u/ewong/rhodecode-enterprise-ce-fork Files · rhodecode/public/js/mode/haxe/haxe.js

vcs: Minimal change to expose the shadow repository...

vcs: Minimal change to expose the shadow repository Based on my original research, this was the "minimal" starting point. It shows that three concepts are needed for the "repo_name": * From the security standpoint we think of the shadow repository having the same ACL as the target repository of the pull request. This is because the pull request itself is considered to be a part of the target repository. Out of this thought, the variable "acl_repo_name" is used whenever we want to check permissions or when we need the database configuration of the repository. An alternative name would have been "db_repo_name", but the usage for ACL checking is the most important one. * From the web interaction perspective, we need the URL which was originally used to get to the repository. This is because based on this base URL commands can be identified. Especially for Git this is important, so that the commands are correctly recognized. Since the URL is in the focus, this is called "url_repo_name". * Finally we have to deal with the repository on the file system. This is what the VCS layer deal with normally, so this name is called "vcs_repo_name". The original repository interaction is a special case where all three names are the same. When interacting with a pull request, these three names are typically all different. This change is minimal in a sense that it just makes the interaction with a shadow repository barely work, without checking any special constraints yet. This was the starting point for further work on this topic.

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             haxe.js
        
                    515 lines
            
             | 17.2 KiB
            
                | application/javascript
            
             |
                JavascriptLexer
            
             / rhodecode / public / js / mode / haxe / haxe.js
          
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      // CodeMirror, copyright (c) by Marijn Haverbeke and others

      // Distributed under an MIT license: http://codemirror.net/LICENSE

      (function(mod) {

        if (typeof exports == "object" && typeof module == "object") // CommonJS

          mod(require("../../lib/codemirror"));

        else if (typeof define == "function" && define.amd) // AMD

          define(["../../lib/codemirror"], mod);

        else // Plain browser env

          mod(CodeMirror);

      })(function(CodeMirror) {

      "use strict";

      CodeMirror.defineMode("haxe", function(config, parserConfig) {

        var indentUnit = config.indentUnit;

        // Tokenizer

        function kw(type) {return {type: type, style: "keyword"};}

        var A = kw("keyword a"), B = kw("keyword b"), C = kw("keyword c");

        var operator = kw("operator"), atom = {type: "atom", style: "atom"}, attribute = {type:"attribute", style: "attribute"};

        var type = kw("typedef");

        var keywords = {

          "if": A, "while": A, "else": B, "do": B, "try": B,

          "return": C, "break": C, "continue": C, "new": C, "throw": C,

          "var": kw("var"), "inline":attribute, "static": attribute, "using":kw("import"),

          "public": attribute, "private": attribute, "cast": kw("cast"), "import": kw("import"), "macro": kw("macro"),

          "function": kw("function"), "catch": kw("catch"), "untyped": kw("untyped"), "callback": kw("cb"),

          "for": kw("for"), "switch": kw("switch"), "case": kw("case"), "default": kw("default"),

          "in": operator, "never": kw("property_access"), "trace":kw("trace"),

          "class": type, "abstract":type, "enum":type, "interface":type, "typedef":type, "extends":type, "implements":type, "dynamic":type,

          "true": atom, "false": atom, "null": atom

        };

        var isOperatorChar = /[+\-*&%=<>!?|]/;

        function chain(stream, state, f) {

          state.tokenize = f;

          return f(stream, state);

        }

        function toUnescaped(stream, end) {

          var escaped = false, next;

          while ((next = stream.next()) != null) {

            if (next == end && !escaped)

              return true;

            escaped = !escaped && next == "\\";

          }

        }

        // Used as scratch variables to communicate multiple values without

        // consing up tons of objects.

        var type, content;

        function ret(tp, style, cont) {

          type = tp; content = cont;

          return style;

        }

        function haxeTokenBase(stream, state) {

          var ch = stream.next();

          if (ch == '"' || ch == "'") {

            return chain(stream, state, haxeTokenString(ch));

          } else if (/[\[\]{}\(\),;\:\.]/.test(ch)) {

            return ret(ch);

          } else if (ch == "0" && stream.eat(/x/i)) {

            stream.eatWhile(/[\da-f]/i);

            return ret("number", "number");

          } else if (/\d/.test(ch) || ch == "-" && stream.eat(/\d/)) {

            stream.match(/^\d*(?:\.\d*(?!\.))?(?:[eE][+\-]?\d+)?/);

            return ret("number", "number");

          } else if (state.reAllowed && (ch == "~" && stream.eat(/\//))) {

            toUnescaped(stream, "/");

            stream.eatWhile(/[gimsu]/);

            return ret("regexp", "string-2");

