node_modules/css-tree/lib/lexer/Lexer.js - nifi-fds - Git at Google

 'use strict';

 var SyntaxReferenceError = require('./error').SyntaxReferenceError;
 var MatchError = require('./error').MatchError;
 var names = require('../utils/names');
 var generic = require('./generic');
 var parse = require('./grammar/parse');
 var generate = require('./grammar/generate');
 var walk = require('./grammar/walk');
 var match = require('./match');
 var trace = require('./trace');
 var search = require('./search');
 var getStructureFromConfig = require('./structure').getStructureFromConfig;
 var cssWideKeywords = parse('inherit | initial | unset');
 var cssWideKeywordsWithExpression = parse('inherit | initial | unset | <expression>');

 function dumpMapSyntax(map, syntaxAsAst) {
     var result = {};

     for (var name in map) {
         if (map[name].syntax) {
             result[name] = syntaxAsAst ? map[name].syntax : generate(map[name].syntax);
         }
     }

     return result;
 }

 function unwrapNode(item) {
     return item && item.data;
 }

 function valueHasVar(value) {
     var hasVar = false;

     this.syntax.walk(value, function(node) {
         if (node.type === 'Function' && node.name.toLowerCase() === 'var') {
             hasVar = true;
         }
     });

     return hasVar;
 }

 // check node is \0 or \9 hack
 function isHack(node) {
     return node.type === 'Identifier' && /^\\[09]/.test(node.name);
 }

 // white spaces, comments and some hacks can to be ignored at the end of value
 function isNextMayToBeIgnored(cursor) {
     while (cursor !== null) {
         if (cursor.data.type !== 'WhiteSpace' &&
             cursor.data.type !== 'Comment' &&
             !isHack(cursor.data)) {
             return false;
         }

         cursor = cursor.next;
     }

     return true;
 }

 function buildMatchResult(match, error) {
     return {
         matched: match,
         error: error,
         getTrace: trace.getTrace,
         isType: trace.isType,
         isProperty: trace.isProperty,
         isKeyword: trace.isKeyword
     };
 }

 function matchSyntax(lexer, syntax, node, useCommon) {
     var result;

     if (!node || !node.children) {
         return buildMatchResult(null, new Error('Node has no children'));
     }

     if (valueHasVar.call(lexer, node)) {
         return buildMatchResult(null, new Error('Matching for a tree with var() is not supported'));
     }

     if (useCommon) {
         result = match(lexer, lexer.valueCommonSyntax, node.children.head);
     }

     if (!useCommon || !result.match) {
         result = syntax.match(node.children.head);
         if (!result.match) {
             return buildMatchResult(null, new MatchError('Mismatch', lexer, syntax.syntax, node, result.badNode || unwrapNode(result.next) || node));
         }
     }

     // enhance top-level match wrapper
     if (result.match.type === 'ASTNode') {
         result.match = {
             syntax: {
                 type: syntax.type,
                 name: syntax.name
             },
             match: [result.match]
         };
     } else if (result.match.syntax.type === 'Group') {
         result.match.syntax = {
             type: syntax.type,
             name: syntax.name
         };
     }

     if (result.next && !isNextMayToBeIgnored(result.next)) {
         return buildMatchResult(null, new MatchError('Uncomplete match', lexer, syntax.syntax, node, result.badNode || unwrapNode(result.next) || node));
     }

     return buildMatchResult(result.match, null);
 }

 var Lexer = function(config, syntax, structure) {
     this.valueCommonSyntax = cssWideKeywords;
     this.syntax = syntax;
     this.generic = false;
     this.properties = {};
     this.types = {};
     this.structure = structure || getStructureFromConfig(config);

     if (config) {
         if (config.generic) {
             this.generic = true;
             for (var name in generic) {
                 this.addType_(name, generic[name]);
             }
         }

         if (config.types) {
             for (var name in config.types) {
                 this.addType_(name, config.types[name]);
             }
         }

         if (config.properties) {
             for (var name in config.properties) {
                 this.addProperty_(name, config.properties[name]);
             }
         }
     }
 };

