##// END OF EJS Templates
pyro4: Add the custom header `X-RhodeCode-Backend` to the pyro4 backend responses....
pyro4: Add the custom header `X-RhodeCode-Backend` to the pyro4 backend responses. This custom header sets the SCM backend which is in use. It is used to identify VCS responses in the error handler. VCS responses are skipped during error handling.

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xquery.js
437 lines | 14.1 KiB | application/javascript | JavascriptLexer
// 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("xquery", function() {
// The keywords object is set to the result of this self executing
// function. Each keyword is a property of the keywords object whose
// value is {type: atype, style: astyle}
var keywords = function(){
// conveinence functions used to build keywords object
function kw(type) {return {type: type, style: "keyword"};}
var A = kw("keyword a")
, B = kw("keyword b")
, C = kw("keyword c")
, operator = kw("operator")
, atom = {type: "atom", style: "atom"}
, punctuation = {type: "punctuation", style: null}
, qualifier = {type: "axis_specifier", style: "qualifier"};
// kwObj is what is return from this function at the end
var kwObj = {
'if': A, 'switch': A, 'while': A, 'for': A,
'else': B, 'then': B, 'try': B, 'finally': B, 'catch': B,
'element': C, 'attribute': C, 'let': C, 'implements': C, 'import': C, 'module': C, 'namespace': C,
'return': C, 'super': C, 'this': C, 'throws': C, 'where': C, 'private': C,
',': punctuation,
'null': atom, 'fn:false()': atom, 'fn:true()': atom
};
// a list of 'basic' keywords. For each add a property to kwObj with the value of
// {type: basic[i], style: "keyword"} e.g. 'after' --> {type: "after", style: "keyword"}
var basic = ['after','ancestor','ancestor-or-self','and','as','ascending','assert','attribute','before',
'by','case','cast','child','comment','declare','default','define','descendant','descendant-or-self',
'descending','document','document-node','element','else','eq','every','except','external','following',
'following-sibling','follows','for','function','if','import','in','instance','intersect','item',
'let','module','namespace','node','node','of','only','or','order','parent','precedes','preceding',
'preceding-sibling','processing-instruction','ref','return','returns','satisfies','schema','schema-element',
'self','some','sortby','stable','text','then','to','treat','typeswitch','union','variable','version','where',
'xquery', 'empty-sequence'];
for(var i=0, l=basic.length; i < l; i++) { kwObj[basic[i]] = kw(basic[i]);};
// a list of types. For each add a property to kwObj with the value of
// {type: "atom", style: "atom"}
var types = ['xs:string', 'xs:float', 'xs:decimal', 'xs:double', 'xs:integer', 'xs:boolean', 'xs:date', 'xs:dateTime',
'xs:time', 'xs:duration', 'xs:dayTimeDuration', 'xs:time', 'xs:yearMonthDuration', 'numeric', 'xs:hexBinary',
'xs:base64Binary', 'xs:anyURI', 'xs:QName', 'xs:byte','xs:boolean','xs:anyURI','xf:yearMonthDuration'];
for(var i=0, l=types.length; i < l; i++) { kwObj[types[i]] = atom;};
// each operator will add a property to kwObj with value of {type: "operator", style: "keyword"}
var operators = ['eq', 'ne', 'lt', 'le', 'gt', 'ge', ':=', '=', '>', '>=', '<', '<=', '.', '|', '?', 'and', 'or', 'div', 'idiv', 'mod', '*', '/', '+', '-'];
for(var i=0, l=operators.length; i < l; i++) { kwObj[operators[i]] = operator;};
// each axis_specifiers will add a property to kwObj with value of {type: "axis_specifier", style: "qualifier"}
var axis_specifiers = ["self::", "attribute::", "child::", "descendant::", "descendant-or-self::", "parent::",
"ancestor::", "ancestor-or-self::", "following::", "preceding::", "following-sibling::", "preceding-sibling::"];
for(var i=0, l=axis_specifiers.length; i < l; i++) { kwObj[axis_specifiers[i]] = qualifier; };
return kwObj;
}();
function chain(stream, state, f) {
state.tokenize = f;
return f(stream, state);
}
// the primary mode tokenizer
function tokenBase(stream, state) {
var ch = stream.next(),
mightBeFunction = false,
isEQName = isEQNameAhead(stream);
// an XML tag (if not in some sub, chained tokenizer)
if (ch == "<") {
if(stream.match("!--", true))
return chain(stream, state, tokenXMLComment);
if(stream.match("![CDATA", false)) {
state.tokenize = tokenCDATA;
return "tag";
}
if(stream.match("?", false)) {
return chain(stream, state, tokenPreProcessing);
}
var isclose = stream.eat("/");
stream.eatSpace();
var tagName = "", c;
while ((c = stream.eat(/[^\s\u00a0=<>\"\'\/?]/))) tagName += c;
return chain(stream, state, tokenTag(tagName, isclose));
}
// start code block
else if(ch == "{") {
pushStateStack(state,{ type: "codeblock"});
return null;
}
// end code block
else if(ch == "}") {
popStateStack(state);
return null;
}
// if we're in an XML block
else if(isInXmlBlock(state)) {
