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eventman/static/js/angular-ui-router.js

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/*!
* State-based routing for AngularJS
* @version v1.0.0-alpha.4
* @link http://angular-ui.github.com/ui-router
* @license MIT License, http://www.opensource.org/licenses/MIT
*/
(function webpackUniversalModuleDefinition(root, factory) {
if(typeof exports === 'object' && typeof module === 'object')
module.exports = factory();
else if(typeof define === 'function' && define.amd)
define("angular-ui-router", [], factory);
else if(typeof exports === 'object')
exports["angular-ui-router"] = factory();
else
root["angular-ui-router"] = factory();
})(this, function() {
return /******/ (function(modules) { // webpackBootstrap
/******/ // The module cache
/******/ var installedModules = {};
/******/
/******/ // The require function
/******/ function __webpack_require__(moduleId) {
/******/
/******/ // Check if module is in cache
/******/ if(installedModules[moduleId])
/******/ return installedModules[moduleId].exports;
/******/
/******/ // Create a new module (and put it into the cache)
/******/ var module = installedModules[moduleId] = {
/******/ exports: {},
/******/ id: moduleId,
/******/ loaded: false
/******/ };
/******/
/******/ // Execute the module function
/******/ modules[moduleId].call(module.exports, module, module.exports, __webpack_require__);
/******/
/******/ // Flag the module as loaded
/******/ module.loaded = true;
/******/
/******/ // Return the exports of the module
/******/ return module.exports;
/******/ }
/******/
/******/
/******/ // expose the modules object (__webpack_modules__)
/******/ __webpack_require__.m = modules;
/******/
/******/ // expose the module cache
/******/ __webpack_require__.c = installedModules;
/******/
/******/ // __webpack_public_path__
/******/ __webpack_require__.p = "";
/******/
/******/ // Load entry module and return exports
/******/ return __webpack_require__(0);
/******/ })
/************************************************************************/
/******/ ([
/* 0 */
/***/ function(module, exports, __webpack_require__) {
/**
* Main entry point for angular 1.x build
* @module ng1
*/
/** for typedoc */
"use strict";
function __export(m) {
for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p];
}
__export(__webpack_require__(1));
__export(__webpack_require__(53));
__export(__webpack_require__(54));
__webpack_require__(56);
__webpack_require__(57);
__webpack_require__(58);
__webpack_require__(59);
Object.defineProperty(exports, "__esModule", { value: true });
exports.default = "ui.router";
/***/ },
/* 1 */
/***/ function(module, exports, __webpack_require__) {
/** @module common */ /** */
"use strict";
function __export(m) {
for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p];
}
__export(__webpack_require__(2));
__export(__webpack_require__(20));
__export(__webpack_require__(44));
__export(__webpack_require__(40));
__export(__webpack_require__(17));
__export(__webpack_require__(13));
__export(__webpack_require__(45));
__export(__webpack_require__(49));
__export(__webpack_require__(51));
var router_1 = __webpack_require__(52);
exports.UIRouter = router_1.UIRouter;
/***/ },
/* 2 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
function __export(m) {
for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p];
}
/** @module common */ /** for typedoc */
__export(__webpack_require__(3));
__export(__webpack_require__(6));
__export(__webpack_require__(7));
__export(__webpack_require__(5));
__export(__webpack_require__(4));
__export(__webpack_require__(8));
__export(__webpack_require__(9));
__export(__webpack_require__(12));
/***/ },
/* 3 */
/***/ function(module, exports, __webpack_require__) {
/**
* Random utility functions used in the UI-Router code
*
* @preferred @module common
*/ /** for typedoc */
"use strict";
var predicates_1 = __webpack_require__(4);
var hof_1 = __webpack_require__(5);
var angular = window.angular || {};
exports.fromJson = angular.fromJson || JSON.parse.bind(JSON);
exports.toJson = angular.toJson || JSON.stringify.bind(JSON);
exports.copy = angular.copy || _copy;
exports.forEach = angular.forEach || _forEach;
exports.extend = angular.extend || _extend;
exports.equals = angular.equals || _equals;
exports.identity = function (x) { return x; };
exports.noop = function () { return undefined; };
exports.abstractKey = 'abstract';
/**
* Binds and copies functions onto an object
*
* Takes functions from the 'from' object, binds those functions to the _this object, and puts the bound functions
* on the 'to' object.
*
* This example creates an new class instance whose functions are prebound to the new'd object.
* @example
* ```
*
* class Foo {
* constructor(data) {
* // Binds all functions from Foo.prototype to 'this',
* // then copies them to 'this'
* bindFunctions(Foo.prototype, this, this);
* this.data = data;
* }
*
* log() {
* console.log(this.data);
* }
* }
*
* let myFoo = new Foo([1,2,3]);
* var logit = myFoo.log;
* logit(); // logs [1, 2, 3] from the myFoo 'this' instance
* ```
*
* This example creates a bound version of a service function, and copies it to another object
* @example
* ```
*
* var SomeService = {
* this.data = [3, 4, 5];
* this.log = function() {
* console.log(this.data);
* }
* }
*
* // Constructor fn
* function OtherThing() {
* // Binds all functions from SomeService to SomeService,
* // then copies them to 'this'
* bindFunctions(SomeService, this, SomeService);
* }
*
* let myOtherThing = new OtherThing();
* myOtherThing.log(); // logs [3, 4, 5] from SomeService's 'this'
* ```
*
* @param from The object which contains the functions to be bound
* @param to The object which will receive the bound functions
* @param bindTo The object which the functions will be bound to
* @param fnNames The function names which will be bound (Defaults to all the functions found on the 'from' object)
*/
function bindFunctions(from, to, bindTo, fnNames) {
if (fnNames === void 0) { fnNames = Object.keys(from); }
return fnNames.filter(function (name) { return typeof from[name] === 'function'; })
.forEach(function (name) { return to[name] = from[name].bind(bindTo); });
}
exports.bindFunctions = bindFunctions;
/**
* prototypal inheritance helper.
* Creates a new object which has `parent` object as its prototype, and then copies the properties from `extra` onto it
*/
exports.inherit = function (parent, extra) {
return exports.extend(new (exports.extend(function () { }, { prototype: parent }))(), extra);
};
/**
* Given an arguments object, converts the arguments at index idx and above to an array.
* This is similar to es6 rest parameters.
*
* Optionally, the argument at index idx may itself already be an array.
*
* For example,
* given either:
* arguments = [ obj, "foo", "bar" ]
* or:
* arguments = [ obj, ["foo", "bar"] ]
* then:
* restArgs(arguments, 1) == ["foo", "bar"]
*
* This allows functions like pick() to be implemented such that it allows either a bunch
* of string arguments (like es6 rest parameters), or a single array of strings:
*
* given:
* var obj = { foo: 1, bar: 2, baz: 3 };
* then:
* pick(obj, "foo", "bar"); // returns { foo: 1, bar: 2 }
* pick(obj, ["foo", "bar"]); // returns { foo: 1, bar: 2 }
*/
var restArgs = function (args, idx) {
if (idx === void 0) { idx = 0; }
return Array.prototype.concat.apply(Array.prototype, Array.prototype.slice.call(args, idx));
};
/** Given an array, returns true if the object is found in the array, (using indexOf) */
var inArray = function (array, obj) { return array.indexOf(obj) !== -1; };
/** Given an array, and an item, if the item is found in the array, it removes it (in-place). The same array is returned */
exports.removeFrom = hof_1.curry(function (array, obj) {
var idx = array.indexOf(obj);
if (idx >= 0)
array.splice(idx, 1);
return array;
});
/**
* Applies a set of defaults to an options object. The options object is filtered
* to only those properties of the objects in the defaultsList.
* Earlier objects in the defaultsList take precedence when applying defaults.
*/
function defaults(opts) {
if (opts === void 0) { opts = {}; }
var defaultsList = [];
for (var _i = 1; _i < arguments.length; _i++) {
defaultsList[_i - 1] = arguments[_i];
}
var defaults = merge.apply(null, [{}].concat(defaultsList));
return exports.extend({}, defaults, pick(opts || {}, Object.keys(defaults)));
}
exports.defaults = defaults;
/**
* Merges properties from the list of objects to the destination object.
* If a property already exists in the destination object, then it is not overwritten.
*/
function merge(dst) {
var objs = [];
for (var _i = 1; _i < arguments.length; _i++) {
objs[_i - 1] = arguments[_i];
}
exports.forEach(objs, function (obj) {
exports.forEach(obj, function (value, key) {
if (!dst.hasOwnProperty(key))
dst[key] = value;
});
});
return dst;
}
exports.merge = merge;
/** Reduce function that merges each element of the list into a single object, using extend */
exports.mergeR = function (memo, item) { return exports.extend(memo, item); };
/**
* Finds the common ancestor path between two states.
*
* @param {Object} first The first state.
* @param {Object} second The second state.
* @return {Array} Returns an array of state names in descending order, not including the root.
*/
function ancestors(first, second) {
var path = [];
for (var n in first.path) {
if (first.path[n] !== second.path[n])
break;
path.push(first.path[n]);
}
return path;
}
exports.ancestors = ancestors;
/**
* Performs a non-strict comparison of the subset of two objects, defined by a list of keys.
*
* @param {Object} a The first object.
* @param {Object} b The second object.
* @param {Array} keys The list of keys within each object to compare. If the list is empty or not specified,
* it defaults to the list of keys in `a`.
* @return {Boolean} Returns `true` if the keys match, otherwise `false`.
*/
function equalForKeys(a, b, keys) {
if (keys === void 0) { keys = Object.keys(a); }
for (var i = 0; i < keys.length; i++) {
var k = keys[i];
if (a[k] != b[k])
return false; // Not '===', values aren't necessarily normalized
}
return true;
}
exports.equalForKeys = equalForKeys;
function pickOmitImpl(predicate, obj) {
var objCopy = {}, keys = restArgs(arguments, 2);
for (var key in obj) {
if (predicate(keys, key))
objCopy[key] = obj[key];
}
return objCopy;
}
/** Return a copy of the object only containing the whitelisted properties. */
function pick(obj) { return pickOmitImpl.apply(null, [inArray].concat(restArgs(arguments))); }
exports.pick = pick;
/** Return a copy of the object omitting the blacklisted properties. */
function omit(obj) { return pickOmitImpl.apply(null, [hof_1.not(inArray)].concat(restArgs(arguments))); }
exports.omit = omit;
/**
* Maps an array, or object to a property (by name)
*/
function pluck(collection, propName) {
return map(collection, hof_1.prop(propName));
}
exports.pluck = pluck;
/** Filters an Array or an Object's properties based on a predicate */
function filter(collection, callback) {
var arr = predicates_1.isArray(collection), result = arr ? [] : {};
var accept = arr ? function (x) { return result.push(x); } : function (x, key) { return result[key] = x; };
exports.forEach(collection, function (item, i) {
if (callback(item, i))
accept(item, i);
});
return result;
}
exports.filter = filter;
/** Finds an object from an array, or a property of an object, that matches a predicate */
function find(collection, callback) {
var result;
exports.forEach(collection, function (item, i) {
if (result)
return;
if (callback(item, i))
result = item;
});
return result;
}
exports.find = find;
/** Given an object, returns a new object, where each property is transformed by the callback function */
exports.mapObj = map;
/** Maps an array or object properties using a callback function */
function map(collection, callback) {
var result = predicates_1.isArray(collection) ? [] : {};
exports.forEach(collection, function (item, i) { return result[i] = callback(item, i); });
return result;
}
exports.map = map;
/**
* Given an object, return its enumerable property values
*
* @example
* ```
*
* let foo = { a: 1, b: 2, c: 3 }
* let vals = values(foo); // [ 1, 2, 3 ]
* ```
*/
exports.values = function (obj) { return Object.keys(obj).map(function (key) { return obj[key]; }); };
/**
* Reduce function that returns true if all of the values are truthy.
*
* @example
* ```
*
* let vals = [ 1, true, {}, "hello world"];
* vals.reduce(allTrueR, true); // true
*
* vals.push(0);
* vals.reduce(allTrueR, true); // false
* ```
*/
exports.allTrueR = function (memo, elem) { return memo && elem; };
/**
* Reduce function that returns true if any of the values are truthy.
*
* * @example
* ```
*
* let vals = [ 0, null, undefined ];
* vals.reduce(anyTrueR, true); // false
*
* vals.push("hello world");
* vals.reduce(anyTrueR, true); // true
* ```
*/
exports.anyTrueR = function (memo, elem) { return memo || elem; };
/**
* Reduce function which un-nests a single level of arrays
* @example
* ```
*
* let input = [ [ "a", "b" ], [ "c", "d" ], [ [ "double", "nested" ] ] ];
* input.reduce(unnestR, []) // [ "a", "b", "c", "d", [ "double, "nested" ] ]
* ```
*/
exports.unnestR = function (memo, elem) { return memo.concat(elem); };
/**
* Reduce function which recursively un-nests all arrays
*
* @example
* ```
*
* let input = [ [ "a", "b" ], [ "c", "d" ], [ [ "double", "nested" ] ] ];
* input.reduce(unnestR, []) // [ "a", "b", "c", "d", "double, "nested" ]
* ```
*/
exports.flattenR = function (memo, elem) { return predicates_1.isArray(elem) ? memo.concat(elem.reduce(exports.flattenR, [])) : pushR(memo, elem); };
/** Reduce function that pushes an object to an array, then returns the array. Mostly just for [[flattenR]] */
function pushR(arr, obj) { arr.push(obj); return arr; }
/**
* Return a new array with a single level of arrays unnested.
*
* @example
* ```
*
* let input = [ [ "a", "b" ], [ "c", "d" ], [ [ "double", "nested" ] ] ];
* unnest(input) // [ "a", "b", "c", "d", [ "double, "nested" ] ]
* ```
*/
exports.unnest = function (arr) { return arr.reduce(exports.unnestR, []); };
/**
* Return a completely flattened version of an array.
*
* @example
* ```
*
* let input = [ [ "a", "b" ], [ "c", "d" ], [ [ "double", "nested" ] ] ];
* flatten(input) // [ "a", "b", "c", "d", "double, "nested" ]
* ```
*/
exports.flatten = function (arr) { return arr.reduce(exports.flattenR, []); };
/**
* Given a .filter Predicate, builds a .filter Predicate which throws an error if any elements do not pass.
* @example
* ```
*
* let isNumber = (obj) => typeof(obj) === 'number';
* let allNumbers = [ 1, 2, 3, 4, 5 ];
* allNumbers.filter(assertPredicate(isNumber)); //OK
*
* let oneString = [ 1, 2, 3, 4, "5" ];
* oneString.filter(assertPredicate(isNumber, "Not all numbers")); // throws Error(""Not all numbers"");
* ```
*/
function assertPredicate(predicate, errMsg) {
if (errMsg === void 0) { errMsg = "assert failure"; }
return function (obj) {
if (!predicate(obj)) {
throw new Error(predicates_1.isFunction(errMsg) ? errMsg(obj) : errMsg);
}
return true;
};
}
exports.assertPredicate = assertPredicate;
/**
* Like _.pairs: Given an object, returns an array of key/value pairs
*
* @example
* ```
*
* pairs({ foo: "FOO", bar: "BAR }) // [ [ "foo", "FOO" ], [ "bar": "BAR" ] ]
* ```
*/
exports.pairs = function (object) { return Object.keys(object).map(function (key) { return [key, object[key]]; }); };
/**
* Given two or more parallel arrays, returns an array of tuples where
* each tuple is composed of [ a[i], b[i], ... z[i] ]
*
* @example
* ```
*
* let foo = [ 0, 2, 4, 6 ];
* let bar = [ 1, 3, 5, 7 ];
* let baz = [ 10, 30, 50, 70 ];
* arrayTuples(foo, bar); // [ [0, 1], [2, 3], [4, 5], [6, 7] ]
* arrayTuples(foo, bar, baz); // [ [0, 1, 10], [2, 3, 30], [4, 5, 50], [6, 7, 70] ]
* ```
*/
function arrayTuples() {
var arrayArgs = [];
for (var _i = 0; _i < arguments.length; _i++) {
arrayArgs[_i - 0] = arguments[_i];
}
if (arrayArgs.length === 0)
return [];
var length = arrayArgs.reduce(function (min, arr) { return Math.min(arr.length, min); }, 9007199254740991); // aka 2^53 1 aka Number.MAX_SAFE_INTEGER
return Array.apply(null, Array(length)).map(function (ignored, idx) { return arrayArgs.map(function (arr) { return arr[idx]; }); });
}
exports.arrayTuples = arrayTuples;
/**
* Reduce function which builds an object from an array of [key, value] pairs.
*
* Each iteration sets the key/val pair on the memo object, then returns the memo for the next iteration.
*
* Each keyValueTuple should be an array with values [ key: string, value: any ]
*
* @example
* ```
*
* var pairs = [ ["fookey", "fooval"], ["barkey", "barval"] ]
*
* var pairsToObj = pairs.reduce((memo, pair) => applyPairs(memo, pair), {})
* // pairsToObj == { fookey: "fooval", barkey: "barval" }
*
* // Or, more simply:
* var pairsToObj = pairs.reduce(applyPairs, {})
* // pairsToObj == { fookey: "fooval", barkey: "barval" }
* ```
*/
function applyPairs(memo, keyValTuple) {
var key, value;
if (predicates_1.isArray(keyValTuple))
key = keyValTuple[0], value = keyValTuple[1];
if (!predicates_1.isString(key))
throw new Error("invalid parameters to applyPairs");
memo[key] = value;
return memo;
}
exports.applyPairs = applyPairs;
/** Get the last element of an array */
function tail(arr) {
return arr.length && arr[arr.length - 1] || undefined;
}
exports.tail = tail;
/**
* shallow copy from src to dest
*
* note: This is a shallow copy, while angular.copy is a deep copy.
* ui-router uses `copy` only to make copies of state parameters.
*/
function _copy(src, dest) {
if (dest)
Object.keys(dest).forEach(function (key) { return delete dest[key]; });
if (!dest)
dest = {};
return exports.extend(dest, src);
}
function _forEach(obj, cb, _this) {
if (predicates_1.isArray(obj))
return obj.forEach(cb, _this);
Object.keys(obj).forEach(function (key) { return cb(obj[key], key); });
}
function _copyProps(to, from) { Object.keys(from).forEach(function (key) { return to[key] = from[key]; }); return to; }
function _extend(toObj, rest) {
return restArgs(arguments, 1).filter(exports.identity).reduce(_copyProps, toObj);
}
function _equals(o1, o2) {
if (o1 === o2)
return true;
if (o1 === null || o2 === null)
return false;
if (o1 !== o1 && o2 !== o2)
return true; // NaN === NaN
var t1 = typeof o1, t2 = typeof o2;
if (t1 !== t2 || t1 !== 'object')
return false;
var tup = [o1, o2];
if (hof_1.all(predicates_1.isArray)(tup))
return _arraysEq(o1, o2);
if (hof_1.all(predicates_1.isDate)(tup))
return o1.getTime() === o2.getTime();
if (hof_1.all(predicates_1.isRegExp)(tup))
return o1.toString() === o2.toString();
if (hof_1.all(predicates_1.isFunction)(tup))
return true; // meh
var predicates = [predicates_1.isFunction, predicates_1.isArray, predicates_1.isDate, predicates_1.isRegExp];
if (predicates.map(hof_1.any).reduce(function (b, fn) { return b || !!fn(tup); }, false))
return false;
var key, keys = {};
for (key in o1) {
if (!_equals(o1[key], o2[key]))
return false;
keys[key] = true;
}
for (key in o2) {
if (!keys[key])
return false;
}
return true;
}
function _arraysEq(a1, a2) {
if (a1.length !== a2.length)
return false;
return arrayTuples(a1, a2).reduce(function (b, t) { return b && _equals(t[0], t[1]); }, true);
}
//
//const _addToGroup = (result, keyFn) => (item) =>
// (result[keyFn(item)] = result[keyFn(item)] || []).push(item) && result;
//const groupBy = (array, keyFn) => array.reduce((memo, item) => _addToGroup(memo, keyFn), {});
//
//
/***/ },
/* 4 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** Predicates @module common_predicates */ /** */
var hof_1 = __webpack_require__(5);
var toStr = Object.prototype.toString;
var tis = function (t) { return function (x) { return typeof (x) === t; }; };
exports.isUndefined = tis('undefined');
exports.isDefined = hof_1.not(exports.isUndefined);
exports.isNull = function (o) { return o === null; };
exports.isFunction = tis('function');
exports.isNumber = tis('number');
exports.isString = tis('string');
exports.isObject = function (x) { return x !== null && typeof x === 'object'; };
exports.isArray = Array.isArray;
exports.isDate = function (x) { return toStr.call(x) === '[object Date]'; };
exports.isRegExp = function (x) { return toStr.call(x) === '[object RegExp]'; };
/**
* Predicate which checks if a value is injectable
*
* A value is "injectable" if it is a function, or if it is an ng1 array-notation-style array
* where all the elements in the array are Strings, except the last one, which is a Function
*/
function isInjectable(val) {
if (exports.isArray(val) && val.length) {
var head = val.slice(0, -1), tail = val.slice(-1);
return !(head.filter(hof_1.not(exports.isString)).length || tail.filter(hof_1.not(exports.isFunction)).length);
}
return exports.isFunction(val);
}
exports.isInjectable = isInjectable;
/**
* Predicate which checks if a value looks like a Promise
*
* It is probably a Promise if it's an object, and it has a `then` property which is a Function
*/
exports.isPromise = hof_1.and(exports.isObject, hof_1.pipe(hof_1.prop('then'), exports.isFunction));
/***/ },
/* 5 */
/***/ function(module, exports) {
/**
* Higher order functions
*
* @module common_hof
*/
"use strict";
/**
* Returns a new function for [Partial Application](https://en.wikipedia.org/wiki/Partial_application) of the original function.
*
* Given a function with N parameters, returns a new function that supports partial application.
* The new function accepts anywhere from 1 to N parameters. When that function is called with M parameters,
* where M is less than N, it returns a new function that accepts the remaining parameters. It continues to
* accept more parameters until all N parameters have been supplied.
*
*
* This contrived example uses a partially applied function as an predicate, which returns true
* if an object is found in both arrays.
* @example
* ```
* // returns true if an object is in both of the two arrays
* function inBoth(array1, array2, object) {
* return array1.indexOf(object) !== -1 &&
* array2.indexOf(object) !== 1;
* }
* let obj1, obj2, obj3, obj4, obj5, obj6, obj7
* let foos = [obj1, obj3]
* let bars = [obj3, obj4, obj5]
*
* // A curried "copy" of inBoth
* let curriedInBoth = curry(inBoth);
* // Partially apply both the array1 and array2
* let inFoosAndBars = curriedInBoth(foos, bars);
*
* // Supply the final argument; since all arguments are
* // supplied, the original inBoth function is then called.
* let obj1InBoth = inFoosAndBars(obj1); // false
*
* // Use the inFoosAndBars as a predicate.
* // Filter, on each iteration, supplies the final argument
* let allObjs = [ obj1, obj2, obj3, obj4, obj5, obj6, obj7 ];
* let foundInBoth = allObjs.filter(inFoosAndBars); // [ obj3 ]
*
* ```
*
* Stolen from: http://stackoverflow.com/questions/4394747/javascript-curry-function
*
* @param fn
* @returns {*|function(): (*|any)}
*/
function curry(fn) {
var initial_args = [].slice.apply(arguments, [1]);
var func_args_length = fn.length;
function curried(args) {
if (args.length >= func_args_length)
return fn.apply(null, args);
return function () {
return curried(args.concat([].slice.apply(arguments)));
};
}
return curried(initial_args);
}
exports.curry = curry;
/**
* Given a varargs list of functions, returns a function that composes the argument functions, right-to-left
* given: f(x), g(x), h(x)
* let composed = compose(f,g,h)
* then, composed is: f(g(h(x)))
*/
function compose() {
var args = arguments;
var start = args.length - 1;
return function () {
var i = start, result = args[start].apply(this, arguments);
while (i--)
result = args[i].call(this, result);
return result;
};
}
exports.compose = compose;
/**
* Given a varargs list of functions, returns a function that is composes the argument functions, left-to-right
* given: f(x), g(x), h(x)
* let piped = pipe(f,g,h);
* then, piped is: h(g(f(x)))
*/
function pipe() {
var funcs = [];
for (var _i = 0; _i < arguments.length; _i++) {
funcs[_i - 0] = arguments[_i];
}
return compose.apply(null, [].slice.call(arguments).reverse());
}
exports.pipe = pipe;
/**
* Given a property name, returns a function that returns that property from an object
* let obj = { foo: 1, name: "blarg" };
* let getName = prop("name");
* getName(obj) === "blarg"
*/
exports.prop = function (name) { return function (obj) { return obj && obj[name]; }; };
/**
* Given a property name and a value, returns a function that returns a boolean based on whether
* the passed object has a property that matches the value
* let obj = { foo: 1, name: "blarg" };
* let getName = propEq("name", "blarg");
* getName(obj) === true
*/
exports.propEq = curry(function (name, val, obj) { return obj && obj[name] === val; });
/**
* Given a dotted property name, returns a function that returns a nested property from an object, or undefined
* let obj = { id: 1, nestedObj: { foo: 1, name: "blarg" }, };
* let getName = prop("nestedObj.name");
* getName(obj) === "blarg"
* let propNotFound = prop("this.property.doesnt.exist");
* propNotFound(obj) === undefined
*/
exports.parse = function (name) { return pipe.apply(null, name.split(".").map(exports.prop)); };
/**
* Given a function that returns a truthy or falsey value, returns a
* function that returns the opposite (falsey or truthy) value given the same inputs
*/
exports.not = function (fn) { return function () {
var args = [];
for (var _i = 0; _i < arguments.length; _i++) {
args[_i - 0] = arguments[_i];
}
return !fn.apply(null, args);
}; };
/**
* Given two functions that return truthy or falsey values, returns a function that returns truthy
* if both functions return truthy for the given arguments
*/
function and(fn1, fn2) {
return function () {
var args = [];
for (var _i = 0; _i < arguments.length; _i++) {
args[_i - 0] = arguments[_i];
}
return fn1.apply(null, args) && fn2.apply(null, args);
};
}
exports.and = and;
/**
* Given two functions that return truthy or falsey values, returns a function that returns truthy
* if at least one of the functions returns truthy for the given arguments
*/
function or(fn1, fn2) {
return function () {
var args = [];
for (var _i = 0; _i < arguments.length; _i++) {
args[_i - 0] = arguments[_i];
}
return fn1.apply(null, args) || fn2.apply(null, args);
};
}
exports.or = or;
/**
* Check if all the elements of an array match a predicate function
*
* @param fn1 a predicate function `fn1`
* @returns a function which takes an array and returns true if `fn1` is true for all elements of the array
*/
exports.all = function (fn1) { return function (arr) { return arr.reduce(function (b, x) { return b && !!fn1(x); }, true); }; };
exports.any = function (fn1) { return function (arr) { return arr.reduce(function (b, x) { return b || !!fn1(x); }, false); }; };
exports.none = exports.not(exports.any);
/** Given a class, returns a Predicate function that returns true if the object is of that class */
exports.is = function (ctor) { return function (obj) { return (obj != null && obj.constructor === ctor || obj instanceof ctor); }; };
/** Given a value, returns a Predicate function that returns true if another value is === equal to the original value */
exports.eq = function (val) { return function (other) { return val === other; }; };
/** Given a value, returns a function which returns the value */
exports.val = function (v) { return function () { return v; }; };
function invoke(fnName, args) {
return function (obj) { return obj[fnName].apply(obj, args); };
}
exports.invoke = invoke;
/**
* Sorta like Pattern Matching (a functional programming conditional construct)
*
* See http://c2.com/cgi/wiki?PatternMatching
*
* This is a conditional construct which allows a series of predicates and output functions
* to be checked and then applied. Each predicate receives the input. If the predicate
* returns truthy, then its matching output function (mapping function) is provided with
* the input and, then the result is returned.
*
* Each combination (2-tuple) of predicate + output function should be placed in an array
* of size 2: [ predicate, mapFn ]
*
* These 2-tuples should be put in an outer array.
*
* @example
* ```
*
* // Here's a 2-tuple where the first element is the isString predicate
* // and the second element is a function that returns a description of the input
* let firstTuple = [ angular.isString, (input) => `Heres your string ${input}` ];
*
* // Second tuple: predicate "isNumber", mapfn returns a description
* let secondTuple = [ angular.isNumber, (input) => `(${input}) That's a number!` ];
*
* let third = [ (input) => input === null, (input) => `Oh, null...` ];
*
* let fourth = [ (input) => input === undefined, (input) => `notdefined` ];
*
* let descriptionOf = pattern([ firstTuple, secondTuple, third, fourth ]);
*
* console.log(descriptionOf(undefined)); // 'notdefined'
* console.log(descriptionOf(55)); // '(55) That's a number!'
* console.log(descriptionOf("foo")); // 'Here's your string foo'
* ```
*
* @param struct A 2D array. Each element of the array should be an array, a 2-tuple,
* with a Predicate and a mapping/output function
* @returns {function(any): *}
*/
function pattern(struct) {
return function (x) {
for (var i = 0; i < struct.length; i++) {
if (struct[i][0](x))
return struct[i][1](x);
}
};
}
exports.pattern = pattern;
/***/ },
/* 6 */
/***/ function(module, exports) {
/**
* This module is a stub for core services such as Dependency Injection or Browser Location.
* Core services may be implemented by a specific framework, such as ng1 or ng2, or be pure javascript.
*
* @module common
*/
"use strict";
/** for typedoc */
//import {IQService} from "angular";
//import {IInjectorService} from "angular";
var notImplemented = function (fnname) { return function () {
throw new Error(fnname + "(): No coreservices implementation for UI-Router is loaded. You should include one of: ['angular1.js']");
}; };
var services = {
$q: undefined,
$injector: undefined,
location: {},
locationConfig: {},
template: {}
};
exports.services = services;
["replace", "url", "path", "search", "hash", "onChange"]
.forEach(function (key) { return services.location[key] = notImplemented(key); });
["port", "protocol", "host", "baseHref", "html5Mode", "hashPrefix"]
.forEach(function (key) { return services.locationConfig[key] = notImplemented(key); });
/***/ },
/* 7 */
/***/ function(module, exports) {
"use strict";
/** @module state */ /** for typedoc */
var Glob = (function () {
function Glob(text) {
this.text = text;
this.glob = text.split('.');
}
Glob.prototype.matches = function (name) {
var segments = name.split('.');
// match single stars
for (var i = 0, l = this.glob.length; i < l; i++) {
if (this.glob[i] === '*')
segments[i] = '*';
}
// match greedy starts
if (this.glob[0] === '**') {
segments = segments.slice(segments.indexOf(this.glob[1]));
segments.unshift('**');
}
// match greedy ends
if (this.glob[this.glob.length - 1] === '**') {
segments.splice(segments.indexOf(this.glob[this.glob.length - 2]) + 1, Number.MAX_VALUE);
segments.push('**');
}
if (this.glob.length != segments.length)
return false;
return segments.join('') === this.glob.join('');
};
Glob.is = function (text) {
return text.indexOf('*') > -1;
};
Glob.fromString = function (text) {
if (!this.is(text))
return null;
return new Glob(text);
};
return Glob;
}());
exports.Glob = Glob;
/***/ },
/* 8 */
/***/ function(module, exports) {
/** @module common */ /** for typedoc */
"use strict";
var Queue = (function () {
function Queue(_items, _limit) {
if (_items === void 0) { _items = []; }
if (_limit === void 0) { _limit = null; }
this._items = _items;
this._limit = _limit;
}
Queue.prototype.enqueue = function (item) {
var items = this._items;
items.push(item);
if (this._limit && items.length > this._limit)
items.shift();
return item;
};
Queue.prototype.dequeue = function () {
if (this.size())
return this._items.splice(0, 1)[0];
};
Queue.prototype.clear = function () {
var current = this._items;
this._items = [];
return current;
};
Queue.prototype.size = function () {
return this._items.length;
};
Queue.prototype.remove = function (item) {
var idx = this._items.indexOf(item);
return idx > -1 && this._items.splice(idx, 1)[0];
};
Queue.prototype.peekTail = function () {
return this._items[this._items.length - 1];
};
Queue.prototype.peekHead = function () {
if (this.size())
return this._items[0];
};
return Queue;
}());
exports.Queue = Queue;
/***/ },
/* 9 */
/***/ function(module, exports, __webpack_require__) {
/** @module common_strings */ /** */
"use strict";
var predicates_1 = __webpack_require__(4);
var rejectFactory_1 = __webpack_require__(10);
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
var transition_1 = __webpack_require__(11);
var resolvable_1 = __webpack_require__(32);
/**
* Returns a string shortened to a maximum length
*
* If the string is already less than the `max` length, return the string.
* Else return the string, shortened to `max - 3` and append three dots ("...").
*
* @param max the maximum length of the string to return
* @param str the input string
*/
function maxLength(max, str) {
if (str.length <= max)
return str;
return str.substr(0, max - 3) + "...";
}
exports.maxLength = maxLength;
/**
* Returns a string, with spaces added to the end, up to a desired str length
*
* If the string is already longer than the desired length, return the string.
* Else returns the string, with extra spaces on the end, such that it reaches `length` characters.
