• Stars
    star
    282
  • Rank 146,549 (Top 3 %)
  • Language
  • Created over 9 years ago
  • Updated almost 7 years ago

Reviews

There are no reviews yet. Be the first to send feedback to the community and the maintainers!

Repository Details

so i never forget

hello :p

//Usage:
/*
Create Element:
$Rainb.el('div',{'attribute':"value",style:{"color":"red"}},[ (childnodes) ])
becomes:  <div attribute="value" style="color: red;"></div>
Append Element
$Rainb.add(element,elementToAppend)
Get Element By Id
$Rainb.id(id);
Create TextNode
$Rainb.tn(text);
Create a RainbNode (an element wrapper)
$Rainb.node(elem);
You can modify RainbNode attributes and children and it will not affect DOM until you call .render
Parameter is boolean, true for rendering children, false for not rendering children
$Rainb.node.render(boolean);


*/
//This probably proves I've gotten better at programming.
//DOM helper functions.
var genParser = (function(tys,tree,start) {
	var source, index;
	var treeRewrite = tree;
		//Apparently, you don't tokenize and then parse, you do it on the go, but with more specific techniques which people call grammars, oh well, how was I suppesd to know that anyway.
		//reference {type:"type",is:"type"} "hue"
		//repetition {type:"repeat",optional:false,from:1,to:Infinity,contains:{},delimiting:null,multipleDelimeters:null} optional to and from are defaulted, delimiters can be used for lists like a,b,c and stuff
		//array {type:"tyArray",contains:[]}
		//alternate  {type:"alternate",contains:[]}
		//Expression {type:"expression",contains:{},operators:[{precedence:1,rightAssociative:false,tokens:[]}}],delimeters=[["(",")"]],whiteSpaceIgnore:null}
	
	var mains = { //START PARSE
			type: "type",
			is: start
		}
		//yay extendibility
	var funcs = { //funcions/types used, hue
		expression: function(o) { //parse it like an expression
			//this is probably a little bit hard to understand
			var r = {
					type: "alternate",
					contains: [o.contains]
				}, //is it a token, an operator, or a parenthesis?
				opers = {
					type: "alternate",
					contains: []
				},
				delims = {
					type: "alternate",
					contains: []
				},
				i, I, l, L, props, t, n, ret = {},
				_ind = index,
				EXPRS = [],
				OPERATORS = [],
				O, precedence, rightAssociative, arg1, arg2, k; //I use and reuse most variables I can, damn
			if (O = o.operators) {
				for (i = 0, l = O.length; i < l; i++) {
					for (I = 0, L = O[i].tokens.length; I < L; I++) {
						t = O[i].tokens[I];
						if (o.whiteSpaceIgnore) {
							if (typeof t === "string") {
								opers.contains.push(new RegExp("\\s*(?:" + t.replace(/([-+\\?.!$^&*(){}[\]])/g, "\\$1") + ")\\s*"));
							} else if (t instanceof RegExp) {
								opers.contains.push(new RegExp("\\s*(?:" + t.source + ")\\s*", (t.multiline ? "m" : "") + (t.ignoreCase ? "i" : "")))
							} else {
								opers.contains.push({
									type: "tyArray",
									contains: [/\s*/, t, /\s*/]
								}); /*Ahh I HATE THIS! D:*/
							}
						} else {
							opers.contains.push(t);
						}
					}
				}
				r.contains[1] = opers; //ADD THEM TO THE LIST
			}
			if (O = o.delimeters) { //this is like a carbon copy of the previous if, should I try to make it a function? Don't repeat yourself
				for (i = 0, l = O.length; i < l; i++) {
					for (I = 0, L = O[i].length; I < L; I++) {
						t = O[i][I];
						if (o.whiteSpaceIgnore) {
							if (typeof t === "string") {
								delims.contains.push(new RegExp("\s*(?:" + t + ")\s*"));
							} else if (t instanceof RegExp) {
								delims.contains.push(new RegExp("\s*(?:" + t.source + ")\s*", (t.multiline ? "m" : "") + (t.ignoreCase ? "i" : "")))
							} else {
								delims.contains.push({
									type: "tyArray",
									contains: [/\s*/, t, /\s*/]
								}); /*Ahh I HATE THIS! D:*/
							}
						} else {
							delims.contains.push(t);
						}
					}
				}
				r.contains[2] = delims;
			}
			/*Shunting Yard Algorithm*/
			while (n = isIndexItem(r, props = {})) { //While there are tokens to be read
				//read a token
				if (props._matched === r.contains[0]) { //If the token is a number, then add it to the output queue.
					EXPRS.push(n);
				} else
				if (props._matched === opers) { //If the token is an operator, o1, then
					if ((I = opers.contains.indexOf(props.props._matched)) !== -1) {
						for (i = 0, l = (O = o.operators).length, k = 0; i < l; i++) { //
							if ((k += O[i].tokens.length) > I) {
								precedence = O[i].precedence;
