src/third_party/devtools/node_modules/@babel/template/lib/parse.js - cobalt - Git at Google

 "use strict";

 Object.defineProperty(exports, "__esModule", {
   value: true
 });
 exports.default = parseAndBuildMetadata;

 function t() {
   const data = _interopRequireWildcard(require("@babel/types"));

   t = function () {
     return data;
   };

   return data;
 }

 function _parser() {
   const data = require("@babel/parser");

   _parser = function () {
     return data;
   };

   return data;
 }

 function _codeFrame() {
   const data = require("@babel/code-frame");

   _codeFrame = function () {
     return data;
   };

   return data;
 }

 function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } else { var newObj = {}; if (obj != null) { for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = Object.defineProperty && Object.getOwnPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : {}; if (desc.get || desc.set) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } } newObj.default = obj; return newObj; } }

 const PATTERN = /^[_$A-Z0-9]+$/;

 function parseAndBuildMetadata(formatter, code, opts) {
   const ast = parseWithCodeFrame(code, opts.parser);
   const {
     placeholderWhitelist,
     placeholderPattern,
     preserveComments,
     syntacticPlaceholders
   } = opts;
   t().removePropertiesDeep(ast, {
     preserveComments
   });
   formatter.validate(ast);
   const syntactic = {
     placeholders: [],
     placeholderNames: new Set()
   };
   const legacy = {
     placeholders: [],
     placeholderNames: new Set()
   };
   const isLegacyRef = {
     value: undefined
   };
   t().traverse(ast, placeholderVisitorHandler, {
     syntactic,
     legacy,
     isLegacyRef,
     placeholderWhitelist,
     placeholderPattern,
     syntacticPlaceholders
   });
   return Object.assign({
     ast
   }, isLegacyRef.value ? legacy : syntactic);
 }

 function placeholderVisitorHandler(node, ancestors, state) {
   let name;

   if (t().isPlaceholder(node)) {
     if (state.syntacticPlaceholders === false) {
       throw new Error("%%foo%%-style placeholders can't be used when " + "'.syntacticPlaceholders' is false.");
     } else {
       name = node.name.name;
       state.isLegacyRef.value = false;
     }
   } else if (state.isLegacyRef.value === false || state.syntacticPlaceholders) {
     return;
   } else if (t().isIdentifier(node) || t().isJSXIdentifier(node)) {
     name = node.name;
     state.isLegacyRef.value = true;
   } else if (t().isStringLiteral(node)) {
     name = node.value;
     state.isLegacyRef.value = true;
   } else {
     return;
   }

   if (!state.isLegacyRef.value && (state.placeholderPattern != null || state.placeholderWhitelist != null)) {
     throw new Error("'.placeholderWhitelist' and '.placeholderPattern' aren't compatible" + " with '.syntacticPlaceholders: true'");
   }

   if (state.isLegacyRef.value && (state.placeholderPattern === false || !(state.placeholderPattern || PATTERN).test(name)) && (!state.placeholderWhitelist || !state.placeholderWhitelist.has(name))) {
     return;
   }

   ancestors = ancestors.slice();
   const {
     node: parent,
     key
   } = ancestors[ancestors.length - 1];
   let type;

   if (t().isStringLiteral(node) || t().isPlaceholder(node, {
     expectedNode: "StringLiteral"
   })) {
     type = "string";
   } else if (t().isNewExpression(parent) && key === "arguments" || t().isCallExpression(parent) && key === "arguments" || t().isFunction(parent) && key === "params") {
     type = "param";
   } else if (t().isExpressionStatement(parent) && !t().isPlaceholder(node)) {
     type = "statement";
     ancestors = ancestors.slice(0, -1);
   } else if (t().isStatement(node) && t().isPlaceholder(node)) {
     type = "statement";
   } else {
     type = "other";
   }

   const {
     placeholders,
     placeholderNames
   } = state.isLegacyRef.value ? state.legacy : state.syntactic;
   placeholders.push({
     name,
     type,
     resolve: ast => resolveAncestors(ast, ancestors),
     isDuplicate: placeholderNames.has(name)
   });
   placeholderNames.add(name);
 }

 function resolveAncestors(ast, ancestors) {
   let parent = ast;

   for (let i = 0; i < ancestors.length - 1; i++) {
     const {
       key,
       index
     } = ancestors[i];

     if (index === undefined) {
       parent = parent[key];
     } else {
       parent = parent[key][index];
     }
   }

   const {
     key,
     index
   } = ancestors[ancestors.length - 1];
   return {
     parent,
     key,
     index
   };
 }

 function parseWithCodeFrame(code, parserOpts) {
   parserOpts = Object.assign({
     allowReturnOutsideFunction: true,
     allowSuperOutsideMethod: true,
     sourceType: "module"
   }, parserOpts, {
     plugins: (parserOpts.plugins || []).concat("placeholders")
   });

   try {
     return (0, _parser().parse)(code, parserOpts);
   } catch (err) {
     const loc = err.loc;

     if (loc) {
       err.message += "\n" + (0, _codeFrame().codeFrameColumns)(code, {
         start: loc
       });
       err.code = "BABEL_TEMPLATE_PARSE_ERROR";
     }

     throw err;
   }
 }
	"use strict";