*
* @param length the desired length of the string to return
* @param str the input string
*/
function padString(length, str) {
while (str.length < length)
str += " ";
return str;
}
exports.padString = padString;
exports.kebobString = function (camelCase) { return camelCase.replace(/([A-Z])/g, function ($1) { return "-" + $1.toLowerCase(); }); };
function _toJson(obj) {
return JSON.stringify(obj);
}
function _fromJson(json) {
return predicates_1.isString(json) ? JSON.parse(json) : json;
}
function promiseToString(p) {
if (hof_1.is(rejectFactory_1.TransitionRejection)(p.reason))
return p.reason.toString();
return "Promise(" + JSON.stringify(p) + ")";
}
function functionToString(fn) {
var fnStr = fnToString(fn);
var namedFunctionMatch = fnStr.match(/^(function [^ ]+\([^)]*\))/);
return namedFunctionMatch ? namedFunctionMatch[1] : fnStr;
}
exports.functionToString = functionToString;
function fnToString(fn) {
var _fn = predicates_1.isArray(fn) ? fn.slice(-1)[0] : fn;
return _fn && _fn.toString() || "undefined";
}
exports.fnToString = fnToString;
var stringifyPattern = hof_1.pattern([
[hof_1.not(predicates_1.isDefined), hof_1.val("undefined")],
[predicates_1.isNull, hof_1.val("null")],
[predicates_1.isPromise, promiseToString],
[hof_1.is(transition_1.Transition), hof_1.invoke("toString")],
[hof_1.is(resolvable_1.Resolvable), hof_1.invoke("toString")],
[predicates_1.isInjectable, functionToString],
[hof_1.val(true), common_1.identity]
]);
function stringify(o) {
var seen = [];
function format(val) {
if (predicates_1.isObject(val)) {
if (seen.indexOf(val) !== -1)
return '[circular ref]';
seen.push(val);
}
return stringifyPattern(val);
}
return JSON.stringify(o, function (key, val) { return format(val); }).replace(/\\"/g, '"');
}
exports.stringify = stringify;
/***/ },
/* 10 */
/***/ function(module, exports, __webpack_require__) {
/** @module transition */ /** for typedoc */
"use strict";
var common_1 = __webpack_require__(3);
var coreservices_1 = __webpack_require__(6);
var strings_1 = __webpack_require__(9);
(function (RejectType) {
RejectType[RejectType["SUPERSEDED"] = 2] = "SUPERSEDED";
RejectType[RejectType["ABORTED"] = 3] = "ABORTED";
RejectType[RejectType["INVALID"] = 4] = "INVALID";
RejectType[RejectType["IGNORED"] = 5] = "IGNORED";
})(exports.RejectType || (exports.RejectType = {}));
var RejectType = exports.RejectType;
var TransitionRejection = (function () {
function TransitionRejection(type, message, detail) {
common_1.extend(this, {
type: type,
message: message,
detail: detail
});
}
TransitionRejection.prototype.toString = function () {
var detailString = function (d) { return d && d.toString !== Object.prototype.toString ? d.toString() : strings_1.stringify(d); };
var type = this.type, message = this.message, detail = detailString(this.detail);
return "TransitionRejection(type: " + type + ", message: " + message + ", detail: " + detail + ")";
};
return TransitionRejection;
}());
exports.TransitionRejection = TransitionRejection;
var RejectFactory = (function () {
function RejectFactory() {
}
RejectFactory.prototype.superseded = function (detail, options) {
var message = "The transition has been superseded by a different transition (see detail).";
var reason = new TransitionRejection(RejectType.SUPERSEDED, message, detail);
if (options && options.redirected) {
reason.redirected = true;
}
return common_1.extend(coreservices_1.services.$q.reject(reason), { reason: reason });
};
RejectFactory.prototype.redirected = function (detail) {
return this.superseded(detail, { redirected: true });
};
RejectFactory.prototype.invalid = function (detail) {
var message = "This transition is invalid (see detail)";
var reason = new TransitionRejection(RejectType.INVALID, message, detail);
return common_1.extend(coreservices_1.services.$q.reject(reason), { reason: reason });
};
RejectFactory.prototype.ignored = function (detail) {
var message = "The transition was ignored.";
var reason = new TransitionRejection(RejectType.IGNORED, message, detail);
return common_1.extend(coreservices_1.services.$q.reject(reason), { reason: reason });
};
RejectFactory.prototype.aborted = function (detail) {
// TODO think about how to encapsulate an Error() object
var message = "The transition has been aborted.";
var reason = new TransitionRejection(RejectType.ABORTED, message, detail);
return common_1.extend(coreservices_1.services.$q.reject(reason), { reason: reason });
};
return RejectFactory;
}());
exports.RejectFactory = RejectFactory;
/***/ },
/* 11 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module transition */ /** for typedoc */
var trace_1 = __webpack_require__(12);
var coreservices_1 = __webpack_require__(6);
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var hof_1 = __webpack_require__(5);
var module_1 = __webpack_require__(13);
var node_1 = __webpack_require__(39);
var pathFactory_1 = __webpack_require__(38);
var module_2 = __webpack_require__(17);
var module_3 = __webpack_require__(20);
var module_4 = __webpack_require__(40);
var transitionCount = 0, REJECT = new module_1.RejectFactory();
var stateSelf = hof_1.prop("self");
/**
* The representation of a transition between two states.
*
* Contains all contextual information about the to/from states, parameters, resolves, as well as the
* list of states being entered and exited as a result of this transition.
*/
var Transition = (function () {
/**
* Creates a new Transition object.
*
* If the target state is not valid, an error is thrown.
*
* @param fromPath The path of [[Node]]s from which the transition is leaving. The last node in the `fromPath`
* encapsulates the "from state".
* @param targetState The target state and parameters being transitioned to (also, the transition options)
* @param _transitionService The Transition Service instance
*/
function Transition(fromPath, targetState, _transitionService) {
var _this = this;
this._transitionService = _transitionService;
this._deferred = coreservices_1.services.$q.defer();
/**
* This promise is resolved or rejected based on the outcome of the Transition.
*
* When the transition is successful, the promise is resolved
* When the transition is unsuccessful, the promise is rejected with the [[TransitionRejection]] or javascript error
*/
this.promise = this._deferred.promise;
this.treeChanges = function () { return _this._treeChanges; };
this.isActive = function () { return _this === _this._options.current(); };
if (!targetState.valid()) {
throw new Error(targetState.error());
}
// Makes the Transition instance a hook registry (onStart, etc)
module_1.HookRegistry.mixin(new module_1.HookRegistry(), this);
// current() is assumed to come from targetState.options, but provide a naive implementation otherwise.
this._options = common_1.extend({ current: hof_1.val(this) }, targetState.options());
this.$id = transitionCount++;
var toPath = pathFactory_1.PathFactory.buildToPath(fromPath, targetState);
toPath = pathFactory_1.PathFactory.applyViewConfigs(_transitionService.$view, toPath);
this._treeChanges = pathFactory_1.PathFactory.treeChanges(fromPath, toPath, this._options.reloadState);
pathFactory_1.PathFactory.bindTransitionResolve(this._treeChanges, this);
}
Transition.prototype.$from = function () {
return common_1.tail(this._treeChanges.from).state;
};
Transition.prototype.$to = function () {
return common_1.tail(this._treeChanges.to).state;
};
/**
* Returns the "from state"
*
* @returns The state object for the Transition's "from state".
*/
Transition.prototype.from = function () {
return this.$from().self;
};
/**
* Returns the "to state"
*
* @returns The state object for the Transition's target state ("to state").
*/
Transition.prototype.to = function () {
return this.$to().self;
};
/**
* Determines whether two transitions are equivalent.
*/
Transition.prototype.is = function (compare) {
if (compare instanceof Transition) {
// TODO: Also compare parameters
return this.is({ to: compare.$to().name, from: compare.$from().name });
}
return !((compare.to && !module_1.matchState(this.$to(), compare.to)) ||
(compare.from && !module_1.matchState(this.$from(), compare.from)));
};
/**
* Gets transition parameter values
*
* @param pathname Pick which treeChanges path to get parameters for:
* (`'to'`, `'from'`, `'entering'`, `'exiting'`, `'retained'`)
* @returns transition parameter values for the desired path.
*/
Transition.prototype.params = function (pathname) {
if (pathname === void 0) { pathname = "to"; }
return this._treeChanges[pathname].map(hof_1.prop("paramValues")).reduce(common_1.mergeR, {});
};
/**
* Get resolved data
*
* @returns an object (key/value pairs) where keys are resolve names and values are any settled resolve data,
* or `undefined` for pending resolve data
*/
Transition.prototype.resolves = function () {
return common_1.map(common_1.tail(this._treeChanges.to).resolveContext.getResolvables(), function (res) { return res.data; });
};
/**
* Adds new resolves to this transition.
*
* @param resolves an [[ResolveDeclarations]] object which describes the new resolves
* @param state the state in the "to path" which should receive the new resolves (otherwise, the root state)
*/
Transition.prototype.addResolves = function (resolves, state) {
if (state === void 0) { state = ""; }
var stateName = (typeof state === "string") ? state : state.name;
var topath = this._treeChanges.to;
var targetNode = common_1.find(topath, function (node) { return node.state.name === stateName; });
common_1.tail(topath).resolveContext.addResolvables(module_4.Resolvable.makeResolvables(resolves), targetNode.state);
};
/**
* Gets the previous transition, from which this transition was redirected.
*
* @returns The previous Transition, or null if this Transition is not the result of a redirection
*/
Transition.prototype.previous = function () {
return this._options.previous || null;
};
/**
* Get the transition options
*
* @returns the options for this Transition.
*/
Transition.prototype.options = function () {
return this._options;
};
/**
* Gets the states being entered.
*
* @returns an array of states that will be entered during this transition.
*/
Transition.prototype.entering = function () {
return common_1.map(this._treeChanges.entering, hof_1.prop('state')).map(stateSelf);
};
/**
* Gets the states being exited.
*
* @returns an array of states that will be exited during this transition.
*/
Transition.prototype.exiting = function () {
return common_1.map(this._treeChanges.exiting, hof_1.prop('state')).map(stateSelf).reverse();
};
/**
* Gets the states being retained.
*
* @returns an array of states that are already entered from a previous Transition, that will not be
* exited during this Transition
*/
Transition.prototype.retained = function () {
return common_1.map(this._treeChanges.retained, hof_1.prop('state')).map(stateSelf);
};
/**
* Get the [[ViewConfig]]s associated with this Transition
*
* Each state can define one or more views (template/controller), which are encapsulated as `ViewConfig` objects.
* This method fetches the `ViewConfigs` for a given path in the Transition (e.g., "to" or "entering").
*
* @param pathname the name of the path to fetch views for:
* (`'to'`, `'from'`, `'entering'`, `'exiting'`, `'retained'`)
* @param state If provided, only returns the `ViewConfig`s for a single state in the path
*
* @returns a list of ViewConfig objects for the given path.
*/
Transition.prototype.views = function (pathname, state) {
if (pathname === void 0) { pathname = "entering"; }
var path = this._treeChanges[pathname];
path = !state ? path : path.filter(hof_1.propEq('state', state));
return path.map(hof_1.prop("views")).filter(common_1.identity).reduce(common_1.unnestR, []);
};
/**
* @ngdoc function
* @name ui.router.state.type:Transition#redirect
* @methodOf ui.router.state.type:Transition
*
* @description
* Creates a new transition that is a redirection of the current one. This transition can
* be returned from a `$transitionsProvider` hook, `$state` event, or other method, to
* redirect a transition to a new state and/or set of parameters.
*
* @returns {Transition} Returns a new `Transition` instance.
*/
Transition.prototype.redirect = function (targetState) {
var newOptions = common_1.extend({}, this.options(), targetState.options(), { previous: this });
targetState = new module_2.TargetState(targetState.identifier(), targetState.$state(), targetState.params(), newOptions);
var redirectTo = new Transition(this._treeChanges.from, targetState, this._transitionService);
var reloadState = targetState.options().reloadState;
// If the current transition has already resolved any resolvables which are also in the redirected "to path", then
// add those resolvables to the redirected transition. Allows you to define a resolve at a parent level, wait for
// the resolve, then redirect to a child state based on the result, and not have to re-fetch the resolve.
var redirectedPath = this.treeChanges().to;
var copyResolvesFor = node_1.Node.matching(redirectTo.treeChanges().to, redirectedPath)
.filter(function (node) { return !reloadState || !reloadState.includes[node.state.name]; });
var includeResolve = function (resolve, key) { return ['$stateParams', '$transition$'].indexOf(key) === -1; };
copyResolvesFor.forEach(function (node, idx) { return common_1.extend(node.resolves, common_1.filter(redirectedPath[idx].resolves, includeResolve)); });
return redirectTo;
};
/** @hidden If a transition doesn't exit/enter any states, returns any [[Param]] whose value changed */
Transition.prototype._changedParams = function () {
var _a = this._treeChanges, to = _a.to, from = _a.from;
if (this._options.reload || common_1.tail(to).state !== common_1.tail(from).state)
return undefined;
var nodeSchemas = to.map(function (node) { return node.paramSchema; });
var _b = [to, from].map(function (path) { return path.map(function (x) { return x.paramValues; }); }), toValues = _b[0], fromValues = _b[1];
var tuples = common_1.arrayTuples(nodeSchemas, toValues, fromValues);
return tuples.map(function (_a) {
var schema = _a[0], toVals = _a[1], fromVals = _a[2];
return module_3.Param.changed(schema, toVals, fromVals);
}).reduce(common_1.unnestR, []);
};
/**
* Returns true if the transition is dynamic.
*
* A transition is dynamic if no states are entered nor exited, but at least one dynamic parameter has changed.
*
* @returns true if the Transition is dynamic
*/
Transition.prototype.dynamic = function () {
var changes = this._changedParams();
return !changes ? false : changes.map(function (x) { return x.dynamic; }).reduce(common_1.anyTrueR, false);
};
/**
* Returns true if the transition is ignored.
*
* A transition is ignored if no states are entered nor exited, and no parameter values have changed.
*
* @returns true if the Transition is ignored.
*/
Transition.prototype.ignored = function () {
var changes = this._changedParams();
return !changes ? false : changes.length === 0;
};
/**
* @hidden
*/
Transition.prototype.hookBuilder = function () {
return new module_1.HookBuilder(this._transitionService, this, {
transition: this,
current: this._options.current
});
};
/**
* Runs the transition
*
* This method is generally called from the [[StateService.transitionTo]]
*
* @returns a promise for a successful transition.
*/
Transition.prototype.run = function () {
var _this = this;
var hookBuilder = this.hookBuilder();
var runSynchronousHooks = module_1.TransitionHook.runSynchronousHooks;
// TODO: nuke these in favor of chaining off the promise, i.e.,
// $transitions.onBefore({}, $transition$ => {$transition$.promise.then()}
var runSuccessHooks = function () { return runSynchronousHooks(hookBuilder.getOnSuccessHooks(), {}, true); };
var runErrorHooks = function ($error$) { return runSynchronousHooks(hookBuilder.getOnErrorHooks(), { $error$: $error$ }, true); };
// Run the success/error hooks *after* the Transition promise is settled.
this.promise.then(runSuccessHooks, runErrorHooks);
var syncResult = runSynchronousHooks(hookBuilder.getOnBeforeHooks());
if (module_1.TransitionHook.isRejection(syncResult)) {
var rejectReason = syncResult.reason;
this._deferred.reject(rejectReason);
return this.promise;
}
if (!this.valid()) {
var error = new Error(this.error());
this._deferred.reject(error);
return this.promise;
}
if (this.ignored()) {
trace_1.trace.traceTransitionIgnored(this);
var ignored = REJECT.ignored();
this._deferred.reject(ignored.reason);
return this.promise;
}
// When the chain is complete, then resolve or reject the deferred
var resolve = function () {
_this.success = true;
_this._deferred.resolve(_this);
trace_1.trace.traceSuccess(_this.$to(), _this);
};
var reject = function (error) {
_this.success = false;
_this._deferred.reject(error);
trace_1.trace.traceError(error, _this);
return coreservices_1.services.$q.reject(error);
};
trace_1.trace.traceTransitionStart(this);
var chain = hookBuilder.asyncHooks().reduce(function (_chain, step) { return _chain.then(step.invokeStep); }, syncResult);
chain.then(resolve, reject);
return this.promise;
};
/**
* Checks if the Transition is valid
*
* @returns true if the Transition is valid
*/
Transition.prototype.valid = function () {
return !this.error();
};
/**
* The reason the Transition is invalid
*
* @returns an error message explaining why the transition is invalid
*/
Transition.prototype.error = function () {
var state = this.$to();
if (state.self[common_1.abstractKey])
return "Cannot transition to abstract state '" + state.name + "'";
if (!module_3.Param.validates(state.parameters(), this.params()))
return "Param values not valid for state '" + state.name + "'";
};
/**
* A string representation of the Transition
*
* @returns A string representation of the Transition
*/
Transition.prototype.toString = function () {
var fromStateOrName = this.from();
var toStateOrName = this.to();
var avoidEmptyHash = function (params) {
return (params["#"] !== null && params["#"] !== undefined) ? params : common_1.omit(params, "#");
};
// (X) means the to state is invalid.
var id = this.$id, from = predicates_1.isObject(fromStateOrName) ? fromStateOrName.name : fromStateOrName, fromParams = common_1.toJson(avoidEmptyHash(this._treeChanges.from.map(hof_1.prop('paramValues')).reduce(common_1.mergeR, {}))), toValid = this.valid() ? "" : "(X) ", to = predicates_1.isObject(toStateOrName) ? toStateOrName.name : toStateOrName, toParams = common_1.toJson(avoidEmptyHash(this.params()));
return "Transition#" + id + "( '" + from + "'" + fromParams + " -> " + toValid + "'" + to + "'" + toParams + " )";
};
return Transition;
}());
exports.Transition = Transition;
/***/ },
/* 12 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/**
* UI-Router Transition Tracing
*
* Enable transition tracing to print transition information to the console, in order to help debug your application.
* Tracing logs detailed information about each Transition to your console.
*
* To enable tracing, import the [[trace]] singleton and enable one or more categories.
*
* ES6
* ```
*
* import {trace} from "ui-router-ng2"; // or "angular-ui-router"
* trace.enable(1, 5); // TRANSITION and VIEWCONFIG
* ```
*
* CJS
* ```
*
* let trace = require("angular-ui-router").trace; // or "ui-router-ng2"
* trace.enable("TRANSITION", "VIEWCONFIG");
* ```
*
* Globals
* ```
*
* let trace = window["angular-ui-router"].trace; // or "ui-router-ng2"
* trace.enable(); // Trace everything (very verbose)
* ```
*
* @module trace
*/ /** for typedoc */
var hof_1 = __webpack_require__(5);
var predicates_1 = __webpack_require__(4);
var strings_1 = __webpack_require__(9);
/** @hidden */
function uiViewString(viewData) {
if (!viewData)
return 'ui-view (defunct)';
return "ui-view id#" + viewData.id + ", contextual name '" + viewData.name + "@" + viewData.creationContext + "', fqn: '" + viewData.fqn + "'";
}
/** @hidden */
var viewConfigString = function (viewConfig) {
return ("ViewConfig targeting ui-view: '" + viewConfig.viewDecl.$uiViewName + "@" + viewConfig.viewDecl.$uiViewContextAnchor + "', context: '" + viewConfig.viewDecl.$context.name + "'");
};
/** @hidden */
function normalizedCat(input) {
return predicates_1.isNumber(input) ? Category[input] : Category[Category[input]];
}
/**
* Trace categories
*
* [[Trace.enable]] or [[Trace.disable]] a category
*
* `trace.enable(Category.TRANSITION)`
*
* These can also be provided using a matching string, or position ordinal
*
* `trace.enable("TRANSITION")`
*
* `trace.enable(1)`
*/
(function (Category) {
Category[Category["RESOLVE"] = 0] = "RESOLVE";
Category[Category["TRANSITION"] = 1] = "TRANSITION";
Category[Category["HOOK"] = 2] = "HOOK";
Category[Category["INVOKE"] = 3] = "INVOKE";
Category[Category["UIVIEW"] = 4] = "UIVIEW";
Category[Category["VIEWCONFIG"] = 5] = "VIEWCONFIG";
})(exports.Category || (exports.Category = {}));
var Category = exports.Category;
/**
* Prints UI-Router Transition trace information to the console.
*/
var Trace = (function () {
function Trace() {
/** @hidden */
this._enabled = {};
this.approximateDigests = 0;
}
/** @hidden */
Trace.prototype._set = function (enabled, categories) {
var _this = this;
if (!categories.length) {
categories = Object.keys(Category)
.filter(function (k) { return isNaN(parseInt(k, 10)); })
.map(function (key) { return Category[key]; });
}
categories.map(normalizedCat).forEach(function (category) { return _this._enabled[category] = enabled; });
};
/**
* Enables a trace [[Category]]
*
* ```
* trace.enable("TRANSITION");
* ```
*
* @param categories categories to enable. If `categories` is omitted, all categories are enabled.
* Also takes strings (category name) or ordinal (category position)
*/
Trace.prototype.enable = function () {
var categories = [];
for (var _i = 0; _i < arguments.length; _i++) {
categories[_i - 0] = arguments[_i];
}
this._set(true, categories);
};
/**
* Disables a trace [[Category]]
*
* ```
* trace.disable("VIEWCONFIG");
* ```
*
* @param categories categories to disable. If `categories` is omitted, all categories are disabled.
* Also takes strings (category name) or ordinal (category position)
*/
Trace.prototype.disable = function () {
var categories = [];
for (var _i = 0; _i < arguments.length; _i++) {
categories[_i - 0] = arguments[_i];
}
this._set(false, categories);
};
/**
* Retrieves the enabled stateus of a [[Category]]
*
* ```
* trace.enabled("VIEWCONFIG"); // true or false
* ```
*
* @returns boolean true if the category is enabled
*/
Trace.prototype.enabled = function (category) {
return !!this._enabled[normalizedCat(category)];
};
/** called by ui-router code */
Trace.prototype.traceTransitionStart = function (transition) {
if (!this.enabled(Category.TRANSITION))
return;
var tid = transition.$id, digest = this.approximateDigests, transitionStr = strings_1.stringify(transition);
console.log("Transition #" + tid + " Digest #" + digest + ": Started -> " + transitionStr);
};
/** called by ui-router code */
Trace.prototype.traceTransitionIgnored = function (transition) {
if (!this.enabled(Category.TRANSITION))
return;
var tid = transition.$id, digest = this.approximateDigests, transitionStr = strings_1.stringify(transition);
console.log("Transition #" + tid + " Digest #" + digest + ": Ignored <> " + transitionStr);
};
/** called by ui-router code */
Trace.prototype.traceHookInvocation = function (step, options) {
if (!this.enabled(Category.HOOK))
return;
var tid = hof_1.parse("transition.$id")(options), digest = this.approximateDigests, event = hof_1.parse("traceData.hookType")(options) || "internal", context = hof_1.parse("traceData.context.state.name")(options) || hof_1.parse("traceData.context")(options) || "unknown", name = strings_1.functionToString(step.fn);
console.log("Transition #" + tid + " Digest #" + digest + ": Hook -> " + event + " context: " + context + ", " + strings_1.maxLength(200, name));
};
/** called by ui-router code */
Trace.prototype.traceHookResult = function (hookResult, transitionResult, transitionOptions) {
if (!this.enabled(Category.HOOK))
return;
var tid = hof_1.parse("transition.$id")(transitionOptions), digest = this.approximateDigests, hookResultStr = strings_1.stringify(hookResult), transitionResultStr = strings_1.stringify(transitionResult);
console.log("Transition #" + tid + " Digest #" + digest + ": <- Hook returned: " + strings_1.maxLength(200, hookResultStr) + ", transition result: " + strings_1.maxLength(200, transitionResultStr));
};
/** called by ui-router code */
Trace.prototype.traceResolvePath = function (path, options) {
if (!this.enabled(Category.RESOLVE))
return;
var tid = hof_1.parse("transition.$id")(options), digest = this.approximateDigests, pathStr = path && path.toString(), policyStr = options && options.resolvePolicy;
console.log("Transition #" + tid + " Digest #" + digest + ": Resolving " + pathStr + " (" + policyStr + ")");
};
/** called by ui-router code */
Trace.prototype.traceResolvePathElement = function (pathElement, resolvablePromises, options) {
if (!this.enabled(Category.RESOLVE))
return;
if (!resolvablePromises.length)
return;
var tid = hof_1.parse("transition.$id")(options), digest = this.approximateDigests, resolvablePromisesStr = Object.keys(resolvablePromises).join(", "), pathElementStr = pathElement && pathElement.toString(), policyStr = options && options.resolvePolicy;
console.log("Transition #" + tid + " Digest #" + digest + ": Resolve " + pathElementStr + " resolvables: [" + resolvablePromisesStr + "] (" + policyStr + ")");
};
/** called by ui-router code */
Trace.prototype.traceResolveResolvable = function (resolvable, options) {
if (!this.enabled(Category.RESOLVE))
return;
var tid = hof_1.parse("transition.$id")(options), digest = this.approximateDigests, resolvableStr = resolvable && resolvable.toString();
console.log("Transition #" + tid + " Digest #" + digest + ": Resolving -> " + resolvableStr);
};
/** called by ui-router code */
Trace.prototype.traceResolvableResolved = function (resolvable, options) {
if (!this.enabled(Category.RESOLVE))
return;
var tid = hof_1.parse("transition.$id")(options), digest = this.approximateDigests, resolvableStr = resolvable && resolvable.toString(), result = strings_1.stringify(resolvable.data);
console.log("Transition #" + tid + " Digest #" + digest + ": <- Resolved " + resolvableStr + " to: " + strings_1.maxLength(200, result));
};
/** called by ui-router code */
Trace.prototype.tracePathElementInvoke = function (node, fn, deps, options) {
if (!this.enabled(Category.INVOKE))
return;
var tid = hof_1.parse("transition.$id")(options), digest = this.approximateDigests, stateName = node && node.state && node.state.toString(), fnName = strings_1.functionToString(fn);
console.log("Transition #" + tid + " Digest #" + digest + ": Invoke " + options.when + ": context: " + stateName + " " + strings_1.maxLength(200, fnName));
};
/** called by ui-router code */
Trace.prototype.traceError = function (error, transition) {
if (!this.enabled(Category.TRANSITION))
return;
var tid = transition.$id, digest = this.approximateDigests, transitionStr = strings_1.stringify(transition);
console.log("Transition #" + tid + " Digest #" + digest + ": <- Rejected " + transitionStr + ", reason: " + error);
};
/** called by ui-router code */
Trace.prototype.traceSuccess = function (finalState, transition) {
if (!this.enabled(Category.TRANSITION))
return;
var tid = transition.$id, digest = this.approximateDigests, state = finalState.name, transitionStr = strings_1.stringify(transition);
console.log("Transition #" + tid + " Digest #" + digest + ": <- Success " + transitionStr + ", final state: " + state);
};
/** called by ui-router code */
Trace.prototype.traceUiViewEvent = function (event, viewData, extra) {
if (extra === void 0) { extra = ""; }
if (!this.enabled(Category.UIVIEW))
return;
console.log("ui-view: " + strings_1.padString(30, event) + " " + uiViewString(viewData) + extra);
};
/** called by ui-router code */
Trace.prototype.traceUiViewConfigUpdated = function (viewData, context) {
if (!this.enabled(Category.UIVIEW))
return;
this.traceUiViewEvent("Updating", viewData, " with ViewConfig from context='" + context + "'");
};
/** called by ui-router code */
Trace.prototype.traceUiViewScopeCreated = function (viewData, newScope) {
if (!this.enabled(Category.UIVIEW))
return;
this.traceUiViewEvent("Created scope for", viewData, ", scope #" + newScope.$id);
};
/** called by ui-router code */
Trace.prototype.traceUiViewFill = function (viewData, html) {
if (!this.enabled(Category.UIVIEW))
return;
this.traceUiViewEvent("Fill", viewData, " with: " + strings_1.maxLength(200, html));
};
/** called by ui-router code */
Trace.prototype.traceViewServiceEvent = function (event, viewConfig) {
if (!this.enabled(Category.VIEWCONFIG))
return;
console.log("$view.ViewConfig: " + event + " " + viewConfigString(viewConfig));
};
/** called by ui-router code */
Trace.prototype.traceViewServiceUiViewEvent = function (event, viewData) {
if (!this.enabled(Category.VIEWCONFIG))
return;
console.log("$view.ViewConfig: " + event + " " + uiViewString(viewData));
};
return Trace;
}());
exports.Trace = Trace;
/**
* The [[Trace]] singleton
*
* @example
* ```js
*
* import {trace} from "angular-ui-router";
* trace.enable(1, 5);
* ```
*/
var trace = new Trace();
exports.trace = trace;
/***/ },
/* 13 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
function __export(m) {
for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p];
}
/**
* This module contains APIs related to a Transition.
*
* See [[Transition]], [[$transitions]]
*
* @module transition
* @preferred
*/
/** for typedoc */
__export(__webpack_require__(14));
__export(__webpack_require__(15));
__export(__webpack_require__(10));
__export(__webpack_require__(11));
__export(__webpack_require__(16));
__export(__webpack_require__(43));
/***/ },
/* 14 */
/***/ function(module, exports, __webpack_require__) {
/** @module transition */ /** for typedoc */
"use strict";
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var module_1 = __webpack_require__(13);
/**
* This class returns applicable TransitionHooks for a specific Transition instance.
*
* Hooks (IEventHook) may be registered globally, e.g., $transitions.onEnter(...), or locally, e.g.
* myTransition.onEnter(...). The HookBuilder finds matching IEventHooks (where the match criteria is
* determined by the type of hook)
*
* The HookBuilder also converts IEventHooks objects to TransitionHook objects, which are used to run a Transition.
*
* The HookBuilder constructor is given the $transitions service and a Transition instance. Thus, a HookBuilder
* instance may only be used for one specific Transition object. (side note: the _treeChanges accessor is private
* in the Transition class, so we must also provide the Transition's _treeChanges)
*
*/
var HookBuilder = (function () {
function HookBuilder($transitions, transition, baseHookOptions) {
var _this = this;
this.$transitions = $transitions;
this.transition = transition;
this.baseHookOptions = baseHookOptions;
// TODO: These get* methods are returning different cardinalities of hooks
// onBefore/onStart/onFinish/onSuccess/onError returns an array of hooks
// onExit/onRetain/onEnter returns an array of arrays of hooks
this.getOnBeforeHooks = function () { return _this._buildNodeHooks("onBefore", "to", tupleSort(), undefined, { async: false }); };
this.getOnStartHooks = function () { return _this._buildNodeHooks("onStart", "to", tupleSort()); };
this.getOnExitHooks = function () { return _this._buildNodeHooks("onExit", "exiting", tupleSort(true), function (node) { return ({ $state$: node.state }); }); };
this.getOnRetainHooks = function () { return _this._buildNodeHooks("onRetain", "retained", tupleSort(), function (node) { return ({ $state$: node.state }); }); };
this.getOnEnterHooks = function () { return _this._buildNodeHooks("onEnter", "entering", tupleSort(), function (node) { return ({ $state$: node.state }); }); };
this.getOnFinishHooks = function () { return _this._buildNodeHooks("onFinish", "to", tupleSort(), function (node) { return ({ $treeChanges$: _this.treeChanges }); }); };
this.getOnSuccessHooks = function () { return _this._buildNodeHooks("onSuccess", "to", tupleSort(), undefined, { async: false, rejectIfSuperseded: false }); };
this.getOnErrorHooks = function () { return _this._buildNodeHooks("onError", "to", tupleSort(), undefined, { async: false, rejectIfSuperseded: false }); };
this.treeChanges = transition.treeChanges();
this.toState = common_1.tail(this.treeChanges.to).state;
this.fromState = common_1.tail(this.treeChanges.from).state;
this.transitionOptions = transition.options();
}
HookBuilder.prototype.asyncHooks = function () {
var onStartHooks = this.getOnStartHooks();
var onExitHooks = this.getOnExitHooks();
var onRetainHooks = this.getOnRetainHooks();
var onEnterHooks = this.getOnEnterHooks();
var onFinishHooks = this.getOnFinishHooks();
var asyncHooks = [onStartHooks, onExitHooks, onRetainHooks, onEnterHooks, onFinishHooks];
return asyncHooks.reduce(common_1.unnestR, []).filter(common_1.identity);
};
/**
* Returns an array of newly built TransitionHook objects.
*
* - Finds all IEventHooks registered for the given `hookType` which matched the transition's [[TreeChanges]].
* - Finds [[Node]] (or `Node[]`) to use as the TransitionHook context(s)
* - For each of the [[Node]]s, creates a TransitionHook
*
* @param hookType the name of the hook registration function, e.g., 'onEnter', 'onFinish'.
* @param matchingNodesProp selects which [[Node]]s from the [[IMatchingNodes]] object to create hooks for.
* @param getLocals a function which accepts a [[Node]] and returns additional locals to provide to the hook as injectables
* @param sortHooksFn a function which compares two HookTuple and returns <1, 0, or >1
* @param options any specific Transition Hook Options
*/
HookBuilder.prototype._buildNodeHooks = function (hookType, matchingNodesProp, sortHooksFn, getLocals, options) {
var _this = this;
if (getLocals === void 0) { getLocals = function (node) { return ({}); }; }
// Find all the matching registered hooks for a given hook type
var matchingHooks = this._matchingHooks(hookType, this.treeChanges);
if (!matchingHooks)
return [];
var makeTransitionHooks = function (hook) {
// Fetch the Nodes that caused this hook to match.
var matches = hook.matches(_this.treeChanges);
// Select the Node[] that will be used as TransitionHook context objects
var nodes = matches[matchingNodesProp];
// Return an array of HookTuples
return nodes.map(function (node) {
var _options = common_1.extend({ bind: hook.bind, traceData: { hookType: hookType, context: node } }, _this.baseHookOptions, options);
var transitionHook = new module_1.TransitionHook(hook.callback, getLocals(node), node.resolveContext, _options);
return { hook: hook, node: node, transitionHook: transitionHook };
});
};
return matchingHooks.map(makeTransitionHooks)
.reduce(common_1.unnestR, [])
.sort(sortHooksFn)
.map(function (tuple) { return tuple.transitionHook; });
};
/**
* Finds all IEventHooks from:
* - The Transition object instance hook registry
* - The TransitionService ($transitions) global hook registry
*
* which matched:
* - the eventType
* - the matchCriteria (to, from, exiting, retained, entering)
*
* @returns an array of matched [[IEventHook]]s
*/
HookBuilder.prototype._matchingHooks = function (hookName, treeChanges) {
return [this.transition, this.$transitions] // Instance and Global hook registries
.map(function (reg) { return reg.getHooks(hookName); }) // Get named hooks from registries
.filter(common_1.assertPredicate(predicates_1.isArray, "broken event named: " + hookName)) // Sanity check
.reduce(common_1.unnestR, []) // Un-nest IEventHook[][] to IEventHook[] array
.filter(function (hook) { return hook.matches(treeChanges); }); // Only those satisfying matchCriteria
};
return HookBuilder;
}());
exports.HookBuilder = HookBuilder;
/**
* A factory for a sort function for HookTuples.
*
* The sort function first compares the Node depth (how deep in the state tree a node is), then compares
* the EventHook priority.
*
* @param reverseDepthSort a boolean, when true, reverses the sort order for the node depth
* @returns a tuple sort function
*/
function tupleSort(reverseDepthSort) {
if (reverseDepthSort === void 0) { reverseDepthSort = false; }
return function nodeDepthThenPriority(l, r) {
var factor = reverseDepthSort ? -1 : 1;
var depthDelta = (l.node.state.path.length - r.node.state.path.length) * factor;
return depthDelta !== 0 ? depthDelta : r.hook.priority - l.hook.priority;
};
}
/***/ },
/* 15 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module transition */ /** for typedoc */
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var glob_1 = __webpack_require__(7);
/**
* Determines if the given state matches the matchCriteria
* @param state a State Object to test against
* @param criterion
* - If a string, matchState uses the string as a glob-matcher against the state name
* - If an array (of strings), matchState uses each string in the array as a glob-matchers against the state name
* and returns a positive match if any of the globs match.