          } else if (ch == "/") {

            if (stream.eat("*")) {

              return chain(stream, state, haxeTokenComment);

            } else if (stream.eat("/")) {

              stream.skipToEnd();

              return ret("comment", "comment");

            } else {

              stream.eatWhile(isOperatorChar);

              return ret("operator", null, stream.current());

            }

          } else if (ch == "#") {

              stream.skipToEnd();

              return ret("conditional", "meta");

          } else if (ch == "@") {

            stream.eat(/:/);

            stream.eatWhile(/[\w_]/);

            return ret ("metadata", "meta");

          } else if (isOperatorChar.test(ch)) {

            stream.eatWhile(isOperatorChar);

            return ret("operator", null, stream.current());

          } else {

            var word;

            if(/[A-Z]/.test(ch)) {

              stream.eatWhile(/[\w_<>]/);

              word = stream.current();

              return ret("type", "variable-3", word);

            } else {

              stream.eatWhile(/[\w_]/);

              var word = stream.current(), known = keywords.propertyIsEnumerable(word) && keywords[word];

              return (known && state.kwAllowed) ? ret(known.type, known.style, word) :

                             ret("variable", "variable", word);

            }

          }

        }

        function haxeTokenString(quote) {

          return function(stream, state) {

            if (toUnescaped(stream, quote))

              state.tokenize = haxeTokenBase;

            return ret("string", "string");

          };

        }

        function haxeTokenComment(stream, state) {

          var maybeEnd = false, ch;

          while (ch = stream.next()) {

            if (ch == "/" && maybeEnd) {

              state.tokenize = haxeTokenBase;

              break;

            }

            maybeEnd = (ch == "*");

          }

          return ret("comment", "comment");

        }

        // Parser

        var atomicTypes = {"atom": true, "number": true, "variable": true, "string": true, "regexp": true};

        function HaxeLexical(indented, column, type, align, prev, info) {

          this.indented = indented;

          this.column = column;

          this.type = type;

          this.prev = prev;

          this.info = info;

          if (align != null) this.align = align;

        }

        function inScope(state, varname) {

          for (var v = state.localVars; v; v = v.next)

            if (v.name == varname) return true;

        }

        function parseHaxe(state, style, type, content, stream) {

          var cc = state.cc;

          // Communicate our context to the combinators.

          // (Less wasteful than consing up a hundred closures on every call.)

          cx.state = state; cx.stream = stream; cx.marked = null, cx.cc = cc;

          if (!state.lexical.hasOwnProperty("align"))

            state.lexical.align = true;

          while(true) {

            var combinator = cc.length ? cc.pop() : statement;

            if (combinator(type, content)) {

              while(cc.length && cc[cc.length - 1].lex)

                cc.pop()();

              if (cx.marked) return cx.marked;

              if (type == "variable" && inScope(state, content)) return "variable-2";

              if (type == "variable" && imported(state, content)) return "variable-3";

              return style;

            }

          }

        }

        function imported(state, typename) {

          if (/[a-z]/.test(typename.charAt(0)))

            return false;

          var len = state.importedtypes.length;

          for (var i = 0; i<len; i++)

            if(state.importedtypes[i]==typename) return true;

        }

        function registerimport(importname) {

          var state = cx.state;

          for (var t = state.importedtypes; t; t = t.next)

            if(t.name == importname) return;

          state.importedtypes = { name: importname, next: state.importedtypes };

        }

        // Combinator utils

        var cx = {state: null, column: null, marked: null, cc: null};

        function pass() {

          for (var i = arguments.length - 1; i >= 0; i--) cx.cc.push(arguments[i]);

        }

        function cont() {

          pass.apply(null, arguments);

          return true;

        }

        function inList(name, list) {

          for (var v = list; v; v = v.next)

            if (v.name == name) return true;

          return false;

        }

        function register(varname) {

          var state = cx.state;

          if (state.context) {

            cx.marked = "def";

            if (inList(varname, state.localVars)) return;

            state.localVars = {name: varname, next: state.localVars};

          } else if (state.globalVars) {

            if (inList(varname, state.globalVars)) return;

            state.globalVars = {name: varname, next: state.globalVars};

          }

        }

        // Combinators

        var defaultVars = {name: "this", next: null};

        function pushcontext() {

          if (!cx.state.context) cx.state.localVars = defaultVars;

          cx.state.context = {prev: cx.state.context, vars: cx.state.localVars};

        }

        function popcontext() {

          cx.state.localVars = cx.state.context.vars;

          cx.state.context = cx.state.context.prev;

