blob: fb9d500877e38a9b7eedd720be01b8c576c46cb9 [file] [log] [blame]
Utilities =
{
_parse: function(str, sep)
{
var output = {};
str.split(sep).forEach(function(part) {
var item = part.split("=");
var value = decodeURIComponent(item[1]);
if (value[0] == "'" )
output[item[0]] = value.substr(1, value.length - 2);
else
output[item[0]] = value;
});
return output;
},
parseParameters: function()
{
return this._parse(window.location.search.substr(1), "&");
},
parseArguments: function(str)
{
return this._parse(str, " ");
},
extendObject: function(obj1, obj2)
{
for (var attrname in obj2)
obj1[attrname] = obj2[attrname];
return obj1;
},
copyObject: function(obj)
{
return this.extendObject({}, obj);
},
mergeObjects: function(obj1, obj2)
{
return this.extendObject(this.copyObject(obj1), obj2);
},
createClass: function(classConstructor, classMethods)
{
classConstructor.prototype = classMethods;
return classConstructor;
},
createSubclass: function(superclass, classConstructor, classMethods)
{
classConstructor.prototype = Object.create(superclass.prototype);
classConstructor.prototype.constructor = classConstructor;
if (classMethods)
Utilities.extendObject(classConstructor.prototype, classMethods);
return classConstructor;
},
createElement: function(name, attrs, parentElement)
{
var element = document.createElement(name);
for (var key in attrs)
element.setAttribute(key, attrs[key]);
parentElement.appendChild(element);
return element;
},
createSVGElement: function(name, attrs, xlinkAttrs, parentElement)
{
const svgNamespace = "http://www.w3.org/2000/svg";
const xlinkNamespace = "http://www.w3.org/1999/xlink";
var element = document.createElementNS(svgNamespace, name);
for (var key in attrs)
element.setAttribute(key, attrs[key]);
for (var key in xlinkAttrs)
element.setAttributeNS(xlinkNamespace, key, xlinkAttrs[key]);
parentElement.appendChild(element);
return element;
},
browserPrefix: function()
{
// Get the HTML element's CSSStyleDeclaration
var styles = window.getComputedStyle(document.documentElement, '');
// Convert the styles list to an array
var stylesArray = Array.prototype.slice.call(styles);
// Concatenate all the styles in one big string
var stylesString = stylesArray.join('');
// Search the styles string for a known prefix type, settle on Opera if none is found.
var prefixes = stylesString.match(/-(moz|webkit|ms)-/) || (styles.OLink === '' && ['', 'o']);
// prefixes has two elements; e.g. for webkit it has ['-webkit-', 'webkit'];
var prefix = prefixes[1];
// Have 'O' before 'Moz' in the string so it is matched first.
var dom = ('WebKit|O|Moz|MS').match(new RegExp(prefix, 'i'))[0];
// Return all the required prefixes.
return {
dom: dom,
lowercase: prefix,
css: '-' + prefix + '-',
js: prefix[0].toUpperCase() + prefix.substr(1)
};
},
setElementPrefixedProperty: function(element, property, value)
{
element.style[property] = element.style[this.browserPrefix().js + property[0].toUpperCase() + property.substr(1)] = value;
},
stripNonASCIICharacters: function(inputString)
{
return inputString.replace(/[ .,]/g, '');
},
convertObjectToQueryString: function(object)
{
var queryString = [];
for (var property in object) {
if (object.hasOwnProperty(property))
queryString.push(encodeURIComponent(property) + "=" + encodeURIComponent(object[property]));
}
return "?" + queryString.join("&");
},
convertQueryStringToObject: function(queryString)
{
queryString = queryString.substring(1);
if (!queryString)
return null;
var object = {};
queryString.split("&").forEach(function(parameter) {
var components = parameter.split("=");
object[components[0]] = components[1];
});
return object;
},
progressValue: function(value, min, max)
{
return (value - min) / (max - min);
},
lerp: function(value, min, max)
{
return min + (max - min) * value;
},
toFixedNumber: function(number, precision)
{
if (number.toFixed)
return Number(number.toFixed(precision));
return number;
}
};
Array.prototype.swap = function(i, j)
{
var t = this[i];
this[i] = this[j];
this[j] = t;
return this;
}
if (!Array.prototype.fill) {
Array.prototype.fill = function(value) {
if (this == null)
throw new TypeError('Array.prototype.fill called on null or undefined');
var object = Object(this);
var len = parseInt(object.length, 10);
var start = arguments[1];
var relativeStart = parseInt(start, 10) || 0;
var k = relativeStart < 0 ? Math.max(len + relativeStart, 0) : Math.min(relativeStart, len);
var end = arguments[2];
var relativeEnd = end === undefined ? len : (parseInt(end) || 0) ;
var final = relativeEnd < 0 ? Math.max(len + relativeEnd, 0) : Math.min(relativeEnd, len);
for (; k < final; k++)
object[k] = value;
return object;
};
}
if (!Array.prototype.find) {
Array.prototype.find = function(predicate) {
if (this == null)
throw new TypeError('Array.prototype.find called on null or undefined');
if (typeof predicate !== 'function')
throw new TypeError('predicate must be a function');
var list = Object(this);
var length = list.length >>> 0;
var thisArg = arguments[1];
var value;
for (var i = 0; i < length; i++) {
value = list[i];
if (predicate.call(thisArg, value, i, list))
return value;
}
return undefined;
};
}
Array.prototype.shuffle = function()
{
for (var index = this.length - 1; index >= 0; --index) {
var randomIndex = Math.floor(Math.random() * (index + 1));
this.swap(index, randomIndex);
}
return this;
}
Point = Utilities.createClass(
function(x, y)
{
this.x = x;
this.y = y;
}, {
// Used when the point object is used as a size object.