* - If a function, matchState calls the function with the state and returns true if the function's result is truthy.
* @returns {boolean}
*/
function matchState(state, criterion) {
var toMatch = predicates_1.isString(criterion) ? [criterion] : criterion;
function matchGlobs(_state) {
var globStrings = toMatch;
for (var i = 0; i < globStrings.length; i++) {
var glob = glob_1.Glob.fromString(globStrings[i]);
if ((glob && glob.matches(_state.name)) || (!glob && globStrings[i] === _state.name)) {
return true;
}
}
return false;
}
var matchFn = (predicates_1.isFunction(toMatch) ? toMatch : matchGlobs);
return !!matchFn(state);
}
exports.matchState = matchState;
var EventHook = (function () {
function EventHook(matchCriteria, callback, options) {
if (options === void 0) { options = {}; }
this.callback = callback;
this.matchCriteria = common_1.extend({ to: true, from: true, exiting: true, retained: true, entering: true }, matchCriteria);
this.priority = options.priority || 0;
this.bind = options.bind || null;
}
EventHook._matchingNodes = function (nodes, criterion) {
if (criterion === true)
return nodes;
var matching = nodes.filter(function (node) { return matchState(node.state, criterion); });
return matching.length ? matching : null;
};
/**
* Determines if this hook's [[matchCriteria]] match the given [[TreeChanges]]
*
* @returns an IMatchingNodes object, or null. If an IMatchingNodes object is returned, its values
* are the matching [[Node]]s for each [[HookMatchCriterion]] (to, from, exiting, retained, entering)
*/
EventHook.prototype.matches = function (treeChanges) {
var mc = this.matchCriteria, _matchingNodes = EventHook._matchingNodes;
var matches = {
to: _matchingNodes([common_1.tail(treeChanges.to)], mc.to),
from: _matchingNodes([common_1.tail(treeChanges.from)], mc.from),
exiting: _matchingNodes(treeChanges.exiting, mc.exiting),
retained: _matchingNodes(treeChanges.retained, mc.retained),
entering: _matchingNodes(treeChanges.entering, mc.entering),
};
// Check if all the criteria matched the TreeChanges object
var allMatched = ["to", "from", "exiting", "retained", "entering"]
.map(function (prop) { return matches[prop]; })
.reduce(common_1.allTrueR, true);
return allMatched ? matches : null;
};
return EventHook;
}());
exports.EventHook = EventHook;
// Return a registration function of the requested type.
function makeHookRegistrationFn(hooks, name) {
return function (matchObject, callback, options) {
if (options === void 0) { options = {}; }
var eventHook = new EventHook(matchObject, callback, options);
hooks[name].push(eventHook);
return function deregisterEventHook() {
common_1.removeFrom(hooks[name])(eventHook);
};
};
}
var HookRegistry = (function () {
function HookRegistry() {
var _this = this;
this._transitionEvents = {
onBefore: [], onStart: [], onEnter: [], onRetain: [], onExit: [], onFinish: [], onSuccess: [], onError: []
};
this.getHooks = function (name) { return _this._transitionEvents[name]; };
this.onBefore = makeHookRegistrationFn(this._transitionEvents, "onBefore");
this.onStart = makeHookRegistrationFn(this._transitionEvents, "onStart");
/**
* @ngdoc function
* @name ui.router.state.$transitionsProvider#onEnter
* @methodOf ui.router.state.$transitionsProvider
*
* @description
* Registers a function to be injected and invoked during a transition between the matched 'to' and 'from' states,
* when the matched 'to' state is being entered. This function is injected with the entering state's resolves.
*
* This function can be injected with two additional special value:
* - **`$transition$`**: The current transition
* - **`$state$`**: The state being entered
*
* @param {object} matchObject See transitionCriteria in {@link ui.router.state.$transitionsProvider#on $transitionsProvider.on}.
* @param {function} callback See callback in {@link ui.router.state.$transitionsProvider#on $transitionsProvider.on}.
*/
this.onEnter = makeHookRegistrationFn(this._transitionEvents, "onEnter");
/**
* @ngdoc function
* @name ui.router.state.$transitionsProvider#onRetain
* @methodOf ui.router.state.$transitionsProvider
*
* @description
* Registers a function to be injected and invoked during a transition between the matched 'to' and 'from states,
* when the matched 'from' state is already active and is not being exited nor entered.
*
* This function can be injected with two additional special value:
* - **`$transition$`**: The current transition
* - **`$state$`**: The state that is retained
*
* @param {object} matchObject See transitionCriteria in {@link ui.router.state.$transitionsProvider#on $transitionsProvider.on}.
* @param {function} callback See callback in {@link ui.router.state.$transitionsProvider#on $transitionsProvider.on}.
*/
this.onRetain = makeHookRegistrationFn(this._transitionEvents, "onRetain");
/**
* @ngdoc function
* @name ui.router.state.$transitionsProvider#onExit
* @methodOf ui.router.state.$transitionsProvider
*
* @description
* Registers a function to be injected and invoked during a transition between the matched 'to' and 'from states,
* when the matched 'from' state is being exited. This function is in injected with the exiting state's resolves.
*
* This function can be injected with two additional special value:
* - **`$transition$`**: The current transition
* - **`$state$`**: The state being entered
*
* @param {object} matchObject See transitionCriteria in {@link ui.router.state.$transitionsProvider#on $transitionsProvider.on}.
* @param {function} callback See callback in {@link ui.router.state.$transitionsProvider#on $transitionsProvider.on}.
*/
this.onExit = makeHookRegistrationFn(this._transitionEvents, "onExit");
/**
* @ngdoc function
* @name ui.router.state.$transitionsProvider#onFinish
* @methodOf ui.router.state.$transitionsProvider
*
* @description
* Registers a function to be injected and invoked when a transition is finished entering/exiting all states.
*
* This function can be injected with:
* - **`$transition$`**: The current transition
*
* @param {object} matchObject See transitionCriteria in {@link ui.router.state.$transitionsProvider#on $transitionsProvider.on}.
* @param {function} callback See callback in {@link ui.router.state.$transitionsProvider#on $transitionsProvider.on}.
*/
this.onFinish = makeHookRegistrationFn(this._transitionEvents, "onFinish");
/**
* @ngdoc function
* @name ui.router.state.$transitionsProvider#onSuccess
* @methodOf ui.router.state.$transitionsProvider
*
* @description
* Registers a function to be injected and invoked when a transition has successfully completed between the matched
* 'to' and 'from' state is being exited.
* This function is in injected with the 'to' state's resolves (note: `JIT` resolves are not injected).
*
* This function can be injected with two additional special value:
* - **`$transition$`**: The current transition
*
* @param {object} matchObject See transitionCriteria in {@link ui.router.state.$transitionsProvider#on $transitionsProvider.on}.
* @param {function} callback The function which will be injected and invoked, when a matching transition is started.
* The function's return value is ignored.
*/
this.onSuccess = makeHookRegistrationFn(this._transitionEvents, "onSuccess");
/**
* @ngdoc function
* @name ui.router.state.$transitionsProvider#onError
* @methodOf ui.router.state.$transitionsProvider
*
* @description
* Registers a function to be injected and invoked when a transition has failed for any reason between the matched
* 'to' and 'from' state. The transition rejection reason is injected as `$error$`.
*
* @param {object} matchObject See transitionCriteria in {@link ui.router.state.$transitionsProvider#on $transitionsProvider.on}.
* @param {function} callback The function which will be injected and invoked, when a matching transition is started.
* The function's return value is ignored.
*/
this.onError = makeHookRegistrationFn(this._transitionEvents, "onError");
}
HookRegistry.mixin = function (source, target) {
Object.keys(source._transitionEvents).concat(["getHooks"]).forEach(function (key) { return target[key] = source[key]; });
};
return HookRegistry;
}());
exports.HookRegistry = HookRegistry;
/***/ },
/* 16 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
var common_1 = __webpack_require__(3);
var strings_1 = __webpack_require__(9);
var predicates_1 = __webpack_require__(4);
var hof_1 = __webpack_require__(5);
var trace_1 = __webpack_require__(12);
var coreservices_1 = __webpack_require__(6);
var rejectFactory_1 = __webpack_require__(10);
var module_1 = __webpack_require__(17);
var REJECT = new rejectFactory_1.RejectFactory();
var defaultOptions = {
async: true,
rejectIfSuperseded: true,
current: common_1.noop,
transition: null,
traceData: {},
bind: null
};
var TransitionHook = (function () {
function TransitionHook(fn, locals, resolveContext, options) {
var _this = this;
this.fn = fn;
this.locals = locals;
this.resolveContext = resolveContext;
this.options = options;
this.isSuperseded = function () { return _this.options.current() !== _this.options.transition; };
/**
* Handles transition abort and transition redirect. Also adds any returned resolvables
* to the pathContext for the current pathElement. If the transition is rejected, then a rejected
* promise is returned here, otherwise undefined is returned.
*/
this.mapHookResult = hof_1.pattern([
// Transition is no longer current
[this.isSuperseded, function () { return REJECT.superseded(_this.options.current()); }],
// If the hook returns false, abort the current Transition
[hof_1.eq(false), function () { return REJECT.aborted("Hook aborted transition"); }],
// If the hook returns a Transition, halt the current Transition and redirect to that Transition.
[hof_1.is(module_1.TargetState), function (target) { return REJECT.redirected(target); }],
// A promise was returned, wait for the promise and then chain another hookHandler
[predicates_1.isPromise, function (promise) { return promise.then(_this.handleHookResult.bind(_this)); }]
]);
this.invokeStep = function (moreLocals) {
var _a = _this, options = _a.options, fn = _a.fn, resolveContext = _a.resolveContext;
var locals = common_1.extend({}, _this.locals, moreLocals);
trace_1.trace.traceHookInvocation(_this, options);
if (options.rejectIfSuperseded && _this.isSuperseded()) {
return REJECT.superseded(options.current());
}
// TODO: Need better integration of returned promises in synchronous code.
if (!options.async) {
var hookResult = resolveContext.invokeNow(fn, locals, options);
return _this.handleHookResult(hookResult);
}
return resolveContext.invokeLater(fn, locals, options).then(_this.handleHookResult.bind(_this));
};
this.options = common_1.defaults(options, defaultOptions);
}
TransitionHook.prototype.handleHookResult = function (hookResult) {
if (!predicates_1.isDefined(hookResult))
return undefined;
trace_1.trace.traceHookResult(hookResult, undefined, this.options);
var transitionResult = this.mapHookResult(hookResult);
if (transitionResult)
trace_1.trace.traceHookResult(hookResult, transitionResult, this.options);
return transitionResult;
};
TransitionHook.prototype.toString = function () {
var _a = this, options = _a.options, fn = _a.fn;
var event = hof_1.parse("traceData.hookType")(options) || "internal", context = hof_1.parse("traceData.context.state.name")(options) || hof_1.parse("traceData.context")(options) || "unknown", name = strings_1.fnToString(fn);
return event + " context: " + context + ", " + strings_1.maxLength(200, name);
};
/**
* Given an array of TransitionHooks, runs each one synchronously and sequentially.
*
* Returns a promise chain composed of any promises returned from each hook.invokeStep() call
*/
TransitionHook.runSynchronousHooks = function (hooks, locals, swallowExceptions) {
if (locals === void 0) { locals = {}; }
if (swallowExceptions === void 0) { swallowExceptions = false; }
var results = [];
for (var i = 0; i < hooks.length; i++) {
try {
results.push(hooks[i].invokeStep(locals));
}
catch (exception) {
if (!swallowExceptions)
return REJECT.aborted(exception);
console.log("Swallowed exception during synchronous hook handler: " + exception); // TODO: What to do here?
}
}
var rejections = results.filter(TransitionHook.isRejection);
if (rejections.length)
return rejections[0];
return results
.filter(hof_1.not(TransitionHook.isRejection))
.filter(predicates_1.isPromise)
.reduce(function (chain, promise) { return chain.then(hof_1.val(promise)); }, coreservices_1.services.$q.when());
};
TransitionHook.isRejection = function (hookResult) {
return hookResult && hookResult.reason instanceof rejectFactory_1.TransitionRejection && hookResult;
};
return TransitionHook;
}());
exports.TransitionHook = TransitionHook;
/***/ },
/* 17 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
function __export(m) {
for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p];
}
/** @module state */ /** for typedoc */
__export(__webpack_require__(18));
__export(__webpack_require__(19));
__export(__webpack_require__(26));
__export(__webpack_require__(33));
__export(__webpack_require__(34));
__export(__webpack_require__(35));
__export(__webpack_require__(36));
__export(__webpack_require__(37));
__export(__webpack_require__(27));
/***/ },
/* 18 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module state */ /** for typedoc */
var predicates_1 = __webpack_require__(4);
var common_1 = __webpack_require__(3);
/**
* @ngdoc object
* @name ui.router.state.$stateProvider
*
* @requires ui.router.router.$urlRouterProvider
* @requires ui.router.util.$urlMatcherFactoryProvider
*
* @description
* The new `$stateProvider` works similar to Angular's v1 router, but it focuses purely
* on state.
*
* A state corresponds to a "place" in the application in terms of the overall UI and
* navigation. A state describes (via the controller / template / view properties) what
* the UI looks like and does at that place.
*
* States often have things in common, and the primary way of factoring out these
* commonalities in this model is via the state hierarchy, i.e. parent/child states aka
* nested states.
*
* The `$stateProvider` provides interfaces to declare these states for your app.
*/
var StateProvider = (function () {
function StateProvider(stateRegistry) {
this.stateRegistry = stateRegistry;
this.invalidCallbacks = [];
common_1.bindFunctions(StateProvider.prototype, this, this);
}
/**
* @ngdoc function
* @name ui.router.state.$stateProvider#decorator
* @methodOf ui.router.state.$stateProvider
*
* @description
* Allows you to extend (carefully) or override (at your own peril) the
* `stateBuilder` object used internally by `$stateProvider`. This can be used
* to add custom functionality to ui-router, for example inferring templateUrl
* based on the state name.
*
* When passing only a name, it returns the current (original or decorated) builder
* function that matches `name`.
*
* The builder functions that can be decorated are listed below. Though not all
* necessarily have a good use case for decoration, that is up to you to decide.
*
* In addition, users can attach custom decorators, which will generate new
* properties within the state's internal definition. There is currently no clear
* use-case for this beyond accessing internal states (i.e. $state.$current),
* however, expect this to become increasingly relevant as we introduce additional
* meta-programming features.
*
* **Warning**: Decorators should not be interdependent because the order of
* execution of the builder functions in non-deterministic. Builder functions
* should only be dependent on the state definition object and super function.
*
*
* Existing builder functions and current return values:
*
* - **parent** `{object}` - returns the parent state object.
* - **data** `{object}` - returns state data, including any inherited data that is not
* overridden by own values (if any).
* - **url** `{object}` - returns a {@link ui.router.util.type:UrlMatcher UrlMatcher}
* or `null`.
* - **navigable** `{object}` - returns closest ancestor state that has a URL (aka is
* navigable).
* - **params** `{object}` - returns an array of state params that are ensured to
* be a super-set of parent's params.
* - **views** `{object}` - returns a views object where each key is an absolute view
* name (i.e. "viewName@stateName") and each value is the config object
* (template, controller) for the view. Even when you don't use the views object
* explicitly on a state config, one is still created for you internally.
* So by decorating this builder function you have access to decorating template
* and controller properties.
* - **ownParams** `{object}` - returns an array of params that belong to the state,
* not including any params defined by ancestor states.
* - **path** `{string}` - returns the full path from the root down to this state.
* Needed for state activation.
* - **includes** `{object}` - returns an object that includes every state that
* would pass a `$state.includes()` test.
*
* @example
* <pre>
* // Override the internal 'views' builder with a function that takes the state
* // definition, and a reference to the internal function being overridden:
* $stateProvider.decorator('views', function (state, parent) {
* let result = {},
* views = parent(state);
*
* angular.forEach(views, function (config, name) {
* let autoName = (state.name + '.' + name).replace('.', '/');
* config.templateUrl = config.templateUrl || '/partials/' + autoName + '.html';
* result[name] = config;
* });
* return result;
* });
*
* $stateProvider.state('home', {
* views: {
* 'contact.list': { controller: 'ListController' },
* 'contact.item': { controller: 'ItemController' }
* }
* });
*
* // ...
*
* $state.go('home');
* // Auto-populates list and item views with /partials/home/contact/list.html,
* // and /partials/home/contact/item.html, respectively.
* </pre>
*
* @param {string} name The name of the builder function to decorate.
* @param {object} func A function that is responsible for decorating the original
* builder function. The function receives two parameters:
*
* - `{object}` - state - The state config object.
* - `{object}` - super - The original builder function.
*
* @return {object} $stateProvider - $stateProvider instance
*/
StateProvider.prototype.decorator = function (name, func) {
return this.stateRegistry.decorator(name, func) || this;
};
/**
* @ngdoc function
* @name ui.router.state.$stateProvider#state
* @methodOf ui.router.state.$stateProvider
*
* @description
* Registers a state configuration under a given state name. The stateConfig object
* has the following acceptable properties.
*
* <a id='template'></a>
*
* - **`template`** - {string|function=} - html template as a string or a function that returns
* an html template as a string which should be used by the uiView directives. This property
* takes precedence over templateUrl.
*
* If `template` is a function, it will be called with the following parameters:
*
* - {array.&lt;object&gt;} - state parameters extracted from the current $location.path() by
* applying the current state
*
* <a id='templateUrl'></a>
*
* - **`templateUrl`** - {string|function=} - path or function that returns a path to an html
* template that should be used by uiView.
*
* If `templateUrl` is a function, it will be called with the following parameters:
*
* - {array.&lt;object&gt;} - state parameters extracted from the current $location.path() by
* applying the current state
*
* <a id='templateProvider'></a>
*
* - **`templateProvider`** - {function=} - Provider function that returns HTML content
* string.
*
* <a id='controller'></a>
*
* - **`controller`** - {string|function=} - Controller fn that should be associated with newly
* related scope or the name of a registered controller if passed as a string.
*
* <a id='controllerProvider'></a>
*
* - **`controllerProvider`** - {function=} - Injectable provider function that returns
* the actual controller or string.
*
* <a id='controllerAs'></a>
*
* - **`controllerAs`** {string=} A controller alias name. If present the controller will be
* published to scope under the controllerAs name.
*
* <a id='resolve'></a>
*
* - **`resolve`** - {object.&lt;string, function&gt;=} - An optional map of dependencies which
* should be injected into the controller. If any of these dependencies are promises,
* the router will wait for them all to be resolved or one to be rejected before the
* controller is instantiated. If all the promises are resolved successfully, the values
* of the resolved promises are injected and $stateChangeSuccess event is fired. If any
* of the promises are rejected the $stateChangeError event is fired. The map object is:
*
* - key - {string}: name of dependency to be injected into controller
* - factory - {string|function}: If string then it is alias for service. Otherwise if function,
* it is injected and return value it treated as dependency. If result is a promise, it is
* resolved before its value is injected into controller.
*
* <a id='url'></a>
*
* - **`url`** - {string=} - A url with optional parameters. When a state is navigated or
* transitioned to, the `$stateParams` service will be populated with any
* parameters that were passed.
*
* <a id='params'></a>
*
* - **`params`** - {object=} - An array of parameter names or regular expressions. Only
* use this within a state if you are not using url. Otherwise you can specify your
* parameters within the url. When a state is navigated or transitioned to, the
* $stateParams service will be populated with any parameters that were passed.
*
* <a id='views'></a>
*
* - **`views`** - {object=} - Use the views property to set up multiple views or to target views
* manually/explicitly.
*
* <a id='abstract'></a>
*
* - **`abstract`** - {boolean=} - An abstract state will never be directly activated,
* but can provide inherited properties to its common children states.
*
* <a id='onEnter'></a>
*
* - **`onEnter`** - {object=} - Callback function for when a state is entered. Good way
* to trigger an action or dispatch an event, such as opening a dialog.
* If minifying your scripts, make sure to use the `['injection1', 'injection2', function(injection1, injection2){}]` syntax.
*
* <a id='onExit'></a>
*
* - **`onExit`** - {object=} - Callback function for when a state is exited. Good way to
* trigger an action or dispatch an event, such as opening a dialog.
* If minifying your scripts, make sure to use the `['injection1', 'injection2', function(injection1, injection2){}]` syntax.
*
* <a id='reloadOnSearch'></a>
*
* - **`reloadOnSearch = true`** - {boolean=} - If `false`, will not retrigger the same state
* just because a search/query parameter has changed (via $location.search() or $location.hash()).
* Useful for when you'd like to modify $location.search() without triggering a reload.
*
* <a id='data'></a>
*
* - **`data`** - {object=} - Arbitrary data object, useful for custom configuration.
*
* @example
* <pre>
* // Some state name examples
*
* // stateName can be a single top-level name (must be unique).
* $stateProvider.state("home", {});
*
* // Or it can be a nested state name. This state is a child of the
* // above "home" state.
* $stateProvider.state("home.newest", {});
*
* // Nest states as deeply as needed.
* $stateProvider.state("home.newest.abc.xyz.inception", {});
*
* // state() returns $stateProvider, so you can chain state declarations.
* $stateProvider
* .state("home", {})
* .state("about", {})
* .state("contacts", {});
* </pre>
*
* @param {string} name A unique state name, e.g. "home", "about", "contacts".
* To create a parent/child state use a dot, e.g. "about.sales", "home.newest".
* @param {object} definition State configuration object.
*/
StateProvider.prototype.state = function (name, definition) {
if (predicates_1.isObject(name)) {
definition = name;
}
else {
definition.name = name;
}
this.stateRegistry.register(definition);
return this;
};
/**
* @ngdoc function
* @name ui.router.state.$stateProvider#onInvalid
* @methodOf ui.router.state.$stateProvider
*
* @description
* Registers a function to be injected and invoked when transitionTo has been called with an invalid
* state reference parameter
*
* This function can be injected with one some special values:
* - **`$to$`**: TargetState
* - **`$from$`**: TargetState
*
* @param {function} callback
* The function which will be injected and invoked, when a matching transition is started.
* The function may optionally return a {TargetState} or a Promise for a TargetState. If one
* is returned, it is treated as a redirect.
*/
StateProvider.prototype.onInvalid = function (callback) {
this.invalidCallbacks.push(callback);
};
return StateProvider;
}());
exports.StateProvider = StateProvider;
/***/ },
/* 19 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module state */ /** for typedoc */
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var hof_1 = __webpack_require__(5);
var module_1 = __webpack_require__(20);
var parseUrl = function (url) {
if (!predicates_1.isString(url))
return false;
var root = url.charAt(0) === '^';
return { val: root ? url.substring(1) : url, root: root };
};
/**
* @internalapi A internal global service
*
* StateBuilder is a factory for the internal [[State]] objects.
*
* When you register a state with the [[StateRegistry]], you register a plain old javascript object which
* conforms to the [[StateDeclaration]] interface. This factory takes that object and builds the corresponding
* [[State]] object, which has an API and is used internally.
*
* Custom properties or API may be added to the internal [[State]] object by registering a decorator function
* using the [[builder]] method.
*/
var StateBuilder = (function () {
function StateBuilder(matcher, $urlMatcherFactoryProvider) {
this.matcher = matcher;
var self = this;
var isRoot = function (state) { return state.name === ""; };
var root = function () { return matcher.find(""); };
this.builders = {
self: [function (state) {
state.self.$$state = function () { return state; };
return state.self;
}],
parent: [function (state) {
if (isRoot(state))
return null;
return matcher.find(self.parentName(state)) || root();
}],
data: [function (state) {
if (state.parent && state.parent.data) {
state.data = state.self.data = common_1.inherit(state.parent.data, state.data);
}
return state.data;
}],
// Build a URLMatcher if necessary, either via a relative or absolute URL
url: [function (state) {
var stateDec = state;
var parsed = parseUrl(stateDec.url), parent = state.parent;
var url = !parsed ? stateDec.url : $urlMatcherFactoryProvider.compile(parsed.val, {
params: state.params || {},
paramMap: function (paramConfig, isSearch) {
if (stateDec.reloadOnSearch === false && isSearch)
paramConfig = common_1.extend(paramConfig || {}, { dynamic: true });
return paramConfig;
}
});
if (!url)
return null;
if (!$urlMatcherFactoryProvider.isMatcher(url))
throw new Error("Invalid url '" + url + "' in state '" + state + "'");
return (parsed && parsed.root) ? url : ((parent && parent.navigable) || root()).url.append(url);
}],
// Keep track of the closest ancestor state that has a URL (i.e. is navigable)
navigable: [function (state) {
return !isRoot(state) && state.url ? state : (state.parent ? state.parent.navigable : null);
}],
params: [function (state) {
var makeConfigParam = function (config, id) { return module_1.Param.fromConfig(id, null, config); };
var urlParams = (state.url && state.url.parameters({ inherit: false })) || [];
var nonUrlParams = common_1.values(common_1.map(common_1.omit(state.params || {}, urlParams.map(hof_1.prop('id'))), makeConfigParam));
return urlParams.concat(nonUrlParams).map(function (p) { return [p.id, p]; }).reduce(common_1.applyPairs, {});
}],
// Each framework-specific ui-router implementation should define its own `views` builder
// e.g., src/ng1/viewsBuilder.ts
views: [],
// Keep a full path from the root down to this state as this is needed for state activation.
path: [function (state) {
return state.parent ? state.parent.path.concat(state) : [state];
}],
// Speed up $state.includes() as it's used a lot
includes: [function (state) {
var includes = state.parent ? common_1.extend({}, state.parent.includes) : {};
includes[state.name] = true;
return includes;
}]
};
}
/**
* Registers a [[BuilderFunction]] for a specific [[State]] property (e.g., `parent`, `url`, or `path`).
* More than one BuilderFunction can be registered for a given property.
*
* The BuilderFunction(s) will be used to define the property on any subsequently built [[State]] objects.
*
* @param name The name of the State property being registered for.
* @param fn The BuilderFunction which will be used to build the State property
* @returns a function which deregisters the BuilderFunction
*/
StateBuilder.prototype.builder = function (name, fn) {
var builders = this.builders;
var array = builders[name] || [];
// Backwards compat: if only one builder exists, return it, else return whole arary.
if (predicates_1.isString(name) && !predicates_1.isDefined(fn))
return array.length > 1 ? array : array[0];
if (!predicates_1.isString(name) || !predicates_1.isFunction(fn))
return;
builders[name] = array;
builders[name].push(fn);
return function () { return builders[name].splice(builders[name].indexOf(fn, 1)) && null; };
};
/**
* Builds all of the properties on an essentially blank State object, returning a State object which has all its
* properties and API built.
*
* @param state an uninitialized State object
* @returns the built State object
*/
StateBuilder.prototype.build = function (state) {
var _a = this, matcher = _a.matcher, builders = _a.builders;
var parent = this.parentName(state);
if (parent && !matcher.find(parent))
return null;
for (var key in builders) {
if (!builders.hasOwnProperty(key))
continue;
var chain = builders[key].reduce(function (parentFn, step) { return function (_state) { return step(_state, parentFn); }; }, common_1.noop);
state[key] = chain(state);
}
return state;
};
StateBuilder.prototype.parentName = function (state) {
var name = state.name || "";
if (name.indexOf('.') !== -1)
return name.substring(0, name.lastIndexOf('.'));
if (!state.parent)
return "";
return predicates_1.isString(state.parent) ? state.parent : state.parent.name;
};
StateBuilder.prototype.name = function (state) {
var name = state.name;
if (name.indexOf('.') !== -1 || !state.parent)
return name;
var parentName = predicates_1.isString(state.parent) ? state.parent : state.parent.name;
return parentName ? parentName + "." + name : name;
};
return StateBuilder;
}());
exports.StateBuilder = StateBuilder;
/***/ },
/* 20 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
function __export(m) {
for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p];
}
/**
* This module contains code for State Parameters.
*
* See [[ParamDeclaration]]
* @module params
* @preferred doc
*/
/** for typedoc */
__export(__webpack_require__(21));
__export(__webpack_require__(24));
__export(__webpack_require__(25));
__export(__webpack_require__(23));
/***/ },
/* 21 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module params */ /** for typedoc */
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
var predicates_1 = __webpack_require__(4);
var coreservices_1 = __webpack_require__(6);
var urlMatcherConfig_1 = __webpack_require__(22);
var type_1 = __webpack_require__(23);
var paramTypes_1 = __webpack_require__(24);
var hasOwn = Object.prototype.hasOwnProperty;
var isShorthand = function (cfg) { return ["value", "type", "squash", "array", "dynamic"].filter(hasOwn.bind(cfg || {})).length === 0; };
(function (DefType) {
DefType[DefType["PATH"] = 0] = "PATH";
DefType[DefType["SEARCH"] = 1] = "SEARCH";
DefType[DefType["CONFIG"] = 2] = "CONFIG";
})(exports.DefType || (exports.DefType = {}));
var DefType = exports.DefType;
function unwrapShorthand(cfg) {
cfg = isShorthand(cfg) && { value: cfg } || cfg;
return common_1.extend(cfg, {
$$fn: predicates_1.isInjectable(cfg.value) ? cfg.value : function () { return cfg.value; }
});
}
function getType(cfg, urlType, location, id) {
if (cfg.type && urlType && urlType.name !== 'string')
throw new Error("Param '" + id + "' has two type configurations.");
if (cfg.type && urlType && urlType.name === 'string' && paramTypes_1.paramTypes.type(cfg.type))
return paramTypes_1.paramTypes.type(cfg.type);
if (urlType)
return urlType;
if (!cfg.type)
return (location === DefType.CONFIG ? paramTypes_1.paramTypes.type("any") : paramTypes_1.paramTypes.type("string"));
return cfg.type instanceof type_1.Type ? cfg.type : paramTypes_1.paramTypes.type(cfg.type);
}
/**
* returns false, true, or the squash value to indicate the "default parameter url squash policy".
*/
function getSquashPolicy(config, isOptional) {
var squash = config.squash;
if (!isOptional || squash === false)
return false;
if (!predicates_1.isDefined(squash) || squash == null)
return urlMatcherConfig_1.matcherConfig.defaultSquashPolicy();
if (squash === true || predicates_1.isString(squash))
return squash;
throw new Error("Invalid squash policy: '" + squash + "'. Valid policies: false, true, or arbitrary string");
}
function getReplace(config, arrayMode, isOptional, squash) {
var replace, configuredKeys, defaultPolicy = [
{ from: "", to: (isOptional || arrayMode ? undefined : "") },
{ from: null, to: (isOptional || arrayMode ? undefined : "") }
];
replace = predicates_1.isArray(config.replace) ? config.replace : [];
if (predicates_1.isString(squash))
replace.push({ from: squash, to: undefined });
configuredKeys = common_1.map(replace, hof_1.prop("from"));
return common_1.filter(defaultPolicy, function (item) { return configuredKeys.indexOf(item.from) === -1; }).concat(replace);
}
var Param = (function () {
function Param(id, type, config, location) {
config = unwrapShorthand(config);
type = getType(config, type, location, id);
var arrayMode = getArrayMode();
type = arrayMode ? type.$asArray(arrayMode, location === DefType.SEARCH) : type;
var isOptional = config.value !== undefined;
var dynamic = config.dynamic === true;
var squash = getSquashPolicy(config, isOptional);
var replace = getReplace(config, arrayMode, isOptional, squash);
// array config: param name (param[]) overrides default settings. explicit config overrides param name.
function getArrayMode() {
var arrayDefaults = { array: (location === DefType.SEARCH ? "auto" : false) };
var arrayParamNomenclature = id.match(/\[\]$/) ? { array: true } : {};
return common_1.extend(arrayDefaults, arrayParamNomenclature, config).array;
}
common_1.extend(this, { id: id, type: type, location: location, squash: squash, replace: replace, isOptional: isOptional, dynamic: dynamic, config: config, array: arrayMode });
}
Param.prototype.isDefaultValue = function (value) {
return this.isOptional && this.type.equals(this.value(), value);
};
/**
* [Internal] Gets the decoded representation of a value if the value is defined, otherwise, returns the
* default value, which may be the result of an injectable function.
*/
Param.prototype.value = function (value) {
var _this = this;
/**
* [Internal] Get the default value of a parameter, which may be an injectable function.
