lib/runtime/dart/math.js - external/github.com/dart-lang/dev_compiler - Git at Google

 dart_library.library('dart/math', null, /* Imports */[
   'dart/_runtime',
   'dart/core'
 ], /* Lazy imports */[
   'dart/_js_helper'
 ], function(exports, dart, core, _js_helper) {
   'use strict';
   let dartx = dart.dartx;
   exports[dart.uri] = 'dart:math';
   class _JenkinsSmiHash extends core.Object {
     static combine(hash, value) {
       hash = 536870911 & dart.notNull(hash) + dart.notNull(value);
       hash = 536870911 & dart.notNull(hash) + ((524287 & dart.notNull(hash)) << 10);
       return dart.notNull(hash) ^ dart.notNull(hash) >> 6;
     }
     static finish(hash) {
       hash = 536870911 & dart.notNull(hash) + ((67108863 & dart.notNull(hash)) << 3);
       hash = dart.notNull(hash) ^ dart.notNull(hash) >> 11;
       return 536870911 & dart.notNull(hash) + ((16383 & dart.notNull(hash)) << 15);
     }
     static hash2(a, b) {
       return _JenkinsSmiHash.finish(_JenkinsSmiHash.combine(_JenkinsSmiHash.combine(0, dart.as(a, core.int)), dart.as(b, core.int)));
     }
     static hash4(a, b, c, d) {
       return _JenkinsSmiHash.finish(_JenkinsSmiHash.combine(_JenkinsSmiHash.combine(_JenkinsSmiHash.combine(_JenkinsSmiHash.combine(0, dart.as(a, core.int)), dart.as(b, core.int)), dart.as(c, core.int)), dart.as(d, core.int)));
     }
   }
   dart.setSignature(_JenkinsSmiHash, {
     statics: () => ({
       combine: [core.int, [core.int, core.int]],
       finish: [core.int, [core.int]],
       hash2: [core.int, [dart.dynamic, dart.dynamic]],
       hash4: [core.int, [dart.dynamic, dart.dynamic, dart.dynamic, dart.dynamic]]
     }),
     names: ['combine', 'finish', 'hash2', 'hash4']
   });
   _JenkinsSmiHash[dart.owner] = exports;
   const Point$ = dart.generic(function(T) {
     class Point extends core.Object {
       Point(x, y) {
         this.x = x;
         this.y = y;
       }
       toString() {
         return `Point(${this.x}, ${this.y})`;
       }
       ['=='](other) {
         if (!dart.is(other, Point$())) return false;
         return dart.equals(this.x, dart.dload(other, 'x')) && dart.equals(this.y, dart.dload(other, 'y'));
       }
       get hashCode() {
         return _JenkinsSmiHash.hash2(dart.hashCode(this.x), dart.hashCode(this.y));
       }
       ['+'](other) {
         dart.as(other, Point$(T));
         return new (Point$(T))(dart.notNull(this.x) + dart.notNull(other.x), dart.notNull(this.y) + dart.notNull(other.y));
       }
       ['-'](other) {
         dart.as(other, Point$(T));
         return new (Point$(T))(dart.notNull(this.x) - dart.notNull(other.x), dart.notNull(this.y) - dart.notNull(other.y));
       }
       ['*'](factor) {
         return new (Point$(T))(dart.notNull(this.x) * dart.notNull(factor), dart.notNull(this.y) * dart.notNull(factor));
       }
       get magnitude() {
         return sqrt(dart.notNull(this.x) * dart.notNull(this.x) + dart.notNull(this.y) * dart.notNull(this.y));
       }
       distanceTo(other) {
         dart.as(other, Point$(T));
         let dx = dart.notNull(this.x) - dart.notNull(other.x);
         let dy = dart.notNull(this.y) - dart.notNull(other.y);
         return sqrt(dx * dx + dy * dy);
       }
       squaredDistanceTo(other) {
         dart.as(other, Point$(T));
         let dx = dart.notNull(this.x) - dart.notNull(other.x);
         let dy = dart.notNull(this.y) - dart.notNull(other.y);
         return dx * dx + dy * dy;
       }
     }
     dart.setSignature(Point, {
       constructors: () => ({Point: [Point$(T), [T, T]]}),
       methods: () => ({
         '+': [Point$(T), [Point$(T)]],
         '-': [Point$(T), [Point$(T)]],
         '*': [Point$(T), [core.num]],
         distanceTo: [core.double, [Point$(T)]],
         squaredDistanceTo: [T, [Point$(T)]]
       })
     });
     Point[dart.owner] = exports;
     return Point;
   });