        }

        popcontext.lex = true;

        function pushlex(type, info) {

          var result = function() {

            var state = cx.state;

            state.lexical = new HaxeLexical(state.indented, cx.stream.column(), type, null, state.lexical, info);

          };

          result.lex = true;

          return result;

        }

        function poplex() {

          var state = cx.state;

          if (state.lexical.prev) {

            if (state.lexical.type == ")")

              state.indented = state.lexical.indented;

            state.lexical = state.lexical.prev;

          }

        }

        poplex.lex = true;

        function expect(wanted) {

          function f(type) {

            if (type == wanted) return cont();

            else if (wanted == ";") return pass();

            else return cont(f);

          }

          return f;

        }

        function statement(type) {

          if (type == "@") return cont(metadef);

          if (type == "var") return cont(pushlex("vardef"), vardef1, expect(";"), poplex);

          if (type == "keyword a") return cont(pushlex("form"), expression, statement, poplex);

          if (type == "keyword b") return cont(pushlex("form"), statement, poplex);

          if (type == "{") return cont(pushlex("}"), pushcontext, block, poplex, popcontext);

          if (type == ";") return cont();

          if (type == "attribute") return cont(maybeattribute);

          if (type == "function") return cont(functiondef);

          if (type == "for") return cont(pushlex("form"), expect("("), pushlex(")"), forspec1, expect(")"),

                                         poplex, statement, poplex);

          if (type == "variable") return cont(pushlex("stat"), maybelabel);

          if (type == "switch") return cont(pushlex("form"), expression, pushlex("}", "switch"), expect("{"),

                                            block, poplex, poplex);

          if (type == "case") return cont(expression, expect(":"));

          if (type == "default") return cont(expect(":"));

          if (type == "catch") return cont(pushlex("form"), pushcontext, expect("("), funarg, expect(")"),

                                           statement, poplex, popcontext);

          if (type == "import") return cont(importdef, expect(";"));

          if (type == "typedef") return cont(typedef);

          return pass(pushlex("stat"), expression, expect(";"), poplex);

        }

        function expression(type) {

          if (atomicTypes.hasOwnProperty(type)) return cont(maybeoperator);

          if (type == "type" ) return cont(maybeoperator);

          if (type == "function") return cont(functiondef);

          if (type == "keyword c") return cont(maybeexpression);

          if (type == "(") return cont(pushlex(")"), maybeexpression, expect(")"), poplex, maybeoperator);

          if (type == "operator") return cont(expression);

          if (type == "[") return cont(pushlex("]"), commasep(maybeexpression, "]"), poplex, maybeoperator);

          if (type == "{") return cont(pushlex("}"), commasep(objprop, "}"), poplex, maybeoperator);

          return cont();

        }

        function maybeexpression(type) {

          if (type.match(/[;\}\)\],]/)) return pass();

          return pass(expression);

        }

        function maybeoperator(type, value) {

          if (type == "operator" && /\+\+|--/.test(value)) return cont(maybeoperator);

          if (type == "operator" || type == ":") return cont(expression);

          if (type == ";") return;

          if (type == "(") return cont(pushlex(")"), commasep(expression, ")"), poplex, maybeoperator);

          if (type == ".") return cont(property, maybeoperator);

          if (type == "[") return cont(pushlex("]"), expression, expect("]"), poplex, maybeoperator);

        }

        function maybeattribute(type) {

          if (type == "attribute") return cont(maybeattribute);

          if (type == "function") return cont(functiondef);

          if (type == "var") return cont(vardef1);

        }

        function metadef(type) {

          if(type == ":") return cont(metadef);

          if(type == "variable") return cont(metadef);

          if(type == "(") return cont(pushlex(")"), commasep(metaargs, ")"), poplex, statement);

        }

        function metaargs(type) {

          if(type == "variable") return cont();

        }

        function importdef (type, value) {

          if(type == "variable" && /[A-Z]/.test(value.charAt(0))) { registerimport(value); return cont(); }

          else if(type == "variable" || type == "property" || type == "." || value == "*") return cont(importdef);

        }

        function typedef (type, value)

        {

          if(type == "variable" && /[A-Z]/.test(value.charAt(0))) { registerimport(value); return cont(); }

          else if (type == "type" && /[A-Z]/.test(value.charAt(0))) { return cont(); }

        }

        function maybelabel(type) {

          if (type == ":") return cont(poplex, statement);

          return pass(maybeoperator, expect(";"), poplex);

        }

        function property(type) {

          if (type == "variable") {cx.marked = "property"; return cont();}

        }

        function objprop(type) {

          if (type == "variable") cx.marked = "property";

          if (atomicTypes.hasOwnProperty(type)) return cont(expect(":"), expression);