*/
var $$getDefaultValue = function () {
if (!coreservices_1.services.$injector)
throw new Error("Injectable functions cannot be called at configuration time");
var defaultValue = coreservices_1.services.$injector.invoke(_this.config.$$fn);
if (defaultValue !== null && defaultValue !== undefined && !_this.type.is(defaultValue))
throw new Error("Default value (" + defaultValue + ") for parameter '" + _this.id + "' is not an instance of Type (" + _this.type.name + ")");
return defaultValue;
};
var $replace = function (val) {
var replacement = common_1.map(common_1.filter(_this.replace, hof_1.propEq('from', val)), hof_1.prop("to"));
return replacement.length ? replacement[0] : val;
};
value = $replace(value);
return !predicates_1.isDefined(value) ? $$getDefaultValue() : this.type.$normalize(value);
};
Param.prototype.isSearch = function () {
return this.location === DefType.SEARCH;
};
Param.prototype.validates = function (value) {
// There was no parameter value, but the param is optional
if ((!predicates_1.isDefined(value) || value === null) && this.isOptional)
return true;
// The value was not of the correct Type, and could not be decoded to the correct Type
var normalized = this.type.$normalize(value);
if (!this.type.is(normalized))
return false;
// The value was of the correct type, but when encoded, did not match the Type's regexp
var encoded = this.type.encode(normalized);
return !(predicates_1.isString(encoded) && !this.type.pattern.exec(encoded));
};
Param.prototype.toString = function () {
return "{Param:" + this.id + " " + this.type + " squash: '" + this.squash + "' optional: " + this.isOptional + "}";
};
/** Creates a new [[Param]] from a CONFIG block */
Param.fromConfig = function (id, type, config) {
return new Param(id, type, config, DefType.CONFIG);
};
/** Creates a new [[Param]] from a url PATH */
Param.fromPath = function (id, type, config) {
return new Param(id, type, config, DefType.PATH);
};
/** Creates a new [[Param]] from a url SEARCH */
Param.fromSearch = function (id, type, config) {
return new Param(id, type, config, DefType.SEARCH);
};
Param.values = function (params, values) {
if (values === void 0) { values = {}; }
return params.map(function (param) { return [param.id, param.value(values[param.id])]; }).reduce(common_1.applyPairs, {});
};
/**
* Finds [[Param]] objects which have different param values
*
* Filters a list of [[Param]] objects to only those whose parameter values differ in two param value objects
*
* @param params: The list of Param objects to filter
* @param values1: The first set of parameter values
* @param values2: the second set of parameter values
*
* @returns any Param objects whose values were different between values1 and values2
*/
Param.changed = function (params, values1, values2) {
if (values1 === void 0) { values1 = {}; }
if (values2 === void 0) { values2 = {}; }
return params.filter(function (param) { return !param.type.equals(values1[param.id], values2[param.id]); });
};
/**
* Checks if two param value objects are equal (for a set of [[Param]] objects)
*
* @param params The list of [[Param]] objects to check
* @param values1 The first set of param values
* @param values2 The second set of param values
*
* @returns true if the param values in values1 and values2 are equal
*/
Param.equals = function (params, values1, values2) {
if (values1 === void 0) { values1 = {}; }
if (values2 === void 0) { values2 = {}; }
return Param.changed(params, values1, values2).length === 0;
};
/** Returns true if a the parameter values are valid, according to the Param definitions */
Param.validates = function (params, values) {
if (values === void 0) { values = {}; }
return params.map(function (param) { return param.validates(values[param.id]); }).reduce(common_1.allTrueR, true);
};
return Param;
}());
exports.Param = Param;
/***/ },
/* 22 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module url */ /** for typedoc */
var predicates_1 = __webpack_require__(4);
var MatcherConfig = (function () {
function MatcherConfig() {
this._isCaseInsensitive = false;
this._isStrictMode = true;
this._defaultSquashPolicy = false;
}
MatcherConfig.prototype.caseInsensitive = function (value) {
return this._isCaseInsensitive = predicates_1.isDefined(value) ? value : this._isCaseInsensitive;
};
MatcherConfig.prototype.strictMode = function (value) {
return this._isStrictMode = predicates_1.isDefined(value) ? value : this._isStrictMode;
};
MatcherConfig.prototype.defaultSquashPolicy = function (value) {
if (predicates_1.isDefined(value) && value !== true && value !== false && !predicates_1.isString(value))
throw new Error("Invalid squash policy: " + value + ". Valid policies: false, true, arbitrary-string");
return this._defaultSquashPolicy = predicates_1.isDefined(value) ? value : this._defaultSquashPolicy;
};
return MatcherConfig;
}());
exports.MatcherConfig = MatcherConfig;
// TODO: Do not export global instance; create one in UIRouter() constructor
exports.matcherConfig = new MatcherConfig();
/***/ },
/* 23 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module params */ /** for typedoc */
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
/**
* Wraps up a `Type` object to handle array values.
*/
function ArrayType(type, mode) {
var _this = this;
// Wrap non-array value as array
function arrayWrap(val) { return predicates_1.isArray(val) ? val : (predicates_1.isDefined(val) ? [val] : []); }
// Unwrap array value for "auto" mode. Return undefined for empty array.
function arrayUnwrap(val) {
switch (val.length) {
case 0: return undefined;
case 1: return mode === "auto" ? val[0] : val;
default: return val;
}
}
// Wraps type (.is/.encode/.decode) functions to operate on each value of an array
function arrayHandler(callback, allTruthyMode) {
return function handleArray(val) {
if (predicates_1.isArray(val) && val.length === 0)
return val;
var arr = arrayWrap(val);
var result = common_1.map(arr, callback);
return (allTruthyMode === true) ? common_1.filter(result, function (x) { return !x; }).length === 0 : arrayUnwrap(result);
};
}
// Wraps type (.equals) functions to operate on each value of an array
function arrayEqualsHandler(callback) {
return function handleArray(val1, val2) {
var left = arrayWrap(val1), right = arrayWrap(val2);
if (left.length !== right.length)
return false;
for (var i = 0; i < left.length; i++) {
if (!callback(left[i], right[i]))
return false;
}
return true;
};
}
['encode', 'decode', 'equals', '$normalize'].map(function (name) {
_this[name] = (name === 'equals' ? arrayEqualsHandler : arrayHandler)(type[name].bind(type));
});
common_1.extend(this, {
name: type.name,
pattern: type.pattern,
is: arrayHandler(type.is.bind(type), true),
$arrayMode: mode
});
}
/**
* Implements an interface to define custom parameter types that can be decoded from and encoded to
* string parameters matched in a URL. Used by [[UrlMatcher]]
* objects when matching or formatting URLs, or comparing or validating parameter values.
*
* See [[UrlMatcherFactory.type]] for more information on registering custom types.
*
* @example
* ```
*
* {
* decode: function(val) { return parseInt(val, 10); },
* encode: function(val) { return val && val.toString(); },
* equals: function(a, b) { return this.is(a) && a === b; },
* is: function(val) { return angular.isNumber(val) && isFinite(val) && val % 1 === 0; },
* pattern: /\d+/
* }
* ```
*/
var Type = (function () {
/**
* @param def A configuration object which contains the custom type definition. The object's
* properties will override the default methods and/or pattern in `Type`'s public interface.
* @returns a new Type object
*/
function Type(def) {
this.pattern = /.*/;
common_1.extend(this, def);
}
// consider these four methods to be "abstract methods" that should be overridden
/** @inheritdoc */
Type.prototype.is = function (val, key) { return true; };
/** @inheritdoc */
Type.prototype.encode = function (val, key) { return val; };
/** @inheritdoc */
Type.prototype.decode = function (val, key) { return val; };
/** @inheritdoc */
Type.prototype.equals = function (a, b) { return a == b; };
Type.prototype.$subPattern = function () {
var sub = this.pattern.toString();
return sub.substr(1, sub.length - 2);
};
Type.prototype.toString = function () {
return "{Type:" + this.name + "}";
};
/** Given an encoded string, or a decoded object, returns a decoded object */
Type.prototype.$normalize = function (val) {
return this.is(val) ? val : this.decode(val);
};
/**
* Wraps an existing custom Type as an array of Type, depending on 'mode'.
* e.g.:
* - urlmatcher pattern "/path?{queryParam[]:int}"
* - url: "/path?queryParam=1&queryParam=2
* - $stateParams.queryParam will be [1, 2]
* if `mode` is "auto", then
* - url: "/path?queryParam=1 will create $stateParams.queryParam: 1
* - url: "/path?queryParam=1&queryParam=2 will create $stateParams.queryParam: [1, 2]
*/
Type.prototype.$asArray = function (mode, isSearch) {
if (!mode)
return this;
if (mode === "auto" && !isSearch)
throw new Error("'auto' array mode is for query parameters only");
return new ArrayType(this, mode);
};
return Type;
}());
exports.Type = Type;
/***/ },
/* 24 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module params */ /** for typedoc */
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var hof_1 = __webpack_require__(5);
var coreservices_1 = __webpack_require__(6);
var type_1 = __webpack_require__(23);
// Use tildes to pre-encode slashes.
// If the slashes are simply URLEncoded, the browser can choose to pre-decode them,
// and bidirectional encoding/decoding fails.
// Tilde was chosen because it's not a RFC 3986 section 2.2 Reserved Character
function valToString(val) { return val != null ? val.toString().replace(/~/g, "~~").replace(/\//g, "~2F") : val; }
function valFromString(val) { return val != null ? val.toString().replace(/~2F/g, "/").replace(/~~/g, "~") : val; }
var ParamTypes = (function () {
function ParamTypes() {
this.enqueue = true;
this.typeQueue = [];
this.defaultTypes = {
"hash": {
encode: valToString,
decode: valFromString,
is: hof_1.is(String),
pattern: /.*/,
equals: hof_1.val(true)
},
"string": {
encode: valToString,
decode: valFromString,
is: hof_1.is(String),
pattern: /[^/]*/
},
"int": {
encode: valToString,
decode: function (val) { return parseInt(val, 10); },
is: function (val) { return predicates_1.isDefined(val) && this.decode(val.toString()) === val; },
pattern: /-?\d+/
},
"bool": {
encode: function (val) { return val && 1 || 0; },
decode: function (val) { return parseInt(val, 10) !== 0; },
is: hof_1.is(Boolean),
pattern: /0|1/
},
"date": {
encode: function (val) {
return !this.is(val) ? undefined : [
val.getFullYear(),
('0' + (val.getMonth() + 1)).slice(-2),
('0' + val.getDate()).slice(-2)
].join("-");
},
decode: function (val) {
if (this.is(val))
return val;
var match = this.capture.exec(val);
return match ? new Date(match[1], match[2] - 1, match[3]) : undefined;
},
is: function (val) { return val instanceof Date && !isNaN(val.valueOf()); },
equals: function (l, r) {
return ['getFullYear', 'getMonth', 'getDate']
.reduce(function (acc, fn) { return acc && l[fn]() === r[fn](); }, true);
},
pattern: /[0-9]{4}-(?:0[1-9]|1[0-2])-(?:0[1-9]|[1-2][0-9]|3[0-1])/,
capture: /([0-9]{4})-(0[1-9]|1[0-2])-(0[1-9]|[1-2][0-9]|3[0-1])/
},
"json": {
encode: common_1.toJson,
decode: common_1.fromJson,
is: hof_1.is(Object),
equals: common_1.equals,
pattern: /[^/]*/
},
"any": {
encode: common_1.identity,
decode: common_1.identity,
equals: common_1.equals,
pattern: /.*/
}
};
// Register default types. Store them in the prototype of this.types.
var makeType = function (definition, name) { return new type_1.Type(common_1.extend({ name: name }, definition)); };
this.types = common_1.inherit(common_1.map(this.defaultTypes, makeType), {});
}
ParamTypes.prototype.type = function (name, definition, definitionFn) {
if (!predicates_1.isDefined(definition))
return this.types[name];
if (this.types.hasOwnProperty(name))
throw new Error("A type named '" + name + "' has already been defined.");
this.types[name] = new type_1.Type(common_1.extend({ name: name }, definition));
if (definitionFn) {
this.typeQueue.push({ name: name, def: definitionFn });
if (!this.enqueue)
this._flushTypeQueue();
}
return this;
};
ParamTypes.prototype._flushTypeQueue = function () {
while (this.typeQueue.length) {
var type = this.typeQueue.shift();
if (type.pattern)
throw new Error("You cannot override a type's .pattern at runtime.");
common_1.extend(this.types[type.name], coreservices_1.services.$injector.invoke(type.def));
}
};
return ParamTypes;
}());
exports.ParamTypes = ParamTypes;
exports.paramTypes = new ParamTypes();
/***/ },
/* 25 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module params */ /** for typedoc */
var common_1 = __webpack_require__(3);
var StateParams = (function () {
function StateParams(params) {
if (params === void 0) { params = {}; }
common_1.extend(this, params);
}
/**
* Merges a set of parameters with all parameters inherited between the common parents of the
* current state and a given destination state.
*
* @param {Object} newParams The set of parameters which will be composited with inherited params.
* @param {Object} $current Internal definition of object representing the current state.
* @param {Object} $to Internal definition of object representing state to transition to.
*/
StateParams.prototype.$inherit = function (newParams, $current, $to) {
var parents = common_1.ancestors($current, $to), parentParams, inherited = {}, inheritList = [];
for (var i in parents) {
if (!parents[i] || !parents[i].params)
continue;
parentParams = Object.keys(parents[i].params);
if (!parentParams.length)
continue;
for (var j in parentParams) {
if (inheritList.indexOf(parentParams[j]) >= 0)
continue;
inheritList.push(parentParams[j]);
inherited[parentParams[j]] = this[parentParams[j]];
}
}
return common_1.extend({}, inherited, newParams);
};
;
return StateParams;
}());
exports.StateParams = StateParams;
/***/ },
/* 26 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module state */ /** for typedoc */
var hof_1 = __webpack_require__(5);
var param_1 = __webpack_require__(21);
var rejectFactory_1 = __webpack_require__(10);
var targetState_1 = __webpack_require__(27);
var viewHooks_1 = __webpack_require__(28);
var enterExitHooks_1 = __webpack_require__(29);
var resolveHooks_1 = __webpack_require__(30);
var coreservices_1 = __webpack_require__(6);
/**
* This class:
*
* * Takes a blank transition object and adds all the hooks necessary for it to behave like a state transition.
*
* * Runs the transition, returning a chained promise which:
* * transforms the resolved Transition.promise to the final destination state.
* * manages the rejected Transition.promise, checking for Dynamic or Redirected transitions
*
* * Registers a handler to update global $state data such as "active transitions" and "current state/params"
*
* * Registers view hooks, which maintain the list of active view configs and sync with/update the ui-views
*
* * Registers onEnter/onRetain/onExit hooks which delegate to the state's hooks of the same name, at the appropriate time
*
* * Registers eager and lazy resolve hooks
*/
var TransitionManager = (function () {
function TransitionManager(transition, $transitions, $urlRouter, $view, // service
$state, globals) {
this.transition = transition;
this.$transitions = $transitions;
this.$urlRouter = $urlRouter;
this.$view = $view;
this.$state = $state;
this.globals = globals;
this.$q = coreservices_1.services.$q;
this.viewHooks = new viewHooks_1.ViewHooks(transition, $view);
this.enterExitHooks = new enterExitHooks_1.EnterExitHooks(transition);
this.resolveHooks = new resolveHooks_1.ResolveHooks(transition);
this.treeChanges = transition.treeChanges();
this.registerUpdateGlobalState();
this.viewHooks.registerHooks();
this.enterExitHooks.registerHooks();
this.resolveHooks.registerHooks();
}
TransitionManager.prototype.runTransition = function () {
var _this = this;
this.globals.transitionHistory.enqueue(this.transition);
return this.transition.run()
.then(function (trans) { return trans.to(); }) // resolve to the final state (TODO: good? bad?)
.catch(function (error) { return _this.transRejected(error); }); // if rejected, handle dynamic and redirect
};
TransitionManager.prototype.registerUpdateGlobalState = function () {
// After globals.current is updated at priority: 10000
this.transition.onSuccess({}, this.updateUrl.bind(this), { priority: 9999 });
};
TransitionManager.prototype.transRejected = function (error) {
var _a = this, transition = _a.transition, $state = _a.$state, $q = _a.$q;
// Handle redirect and abort
if (error instanceof rejectFactory_1.TransitionRejection) {
if (error.type === rejectFactory_1.RejectType.IGNORED) {
// Update $stateParmas/$state.params/$location.url if transition ignored, but dynamic params have changed.
var dynamic = $state.$current.parameters().filter(hof_1.prop('dynamic'));
if (!param_1.Param.equals(dynamic, $state.params, transition.params())) {
this.updateUrl();
}
return $state.current;
}
if (error.type === rejectFactory_1.RejectType.SUPERSEDED && error.redirected && error.detail instanceof targetState_1.TargetState) {
return this._redirectMgr(transition.redirect(error.detail)).runTransition();
}
if (error.type === rejectFactory_1.RejectType.ABORTED) {
this.$urlRouter.update();
}
}
this.$transitions.defaultErrorHandler()(error);
return $q.reject(error);
};
TransitionManager.prototype.updateUrl = function () {
var transition = this.transition;
var _a = this, $urlRouter = _a.$urlRouter, $state = _a.$state;
var options = transition.options();
var toState = transition.$to();
if (options.location && $state.$current.navigable) {
$urlRouter.push($state.$current.navigable.url, $state.params, { replace: options.location === 'replace' });
}
$urlRouter.update(true);
};
TransitionManager.prototype._redirectMgr = function (redirect) {
var _a = this, $transitions = _a.$transitions, $urlRouter = _a.$urlRouter, $view = _a.$view, $state = _a.$state, globals = _a.globals;
return new TransitionManager(redirect, $transitions, $urlRouter, $view, $state, globals);
};
return TransitionManager;
}());
exports.TransitionManager = TransitionManager;
/***/ },
/* 27 */
/***/ function(module, exports) {
/** @module state */ /** for typedoc */
"use strict";
/**
* @ngdoc object
* @name ui.router.state.type:TargetState
*
* @description
* Encapsulate the desired target of a transition.
* Wraps an identifier for a state, a set of parameters, and transition options with the definition of the state.
*
* @param {StateOrName} _identifier An identifier for a state. Either a fully-qualified path, or the object
* used to define the state.
* @param {IState} _definition The `State` object definition.
* @param {ParamsOrArray} _params Parameters for the target state
* @param {TransitionOptions} _options Transition options.
*/
var TargetState = (function () {
function TargetState(_identifier, _definition, _params, _options) {
if (_params === void 0) { _params = {}; }
if (_options === void 0) { _options = {}; }
this._identifier = _identifier;
this._definition = _definition;
this._options = _options;
this._params = _params || {};
}
TargetState.prototype.name = function () {
return this._definition && this._definition.name || this._identifier;
};
TargetState.prototype.identifier = function () {
return this._identifier;
};
TargetState.prototype.params = function () {
return this._params;
};
TargetState.prototype.$state = function () {
return this._definition;
};
TargetState.prototype.state = function () {
return this._definition && this._definition.self;
};
TargetState.prototype.options = function () {
return this._options;
};
TargetState.prototype.exists = function () {
return !!(this._definition && this._definition.self);
};
TargetState.prototype.valid = function () {
return !this.error();
};
TargetState.prototype.error = function () {
var base = this.options().relative;
if (!this._definition && !!base) {
var stateName = base.name ? base.name : base;
return "Could not resolve '" + this.name() + "' from state '" + stateName + "'";
}
if (!this._definition)
return "No such state '" + this.name() + "'";
if (!this._definition.self)
return "State '" + this.name() + "' has an invalid definition";
};
return TargetState;
}());
exports.TargetState = TargetState;
/***/ },
/* 28 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module state */ /** for typedoc */
var common_1 = __webpack_require__(3);
var coreservices_1 = __webpack_require__(6);
var ViewHooks = (function () {
function ViewHooks(transition, $view) {
this.transition = transition;
this.$view = $view;
this.treeChanges = transition.treeChanges();
this.enteringViews = transition.views("entering");
this.exitingViews = transition.views("exiting");
}
ViewHooks.prototype.loadAllEnteringViews = function () {
return coreservices_1.services.$q.all(this.enteringViews.map(function (view) { return view.load(); })).then(common_1.noop);
};
ViewHooks.prototype.updateViews = function () {
var $view = this.$view;
this.exitingViews.forEach(function (viewConfig) { return $view.deactivateViewConfig(viewConfig); });
this.enteringViews.forEach(function (viewConfig) { return $view.activateViewConfig(viewConfig); });
$view.sync();
};
ViewHooks.prototype.registerHooks = function () {
if (this.enteringViews.length) {
this.transition.onStart({}, this.loadAllEnteringViews.bind(this));
}
if (this.exitingViews.length || this.enteringViews.length)
this.transition.onSuccess({}, this.updateViews.bind(this));
};
return ViewHooks;
}());
exports.ViewHooks = ViewHooks;
/***/ },
/* 29 */
/***/ function(module, exports) {
"use strict";
var EnterExitHooks = (function () {
function EnterExitHooks(transition) {
this.transition = transition;
}
EnterExitHooks.prototype.registerHooks = function () {
this.registerOnEnterHooks();
this.registerOnRetainHooks();
this.registerOnExitHooks();
};
EnterExitHooks.prototype.registerOnEnterHooks = function () {
var _this = this;
this.transition.entering().filter(function (state) { return !!state.onEnter; })
.forEach(function (state) { return _this.transition.onEnter({ entering: state.name }, state.onEnter); });
};
EnterExitHooks.prototype.registerOnRetainHooks = function () {
var _this = this;
this.transition.retained().filter(function (state) { return !!state.onRetain; })
.forEach(function (state) { return _this.transition.onRetain({ retained: state.name }, state.onRetain); });
};
EnterExitHooks.prototype.registerOnExitHooks = function () {
var _this = this;
this.transition.exiting().filter(function (state) { return !!state.onExit; })
.forEach(function (state) { return _this.transition.onExit({ exiting: state.name }, state.onExit); });
};
return EnterExitHooks;
}());
exports.EnterExitHooks = EnterExitHooks;
/***/ },
/* 30 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module state */ /** for typedoc */
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
var interface_1 = __webpack_require__(31);
var hof_2 = __webpack_require__(5);
var resolvable_1 = __webpack_require__(32);
var LAZY = interface_1.ResolvePolicy[interface_1.ResolvePolicy.LAZY];
var EAGER = interface_1.ResolvePolicy[interface_1.ResolvePolicy.EAGER];
/**
* Registers Eager and Lazy (for entering states) resolve hooks
*
* * registers a hook that resolves EAGER resolves, for the To Path, onStart of the transition
* * registers a hook that resolves LAZY resolves, for each state, before it is entered
*/
var ResolveHooks = (function () {
function ResolveHooks(transition) {
this.transition = transition;
}
ResolveHooks.prototype.registerHooks = function () {
var treeChanges = this.transition.treeChanges();
/** a function which resolves any EAGER Resolvables for a Path */
$eagerResolvePath.$inject = ['$transition$'];
function $eagerResolvePath($transition$) {
return common_1.tail(treeChanges.to).resolveContext.resolvePath(common_1.extend({ transition: $transition$ }, { resolvePolicy: EAGER }));
}
/** Returns a function which pre-resolves any LAZY Resolvables for a Node in a Path */
$lazyResolveEnteringState.$inject = ['$state$', '$transition$'];
function $lazyResolveEnteringState($state$, $transition$) {
var node = common_1.find(treeChanges.entering, hof_1.propEq('state', $state$));
// A new Resolvable contains all the resolved data in this context as a single object, for injection as `$resolve$`
var context = node.resolveContext;
var $resolve$ = new resolvable_1.Resolvable("$resolve$", function () { return common_1.map(context.getResolvables(), function (r) { return r.data; }); });
var options = common_1.extend({ transition: $transition$ }, { resolvePolicy: LAZY });
// Resolve all the LAZY resolves, then resolve the `$resolve$` object, then add `$resolve$` to the context
return context.resolvePathElement(node.state, options)
.then(function () { return $resolve$.resolveResolvable(context); })
.then(function () { return context.addResolvables({ $resolve$: $resolve$ }, node.state); });
}
// Resolve eager resolvables before when the transition starts
this.transition.onStart({}, $eagerResolvePath, { priority: 1000 });
// Resolve lazy resolvables before each state is entered
this.transition.onEnter({ entering: hof_2.val(true) }, $lazyResolveEnteringState, { priority: 1000 });
};
return ResolveHooks;
}());
exports.ResolveHooks = ResolveHooks;
/***/ },
/* 31 */
/***/ function(module, exports) {
"use strict";
// Defines the available policies and their ordinals.
(function (ResolvePolicy) {
ResolvePolicy[ResolvePolicy["JIT"] = 0] = "JIT";
ResolvePolicy[ResolvePolicy["LAZY"] = 1] = "LAZY";
ResolvePolicy[ResolvePolicy["EAGER"] = 2] = "EAGER"; // Eager resolves are resolved before the transition starts.
})(exports.ResolvePolicy || (exports.ResolvePolicy = {}));
var ResolvePolicy = exports.ResolvePolicy;
/***/ },
/* 32 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module resolve */ /** for typedoc */
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
var predicates_1 = __webpack_require__(4);
var coreservices_1 = __webpack_require__(6);
var trace_1 = __webpack_require__(12);
/**
* The basic building block for the resolve system.
*
* Resolvables encapsulate a state's resolve's resolveFn, the resolveFn's declared dependencies, the wrapped (.promise),
* and the unwrapped-when-complete (.data) result of the resolveFn.
*
* Resolvable.get() either retrieves the Resolvable's existing promise, or else invokes resolve() (which invokes the
* resolveFn) and returns the resulting promise.
*
* Resolvable.get() and Resolvable.resolve() both execute within a context path, which is passed as the first
* parameter to those fns.
*/
var Resolvable = (function () {
function Resolvable(name, resolveFn, preResolvedData) {
this.promise = undefined;
common_1.extend(this, {
name: name,
resolveFn: resolveFn,
deps: coreservices_1.services.$injector.annotate(resolveFn, coreservices_1.services.$injector.strictDi),
data: preResolvedData
});
}
// synchronous part:
// - sets up the Resolvable's promise
// - retrieves dependencies' promises
// - returns promise for async part
// asynchronous part:
// - wait for dependencies promises to resolve
// - invoke the resolveFn
// - wait for resolveFn promise to resolve
// - store unwrapped data
// - resolve the Resolvable's promise
Resolvable.prototype.resolveResolvable = function (resolveContext, options) {
var _this = this;
if (options === void 0) { options = {}; }
var _a = this, name = _a.name, deps = _a.deps, resolveFn = _a.resolveFn;
trace_1.trace.traceResolveResolvable(this, options);
// First, set up an overall deferred/promise for this Resolvable
var deferred = coreservices_1.services.$q.defer();
this.promise = deferred.promise;
// Load a map of all resolvables for this state from the context path
// Omit the current Resolvable from the result, so we don't try to inject this into this
var ancestorsByName = resolveContext.getResolvables(null, { omitOwnLocals: [name] });
// Limit the ancestors Resolvables map to only those that the current Resolvable fn's annotations depends on
var depResolvables = common_1.pick(ancestorsByName, deps);
// Get promises (or synchronously invoke resolveFn) for deps
var depPromises = common_1.map(depResolvables, function (resolvable) { return resolvable.get(resolveContext, options); });
// Return a promise chain that waits for all the deps to resolve, then invokes the resolveFn passing in the
// dependencies as locals, then unwraps the resulting promise's data.
return coreservices_1.services.$q.all(depPromises).then(function (locals) {
try {
var result = coreservices_1.services.$injector.invoke(resolveFn, null, locals);
deferred.resolve(result);
}
catch (error) {
deferred.reject(error);
}
return _this.promise;
}).then(function (data) {
_this.data = data;
trace_1.trace.traceResolvableResolved(_this, options);
return _this.promise;
});
};
Resolvable.prototype.get = function (resolveContext, options) {
return this.promise || this.resolveResolvable(resolveContext, options);
};
Resolvable.prototype.toString = function () {
return "Resolvable(name: " + this.name + ", requires: [" + this.deps + "])";
};
/**
* Validates the result map as a "resolve:" style object, then transforms the resolves into Resolvables
*/
Resolvable.makeResolvables = function (resolves) {
// If a hook result is an object, it should be a map of strings to functions.
var invalid = common_1.filter(resolves, hof_1.not(predicates_1.isInjectable)), keys = Object.keys(invalid);
if (keys.length)
throw new Error("Invalid resolve key/value: " + keys[0] + "/" + invalid[keys[0]]);
return common_1.map(resolves, function (fn, name) { return new Resolvable(name, fn); });
};
return Resolvable;
}());
exports.Resolvable = Resolvable;
/***/ },
/* 33 */
/***/ function(module, exports, __webpack_require__) {
/** @module state */ /** for typedoc */
"use strict";
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
/**
* @ngdoc object
* @name ui.router.state.type:State
*
* @description
* Definition object for states. Includes methods for manipulating the state heirarchy.
*
* @param {Object} config A configuration object hash that includes the results of user-supplied
* values, as well as values from `StateBuilder`.
*
* @returns {Object} Returns a new `State` object.
*/
var State = (function () {
function State(config) {
common_1.extend(this, config);
// Object.freeze(this);
}
/**
* @ngdoc function
* @name ui.router.state.type:State#is
* @methodOf ui.router.state.type:State
*
* @description
* Compares the identity of the state against the passed value, which is either an object
* reference to the actual `State` instance, the original definition object passed to
* `$stateProvider.state()`, or the fully-qualified name.
*
* @param {Object} ref Can be one of (a) a `State` instance, (b) an object that was passed
* into `$stateProvider.state()`, (c) the fully-qualified name of a state as a string.
* @returns {boolean} Returns `true` if `ref` matches the current `State` instance.
*/
State.prototype.is = function (ref) {
return this === ref || this.self === ref || this.fqn() === ref;
};
/**
* @ngdoc function
* @name ui.router.state.type:State#fqn
* @methodOf ui.router.state.type:State
*
* @description
* Returns the fully-qualified name of the state, based on its current position in the tree.
*
* @returns {string} Returns a dot-separated name of the state.
*/
State.prototype.fqn = function () {
if (!this.parent || !(this.parent instanceof this.constructor))
return this.name;
var name = this.parent.fqn();
return name ? name + "." + this.name : this.name;
};
/**
* @ngdoc function
* @name ui.router.state.type:State#root
* @methodOf ui.router.state.type:State
*
* @description
* Returns the root node of this state's tree.
*
* @returns {State} The root of this state's tree.
*/
State.prototype.root = function () {
return this.parent && this.parent.root() || this;
};
State.prototype.parameters = function (opts) {
opts = common_1.defaults(opts, { inherit: true });
var inherited = opts.inherit && this.parent && this.parent.parameters() || [];
return inherited.concat(common_1.values(this.params));
};
State.prototype.parameter = function (id, opts) {
if (opts === void 0) { opts = {}; }
return (this.url && this.url.parameter(id, opts) ||
common_1.find(common_1.values(this.params), hof_1.propEq('id', id)) ||
opts.inherit && this.parent && this.parent.parameter(id));
};
State.prototype.toString = function () {
return this.fqn();
};
return State;
}());
exports.State = State;
/***/ },
/* 34 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module state */ /** for typedoc */
var predicates_1 = __webpack_require__(4);
var StateMatcher = (function () {
function StateMatcher(_states) {
this._states = _states;
}
StateMatcher.prototype.isRelative = function (stateName) {
stateName = stateName || "";
return stateName.indexOf(".") === 0 || stateName.indexOf("^") === 0;
};
StateMatcher.prototype.find = function (stateOrName, base) {
if (!stateOrName && stateOrName !== "")
return undefined;
var isStr = predicates_1.isString(stateOrName);
var name = isStr ? stateOrName : stateOrName.name;
if (this.isRelative(name))
name = this.resolvePath(name, base);
var state = this._states[name];
if (state && (isStr || (!isStr && (state === stateOrName || state.self === stateOrName)))) {
return state;
}
return undefined;
};
StateMatcher.prototype.resolvePath = function (name, base) {
if (!base)
throw new Error("No reference point given for path '" + name + "'");
var baseState = this.find(base);
var splitName = name.split("."), i = 0, pathLength = splitName.length, current = baseState;
for (; i < pathLength; i++) {
if (splitName[i] === "" && i === 0) {
current = baseState;
continue;
}
if (splitName[i] === "^") {
if (!current.parent)
throw new Error("Path '" + name + "' not valid for state '" + baseState.name + "'");
current = current.parent;
continue;
}
break;
}
var relName = splitName.slice(i).join(".");
return current.name + (current.name && relName ? "." : "") + relName;
};
return StateMatcher;
}());
exports.StateMatcher = StateMatcher;
/***/ },
/* 35 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module state */ /** for typedoc */
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var module_1 = __webpack_require__(17);
var StateQueueManager = (function () {
function StateQueueManager(states, builder, $urlRouterProvider) {
this.states = states;
this.builder = builder;
this.$urlRouterProvider = $urlRouterProvider;
this.queue = [];
}
StateQueueManager.prototype.register = function (config) {
var _a = this, states = _a.states, queue = _a.queue, $state = _a.$state;
// Wrap a new object around the state so we can store our private details easily.
// @TODO: state = new State(extend({}, config, { ... }))
var state = common_1.inherit(new module_1.State(), common_1.extend({}, config, {
self: config,
resolve: config.resolve || {},
toString: function () { return config.name; }
}));
if (!predicates_1.isString(state.name))
throw new Error("State must have a valid name");
if (states.hasOwnProperty(state.name) || common_1.pluck(queue, 'name').indexOf(state.name) !== -1)
throw new Error("State '" + state.name + "' is already defined");
queue.push(state);
if (this.$state) {
this.flush($state);
}
return state;
};
StateQueueManager.prototype.flush = function ($state) {
var _a = this, queue = _a.queue, states = _a.states, builder = _a.builder;
var result, state, orphans = [], orphanIdx, previousQueueLength = {};
while (queue.length > 0) {
state = queue.shift();
result = builder.build(state);
orphanIdx = orphans.indexOf(state);
if (result) {
if (states.hasOwnProperty(state.name))
throw new Error("State '" + name + "' is already defined");
states[state.name] = state;
this.attachRoute($state, state);
if (orphanIdx >= 0)
orphans.splice(orphanIdx, 1);
continue;
}
var prev = previousQueueLength[state.name];
previousQueueLength[state.name] = queue.length;
if (orphanIdx >= 0 && prev === queue.length) {
// Wait until two consecutive iterations where no additional states were dequeued successfully.
throw new Error("Cannot register orphaned state '" + state.name + "'");
}
else if (orphanIdx < 0) {
orphans.push(state);
}
queue.push(state);
}
return states;
};
StateQueueManager.prototype.autoFlush = function ($state) {
this.$state = $state;
this.flush($state);
};
StateQueueManager.prototype.attachRoute = function ($state, state) {
var $urlRouterProvider = this.$urlRouterProvider;
if (state[common_1.abstractKey] || !state.url)
return;
$urlRouterProvider.when(state.url, ['$match', '$stateParams', function ($match, $stateParams) {
if ($state.$current.navigable !== state || !common_1.equalForKeys($match, $stateParams)) {
$state.transitionTo(state, $match, { inherit: true });
}
}]);
};
return StateQueueManager;
}());
exports.StateQueueManager = StateQueueManager;
/***/ },
/* 36 */
/***/ function(module, exports, __webpack_require__) {
/** @module state */ /** for typedoc */
"use strict";
var stateMatcher_1 = __webpack_require__(34);
var stateBuilder_1 = __webpack_require__(19);
var stateQueueManager_1 = __webpack_require__(35);
var StateRegistry = (function () {
function StateRegistry(urlMatcherFactory, urlRouterProvider) {
this.states = {};
this.matcher = new stateMatcher_1.StateMatcher(this.states);
this.builder = new stateBuilder_1.StateBuilder(this.matcher, urlMatcherFactory);
this.stateQueue = new stateQueueManager_1.StateQueueManager(this.states, this.builder, urlRouterProvider);
var rootStateDef = {
name: '',
url: '^',
views: null,
params: {
'#': { value: null, type: 'hash' }
},
abstract: true
};
var _root = this._root = this.stateQueue.register(rootStateDef);
_root.navigable = null;
}
StateRegistry.prototype.root = function () {
return this._root;
};
StateRegistry.prototype.register = function (stateDefinition) {
return this.stateQueue.register(stateDefinition);
};
StateRegistry.prototype.get = function (stateOrName, base) {
var _this = this;
if (arguments.length === 0)
return Object.keys(this.states).map(function (name) { return _this.states[name].self; });
var found = this.matcher.find(stateOrName, base);
return found && found.self || null;
};
StateRegistry.prototype.decorator = function (name, func) {
return this.builder.builder(name, func);
};
return StateRegistry;
}());
exports.StateRegistry = StateRegistry;
/***/ },
/* 37 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module state */ /** */
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var queue_1 = __webpack_require__(8);
var coreservices_1 = __webpack_require__(6);
var pathFactory_1 = __webpack_require__(38);
var node_1 = __webpack_require__(39);
var transitionService_1 = __webpack_require__(43);
var rejectFactory_1 = __webpack_require__(10);
var targetState_1 = __webpack_require__(27);
var transitionManager_1 = __webpack_require__(26);
var param_1 = __webpack_require__(21);
var glob_1 = __webpack_require__(7);
var common_2 = __webpack_require__(3);
var common_3 = __webpack_require__(3);
var StateService = (function () {
function StateService($view, $urlRouter, $transitions, stateRegistry, stateProvider, globals) {
this.$view = $view;
this.$urlRouter = $urlRouter;
this.$transitions = $transitions;
this.stateRegistry = stateRegistry;
this.stateProvider = stateProvider;
this.globals = globals;
this.rejectFactory = new rejectFactory_1.RejectFactory();
var getters = ['current', '$current', 'params', 'transition'];
var boundFns = Object.keys(StateService.prototype).filter(function (key) { return getters.indexOf(key) === -1; });
common_3.bindFunctions(StateService.prototype, this, this, boundFns);
}
Object.defineProperty(StateService.prototype, "transition", {
get: function () { return this.globals.transition; },
enumerable: true,
configurable: true
});
Object.defineProperty(StateService.prototype, "params", {
get: function () { return this.globals.params; },
enumerable: true,
configurable: true
});
Object.defineProperty(StateService.prototype, "current", {
get: function () { return this.globals.current; },
enumerable: true,
configurable: true
});
Object.defineProperty(StateService.prototype, "$current", {
get: function () { return this.globals.$current; },
enumerable: true,
configurable: true
});
/**
* Invokes the onInvalid callbacks, in natural order. Each callback's return value is checked in sequence
* until one of them returns an instance of TargetState. The results of the callbacks are wrapped
* in $q.when(), so the callbacks may return promises.