	Object.defineProperty(exports, "__esModule", {
	value: true
	});
	exports.default = parseAndBuildMetadata;

	function t() {
	const data = _interopRequireWildcard(require("@babel/types"));

	t = function () {
	return data;
	};

	return data;
	}

	function _parser() {
	const data = require("@babel/parser");

	_parser = function () {
	return data;
	};

	return data;
	}

	function _codeFrame() {
	const data = require("@babel/code-frame");

	_codeFrame = function () {
	return data;
	};

	return data;
	}

	function _interopRequireWildcard(obj) { if (obj && obj.__esModule) { return obj; } else { var newObj = {}; if (obj != null) { for (var key in obj) { if (Object.prototype.hasOwnProperty.call(obj, key)) { var desc = Object.defineProperty && Object.getOwnPropertyDescriptor ? Object.getOwnPropertyDescriptor(obj, key) : {}; if (desc.get \|\| desc.set) { Object.defineProperty(newObj, key, desc); } else { newObj[key] = obj[key]; } } } } newObj.default = obj; return newObj; } }

	const PATTERN = /^[_$A-Z0-9]+$/;

	function parseAndBuildMetadata(formatter, code, opts) {
	const ast = parseWithCodeFrame(code, opts.parser);
	const {
	placeholderWhitelist,
	placeholderPattern,
	preserveComments,
	syntacticPlaceholders
	} = opts;
	t().removePropertiesDeep(ast, {
	preserveComments
	});
	formatter.validate(ast);
	const syntactic = {
	placeholders: [],
	placeholderNames: new Set()
	};
	const legacy = {
	placeholders: [],
	placeholderNames: new Set()
	};
	const isLegacyRef = {
	value: undefined
	};
	t().traverse(ast, placeholderVisitorHandler, {
	syntactic,
	legacy,
	isLegacyRef,
	placeholderWhitelist,
	placeholderPattern,
	syntacticPlaceholders
	});
	return Object.assign({
	ast
	}, isLegacyRef.value ? legacy : syntactic);
	}

	function placeholderVisitorHandler(node, ancestors, state) {
	let name;

	if (t().isPlaceholder(node)) {
	if (state.syntacticPlaceholders === false) {
	throw new Error("%%foo%%-style placeholders can't be used when " + "'.syntacticPlaceholders' is false.");
	} else {
	name = node.name.name;
	state.isLegacyRef.value = false;
	}
	} else if (state.isLegacyRef.value === false \|\| state.syntacticPlaceholders) {
	return;
	} else if (t().isIdentifier(node) \|\| t().isJSXIdentifier(node)) {
	name = node.name;
	state.isLegacyRef.value = true;
	} else if (t().isStringLiteral(node)) {
	name = node.value;
	state.isLegacyRef.value = true;
	} else {
	return;
	}

	if (!state.isLegacyRef.value && (state.placeholderPattern != null \|\| state.placeholderWhitelist != null)) {
	throw new Error("'.placeholderWhitelist' and '.placeholderPattern' aren't compatible" + " with '.syntacticPlaceholders: true'");
	}

	if (state.isLegacyRef.value && (state.placeholderPattern === false \|\| !(state.placeholderPattern \|\| PATTERN).test(name)) && (!state.placeholderWhitelist \|\| !state.placeholderWhitelist.has(name))) {
	return;
	}

	ancestors = ancestors.slice();
	const {
	node: parent,
	key
	} = ancestors[ancestors.length - 1];
	let type;

	if (t().isStringLiteral(node) \|\| t().isPlaceholder(node, {
	expectedNode: "StringLiteral"
	})) {
	type = "string";
	} else if (t().isNewExpression(parent) && key === "arguments" \|\| t().isCallExpression(parent) && key === "arguments" \|\| t().isFunction(parent) && key === "params") {
	type = "param";
	} else if (t().isExpressionStatement(parent) && !t().isPlaceholder(node)) {
	type = "statement";
	ancestors = ancestors.slice(0, -1);
	} else if (t().isStatement(node) && t().isPlaceholder(node)) {
	type = "statement";
	} else {
	type = "other";
	}

	const {
	placeholders,
	placeholderNames
	} = state.isLegacyRef.value ? state.legacy : state.syntactic;
	placeholders.push({
	name,
	type,
	resolve: ast => resolveAncestors(ast, ancestors),
	isDuplicate: placeholderNames.has(name)
	});
	placeholderNames.add(name);
	}

	function resolveAncestors(ast, ancestors) {
	let parent = ast;

	for (let i = 0; i < ancestors.length - 1; i++) {
	const {
	key,
	index
	} = ancestors[i];

	if (index === undefined) {
	parent = parent[key];
	} else {
	parent = parent[key][index];
	}
	}

	const {
	key,
	index
	} = ancestors[ancestors.length - 1];
	return {
	parent,
	key,
	index
	};
	}

	function parseWithCodeFrame(code, parserOpts) {
	parserOpts = Object.assign({
	allowReturnOutsideFunction: true,
	allowSuperOutsideMethod: true,
	sourceType: "module"
	}, parserOpts, {
	plugins: (parserOpts.plugins \|\| []).concat("placeholders")
	});

	try {
	return (0, _parser().parse)(code, parserOpts);
	} catch (err) {
	const loc = err.loc;

	if (loc) {
	err.message += "\n" + (0, _codeFrame().codeFrameColumns)(code, {
	start: loc
	});
	err.code = "BABEL_TEMPLATE_PARSE_ERROR";
	}

	throw err;
	}
	}