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http-proto: in case incoming requests come in as chunked stream the data to VCSServer....
http-proto: in case incoming requests come in as chunked stream the data to VCSServer. This should solve a problem of uploading large files to rhodecode. In case of git with small postBuffers GIT client streams data to the server. In such case we want to stream the data back again to vcsserver without reading it fully inside RhodeCode.
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haskell.js
267 lines | 7.9 KiB | application/javascript | JavascriptLexer
/ rhodecode / public / js / mode / haskell / haskell.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("haskell", function(_config, modeConfig) {
function switchState(source, setState, f) {
setState(f);
return f(source, setState);
}
// These should all be Unicode extended, as per the Haskell 2010 report
var smallRE = /[a-z_]/;
var largeRE = /[A-Z]/;
var digitRE = /\d/;
var hexitRE = /[0-9A-Fa-f]/;
var octitRE = /[0-7]/;
var idRE = /[a-z_A-Z0-9'\xa1-\uffff]/;
var symbolRE = /[-!#$%&*+.\/<=>?@\\^|~:]/;
var specialRE = /[(),;[\]`{}]/;
var whiteCharRE = /[ \t\v\f]/; // newlines are handled in tokenizer
function normal(source, setState) {
if (source.eatWhile(whiteCharRE)) {
return null;
}
var ch = source.next();
if (specialRE.test(ch)) {
if (ch == '{' && source.eat('-')) {
var t = "comment";
if (source.eat('#')) {
t = "meta";
}
return switchState(source, setState, ncomment(t, 1));
}
return null;
}
if (ch == '\'') {
if (source.eat('\\')) {
source.next(); // should handle other escapes here
}
else {
source.next();
}
if (source.eat('\'')) {
return "string";
}
return "error";
}
if (ch == '"') {
return switchState(source, setState, stringLiteral);
}
if (largeRE.test(ch)) {
source.eatWhile(idRE);
if (source.eat('.')) {
return "qualifier";
}
return "variable-2";
}
if (smallRE.test(ch)) {
source.eatWhile(idRE);
return "variable";
}
if (digitRE.test(ch)) {
if (ch == '0') {
if (source.eat(/[xX]/)) {
source.eatWhile(hexitRE); // should require at least 1
return "integer";
}
if (source.eat(/[oO]/)) {
source.eatWhile(octitRE); // should require at least 1
return "number";
}
}
source.eatWhile(digitRE);
var t = "number";
if (source.match(/^\.\d+/)) {
t = "number";
}
if (source.eat(/[eE]/)) {
t = "number";
source.eat(/[-+]/);
source.eatWhile(digitRE); // should require at least 1
}
return t;
}
if (ch == "." && source.eat("."))
return "keyword";
if (symbolRE.test(ch)) {
if (ch == '-' && source.eat(/-/)) {
source.eatWhile(/-/);
if (!source.eat(symbolRE)) {
source.skipToEnd();
return "comment";
}
}
var t = "variable";
if (ch == ':') {
t = "variable-2";
}
source.eatWhile(symbolRE);
return t;
}
return "error";
}
function ncomment(type, nest) {
if (nest == 0) {
return normal;
}
return function(source, setState) {
var currNest = nest;
while (!source.eol()) {
var ch = source.next();
if (ch == '{' && source.eat('-')) {
++currNest;
}
else if (ch == '-' && source.eat('}')) {
--currNest;
if (currNest == 0) {
setState(normal);
return type;
}
}
}
setState(ncomment(type, currNest));
return type;
};
}
function stringLiteral(source, setState) {
while (!source.eol()) {
var ch = source.next();
if (ch == '"') {
setState(normal);
return "string";
}
if (ch == '\\') {
if (source.eol() || source.eat(whiteCharRE)) {
setState(stringGap);
return "string";
}
if (source.eat('&')) {
}
else {
source.next(); // should handle other escapes here
}
}
}
setState(normal);
return "error";
}
function stringGap(source, setState) {