								rightAssociative = O[i].rightAssociative;
								break;
							}
						}
					} else {
						throw new Error("props.props._matched not found at oper.contains, This is impossible.. or is it?");
					}
					while ((L = OPERATORS.length) && (((!rightAssociative) && precedence === OPERATORS[L - 1][1]) || precedence < OPERATORS[L - 1][1])) { //while there is an operator token, o2, at the top of the stack, and
						//either o1 is left-associative and its precedence is equal to that of o2,
						//or o1 has precedence less than that of o2,
						/*POPPINGG!!*/
						//pop o2 off the stack, onto the output queue;
						//This popping is also a bit of PRN execution, basically it is shunting yard and prn, or something weird
						arg2 = EXPRS.pop();
						arg1 = EXPRS.pop();
						if (!(EXPRS.length || arg1)) {
							console.warn("NOT ENOUGH TERMS");
						}
						t = OPERATORS.pop();
						for (i = 0, l = (O = o.operators).length, k = 0; i < l; i++) {
							if ((k += O[i].tokens.length) > t[2]) {
								EXPRS.push({
									operation: O[i].tokens[t[2] - (k - O[i].tokens.length)],
									op: t[0],
									arguments: [arg1, arg2],
									name: "operator"
								});
								break;
							}
						}
					}
					OPERATORS.push([n, precedence, I]);
				} else
				if (props._match === delims) {} else {
					throw Error("This is impossible! It has matched an unknown value..???");
				}
			}
			//When there are no more tokens to read
			while (L = OPERATORS.length) { //While there are still operator tokens in the stack
				//Pop the operator onto the output queue.
				arg2 = EXPRS.pop();
				arg1 = EXPRS.pop();
				if (!(EXPRS.length || arg1)) {
					console.warn("NOT ENOUGH TERMS");
				}
				t = OPERATORS.pop();
				for (i = 0, l = (O = o.operators).length, k = 0; i < l; i++) {
					if ((k += O[i].tokens.length) > t[2]) {
						EXPRS.push({
							operation: O[i].tokens[t[2] - (k - O[i].tokens.length)],
							op: t[0],
							arguments: [arg1, arg2],
							name: "operator"
						});
						break;
					}
				}
			}
			if (EXPRS.length < 1) {
				return null;
			}
			if (EXPRS.length !== 1) {
				throw new Error("Operators and expressions mismatch!!");
			}
			return EXPRS[0];
		},
		type: function(o) { //get type and parse it
			var props = {},
				a = isIndexItem(tys[o.is], props),
				t, ret; //this is where props originally started, in short words, it is used to pass properties from other functions to here 
			if (a === null) return null;
			//console.log()
			ret = {
				type: (t = tys[o.is]) && (t.delimiting ? "list" : t.type || ((typeof t === "string" || t instanceof RegExp) ? "String" : undefined)),
				name: o.is,
				content: a
			}
			for (var k in props) {
				if (props.hasOwnProperty(k) && (!ret[k])) {
					ret[k] = props[k];
				}
			}
			return ret;
		},
		repeat: function(o, props) { //repeat
			var reto = [],
				e, d, _ind = index,
				l, p, D = o.delimiting,
				i = 0,
				p = D && o.multipleDelimeters, //say, if the delimeter is just once, there is no point in putting it each time it appears.. right? so an CSV like "abc,dfe,ege" will appear as ["abc","dfe","ege"] instead of ["abc",',',"dfe",',',"ege"]
				props2;
			d = o.contains;
			props.props = [];
			do {
				e = isIndexItem(D ? i & 1 ? D : d : d, props2 = {});
				if ((!p) && D && i & 1) {
					i++;
					if (e !== null) {
						continue;
					} else {
						break;
					}
				}
				i++;
				if (e !== null) {
					reto.push(e)
					props.props.push(props2)
				}
			} while (e !== null && i !== o.to);
			l = reto.length;
			if (((!o.optional) && l == 0) || ((!isNaN(p = o.from)) && l < p)) {
				index = _ind;
				return null;
			}
			if (D && !p) {
				props.delimeter = D
			}
			return reto;
		},
		tyArray: function(o, props) { //tokens are in some order
			var reto = [],
				e, _ind = index,
				opt = o.optional || [],
				props2;
			props.props = [];
			for (var i = 0, l = o.contains.length, d; i < l; i++) {
				d = o.contains[i];
				e = isIndexItem(d, props2 = {});
				if (e === null && (opt.indexOf(i) < 0)) {
					index = _ind;
					return null;
				}
				if (e !== null)
					props.props.push(props2);
				reto.push(e);
			}
			return reto;
		},
		alternate: function(o, props) { //It alternates 
			var reto = null,
				e, props2 = {};
			for (var i = 0, l = o.contains.length, d; i < l; i++) {
				d = o.contains[i];
				e = isIndexItem(d, props2);
				if (e !== null) {
					reto = e;
					props.props = props2;
					props._matched = d;
					break;
				}
			}
			return reto;
		}
	}