get width()
{
return this.x;
},
// Used when the point object is used as a size object.
get height()
{
return this.y;
},
// Used when the point object is used as a size object.
get center()
{
return new Point(this.x / 2, this.y / 2);
},
str: function()
{
return "x = " + this.x + ", y = " + this.y;
},
add: function(other)
{
if(isNaN(other.x))
return new Point(this.x + other, this.y + other);
return new Point(this.x + other.x, this.y + other.y);
},
subtract: function(other)
{
if(isNaN(other.x))
return new Point(this.x - other, this.y - other);
return new Point(this.x - other.x, this.y - other.y);
},
multiply: function(other)
{
if(isNaN(other.x))
return new Point(this.x * other, this.y * other);
return new Point(this.x * other.x, this.y * other.y);
},
move: function(angle, velocity, timeDelta)
{
return this.add(Point.pointOnCircle(angle, velocity * (timeDelta / 1000)));
},
length: function() {
return Math.sqrt( this.x * this.x + this.y * this.y );
},
normalize: function() {
var l = Math.sqrt( this.x * this.x + this.y * this.y );
this.x /= l;
this.y /= l;
return this;
}
});
Utilities.extendObject(Point, {
zero: new Point(0, 0),
pointOnCircle: function(angle, radius)
{
return new Point(radius * Math.cos(angle), radius * Math.sin(angle));
},
pointOnEllipse: function(angle, radiuses)
{
return new Point(radiuses.x * Math.cos(angle), radiuses.y * Math.sin(angle));
},
elementClientSize: function(element)
{
var rect = element.getBoundingClientRect();
return new Point(rect.width, rect.height);
}
});
Insets = Utilities.createClass(
function(top, right, bottom, left)
{
this.top = top;
this.right = right;
this.bottom = bottom;
this.left = left;
}, {
get width()
{
return this.left + this.right;
},
get height()
{
return this.top + this.bottom;
},
get size()
{
return new Point(this.width, this.height);
}
});
Insets.elementPadding = function(element)
{
var styles = window.getComputedStyle(element);
return new Insets(
parseFloat(styles.paddingTop),
parseFloat(styles.paddingRight),
parseFloat(styles.paddingBottom),
parseFloat(styles.paddingTop));
}
UnitBezier = Utilities.createClass(
function(point1, point2)
{
// First and last points in the Bézier curve are assumed to be (0,0) and (!,1)
this._c = point1.multiply(3);
this._b = point2.subtract(point1).multiply(3).subtract(this._c);
this._a = new Point(1, 1).subtract(this._c).subtract(this._b);
}, {
epsilon: 1e-5,
derivativeEpsilon: 1e-6,
solve: function(x)
{
return this.sampleY(this.solveForT(x));
},
sampleX: function(t)
{
return ((this._a.x * t + this._b.x) * t + this._c.x) * t;
},
sampleY: function(t)
{
return ((this._a.y * t + this._b.y) * t + this._c.y) * t;
},
sampleDerivativeX: function(t)
{
return(3 * this._a.x * t + 2 * this._b.x) * t + this._c.x;
},
solveForT: function(x)
{
var t0, t1, t2, x2, d2, i;
for (t2 = x, i = 0; i < 8; ++i) {
x2 = this.sampleX(t2) - x;
if (Math.abs(x2) < this.epsilon)
return t2;
d2 = this.sampleDerivativeX(t2);
if (Math.abs(d2) < this.derivativeEpsilon)
break;
t2 = t2 - x2 / d2;
}
t0 = 0;
t1 = 1;
t2 = x;
if (t2 < t0)
return t0;
if (t2 > t1)
return t1;
while (t0 < t1) {
x2 = this.sampleX(t2);
if (Math.abs(x2 - x) < this.epsilon)
return t2;
if (x > x2)
t0 = t2;
else
t1 = t2;
t2 = (t1 - t0) * .5 + t0;
}
return t2;
}
});
SimplePromise = Utilities.createClass(
function()
{
this._chainedPromise = null;
this._callback = null;
}, {
then: function (callback)
{
if (this._callback)
throw "SimplePromise doesn't support multiple calls to then";
this._callback = callback;
this._chainedPromise = new SimplePromise;
if (this._resolved)
this.resolve(this._resolvedValue);
return this._chainedPromise;
},
resolve: function (value)
{
if (!this._callback) {
this._resolved = true;
this._resolvedValue = value;
return;
}
var result = this._callback(value);
if (result instanceof SimplePromise) {
var chainedPromise = this._chainedPromise;
result.then(function (result) { chainedPromise.resolve(result); });
} else
this._chainedPromise.resolve(result);
}
});
var Heap = Utilities.createClass(
function(maxSize, compare)
{
this._maxSize = maxSize;
this._compare = compare;
this._size = 0;
this._values = new Array(this._maxSize);
}, {
// This is a binary heap represented in an array. The root element is stored
// in the first element in the array. The root is followed by its two children.