*
* If a callback returns an TargetState, then it is used as arguments to $state.transitionTo() and
* the result returned.
*/
StateService.prototype._handleInvalidTargetState = function (fromPath, $to$) {
var _this = this;
var latestThing = function () { return _this.globals.transitionHistory.peekTail(); };
var latest = latestThing();
var $from$ = pathFactory_1.PathFactory.makeTargetState(fromPath);
var callbackQueue = new queue_1.Queue([].concat(this.stateProvider.invalidCallbacks));
var rejectFactory = this.rejectFactory;
var $q = coreservices_1.services.$q, $injector = coreservices_1.services.$injector;
var invokeCallback = function (callback) { return $q.when($injector.invoke(callback, null, { $to$: $to$, $from$: $from$ })); };
var checkForRedirect = function (result) {
if (!(result instanceof targetState_1.TargetState)) {
return;
}
var target = result;
// Recreate the TargetState, in case the state is now defined.
target = _this.target(target.identifier(), target.params(), target.options());
if (!target.valid())
return rejectFactory.invalid(target.error());
if (latestThing() !== latest)
return rejectFactory.superseded();
return _this.transitionTo(target.identifier(), target.params(), target.options());
};
function invokeNextCallback() {
var nextCallback = callbackQueue.dequeue();
if (nextCallback === undefined)
return rejectFactory.invalid($to$.error());
return invokeCallback(nextCallback).then(checkForRedirect).then(function (result) { return result || invokeNextCallback(); });
}
return invokeNextCallback();
};
/**
* @ngdoc function
* @name ui.router.state.$state#reload
* @methodOf ui.router.state.$state
*
* @description
* A method that force reloads the current state, or a partial state hierarchy. All resolves are re-resolved,
* controllers reinstantiated, and events re-fired.
*
* @example
* <pre>
* let app angular.module('app', ['ui.router']);
*
* app.controller('ctrl', function ($scope, $state) {
* $scope.reload = function(){
* $state.reload();
* }
* });
* </pre>
*
* `reload()` is just an alias for:
* <pre>
* $state.transitionTo($state.current, $stateParams, {
* reload: true, inherit: false, notify: true
* });
* </pre>
*
* @param {string=|object=} reloadState - A state name or a state object, which is the root of the resolves to be re-resolved.
* @example
* <pre>
* //assuming app application consists of 3 states: 'contacts', 'contacts.detail', 'contacts.detail.item'
* //and current state is 'contacts.detail.item'
* let app angular.module('app', ['ui.router']);
*
* app.controller('ctrl', function ($scope, $state) {
* $scope.reload = function(){
* //will reload 'contact.detail' and nested 'contact.detail.item' states
* $state.reload('contact.detail');
* }
* });
* </pre>
*
* @returns {promise} A promise representing the state of the new transition. See
* {@link ui.router.state.$state#methods_go $state.go}.
*/
StateService.prototype.reload = function (reloadState) {
return this.transitionTo(this.current, this.params, {
reload: predicates_1.isDefined(reloadState) ? reloadState : true,
inherit: false,
notify: false
});
};
;
/**
* @ngdoc function
* @name ui.router.state.$state#go
* @methodOf ui.router.state.$state
*
* @description
* Convenience method for transitioning to a new state. `$state.go` calls
* `$state.transitionTo` internally but automatically sets options to
* `{ location: true, inherit: true, relative: $state.$current, notify: true }`.
* This allows you to easily use an absolute or relative to path and specify
* only the parameters you'd like to update (while letting unspecified parameters
* inherit from the currently active ancestor states).
*
* @example
* <pre>
* let app = angular.module('app', ['ui.router']);
*
* app.controller('ctrl', function ($scope, $state) {
* $scope.changeState = function () {
* $state.go('contact.detail');
* };
* });
* </pre>
* <img src='../ngdoc_assets/StateGoExamples.png'/>
*
* @param {string} to Absolute state name or relative state path. Some examples:
*
* - `$state.go('contact.detail')` - will go to the `contact.detail` state
* - `$state.go('^')` - will go to a parent state
* - `$state.go('^.sibling')` - will go to a sibling state
* - `$state.go('.child.grandchild')` - will go to grandchild state
*
* @param {object=} params A map of the parameters that will be sent to the state,
* will populate $stateParams. Any parameters that are not specified will be inherited from currently
* defined parameters. This allows, for example, going to a sibling state that shares parameters
* specified in a parent state. Parameter inheritance only works between common ancestor states, I.e.
* transitioning to a sibling will get you the parameters for all parents, transitioning to a child
* will get you all current parameters, etc.
* @param {object=} options Options object. The options are:
*
* - **`location`** - {boolean=true|string=} - If `true` will update the url in the location bar, if `false`
* will not. If string, must be `"replace"`, which will update url and also replace last history record.
* - **`inherit`** - {boolean=true}, If `true` will inherit url parameters from current url.
* - **`relative`** - {object=$state.$current}, When transitioning with relative path (e.g '^'),
* defines which state to be relative from.
* - **`notify`** - {boolean=true}, If `true` will broadcast $stateChangeStart and $stateChangeSuccess events.
* - **`reload`** (v0.2.5) - {boolean=false}, If `true` will force transition even if the state or params
* have not changed, aka a reload of the same state. It differs from reloadOnSearch because you'd
* use this when you want to force a reload when *everything* is the same, including search params.
*
* @returns {promise} A promise representing the state of the new transition.
*
* Possible success values:
*
* - $state.current
*
* <br/>Possible rejection values:
*
* - 'transition superseded' - when a newer transition has been started after this one
* - 'transition prevented' - when `event.preventDefault()` has been called in a `$stateChangeStart` listener
* - 'transition aborted' - when `event.preventDefault()` has been called in a `$stateNotFound` listener or
* when a `$stateNotFound` `event.retry` promise errors.
* - 'transition failed' - when a state has been unsuccessfully found after 2 tries.
* - *resolve error* - when an error has occurred with a `resolve`
*
*/
StateService.prototype.go = function (to, params, options) {
var defautGoOpts = { relative: this.$current, inherit: true };
var transOpts = common_1.defaults(options, defautGoOpts, transitionService_1.defaultTransOpts);
return this.transitionTo(to, params, transOpts);
};
;
/** Factory method for creating a TargetState */
StateService.prototype.target = function (identifier, params, options) {
if (options === void 0) { options = {}; }
// If we're reloading, find the state object to reload from
if (predicates_1.isObject(options.reload) && !options.reload.name)
throw new Error('Invalid reload state object');
options.reloadState = options.reload === true ? this.stateRegistry.root() : this.stateRegistry.matcher.find(options.reload, options.relative);
if (options.reload && !options.reloadState)
throw new Error("No such reload state '" + (predicates_1.isString(options.reload) ? options.reload : options.reload.name) + "'");
var stateDefinition = this.stateRegistry.matcher.find(identifier, options.relative);
return new targetState_1.TargetState(identifier, stateDefinition, params, options);
};
;
/**
* @ngdoc function
* @name ui.router.state.$state#transitionTo
* @methodOf ui.router.state.$state
*
* @description
* Low-level method for transitioning to a new state. {@link ui.router.state.$state#methods_go $state.go}
* uses `transitionTo` internally. `$state.go` is recommended in most situations.
*
* @example
* <pre>
* let app = angular.module('app', ['ui.router']);
*
* app.controller('ctrl', function ($scope, $state) {
* $scope.changeState = function () {
* $state.transitionTo('contact.detail');
* };
* });
* </pre>
*
* @param {string} to State name.
* @param {object=} toParams A map of the parameters that will be sent to the state,
* will populate $stateParams.
* @param {object=} options Options object. The options are:
*
* - **`location`** - {boolean=true|string=} - If `true` will update the url in the location bar, if `false`
* will not. If string, must be `"replace"`, which will update url and also replace last history record.
* - **`inherit`** - {boolean=false}, If `true` will inherit url parameters from current url.
* - **`relative`** - {object=}, When transitioning with relative path (e.g '^'),
* defines which state to be relative from.
* - **`notify`** - {boolean=true}, If `true` will broadcast $stateChangeStart and $stateChangeSuccess events.
* - **`reload`** (v0.2.5) - {boolean=false}, If `true` will force transition even if the state or params
* have not changed, aka a reload of the same state. It differs from reloadOnSearch because you'd
* use this when you want to force a reload when *everything* is the same, including search params.
*
* @returns {promise} A promise representing the state of the new transition. See
* {@link ui.router.state.$state#methods_go $state.go}.
*/
StateService.prototype.transitionTo = function (to, toParams, options) {
var _this = this;
if (toParams === void 0) { toParams = {}; }
if (options === void 0) { options = {}; }
var transHistory = this.globals.transitionHistory;
options = common_1.defaults(options, transitionService_1.defaultTransOpts);
options = common_1.extend(options, { current: transHistory.peekTail.bind(transHistory) });
var ref = this.target(to, toParams, options);
var latestSuccess = this.globals.successfulTransitions.peekTail();
var rootPath = function () { return pathFactory_1.PathFactory.bindTransNodesToPath([new node_1.Node(_this.stateRegistry.root())]); };
var currentPath = latestSuccess ? latestSuccess.treeChanges().to : rootPath();
if (!ref.exists())
return this._handleInvalidTargetState(currentPath, ref);
if (!ref.valid())
return coreservices_1.services.$q.reject(ref.error());
var transition = this.$transitions.create(currentPath, ref);
var tMgr = new transitionManager_1.TransitionManager(transition, this.$transitions, this.$urlRouter, this.$view, this, this.globals);
var transitionPromise = tMgr.runTransition();
// Return a promise for the transition, which also has the transition object on it.
return common_1.extend(transitionPromise, { transition: transition });
};
;
/**
* @ngdoc function
* @name ui.router.state.$state#is
* @methodOf ui.router.state.$state
*
* @description
* Similar to {@link ui.router.state.$state#methods_includes $state.includes},
* but only checks for the full state name. If params is supplied then it will be
* tested for strict equality against the current active params object, so all params
* must match with none missing and no extras.
*
* @example
* <pre>
* $state.$current.name = 'contacts.details.item';
*
* // absolute name
* $state.is('contact.details.item'); // returns true
* $state.is(contactDetailItemStateObject); // returns true
*
* // relative name (. and ^), typically from a template
* // E.g. from the 'contacts.details' template
* <div ng-class="{highlighted: $state.is('.item')}">Item</div>
* </pre>
*
* @param {string|object} stateOrName The state name (absolute or relative) or state object you'd like to check.
* @param {object=} params A param object, e.g. `{sectionId: section.id}`, that you'd like
* to test against the current active state.
* @param {object=} options An options object. The options are:
*
* - **`relative`** - {string|object} - If `stateOrName` is a relative state name and `options.relative` is set, .is will
* test relative to `options.relative` state (or name).
*
* @returns {boolean} Returns true if it is the state.
*/
StateService.prototype.is = function (stateOrName, params, options) {
options = common_1.defaults(options, { relative: this.$current });
var state = this.stateRegistry.matcher.find(stateOrName, options.relative);
if (!predicates_1.isDefined(state))
return undefined;
if (this.$current !== state)
return false;
return predicates_1.isDefined(params) && params !== null ? param_1.Param.equals(state.parameters(), this.params, params) : true;
};
;
/**
* @ngdoc function
* @name ui.router.state.$state#includes
* @methodOf ui.router.state.$state
*
* @description
* A method to determine if the current active state is equal to or is the child of the
* state stateName. If any params are passed then they will be tested for a match as well.
* Not all the parameters need to be passed, just the ones you'd like to test for equality.
*
* @example
* Partial and relative names
* <pre>
* $state.$current.name = 'contacts.details.item';
*
* // Using partial names
* $state.includes("contacts"); // returns true
* $state.includes("contacts.details"); // returns true
* $state.includes("contacts.details.item"); // returns true
* $state.includes("contacts.list"); // returns false
* $state.includes("about"); // returns false
*
* // Using relative names (. and ^), typically from a template
* // E.g. from the 'contacts.details' template
* <div ng-class="{highlighted: $state.includes('.item')}">Item</div>
* </pre>
*
* Basic globbing patterns
* <pre>
* $state.$current.name = 'contacts.details.item.url';
*
* $state.includes("*.details.*.*"); // returns true
* $state.includes("*.details.**"); // returns true
* $state.includes("**.item.**"); // returns true
* $state.includes("*.details.item.url"); // returns true
* $state.includes("*.details.*.url"); // returns true
* $state.includes("*.details.*"); // returns false
* $state.includes("item.**"); // returns false
* </pre>
*
* @param {string} stateOrName A partial name, relative name, or glob pattern
* to be searched for within the current state name.
* @param {object=} params A param object, e.g. `{sectionId: section.id}`,
* that you'd like to test against the current active state.
* @param {object=} options An options object. The options are:
*
* - **`relative`** - {string|object=} - If `stateOrName` is a relative state reference and `options.relative` is set,
* .includes will test relative to `options.relative` state (or name).
*
* @returns {boolean} Returns true if it does include the state
*/
StateService.prototype.includes = function (stateOrName, params, options) {
options = common_1.defaults(options, { relative: this.$current });
var glob = predicates_1.isString(stateOrName) && glob_1.Glob.fromString(stateOrName);
if (glob) {
if (!glob.matches(this.$current.name))
return false;
stateOrName = this.$current.name;
}
var state = this.stateRegistry.matcher.find(stateOrName, options.relative), include = this.$current.includes;
if (!predicates_1.isDefined(state))
return undefined;
if (!predicates_1.isDefined(include[state.name]))
return false;
// @TODO Replace with Param.equals() ?
return params ? common_2.equalForKeys(param_1.Param.values(state.parameters(), params), this.params, Object.keys(params)) : true;
};
;
/**
* @ngdoc function
* @name ui.router.state.$state#href
* @methodOf ui.router.state.$state
*
* @description
* A url generation method that returns the compiled url for the given state populated with the given params.
*
* @example
* <pre>
* expect($state.href("about.person", { person: "bob" })).toEqual("/about/bob");
* </pre>
*
* @param {string|object} stateOrName The state name or state object you'd like to generate a url from.
* @param {object=} params An object of parameter values to fill the state's required parameters.
* @param {object=} options Options object. The options are:
*
* - **`lossy`** - {boolean=true} - If true, and if there is no url associated with the state provided in the
* first parameter, then the constructed href url will be built from the first navigable ancestor (aka
* ancestor with a valid url).
* - **`inherit`** - {boolean=true}, If `true` will inherit url parameters from current url.
* - **`relative`** - {object=$state.$current}, When transitioning with relative path (e.g '^'),
* defines which state to be relative from.
* - **`absolute`** - {boolean=false}, If true will generate an absolute url, e.g. "http://www.example.com/fullurl".
*
* @returns {string} compiled state url
*/
StateService.prototype.href = function (stateOrName, params, options) {
var defaultHrefOpts = {
lossy: true,
inherit: true,
absolute: false,
relative: this.$current
};
options = common_1.defaults(options, defaultHrefOpts);
var state = this.stateRegistry.matcher.find(stateOrName, options.relative);
if (!predicates_1.isDefined(state))
return null;
if (options.inherit)
params = this.params.$inherit(params || {}, this.$current, state);
var nav = (state && options.lossy) ? state.navigable : state;
if (!nav || nav.url === undefined || nav.url === null) {
return null;
}
return this.$urlRouter.href(nav.url, param_1.Param.values(state.parameters(), params), {
absolute: options.absolute
});
};
;
StateService.prototype.get = function (stateOrName, base) {
if (arguments.length === 0)
return this.stateRegistry.get();
return this.stateRegistry.get(stateOrName, base || this.$current);
};
return StateService;
}());
exports.StateService = StateService;
/***/ },
/* 38 */
/***/ function(module, exports, __webpack_require__) {
/** @module path */ /** for typedoc */
"use strict";
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
var module_1 = __webpack_require__(17);
var node_1 = __webpack_require__(39);
var module_2 = __webpack_require__(40);
/**
* This class contains functions which convert TargetStates, Nodes and paths from one type to another.
*/
var PathFactory = (function () {
function PathFactory() {
}
/** Given a Node[], create an TargetState */
PathFactory.makeTargetState = function (path) {
var state = common_1.tail(path).state;
return new module_1.TargetState(state, state, path.map(hof_1.prop("paramValues")).reduce(common_1.mergeR, {}));
};
PathFactory.buildPath = function (targetState) {
var toParams = targetState.params();
return targetState.$state().path.map(function (state) { return new node_1.Node(state).applyRawParams(toParams); });
};
/** Given a fromPath: Node[] and a TargetState, builds a toPath: Node[] */
PathFactory.buildToPath = function (fromPath, targetState) {
var toPath = PathFactory.buildPath(targetState);
if (targetState.options().inherit) {
return PathFactory.inheritParams(fromPath, toPath, Object.keys(targetState.params()));
}
return toPath;
};
PathFactory.applyViewConfigs = function ($view, path) {
return path.map(function (node) {
return common_1.extend(node, { views: common_1.values(node.state.views || {}).map(function (view) { return $view.createViewConfig(node, view); }) });
});
};
/**
* Given a fromPath and a toPath, returns a new to path which inherits parameters from the fromPath
*
* For a parameter in a node to be inherited from the from path:
* - The toPath's node must have a matching node in the fromPath (by state).
* - The parameter name must not be found in the toKeys parameter array.
*
* Note: the keys provided in toKeys are intended to be those param keys explicitly specified by some
* caller, for instance, $state.transitionTo(..., toParams). If a key was found in toParams,
* it is not inherited from the fromPath.
*/
PathFactory.inheritParams = function (fromPath, toPath, toKeys) {
if (toKeys === void 0) { toKeys = []; }
function nodeParamVals(path, state) {
var node = common_1.find(path, hof_1.propEq('state', state));
return common_1.extend({}, node && node.paramValues);
}
/**
* Given an Node "toNode", return a new Node with param values inherited from the
* matching node in fromPath. Only inherit keys that aren't found in "toKeys" from the node in "fromPath""
*/
var makeInheritedParamsNode = hof_1.curry(function (_fromPath, _toKeys, toNode) {
// All param values for the node (may include default key/vals, when key was not found in toParams)
var toParamVals = common_1.extend({}, toNode && toNode.paramValues);
// limited to only those keys found in toParams
var incomingParamVals = common_1.pick(toParamVals, _toKeys);
toParamVals = common_1.omit(toParamVals, _toKeys);
var fromParamVals = nodeParamVals(_fromPath, toNode.state) || {};
// extend toParamVals with any fromParamVals, then override any of those those with incomingParamVals
var ownParamVals = common_1.extend(toParamVals, fromParamVals, incomingParamVals);
return new node_1.Node(toNode.state).applyRawParams(ownParamVals);
});
// The param keys specified by the incoming toParams
return toPath.map(makeInheritedParamsNode(fromPath, toKeys));
};
/**
* Given a path, upgrades the path to a Node[]. Each node is assigned a ResolveContext
* and ParamValues object which is bound to the whole path, but closes over the subpath from root to the node.
* The views are also added to the node.
*/
PathFactory.bindTransNodesToPath = function (resolvePath) {
var resolveContext = new module_2.ResolveContext(resolvePath);
// let paramValues = new ParamValues(resolvePath);
// Attach bound resolveContext and paramValues to each node
// Attach views to each node
resolvePath.forEach(function (node) {
node.resolveContext = resolveContext.isolateRootTo(node.state);
node.resolveInjector = new module_2.ResolveInjector(node.resolveContext, node.state);
node.resolves['$stateParams'] = new module_2.Resolvable("$stateParams", function () { return node.paramValues; }, node.paramValues);
});
return resolvePath;
};
/**
* Computes the tree changes (entering, exiting) between a fromPath and toPath.
*/
PathFactory.treeChanges = function (fromPath, toPath, reloadState) {
var keep = 0, max = Math.min(fromPath.length, toPath.length);
var staticParams = function (state) { return state.parameters({ inherit: false }).filter(hof_1.not(hof_1.prop('dynamic'))).map(hof_1.prop('id')); };
var nodesMatch = function (node1, node2) { return node1.equals(node2, staticParams(node1.state)); };
while (keep < max && fromPath[keep].state !== reloadState && nodesMatch(fromPath[keep], toPath[keep])) {
keep++;
}
/** Given a retained node, return a new node which uses the to node's param values */
function applyToParams(retainedNode, idx) {
var cloned = node_1.Node.clone(retainedNode);
cloned.paramValues = toPath[idx].paramValues;
return cloned;
}
var from, retained, exiting, entering, to;
// intermediate vars
var retainedWithToParams, enteringResolvePath, toResolvePath;
from = fromPath;
retained = from.slice(0, keep);
exiting = from.slice(keep);
// Create a new retained path (with shallow copies of nodes) which have the params of the toPath mapped
retainedWithToParams = retained.map(applyToParams);
enteringResolvePath = toPath.slice(keep);
// "toResolvePath" is "retainedWithToParams" concat "enteringResolvePath".
toResolvePath = (retainedWithToParams).concat(enteringResolvePath);
// "to: is "toResolvePath" with ParamValues/ResolveContext added to each node and bound to the path context
to = PathFactory.bindTransNodesToPath(toResolvePath);
// "entering" is the tail of "to"
entering = to.slice(keep);
return { from: from, to: to, retained: retained, exiting: exiting, entering: entering };
};
PathFactory.bindTransitionResolve = function (treeChanges, transition) {
var rootNode = treeChanges.to[0];
rootNode.resolves['$transition$'] = new module_2.Resolvable('$transition$', function () { return transition; }, transition);
};
/**
* Find a subpath of a path that stops at the node for a given state
*
* Given an array of nodes, returns a subset of the array starting from the first node, up to the
* node whose state matches `stateName`
*
* @param path a path of [[Node]]s
* @param state the [[State]] to stop at
*/
PathFactory.subPath = function (path, state) {
var node = common_1.find(path, function (_node) { return _node.state === state; });
var elementIdx = path.indexOf(node);
if (elementIdx === -1)
throw new Error("The path does not contain the state: " + state);
return path.slice(0, elementIdx + 1);
};
/** Gets the raw parameter values from a path */
PathFactory.paramValues = function (path) { return path.reduce(function (acc, node) { return common_1.extend(acc, node.paramValues); }, {}); };
return PathFactory;
}());
exports.PathFactory = PathFactory;
/***/ },
/* 39 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module path */ /** for typedoc */
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
var module_1 = __webpack_require__(40);
var Node = (function () {
function Node(state) {
if (state instanceof Node) {
var node = state;
this.state = node.state;
this.paramSchema = node.paramSchema.slice();
this.paramValues = common_1.extend({}, node.paramValues);
this.resolves = common_1.extend({}, node.resolves);
this.views = node.views && node.views.slice();
this.resolveContext = node.resolveContext;
this.resolveInjector = node.resolveInjector;
}
else {
this.state = state;
this.paramSchema = state.parameters({ inherit: false });
this.paramValues = {};
this.resolves = common_1.mapObj(state.resolve, function (fn, name) { return new module_1.Resolvable(name, fn); });
}
}
Node.prototype.applyRawParams = function (params) {
var getParamVal = function (paramDef) { return [paramDef.id, paramDef.value(params[paramDef.id])]; };
this.paramValues = this.paramSchema.reduce(function (memo, pDef) { return common_1.applyPairs(memo, getParamVal(pDef)); }, {});
return this;
};
Node.prototype.parameter = function (name) {
return common_1.find(this.paramSchema, hof_1.propEq("id", name));
};
Node.prototype.equals = function (node, keys) {
var _this = this;
if (keys === void 0) { keys = this.paramSchema.map(hof_1.prop('id')); }
var paramValsEq = function (key) { return _this.parameter(key).type.equals(_this.paramValues[key], node.paramValues[key]); };
return this.state === node.state && keys.map(paramValsEq).reduce(common_1.allTrueR, true);
};
Node.clone = function (node) {
return new Node(node);
};
/**
* Returns a new path which is a subpath of the first path. The new path starts from root and contains any nodes
* that match the nodes in the second path. Nodes are compared using their state property.
* @param first {Node[]}
* @param second {Node[]}
* @returns {Node[]}
*/
Node.matching = function (first, second) {
var matchedCount = first.reduce(function (prev, node, i) {
return prev === i && i < second.length && node.state === second[i].state ? i + 1 : prev;
}, 0);
return first.slice(0, matchedCount);
};
return Node;
}());
exports.Node = Node;
/***/ },
/* 40 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
function __export(m) {
for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p];
}
/** @module resolve */ /** for typedoc */
__export(__webpack_require__(31));
__export(__webpack_require__(32));
__export(__webpack_require__(41));
__export(__webpack_require__(42));
/***/ },
/* 41 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module resolve */ /** for typedoc */
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
var predicates_1 = __webpack_require__(4);
var trace_1 = __webpack_require__(12);
var coreservices_1 = __webpack_require__(6);
var interface_1 = __webpack_require__(31);
var common_2 = __webpack_require__(3);
var pathFactory_1 = __webpack_require__(38);
// TODO: make this configurable
var defaultResolvePolicy = interface_1.ResolvePolicy[interface_1.ResolvePolicy.LAZY];
var ResolveContext = (function () {
function ResolveContext(_path) {
this._path = _path;
common_1.extend(this, {
_nodeFor: function (state) {
return common_1.find(this._path, hof_1.propEq('state', state));
},
_pathTo: function (state) {
return pathFactory_1.PathFactory.subPath(this._path, state);
}
});
}
/**
* Gets the available Resolvables for the last element of this path.
*
* @param state the State (within the ResolveContext's Path) for which to get resolvables
* @param options
*
* options.omitOwnLocals: array of property names
* Omits those Resolvables which are found on the last element of the path.
*
* This will hide a deepest-level resolvable (by name), potentially exposing a parent resolvable of
* the same name further up the state tree.
*
* This is used by Resolvable.resolve() in order to provide the Resolvable access to all the other
* Resolvables at its own PathElement level, yet disallow that Resolvable access to its own injectable Resolvable.
*
* This is also used to allow a state to override a parent state's resolve while also injecting
* that parent state's resolve:
*
* state({ name: 'G', resolve: { _G: function() { return "G"; } } });
* state({ name: 'G.G2', resolve: { _G: function(_G) { return _G + "G2"; } } });
* where injecting _G into a controller will yield "GG2"
*/
ResolveContext.prototype.getResolvables = function (state, options) {
options = common_1.defaults(options, { omitOwnLocals: [] });
var path = (state ? this._pathTo(state) : this._path);
var last = common_1.tail(path);
return path.reduce(function (memo, node) {
var omitProps = (node === last) ? options.omitOwnLocals : [];
var filteredResolvables = common_1.omit(node.resolves, omitProps);
return common_1.extend(memo, filteredResolvables);
}, {});
};
/** Inspects a function `fn` for its dependencies. Returns an object containing any matching Resolvables */
ResolveContext.prototype.getResolvablesForFn = function (fn) {
var deps = coreservices_1.services.$injector.annotate(fn, coreservices_1.services.$injector.strictDi);
return common_1.pick(this.getResolvables(), deps);
};
ResolveContext.prototype.isolateRootTo = function (state) {
return new ResolveContext(this._pathTo(state));
};
ResolveContext.prototype.addResolvables = function (resolvables, state) {
common_1.extend(this._nodeFor(state).resolves, resolvables);
};
/** Gets the resolvables declared on a particular state */
ResolveContext.prototype.getOwnResolvables = function (state) {
return common_1.extend({}, this._nodeFor(state).resolves);
};
// Returns a promise for an array of resolved path Element promises
ResolveContext.prototype.resolvePath = function (options) {
var _this = this;
if (options === void 0) { options = {}; }
trace_1.trace.traceResolvePath(this._path, options);
var promiseForNode = function (node) { return _this.resolvePathElement(node.state, options); };
return coreservices_1.services.$q.all(common_1.map(this._path, promiseForNode)).then(function (all) { return all.reduce(common_2.mergeR, {}); });
};
// returns a promise for all the resolvables on this PathElement
// options.resolvePolicy: only return promises for those Resolvables which are at
// the specified policy, or above. i.e., options.resolvePolicy === 'lazy' will
// resolve both 'lazy' and 'eager' resolves.
ResolveContext.prototype.resolvePathElement = function (state, options) {
var _this = this;
if (options === void 0) { options = {}; }
// The caller can request the path be resolved for a given policy and "below"
var policy = options && options.resolvePolicy;
var policyOrdinal = interface_1.ResolvePolicy[policy || defaultResolvePolicy];
// Get path Resolvables available to this element
var resolvables = this.getOwnResolvables(state);
var matchesRequestedPolicy = function (resolvable) { return getPolicy(state.resolvePolicy, resolvable) >= policyOrdinal; };
var matchingResolves = common_1.filter(resolvables, matchesRequestedPolicy);
var getResolvePromise = function (resolvable) { return resolvable.get(_this.isolateRootTo(state), options); };
var resolvablePromises = common_1.map(matchingResolves, getResolvePromise);
trace_1.trace.traceResolvePathElement(this, matchingResolves, options);
return coreservices_1.services.$q.all(resolvablePromises);
};
/**
* Injects a function given the Resolvables available in the path, from the first node
* up to the node for the given state.
*
* First it resolves all the resolvable depencies. When they are done resolving, it invokes
* the function.
*
* @return a promise for the return value of the function.
*
* @param fn: the function to inject (i.e., onEnter, onExit, controller)
* @param locals: are the angular $injector-style locals to inject
* @param options: options (TODO: document)
*/
ResolveContext.prototype.invokeLater = function (fn, locals, options) {
var _this = this;
if (locals === void 0) { locals = {}; }
if (options === void 0) { options = {}; }
var resolvables = this.getResolvablesForFn(fn);
trace_1.trace.tracePathElementInvoke(common_1.tail(this._path), fn, Object.keys(resolvables), common_1.extend({ when: "Later" }, options));
var getPromise = function (resolvable) { return resolvable.get(_this, options); };
var promises = common_1.map(resolvables, getPromise);
return coreservices_1.services.$q.all(promises).then(function () {
try {
return _this.invokeNow(fn, locals, options);
}
catch (error) {
return coreservices_1.services.$q.reject(error);
}
});
};
/**
* Immediately injects a function with the dependent Resolvables available in the path, from
* the first node up to the node for the given state.
*
* If a Resolvable is not yet resolved, then null is injected in place of the resolvable.
*
* @return the return value of the function.
*
* @param fn: the function to inject (i.e., onEnter, onExit, controller)
* @param locals: are the angular $injector-style locals to inject
* @param options: options (TODO: document)
*/
// Injects a function at this PathElement level with available Resolvables
// Does not wait until all Resolvables have been resolved; you must call PathElement.resolve() (or manually resolve each dep) first
ResolveContext.prototype.invokeNow = function (fn, locals, options) {
if (options === void 0) { options = {}; }
var resolvables = this.getResolvablesForFn(fn);
trace_1.trace.tracePathElementInvoke(common_1.tail(this._path), fn, Object.keys(resolvables), common_1.extend({ when: "Now " }, options));
var resolvedLocals = common_1.map(resolvables, hof_1.prop("data"));
return coreservices_1.services.$injector.invoke(fn, options.bind || null, common_1.extend({}, locals, resolvedLocals));
};
return ResolveContext;
}());
exports.ResolveContext = ResolveContext;
/**
* Given a state's resolvePolicy attribute and a resolvable from that state, returns the policy ordinal for the Resolvable
* Use the policy declared for the Resolve. If undefined, use the policy declared for the State. If
* undefined, use the system defaultResolvePolicy.