 Lexer.prototype = {
     structure: {},
     checkStructure: function(ast) {
         function collectWarning(node, message) {
             warns.push({
                 node: node,
                 message: message
             });
         }

         var structure = this.structure;
         var warns = [];

         this.syntax.walk(ast, function(node) {
             if (structure.hasOwnProperty(node.type)) {
                 structure[node.type].check(node, collectWarning);
             } else {
                 collectWarning(node, 'Unknown node type `' + node.type + '`');
             }
         });

         return warns.length ? warns : false;
     },

     createDescriptor: function(syntax, type, name) {
         var self = this;
         var descriptor = {
             type: type,
             name: name,
             syntax: null,
             match: null
         };

         if (typeof syntax === 'function') {
             // convert syntax to pseudo syntax node
             // NOTE: that's not a part of match result tree
             syntax = {
                 type: 'ASTNode',
                 match: syntax
             };

             descriptor.match = function(item) {
                 return match(self, syntax, item);
             };
         } else {
             if (typeof syntax === 'string') {
                 // lazy parsing on first access
                 Object.defineProperty(descriptor, 'syntax', {
                     get: function() {
                         Object.defineProperty(descriptor, 'syntax', {
                             value: parse(syntax)
                         });

                         return descriptor.syntax;
                     }
                 });
             } else {
                 descriptor.syntax = syntax;
             }

             descriptor.match = function(item) {
                 return match(self, descriptor.syntax, item);
             };
         }

         return descriptor;
     },
     addProperty_: function(name, syntax) {
         this.properties[name] = this.createDescriptor(syntax, 'Property', name);
     },
     addType_: function(name, syntax) {
         this.types[name] = this.createDescriptor(syntax, 'Type', name);

         if (syntax === generic.expression) {
             this.valueCommonSyntax = cssWideKeywordsWithExpression;
         }
     },

     matchDeclaration: function(node) {
         if (node.type !== 'Declaration') {
             return buildMatchResult(null, new Error('Not a Declaration node'));
         }

         return this.matchProperty(node.property, node.value);
     },
     matchProperty: function(propertyName, value) {
         var property = names.property(propertyName);

         // don't match syntax for a custom property
         if (property.custom) {
             return buildMatchResult(null, new Error('Lexer matching doesn\'t applicable for custom properties'));
         }

         var propertySyntax = property.vendor
             ? this.getProperty(property.name) || this.getProperty(property.basename)
             : this.getProperty(property.name);

         if (!propertySyntax) {
             return buildMatchResult(null, new SyntaxReferenceError('Unknown property', propertyName));
         }

         return matchSyntax(this, propertySyntax, value, true);
     },
     matchType: function(typeName, value) {
         var typeSyntax = this.getType(typeName);

         if (!typeSyntax) {
             return buildMatchResult(null, new SyntaxReferenceError('Unknown type', typeName));
         }

         return matchSyntax(this, typeSyntax, value, false);
     },
     match: function(syntax, value) {
         if (!syntax || !syntax.type) {
             return buildMatchResult(null, new SyntaxReferenceError('Bad syntax'));
         }

         if (!syntax.match) {
             syntax = this.createDescriptor(syntax);
         }

         return matchSyntax(this, syntax, value, false);
     },

     findValueFragments: function(propertyName, value, type, name) {
         return search.matchFragments(this, value, this.matchProperty(propertyName, value), type, name);
     },
     findDeclarationValueFragments: function(declaration, type, name) {
         return search.matchFragments(this, declaration.value, this.matchDeclaration(declaration), type, name);
     },
     findAllFragments: function(ast, type, name) {
         var result = [];

         this.syntax.walk(ast, {
             visit: 'Declaration',
             enter: function(declaration) {
                 result.push.apply(result, this.findDeclarationValueFragments(declaration, type, name));
             }.bind(this)
         });