// Then its four grandchildren and so on. So every level in the binary heap is
// doubled in the following level. Here is an example of the node indices and
// how they are related to their parents and children.
// ===========================================================================
// 0 1 2 3 4 5 6
// PARENT -1 0 0 1 1 2 2
// LEFT 1 3 5 7 9 11 13
// RIGHT 2 4 6 8 10 12 14
// ===========================================================================
_parentIndex: function(i)
{
return i > 0 ? Math.floor((i - 1) / 2) : -1;
},
_leftIndex: function(i)
{
var leftIndex = i * 2 + 1;
return leftIndex < this._size ? leftIndex : -1;
},
_rightIndex: function(i)
{
var rightIndex = i * 2 + 2;
return rightIndex < this._size ? rightIndex : -1;
},
// Return the child index that may violate the heap property at index i.
_childIndex: function(i)
{
var left = this._leftIndex(i);
var right = this._rightIndex(i);
if (left != -1 && right != -1)
return this._compare(this._values[left], this._values[right]) > 0 ? left : right;
return left != -1 ? left : right;
},
init: function()
{
this._size = 0;
},
top: function()
{
return this._size ? this._values[0] : NaN;
},
push: function(value)
{
if (this._size == this._maxSize) {
// If size is bounded and the new value can be a parent of the top()
// if the size were unbounded, just ignore the new value.
if (this._compare(value, this.top()) > 0)
return;
this.pop();
}
this._values[this._size++] = value;
this._bubble(this._size - 1);
},
pop: function()
{
if (!this._size)
return NaN;
this._values[0] = this._values[--this._size];
this._sink(0);
},
_bubble: function(i)
{
// Fix the heap property at index i given that parent is the only node that
// may violate the heap property.
for (var pi = this._parentIndex(i); pi != -1; i = pi, pi = this._parentIndex(pi)) {
if (this._compare(this._values[pi], this._values[i]) > 0)
break;
this._values.swap(pi, i);
}
},
_sink: function(i)
{
// Fix the heap property at index i given that each of the left and the right
// sub-trees satisfies the heap property.
for (var ci = this._childIndex(i); ci != -1; i = ci, ci = this._childIndex(ci)) {
if (this._compare(this._values[i], this._values[ci]) > 0)
break;
this._values.swap(ci, i);
}
},
str: function()
{
var out = "Heap[" + this._size + "] = [";
for (var i = 0; i < this._size; ++i) {
out += this._values[i];
if (i < this._size - 1)
out += ", ";
}
return out + "]";
},
values: function(size) {
// Return the last "size" heap elements values.
var values = this._values.slice(0, this._size);
return values.sort(this._compare).slice(0, Math.min(size, this._size));
}
});
Utilities.extendObject(Heap, {
createMinHeap: function(maxSize)
{
return new Heap(maxSize, function(a, b) { return b - a; });
},
createMaxHeap: function(maxSize) {
return new Heap(maxSize, function(a, b) { return a - b; });
}
});
var SampleData = Utilities.createClass(
function(fieldMap, data)
{
this.fieldMap = fieldMap || {};
this.data = data || [];
}, {
get length()
{
return this.data.length;
},
addField: function(name, index)
{
this.fieldMap[name] = index;
},
push: function(datum)
{
this.data.push(datum);
},
sort: function(sortFunction)
{
this.data.sort(sortFunction);
},
slice: function(begin, end)
{
return new SampleData(this.fieldMap, this.data.slice(begin, end));
},
forEach: function(iterationFunction)
{
this.data.forEach(iterationFunction);
},
createDatum: function()
{
return [];
},
getFieldInDatum: function(datum, fieldName)
{
if (typeof datum === 'number')
datum = this.data[datum];
return datum[this.fieldMap[fieldName]];
},
setFieldInDatum: function(datum, fieldName, value)
{
if (typeof datum === 'number')
datum = this.data[datum];
return datum[this.fieldMap[fieldName]] = value;
},
at: function(index)
{
return this.data[index];
},
toArray: function()
{
var array = [];
this.data.forEach(function(datum) {
var newDatum = {};
array.push(newDatum);
for (var fieldName in this.fieldMap) {
var value = this.getFieldInDatum(datum, fieldName);
if (value !== null && value !== undefined)
newDatum[fieldName] = value;
}
}, this);
return array;
}
});