if (source.eat('\\')) {
return switchState(source, setState, stringLiteral);
}
source.next();
setState(normal);
return "error";
}
var wellKnownWords = (function() {
var wkw = {};
function setType(t) {
return function () {
for (var i = 0; i < arguments.length; i++)
wkw[arguments[i]] = t;
};
}
setType("keyword")(
"case", "class", "data", "default", "deriving", "do", "else", "foreign",
"if", "import", "in", "infix", "infixl", "infixr", "instance", "let",
"module", "newtype", "of", "then", "type", "where", "_");
setType("keyword")(
"\.\.", ":", "::", "=", "\\", "\"", "<-", "->", "@", "~", "=>");
setType("builtin")(
"!!", "$!", "$", "&&", "+", "++", "-", ".", "/", "/=", "<", "<=", "=<<",
"==", ">", ">=", ">>", ">>=", "^", "^^", "||", "*", "**");
setType("builtin")(
"Bool", "Bounded", "Char", "Double", "EQ", "Either", "Enum", "Eq",
"False", "FilePath", "Float", "Floating", "Fractional", "Functor", "GT",
"IO", "IOError", "Int", "Integer", "Integral", "Just", "LT", "Left",
"Maybe", "Monad", "Nothing", "Num", "Ord", "Ordering", "Rational", "Read",
"ReadS", "Real", "RealFloat", "RealFrac", "Right", "Show", "ShowS",
"String", "True");
setType("builtin")(
"abs", "acos", "acosh", "all", "and", "any", "appendFile", "asTypeOf",
"asin", "asinh", "atan", "atan2", "atanh", "break", "catch", "ceiling",
"compare", "concat", "concatMap", "const", "cos", "cosh", "curry",
"cycle", "decodeFloat", "div", "divMod", "drop", "dropWhile", "either",
"elem", "encodeFloat", "enumFrom", "enumFromThen", "enumFromThenTo",
"enumFromTo", "error", "even", "exp", "exponent", "fail", "filter",
"flip", "floatDigits", "floatRadix", "floatRange", "floor", "fmap",
"foldl", "foldl1", "foldr", "foldr1", "fromEnum", "fromInteger",
"fromIntegral", "fromRational", "fst", "gcd", "getChar", "getContents",
"getLine", "head", "id", "init", "interact", "ioError", "isDenormalized",
"isIEEE", "isInfinite", "isNaN", "isNegativeZero", "iterate", "last",
"lcm", "length", "lex", "lines", "log", "logBase", "lookup", "map",
"mapM", "mapM_", "max", "maxBound", "maximum", "maybe", "min", "minBound",
"minimum", "mod", "negate", "not", "notElem", "null", "odd", "or",
"otherwise", "pi", "pred", "print", "product", "properFraction",
"putChar", "putStr", "putStrLn", "quot", "quotRem", "read", "readFile",
"readIO", "readList", "readLn", "readParen", "reads", "readsPrec",
"realToFrac", "recip", "rem", "repeat", "replicate", "return", "reverse",
"round", "scaleFloat", "scanl", "scanl1", "scanr", "scanr1", "seq",
"sequence", "sequence_", "show", "showChar", "showList", "showParen",
"showString", "shows", "showsPrec", "significand", "signum", "sin",
"sinh", "snd", "span", "splitAt", "sqrt", "subtract", "succ", "sum",
"tail", "take", "takeWhile", "tan", "tanh", "toEnum", "toInteger",
"toRational", "truncate", "uncurry", "undefined", "unlines", "until",
"unwords", "unzip", "unzip3", "userError", "words", "writeFile", "zip",
"zip3", "zipWith", "zipWith3");
var override = modeConfig.overrideKeywords;
if (override) for (var word in override) if (override.hasOwnProperty(word))
wkw[word] = override[word];
return wkw;
})();
return {
startState: function () { return { f: normal }; },
copyState: function (s) { return { f: s.f }; },
token: function(stream, state) {
var t = state.f(stream, function(s) { state.f = s; });
var w = stream.current();
return wellKnownWords.hasOwnProperty(w) ? wellKnownWords[w] : t;
},
blockCommentStart: "{-",
blockCommentEnd: "-}",
lineComment: "--"
};
});
CodeMirror.defineMIME("text/x-haskell", "haskell");
});