if(ch == ">")
return "tag";
else if(ch == "/" && stream.eat(">")) {
popStateStack(state);
return "tag";
}
else
return "variable";
}
// if a number
else if (/\d/.test(ch)) {
stream.match(/^\d*(?:\.\d*)?(?:E[+\-]?\d+)?/);
return "atom";
}
// comment start
else if (ch === "(" && stream.eat(":")) {
pushStateStack(state, { type: "comment"});
return chain(stream, state, tokenComment);
}
// quoted string
else if ( !isEQName && (ch === '"' || ch === "'"))
return chain(stream, state, tokenString(ch));
// variable
else if(ch === "$") {
return chain(stream, state, tokenVariable);
}
// assignment
else if(ch ===":" && stream.eat("=")) {
return "keyword";
}
// open paren
else if(ch === "(") {
pushStateStack(state, { type: "paren"});
return null;
}
// close paren
else if(ch === ")") {
popStateStack(state);
return null;
}
// open paren
else if(ch === "[") {
pushStateStack(state, { type: "bracket"});
return null;
}
// close paren
else if(ch === "]") {
popStateStack(state);
return null;
}
else {
var known = keywords.propertyIsEnumerable(ch) && keywords[ch];
// if there's a EQName ahead, consume the rest of the string portion, it's likely a function
if(isEQName && ch === '\"') while(stream.next() !== '"'){}
if(isEQName && ch === '\'') while(stream.next() !== '\''){}
// gobble up a word if the character is not known
if(!known) stream.eatWhile(/[\w\$_-]/);
// gobble a colon in the case that is a lib func type call fn:doc
var foundColon = stream.eat(":");
// if there's not a second colon, gobble another word. Otherwise, it's probably an axis specifier
// which should get matched as a keyword
if(!stream.eat(":") && foundColon) {
stream.eatWhile(/[\w\$_-]/);
}
// if the next non whitespace character is an open paren, this is probably a function (if not a keyword of other sort)
if(stream.match(/^[ \t]*\(/, false)) {
mightBeFunction = true;
}
// is the word a keyword?
var word = stream.current();
known = keywords.propertyIsEnumerable(word) && keywords[word];
// if we think it's a function call but not yet known,
// set style to variable for now for lack of something better
if(mightBeFunction && !known) known = {type: "function_call", style: "variable def"};
// if the previous word was element, attribute, axis specifier, this word should be the name of that
if(isInXmlConstructor(state)) {
popStateStack(state);
return "variable";
}
// as previously checked, if the word is element,attribute, axis specifier, call it an "xmlconstructor" and
// push the stack so we know to look for it on the next word
if(word == "element" || word == "attribute" || known.type == "axis_specifier") pushStateStack(state, {type: "xmlconstructor"});
// if the word is known, return the details of that else just call this a generic 'word'
return known ? known.style : "variable";
}
}
// handle comments, including nested
function tokenComment(stream, state) {
var maybeEnd = false, maybeNested = false, nestedCount = 0, ch;
while (ch = stream.next()) {
if (ch == ")" && maybeEnd) {
if(nestedCount > 0)
nestedCount--;
else {
popStateStack(state);
break;
}
}
else if(ch == ":" && maybeNested) {
nestedCount++;
}
maybeEnd = (ch == ":");
maybeNested = (ch == "(");
}
return "comment";
}
// tokenizer for string literals
// optionally pass a tokenizer function to set state.tokenize back to when finished
function tokenString(quote, f) {
return function(stream, state) {
var ch;
if(isInString(state) && stream.current() == quote) {
popStateStack(state);
if(f) state.tokenize = f;
return "string";
}
pushStateStack(state, { type: "string", name: quote, tokenize: tokenString(quote, f) });
// if we're in a string and in an XML block, allow an embedded code block
if(stream.match("{", false) && isInXmlAttributeBlock(state)) {
state.tokenize = tokenBase;
return "string";
}
while (ch = stream.next()) {
if (ch == quote) {
popStateStack(state);
if(f) state.tokenize = f;
break;
}
else {
// if we're in a string and in an XML block, allow an embedded code block in an attribute
if(stream.match("{", false) && isInXmlAttributeBlock(state)) {
state.tokenize = tokenBase;
return "string";
}
}
}
return "string";
};
}
// tokenizer for variables
function tokenVariable(stream, state) {
var isVariableChar = /[\w\$_-]/;
// a variable may start with a quoted EQName so if the next character is quote, consume to the next quote
if(stream.eat("\"")) {
while(stream.next() !== '\"'){};
stream.eat(":");
} else {
stream.eatWhile(isVariableChar);
if(!stream.match(":=", false)) stream.eat(":");
}
stream.eatWhile(isVariableChar);
state.tokenize = tokenBase;
return "variable";
}
// tokenizer for XML tags
function tokenTag(name, isclose) {
return function(stream, state) {
stream.eatSpace();
if(isclose && stream.eat(">")) {
popStateStack(state);
state.tokenize = tokenBase;
return "tag";
}
// self closing tag without attributes?