*
* @param stateResolvePolicyConf The raw resolvePolicy declaration on the state object; may be a String or Object
* @param resolvable The resolvable to compute the policy for
*/
function getPolicy(stateResolvePolicyConf, resolvable) {
// Normalize the configuration on the state to either state-level (a string) or resolve-level (a Map of string:string)
var stateLevelPolicy = (predicates_1.isString(stateResolvePolicyConf) ? stateResolvePolicyConf : null);
var resolveLevelPolicies = (predicates_1.isObject(stateResolvePolicyConf) ? stateResolvePolicyConf : {});
var policyName = resolveLevelPolicies[resolvable.name] || stateLevelPolicy || defaultResolvePolicy;
return interface_1.ResolvePolicy[policyName];
}
/***/ },
/* 42 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module resolve */ /** for typedoc */
var common_1 = __webpack_require__(3);
var ResolveInjector = (function () {
function ResolveInjector(_resolveContext, _state) {
this._resolveContext = _resolveContext;
this._state = _state;
}
/** Returns a promise to invoke an annotated function in the resolve context */
ResolveInjector.prototype.invokeLater = function (injectedFn, locals) {
return this._resolveContext.invokeLater(injectedFn, locals);
};
/** Invokes an annotated function in the resolve context */
ResolveInjector.prototype.invokeNow = function (injectedFn, locals) {
return this._resolveContext.invokeNow(null, injectedFn, locals);
};
/** Returns the a promise for locals (realized Resolvables) that a function wants */
ResolveInjector.prototype.getLocals = function (injectedFn) {
var _this = this;
var resolve = function (r) { return r.get(_this._resolveContext); };
return common_1.map(this._resolveContext.getResolvablesForFn(injectedFn), resolve);
};
return ResolveInjector;
}());
exports.ResolveInjector = ResolveInjector;
/***/ },
/* 43 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
var transition_1 = __webpack_require__(11);
var hookRegistry_1 = __webpack_require__(15);
/**
* The default transition options.
* Include this object when applying custom defaults:
* let reloadOpts = { reload: true, notify: true }
* let options = defaults(theirOpts, customDefaults, defaultOptions);
*/
exports.defaultTransOpts = {
location: true,
relative: null,
inherit: false,
notify: true,
reload: false,
custom: {},
current: function () { return null; }
};
/**
* This class provides services related to Transitions.
*
* Most importantly, it allows global Transition Hooks to be registered, and has a factory function
* for creating new Transitions.
*/
var TransitionService = (function () {
function TransitionService($view) {
this.$view = $view;
this._defaultErrorHandler = function $defaultErrorHandler($error$) {
if ($error$ instanceof Error) {
console.error($error$);
}
};
hookRegistry_1.HookRegistry.mixin(new hookRegistry_1.HookRegistry(), this);
}
TransitionService.prototype.defaultErrorHandler = function (handler) {
return this._defaultErrorHandler = handler || this._defaultErrorHandler;
};
/**
* Creates a new [[Transition]] object
*
* This is a factory function for creating new Transition objects.
*
* @param fromPath
* @param targetState
* @returns {Transition}
*/
TransitionService.prototype.create = function (fromPath, targetState) {
return new transition_1.Transition(fromPath, targetState, this);
};
return TransitionService;
}());
exports.TransitionService = TransitionService;
/***/ },
/* 44 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
function __export(m) {
for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p];
}
/** @module path */ /** for typedoc */
__export(__webpack_require__(39));
__export(__webpack_require__(38));
/***/ },
/* 45 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
function __export(m) {
for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p];
}
/** @module url */ /** for typedoc */
__export(__webpack_require__(46));
__export(__webpack_require__(22));
__export(__webpack_require__(47));
__export(__webpack_require__(48));
/***/ },
/* 46 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module url */ /** for typedoc */
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
var predicates_1 = __webpack_require__(4);
var module_1 = __webpack_require__(20);
var predicates_2 = __webpack_require__(4);
var param_1 = __webpack_require__(21);
var common_2 = __webpack_require__(3);
var common_3 = __webpack_require__(3);
function quoteRegExp(string, param) {
var surroundPattern = ['', ''], result = string.replace(/[\\\[\]\^$*+?.()|{}]/g, "\\$&");
if (!param)
return result;
switch (param.squash) {
case false:
surroundPattern = ['(', ')' + (param.isOptional ? '?' : '')];
break;
case true:
result = result.replace(/\/$/, '');
surroundPattern = ['(?:\/(', ')|\/)?'];
break;
default:
surroundPattern = [("(" + param.squash + "|"), ')?'];
break;
}
return result + surroundPattern[0] + param.type.pattern.source + surroundPattern[1];
}
var memoizeTo = function (obj, prop, fn) { return obj[prop] = obj[prop] || fn(); };
/**
* @ngdoc object
* @name ui.router.util.type:UrlMatcher
*
* @description
* Matches URLs against patterns and extracts named parameters from the path or the search
* part of the URL. A URL pattern consists of a path pattern, optionally followed by '?' and a list
* of search parameters. Multiple search parameter names are separated by '&'. Search parameters
* do not influence whether or not a URL is matched, but their values are passed through into
* the matched parameters returned by {@link ui.router.util.type:UrlMatcher#methods_exec exec}.
*
* Path parameter placeholders can be specified using simple colon/catch-all syntax or curly brace
* syntax, which optionally allows a regular expression for the parameter to be specified:
*
* * `':'` name - colon placeholder
* * `'*'` name - catch-all placeholder
* * `'{' name '}'` - curly placeholder
* * `'{' name ':' regexp|type '}'` - curly placeholder with regexp or type name. Should the
* regexp itself contain curly braces, they must be in matched pairs or escaped with a backslash.
*
* Parameter names may contain only word characters (latin letters, digits, and underscore) and
* must be unique within the pattern (across both path and search parameters). For colon
* placeholders or curly placeholders without an explicit regexp, a path parameter matches any
* number of characters other than '/'. For catch-all placeholders the path parameter matches
* any number of characters.
*
* Examples:
*
* * `'/hello/'` - Matches only if the path is exactly '/hello/'. There is no special treatment for
* trailing slashes, and patterns have to match the entire path, not just a prefix.
* * `'/user/:id'` - Matches '/user/bob' or '/user/1234!!!' or even '/user/' but not '/user' or
* '/user/bob/details'. The second path segment will be captured as the parameter 'id'.
* * `'/user/{id}'` - Same as the previous example, but using curly brace syntax.
* * `'/user/{id:[^/]*}'` - Same as the previous example.
* * `'/user/{id:[0-9a-fA-F]{1,8}}'` - Similar to the previous example, but only matches if the id
* parameter consists of 1 to 8 hex digits.
* * `'/files/{path:.*}'` - Matches any URL starting with '/files/' and captures the rest of the
* path into the parameter 'path'.
* * `'/files/*path'` - ditto.
* * `'/calendar/{start:date}'` - Matches "/calendar/2014-11-12" (because the pattern defined
* in the built-in `date` Type matches `2014-11-12`) and provides a Date object in $stateParams.start
*
* @param {string} pattern The pattern to compile into a matcher.
* @param {Object} config A configuration object hash
* * `caseInsensitive` - `true` if URL matching should be case insensitive, otherwise `false`, the default value (for backward compatibility) is `false`.
* * `strict` - `false` if matching against a URL with a trailing slash should be treated as equivalent to a URL without a trailing slash, the default value is `true`.
*
* @property {string} prefix A static prefix of this pattern. The matcher guarantees that any
* URL matching this matcher (i.e. any string for which {@link ui.router.util.type:UrlMatcher#methods_exec exec()} returns
* non-null) will start with this prefix.
*
* @property {string} pattern The pattern that was passed into the constructor
*
* @returns {Object} New `UrlMatcher` object
*/
var UrlMatcher = (function () {
function UrlMatcher(pattern, config) {
var _this = this;
this.pattern = pattern;
this.config = config;
this._cache = { path: [], pattern: null };
this._children = [];
this._params = [];
this._segments = [];
this._compiled = [];
this.config = common_1.defaults(this.config, {
params: {},
strict: true,
caseInsensitive: false,
paramMap: common_1.identity
});
// Find all placeholders and create a compiled pattern, using either classic or curly syntax:
// '*' name
// ':' name
// '{' name '}'
// '{' name ':' regexp '}'
// The regular expression is somewhat complicated due to the need to allow curly braces
// inside the regular expression. The placeholder regexp breaks down as follows:
// ([:*])([\w\[\]]+) - classic placeholder ($1 / $2) (search version has - for snake-case)
// \{([\w\[\]]+)(?:\:\s*( ... ))?\} - curly brace placeholder ($3) with optional regexp/type ... ($4) (search version has - for snake-case
// (?: ... | ... | ... )+ - the regexp consists of any number of atoms, an atom being either
// [^{}\\]+ - anything other than curly braces or backslash
// \\. - a backslash escape
// \{(?:[^{}\\]+|\\.)*\} - a matched set of curly braces containing other atoms
var placeholder = /([:*])([\w\[\]]+)|\{([\w\[\]]+)(?:\:\s*((?:[^{}\\]+|\\.|\{(?:[^{}\\]+|\\.)*\})+))?\}/g, searchPlaceholder = /([:]?)([\w\[\].-]+)|\{([\w\[\].-]+)(?:\:\s*((?:[^{}\\]+|\\.|\{(?:[^{}\\]+|\\.)*\})+))?\}/g, last = 0, m, patterns = [];
var checkParamErrors = function (id) {
if (!UrlMatcher.nameValidator.test(id))
throw new Error("Invalid parameter name '" + id + "' in pattern '" + pattern + "'");
if (common_1.find(_this._params, hof_1.propEq('id', id)))
throw new Error("Duplicate parameter name '" + id + "' in pattern '" + pattern + "'");
};
// Split into static segments separated by path parameter placeholders.
// The number of segments is always 1 more than the number of parameters.
var matchDetails = function (m, isSearch) {
// IE[78] returns '' for unmatched groups instead of null
var id = m[2] || m[3], regexp = isSearch ? m[4] : m[4] || (m[1] === '*' ? '.*' : null);
return {
id: id,
regexp: regexp,
cfg: _this.config.params[id],
segment: pattern.substring(last, m.index),
type: !regexp ? null : module_1.paramTypes.type(regexp || "string") || common_1.inherit(module_1.paramTypes.type("string"), {
pattern: new RegExp(regexp, _this.config.caseInsensitive ? 'i' : undefined)
})
};
};
var p, segment;
while ((m = placeholder.exec(pattern))) {
p = matchDetails(m, false);
if (p.segment.indexOf('?') >= 0)
break; // we're into the search part
checkParamErrors(p.id);
this._params.push(module_1.Param.fromPath(p.id, p.type, this.config.paramMap(p.cfg, false)));
this._segments.push(p.segment);
patterns.push([p.segment, common_1.tail(this._params)]);
last = placeholder.lastIndex;
}
segment = pattern.substring(last);
// Find any search parameter names and remove them from the last segment
var i = segment.indexOf('?');
if (i >= 0) {
var search = segment.substring(i);
segment = segment.substring(0, i);
if (search.length > 0) {
last = 0;
while ((m = searchPlaceholder.exec(search))) {
p = matchDetails(m, true);
checkParamErrors(p.id);
this._params.push(module_1.Param.fromSearch(p.id, p.type, this.config.paramMap(p.cfg, true)));
last = placeholder.lastIndex;
}
}
}
this._segments.push(segment);
common_1.extend(this, {
_compiled: patterns.map(function (pattern) { return quoteRegExp.apply(null, pattern); }).concat(quoteRegExp(segment)),
prefix: this._segments[0]
});
Object.freeze(this);
}
/**
* @ngdoc function
* @name ui.router.util.type:UrlMatcher#append
* @methodOf ui.router.util.type:UrlMatcher
*
* @description
* @TODO
*
* @example
* @TODO
*
* @param {UrlMatcher} url A `UrlMatcher` instance to append as a child of the current `UrlMatcher`.
*/
UrlMatcher.prototype.append = function (url) {
this._children.push(url);
common_1.forEach(url._cache, function (val, key) { return url._cache[key] = predicates_1.isArray(val) ? [] : null; });
url._cache.path = this._cache.path.concat(this);
return url;
};
UrlMatcher.prototype.isRoot = function () {
return this._cache.path.length === 0;
};
UrlMatcher.prototype.toString = function () {
return this.pattern;
};
/**
* @ngdoc function
* @name ui.router.util.type:UrlMatcher#exec
* @methodOf ui.router.util.type:UrlMatcher
*
* @description
* Tests the specified path against this matcher, and returns an object containing the captured
* parameter values, or null if the path does not match. The returned object contains the values
* of any search parameters that are mentioned in the pattern, but their value may be null if
* they are not present in `search`. This means that search parameters are always treated
* as optional.
*
* @example
* <pre>
* new UrlMatcher('/user/{id}?q&r').exec('/user/bob', {
* x: '1', q: 'hello'
* });
* // returns { id: 'bob', q: 'hello', r: null }
* </pre>
*
* @param {string} path The URL path to match, e.g. `$location.path()`.
* @param {Object} search URL search parameters, e.g. `$location.search()`.
* @param {string} hash URL hash e.g. `$location.hash()`.
* @param {Object} options
* @returns {Object} The captured parameter values.
*/
UrlMatcher.prototype.exec = function (path, search, hash, options) {
var _this = this;
if (search === void 0) { search = {}; }
if (options === void 0) { options = {}; }
var match = memoizeTo(this._cache, 'pattern', function () {
return new RegExp([
'^',
common_1.unnest(_this._cache.path.concat(_this).map(hof_1.prop('_compiled'))).join(''),
_this.config.strict === false ? '\/?' : '',
'$'
].join(''), _this.config.caseInsensitive ? 'i' : undefined);
}).exec(path);
if (!match)
return null;
//options = defaults(options, { isolate: false });
var allParams = this.parameters(), pathParams = allParams.filter(function (param) { return !param.isSearch(); }), searchParams = allParams.filter(function (param) { return param.isSearch(); }), nPathSegments = this._cache.path.concat(this).map(function (urlm) { return urlm._segments.length - 1; }).reduce(function (a, x) { return a + x; }), values = {};
if (nPathSegments !== match.length - 1)
throw new Error("Unbalanced capture group in route '" + this.pattern + "'");
function decodePathArray(string) {
var reverseString = function (str) { return str.split("").reverse().join(""); };
var unquoteDashes = function (str) { return str.replace(/\\-/g, "-"); };
var split = reverseString(string).split(/-(?!\\)/);
var allReversed = common_1.map(split, reverseString);
return common_1.map(allReversed, unquoteDashes).reverse();
}
for (var i = 0; i < nPathSegments; i++) {
var param = pathParams[i];
var value = match[i + 1];
// if the param value matches a pre-replace pair, replace the value before decoding.
for (var j = 0; j < param.replace.length; j++) {
if (param.replace[j].from === value)
value = param.replace[j].to;
}
if (value && param.array === true)
value = decodePathArray(value);
if (predicates_2.isDefined(value))
value = param.type.decode(value);
values[param.id] = param.value(value);
}
common_1.forEach(searchParams, function (param) {
var value = search[param.id];
for (var j = 0; j < param.replace.length; j++) {
if (param.replace[j].from === value)
value = param.replace[j].to;
}
if (predicates_2.isDefined(value))
value = param.type.decode(value);
values[param.id] = param.value(value);
});
if (hash)
values["#"] = hash;
return values;
};
/**
* @ngdoc function
* @name ui.router.util.type:UrlMatcher#parameters
* @methodOf ui.router.util.type:UrlMatcher
*
* @description
* Returns the names of all path and search parameters of this pattern in order of appearance.
*
* @returns {Array.<Param>} An array of [[Param]] objects. Must be treated as read-only. If the
* pattern has no parameters, an empty array is returned.
*/
UrlMatcher.prototype.parameters = function (opts) {
if (opts === void 0) { opts = {}; }
if (opts.inherit === false)
return this._params;
return common_1.unnest(this._cache.path.concat(this).map(hof_1.prop('_params')));
};
UrlMatcher.prototype.parameter = function (id, opts) {
if (opts === void 0) { opts = {}; }
var parent = common_1.tail(this._cache.path);
return (common_1.find(this._params, hof_1.propEq('id', id)) ||
(opts.inherit !== false && parent && parent.parameter(id)) ||
null);
};
/**
* @ngdoc function
* @name ui.router.util.type:UrlMatcher#validates
* @methodOf ui.router.util.type:UrlMatcher
*
* @description
* Checks an object hash of parameters to validate their correctness according to the parameter
* types of this `UrlMatcher`.
*
* @param {Object} params The object hash of parameters to validate.
* @returns {boolean} Returns `true` if `params` validates, otherwise `false`.
*/
UrlMatcher.prototype.validates = function (params) {
var _this = this;
var validParamVal = function (param, val) { return !param || param.validates(val); };
return common_1.pairs(params || {}).map(function (_a) {
var key = _a[0], val = _a[1];
return validParamVal(_this.parameter(key), val);
}).reduce(common_1.allTrueR, true);
};
/**
* @ngdoc function
* @name ui.router.util.type:UrlMatcher#format
* @methodOf ui.router.util.type:UrlMatcher
*
* @description
* Creates a URL that matches this pattern by substituting the specified values
* for the path and search parameters. Null values for path parameters are
* treated as empty strings.
*
* @example
* <pre>
* new UrlMatcher('/user/{id}?q').format({ id:'bob', q:'yes' });
* // returns '/user/bob?q=yes'
* </pre>
*
* @param {Object} values the values to substitute for the parameters in this pattern.
* @returns {string} the formatted URL (path and optionally search part).
*/
UrlMatcher.prototype.format = function (values) {
if (values === void 0) { values = {}; }
if (!this.validates(values))
return null;
// Build the full path of UrlMatchers (including all parent UrlMatchers)
var urlMatchers = this._cache.path.slice().concat(this);
// Extract all the static segments and Params into an ordered array
var pathSegmentsAndParams = urlMatchers.map(UrlMatcher.pathSegmentsAndParams).reduce(common_2.unnestR, []);
// Extract the query params into a separate array
var queryParams = urlMatchers.map(UrlMatcher.queryParams).reduce(common_2.unnestR, []);
/**
* Given a Param,
* Applies the parameter value, then returns details about it
*/
function getDetails(param) {
// Normalize to typed value
var value = param.value(values[param.id]);
var isDefaultValue = param.isDefaultValue(value);
// Check if we're in squash mode for the parameter
var squash = isDefaultValue ? param.squash : false;
// Allow the Parameter's Type to encode the value
var encoded = param.type.encode(value);
return { param: param, value: value, isDefaultValue: isDefaultValue, squash: squash, encoded: encoded };
}
// Build up the path-portion from the list of static segments and parameters
var pathString = pathSegmentsAndParams.reduce(function (acc, x) {
// The element is a static segment (a raw string); just append it
if (predicates_1.isString(x))
return acc + x;
// Otherwise, it's a Param. Fetch details about the parameter value
var _a = getDetails(x), squash = _a.squash, encoded = _a.encoded, param = _a.param;
// If squash is === true, try to remove a slash from the path
if (squash === true)
return (acc.match(/\/$/)) ? acc.slice(0, -1) : acc;
// If squash is a string, use the string for the param value
if (predicates_1.isString(squash))
return acc + squash;
if (squash !== false)
return acc; // ?
if (encoded == null)
return acc;
// If this parameter value is an array, encode the value using encodeDashes
if (predicates_1.isArray(encoded))
return acc + common_1.map(encoded, UrlMatcher.encodeDashes).join("-");
// If the parameter type is "raw", then do not encodeURIComponent
if (param.type.raw)
return acc + encoded;
// Encode the value
return acc + encodeURIComponent(encoded);
}, "");
// Build the query string by applying parameter values (array or regular)
// then mapping to key=value, then flattening and joining using "&"
var queryString = queryParams.map(function (param) {
var _a = getDetails(param), squash = _a.squash, encoded = _a.encoded, isDefaultValue = _a.isDefaultValue;
if (encoded == null || (isDefaultValue && squash !== false))
return;
if (!predicates_1.isArray(encoded))
encoded = [encoded];
if (encoded.length === 0)
return;
if (!param.type.raw)
encoded = common_1.map(encoded, encodeURIComponent);
return encoded.map(function (val) { return (param.id + "=" + val); });
}).filter(common_1.identity).reduce(common_2.unnestR, []).join("&");
// Concat the pathstring with the queryString (if exists) and the hashString (if exists)
return pathString + (queryString ? "?" + queryString : "") + (values["#"] ? "#" + values["#"] : "");
};
UrlMatcher.encodeDashes = function (str) {
return encodeURIComponent(str).replace(/-/g, function (c) { return ("%5C%" + c.charCodeAt(0).toString(16).toUpperCase()); });
};
/** Given a matcher, return an array with the matcher's path segments and path params, in order */
UrlMatcher.pathSegmentsAndParams = function (matcher) {
var staticSegments = matcher._segments;
var pathParams = matcher._params.filter(function (p) { return p.location === param_1.DefType.PATH; });
return common_3.arrayTuples(staticSegments, pathParams.concat(undefined)).reduce(common_2.unnestR, []).filter(function (x) { return x !== "" && predicates_2.isDefined(x); });
};
/** Given a matcher, return an array with the matcher's query params */
UrlMatcher.queryParams = function (matcher) {
return matcher._params.filter(function (p) { return p.location === param_1.DefType.SEARCH; });
};
UrlMatcher.nameValidator = /^\w+([-.]+\w+)*(?:\[\])?$/;
return UrlMatcher;
}());
exports.UrlMatcher = UrlMatcher;
/***/ },
/* 47 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module url */ /** for typedoc */
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var module_1 = __webpack_require__(45);
var module_2 = __webpack_require__(20);
function getDefaultConfig() {
return {
strict: module_1.matcherConfig.strictMode(),
caseInsensitive: module_1.matcherConfig.caseInsensitive()
};
}
/**
* Factory for [[UrlMatcher]] instances.
*
* The factory is available to ng1 services as
* `$urlMatcherFactor` or ng1 providers as `$urlMatcherFactoryProvider`.
*/
var UrlMatcherFactory = (function () {
function UrlMatcherFactory() {
common_1.extend(this, { UrlMatcher: module_1.UrlMatcher, Param: module_2.Param });
}
/**
* Defines whether URL matching should be case sensitive (the default behavior), or not.
*
* @param value `false` to match URL in a case sensitive manner; otherwise `true`;
* @returns the current value of caseInsensitive
*/
UrlMatcherFactory.prototype.caseInsensitive = function (value) {
return module_1.matcherConfig.caseInsensitive(value);
};
/**
* Defines whether URLs should match trailing slashes, or not (the default behavior).
*
* @param value `false` to match trailing slashes in URLs, otherwise `true`.
* @returns the current value of strictMode
*/
UrlMatcherFactory.prototype.strictMode = function (value) {
return module_1.matcherConfig.strictMode(value);
};
/**
* Sets the default behavior when generating or matching URLs with default parameter values.
*
* @param value A string that defines the default parameter URL squashing behavior.
* - `nosquash`: When generating an href with a default parameter value, do not squash the parameter value from the URL
* - `slash`: When generating an href with a default parameter value, squash (remove) the parameter value, and, if the
* parameter is surrounded by slashes, squash (remove) one slash from the URL
* - any other string, e.g. "~": When generating an href with a default parameter value, squash (remove)
* the parameter value from the URL and replace it with this string.
* @returns the current value of defaultSquashPolicy
*/
UrlMatcherFactory.prototype.defaultSquashPolicy = function (value) {
return module_1.matcherConfig.defaultSquashPolicy(value);
};
/**
* Creates a [[UrlMatcher]] for the specified pattern.
*
* @param pattern The URL pattern.
* @param config The config object hash.
* @returns The UrlMatcher.
*/
UrlMatcherFactory.prototype.compile = function (pattern, config) {
return new module_1.UrlMatcher(pattern, common_1.extend(getDefaultConfig(), config));
};
/**
* Returns true if the specified object is a [[UrlMatcher]], or false otherwise.
*
* @param object The object to perform the type check against.
* @returns `true` if the object matches the `UrlMatcher` interface, by
* implementing all the same methods.
*/
UrlMatcherFactory.prototype.isMatcher = function (object) {
// TODO: typeof?
if (!predicates_1.isObject(object))
return false;
var result = true;
common_1.forEach(module_1.UrlMatcher.prototype, function (val, name) {
if (predicates_1.isFunction(val))
result = result && (predicates_1.isDefined(object[name]) && predicates_1.isFunction(object[name]));
});
return result;
};
;
/**
* Registers a custom [[Type]] object that can be used to generate URLs with typed parameters.
*
* @param name The type name.
* @param definition The type definition. See [[Type]] for information on the values accepted.
* @param definitionFn A function that is injected before the app
* runtime starts. The result of this function is merged into the existing `definition`.
* See [[Type]] for information on the values accepted.
*
* @returns - if a type was registered: the [[UrlMatcherFactory]]
* - if only the `name` parameter was specified: the currently registered [[Type]] object, or undefined
*
* ---
*
* This is a simple example of a custom type that encodes and decodes items from an
* array, using the array index as the URL-encoded value:
*
* @example
* ```
*
* var list = ['John', 'Paul', 'George', 'Ringo'];
*
* $urlMatcherFactoryProvider.type('listItem', {
* encode: function(item) {
* // Represent the list item in the URL using its corresponding index
* return list.indexOf(item);
* },
* decode: function(item) {
* // Look up the list item by index
* return list[parseInt(item, 10)];
* },
* is: function(item) {
* // Ensure the item is valid by checking to see that it appears
* // in the list
* return list.indexOf(item) > -1;
* }
* });
*
* $stateProvider.state('list', {
* url: "/list/{item:listItem}",
* controller: function($scope, $stateParams) {
* console.log($stateParams.item);
* }
* });
*
* // ...
*
* // Changes URL to '/list/3', logs "Ringo" to the console
* $state.go('list', { item: "Ringo" });
* ```
*/
UrlMatcherFactory.prototype.type = function (name, definition, definitionFn) {
var type = module_2.paramTypes.type(name, definition, definitionFn);
return !predicates_1.isDefined(definition) ? type : this;
};
;
/** @hidden */
UrlMatcherFactory.prototype.$get = function () {
module_2.paramTypes.enqueue = false;
module_2.paramTypes._flushTypeQueue();
return this;
};
;
return UrlMatcherFactory;
}());
exports.UrlMatcherFactory = UrlMatcherFactory;
/***/ },
/* 48 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module url */ /** for typedoc */
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var coreservices_1 = __webpack_require__(6);
var $location = coreservices_1.services.location;
// Returns a string that is a prefix of all strings matching the RegExp
function regExpPrefix(re) {
var prefix = /^\^((?:\\[^a-zA-Z0-9]|[^\\\[\]\^$*+?.()|{}]+)*)/.exec(re.source);
return (prefix != null) ? prefix[1].replace(/\\(.)/g, "$1") : '';
}
// Interpolates matched values into a String.replace()-style pattern
function interpolate(pattern, match) {
return pattern.replace(/\$(\$|\d{1,2})/, function (m, what) {
return match[what === '$' ? 0 : Number(what)];
});
}
function handleIfMatch($injector, $stateParams, handler, match) {
if (!match)
return false;
var result = $injector.invoke(handler, handler, { $match: match, $stateParams: $stateParams });
return predicates_1.isDefined(result) ? result : true;
}
function appendBasePath(url, isHtml5, absolute) {
var baseHref = coreservices_1.services.locationConfig.baseHref();
if (baseHref === '/')
return url;
if (isHtml5)
return baseHref.slice(0, -1) + url;
if (absolute)
return baseHref.slice(1) + url;
return url;
}
// TODO: Optimize groups of rules with non-empty prefix into some sort of decision tree
function update(rules, otherwiseFn, evt) {
if (evt && evt.defaultPrevented)
return;
function check(rule) {
var handled = rule(coreservices_1.services.$injector, $location);
if (!handled)
return false;
if (predicates_1.isString(handled)) {
$location.replace();
$location.url(handled);
}
return true;
}
var n = rules.length, i;
for (i = 0; i < n; i++) {
if (check(rules[i]))
return;
}
// always check otherwise last to allow dynamic updates to the set of rules
if (otherwiseFn)
check(otherwiseFn);
}
/**
* @ngdoc object
* @name ui.router.router.$urlRouterProvider
*
* @requires ui.router.util.$urlMatcherFactoryProvider
* @requires $locationProvider
*
* @description
* `$urlRouterProvider` has the responsibility of watching `$location`.
* When `$location` changes it runs through a list of rules one by one until a
* match is found. `$urlRouterProvider` is used behind the scenes anytime you specify
* a url in a state configuration. All urls are compiled into a UrlMatcher object.
*
* There are several methods on `$urlRouterProvider` that make it useful to use directly
* in your module config.
*/
var UrlRouterProvider = (function () {
function UrlRouterProvider($urlMatcherFactory, $stateParams) {
this.$urlMatcherFactory = $urlMatcherFactory;
this.$stateParams = $stateParams;
/** @hidden */
this.rules = [];
/** @hidden */
this.otherwiseFn = null;
/** @hidden */
this.interceptDeferred = false;
}
/**
* @ngdoc function
* @name ui.router.router.$urlRouterProvider#rule
* @methodOf ui.router.router.$urlRouterProvider
*
* @description
* Defines rules that are used by `$urlRouterProvider` to find matches for
* specific URLs.
*
* @example
* <pre>
* var app = angular.module('app', ['ui.router.router']);
*
* app.config(function ($urlRouterProvider) {
* // Here's an example of how you might allow case insensitive urls
* $urlRouterProvider.rule(function ($injector, $location) {
* var path = $location.path(),
* normalized = path.toLowerCase();
*
* if (path !== normalized) {
* return normalized;
* }
* });
* });
* </pre>
*
* @param {function} rule Handler function that takes `$injector` and `$location`
* services as arguments. You can use them to return a valid path as a string.
*
* @return {object} `$urlRouterProvider` - `$urlRouterProvider` instance
*/
UrlRouterProvider.prototype.rule = function (rule) {
if (!predicates_1.isFunction(rule))
throw new Error("'rule' must be a function");
this.rules.push(rule);
return this;
};
;
/**
* @ngdoc object
* @name ui.router.router.$urlRouterProvider#otherwise
* @methodOf ui.router.router.$urlRouterProvider
*
* @description
* Defines a path that is used when an invalid route is requested.
*
* @example
* <pre>
* var app = angular.module('app', ['ui.router.router']);
*
* app.config(function ($urlRouterProvider) {
* // if the path doesn't match any of the urls you configured
* // otherwise will take care of routing the user to the
* // specified url
* $urlRouterProvider.otherwise('/index');
*
* // Example of using function rule as param
* $urlRouterProvider.otherwise(function ($injector, $location) {
* return '/a/valid/url';
* });
* });
* </pre>
*
* @param {string|function} rule The url path you want to redirect to or a function
* rule that returns the url path. The function version is passed two params:
* `$injector` and `$location` services, and must return a url string.
*
* @return {object} `$urlRouterProvider` - `$urlRouterProvider` instance
*/
UrlRouterProvider.prototype.otherwise = function (rule) {
if (!predicates_1.isFunction(rule) && !predicates_1.isString(rule))
throw new Error("'rule' must be a string or function");
this.otherwiseFn = predicates_1.isString(rule) ? function () { return rule; } : rule;
return this;
};
;
/**
* @ngdoc function
* @name ui.router.router.$urlRouterProvider#when
* @methodOf ui.router.router.$urlRouterProvider
*
* @description
* Registers a handler for a given url matching.
*
* If the handler is a string, it is
* treated as a redirect, and is interpolated according to the syntax of match
* (i.e. like `String.replace()` for `RegExp`, or like a `UrlMatcher` pattern otherwise).
*
* If the handler is a function, it is injectable. It gets invoked if `$location`
* matches. You have the option of inject the match object as `$match`.
*
* The handler can return
*
* - **falsy** to indicate that the rule didn't match after all, then `$urlRouter`
* will continue trying to find another one that matches.
* - **string** which is treated as a redirect and passed to `$location.url()`
* - **void** or any **truthy** value tells `$urlRouter` that the url was handled.
*
* @example
* <pre>
* var app = angular.module('app', ['ui.router.router']);
*
* app.config(function ($urlRouterProvider) {
* $urlRouterProvider.when($state.url, function ($match, $stateParams) {
* if ($state.$current.navigable !== state ||
* !equalForKeys($match, $stateParams) {
* $state.transitionTo(state, $match, false);
* }
* });
* });
* </pre>
*
* @param {string|object} what The incoming path that you want to redirect.
* @param {string|function} handler The path you want to redirect your user to.
*/
UrlRouterProvider.prototype.when = function (what, handler) {
var _a = this, $urlMatcherFactory = _a.$urlMatcherFactory, $stateParams = _a.$stateParams;
var redirect, handlerIsString = predicates_1.isString(handler);
// @todo Queue this
if (predicates_1.isString(what))
what = $urlMatcherFactory.compile(what);
if (!handlerIsString && !predicates_1.isFunction(handler) && !predicates_1.isArray(handler))
throw new Error("invalid 'handler' in when()");
var strategies = {
matcher: function (_what, _handler) {
if (handlerIsString) {
redirect = $urlMatcherFactory.compile(_handler);
_handler = ['$match', redirect.format.bind(redirect)];
}
return common_1.extend(function () {
return handleIfMatch(coreservices_1.services.$injector, $stateParams, _handler, _what.exec($location.path(), $location.search(), $location.hash()));
}, {
prefix: predicates_1.isString(_what.prefix) ? _what.prefix : ''
});
},
regex: function (_what, _handler) {
if (_what.global || _what.sticky)
throw new Error("when() RegExp must not be global or sticky");
if (handlerIsString) {
redirect = _handler;
_handler = ['$match', function ($match) { return interpolate(redirect, $match); }];
}
return common_1.extend(function () {
return handleIfMatch(coreservices_1.services.$injector, $stateParams, _handler, _what.exec($location.path()));
}, {
prefix: regExpPrefix(_what)
});
}
};
var check = {
matcher: $urlMatcherFactory.isMatcher(what),
regex: what instanceof RegExp
};
for (var n in check) {
if (check[n])
return this.rule(strategies[n](what, handler));
}
throw new Error("invalid 'what' in when()");
};
;
/**
* @ngdoc function
* @name ui.router.router.$urlRouterProvider#deferIntercept
* @methodOf ui.router.router.$urlRouterProvider
*
* @description
* Disables (or enables) deferring location change interception.
*
* If you wish to customize the behavior of syncing the URL (for example, if you wish to
* defer a transition but maintain the current URL), call this method at configuration time.
* Then, at run time, call `$urlRouter.listen()` after you have configured your own
* `$locationChangeSuccess` event handler.