	function isIndexItem(item, props) { //recursive
		//returns item or null
		var s, t, r,
			f;
		if (!item) {
			return null
		} else
		if (item instanceof RegExp) {
			r = new RegExp
			r.compile("^(?:" + item.source + ")", (item.multiline ? "m" : "") + (item.eturnignoreCase ? "i" : ""))
				//r.lastIndex = index;
			s = r.exec(source.substr(index)); //RAAAWR damn it
			t = s && s[0];
			if (t === null) return null;
			index += t.length;
			return t;
		} else if (typeof item == "string") { //literal match
			//console.log("DOES "+item+" and"+source.substr(index,item.length)+" MATCHES??");
			if (item === source.substr(index, item.length))
				return (index += item.length), item;
			return null;
		} else {
			t = item.type;
			f = funcs[t];
			s = f(item, props);
			if (f) return s;
			else return null;
		}
	}

	function Parser(arg) {
		source = arg,
			index = 0; //index is 0!!!
		return treeRewrite.unknown(isIndexItem(mains)); //wasn't that just pretty understandable?
	}
	return Parser;
});

var CssSelectorParser=genParser({ //tys, meaning types
		"type selector": /\*|(?:[\w_]|\\x?[a-f0-9]{2,6}\s?|\\[\S\s])(?:[^\\\s#.>&+~:,="'[\]\)]|\\x?[a-f0-9]{2,6}\s?|\\[\S\s])*/i, //regex for tagname
		attributeValue: { //the vaue of an attibute, it can be 
			type: "alternate",
			contains: [/"(?:[^"\\]|\\[\s\S])*"|'(?:[^'\\]|\\[\s\S])*'/i, {
				type: "type",
				is: "type selector"
			}]
		},
		"pseudo-class": {
			type:"alternate",contains:[{
			type: "tyArray",
			contains: [":not", {
				type: "tyArray",
				contains: ["(", {
					type: "type",
					is: "selectorArray"
				}, ")"]
			}],
		},{
			type: "tyArray",
			contains: [/::?(?:[\w_]|\\x?[a-f0-9]{2,6}\s?|\\[\S\s])(?:[^\\\s#.>&+~:,(]|\\x?[a-f0-9]{2,6}\s?|\\[\S\s])*/, {
				type: "tyArray",
				contains: ["(", /(?:[^)\\]|\\[\S\s])*/, ")"]
			}],
			optional: [1]
		}]}, //is for this I was thinking of implementing my own regex, this is beyond ridiculous
		operator: /\s*(?:\$=|\^=|~=|\|=|\*=|=)\s*/, //you know the thing at [attr=value]
		"attribute selector": {
			type: "tyArray",
			contains: ['[', {
				type: "tyArray",
				contains: [{
					type: "type",
					is: "type selector"
				}, {
					type: "type",
					is: "operator"
				}, {
					type: "type",
					is: "attributeValue"
				}],
				optional: [1, 2]
			}, ']']
		},
		"ID selector": {
			type: "tyArray",
			contains: ['#', { //an id starts with an #
				type: "type",
				is: "type selector"
			}]
		},
		"class selector": { //a classname starts with a dot
			type: "tyArray",
			contains: ['.', {
				type: "type",
				is: "type selector"
			}]
		},
		"simple selector": { //a element selector is composed from tagname, clasname,attributesm, and pseudoclasses
			//this is a sequence of simple selectors
			type: "repeat",
			contains: {
				type: "alternate",
				contains: [{
					type: "type",
					is: "type selector"
				}, {
					type: "type",
					is: "class selector"
				}, {
					type: "type",
					is: "ID selector"
				}, {
					type: "type",
					is: "attribute selector"
				}, {
					type: "type",
					is: "pseudo-class"
				}]
			}
		},
		selector:
		/* {OLD LOL
			type: "repeat",
			delimiting: {
				type: "type",
				is: "relationship"
			},
			contains: {
				type: "type",
				is: "element"
			}*/
		{
			type: "expression",
			contains: {
				type: "type",
				is: "simple selector"
			},
			whiteSpaceIgnore: true,
			rightAssociative: true,
			operators: [{
				precedence: 1,
				tokens: ['>', '&', '+', '~', /\s/] //these are not actually operators this are combinators
			}]
		},
		selectorArray: { //this is a selector group
			type: "repeat",
			delimiting: /\s*,\s*/, //it is separated by a comma, and optionally whitespace
			contains: {
				type: "type",
				is: "selector"
			}
		}},{
			unknown: function(a) {
				return a.name?this[a.name](a):a;
			},
			selectorArray: function(a) {
				var b = {
					name: "selector group",
					list: []
				};
				for (var i = 0, l = a.content.length; i < l; i++) b.list.push(this.unknown(a.content[i]))
				return b
			},
			selector: function(a) {
				return this.unknown(a.content)
			},
			"simple selector": function(a) {
				var b = {},
					att, c;
				b.class = [];
				b.attributes = [];
				b.pseudoClass = [];
				for (var i = 0, l = a.content.length, d; i < l; i++) {
					d = a.content[i];
					switch (d.name) {
						case "type selector":
							if (!b.tagName) {
								b.tagname = this.unescape(d.content);
							}
							break;
						case "class selector":
							b.class.push(this.unescape(d.content[1].content))
							break;
						case "ID selector":
							if (!b.ID) {
								b.ID = this.unescape(d.content[1].content);
							}
							break;
						case "attribute selector":
							att = {
								attributeName: this.unescape(d.content[1][0].content)
							}
							if (c = d.content[1][1]) {
								att.operator = c.content;
								att.attributeValue = this.unescape(d.content[1][2].content)
							}
							b.attributes.push(att);
							break;
						case "pseudo-class":
							b.pseudoClass.push({
								class: this.unescape(d.content[0]),
								value: d.content[1] && this.unknown(d.content[1][1])
							})

							break;
					}
				}
				return b;
			},
			operator: function(a) {
				var b = this.unknown(a.arguments[1]);
				b.parent = this.unknown(a.arguments[0]);
				b.parentRelationship = a.op;
				return b;
			},
			unescape: function(string) {
			var unescape=[{
			search: /\\([0-9A-fa-f]{1,6} ?)/g,
			replace: {
				f: "hexadecimal",
				for: 1
			}
		}, {
			search: /\\(.)/g,
			replace: {
				for: 1
			}
		}];
				var replacement, string2 = string,
					func;
				if ((string[0] == '"' || string[0] == "'") && (string[0] === string[string.length - 1])) {
					string2 = string.substring(1, string.length - 1)
				}
				for (var i = 0; i < unescape.length; i++) {
					if ((func = unescape[i].replace.f) === undefined) {
						replacement = "$" + unescape[i].replace.for
					} else {
						if (func == "hexadecimal") replacement = function(s) {
							return String.fromCharCode(parseInt(arguments[unescape[i].replace.for], 16))
						}
					}
					string2 = string2.replace(unescape[i].search, replacement)
				}
				return string2;
			}
		},"selectorArray");

$Rainb = {
	d: document.documentElement
}

$Rainb.id = function(id) {
	return document.getElementById(id);
};

$Rainb.ready = function(fc) {
	var cb;
	if (document.readyState !== 'loading') {
		fc();
		return;
	}
	cb = function() {
		$Rainb.off(document, 'DOMContentLoaded', cb);
		return fc();
	};
	return $Rainb.on(document, 'DOMContentLoaded', cb);
};

$Rainb.formData = function(form) {
	var fd, key, val;
	if (form instanceof HTMLFormElement) {
		return new FormData(form);
	}
	fd = new FormData();
	for (key in form) {
		val = form[key];
		if (val) {
			if (typeof val === 'object' && 'newName' in val) {
				fd.append(key, val, val.newName);
			} else {
				fd.append(key, val);
			}
		}
	}
	return fd;
};

$Rainb.extend = function(object, properties) {
	var key, val;
	for (key in properties) {
		val = properties[key];
		object[key] = val;
	}
};
$Rainb.deepCompare=function() {
  var i, l, leftChain, rightChain;

  function compare2Objects (x, y) {
    var p;