if(!stream.eat("/"))
pushStateStack(state, { type: "tag", name: name, tokenize: tokenBase});
if(!stream.eat(">")) {
state.tokenize = tokenAttribute;
return "tag";
}
else {
state.tokenize = tokenBase;
}
return "tag";
};
}
// tokenizer for XML attributes
function tokenAttribute(stream, state) {
var ch = stream.next();
if(ch == "/" && stream.eat(">")) {
if(isInXmlAttributeBlock(state)) popStateStack(state);
if(isInXmlBlock(state)) popStateStack(state);
return "tag";
}
if(ch == ">") {
if(isInXmlAttributeBlock(state)) popStateStack(state);
return "tag";
}
if(ch == "=")
return null;
// quoted string
if (ch == '"' || ch == "'")
return chain(stream, state, tokenString(ch, tokenAttribute));
if(!isInXmlAttributeBlock(state))
pushStateStack(state, { type: "attribute", tokenize: tokenAttribute});
stream.eat(/[a-zA-Z_:]/);
stream.eatWhile(/[-a-zA-Z0-9_:.]/);
stream.eatSpace();
// the case where the attribute has not value and the tag was closed
if(stream.match(">", false) || stream.match("/", false)) {
popStateStack(state);
state.tokenize = tokenBase;
}
return "attribute";
}
// handle comments, including nested
function tokenXMLComment(stream, state) {
var ch;
while (ch = stream.next()) {
if (ch == "-" && stream.match("->", true)) {
state.tokenize = tokenBase;
return "comment";
}
}
}
// handle CDATA
function tokenCDATA(stream, state) {
var ch;
while (ch = stream.next()) {
if (ch == "]" && stream.match("]", true)) {
state.tokenize = tokenBase;
return "comment";
}
}
}
// handle preprocessing instructions
function tokenPreProcessing(stream, state) {
var ch;
while (ch = stream.next()) {
if (ch == "?" && stream.match(">", true)) {
state.tokenize = tokenBase;
return "comment meta";
}
}
}
// functions to test the current context of the state
function isInXmlBlock(state) { return isIn(state, "tag"); }
function isInXmlAttributeBlock(state) { return isIn(state, "attribute"); }
function isInXmlConstructor(state) { return isIn(state, "xmlconstructor"); }
function isInString(state) { return isIn(state, "string"); }
function isEQNameAhead(stream) {
// assume we've already eaten a quote (")
if(stream.current() === '"')
return stream.match(/^[^\"]+\"\:/, false);
else if(stream.current() === '\'')
return stream.match(/^[^\"]+\'\:/, false);
else
return false;
}
function isIn(state, type) {
return (state.stack.length && state.stack[state.stack.length - 1].type == type);
}
function pushStateStack(state, newState) {
state.stack.push(newState);
}
function popStateStack(state) {
state.stack.pop();
var reinstateTokenize = state.stack.length && state.stack[state.stack.length-1].tokenize;
state.tokenize = reinstateTokenize || tokenBase;
}
// the interface for the mode API
return {
startState: function() {
return {
tokenize: tokenBase,
cc: [],
stack: []
};
},
token: function(stream, state) {
if (stream.eatSpace()) return null;
var style = state.tokenize(stream, state);
return style;
},
blockCommentStart: "(:",
blockCommentEnd: ":)"
};
});
CodeMirror.defineMIME("application/xquery", "xquery");
});