   let Point = Point$();
   class Random extends core.Object {
     static new(seed) {
       if (seed === void 0) seed = null;
       return seed == null ? dart.const(new _JSRandom()) : new _Random(seed);
     }
   }
   dart.setSignature(Random, {
     constructors: () => ({new: [Random, [], [core.int]]})
   });
   Random[dart.owner] = exports;
   const _RectangleBase$ = dart.generic(function(T) {
     dart.defineExtensionNames([
       'right',
       'bottom',
       'toString',
       '==',
       'hashCode',
       'intersection',
       'intersects',
       'boundingBox',
       'containsRectangle',
       'containsPoint',
       'topLeft',
       'topRight',
       'bottomRight',
       'bottomLeft'
     ]);
     class _RectangleBase extends core.Object {
       _RectangleBase() {
       }
       get right() {
         return dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]);
       }
       get bottom() {
         return dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]);
       }
       toString() {
         return `Rectangle (${this[dartx.left]}, ${this[dartx.top]}) ${this[dartx.width]} x ${this[dartx.height]}`;
       }
       ['=='](other) {
         if (!dart.is(other, Rectangle)) return false;
         return dart.equals(this[dartx.left], dart.dload(other, 'left')) && dart.equals(this[dartx.top], dart.dload(other, 'top')) && dart.equals(this[dartx.right], dart.dload(other, 'right')) && dart.equals(this[dartx.bottom], dart.dload(other, 'bottom'));
       }
       get hashCode() {
         return _JenkinsSmiHash.hash4(dart.hashCode(this[dartx.left]), dart.hashCode(this[dartx.top]), dart.hashCode(this[dartx.right]), dart.hashCode(this[dartx.bottom]));
       }
       intersection(other) {
         dart.as(other, Rectangle$(T));
         let x0 = max(this[dartx.left], other[dartx.left]);
         let x1 = min(dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]), dart.notNull(other[dartx.left]) + dart.notNull(other[dartx.width]));
         if (dart.notNull(x0) <= dart.notNull(x1)) {
           let y0 = max(this[dartx.top], other[dartx.top]);
           let y1 = min(dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]), dart.notNull(other[dartx.top]) + dart.notNull(other[dartx.height]));
           if (dart.notNull(y0) <= dart.notNull(y1)) {
             return new (Rectangle$(T))(x0, y0, dart.notNull(x1) - dart.notNull(x0), dart.notNull(y1) - dart.notNull(y0));
           }
         }
         return null;
       }
       intersects(other) {
         return dart.notNull(this[dartx.left]) <= dart.notNull(other[dartx.left]) + dart.notNull(other[dartx.width]) && dart.notNull(other[dartx.left]) <= dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]) && dart.notNull(this[dartx.top]) <= dart.notNull(other[dartx.top]) + dart.notNull(other[dartx.height]) && dart.notNull(other[dartx.top]) <= dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]);
       }
       boundingBox(other) {
         dart.as(other, Rectangle$(T));
         let right = max(dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]), dart.notNull(other[dartx.left]) + dart.notNull(other[dartx.width]));
         let bottom = max(dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]), dart.notNull(other[dartx.top]) + dart.notNull(other[dartx.height]));
         let left = min(this[dartx.left], other[dartx.left]);
         let top = min(this[dartx.top], other[dartx.top]);
         return new (Rectangle$(T))(left, top, dart.notNull(right) - dart.notNull(left), dart.notNull(bottom) - dart.notNull(top));
       }
       containsRectangle(another) {
         return dart.notNull(this[dartx.left]) <= dart.notNull(another[dartx.left]) && dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]) >= dart.notNull(another[dartx.left]) + dart.notNull(another[dartx.width]) && dart.notNull(this[dartx.top]) <= dart.notNull(another[dartx.top]) && dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]) >= dart.notNull(another[dartx.top]) + dart.notNull(another[dartx.height]);