        }

        function commasep(what, end) {

          function proceed(type) {

            if (type == ",") return cont(what, proceed);

            if (type == end) return cont();

            return cont(expect(end));

          }

          return function(type) {

            if (type == end) return cont();

            else return pass(what, proceed);

          };

        }

        function block(type) {

          if (type == "}") return cont();

          return pass(statement, block);

        }

        function vardef1(type, value) {

          if (type == "variable"){register(value); return cont(typeuse, vardef2);}

          return cont();

        }

        function vardef2(type, value) {

          if (value == "=") return cont(expression, vardef2);

          if (type == ",") return cont(vardef1);

        }

        function forspec1(type, value) {

          if (type == "variable") {

            register(value);

            return cont(forin, expression)

          } else {

            return pass()

          }

        }

        function forin(_type, value) {

          if (value == "in") return cont();

        }

        function functiondef(type, value) {

          //function names starting with upper-case letters are recognised as types, so cludging them together here.

          if (type == "variable" || type == "type") {register(value); return cont(functiondef);}

          if (value == "new") return cont(functiondef);

          if (type == "(") return cont(pushlex(")"), pushcontext, commasep(funarg, ")"), poplex, typeuse, statement, popcontext);

        }

        function typeuse(type) {

          if(type == ":") return cont(typestring);

        }

        function typestring(type) {

          if(type == "type") return cont();

          if(type == "variable") return cont();

          if(type == "{") return cont(pushlex("}"), commasep(typeprop, "}"), poplex);

        }

        function typeprop(type) {

          if(type == "variable") return cont(typeuse);

        }

        function funarg(type, value) {

          if (type == "variable") {register(value); return cont(typeuse);}

        }

        // Interface

        return {

          startState: function(basecolumn) {

            var defaulttypes = ["Int", "Float", "String", "Void", "Std", "Bool", "Dynamic", "Array"];

            var state = {

              tokenize: haxeTokenBase,

              reAllowed: true,

              kwAllowed: true,

              cc: [],

              lexical: new HaxeLexical((basecolumn || 0) - indentUnit, 0, "block", false),

              localVars: parserConfig.localVars,

              importedtypes: defaulttypes,

              context: parserConfig.localVars && {vars: parserConfig.localVars},

              indented: 0

            };

            if (parserConfig.globalVars && typeof parserConfig.globalVars == "object")

              state.globalVars = parserConfig.globalVars;

            return state;

          },

          token: function(stream, state) {

            if (stream.sol()) {

              if (!state.lexical.hasOwnProperty("align"))

                state.lexical.align = false;

              state.indented = stream.indentation();

            }

            if (stream.eatSpace()) return null;

            var style = state.tokenize(stream, state);

            if (type == "comment") return style;

            state.reAllowed = !!(type == "operator" || type == "keyword c" || type.match(/^[\[{}\(,;:]$/));

            state.kwAllowed = type != '.';

            return parseHaxe(state, style, type, content, stream);

          },

          indent: function(state, textAfter) {

            if (state.tokenize != haxeTokenBase) return 0;

            var firstChar = textAfter && textAfter.charAt(0), lexical = state.lexical;

            if (lexical.type == "stat" && firstChar == "}") lexical = lexical.prev;

            var type = lexical.type, closing = firstChar == type;

            if (type == "vardef") return lexical.indented + 4;

            else if (type == "form" && firstChar == "{") return lexical.indented;

            else if (type == "stat" || type == "form") return lexical.indented + indentUnit;

            else if (lexical.info == "switch" && !closing)

              return lexical.indented + (/^(?:case|default)\b/.test(textAfter) ? indentUnit : 2 * indentUnit);

            else if (lexical.align) return lexical.column + (closing ? 0 : 1);

            else return lexical.indented + (closing ? 0 : indentUnit);

          },

          electricChars: "{}",

          blockCommentStart: "/*",

          blockCommentEnd: "*/",

          lineComment: "//"

        };

      });

      CodeMirror.defineMIME("text/x-haxe", "haxe");

      CodeMirror.defineMode("hxml", function () {

        return {

          startState: function () {

            return {

              define: false,

              inString: false

            };

          },

          token: function (stream, state) {

            var ch = stream.peek();

            var sol = stream.sol();

            ///* comments */

            if (ch == "#") {

              stream.skipToEnd();

              return "comment";

            }

            if (sol && ch == "-") {

              var style = "variable-2";

              stream.eat(/-/);

              if (stream.peek() == "-") {

                stream.eat(/-/);

                style = "keyword a";