    // remember that NaN === NaN returns false
    // and isNaN(undefined) returns true
    if (isNaN(x) && isNaN(y) && typeof x === 'number' && typeof y === 'number') {
         return true;
    }

    // Compare primitives and functions.     
    // Check if both arguments link to the same object.
    // Especially useful on step when comparing prototypes
    if (x === y) {
        return true;
    }

    // Works in case when functions are created in constructor.
    // Comparing dates is a common scenario. Another built-ins?
    // We can even handle functions passed across iframes
    if ((typeof x === 'function' && typeof y === 'function') ||
       (x instanceof Date && y instanceof Date) ||
       (x instanceof RegExp && y instanceof RegExp) ||
       (x instanceof String && y instanceof String) ||
       (x instanceof Number && y instanceof Number)) {
        return x.toString() === y.toString();
    }

    // At last checking prototypes as good a we can
    if (!(x instanceof Object && y instanceof Object)) {
        return false;
    }

    if (x.isPrototypeOf(y) || y.isPrototypeOf(x)) {
        return false;
    }

    if (x.constructor !== y.constructor) {
        return false;
    }

    if (x.prototype !== y.prototype) {
        return false;
    }

    // Check for infinitive linking loops
    if (leftChain.indexOf(x) > -1 || rightChain.indexOf(y) > -1) {
         return false;
    }

    // Quick checking of one object beeing a subset of another.
    // todo: cache the structure of arguments[0] for performance
    for (p in y) {
        if (y.hasOwnProperty(p) !== x.hasOwnProperty(p)) {
            return false;
        }
        else if (typeof y[p] !== typeof x[p]) {
            return false;
        }
    }

    for (p in x) {
        if (y.hasOwnProperty(p) !== x.hasOwnProperty(p)) {
            return false;
        }
        else if (typeof y[p] !== typeof x[p]) {
            return false;
        }

        switch (typeof (x[p])) {
            case 'object':
            case 'function':

                leftChain.push(x);
                rightChain.push(y);

                if (!compare2Objects (x[p], y[p])) {
                    return false;
                }

                leftChain.pop();
                rightChain.pop();
                break;

            default:
                if (x[p] !== y[p]) {
                    return false;
                }
                break;
        }
    }

    return true;
  }

  if (arguments.length < 1) {
    return true; //Die silently? Don't know how to handle such case, please help...
    // throw "Need two or more arguments to compare";
  }

  for (i = 1, l = arguments.length; i < l; i++) {

      leftChain = []; //Todo: this can be cached
      rightChain = [];

      if (!compare2Objects(arguments[0], arguments[i])) {
          return false;
      }
  }

  return true;
}
$Rainb.on = function(el, events, handler) {
	var event, _i, _len, _ref;
	_ref = events.split(' ');
	for (_i = 0, _len = _ref.length; _i < _len; _i++) {
		event = _ref[_i];
		el.addEventListener(event, handler, false);
	}
};

$Rainb.off = function(el, events, handler) {
	var event, _i, _len, _ref;
	_ref = events.split(' ');
	for (_i = 0, _len = _ref.length; _i < _len; _i++) {
		event = _ref[_i];
		el.removeEventListener(event, handler, false);
	}
};

$Rainb.el = function(elem, attributes, childnodes, listeners) {
	//listener format: {lstng:"click",cb:callback}
	var e = (elem instanceof Element) ? elem : document.createElement(elem),
		l;
	for (var a in attributes) {
		if (a == "style") {
			for (var d in attributes[a]) {
				e.style[d] = attributes[a][d];
			}
			continue;
		}
		if (a == "__properties") {
			for (d in attributes[a]) {
				e[d] = attributes[a][d];
			}
			continue;
		}
		e.setAttribute(a, attributes[a])
	}
	if (childnodes && (l = childnodes.length)) {
		for (var i = 0, c; i < l; i++) {
			c = childnodes[i];
			if (c.length && typeof c == "string") {
				e.appendChild(document.createTextNode(c));
				continue;
			}
			e.appendChild(c)
		}
	}
	if (listeners && (l = listeners.length)) {
		for (var i = 0, c; i < l; i++) {
			c = listeners[i];
			$Rainb.on(e, c.lstng, c.cb);
		}
	}
	return e;
}
$Rainb.HTTP = function() {
	var lastModified = {};
	return (function(url, extra, callback, headers) {
		//headers is an object like this {Connection:"keep-alive"}
		extra = extra || {};

		function createXMLHttpRequest() {
			if (typeof XMLHttpRequest != "undefined") {
				return new XMLHttpRequest();
			} else if (typeof window.ActiveXObject != "undefined") {
				try {
					return new ActiveXObject("Msxml2.XMLHTTP.4.0");
				} catch (e) {
					try {
						return new ActiveXObject("MSXML2.XMLHTTP");
					} catch (e) {
						try {
							return new ActiveXObject("Microsoft.XMLHTTP");
						} catch (e) {
							return null;
						}
					}
				}
			}
		}

		function looProp(object, callback) {
			var a;
			for (a in object) {
				if (object.hasOwnProperty(a)) callback.call(object, a, object[a]);
			}
		}
		extra.method = extra.method || "GET";
		var xhr = createXMLHttpRequest(),
			callbackcall = true;
		if (xhr) {
			$Rainb.extend(xhr, extra.opts);
			$Rainb.extend(xhr.upload, extra.upCallbacks);
			xhr.open(extra.method, url, !extra.sync);
			if (extra.whenModified) {
				if (url in lastModified) {
					xhr.setRequestHeader('If-Modified-Since', lastModified[url]);
				}
				$Rainb.on(r, 'load', function() {
					return lastModified[url] = r.getResponseHeader('Last-Modified');
				});
			}
			looProp(headers, function(a, b) {
				xhr.setRequestHeader(a, b)
			})
			xhr.onreadystatechange = function() {
				if (xhr.readyState == xhr.DONE && callbackcall) {
					callbackcall = false;
					callback(xhr)
				}
			};
			xhr.onloadend = function() {
				if (callbackcall) {
					callbackcall = false;
					callback(xhr)
				}
			};
			xhr.send(extra.post);
			return xhr;
		} else {
			return null;
		}
	});
}()