       }
       containsPoint(another) {
         return dart.notNull(another.x) >= dart.notNull(this[dartx.left]) && dart.notNull(another.x) <= dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]) && dart.notNull(another.y) >= dart.notNull(this[dartx.top]) && dart.notNull(another.y) <= dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]);
       }
       get topLeft() {
         return new (Point$(T))(this[dartx.left], this[dartx.top]);
       }
       get topRight() {
         return new (Point$(T))(dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]), this[dartx.top]);
       }
       get bottomRight() {
         return new (Point$(T))(dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]), dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]));
       }
       get bottomLeft() {
         return new (Point$(T))(this[dartx.left], dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]));
       }
     }
     dart.setSignature(_RectangleBase, {
       constructors: () => ({_RectangleBase: [_RectangleBase$(T), []]}),
       methods: () => ({
         [dartx.intersection]: [Rectangle$(T), [Rectangle$(T)]],
         [dartx.intersects]: [core.bool, [Rectangle$(core.num)]],
         [dartx.boundingBox]: [Rectangle$(T), [Rectangle$(T)]],
         [dartx.containsRectangle]: [core.bool, [Rectangle$(core.num)]],
         [dartx.containsPoint]: [core.bool, [Point$(core.num)]]
       })
     });
     dart.defineExtensionMembers(_RectangleBase, [
       'toString',
       '==',
       'intersection',
       'intersects',
       'boundingBox',
       'containsRectangle',
       'containsPoint',
       'right',
       'bottom',
       'hashCode',
       'topLeft',
       'topRight',
       'bottomRight',
       'bottomLeft'
     ]);
     _RectangleBase[dart.owner] = exports;
     return _RectangleBase;
   });
   let _RectangleBase = _RectangleBase$();
   const Rectangle$ = dart.generic(function(T) {
     dart.defineExtensionNames([
       'left',
       'top',
       'width',
       'height'
     ]);
     class Rectangle extends _RectangleBase$(T) {
       Rectangle(left, top, width, height) {
         this[dartx.left] = left;
         this[dartx.top] = top;
         this[dartx.width] = dart.notNull(width) < 0 ? -dart.notNull(width) * 0 : width;
         this[dartx.height] = dart.notNull(height) < 0 ? -dart.notNull(height) * 0 : height;
         super._RectangleBase();
       }
       static fromPoints(a, b) {
         let left = min(a.x, b.x);
         let width = dart.notNull(max(a.x, b.x)) - dart.notNull(left);
         let top = min(a.y, b.y);
         let height = dart.notNull(max(a.y, b.y)) - dart.notNull(top);
         return new (Rectangle$(T))(left, top, width, height);
       }
     }
     dart.setSignature(Rectangle, {
       constructors: () => ({
         Rectangle: [Rectangle$(T), [T, T, T, T]],
         fromPoints: [Rectangle$(T), [Point$(T), Point$(T)]]
       })
     });
     dart.defineExtensionMembers(Rectangle, [
       'left',
       'left',
       'top',
       'top',
       'width',
       'width',
       'height',
       'height'
     ]);
     Rectangle[dart.owner] = exports;
     return Rectangle;
   });
   let Rectangle = Rectangle$();
   const _width = Symbol('_width');
   const _height = Symbol('_height');
   const MutableRectangle$ = dart.generic(function(T) {
     class MutableRectangle extends _RectangleBase$(T) {
       MutableRectangle(left, top, width, height) {
         this.left = left;
         this.top = top;
         this[_width] = dart.notNull(width) < 0 ? _clampToZero(width) : width;
         this[_height] = dart.notNull(height) < 0 ? _clampToZero(height) : height;
         super._RectangleBase();
       }
       static fromPoints(a, b) {