              }

              if (stream.peek() == "D") {

                stream.eat(/[D]/);

                style = "keyword c";

                state.define = true;

              }

              stream.eatWhile(/[A-Z]/i);

              return style;

            }

            var ch = stream.peek();

            if (state.inString == false && ch == "'") {

              state.inString = true;

              ch = stream.next();

            }

            if (state.inString == true) {

              if (stream.skipTo("'")) {

              } else {

                stream.skipToEnd();

              }

              if (stream.peek() == "'") {

                stream.next();

                state.inString = false;

              }

              return "string";

            }

            stream.next();

            return null;

          },

          lineComment: "#"

        };

      });

      CodeMirror.defineMIME("text/x-hxml", "hxml");

      });

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				// CodeMirror, copyright (c) by Marijn Haverbeke and others
				// Distributed under an MIT license: http://codemirror.net/LICENSE

				(function(mod) {
				if (typeof exports == "object" && typeof module == "object") // CommonJS
				mod(require("../../lib/codemirror"));
				else if (typeof define == "function" && define.amd) // AMD
				define(["../../lib/codemirror"], mod);
				else // Plain browser env
				mod(CodeMirror);
				})(function(CodeMirror) {
				"use strict";

				CodeMirror.defineMode("haxe", function(config, parserConfig) {
				var indentUnit = config.indentUnit;

				// Tokenizer

				function kw(type) {return {type: type, style: "keyword"};}
				var A = kw("keyword a"), B = kw("keyword b"), C = kw("keyword c");
				var operator = kw("operator"), atom = {type: "atom", style: "atom"}, attribute = {type:"attribute", style: "attribute"};
				var type = kw("typedef");
				var keywords = {
				"if": A, "while": A, "else": B, "do": B, "try": B,
				"return": C, "break": C, "continue": C, "new": C, "throw": C,
				"var": kw("var"), "inline":attribute, "static": attribute, "using":kw("import"),
				"public": attribute, "private": attribute, "cast": kw("cast"), "import": kw("import"), "macro": kw("macro"),
				"function": kw("function"), "catch": kw("catch"), "untyped": kw("untyped"), "callback": kw("cb"),
				"for": kw("for"), "switch": kw("switch"), "case": kw("case"), "default": kw("default"),
				"in": operator, "never": kw("property_access"), "trace":kw("trace"),
				"class": type, "abstract":type, "enum":type, "interface":type, "typedef":type, "extends":type, "implements":type, "dynamic":type,
				"true": atom, "false": atom, "null": atom
				};

				var isOperatorChar = /[+\-*&%=<>!?\|]/;

				function chain(stream, state, f) {
				state.tokenize = f;
				return f(stream, state);
				}

				function toUnescaped(stream, end) {
				var escaped = false, next;
				while ((next = stream.next()) != null) {
				if (next == end && !escaped)
				return true;
				escaped = !escaped && next == "\\";
				}
				}

				// Used as scratch variables to communicate multiple values without
				// consing up tons of objects.
				var type, content;
				function ret(tp, style, cont) {
				type = tp; content = cont;
				return style;
				}

				function haxeTokenBase(stream, state) {
				var ch = stream.next();
				if (ch == '"' \|\| ch == "'") {
				return chain(stream, state, haxeTokenString(ch));
				} else if (/[\[\]{}\(\),;\:\.]/.test(ch)) {
				return ret(ch);
				} else if (ch == "0" && stream.eat(/x/i)) {
				stream.eatWhile(/[\da-f]/i);
				return ret("number", "number");
				} else if (/\d/.test(ch) \|\| ch == "-" && stream.eat(/\d/)) {
				stream.match(/^\d(?:\.\d(?!\.))?(?:[eE][+\-]?\d+)?/);
				return ret("number", "number");
				} else if (state.reAllowed && (ch == "~" && stream.eat(/\//))) {
				toUnescaped(stream, "/");
				stream.eatWhile(/[gimsu]/);
				return ret("regexp", "string-2");
				} else if (ch == "/") {
				if (stream.eat("*")) {
				return chain(stream, state, haxeTokenComment);
				} else if (stream.eat("/")) {
				stream.skipToEnd();
				return ret("comment", "comment");
				} else {
				stream.eatWhile(isOperatorChar);
				return ret("operator", null, stream.current());
				}
				} else if (ch == "#") {
				stream.skipToEnd();
				return ret("conditional", "meta");
				} else if (ch == "@") {
				stream.eat(/:/);
				stream.eatWhile(/[\w_]/);
				return ret ("metadata", "meta");
				} else if (isOperatorChar.test(ch)) {
				stream.eatWhile(isOperatorChar);
				return ret("operator", null, stream.current());
				} else {
				var word;
				if(/[A-Z]/.test(ch)) {
				stream.eatWhile(/[\w_<>]/);
				word = stream.current();
				return ret("type", "variable-3", word);
				} else {
				stream.eatWhile(/[\w_]/);
				var word = stream.current(), known = keywords.propertyIsEnumerable(word) && keywords[word];
				return (known && state.kwAllowed) ? ret(known.type, known.style, word) :
				ret("variable", "variable", word);
				}
				}
				}