$Rainb.hasClass = function(el, className) {
	return el.classList && el.classList.contains(className);
};

$Rainb.rm = function(el) {
	return el && el.parentNode.removeChild(el);
}

$Rainb.tn = function(s) {
	return document.createTextNode(s);
};

$Rainb.add = function(parent, el) {
	return parent.appendChild($Rainb.nodes(el));
};

$Rainb.nodes = function(nodes) {
	var frag, node, _i, _len;
	if (!(nodes instanceof Array)) {
		return nodes;
	}
	frag = d.createDocumentFragment();
	for (_i = 0, _len = nodes.length; _i < _len; _i++) {
		node = nodes[_i];
		frag.appendChild(node);
	}
	return frag;
};
$Rainb.prepend = function(parent, el) {
	return parent.insertBefore($Rainb.nodes(el), parent.firstChild);
};

$Rainb.bubbleFind = function(element, elementSelector) {
	while (element !== null) {
		if ($Rainb.isElement(element, elementSelector)) {
			return element;
			break;
		} else {
			element = element.parentNode
		}
	}
}

$Rainb.nodes = function(nodes) {
	var frag, node, _i, _len;
	if (!(nodes instanceof Array)) {
		return nodes;
	}
	frag = document.createDocumentFragment();
	for (_i = 0, _len = nodes.length; _i < _len; _i++) {
		node = nodes[_i];
		frag.appendChild(node);
	}
	return frag;
};
$Rainb.after = function(root, el) {
	return root.parentNode.insertBefore($Rainb.nodes(el), root.nextSibling);
};

$Rainb.before = function(root, el) {
	return root.parentNode.insertBefore($Rainb.nodes(el), root);
};

$Rainb.replace = function(root, el) {
	return root.parentNode.replaceChild($Rainb.nodes(el), root);
};

$Rainb.ins = function(txtarea, text, textEnd) {
	var scrollPos = txtarea.scrollTop;
	var strPos = 0;
	textEnd = textEnd || "";
	var br = ((txtarea.selectionStart || txtarea.selectionStart == '0') ?
		"ff" : (document.selection ? "ie" : false));
	if (br == "ie") {
		txtarea.focus();
		var range = document.selection.createRange();
		range.moveStart('character', -txtarea.value.length);
		strPos = range.text.length;
	} else if (br == "ff") strPos = txtarea.selectionStart;

	var front = (txtarea.value).substring(0, strPos);
	var selectedText = (txtarea.value).substring(strPos, txtarea.selectionEnd);
	var back = (txtarea.value).substring(txtarea.selectionEnd, txtarea.value.length);
	txtarea.value = front + text + selectedText + textEnd + back;
	strPos = strPos + text.length + selectedText.length + textEnd.length;
	if (br == "ie") {
		txtarea.focus();
		var range = document.selection.createRange();
		range.moveStart('character', -txtarea.value.length);
		range.moveStart('character', strPos);
		range.moveEnd('character', 0);
		range.select();
	} else if (br == "ff") {
		txtarea.selectionStart = strPos;
		txtarea.selectionEnd = strPos;
		txtarea.focus();
	}
	txtarea.scrollTop = scrollPos;
};

$Rainb.alast = function(arr) {
	return arr[arr.length - 1];
}

$Rainb.till = function() {
	var selects = [],
		listening = false;

	function nodeInserted(event) {
		if (!selects.length) {
			$Rainb.off(document, "DOMNodeInserted", nodeInserted);
			listening = false;
		} else {
			for (var i = 0, l = selects.length; i < l; i++) {
				if ($Rainb.isElement(selects[i].selector, event.target)) {
					selects[i].cb(event.target)
				}
			}
		};

	}
	return function(selector, cb, ctx) {
		ctx = ctx || window;
		var asd;
		if (asd = document.querySelector(selector)) {
			cb(asd);
		} else {
			selects.push({
				selector: selector,
				cb: cb
			});
			if (!listening) {
				$Rainb.on(document, "DOMNodeInserted", nodeInserted);
				listening = true;
			}
		}
	}
}();

$Rainb.addStyle = function(css, cb) {
	var style = [];
	for (var i = 0, l = css.length; i < l; i++) {
		style[i] = $Rainb.el('style', null, [css[i]]);
	}
	$Rainb.till("head", function(a) {
		for (var i = 0, l = style.length; i < l; i++) {
			$Rainb.add(document.head, style[i]);
		}
		return cb(style);
	});
	return style;
};
(function(){
//INCOMPLETE
$Rainb.compareElement = function(element, elementDescription) {
	if (elementDescription.tagname && (elementDescription.tagname.toUpperCase() !== element.tagName)) return false;
	for (var i2 = 0, item, l2 = (item = elementDescription.class).length; i2 < l2; i2++) {
		if (!$Rainb.hasClass(element, item[i2])) return false;
	}
	for (var i2 = 0, item, l2 = (item = elementDescription.pseudoClass).length; i2 < l2; i2++) {
		if(item[i2].class==":not"&&isElement(element,item[i2].value))return false
	}
	for (var i2 = 0, item, l2 = (item = elementDescription.attributes).length; i2 < l2; i2++) {
		var val;
		if(val=element.attributes.getNamedItem(item[i2].attributeName)){
			if(!compare(item[i2].operator,item[i2].attributeValue,val.value)){return false}
		}else{return false}
	}
	return true;
};
function compare(operator,attribute,attributeCompare){
	switch(operator){
				case "*=":
					return attributeCompare.indexOf(attribute)!==-1
					break;
				case "~=":
					return new RegExp("(?:^|\\s)"+attribute+"(?:\\s|$)").test(attributeCompare)
					break;
				case "|=":
					return new RegExp("^"+attribute+"-?").test(attributeCompare);
					break;
				case "$=":
					return new RegExp(attribute+"$").test(attributeCompare);
					break;
				case "^=":
					return new RegExp("^"+attribute).test(attributeCompare);
					break;
				case "=":
					return attribute==attributeCompare;
					break;
				default:
					return true;
			}
}
function isElement(element,abstractparsetree){
	for (var i = 0, l = abstractparsetree.list.length; i < l; i++) {
		if ($Rainb.compareElement(element, abstractparsetree.list[i])) {
			return true;
		};
	}
}
//compareElement is incomplete
$Rainb.isElement = function(element, elementSelector) {
	if(!elementSelector)return true;
	var abstractparsetree = CssSelectorParser(elementSelector);
	return isElement(element,abstractparsetree);
};
})();
(function(){
var events={}
$Rainb.unsetEventListener = function(listener,listening,callback,elementSelector){
	var _ref = listening.split(' ');
	if(!listener.__$Rainb_Events){return false;}
	for (var _i = 0, _len = _ref.length; _i < _len; _i++) {
		event = _ref[_i];
		var events;
		if((events=listener.__$Rainb_Events)[event]){
			if(!(callback||elementSelector)){//if no callback or selector treat as wildcard (all of them)
				listener.__$Rainb_Events[event]=[];
				$Rainb.off(listener,event,callBack);
				continue;
			}
		