         return result;
     },

     getProperty: function(name) {
         return this.properties.hasOwnProperty(name) ? this.properties[name] : null;
     },
     getType: function(name) {
         return this.types.hasOwnProperty(name) ? this.types[name] : null;
     },

     validate: function() {
         function validate(syntax, name, broken, descriptor) {
             if (broken.hasOwnProperty(name)) {
                 return broken[name];
             }

             broken[name] = false;
             if (descriptor.syntax !== null) {
                 walk(descriptor.syntax, function(node) {
                     if (node.type !== 'Type' && node.type !== 'Property') {
                         return;
                     }

                     var map = node.type === 'Type' ? syntax.types : syntax.properties;
                     var brokenMap = node.type === 'Type' ? brokenTypes : brokenProperties;

                     if (!map.hasOwnProperty(node.name) || validate(syntax, node.name, brokenMap, map[node.name])) {
                         broken[name] = true;
                     }
                 }, this);
             }
         }

         var brokenTypes = {};
         var brokenProperties = {};

         for (var key in this.types) {
             validate(this, key, brokenTypes, this.types[key]);
         }

         for (var key in this.properties) {
             validate(this, key, brokenProperties, this.properties[key]);
         }

         brokenTypes = Object.keys(brokenTypes).filter(function(name) {
             return brokenTypes[name];
         });
         brokenProperties = Object.keys(brokenProperties).filter(function(name) {
             return brokenProperties[name];
         });

         if (brokenTypes.length || brokenProperties.length) {
             return {
                 types: brokenTypes,
                 properties: brokenProperties
             };
         }

         return null;
     },
     dump: function(syntaxAsAst) {
         return {
             generic: this.generic,
             types: dumpMapSyntax(this.types, syntaxAsAst),
             properties: dumpMapSyntax(this.properties, syntaxAsAst)
         };
     },
     toString: function() {
         return JSON.stringify(this.dump());
     }
 };

 module.exports = Lexer;
	'use strict';

	var SyntaxReferenceError = require('./error').SyntaxReferenceError;
	var MatchError = require('./error').MatchError;
	var names = require('../utils/names');
	var generic = require('./generic');
	var parse = require('./grammar/parse');
	var generate = require('./grammar/generate');
	var walk = require('./grammar/walk');
	var match = require('./match');
	var trace = require('./trace');
	var search = require('./search');
	var getStructureFromConfig = require('./structure').getStructureFromConfig;
	var cssWideKeywords = parse('inherit \| initial \| unset');
	var cssWideKeywordsWithExpression = parse('inherit \| initial \| unset \| <expression>');

	function dumpMapSyntax(map, syntaxAsAst) {
	var result = {};

	for (var name in map) {
	if (map[name].syntax) {
	result[name] = syntaxAsAst ? map[name].syntax : generate(map[name].syntax);
	}
	}

	return result;
	}

	function unwrapNode(item) {
	return item && item.data;
	}

	function valueHasVar(value) {
	var hasVar = false;

	this.syntax.walk(value, function(node) {
	if (node.type === 'Function' && node.name.toLowerCase() === 'var') {
	hasVar = true;
	}
	});

	return hasVar;
	}

	// check node is \0 or \9 hack
	function isHack(node) {
	return node.type === 'Identifier' && /^\\[09]/.test(node.name);
	}