         let left = min(a.x, b.x);
         let width = dart.notNull(max(a.x, b.x)) - dart.notNull(left);
         let top = min(a.y, b.y);
         let height = dart.notNull(max(a.y, b.y)) - dart.notNull(top);
         return new (MutableRectangle$(T))(left, top, width, height);
       }
       get width() {
         return this[_width];
       }
       set width(width) {
         dart.as(width, T);
         if (dart.notNull(width) < 0) width = _clampToZero(width);
         this[_width] = width;
       }
       get height() {
         return this[_height];
       }
       set height(height) {
         dart.as(height, T);
         if (dart.notNull(height) < 0) height = _clampToZero(height);
         this[_height] = height;
       }
     }
     MutableRectangle[dart.implements] = () => [Rectangle$(T)];
     dart.setSignature(MutableRectangle, {
       constructors: () => ({
         MutableRectangle: [MutableRectangle$(T), [T, T, T, T]],
         fromPoints: [MutableRectangle$(T), [Point$(T), Point$(T)]]
       })
     });
     dart.defineExtensionMembers(MutableRectangle, [
       'left',
       'left',
       'top',
       'top',
       'width',
       'width',
       'height',
       'height'
     ]);
     MutableRectangle[dart.owner] = exports;
     return MutableRectangle;
   });
   let MutableRectangle = MutableRectangle$();
   function _clampToZero(value) {
     dart.assert(dart.notNull(value) < 0);
     return -dart.notNull(value) * 0;
   }
   dart.fn(_clampToZero, core.num, [core.num]);
   const E = 2.718281828459045;
   const LN10 = 2.302585092994046;
   const LN2 = 0.6931471805599453;
   const LOG2E = 1.4426950408889634;
   const LOG10E = 0.4342944819032518;
   const PI = 3.141592653589793;
   const SQRT1_2 = 0.7071067811865476;
   const SQRT2 = 1.4142135623730951;
   function min(a, b) {
     if (!(typeof a == 'number')) dart.throw(new core.ArgumentError(a));
     if (!(typeof b == 'number')) dart.throw(new core.ArgumentError(b));
     if (dart.notNull(a) > dart.notNull(b)) return b;
     if (dart.notNull(a) < dart.notNull(b)) return a;
     if (typeof b == 'number') {
       if (typeof a == 'number') {
         if (a == 0.0) {
           return (dart.notNull(a) + dart.notNull(b)) * dart.notNull(a) * dart.notNull(b);
         }
       }
       if (a == 0 && dart.notNull(b[dartx.isNegative]) || dart.notNull(b[dartx.isNaN])) return b;
       return a;
     }
     return a;
   }
   dart.fn(min, () => dart.definiteFunctionType(dart.dynamic, [dart.dynamic, dart.dynamic]));
   function max(a, b) {
     if (!(typeof a == 'number')) dart.throw(new core.ArgumentError(a));
     if (!(typeof b == 'number')) dart.throw(new core.ArgumentError(b));
     if (dart.notNull(a) > dart.notNull(b)) return a;
     if (dart.notNull(a) < dart.notNull(b)) return b;
     if (typeof b == 'number') {
       if (typeof a == 'number') {
         if (a == 0.0) {
           return dart.notNull(a) + dart.notNull(b);
         }
       }
       if (dart.notNull(b[dartx.isNaN])) return b;
       return a;
     }
     if (b == 0 && dart.notNull(a[dartx.isNegative])) return b;
     return a;
   }
   dart.fn(max, () => dart.definiteFunctionType(dart.dynamic, [dart.dynamic, dart.dynamic]));
   function atan2(a, b) {
     return Math.atan2(_js_helper.checkNum(a), _js_helper.checkNum(b));
   }
   dart.fn(atan2, core.double, [core.num, core.num]);
   function pow(x, exponent) {
     _js_helper.checkNum(x);
     _js_helper.checkNum(exponent);
     return Math.pow(x, exponent);
   }
   dart.fn(pow, core.num, [core.num, core.num]);
   function sin(x) {
     return Math.sin(_js_helper.checkNum(x));
   }
   dart.fn(sin, core.double, [core.num]);
   function cos(x) {
     return Math.cos(_js_helper.checkNum(x));
   }
   dart.fn(cos, core.double, [core.num]);
   function tan(x) {
     return Math.tan(_js_helper.checkNum(x));
   }