			for(var i=0,l=events[event].length;i<l;i++){
				if((events[event][i].callback==callback||!callback)&&(!elementSelector||events[event][i].selector==elementSelector)){
					events[event].splice(i--,1);
					continue;
				}
			}
		}
		if(!(events[event]&&events[event].length)){
			$Rainb.off(listener,event,callBack);	
		}
		
		
	}
	
}
function callBack(event,callback){
	var x,element = event.target,events=event.currentTarget.__$Rainb_Events[event.type].slice();
	while (element !== null) {
		for(var i=0;i<events.length;i++){
			x=events[i];
			if ($Rainb.isElement(element, x.selector)) {
			callback.call(element, event);
			events.splice(i--,1);
			continue;
		}
	}
	if(!events.length)break;
		element = element.parentNode
	}
}
function EventCallback(callback,elementSelector){
	this.callback=callback;
	this.selector=elementSelector;
}
$Rainb.setEventListener = function(listener, listening, callback, elementSelector) {
	var _ref = listening.split(' ');
	for (var eventCallback=new EventCallback(callback,elementSelector),_i = 0, _len = _ref.length; _i < _len; _i++) {
		event = _ref[_i];
		var events;
		
		if(!listener.__$Rainb_Events){
			listener.__$Rainb_Events={}
		}
		if((events=listener.__$Rainb_Events)[event])
		for(var i=0,l=events[event].length;i<l;i++){
		if($Rainb.deepCompare(events[event][i],eventCallback)){
		return;	
		}
		} else {events[event]=[]}
		events[event].push(eventCallback);
		
	}
	if(!(listener._$Rainb_Event&&listener._$Rainb_Event.length))
	$Rainb.on(listener, listening,function(e){callBack(e,callback)});
}
})()
$Rainb.HTTPRequestsRetry = function(requests, success, done, extra, headers, timeout, attemptsleft, failure) { //Same shit when basically the caller function is the same
	var queue = requests;

	function DoOne() {
		return $Rainb.HTTPRequestRetry(queue.pop(), function(afg) {
			success(afg);
			if (queue.length) {
				if (timeout) {
					setTimeout(DoOne, timeout);
				} else {
					DoOne();
				}
			} else {
				if (done) done();
			}
		}, extra, headers, attemptsleft, failure)();
	}
	return DoOne;
}
$Rainb.HTTPRequestRetry = function(link, success, extra, headers, attemptsleft, failure) {
	attemptsleft = attemptsleft | 0;
	var f, abort = false,
		req;

	function callback(xhr) {
		if (xhr.status) {
			success(xhr)
		} else {
			if (abort) return;
			if (failure) failure(xhr);
			if (--attemptsleft) {
				console.log("Didn't work, trying again");
				f();
			}
		}
	}
	f = function(arg) {
		if (arg == "abort") {
			abort = true;
			req.abort();
			attemptsleft = 1;
			return;
		};
		req = $Rainb.HTTP(link, extra, callback, headers);
	}
	return f;
};


(function() {
	function dragstart(e) {
		var el, isTouching, o, rect, screenHeight, screenWidth, _ref;
		if (e.type === 'mousedown' && e.button !== 0) {
			return;
		}
		e.preventDefault();
		if (isTouching = e.type === 'touchstart') {
			_ref = e.changedTouches, e = _ref[_ref.length - 1];
		}
		el = this;
		rect = el.getBoundingClientRect();
		screenHeight = $Rainb.d.clientHeight;
		screenWidth = $Rainb.d.clientWidth;
		o = {
			id: el.id,
			style: el.style,
			dx: e.clientX - rect.left,
			dy: e.clientY - rect.top,
			height: screenHeight - rect.height,
			width: screenWidth - rect.width,
			screenHeight: screenHeight,
			screenWidth: screenWidth,
			isTouching: isTouching
		};
		if (isTouching) {
			o.identifier = e.identifier;
			o.move = touchmove.bind(o);
			o.up = touchend.bind(o);
			$Rainb.on(document, 'touchmove', o.move);
			return $Rainb.on(d, 'touchend touchcancel', o.up);
		} else {
			o.move = drag.bind(o);
			o.up = dragend.bind(o);
			$Rainb.on(document, 'mousemove', o.move);
			return $Rainb.on(document, 'mouseup', o.up);
		}
	};
	touchmove = function(e) {
		var touch, _i, _len, _ref;
		_ref = e.changedTouches;
		for (_i = 0, _len = _ref.length; _i < _len; _i++) {
			touch = _ref[_i];
			if (touch.identifier === this.identifier) {
				drag.call(this, touch);
				return;
			}
		}
	};
	drag = function(e) {
		var bottom, clientX, clientY, left, right, style, top;
		clientX = e.clientX, clientY = e.clientY;
		left = clientX - this.dx;
		left = left < 10 ? 0 : this.width - left < 10 ? null : left / this.screenWidth * 100 + '%';
		top = clientY - this.dy;
		top = top < 10 ? 0 : this.height - top < 10 ? null : top / this.screenHeight * 100 + '%';
		right = left === null ? 0 : null;
		bottom = top === null ? 0 : null;
		style = this.style;
		style.left = left;
		style.right = right;
		style.top = top;
		return style.bottom = bottom;
	};
	touchend = function(e) {
		var touch, _i, _len, _ref;
		_ref = e.changedTouches;
		for (_i = 0, _len = _ref.length; _i < _len; _i++) {
			touch = _ref[_i];
			if (touch.identifier === this.identifier) {
				dragend.call(this);
				return;
			}
		}
	};
	dragend = function() {
		if (this.isTouching) {
			$Rainb.off(document, 'touchmove', this.move);
			$Rainb.off(document, 'touchend touchcancel', this.up);
		} else {
			$Rainb.off(document, 'mousemove', this.move);
			$Rainb.off(document, 'mouseup', this.up);
		}
		//return $.set("" + this.id + ".position", this.style.cssText);
	};

