getprop
   *  |   |-- name 'goog'
   *  |   +-- string 'getMsg'
   *  |
   *  |-- string 'Hi {$userName}! Welcome to {$product}.'
   *  +-- objlit
   *      |-- string_key 'userName'
   *      |   +-- name 'someUserName'
   *      +-- string_key 'product'
   *          +-- call
   *              +-- name 'getProductName'
   * 
* * @param builder the message builder * @param node the call node from where we extract the message * @throws MalformedException if the parsed message is invalid */ private void extractFromCallNode(Builder builder, Node node) throws MalformedException { // Check the function being called if (!node.isCall()) { throw new MalformedException( "Message must be initialized using " + MSG_FUNCTION_NAME + " function.", node); } Node fnNameNode = node.getFirstChild(); if (!fnNameNode.matchesQualifiedName(MSG_FUNCTION_NAME)) { throw new MalformedException( "Message initialized using unrecognized function. " + "Please use " + MSG_FUNCTION_NAME + "() instead.", fnNameNode); } // Get the message string Node stringLiteralNode = fnNameNode.getNext(); if (stringLiteralNode == null) { throw new MalformedException("Message string literal expected", stringLiteralNode); } // Parse the message string and append parts to the builder parseMessageTextNode(builder, stringLiteralNode); Node objLitNode = stringLiteralNode.getNext(); Set phNames = new HashSet<>(); if (objLitNode != null) { // Register the placeholder names if (!objLitNode.isObjectLit()) { throw new MalformedException("OBJLIT node expected", objLitNode); } for (Node aNode = objLitNode.getFirstChild(); aNode != null; aNode = aNode.getNext()) { if (!aNode.isStringKey()) { throw new MalformedException("STRING_KEY node expected as OBJLIT key", aNode); } String phName = aNode.getString(); if (!isLowerCamelCaseWithNumericSuffixes(phName)) { throw new MalformedException("Placeholder name not in lowerCamelCase: " + phName, aNode); } if (phNames.contains(phName)) { throw new MalformedException("Duplicate placeholder name: " + phName, aNode); } phNames.add(phName); } } // Check that all placeholders from the message text have appropriate objlit // values Set usedPlaceholders = builder.getPlaceholders(); for (String phName : usedPlaceholders) { if (!phNames.contains(phName)) { throw new MalformedException( "Unrecognized message placeholder referenced: " + phName, node); } } // Check that objLiteral have only names that are present in the // message text for (String phName : phNames) { if (!usedPlaceholders.contains(phName)) { throw new MalformedException("Unused message placeholder: " + phName, node); } } } /** * Appends the message parts in a JS message value extracted from the given text node. * * @param builder the JS message builder to append parts to * @param node the node with string literal that contains the message text * @throws MalformedException if {@code value} contains a reference to an unregistered placeholder */ private static void parseMessageTextNode(Builder builder, Node node) throws MalformedException { String value = extractStringFromStringExprNode(node); while (true) { int phBegin = value.indexOf(PH_JS_PREFIX); if (phBegin < 0) { // Just a string literal builder.appendStringPart(value); return; } else { if (phBegin > 0) { // A string literal followed by a placeholder builder.appendStringPart(value.substring(0, phBegin)); } // A placeholder. Find where it ends int phEnd = value.indexOf(PH_JS_SUFFIX, phBegin); if (phEnd < 0) { throw new MalformedException( "Placeholder incorrectly formatted in: " + builder.getKey(), node); } String phName = value.substring(phBegin + PH_JS_PREFIX.length(), phEnd); builder.appendPlaceholderReference(phName); int nextPos = phEnd + PH_JS_SUFFIX.length(); if (nextPos < value.length()) { // Iterate on the rest of the message value value = value.substring(nextPos); } else { // The message is parsed return; } } } } /** Visit a call to goog.getMsgWithFallback. */ private void visitFallbackFunctionCall(NodeTraversal t, Node call) { // Check to make sure the function call looks like: // goog.getMsgWithFallback(MSG_1, MSG_2); if (!call.hasXChildren(3) || !call.getSecondChild().isName() || !call.getLastChild().isName()) { compiler.report(JSError.make(call, BAD_FALLBACK_SYNTAX)); return; } Node firstArg = call.getSecondChild(); String name = firstArg.getOriginalName(); if (name == null) { name = firstArg.getString(); } JsMessage firstMessage = getTrackedMessage(t, name); if (firstMessage == null) { compiler.report(JSError.make(firstArg, FALLBACK_ARG_ERROR, name)); return; } Node secondArg = firstArg.getNext(); name = secondArg.getOriginalName(); if (name == null) { name = secondArg.getString(); } JsMessage secondMessage = getTrackedMessage(t, name); if (secondMessage == null) { compiler.report(JSError.make(secondArg, FALLBACK_ARG_ERROR, name)); return; } processMessageFallback(call, firstMessage, secondMessage); } /** * Processes found JS message. Several examples of "standard" processing routines are: * *
    *
  1. extract all JS messages *
  2. replace JS messages with localized versions for some specific language *
  3. check that messages have correct syntax and present in localization bundle *
* * @param message the found message * @param definition the definition of the object and usually contains all additional message * information like message node/parent's node */ protected abstract void processJsMessage(JsMessage message, JsMessageDefinition definition); /** * Processes the goog.getMsgWithFallback primitive. goog.getMsgWithFallback(MSG_1, MSG_2); * *

By default, does nothing. */ void processMessageFallback(Node callNode, JsMessage message1, JsMessage message2) {} /** Returns whether the given JS identifier is a valid JS message name. */ boolean isMessageName(String identifier, boolean isNewStyleMessage) { return identifier.startsWith(MSG_PREFIX) && (style == JsMessage.Style.CLOSURE || isNewStyleMessage || !identifier.endsWith(DESC_SUFFIX)); } /** Returns whether the given message name is in the unnamed namespace. */ private static boolean isUnnamedMessageName(String identifier) { return MSG_UNNAMED_PATTERN.matcher(identifier).matches(); } /** * Returns whether a string is nonempty, begins with a lowercase letter, and contains only digits * and underscores after the first underscore. */ static boolean isLowerCamelCaseWithNumericSuffixes(String input) { return CAMELCASE_PATTERN.matcher(input).matches(); } /** * Converts the given string from upper-underscore case to lower-camel case, preserving numeric * suffixes. For example: "NAME" -> "name" "A4_LETTER" -> "a4Letter" "START_SPAN_1_23" -> * "startSpan_1_23". */ static String toLowerCamelCaseWithNumericSuffixes(String input) { // Determine where the numeric suffixes begin int suffixStart = input.length(); while (suffixStart > 0) { char ch = '\0'; int numberStart = suffixStart; while (numberStart > 0) { ch = input.charAt(numberStart - 1); if (Character.isDigit(ch)) { numberStart--; } else { break; } } if ((numberStart > 0) && (numberStart < suffixStart) && (ch == '_')) { suffixStart = numberStart - 1; } else { break; } } if (suffixStart == input.length()) { return CaseFormat.UPPER_UNDERSCORE.to(CaseFormat.LOWER_CAMEL, input); } else { return CaseFormat.UPPER_UNDERSCORE.to(CaseFormat.LOWER_CAMEL, input.substring(0, suffixStart)) + input.substring(suffixStart); } } /** * Checks a node's type. * * @throws MalformedException if the node is null or the wrong type */ protected void checkNode(@Nullable Node node, Token type) throws MalformedException { if (node == null) { throw new MalformedException("Expected node type " + type + "; found: null", node); } if (node.getToken() != type) { throw new MalformedException( "Expected node type " + type + "; found: " + node.getToken(), node); } } static class MalformedException extends Exception { private static final long serialVersionUID = 1L; private final Node node; MalformedException(String message, Node node) { super(message); this.node = node; } Node getNode() { return node; } } private static class MessageLocation { private final JsMessage message; private final Node messageNode; private MessageLocation(JsMessage message, Node messageNode) { this.message = message; this.messageNode = messageNode; } } }





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