*
* @example
* <pre>
* var app = angular.module('app', ['ui.router.router']);
*
* app.config(function ($urlRouterProvider) {
*
* // Prevent $urlRouter from automatically intercepting URL changes;
* // this allows you to configure custom behavior in between
* // location changes and route synchronization:
* $urlRouterProvider.deferIntercept();
*
* }).run(function ($rootScope, $urlRouter, UserService) {
*
* $rootScope.$on('$locationChangeSuccess', function(e) {
* // UserService is an example service for managing user state
* if (UserService.isLoggedIn()) return;
*
* // Prevent $urlRouter's default handler from firing
* e.preventDefault();
*
* UserService.handleLogin().then(function() {
* // Once the user has logged in, sync the current URL
* // to the router:
* $urlRouter.sync();
* });
* });
*
* // Configures $urlRouter's listener *after* your custom listener
* $urlRouter.listen();
* });
* </pre>
*
* @param {boolean} defer Indicates whether to defer location change interception. Passing
* no parameter is equivalent to `true`.
*/
UrlRouterProvider.prototype.deferIntercept = function (defer) {
if (defer === undefined)
defer = true;
this.interceptDeferred = defer;
};
;
return UrlRouterProvider;
}());
exports.UrlRouterProvider = UrlRouterProvider;
var UrlRouter = (function () {
function UrlRouter(urlRouterProvider) {
this.urlRouterProvider = urlRouterProvider;
common_1.bindFunctions(UrlRouter.prototype, this, this);
}
/**
* @ngdoc function
* @name ui.router.router.$urlRouter#sync
* @methodOf ui.router.router.$urlRouter
*
* @description
* Triggers an update; the same update that happens when the address bar url changes, aka `$locationChangeSuccess`.
* This method is useful when you need to use `preventDefault()` on the `$locationChangeSuccess` event,
* perform some custom logic (route protection, auth, config, redirection, etc) and then finally proceed
* with the transition by calling `$urlRouter.sync()`.
*
* @example
* <pre>
* angular.module('app', ['ui.router'])
* .run(function($rootScope, $urlRouter) {
* $rootScope.$on('$locationChangeSuccess', function(evt) {
* // Halt state change from even starting
* evt.preventDefault();
* // Perform custom logic
* var meetsRequirement = ...
* // Continue with the update and state transition if logic allows
* if (meetsRequirement) $urlRouter.sync();
* });
* });
* </pre>
*/
UrlRouter.prototype.sync = function () {
update(this.urlRouterProvider.rules, this.urlRouterProvider.otherwiseFn);
};
UrlRouter.prototype.listen = function () {
var _this = this;
return this.listener = this.listener || $location.onChange(function (evt) { return update(_this.urlRouterProvider.rules, _this.urlRouterProvider.otherwiseFn, evt); });
};
UrlRouter.prototype.update = function (read) {
if (read) {
this.location = $location.url();
return;
}
if ($location.url() === this.location)
return;
$location.url(this.location);
$location.replace();
};
UrlRouter.prototype.push = function (urlMatcher, params, options) {
$location.url(urlMatcher.format(params || {}));
if (options && options.replace)
$location.replace();
};
/**
* @ngdoc function
* @name ui.router.router.$urlRouter#href
* @methodOf ui.router.router.$urlRouter
*
* @description
* A URL generation method that returns the compiled URL for a given
* {@link ui.router.util.type:UrlMatcher `UrlMatcher`}, populated with the provided parameters.
*
* @example
* <pre>
* $bob = $urlRouter.href(new UrlMatcher("/about/:person"), {
* person: "bob"
* });
* // $bob == "/about/bob";
* </pre>
*
* @param {UrlMatcher} urlMatcher The `UrlMatcher` object which is used as the template of the URL to generate.
* @param {object=} params An object of parameter values to fill the matcher's required parameters.
* @param {object=} options Options object. The options are:
*
* - **`absolute`** - {boolean=false}, If true will generate an absolute url, e.g. "http://www.example.com/fullurl".
*
* @returns {string} Returns the fully compiled URL, or `null` if `params` fail validation against `urlMatcher`
*/
UrlRouter.prototype.href = function (urlMatcher, params, options) {
if (!urlMatcher.validates(params))
return null;
var url = urlMatcher.format(params);
options = options || {};
var cfg = coreservices_1.services.locationConfig;
var isHtml5 = cfg.html5Mode();
if (!isHtml5 && url !== null) {
url = "#" + cfg.hashPrefix() + url;
}
url = appendBasePath(url, isHtml5, options.absolute);
if (!options.absolute || !url) {
return url;
}
var slash = (!isHtml5 && url ? '/' : ''), port = cfg.port();
port = (port === 80 || port === 443 ? '' : ':' + port);
return [cfg.protocol(), '://', cfg.host(), port, slash, url].join('');
};
return UrlRouter;
}());
exports.UrlRouter = UrlRouter;
/***/ },
/* 49 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
function __export(m) {
for (var p in m) if (!exports.hasOwnProperty(p)) exports[p] = m[p];
}
/** @module view */ /** for typedoc */
__export(__webpack_require__(50));
/***/ },
/* 50 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module view */ /** for typedoc */
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
var predicates_1 = __webpack_require__(4);
var module_1 = __webpack_require__(2);
var match = function (obj1) {
var keys = [];
for (var _i = 1; _i < arguments.length; _i++) {
keys[_i - 1] = arguments[_i];
}
return function (obj2) { return keys.reduce(function (memo, key) { return memo && obj1[key] === obj2[key]; }, true); };
};
/**
* The View service
*/
var ViewService = (function () {
function ViewService() {
var _this = this;
this.uiViews = [];
this.viewConfigs = [];
this._viewConfigFactories = {};
this.sync = function () {
var uiViewsByFqn = _this.uiViews.map(function (uiv) { return [uiv.fqn, uiv]; }).reduce(common_1.applyPairs, {});
/**
* Given a ui-view and a ViewConfig, determines if they "match".
*
* A ui-view has a fully qualified name (fqn) and a context object. The fqn is built from its overall location in
* the DOM, describing its nesting relationship to any parent ui-view tags it is nested inside of.
*
* A ViewConfig has a target ui-view name and a context anchor. The ui-view name can be a simple name, or
* can be a segmented ui-view path, describing a portion of a ui-view fqn.
*
* If the ViewConfig's target ui-view name is a simple name (no dots), then a ui-view matches if:
* - the ui-view's name matches the ViewConfig's target name
* - the ui-view's context matches the ViewConfig's anchor
*
* If the ViewConfig's target ui-view name is a segmented name (with dots), then a ui-view matches if:
* - There exists a parent ui-view where:
* - the parent ui-view's name matches the first segment (index 0) of the ViewConfig's target name
* - the parent ui-view's context matches the ViewConfig's anchor
* - And the remaining segments (index 1..n) of the ViewConfig's target name match the tail of the ui-view's fqn
*
* Example:
*
* DOM:
* <div ui-view> <!-- created in the root context (name: "") -->
* <div ui-view="foo"> <!-- created in the context named: "A" -->
* <div ui-view> <!-- created in the context named: "A.B" -->
* <div ui-view="bar"> <!-- created in the context named: "A.B.C" -->
* </div>
* </div>
* </div>
* </div>
*
* uiViews: [
* { fqn: "$default", creationContext: { name: "" } },
* { fqn: "$default.foo", creationContext: { name: "A" } },
* { fqn: "$default.foo.$default", creationContext: { name: "A.B" } }
* { fqn: "$default.foo.$default.bar", creationContext: { name: "A.B.C" } }
* ]
*
* These four view configs all match the ui-view with the fqn: "$default.foo.$default.bar":
*
* - ViewConfig1: { uiViewName: "bar", uiViewContextAnchor: "A.B.C" }
* - ViewConfig2: { uiViewName: "$default.bar", uiViewContextAnchor: "A.B" }
* - ViewConfig3: { uiViewName: "foo.$default.bar", uiViewContextAnchor: "A" }
* - ViewConfig4: { uiViewName: "$default.foo.$default.bar", uiViewContextAnchor: "" }
*
* Using ViewConfig3 as an example, it matches the ui-view with fqn "$default.foo.$default.bar" because:
* - The ViewConfig's segmented target name is: [ "foo", "$default", "bar" ]
* - There exists a parent ui-view (which has fqn: "$default.foo") where:
* - the parent ui-view's name "foo" matches the first segment "foo" of the ViewConfig's target name
* - the parent ui-view's context "A" matches the ViewConfig's anchor context "A"
* - And the remaining segments [ "$default", "bar" ].join("."_ of the ViewConfig's target name match
* the tail of the ui-view's fqn "default.bar"
*/
var matches = function (uiView) { return function (viewConfig) {
// Split names apart from both viewConfig and uiView into segments
var vc = viewConfig.viewDecl;
var vcSegments = vc.$uiViewName.split(".");
var uivSegments = uiView.fqn.split(".");
// Check if the tails of the segment arrays match. ex, these arrays' tails match:
// vc: ["foo", "bar"], uiv fqn: ["$default", "foo", "bar"]
if (!common_1.equals(vcSegments, uivSegments.slice(0 - vcSegments.length)))
return false;
// Now check if the fqn ending at the first segment of the viewConfig matches the context:
// ["$default", "foo"].join(".") == "$default.foo", does the ui-view $default.foo context match?
var negOffset = (1 - vcSegments.length) || undefined;
var fqnToFirstSegment = uivSegments.slice(0, negOffset).join(".");
var uiViewContext = uiViewsByFqn[fqnToFirstSegment].creationContext;
return vc.$uiViewContextAnchor === (uiViewContext && uiViewContext.name);
}; };
// Return the number of dots in the fully qualified name
function uiViewDepth(uiView) {
return uiView.fqn.split(".").length;
}
// Return the ViewConfig's context's depth in the context tree.
function viewConfigDepth(config) {
var context = config.viewDecl.$context, count = 0;
while (++count && context.parent)
context = context.parent;
return count;
}
// Given a depth function, returns a compare function which can return either ascending or descending order
var depthCompare = hof_1.curry(function (depthFn, posNeg, left, right) { return posNeg * (depthFn(left) - depthFn(right)); });
var matchingConfigPair = function (uiView) {
var matchingConfigs = _this.viewConfigs.filter(matches(uiView));
if (matchingConfigs.length > 1)
matchingConfigs.sort(depthCompare(viewConfigDepth, -1)); // descending
return [uiView, matchingConfigs[0]];
};
var configureUiView = function (_a) {
var uiView = _a[0], viewConfig = _a[1];
// If a parent ui-view is reconfigured, it could destroy child ui-views.
// Before configuring a child ui-view, make sure it's still in the active uiViews array.
if (_this.uiViews.indexOf(uiView) !== -1)
uiView.configUpdated(viewConfig);
};
_this.uiViews.sort(depthCompare(uiViewDepth, 1)).map(matchingConfigPair).forEach(configureUiView);
};
}
ViewService.prototype.rootContext = function (context) {
return this._rootContext = context || this._rootContext;
};
;
ViewService.prototype.viewConfigFactory = function (viewType, factory) {
this._viewConfigFactories[viewType] = factory;
};
ViewService.prototype.createViewConfig = function (node, decl) {
var cfgFactory = this._viewConfigFactories[decl.$type];
if (!cfgFactory)
throw new Error("ViewService: No view config factory registered for type " + decl.$type);
return cfgFactory(node, decl);
};
/**
* De-registers a ViewConfig.
*
* @param viewConfig The ViewConfig view to deregister.
*/
ViewService.prototype.deactivateViewConfig = function (viewConfig) {
module_1.trace.traceViewServiceEvent("<- Removing", viewConfig);
common_1.removeFrom(this.viewConfigs, viewConfig);
};
;
ViewService.prototype.activateViewConfig = function (viewConfig) {
module_1.trace.traceViewServiceEvent("-> Registering", viewConfig);
this.viewConfigs.push(viewConfig);
};
;
/**
* Allows a `ui-view` element to register its canonical name with a callback that allows it to
* be updated with a template, controller, and local variables.
*
* @param {String} name The fully-qualified name of the `ui-view` object being registered.
* @param {Function} configUpdatedCallback A callback that receives updates to the content & configuration
* of the view.
* @return {Function} Returns a de-registration function used when the view is destroyed.
*/
ViewService.prototype.registerUiView = function (uiView) {
module_1.trace.traceViewServiceUiViewEvent("-> Registering", uiView);
var uiViews = this.uiViews;
var fqnMatches = function (uiv) { return uiv.fqn === uiView.fqn; };
if (uiViews.filter(fqnMatches).length)
module_1.trace.traceViewServiceUiViewEvent("!!!! duplicate uiView named:", uiView);
uiViews.push(uiView);
this.sync();
return function () {
var idx = uiViews.indexOf(uiView);
if (idx <= 0) {
module_1.trace.traceViewServiceUiViewEvent("Tried removing non-registered uiView", uiView);
return;
}
module_1.trace.traceViewServiceUiViewEvent("<- Deregistering", uiView);
common_1.removeFrom(uiViews)(uiView);
};
};
;
/**
* Returns the list of views currently available on the page, by fully-qualified name.
*
* @return {Array} Returns an array of fully-qualified view names.
*/
ViewService.prototype.available = function () {
return this.uiViews.map(hof_1.prop("fqn"));
};
/**
* Returns the list of views on the page containing loaded content.
*
* @return {Array} Returns an array of fully-qualified view names.
*/
ViewService.prototype.active = function () {
return this.uiViews.filter(hof_1.prop("$config")).map(hof_1.prop("name"));
};
/**
* Normalizes a view's name from a state.views configuration block.
*
* @param context the context object (state declaration) that the view belongs to
* @param rawViewName the name of the view, as declared in the [[StateDeclaration.views]]
*
* @returns the normalized uiViewName and uiViewContextAnchor that the view targets
*/
ViewService.normalizeUiViewTarget = function (context, rawViewName) {
if (rawViewName === void 0) { rawViewName = ""; }
// TODO: Validate incoming view name with a regexp to allow:
// ex: "view.name@foo.bar" , "^.^.view.name" , "view.name@^.^" , "" ,
// "@" , "$default@^" , "!$default.$default" , "!foo.bar"
var viewAtContext = rawViewName.split("@");
var uiViewName = viewAtContext[0] || "$default"; // default to unnamed view
var uiViewContextAnchor = predicates_1.isString(viewAtContext[1]) ? viewAtContext[1] : "^"; // default to parent context
// Handle relative view-name sugar syntax.
// Matches rawViewName "^.^.^.foo.bar" into array: ["^.^.^.foo.bar", "^.^.^", "foo.bar"],
var relativeViewNameSugar = /^(\^(?:\.\^)*)\.(.*$)/.exec(uiViewName);
if (relativeViewNameSugar) {
// Clobbers existing contextAnchor (rawViewName validation will fix this)
uiViewContextAnchor = relativeViewNameSugar[1]; // set anchor to "^.^.^"
uiViewName = relativeViewNameSugar[2]; // set view-name to "foo.bar"
}
if (uiViewName.charAt(0) === '!') {
uiViewName = uiViewName.substr(1);
uiViewContextAnchor = ""; // target absolutely from root
}
// handle parent relative targeting "^.^.^"
var relativeMatch = /^(\^(?:\.\^)*)$/;
if (relativeMatch.exec(uiViewContextAnchor)) {
var anchor = uiViewContextAnchor.split(".").reduce((function (anchor, x) { return anchor.parent; }), context);
uiViewContextAnchor = anchor.name;
}
return { uiViewName: uiViewName, uiViewContextAnchor: uiViewContextAnchor };
};
return ViewService;
}());
exports.ViewService = ViewService;
/***/ },
/* 51 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module core */ /** */
var stateParams_1 = __webpack_require__(25);
var queue_1 = __webpack_require__(8);
var common_1 = __webpack_require__(3);
/**
* Global mutable state
*
* This is where we hold the global mutable state such as current state, current
* params, current transition, last successful transition, last attempted transition, etc.
*/
var UIRouterGlobals = (function () {
function UIRouterGlobals(transitionService) {
var _this = this;
/**
* Current parameter values
*
* The parameter values from the latest successful transition
*/
this.params = new stateParams_1.StateParams();
/**
* The transition history
*
* This queue's size is limited to a maximum number (default: 1)
*/
this.transitionHistory = new queue_1.Queue([], 1);
/**
* The history of successful transitions
*
* This queue's size is limited to a maximum number (default: 1)
*/
this.successfulTransitions = new queue_1.Queue([], 1);
var beforeNewTransition = function ($transition$) {
_this.transition = $transition$;
_this.transitionHistory.enqueue($transition$);
var updateGlobalState = function () {
_this.successfulTransitions.enqueue($transition$);
_this.$current = $transition$.$to();
_this.current = _this.$current.self;
common_1.copy($transition$.params(), _this.params);
};
$transition$.onSuccess({}, updateGlobalState, { priority: 10000 });
var clearCurrentTransition = function () { if (_this.transition === $transition$)
_this.transition = null; };
$transition$.promise.then(clearCurrentTransition, clearCurrentTransition);
};
transitionService.onBefore({}, ['$transition$', beforeNewTransition]);
}
return UIRouterGlobals;
}());
exports.UIRouterGlobals = UIRouterGlobals;
/***/ },
/* 52 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module core */ /** */
var urlMatcherFactory_1 = __webpack_require__(47);
var urlRouter_1 = __webpack_require__(48);
var state_1 = __webpack_require__(18);
var urlRouter_2 = __webpack_require__(48);
var transitionService_1 = __webpack_require__(43);
var view_1 = __webpack_require__(50);
var stateRegistry_1 = __webpack_require__(36);
var stateService_1 = __webpack_require__(37);
var globals_1 = __webpack_require__(51);
/**
* The master class used to instantiate an instance of UI-Router.
*
* This class instantiates and wires the global UI-Router services.
*
* After instantiating a new instance of the Router class, configure it for your app. For instance, register
* your app states with the [[stateRegistry]] (and set url options using ...). Then, tell UI-Router to monitor
* the URL by calling `urlRouter.listen()` ([[URLRouter.listen]])
*/
var UIRouter = (function () {
function UIRouter() {
this.viewService = new view_1.ViewService();
this.transitionService = new transitionService_1.TransitionService(this.viewService);
this.globals = new globals_1.UIRouterGlobals(this.transitionService);
this.urlMatcherFactory = new urlMatcherFactory_1.UrlMatcherFactory();
this.urlRouterProvider = new urlRouter_1.UrlRouterProvider(this.urlMatcherFactory, this.globals.params);
this.urlRouter = new urlRouter_2.UrlRouter(this.urlRouterProvider);
this.stateRegistry = new stateRegistry_1.StateRegistry(this.urlMatcherFactory, this.urlRouterProvider);
/** @hidden TODO: move this to ng1.ts */
this.stateProvider = new state_1.StateProvider(this.stateRegistry);
this.stateService = new stateService_1.StateService(this.viewService, this.urlRouter, this.transitionService, this.stateRegistry, this.stateProvider, this.globals);
this.viewService.rootContext(this.stateRegistry.root());
this.globals.$current = this.stateRegistry.root();
this.globals.current = this.globals.$current.self;
}
return UIRouter;
}());
exports.UIRouter = UIRouter;
/***/ },
/* 53 */
/***/ function(module, exports, __webpack_require__) {
/**
* # UI-Router for Angular 1
*
* - Provides an implementation for the [[CoreServices]] API, based on angular 1 services.
* - Also registers some services with the angular 1 injector.
* - Creates and bootstraps a new [[UIRouter]] object. Ties it to the the angular 1 lifecycle.
*
* @module ng1
* @preferred
*/
"use strict";
/** for typedoc */
var router_1 = __webpack_require__(52);
var coreservices_1 = __webpack_require__(6);
var common_1 = __webpack_require__(3);
var hof_1 = __webpack_require__(5);
var predicates_1 = __webpack_require__(4);
var module_1 = __webpack_require__(44);
var module_2 = __webpack_require__(40);
var module_3 = __webpack_require__(17);
var trace_1 = __webpack_require__(12);
var viewsBuilder_1 = __webpack_require__(54);
var templateFactory_1 = __webpack_require__(55);
/** @hidden */
var app = angular.module("ui.router.angular1", []);
/**
* @ngdoc overview
* @name ui.router.util
*
* @description
* # ui.router.util sub-module
*
* This module is a dependency of other sub-modules. Do not include this module as a dependency
* in your angular app (use {@link ui.router} module instead).
*
*/
angular.module('ui.router.util', ['ng', 'ui.router.init']);
/**
* @ngdoc overview
* @name ui.router.router
*
* @requires ui.router.util
*
* @description
* # ui.router.router sub-module
*
* This module is a dependency of other sub-modules. Do not include this module as a dependency
* in your angular app (use {@link ui.router} module instead).
*/
angular.module('ui.router.router', ['ui.router.util']);
/**
* @ngdoc overview
* @name ui.router.state
*
* @requires ui.router.router
* @requires ui.router.util
*
* @description
* # ui.router.state sub-module
*
* This module is a dependency of the main ui.router module. Do not include this module as a dependency
* in your angular app (use {@link ui.router} module instead).
*
*/
angular.module('ui.router.state', ['ui.router.router', 'ui.router.util', 'ui.router.angular1']);
/**
* @ngdoc overview
* @name ui.router
*
* @requires ui.router.state
*
* @description
* # ui.router
*
* ## The main module for ui.router
* There are several sub-modules included with the ui.router module, however only this module is needed
* as a dependency within your angular app. The other modules are for organization purposes.
*
* The modules are:
* * ui.router - the main "umbrella" module
* * ui.router.router -
*
* *You'll need to include **only** this module as the dependency within your angular app.*
*
* <pre>
* <!doctype html>
* <html ng-app="myApp">
* <head>
* <script src="js/angular.js"></script>
* <!-- Include the ui-router script -->
* <script src="js/angular-ui-router.min.js"></script>
* <script>
* // ...and add 'ui.router' as a dependency
* var myApp = angular.module('myApp', ['ui.router']);
* </script>
* </head>
* <body>
* </body>
* </html>
* </pre>
*/
angular.module('ui.router', ['ui.router.init', 'ui.router.state', 'ui.router.angular1']);
angular.module('ui.router.compat', ['ui.router']);
/**
* Annotates a controller expression (may be a controller function(), a "controllername",
* or "controllername as name")
*
* - Temporarily decorates $injector.instantiate.
* - Invokes $controller() service
* - Calls $injector.instantiate with controller constructor
* - Annotate constructor
* - Undecorate $injector
*
* returns an array of strings, which are the arguments of the controller expression
*/
function annotateController(controllerExpression) {
var $injector = coreservices_1.services.$injector;
var $controller = $injector.get("$controller");
var oldInstantiate = $injector.instantiate;
try {
var deps_1;
$injector.instantiate = function fakeInstantiate(constructorFunction) {
$injector.instantiate = oldInstantiate; // Un-decorate ASAP
deps_1 = $injector.annotate(constructorFunction);
};
$controller(controllerExpression, { $scope: {} });
return deps_1;
}
finally {
$injector.instantiate = oldInstantiate;
}
}
exports.annotateController = annotateController;
runBlock.$inject = ['$injector', '$q'];
function runBlock($injector, $q) {
coreservices_1.services.$injector = $injector;
coreservices_1.services.$q = $q;
}
app.run(runBlock);
var router = null;
ng1UIRouter.$inject = ['$locationProvider'];
/** This angular 1 provider instantiates a Router and exposes its services via the angular injector */
function ng1UIRouter($locationProvider) {
// Create a new instance of the Router when the ng1UIRouterProvider is initialized
router = new router_1.UIRouter();
// Apply ng1 `views` builder to the StateBuilder
router.stateRegistry.decorator("views", viewsBuilder_1.ng1ViewsBuilder);
router.viewService.viewConfigFactory('ng1', viewsBuilder_1.ng1ViewConfigFactory);
// Bind LocationConfig.hashPrefix to $locationProvider.hashPrefix
common_1.bindFunctions($locationProvider, coreservices_1.services.locationConfig, $locationProvider, ['hashPrefix']);
// Create a LocationService.onChange registry
var urlListeners = [];
coreservices_1.services.location.onChange = function (callback) {
urlListeners.push(callback);
return function () { return common_1.removeFrom(urlListeners)(callback); };
};
this.$get = $get;
$get.$inject = ['$location', '$browser', '$sniffer', '$rootScope', '$http', '$templateCache'];
function $get($location, $browser, $sniffer, $rootScope, $http, $templateCache) {
// Bind $locationChangeSuccess to the listeners registered in LocationService.onChange
$rootScope.$on("$locationChangeSuccess", function (evt) { return urlListeners.forEach(function (fn) { return fn(evt); }); });
// Bind LocationConfig.html5Mode to $locationProvider.html5Mode and $sniffer.history
coreservices_1.services.locationConfig.html5Mode = function () {
var html5Mode = $locationProvider.html5Mode();
html5Mode = predicates_1.isObject(html5Mode) ? html5Mode.enabled : html5Mode;
return html5Mode && $sniffer.history;
};
coreservices_1.services.template.get = function (url) {
return $http.get(url, { cache: $templateCache, headers: { Accept: 'text/html' } }).then(hof_1.prop("data"));
};
// Bind these LocationService functions to $location
common_1.bindFunctions($location, coreservices_1.services.location, $location, ["replace", "url", "path", "search", "hash"]);
// Bind these LocationConfig functions to $location
common_1.bindFunctions($location, coreservices_1.services.locationConfig, $location, ['port', 'protocol', 'host']);
// Bind these LocationConfig functions to $browser
common_1.bindFunctions($browser, coreservices_1.services.locationConfig, $browser, ['baseHref']);
return router;
}
}
var resolveFactory = function () { return ({
/**
* This emulates most of the behavior of the ui-router 0.2.x $resolve.resolve() service API.
* @param invocables an object, with keys as resolve names and values as injectable functions
* @param locals key/value pre-resolved data (locals)
* @param parent a promise for a "parent resolve"
*/
resolve: function (invocables, locals, parent) {
if (locals === void 0) { locals = {}; }
var parentNode = new module_1.Node(new module_3.State({ params: {} }));
var node = new module_1.Node(new module_3.State({ params: {} }));
var context = new module_2.ResolveContext([parentNode, node]);
context.addResolvables(module_2.Resolvable.makeResolvables(invocables), node.state);
var resolveData = function (parentLocals) {
var rewrap = function (_locals) { return module_2.Resolvable.makeResolvables(common_1.map(_locals, function (local) { return function () { return local; }; })); };
context.addResolvables(rewrap(parentLocals), parentNode.state);
context.addResolvables(rewrap(locals), node.state);
return context.resolvePath();
};
return parent ? parent.then(resolveData) : resolveData({});
}
}); };
function $stateParamsFactory(ng1UIRouter) {
return ng1UIRouter.globals.params;
}
// The 'ui.router' ng1 module depends on 'ui.router.init' module.
angular.module('ui.router.init', []).provider("ng1UIRouter", ng1UIRouter);
// This effectively calls $get() to init when we enter runtime
angular.module('ui.router.init').run(['ng1UIRouter', function (ng1UIRouter) { }]);
// $urlMatcherFactory service and $urlMatcherFactoryProvider
angular.module('ui.router.util').provider('$urlMatcherFactory', ['ng1UIRouterProvider', function () { return router.urlMatcherFactory; }]);
angular.module('ui.router.util').run(['$urlMatcherFactory', function ($urlMatcherFactory) { }]);
// $urlRouter service and $urlRouterProvider
function getUrlRouterProvider() {
router.urlRouterProvider["$get"] = function () {
router.urlRouter.update(true);
if (!this.interceptDeferred)
router.urlRouter.listen();
return router.urlRouter;
};
return router.urlRouterProvider;
}
angular.module('ui.router.router').provider('$urlRouter', ['ng1UIRouterProvider', getUrlRouterProvider]);
angular.module('ui.router.router').run(['$urlRouter', function ($urlRouter) { }]);
// $state service and $stateProvider
// $urlRouter service and $urlRouterProvider
function getStateProvider() {
router.stateProvider["$get"] = function () {
// Autoflush once we are in runtime
router.stateRegistry.stateQueue.autoFlush(router.stateService);
return router.stateService;
};
return router.stateProvider;
}
angular.module('ui.router.state').provider('$state', ['ng1UIRouterProvider', getStateProvider]);
angular.module('ui.router.state').run(['$state', function ($state) { }]);
// $stateParams service
angular.module('ui.router.state').factory('$stateParams', ['ng1UIRouter', function (ng1UIRouter) {
return ng1UIRouter.globals.params;
}]);
// $transitions service and $transitionsProvider
function getTransitionsProvider() {
loadAllControllerLocals.$inject = ['$transition$'];
function loadAllControllerLocals($transition$) {
var loadLocals = function (vc) {
var node = common_1.find($transition$.treeChanges().to, hof_1.propEq('state', vc.viewDecl.$context));
// Temporary fix; This whole callback should be nuked when fixing #2662
if (!node)
return coreservices_1.services.$q.when();
var resolveCtx = node.resolveContext;
var controllerDeps = annotateController(vc.controller);
var resolvables = resolveCtx.getResolvables();
function $loadControllerLocals() { }
$loadControllerLocals.$inject = controllerDeps.filter(function (dep) { return resolvables.hasOwnProperty(dep); });
// Load any controller resolves that aren't already loaded
return resolveCtx.invokeLater($loadControllerLocals)
.then(function () { return vc.locals = common_1.map(resolvables, function (res) { return res.data; }); });
};
var loadAllLocals = $transition$.views("entering").filter(function (vc) { return !!vc.controller; }).map(loadLocals);
return coreservices_1.services.$q.all(loadAllLocals).then(common_1.noop);
}
router.transitionService.onFinish({}, loadAllControllerLocals);
router.transitionService["$get"] = function () { return router.transitionService; };
return router.transitionService;
}
angular.module('ui.router.state').provider('$transitions', ['ng1UIRouterProvider', getTransitionsProvider]);
// $templateFactory service
angular.module('ui.router.util').factory('$templateFactory', ['ng1UIRouter', function () { return new templateFactory_1.TemplateFactory(); }]);
// The $view service
angular.module('ui.router').factory('$view', function () { return router.viewService; });
// The old $resolve service
angular.module('ui.router').factory('$resolve', resolveFactory);
// $trace service
angular.module("ui.router").service("$trace", function () { return trace_1.trace; });
watchDigests.$inject = ['$rootScope'];
function watchDigests($rootScope) {
$rootScope.$watch(function () { trace_1.trace.approximateDigests++; });
}
exports.watchDigests = watchDigests;
angular.module("ui.router").run(watchDigests);
/***/ },
/* 54 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
var common_1 = __webpack_require__(3);
var strings_1 = __webpack_require__(9);
var view_1 = __webpack_require__(50);
var predicates_1 = __webpack_require__(4);
var coreservices_1 = __webpack_require__(6);
var trace_1 = __webpack_require__(12);
var templateFactory_1 = __webpack_require__(55);
exports.ng1ViewConfigFactory = function (node, view) { return new Ng1ViewConfig(node, view); };
/**
* This is a [[StateBuilder.builder]] function for angular1 `views`.
*
* When the [[StateBuilder]] builds a [[State]] object from a raw [[StateDeclaration]], this builder
* handles the `views` property with logic specific to angular-ui-router (ng1).
*
* If no `views: {}` property exists on the [[StateDeclaration]], then it creates the `views` object
* and applies the state-level configuration to a view named `$default`.
*/
function ng1ViewsBuilder(state) {
var tplKeys = ['templateProvider', 'templateUrl', 'template', 'notify', 'async'], ctrlKeys = ['controller', 'controllerProvider', 'controllerAs', 'resolveAs'], compKeys = ['component', 'bindings'], nonCompKeys = tplKeys.concat(ctrlKeys), allKeys = compKeys.concat(nonCompKeys);
var views = {}, viewsObject = state.views || { "$default": common_1.pick(state, allKeys) };
common_1.forEach(viewsObject, function (config, name) {
// Account for views: { "": { template... } }
name = name || "$default";
// Account for views: { header: "headerComponent" }
if (predicates_1.isString(config))
config = { component: config };
if (!Object.keys(config).length)
return;
// Configure this view for routing to an angular 1.5+ style .component (or any directive, really)
if (config.component) {
if (nonCompKeys.map(function (key) { return predicates_1.isDefined(config[key]); }).reduce(common_1.anyTrueR, false)) {
throw new Error("Cannot combine: " + compKeys.join("|") + " with: " + nonCompKeys.join("|") + " in stateview: 'name@" + state.name + "'");
}
// Dynamically build a template like "<component-name input1='$resolve.foo'></component-name>"
config.templateProvider = ['$injector', function ($injector) {
var resolveFor = function (key) { return config.bindings && config.bindings[key] || key; };
var prefix = angular.version.minor >= 3 ? "::" : "";
var attrs = getComponentInputs($injector, config.component)
.map(function (key) { return (strings_1.kebobString(key) + "='" + prefix + "$resolve." + resolveFor(key) + "'"); }).join(" ");
var kebobName = strings_1.kebobString(config.component);
return "<" + kebobName + " " + attrs + "></" + kebobName + ">";
}];
}
config.resolveAs = config.resolveAs || '$resolve';
config.$type = "ng1";
config.$context = state;
config.$name = name;
var normalized = view_1.ViewService.normalizeUiViewTarget(config.$context, config.$name);
config.$uiViewName = normalized.uiViewName;
config.$uiViewContextAnchor = normalized.uiViewContextAnchor;
views[name] = config;
});
return views;
}
exports.ng1ViewsBuilder = ng1ViewsBuilder;
// for ng 1.2 style, process the scope: { input: "=foo" } object
var scopeBindings = function (bindingsObj) { return Object.keys(bindingsObj || {})
.map(function (key) { return [key, /^[=<](.*)/.exec(bindingsObj[key])]; })
.filter(function (tuple) { return predicates_1.isDefined(tuple[1]); })
.map(function (tuple) { return tuple[1][1] || tuple[0]; }); };
// for ng 1.3+ bindToController or 1.5 component style, process a $$bindings object
var bindToCtrlBindings = function (bindingsObj) { return Object.keys(bindingsObj || {})
.filter(function (key) { return !!/[=<]/.exec(bindingsObj[key].mode); })
.map(function (key) { return bindingsObj[key].attrName; }); };
// Given a directive definition, find its object input attributes
// Use different properties, depending on the type of directive (component, bindToController, normal)
var getBindings = function (def) {
if (predicates_1.isObject(def.bindToController))
return scopeBindings(def.bindToController);
if (def.$$bindings && def.$$bindings.bindToController)
return bindToCtrlBindings(def.$$bindings.bindToController);
if (def.$$isolateBindings)
return bindToCtrlBindings(def.$$isolateBindings);
return scopeBindings(def.scope);
};
// Gets all the directive(s)' inputs ('=' and '<')
function getComponentInputs($injector, name) {
var cmpDefs = $injector.get(name + "Directive"); // could be multiple
if (!cmpDefs || !cmpDefs.length)
throw new Error("Unable to find component named '" + name + "'");
return cmpDefs.map(getBindings).reduce(common_1.unnestR, []);
}
var Ng1ViewConfig = (function () {
function Ng1ViewConfig(node, viewDecl) {
this.node = node;
this.viewDecl = viewDecl;
this.loaded = false;
}
Ng1ViewConfig.prototype.load = function () {
var _this = this;
var $q = coreservices_1.services.$q;
if (!this.hasTemplate())
throw new Error("No template configuration specified for '" + this.viewDecl.$uiViewName + "@" + this.viewDecl.$uiViewContextAnchor + "'");
var injector = this.node.resolveContext;
var params = this.node.paramValues;
var promises = {
template: $q.when(this.getTemplate(params, new templateFactory_1.TemplateFactory(), injector)),
controller: $q.when(this.getController(injector))
};
return $q.all(promises).then(function (results) {
trace_1.trace.traceViewServiceEvent("Loaded", _this);
_this.controller = results.controller;
_this.template = results.template;
});
};
/**
* Checks a view configuration to ensure that it specifies a template.