	$Rainb.enableDrag = function() {
		$Rainb.setEventListener(document, "touchstart mousedown", dragstart, ".draggable:not(textarea,button,input,a)")
	}
})();

$Rainb.key=function(){
   this.keys=[];
}
$Rainb.key.prototype.add=function(key){
	if(!this.exists(key)){this.keys.push(key);return true}
	return false;
}
$Rainb.key.prototype.exists=function(key){
	for(var i=0,l=this.keys.length;i<l;i++){
		if(this.keys[i]===key)return true;
	}
	return false;
}
$Rainb.key.prototype.remove=function(key){
	for(var i=0,l=this.keys.length;i<l;i++){
		if(this.keys[i]===key){
			this.keys.splice(i,1);
			return true;
		}
	}
	return false;
}
$Rainb.key.prototype.toggle=function(key){
	if(this.exists(key)){
		this.remove(key);
	}else{
		this.add(key);
	}
}
$Rainb.key.prototype.isEmpty=function(){
	return this.keys.length===0;
};

/*
 
Node rainb.
*/
(function() {
	$Rainb.node = function(node) {
		if(!(this instanceof arguments.callee))return new $Rainb.node(node)
		var attr = {},
			childNodes = [];
		this.events=[];
		this.classes=new $Rainb.key();
		this.showChildren = false;
		if (typeof node == "string" || node === undefined) {
			this.nodeName = node;
			this.node = null;
		} else {
			this.nodeName = node.nodeName;
			this.nodeType = node.nodeType;
			if(node.classList){
				for (var i = 0; i < node.classList.length; i++) {
					this.classes.add(node.classList[i])
				}
				
			}
			if (node.attributes)
				for (var i = 0; i < node.attributes.length; i++) {
					attr[node.attributes[i].name] = node.attributes[i].value
				}
			for (i = 0; i < node.childNodes.length; i++) {
				childNodes.push(new $Rainb.node(node.childNodes[i]));
			}
			this.node = node;
		}
		this.childNodes = childNodes;
		this.attr = attr;
	};


	function toNode(node) { //returns a custom rainb node
		if (node instanceof Node) {
			return new $Rainb.node(node);
		}
		return node;
	}
	$Rainb.node.prototype.appendChildren = function() {
		for (var type,i = 0; i < arguments.length; i++) {
                        if(!((arguments[i].node instanceof $Rainb.node)||(arguments[i].node instanceof Node))&&arguments[i].node){
                        	this.childNodes.push(arguments[i]);
                        	arguments[i].node=toNode(arguments[i].node);
                        } else
			this.childNodes.push(toNode((type=typeof arguments[i])==="string"||type==="number"?$Rainb.tn(arguments[i]):arguments[i]));

		}

		return this;
	};




	$Rainb.node.prototype.attribute = function(attr,value) {
		this.attr[attr] = value;
		return this;
	};
	$Rainb.node.prototype.clss = function(clss) {
		this.classes.keys = clss.split(' ');
		return this;
	}
	$Rainb.node.prototype.style = function(propertyName,value) {
		if(!this.attr.style){this.attribute("style" ,{});}
		this.attr.style[propertyName] = value;
		return this;
	};
	$Rainb.node.prototype.item = function(i) {
		return this.childNodes[i];
		return this;
	};
	$Rainb.node.prototype.splice = function(start, end /*,newchilds*/ ) {
		for (var i = 2; i < arguments.length; i++) {
			arguments[i] = toNode(arguments[i]);
		}
		this.childNodes.splice.apply(this.childNodes, arguments);
		if (this.showChildren) {
			for (var i = start; i < end && i < this.node.childNodes; i++) {
				$Rainb.rm(this.node.childNodes[start]);
			}
			var args = Array.prototype.slice.call(arguments, 2).map(function(n) {
				return n.render()
			})
			$Rainb.after(this.node.childNodes[start - 1], args)

		}
		return this;
	};
	$Rainb.node.prototype.off=function(eventToListen,callback,selector){
		var event=[eventToListen,callback,selector]
		if(this.node){
			$Rainb.unsetEventListener(this.node, event[0], event[1], event[2]);
		}
		for(var i=0;i<this.events.length;i++){
			if($Rainb.deepCompare(this.events[i],event)){
				this.events.splice(i--,1);
			}
		}
	}
	$Rainb.node.prototype.on=function(eventToListen,callback,selector){
	this.events.push([eventToListen,callback,selector]);
	return this;
	}
	$Rainb.node.removeAttr=function(attr){
		