				function haxeTokenString(quote) {
				return function(stream, state) {
				if (toUnescaped(stream, quote))
				state.tokenize = haxeTokenBase;
				return ret("string", "string");
				};
				}

				function haxeTokenComment(stream, state) {
				var maybeEnd = false, ch;
				while (ch = stream.next()) {
				if (ch == "/" && maybeEnd) {
				state.tokenize = haxeTokenBase;
				break;
				}
				maybeEnd = (ch == "*");
				}
				return ret("comment", "comment");
				}

				// Parser

				var atomicTypes = {"atom": true, "number": true, "variable": true, "string": true, "regexp": true};

				function HaxeLexical(indented, column, type, align, prev, info) {
				this.indented = indented;
				this.column = column;
				this.type = type;
				this.prev = prev;
				this.info = info;
				if (align != null) this.align = align;
				}

				function inScope(state, varname) {
				for (var v = state.localVars; v; v = v.next)
				if (v.name == varname) return true;
				}

				function parseHaxe(state, style, type, content, stream) {
				var cc = state.cc;
				// Communicate our context to the combinators.
				// (Less wasteful than consing up a hundred closures on every call.)
				cx.state = state; cx.stream = stream; cx.marked = null, cx.cc = cc;

				if (!state.lexical.hasOwnProperty("align"))
				state.lexical.align = true;

				while(true) {
				var combinator = cc.length ? cc.pop() : statement;
				if (combinator(type, content)) {
				while(cc.length && cc[cc.length - 1].lex)
				cc.pop()();
				if (cx.marked) return cx.marked;
				if (type == "variable" && inScope(state, content)) return "variable-2";
				if (type == "variable" && imported(state, content)) return "variable-3";
				return style;
				}
				}
				}

				function imported(state, typename) {
				if (/[a-z]/.test(typename.charAt(0)))
				return false;
				var len = state.importedtypes.length;
				for (var i = 0; i<len; i++)
				if(state.importedtypes[i]==typename) return true;
				}

				function registerimport(importname) {
				var state = cx.state;
				for (var t = state.importedtypes; t; t = t.next)
				if(t.name == importname) return;
				state.importedtypes = { name: importname, next: state.importedtypes };
				}
				// Combinator utils

				var cx = {state: null, column: null, marked: null, cc: null};
				function pass() {
				for (var i = arguments.length - 1; i >= 0; i--) cx.cc.push(arguments[i]);
				}
				function cont() {
				pass.apply(null, arguments);
				return true;
				}
				function inList(name, list) {
				for (var v = list; v; v = v.next)
				if (v.name == name) return true;
				return false;
				}
				function register(varname) {
				var state = cx.state;
				if (state.context) {
				cx.marked = "def";
				if (inList(varname, state.localVars)) return;
				state.localVars = {name: varname, next: state.localVars};
				} else if (state.globalVars) {
				if (inList(varname, state.globalVars)) return;
				state.globalVars = {name: varname, next: state.globalVars};
				}
				}

				// Combinators

				var defaultVars = {name: "this", next: null};
				function pushcontext() {
				if (!cx.state.context) cx.state.localVars = defaultVars;
				cx.state.context = {prev: cx.state.context, vars: cx.state.localVars};
				}
				function popcontext() {
				cx.state.localVars = cx.state.context.vars;
				cx.state.context = cx.state.context.prev;
				}
				popcontext.lex = true;
				function pushlex(type, info) {
				var result = function() {
				var state = cx.state;
				state.lexical = new HaxeLexical(state.indented, cx.stream.column(), type, null, state.lexical, info);
				};
				result.lex = true;
				return result;
				}
				function poplex() {
				var state = cx.state;
				if (state.lexical.prev) {
				if (state.lexical.type == ")")
				state.indented = state.lexical.indented;
				state.lexical = state.lexical.prev;
				}
				}
				poplex.lex = true;

				function expect(wanted) {
				function f(type) {
				if (type == wanted) return cont();
				else if (wanted == ";") return pass();
				else return cont(f);
				}
				return f;
				}