	// white spaces, comments and some hacks can to be ignored at the end of value
	function isNextMayToBeIgnored(cursor) {
	while (cursor !== null) {
	if (cursor.data.type !== 'WhiteSpace' &&
	cursor.data.type !== 'Comment' &&
	!isHack(cursor.data)) {
	return false;
	}

	cursor = cursor.next;
	}

	return true;
	}

	function buildMatchResult(match, error) {
	return {
	matched: match,
	error: error,
	getTrace: trace.getTrace,
	isType: trace.isType,
	isProperty: trace.isProperty,
	isKeyword: trace.isKeyword
	};
	}

	function matchSyntax(lexer, syntax, node, useCommon) {
	var result;

	if (!node \|\| !node.children) {
	return buildMatchResult(null, new Error('Node has no children'));
	}

	if (valueHasVar.call(lexer, node)) {
	return buildMatchResult(null, new Error('Matching for a tree with var() is not supported'));
	}

	if (useCommon) {
	result = match(lexer, lexer.valueCommonSyntax, node.children.head);
	}

	if (!useCommon \|\| !result.match) {
	result = syntax.match(node.children.head);
	if (!result.match) {
	return buildMatchResult(null, new MatchError('Mismatch', lexer, syntax.syntax, node, result.badNode \|\| unwrapNode(result.next) \|\| node));
	}
	}

	// enhance top-level match wrapper
	if (result.match.type === 'ASTNode') {
	result.match = {
	syntax: {
	type: syntax.type,
	name: syntax.name
	},
	match: [result.match]
	};
	} else if (result.match.syntax.type === 'Group') {
	result.match.syntax = {
	type: syntax.type,
	name: syntax.name
	};
	}

	if (result.next && !isNextMayToBeIgnored(result.next)) {
	return buildMatchResult(null, new MatchError('Uncomplete match', lexer, syntax.syntax, node, result.badNode \|\| unwrapNode(result.next) \|\| node));
	}

	return buildMatchResult(result.match, null);
	}

	var Lexer = function(config, syntax, structure) {
	this.valueCommonSyntax = cssWideKeywords;
	this.syntax = syntax;
	this.generic = false;
	this.properties = {};
	this.types = {};
	this.structure = structure \|\| getStructureFromConfig(config);

	if (config) {
	if (config.generic) {
	this.generic = true;
	for (var name in generic) {
	this.addType_(name, generic[name]);
	}
	}

	if (config.types) {
	for (var name in config.types) {
	this.addType_(name, config.types[name]);
	}
	}

	if (config.properties) {
	for (var name in config.properties) {
	this.addProperty_(name, config.properties[name]);
	}
	}
	}
	};

	Lexer.prototype = {
	structure: {},
	checkStructure: function(ast) {
	function collectWarning(node, message) {
	warns.push({
	node: node,
	message: message
	});
	}

	var structure = this.structure;
	var warns = [];

	this.syntax.walk(ast, function(node) {
	if (structure.hasOwnProperty(node.type)) {
	structure[node.type].check(node, collectWarning);
	} else {
	collectWarning(node, 'Unknown node type `' + node.type + '`');
	}
	});

	return warns.length ? warns : false;
	},

	createDescriptor: function(syntax, type, name) {
	var self = this;
	var descriptor = {
	type: type,
	name: name,
	syntax: null,
	match: null
	};

	if (typeof syntax === 'function') {
	// convert syntax to pseudo syntax node
	// NOTE: that's not a part of match result tree
	syntax = {
	type: 'ASTNode',
	match: syntax
	};

	descriptor.match = function(item) {
	return match(self, syntax, item);
	};
	} else {
	if (typeof syntax === 'string') {
	// lazy parsing on first access
	Object.defineProperty(descriptor, 'syntax', {
	get: function() {
	Object.defineProperty(descriptor, 'syntax', {
	value: parse(syntax)
	});

	return descriptor.syntax;
	}
	});
	} else {
	descriptor.syntax = syntax;
	}

	descriptor.match = function(item) {
	return match(self, descriptor.syntax, item);
	};
	}

	return descriptor;
	},
	addProperty_: function(name, syntax) {
	this.properties[name] = this.createDescriptor(syntax, 'Property', name);
	},
	addType_: function(name, syntax) {
	this.types[name] = this.createDescriptor(syntax, 'Type', name);

	if (syntax === generic.expression) {
	this.valueCommonSyntax = cssWideKeywordsWithExpression;
	}
	},

	matchDeclaration: function(node) {
	if (node.type !== 'Declaration') {
	return buildMatchResult(null, new Error('Not a Declaration node'));
	}

	return this.matchProperty(node.property, node.value);
	},
	matchProperty: function(propertyName, value) {
	var property = names.property(propertyName);