	};
	$Rainb.node.prototype.render = function(children) {
		
		this.attribute("class",this.classes.keys.join(' '));
		
		var ret;
		switch (this.nodeType) {
			case 3:
			case 8:
				return this.node;
				break;
		}
		var child = [];
		if (children) {
			this.showChildren = true;
			for (var i = 0, n; i < this.childNodes.length; i++) {
				n = this.childNodes[i];
				child.push(typeof n == "string" ? $Rainb.tn(n) : n.render?n.render(children - 1):n.node.render(children - 1));
			}
		}
		this.node = $Rainb.el(this.node || this.nodeName, this.attr, [$Rainb.nodes(child)]);
		this.node.__$Rainb_node=this;//Well, how else do you know what is the Rainb.node when a event points to a targetElement?
		//Yes, I hate this too. I cry everytiem.
		while(this.events.length){
			var s=this.events.pop();
			$Rainb.setEventListener(this.node, s[0], s[1], s[2]);
		}
		return this.node;
	}
})();

(function(){
$Rainb.Uilist=function(node){
	this.listElement=new $Rainb.node(node);
}
	
})();
var i=1;
var x=Promise.resolve([])
function getNext(x,callback){
$Rainb.HTTP("https://api.github.com/orgs/fossasia/repos?per_page=2000&page="+x,{},function(asdf){callback(JSON.parse(asdf.response))})
}
function ahh(x){
return x.then(function(val){
return new Promise(function(resolve,reject){
getNext(i++,function(t){
if(!t.length){
//END
resolve(val);
}else{
//KEEP GOING
//resolve(val.concat(t))
resolve(ahh(Promise.resolve(val.concat(t))))
}

})
})
})
}

ahh(x).then(function(ohh){
var i=0;
function next(){
if(ohh[i++]&&ohh[i].html_url){
starForm(ohh[i].html_url,next)
}else{
console.log("%cIt is done, all Star <3 !!!","color:blue;font-size:20px")
}
}
starForm(ohh[i].html_url,next)

})

function starForm(repo,next){
$Rainb.HTTP(repo,{},function(lol){
var div=$Rainb.el("div");
div.innerHTML=lol.response;
var form=Array.prototype.map.call(div.getElementsByClassName("unstarred js-social-form"),function(a){return [a.action,a.method,new FormData(a)]});
if(form.length){
form=form[0]
//console.log(form[0])
$Rainb.HTTP(form[0],{method:form[1],post:form[2]},function(asdf){

console.log(repo+" success starred (I think...)")
next();
},{accept:"application/json"})
}
})
}

More Repositories

1

CurrentPostNumber

Get's current post number for 4chan
299
star
2

ponytown

old ponytown server
JavaScript
295
star
3

JavaScript-functions

This is/was useful to me
JavaScript
288
star
4

Random-HTML-stuff

Random experiments in HTML
HTML
286
star
5

BitsetWrapper

A bit array wrapper over Uint8Array, edits bits, but is stored as a byte array.
JavaScript
286
star
6

node-trollegle

JavaScript
284
star
7

RainbProxy

Chrome extension to change and add proxies quickly.
JavaScript
282
star
8

Random-C-stuff

For all Random C stuff
C
282
star
9

BatchProjects

All projects batch
Batchfile
282
star
10

JavaStuff

Some Java work
Java
279
star
11

PonyPictures

Pony pictures for all to see.
Shell
279
star
12

pony-orbs

Som pony orbs for windows 7 and stuff
Shell
278
star
13

PT

PT's proxy
JavaScript
278
star
14

truck-assistant

TechCrunch Truck Assistant
HTML
261
star
15

site

CSS
241
star
16

diytest

Test yourself
9
star
17

elnw

ich muss latex von elnw protokoll üben
TeX
4
star
18

node-ffi-test

really just testing and having fun, nothing to see here, I suppose :?
JavaScript
3
star
19

ana3ing-tuberlin

Ich mache meine Hausaufgaben hier
TeX
2
star
20

redigame

programming is supposed to be fuuun~~
Java
2
star
21

speechcom-assigns

we collaborate here
MATLAB
2
star
22

cv

LaTeX source for CV
2
star
23

dotfiles

everyone and their mom has dotfiles now
Vim Script
2
star
24

Eqnuiryjs

just testing forking abilities
JavaScript
2
star
25

android-hello

Kotlin
2
star
26

katacoda-scenarios

Katacoda Scenarios
2
star
27

fuwedel

TeX
2
star
28

nodessh

JavaScript
2
star
29

kreijstal-collaboratory

Jupyter notebooks but in google collaboratory, files and stuff, for personal use
Python
2
star
30

mathematicaconf

My mathematica conf
Mathematica
2
star
31

TU-Berlin-Messdatenverarbeitung-Toolbox

Dieses Git-Projekt entwickelt Python-Skripte zur Veranschaulichung von Rechenübungen in 7 Themenschwerpunkten, wie Messunsicherheit, Regression, Messsystemeigenschaften und Leistungsmessung.
Python
2
star
32

librsvg-minimal-example

This example covers usage of librsvg library on svg rendering process
C
2
star
33

so-fetch

A fork of so-fetch
1
star
34

readline-browser

The guy that made it, didn't create a github repo, so I did one.
TypeScript
1
star
35

elektronik-praktikum

Sehr schweres Modul :(
Jupyter Notebook
1
star
36

pascalTU

Some projects I had to do in school about pascal, they were interesting
Pascal
1
star
37

grub2win

Mirror of grub2win from sourceforge
AutoIt
1
star
38

stm32test

having fun with stm32 and rust projektlabor tu berlin
C++
1
star
39

winapi_rust_window_prompt

The idea is to make a prompt from rust as a library, just saving my work here.
Rust
1
star
40

robotic-excercise-a0-rust-plot

Rust
1
star
41

Owner-avatar-robotic-excercise-pumasim

C++
1
star
42

windows-live-linux-installer

HTML
1
star
43

electro-plating-lines

Electro Plating lines
C++
1
star
44

Hadamard_product_counters

POV-Ray SDL
1
star
45

Rustmaxplus

Rust
1
star
46

rust_experiment_with_terminal

nothing important just testing
Rust
1
star