				function statement(type) {
				if (type == "@") return cont(metadef);
				if (type == "var") return cont(pushlex("vardef"), vardef1, expect(";"), poplex);
				if (type == "keyword a") return cont(pushlex("form"), expression, statement, poplex);
				if (type == "keyword b") return cont(pushlex("form"), statement, poplex);
				if (type == "{") return cont(pushlex("}"), pushcontext, block, poplex, popcontext);
				if (type == ";") return cont();
				if (type == "attribute") return cont(maybeattribute);
				if (type == "function") return cont(functiondef);
				if (type == "for") return cont(pushlex("form"), expect("("), pushlex(")"), forspec1, expect(")"),
				poplex, statement, poplex);
				if (type == "variable") return cont(pushlex("stat"), maybelabel);
				if (type == "switch") return cont(pushlex("form"), expression, pushlex("}", "switch"), expect("{"),
				block, poplex, poplex);
				if (type == "case") return cont(expression, expect(":"));
				if (type == "default") return cont(expect(":"));
				if (type == "catch") return cont(pushlex("form"), pushcontext, expect("("), funarg, expect(")"),
				statement, poplex, popcontext);
				if (type == "import") return cont(importdef, expect(";"));
				if (type == "typedef") return cont(typedef);
				return pass(pushlex("stat"), expression, expect(";"), poplex);
				}
				function expression(type) {
				if (atomicTypes.hasOwnProperty(type)) return cont(maybeoperator);
				if (type == "type" ) return cont(maybeoperator);
				if (type == "function") return cont(functiondef);
				if (type == "keyword c") return cont(maybeexpression);
				if (type == "(") return cont(pushlex(")"), maybeexpression, expect(")"), poplex, maybeoperator);
				if (type == "operator") return cont(expression);
				if (type == "[") return cont(pushlex("]"), commasep(maybeexpression, "]"), poplex, maybeoperator);
				if (type == "{") return cont(pushlex("}"), commasep(objprop, "}"), poplex, maybeoperator);
				return cont();
				}
				function maybeexpression(type) {
				if (type.match(/[;\}\)\],]/)) return pass();
				return pass(expression);
				}

				function maybeoperator(type, value) {
				if (type == "operator" && /\+\+\|--/.test(value)) return cont(maybeoperator);
				if (type == "operator" \|\| type == ":") return cont(expression);
				if (type == ";") return;
				if (type == "(") return cont(pushlex(")"), commasep(expression, ")"), poplex, maybeoperator);
				if (type == ".") return cont(property, maybeoperator);
				if (type == "[") return cont(pushlex("]"), expression, expect("]"), poplex, maybeoperator);
				}

				function maybeattribute(type) {
				if (type == "attribute") return cont(maybeattribute);
				if (type == "function") return cont(functiondef);
				if (type == "var") return cont(vardef1);
				}

				function metadef(type) {
				if(type == ":") return cont(metadef);
				if(type == "variable") return cont(metadef);
				if(type == "(") return cont(pushlex(")"), commasep(metaargs, ")"), poplex, statement);
				}
				function metaargs(type) {
				if(type == "variable") return cont();
				}

				function importdef (type, value) {
				if(type == "variable" && /[A-Z]/.test(value.charAt(0))) { registerimport(value); return cont(); }
				else if(type == "variable" \|\| type == "property" \|\| type == "." \|\| value == "*") return cont(importdef);
				}

				function typedef (type, value)
				{
				if(type == "variable" && /[A-Z]/.test(value.charAt(0))) { registerimport(value); return cont(); }
				else if (type == "type" && /[A-Z]/.test(value.charAt(0))) { return cont(); }
				}

				function maybelabel(type) {
				if (type == ":") return cont(poplex, statement);
				return pass(maybeoperator, expect(";"), poplex);
				}
				function property(type) {
				if (type == "variable") {cx.marked = "property"; return cont();}
				}
				function objprop(type) {
				if (type == "variable") cx.marked = "property";
				if (atomicTypes.hasOwnProperty(type)) return cont(expect(":"), expression);
				}
				function commasep(what, end) {
				function proceed(type) {
				if (type == ",") return cont(what, proceed);
				if (type == end) return cont();
				return cont(expect(end));
				}
				return function(type) {
				if (type == end) return cont();
				else return pass(what, proceed);
				};
				}
				function block(type) {
				if (type == "}") return cont();
				return pass(statement, block);
				}
				function vardef1(type, value) {
				if (type == "variable"){register(value); return cont(typeuse, vardef2);}
				return cont();
				}
				function vardef2(type, value) {
				if (value == "=") return cont(expression, vardef2);
				if (type == ",") return cont(vardef1);
				}
				function forspec1(type, value) {
				if (type == "variable") {
				register(value);
				return cont(forin, expression)
				} else {
				return pass()
				}
				}
				function forin(_type, value) {
				if (value == "in") return cont();
				}
				function functiondef(type, value) {
				//function names starting with upper-case letters are recognised as types, so cludging them together here.
				if (type == "variable" \|\| type == "type") {register(value); return cont(functiondef);}
				if (value == "new") return cont(functiondef);
				if (type == "(") return cont(pushlex(")"), pushcontext, commasep(funarg, ")"), poplex, typeuse, statement, popcontext);
				}
				function typeuse(type) {
				if(type == ":") return cont(typestring);
				}
				function typestring(type) {
				if(type == "type") return cont();
				if(type == "variable") return cont();
				if(type == "{") return cont(pushlex("}"), commasep(typeprop, "}"), poplex);
				}
				function typeprop(type) {
				if(type == "variable") return cont(typeuse);
				}
				function funarg(type, value) {
				if (type == "variable") {register(value); return cont(typeuse);}
				}