	// don't match syntax for a custom property
	if (property.custom) {
	return buildMatchResult(null, new Error('Lexer matching doesn\'t applicable for custom properties'));
	}

	var propertySyntax = property.vendor
	? this.getProperty(property.name) \|\| this.getProperty(property.basename)
	: this.getProperty(property.name);

	if (!propertySyntax) {
	return buildMatchResult(null, new SyntaxReferenceError('Unknown property', propertyName));
	}

	return matchSyntax(this, propertySyntax, value, true);
	},
	matchType: function(typeName, value) {
	var typeSyntax = this.getType(typeName);

	if (!typeSyntax) {
	return buildMatchResult(null, new SyntaxReferenceError('Unknown type', typeName));
	}

	return matchSyntax(this, typeSyntax, value, false);
	},
	match: function(syntax, value) {
	if (!syntax \|\| !syntax.type) {
	return buildMatchResult(null, new SyntaxReferenceError('Bad syntax'));
	}

	if (!syntax.match) {
	syntax = this.createDescriptor(syntax);
	}

	return matchSyntax(this, syntax, value, false);
	},

	findValueFragments: function(propertyName, value, type, name) {
	return search.matchFragments(this, value, this.matchProperty(propertyName, value), type, name);
	},
	findDeclarationValueFragments: function(declaration, type, name) {
	return search.matchFragments(this, declaration.value, this.matchDeclaration(declaration), type, name);
	},
	findAllFragments: function(ast, type, name) {
	var result = [];

	this.syntax.walk(ast, {
	visit: 'Declaration',
	enter: function(declaration) {
	result.push.apply(result, this.findDeclarationValueFragments(declaration, type, name));
	}.bind(this)
	});

	return result;
	},

	getProperty: function(name) {
	return this.properties.hasOwnProperty(name) ? this.properties[name] : null;
	},
	getType: function(name) {
	return this.types.hasOwnProperty(name) ? this.types[name] : null;
	},

	validate: function() {
	function validate(syntax, name, broken, descriptor) {
	if (broken.hasOwnProperty(name)) {
	return broken[name];
	}

	broken[name] = false;
	if (descriptor.syntax !== null) {
	walk(descriptor.syntax, function(node) {
	if (node.type !== 'Type' && node.type !== 'Property') {
	return;
	}

	var map = node.type === 'Type' ? syntax.types : syntax.properties;
	var brokenMap = node.type === 'Type' ? brokenTypes : brokenProperties;

	if (!map.hasOwnProperty(node.name) \|\| validate(syntax, node.name, brokenMap, map[node.name])) {
	broken[name] = true;
	}
	}, this);
	}
	}

	var brokenTypes = {};
	var brokenProperties = {};

	for (var key in this.types) {
	validate(this, key, brokenTypes, this.types[key]);
	}

	for (var key in this.properties) {
	validate(this, key, brokenProperties, this.properties[key]);
	}

	brokenTypes = Object.keys(brokenTypes).filter(function(name) {
	return brokenTypes[name];
	});
	brokenProperties = Object.keys(brokenProperties).filter(function(name) {
	return brokenProperties[name];
	});

	if (brokenTypes.length \|\| brokenProperties.length) {
	return {
	types: brokenTypes,
	properties: brokenProperties
	};
	}

	return null;
	},
	dump: function(syntaxAsAst) {
	return {
	generic: this.generic,
	types: dumpMapSyntax(this.types, syntaxAsAst),
	properties: dumpMapSyntax(this.properties, syntaxAsAst)
	};
	},
	toString: function() {
	return JSON.stringify(this.dump());
	}
	};

	module.exports = Lexer;