*
* @return {boolean} Returns `true` if the configuration contains a valid template, otherwise `false`.
*/
Ng1ViewConfig.prototype.hasTemplate = function () {
return !!(this.viewDecl.template || this.viewDecl.templateUrl || this.viewDecl.templateProvider);
};
Ng1ViewConfig.prototype.getTemplate = function (params, $factory, injector) {
return $factory.fromConfig(this.viewDecl, params, injector.invokeLater.bind(injector));
};
/**
* Gets the controller for a view configuration.
*
* @returns {Function|Promise.<Function>} Returns a controller, or a promise that resolves to a controller.
*/
Ng1ViewConfig.prototype.getController = function (injector) {
//* @param {Object} locals A context object from transition.context() to invoke a function in the correct context
var provider = this.viewDecl.controllerProvider;
return predicates_1.isInjectable(provider) ? injector.invokeLater(provider, {}) : this.viewDecl.controller;
};
return Ng1ViewConfig;
}());
exports.Ng1ViewConfig = Ng1ViewConfig;
/***/ },
/* 55 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/** @module view */ /** for typedoc */
var predicates_1 = __webpack_require__(4);
var coreservices_1 = __webpack_require__(6);
/**
* Service which manages loading of templates from a ViewConfig.
*/
var TemplateFactory = (function () {
function TemplateFactory() {
}
/**
* Creates a template from a configuration object.
*
* @param config Configuration object for which to load a template.
* The following properties are search in the specified order, and the first one
* that is defined is used to create the template:
*
* @param params Parameters to pass to the template function.
* @param injectFn Function to which an injectable function may be passed.
* If templateProvider is defined, this injectFn will be used to invoke it.
*
* @return {string|object} The template html as a string, or a promise for
* that string,or `null` if no template is configured.
*/
TemplateFactory.prototype.fromConfig = function (config, params, injectFn) {
return (predicates_1.isDefined(config.template) ? this.fromString(config.template, params) :
predicates_1.isDefined(config.templateUrl) ? this.fromUrl(config.templateUrl, params) :
predicates_1.isDefined(config.templateProvider) ? this.fromProvider(config.templateProvider, params, injectFn) :
null);
};
;
/**
* Creates a template from a string or a function returning a string.
*
* @param template html template as a string or function that returns an html template as a string.
* @param params Parameters to pass to the template function.
*
* @return {string|object} The template html as a string, or a promise for that
* string.
*/
TemplateFactory.prototype.fromString = function (template, params) {
return predicates_1.isFunction(template) ? template(params) : template;
};
;
/**
* Loads a template from the a URL via `$http` and `$templateCache`.
*
* @param {string|Function} url url of the template to load, or a function
* that returns a url.
* @param {Object} params Parameters to pass to the url function.
* @return {string|Promise.<string>} The template html as a string, or a promise
* for that string.
*/
TemplateFactory.prototype.fromUrl = function (url, params) {
if (predicates_1.isFunction(url))
url = url(params);
if (url == null)
return null;
return coreservices_1.services.template.get(url);
};
;
/**
* Creates a template by invoking an injectable provider function.
*
* @param provider Function to invoke via `locals`
* @param {Function} injectFn a function used to invoke the template provider
* @return {string|Promise.<string>} The template html as a string, or a promise
* for that string.
*/
TemplateFactory.prototype.fromProvider = function (provider, params, injectFn) {
return injectFn(provider);
};
;
return TemplateFactory;
}());
exports.TemplateFactory = TemplateFactory;
/***/ },
/* 56 */
/***/ function(module, exports, __webpack_require__) {
"use strict";
/**
* These are the UI-Router angular 1 directives.
*
* These directives are used in templates to create viewports and navigate to states
*
* @preferred @module ng1_directives
*/ /** for typedoc */
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var hof_1 = __webpack_require__(5);
/** @hidden */
function parseStateRef(ref, current) {
var preparsed = ref.match(/^\s*({[^}]*})\s*$/), parsed;
if (preparsed)
ref = current + '(' + preparsed[1] + ')';
parsed = ref.replace(/\n/g, " ").match(/^([^(]+?)\s*(\((.*)\))?$/);
if (!parsed || parsed.length !== 4)
throw new Error("Invalid state ref '" + ref + "'");
return { state: parsed[1], paramExpr: parsed[3] || null };
}
/** @hidden */
function stateContext(el) {
var $uiView = el.parent().inheritedData('$uiView');
var context = hof_1.parse('$cfg.node.state')($uiView);
return context && context.name ? context : undefined;
}
/** @hidden */
function getTypeInfo(el) {
// SVGAElement does not use the href attribute, but rather the 'xlinkHref' attribute.
var isSvg = Object.prototype.toString.call(el.prop('href')) === '[object SVGAnimatedString]';
var isForm = el[0].nodeName === "FORM";
return {
attr: isForm ? "action" : (isSvg ? 'xlink:href' : 'href'),
isAnchor: el.prop("tagName").toUpperCase() === "A",
clickable: !isForm
};
}
/** @hidden */
function clickHook(el, $state, $timeout, type, current) {
return function (e) {
var button = e.which || e.button, target = current();
if (!(button > 1 || e.ctrlKey || e.metaKey || e.shiftKey || el.attr('target'))) {
// HACK: This is to allow ng-clicks to be processed before the transition is initiated:
var transition = $timeout(function () {
$state.go(target.state, target.params, target.options);
});
e.preventDefault();
// if the state has no URL, ignore one preventDefault from the <a> directive.
var ignorePreventDefaultCount = type.isAnchor && !target.href ? 1 : 0;
e.preventDefault = function () {
if (ignorePreventDefaultCount-- <= 0)
$timeout.cancel(transition);
};
}
};
}
/** @hidden */
function defaultOpts(el, $state) {
return { relative: stateContext(el) || $state.$current, inherit: true };
}
/**
* `ui-sref`: A directive for linking to a state
*
* A directive that binds a link (`<a>` tag) to a state. If the state has an associated
* URL, the directive will automatically generate & update the `href` attribute via
* the {@link ui.router.state.$state#methods_href $state.href()} method. Clicking
* the link will trigger a state transition with optional parameters.
*
* Also middle-clicking, right-clicking, and ctrl-clicking on the link will be
* handled natively by the browser.
*
* You can also use relative state paths within ui-sref, just like the relative
* paths passed to `$state.go()`. You just need to be aware that the path is relative
* to the state that the link lives in, in other words the state that loaded the
* template containing the link.
*
* You can specify options to pass to {@link ui.router.state.$state#go $state.go()}
* using the `ui-sref-opts` attribute. Options are restricted to `location`, `inherit`,
* and `reload`.
*
* Here's an example of how you'd use ui-sref and how it would compile. If you have the
* following template:
*
* @example
* ```html
*
* <pre>
* <a ui-sref="home">Home</a> | <a ui-sref="about">About</a> | <a ui-sref="{page: 2}">Next page</a>
*
* <ul>
* <li ng-repeat="contact in contacts">
* <a ui-sref="contacts.detail({ id: contact.id })">{{ contact.name }}</a>
* </li>
* </ul>
* </pre>
* ```
*
* Then the compiled html would be (assuming Html5Mode is off and current state is contacts):
*
* ```html
*
* <pre>
* <a href="#/home" ui-sref="home">Home</a> | <a href="#/about" ui-sref="about">About</a> | <a href="#/contacts?page=2" ui-sref="{page: 2}">Next page</a>
*
* <ul>
* <li ng-repeat="contact in contacts">
* <a href="#/contacts/1" ui-sref="contacts.detail({ id: contact.id })">Joe</a>
* </li>
* <li ng-repeat="contact in contacts">
* <a href="#/contacts/2" ui-sref="contacts.detail({ id: contact.id })">Alice</a>
* </li>
* <li ng-repeat="contact in contacts">
* <a href="#/contacts/3" ui-sref="contacts.detail({ id: contact.id })">Bob</a>
* </li>
* </ul>
*
* <a ui-sref="home" ui-sref-opts="{reload: true}">Home</a>
* </pre>
* ```
*
* @param {string} ui-sref 'stateName' can be any valid absolute or relative state
* @param {Object} ui-sref-opts options to pass to [[StateService.go]]
*/
var uiSrefNg1 = ['$state', '$timeout',
function $StateRefDirective($state, $timeout) {
return {
restrict: 'A',
require: ['?^uiSrefActive', '?^uiSrefActiveEq'],
link: function (scope, element, attrs, uiSrefActive) {
var ref = parseStateRef(attrs.uiSref, $state.current.name);
var def = { state: ref.state, href: null, params: null, options: null };
var type = getTypeInfo(element);
var active = uiSrefActive[1] || uiSrefActive[0];
var unlinkInfoFn = null;
def.options = common_1.extend(defaultOpts(element, $state), attrs.uiSrefOpts ? scope.$eval(attrs.uiSrefOpts) : {});
var update = function (val) {
if (val)
def.params = angular.copy(val);
def.href = $state.href(ref.state, def.params, def.options);
if (unlinkInfoFn)
unlinkInfoFn();
if (active)
unlinkInfoFn = active.$$addStateInfo(ref.state, def.params);
if (def.href !== null)
attrs.$set(type.attr, def.href);
};
if (ref.paramExpr) {
scope.$watch(ref.paramExpr, function (val) { if (val !== def.params)
update(val); }, true);
def.params = angular.copy(scope.$eval(ref.paramExpr));
}
update();
if (!type.clickable)
return;
element.bind("click", clickHook(element, $state, $timeout, type, function () { return def; }));
}
};
}];
/**
* `ui-state`: A dynamic version of `ui-sref`
*
* Much like ui-sref, but will accept named $scope properties to evaluate for a state definition,
* params and override options.
*
* @example
* ```html
*
* <li ng-repeat="nav in navlinks">
* <a ui-state="nav.statename">{{nav.description}}</a>
* </li>
*
* @param {string} ui-state 'stateName' can be any valid absolute or relative state
* @param {Object} ui-state-params params to pass to [[StateService.href]]
* @param {Object} ui-state-opts options to pass to [[StateService.go]]
*/
var uiStateNg1 = ['$state', '$timeout',
function $StateRefDynamicDirective($state, $timeout) {
return {
restrict: 'A',
require: ['?^uiSrefActive', '?^uiSrefActiveEq'],
link: function (scope, element, attrs, uiSrefActive) {
var type = getTypeInfo(element);
var active = uiSrefActive[1] || uiSrefActive[0];
var group = [attrs.uiState, attrs.uiStateParams || null, attrs.uiStateOpts || null];
var watch = '[' + group.map(function (val) { return val || 'null'; }).join(', ') + ']';
var def = { state: null, params: null, options: null, href: null };
var unlinkInfoFn = null;
function runStateRefLink(group) {
def.state = group[0];
def.params = group[1];
def.options = group[2];
def.href = $state.href(def.state, def.params, def.options);
if (unlinkInfoFn)
unlinkInfoFn();
if (active)
unlinkInfoFn = active.$$addStateInfo(def.state, def.params);
if (def.href)
attrs.$set(type.attr, def.href);
}
scope.$watch(watch, runStateRefLink, true);
runStateRefLink(scope.$eval(watch));
if (!type.clickable)
return;
element.bind("click", clickHook(element, $state, $timeout, type, function () { return def; }));
}
};
}];
/**
* `ui-sref-active` and `ui-sref-active-eq`: A directive that adds a CSS class when a `ui-sref` is active
*
* A directive working alongside ui-sref to add classes to an element when the
* related ui-sref directive's state is active, and removing them when it is inactive.
* The primary use-case is to simplify the special appearance of navigation menus
* relying on `ui-sref`, by having the "active" state's menu button appear different,
* distinguishing it from the inactive menu items.
*
* ui-sref-active can live on the same element as ui-sref or on a parent element. The first
* ui-sref-active found at the same level or above the ui-sref will be used.
*
* Will activate when the ui-sref's target state or any child state is active. If you
* need to activate only when the ui-sref target state is active and *not* any of
* it's children, then you will use ui-sref-active-eq
*
* Given the following template:
* @example
* ```html
*
* <pre>
* <ul>
* <li ui-sref-active="active" class="item">
* <a href ui-sref="app.user({user: 'bilbobaggins'})">@bilbobaggins</a>
* </li>
* </ul>
* </pre>
* ```
*
*
* When the app state is "app.user" (or any children states), and contains the state parameter "user" with value "bilbobaggins",
* the resulting HTML will appear as (note the 'active' class):
*
* ```html
*
* <pre>
* <ul>
* <li ui-sref-active="active" class="item active">
* <a ui-sref="app.user({user: 'bilbobaggins'})" href="/users/bilbobaggins">@bilbobaggins</a>
* </li>
* </ul>
* </pre>
* ```
*
* The class name is interpolated **once** during the directives link time (any further changes to the
* interpolated value are ignored).
*
* Multiple classes may be specified in a space-separated format:
*
* ```html
* <pre>
* <ul>
* <li ui-sref-active='class1 class2 class3'>
* <a ui-sref="app.user">link</a>
* </li>
* </ul>
* </pre>
* ```
*
* It is also possible to pass ui-sref-active an expression that evaluates
* to an object hash, whose keys represent active class names and whose
* values represent the respective state names/globs.
* ui-sref-active will match if the current active state **includes** any of
* the specified state names/globs, even the abstract ones.
*
* Given the following template, with "admin" being an abstract state:
* @example
* ```html
*
* <pre>
* <div ui-sref-active="{'active': 'admin.*'}">
* <a ui-sref-active="active" ui-sref="admin.roles">Roles</a>
* </div>
* </pre>
* ```
*
* When the current state is "admin.roles" the "active" class will be applied
* to both the <div> and <a> elements. It is important to note that the state
* names/globs passed to ui-sref-active shadow the state provided by ui-sref.
*/
var uiSrefActiveNg1 = ['$state', '$stateParams', '$interpolate', '$transitions',
function $StateRefActiveDirective($state, $stateParams, $interpolate, $transitions) {
return {
restrict: "A",
controller: ['$scope', '$element', '$attrs', '$timeout', function ($scope, $element, $attrs, $timeout) {
var states = [], activeClasses = {}, activeEqClass, uiSrefActive;
// There probably isn't much point in $observing this
// uiSrefActive and uiSrefActiveEq share the same directive object with some
// slight difference in logic routing
activeEqClass = $interpolate($attrs.uiSrefActiveEq || '', false)($scope);
try {
uiSrefActive = $scope.$eval($attrs.uiSrefActive);
}
catch (e) {
}
uiSrefActive = uiSrefActive || $interpolate($attrs.uiSrefActive || '', false)($scope);
if (predicates_1.isObject(uiSrefActive)) {
common_1.forEach(uiSrefActive, function (stateOrName, activeClass) {
if (predicates_1.isString(stateOrName)) {
var ref = parseStateRef(stateOrName, $state.current.name);
addState(ref.state, $scope.$eval(ref.paramExpr), activeClass);
}
});
}
// Allow uiSref to communicate with uiSrefActive[Equals]
this.$$addStateInfo = function (newState, newParams) {
// we already got an explicit state provided by ui-sref-active, so we
// shadow the one that comes from ui-sref
if (predicates_1.isObject(uiSrefActive) && states.length > 0) {
return;
}
var deregister = addState(newState, newParams, uiSrefActive);
update();
return deregister;
};
$scope.$on('$stateChangeSuccess', update);
var updateAfterTransition = ['$transition$', function ($transition$) { $transition$.promise.then(update); }];
var deregisterFn = $transitions.onStart({}, updateAfterTransition);
$scope.$on('$destroy', deregisterFn);
function addState(stateName, stateParams, activeClass) {
var state = $state.get(stateName, stateContext($element));
var stateHash = createStateHash(stateName, stateParams);
var stateInfo = {
state: state || { name: stateName },
params: stateParams,
hash: stateHash
};
states.push(stateInfo);
activeClasses[stateHash] = activeClass;
return function removeState() {
var idx = states.indexOf(stateInfo);
if (idx !== -1)
states.splice(idx, 1);
};
}
/**
* @param {string} state
* @param {Object|string} [params]
* @return {string}
*/
function createStateHash(state, params) {
if (!predicates_1.isString(state)) {
throw new Error('state should be a string');
}
if (predicates_1.isObject(params)) {
return state + common_1.toJson(params);
}
params = $scope.$eval(params);
if (predicates_1.isObject(params)) {
return state + common_1.toJson(params);
}
return state;
}
// Update route state
function update() {
for (var i = 0; i < states.length; i++) {
if (anyMatch(states[i].state, states[i].params)) {
addClass($element, activeClasses[states[i].hash]);
}
else {
removeClass($element, activeClasses[states[i].hash]);
}
if (exactMatch(states[i].state, states[i].params)) {
addClass($element, activeEqClass);
}
else {
removeClass($element, activeEqClass);
}
}
}
function addClass(el, className) { $timeout(function () { el.addClass(className); }); }
function removeClass(el, className) { el.removeClass(className); }
function anyMatch(state, params) { return $state.includes(state.name, params); }
function exactMatch(state, params) { return $state.is(state.name, params); }
update();
}]
};
}];
angular.module('ui.router.state')
.directive('uiSref', uiSrefNg1)
.directive('uiSrefActive', uiSrefActiveNg1)
.directive('uiSrefActiveEq', uiSrefActiveNg1)
.directive('uiState', uiStateNg1);
/***/ },
/* 57 */
/***/ function(module, exports) {
/** @module state */ /** for typedoc */
"use strict";
/**
* @ngdoc filter
* @name ui.router.state.filter:isState
*
* @requires ui.router.state.$state
*
* @description
* Translates to {@link ui.router.state.$state#methods_is $state.is("stateName")}.
*/
$IsStateFilter.$inject = ['$state'];
function $IsStateFilter($state) {
var isFilter = function (state, params, options) {
return $state.is(state, params, options);
};
isFilter.$stateful = true;
return isFilter;
}
exports.$IsStateFilter = $IsStateFilter;
/**
* @ngdoc filter
* @name ui.router.state.filter:includedByState
*
* @requires ui.router.state.$state
*
* @description
* Translates to {@link ui.router.state.$state#methods_includes $state.includes('fullOrPartialStateName')}.
*/
$IncludedByStateFilter.$inject = ['$state'];
function $IncludedByStateFilter($state) {
var includesFilter = function (state, params, options) {
return $state.includes(state, params, options);
};
includesFilter.$stateful = true;
return includesFilter;
}
exports.$IncludedByStateFilter = $IncludedByStateFilter;
angular.module('ui.router.state')
.filter('isState', $IsStateFilter)
.filter('includedByState', $IncludedByStateFilter);
/***/ },
/* 58 */
/***/ function(module, exports, __webpack_require__) {
/** @module ng1_directives */ /** for typedoc */
"use strict";
var common_1 = __webpack_require__(3);
var predicates_1 = __webpack_require__(4);
var trace_1 = __webpack_require__(12);
var rejectFactory_1 = __webpack_require__(10);
var hof_1 = __webpack_require__(5);
var strings_1 = __webpack_require__(9);
/**
* `ui-view`: A viewport directive which is filled in by a view from the active state.
*
* @param {string=} name A view name. The name should be unique amongst the other views in the
* same state. You can have views of the same name that live in different states.
*
* @param {string=} autoscroll It allows you to set the scroll behavior of the browser window
* when a view is populated. By default, $anchorScroll is overridden by ui-router's custom scroll
* service, {@link ui.router.state.$uiViewScroll}. This custom service let's you
* scroll ui-view elements into view when they are populated during a state activation.
*
* *Note: To revert back to old [`$anchorScroll`](http://docs.angularjs.org/api/ng.$anchorScroll)
* functionality, call `$uiViewScrollProvider.useAnchorScroll()`.*
*
* @param {string=} onload Expression to evaluate whenever the view updates.
*
* A view can be unnamed or named.
* @example
* ```html
*
* <!-- Unnamed -->
* <div ui-view></div>
*
* <!-- Named -->
* <div ui-view="viewName"></div>
* ```
*
* You can only have one unnamed view within any template (or root html). If you are only using a
* single view and it is unnamed then you can populate it like so:
* ```
*
* <div ui-view></div>
* $stateProvider.state("home", {
* template: "<h1>HELLO!</h1>"
* })
* ```
*
* The above is a convenient shortcut equivalent to specifying your view explicitly with the {@link ui.router.state.$stateProvider#views `views`}
* config property, by name, in this case an empty name:
* ```js
*
* $stateProvider.state("home", {
* views: {
* "": {
* template: "<h1>HELLO!</h1>"
* }
* }
* })
* ```
*
* But typically you'll only use the views property if you name your view or have more than one view
* in the same template. There's not really a compelling reason to name a view if its the only one,
* but you could if you wanted, like so:
*
* ```html
*
* <div ui-view="main"></div>
* ```
*
* ```js
*
* $stateProvider.state("home", {
* views: {
* "main": {
* template: "<h1>HELLO!</h1>"
* }
* }
* })
* ```
*
* Really though, you'll use views to set up multiple views:
* ```html
*
* <div ui-view></div>
* <div ui-view="chart"></div>
* <div ui-view="data"></div>
* ```
*
* ```js
* $stateProvider.state("home", {
* views: {
* "": {
* template: "<h1>HELLO!</h1>"
* },
* "chart": {
* template: "<chart_thing/>"
* },
* "data": {
* template: "<data_thing/>"
* }
* }
* })
* ```
*
* Examples for `autoscroll`:
*
* ```html
*
* <!-- If autoscroll present with no expression,
* then scroll ui-view into view -->
* <ui-view autoscroll/>
*
* <!-- If autoscroll present with valid expression,
* then scroll ui-view into view if expression evaluates to true -->
* <ui-view autoscroll='true'/>
* <ui-view autoscroll='false'/>
* <ui-view autoscroll='scopeVariable'/>
* ```
*
* Resolve data:
*
* The resolved data from the state's `resolve` block is placed on the scope as `$resolve` (this
* can be customized using [[ViewDeclaration.resolveAs]]). This can be then accessed from the template.
*
* Note that when `controllerAs` is being used, `$resolve` is set on the controller instance *after* the
* controller is instantiated. The `$onInit()` hook can be used to perform initialization code which
* depends on `$resolve` data.
*
* @example
* ```js
*
* $stateProvider.state('home', {
* template: '<my-component user="$resolve.user"></my-component>',
* resolve: {
* user: function(UserService) { return UserService.fetchUser(); }
* }
* });
* ```
*/
var uiViewNg1 = ['$view', '$animate', '$uiViewScroll', '$interpolate', '$q',
function $ViewDirective($view, $animate, $uiViewScroll, $interpolate, $q) {
function getRenderer(attrs, scope) {
return {
enter: function (element, target, cb) {
if (angular.version.minor > 2) {
$animate.enter(element, null, target).then(cb);
}
else {
$animate.enter(element, null, target, cb);
}
},
leave: function (element, cb) {
if (angular.version.minor > 2) {
$animate.leave(element).then(cb);
}
else {
$animate.leave(element, cb);
}
}
};
}
function configsEqual(config1, config2) {
return config1 === config2;
}
var rootData = {
$cfg: { viewDecl: { $context: $view.rootContext() } },
$uiView: {}
};
var directive = {
count: 0,
restrict: 'ECA',
terminal: true,
priority: 400,
transclude: 'element',
compile: function (tElement, tAttrs, $transclude) {
return function (scope, $element, attrs) {
var previousEl, currentEl, currentScope, unregister, onloadExp = attrs.onload || '', autoScrollExp = attrs.autoscroll, renderer = getRenderer(attrs, scope), viewConfig = undefined, inherited = $element.inheritedData('$uiView') || rootData, name = $interpolate(attrs.uiView || attrs.name || '')(scope) || '$default';
var activeUIView = {
id: directive.count++,
name: name,
fqn: inherited.$uiView.fqn ? inherited.$uiView.fqn + "." + name : name,
config: null,
configUpdated: configUpdatedCallback,
get creationContext() {
return hof_1.parse('$cfg.viewDecl.$context')(inherited);
}
};
trace_1.trace.traceUiViewEvent("Linking", activeUIView);
function configUpdatedCallback(config) {
if (configsEqual(viewConfig, config))
return;
trace_1.trace.traceUiViewConfigUpdated(activeUIView, config && config.viewDecl && config.viewDecl.$context);
viewConfig = config;
updateView(config);
}
$element.data('$uiView', { $uiView: activeUIView });
updateView();
unregister = $view.registerUiView(activeUIView);
scope.$on("$destroy", function () {
trace_1.trace.traceUiViewEvent("Destroying/Unregistering", activeUIView);
unregister();
});
function cleanupLastView() {
if (previousEl) {
trace_1.trace.traceUiViewEvent("Removing (previous) el", previousEl.data('$uiView'));
previousEl.remove();
previousEl = null;
}
if (currentScope) {
trace_1.trace.traceUiViewEvent("Destroying scope", activeUIView);
currentScope.$destroy();
currentScope = null;
}
if (currentEl) {
var _viewData_1 = currentEl.data('$uiView');
trace_1.trace.traceUiViewEvent("Animate out", _viewData_1);
renderer.leave(currentEl, function () {
_viewData_1.$$animLeave.resolve();
previousEl = null;
});
previousEl = currentEl;
currentEl = null;
}
}
function updateView(config) {
var newScope = scope.$new();
trace_1.trace.traceUiViewScopeCreated(activeUIView, newScope);
var animEnter = $q.defer(), animLeave = $q.defer();
var $uiViewData = {
$cfg: config,
$uiView: activeUIView,
$animEnter: animEnter.promise,
$animLeave: animLeave.promise,
$$animLeave: animLeave
};
var cloned = $transclude(newScope, function (clone) {
renderer.enter(clone.data('$uiView', $uiViewData), $element, function onUiViewEnter() {
animEnter.resolve();
if (currentScope)
currentScope.$emit('$viewContentAnimationEnded');
if (predicates_1.isDefined(autoScrollExp) && !autoScrollExp || scope.$eval(autoScrollExp)) {
$uiViewScroll(clone);
}
});
cleanupLastView();
});
currentEl = cloned;
currentScope = newScope;
/**
* @ngdoc event
* @name ui.router.state.directive:ui-view#$viewContentLoaded
* @eventOf ui.router.state.directive:ui-view
* @eventType emits on ui-view directive scope
* @description *
* Fired once the view is **loaded**, *after* the DOM is rendered.
*
* @param {Object} event Event object.
*/
currentScope.$emit('$viewContentLoaded', config || viewConfig);
currentScope.$eval(onloadExp);
}
};
}
};
return directive;
}];
$ViewDirectiveFill.$inject = ['$compile', '$controller', '$transitions', '$view', '$timeout'];
/** @hidden */
function $ViewDirectiveFill($compile, $controller, $transitions, $view, $timeout) {
var getControllerAs = hof_1.parse('viewDecl.controllerAs');
var getResolveAs = hof_1.parse('viewDecl.resolveAs');
var getResolveContext = hof_1.parse('node.resolveContext');
return {
restrict: 'ECA',
priority: -400,
compile: function (tElement) {
var initial = tElement.html();
return function (scope, $element) {
var data = $element.data('$uiView');
if (!data)
return;
var cfg = data.$cfg || { viewDecl: {} };
$element.html(cfg.template || initial);
trace_1.trace.traceUiViewFill(data.$uiView, $element.html());
var link = $compile($element.contents());
var controller = cfg.controller;
var controllerAs = getControllerAs(cfg);
var resolveAs = getResolveAs(cfg);
var resolveCtx = getResolveContext(cfg);
var locals = resolveCtx && common_1.map(resolveCtx.getResolvables(), function (r) { return r.data; });
scope[resolveAs] = locals;
if (controller) {
var controllerInstance = $controller(controller, common_1.extend({}, locals, { $scope: scope, $element: $element }));
if (controllerAs) {
scope[controllerAs] = controllerInstance;
scope[controllerAs][resolveAs] = locals;
}
// TODO: Use $view service as a central point for registering component-level hooks
// Then, when a component is created, tell the $view service, so it can invoke hooks
// $view.componentLoaded(controllerInstance, { $scope: scope, $element: $element });
// scope.$on('$destroy', () => $view.componentUnloaded(controllerInstance, { $scope: scope, $element: $element }));
$element.data('$ngControllerController', controllerInstance);
$element.children().data('$ngControllerController', controllerInstance);
registerControllerCallbacks($transitions, controllerInstance, scope, cfg);
}
// Wait for the component to appear in the DOM
if (predicates_1.isString(cfg.viewDecl.component)) {
var cmp_1 = cfg.viewDecl.component;
var kebobName_1 = strings_1.kebobString(cmp_1);
var getComponentController = function () {
var directiveEl = [].slice.call($element[0].children)
.filter(function (el) { return el && el.tagName && el.tagName.toLowerCase() === kebobName_1; });
return directiveEl && angular.element(directiveEl).data("$" + cmp_1 + "Controller");
};
var deregisterWatch_1 = scope.$watch(getComponentController, function (ctrlInstance) {
if (!ctrlInstance)
return;
registerControllerCallbacks($transitions, ctrlInstance, scope, cfg);
deregisterWatch_1();
});
}
link(scope);
};
}
};
}
/** @hidden */
var hasComponentImpl = typeof angular.module('ui.router')['component'] === 'function';
/** @hidden TODO: move these callbacks to $view and/or `/hooks/components.ts` or something */
function registerControllerCallbacks($transitions, controllerInstance, $scope, cfg) {
// Call $onInit() ASAP
if (predicates_1.isFunction(controllerInstance.$onInit) && !(cfg.viewDecl.component && hasComponentImpl))
controllerInstance.$onInit();
var hookOptions = { bind: controllerInstance };
// Add component-level hook for onParamsChange
if (predicates_1.isFunction(controllerInstance.uiOnParamsChanged)) {
// Fire callback on any successful transition
var paramsUpdated_1 = function ($transition$) {
var ctx = cfg.node.resolveContext;
var viewCreationTrans = ctx.getResolvables()['$transition$'].data;
// Exit early if the $transition$ is the same as the view was created within.
// Exit early if the $transition$ will exit the state the view is for.
if ($transition$ === viewCreationTrans || $transition$.exiting().indexOf(cfg.node.state.self) !== -1)
return;
var toParams = $transition$.params("to");
var fromParams = $transition$.params("from");
var toSchema = $transition$.treeChanges().to.map(function (node) { return node.paramSchema; }).reduce(common_1.unnestR, []);
var fromSchema = $transition$.treeChanges().from.map(function (node) { return node.paramSchema; }).reduce(common_1.unnestR, []);
// Find the to params that have different values than the from params
var changedToParams = toSchema.filter(function (param) {
var idx = fromSchema.indexOf(param);
return idx === -1 || !fromSchema[idx].type.equals(toParams[param.id], fromParams[param.id]);
});
// Only trigger callback if a to param has changed or is new
if (changedToParams.length) {
var changedKeys_1 = changedToParams.map(function (x) { return x.id; });
// Filter the params to only changed/new to params. `$transition$.params()` may be used to get all params.
controllerInstance.uiOnParamsChanged(common_1.filter(toParams, function (val, key) { return changedKeys_1.indexOf(key) !== -1; }), $transition$);
}
};
$scope.$on('$destroy', $transitions.onSuccess({}, ['$transition$', paramsUpdated_1]), hookOptions);
// Fire callback on any IGNORED transition
var onDynamic = function ($error$, $transition$) {
if ($error$.type === rejectFactory_1.RejectType.IGNORED)
paramsUpdated_1($transition$);
};
$scope.$on('$destroy', $transitions.onError({}, ['$error$', '$transition$', onDynamic]), hookOptions);
}
// Add component-level hook for uiCanExit
if (predicates_1.isFunction(controllerInstance.uiCanExit)) {
var criteria = { exiting: cfg.node.state.name };
$scope.$on('$destroy', $transitions.onBefore(criteria, controllerInstance.uiCanExit, hookOptions));
}
}
angular.module('ui.router.state').directive('uiView', uiViewNg1);
angular.module('ui.router.state').directive('uiView', $ViewDirectiveFill);
/***/ },
/* 59 */
/***/ function(module, exports) {
"use strict";
/**
* @ngdoc object
* @name ui.router.state.$uiViewScrollProvider
*
* @description
* Provider that returns the {@link ui.router.state.$uiViewScroll} service function.
*/
function $ViewScrollProvider() {
var useAnchorScroll = false;
/**
* @ngdoc function
* @name ui.router.state.$uiViewScrollProvider#useAnchorScroll
* @methodOf ui.router.state.$uiViewScrollProvider
*
* @description
* Reverts back to using the core [`$anchorScroll`](http://docs.angularjs.org/api/ng.$anchorScroll) service for
* scrolling based on the url anchor.
*/
this.useAnchorScroll = function () {
useAnchorScroll = true;
};
/**
* @ngdoc object
* @name ui.router.state.$uiViewScroll
*
* @requires $anchorScroll
* @requires $timeout
*
* @description
* When called with a jqLite element, it scrolls the element into view (after a
* `$timeout` so the DOM has time to refresh).
*
* If you prefer to rely on `$anchorScroll` to scroll the view to the anchor,
* this can be enabled by calling {@link ui.router.state.$uiViewScrollProvider#methods_useAnchorScroll `$uiViewScrollProvider.useAnchorScroll()`}.
*/
this.$get = ['$anchorScroll', '$timeout', function ($anchorScroll, $timeout) {
if (useAnchorScroll) {
return $anchorScroll;
}
return function ($element) {
return $timeout(function () {
$element[0].scrollIntoView();
}, 0, false);
};
}];
}
angular.module('ui.router.state').provider('$uiViewScroll', $ViewScrollProvider);
/***/ }
/******/ ])
});
;
//# sourceMappingURL=angular-ui-router.js.map
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