				// Interface
				return {
				startState: function(basecolumn) {
				var defaulttypes = ["Int", "Float", "String", "Void", "Std", "Bool", "Dynamic", "Array"];
				var state = {
				tokenize: haxeTokenBase,
				reAllowed: true,
				kwAllowed: true,
				cc: [],
				lexical: new HaxeLexical((basecolumn \|\| 0) - indentUnit, 0, "block", false),
				localVars: parserConfig.localVars,
				importedtypes: defaulttypes,
				context: parserConfig.localVars && {vars: parserConfig.localVars},
				indented: 0
				};
				if (parserConfig.globalVars && typeof parserConfig.globalVars == "object")
				state.globalVars = parserConfig.globalVars;
				return state;
				},

				token: function(stream, state) {
				if (stream.sol()) {
				if (!state.lexical.hasOwnProperty("align"))
				state.lexical.align = false;
				state.indented = stream.indentation();
				}
				if (stream.eatSpace()) return null;
				var style = state.tokenize(stream, state);
				if (type == "comment") return style;
				state.reAllowed = !!(type == "operator" \|\| type == "keyword c" \|\| type.match(/^[\[{}\(,;:]$/));
				state.kwAllowed = type != '.';
				return parseHaxe(state, style, type, content, stream);
				},

				indent: function(state, textAfter) {
				if (state.tokenize != haxeTokenBase) return 0;
				var firstChar = textAfter && textAfter.charAt(0), lexical = state.lexical;
				if (lexical.type == "stat" && firstChar == "}") lexical = lexical.prev;
				var type = lexical.type, closing = firstChar == type;
				if (type == "vardef") return lexical.indented + 4;
				else if (type == "form" && firstChar == "{") return lexical.indented;
				else if (type == "stat" \|\| type == "form") return lexical.indented + indentUnit;
				else if (lexical.info == "switch" && !closing)
				return lexical.indented + (/^(?:case\|default)\b/.test(textAfter) ? indentUnit : 2 * indentUnit);
				else if (lexical.align) return lexical.column + (closing ? 0 : 1);
				else return lexical.indented + (closing ? 0 : indentUnit);
				},

				electricChars: "{}",
				blockCommentStart: "/*",
				blockCommentEnd: "*/",
				lineComment: "//"
				};
				});

				CodeMirror.defineMIME("text/x-haxe", "haxe");

				CodeMirror.defineMode("hxml", function () {

				return {
				startState: function () {
				return {
				define: false,
				inString: false
				};
				},
				token: function (stream, state) {
				var ch = stream.peek();
				var sol = stream.sol();

				///* comments */
				if (ch == "#") {
				stream.skipToEnd();
				return "comment";
				}
				if (sol && ch == "-") {
				var style = "variable-2";

				stream.eat(/-/);

				if (stream.peek() == "-") {
				stream.eat(/-/);
				style = "keyword a";
				}

				if (stream.peek() == "D") {
				stream.eat(/[D]/);
				style = "keyword c";
				state.define = true;
				}

				stream.eatWhile(/[A-Z]/i);
				return style;
				}

				var ch = stream.peek();

				if (state.inString == false && ch == "'") {
				state.inString = true;
				ch = stream.next();
				}

				if (state.inString == true) {
				if (stream.skipTo("'")) {

				} else {
				stream.skipToEnd();
				}

				if (stream.peek() == "'") {
				stream.next();
				state.inString = false;
				}

				return "string";
				}

				stream.next();
				return null;
				},
				lineComment: "#"
				};
				});

				CodeMirror.defineMIME("text/x-hxml", "hxml");

				});