   dart.fn(tan, core.double, [core.num]);
   function acos(x) {
     return Math.acos(_js_helper.checkNum(x));
   }
   dart.fn(acos, core.double, [core.num]);
   function asin(x) {
     return Math.asin(_js_helper.checkNum(x));
   }
   dart.fn(asin, core.double, [core.num]);
   function atan(x) {
     return Math.atan(_js_helper.checkNum(x));
   }
   dart.fn(atan, core.double, [core.num]);
   function sqrt(x) {
     return Math.sqrt(_js_helper.checkNum(x));
   }
   dart.fn(sqrt, core.double, [core.num]);
   function exp(x) {
     return Math.exp(_js_helper.checkNum(x));
   }
   dart.fn(exp, core.double, [core.num]);
   function log(x) {
     return Math.log(_js_helper.checkNum(x));
   }
   dart.fn(log, core.double, [core.num]);
   const _POW2_32 = 4294967296;
   class _JSRandom extends core.Object {
     _JSRandom() {
     }
     nextInt(max) {
       if (dart.notNull(max) <= 0 || dart.notNull(max) > dart.notNull(_POW2_32)) {
         dart.throw(new core.RangeError(`max must be in range 0 < max ≤ 2^32, was ${max}`));
       }
       return Math.random() * max >>> 0;
     }
     nextDouble() {
       return Math.random();
     }
     nextBool() {
       return Math.random() < 0.5;
     }
   }
   _JSRandom[dart.implements] = () => [Random];
   dart.setSignature(_JSRandom, {
     constructors: () => ({_JSRandom: [_JSRandom, []]}),
     methods: () => ({
       nextInt: [core.int, [core.int]],
       nextDouble: [core.double, []],
       nextBool: [core.bool, []]
     })
   });
   _JSRandom[dart.owner] = exports;
   const _lo = Symbol('_lo');
   const _hi = Symbol('_hi');
   const _nextState = Symbol('_nextState');
   class _Random extends core.Object {
     _Random(seed) {
       this[_lo] = 0;
       this[_hi] = 0;
       let empty_seed = 0;
       if (dart.notNull(seed) < 0) {
         empty_seed = -1;
       }
       do {
         let low = dart.notNull(seed) & dart.notNull(_Random._MASK32);
         seed = ((dart.notNull(seed) - low) / dart.notNull(_POW2_32))[dartx.truncate]();
         let high = dart.notNull(seed) & dart.notNull(_Random._MASK32);
         seed = ((dart.notNull(seed) - high) / dart.notNull(_POW2_32))[dartx.truncate]();
         let tmplow = low << 21;
         let tmphigh = high << 21 | low >> 11;
         tmplow = (~low & dart.notNull(_Random._MASK32)) + tmplow;
         low = tmplow & dart.notNull(_Random._MASK32);
         high = ~high + tmphigh + ((tmplow - low) / 4294967296)[dartx.truncate]() & dart.notNull(_Random._MASK32);
         tmphigh = high >> 24;
         tmplow = low >> 24 | high << 8;
         low = low ^ tmplow;
         high = high ^ tmphigh;
         tmplow = low * 265;
         low = tmplow & dart.notNull(_Random._MASK32);
         high = high * 265 + ((tmplow - low) / 4294967296)[dartx.truncate]() & dart.notNull(_Random._MASK32);
         tmphigh = high >> 14;
         tmplow = low >> 14 | high << 18;
         low = low ^ tmplow;
         high = high ^ tmphigh;
         tmplow = low * 21;
         low = tmplow & dart.notNull(_Random._MASK32);
         high = high * 21 + ((tmplow - low) / 4294967296)[dartx.truncate]() & dart.notNull(_Random._MASK32);
         tmphigh = high >> 28;
         tmplow = low >> 28 | high << 4;
         low = low ^ tmplow;
         high = high ^ tmphigh;
         tmplow = low << 31;
         tmphigh = high << 31 | low >> 1;
         tmplow = tmplow + low;
         low = tmplow & dart.notNull(_Random._MASK32);
         high = high + tmphigh + ((tmplow - low) / 4294967296)[dartx.truncate]() & dart.notNull(_Random._MASK32);
         tmplow = dart.notNull(this[_lo]) * 1037;
         this[_lo] = tmplow & dart.notNull(_Random._MASK32);
         this[_hi] = dart.notNull(this[_hi]) * 1037 + ((tmplow - dart.notNull(this[_lo])) / 4294967296)[dartx.truncate]() & dart.notNull(_Random._MASK32);
         this[_lo] = dart.notNull(this[_lo]) ^ low;
         this[_hi] = dart.notNull(this[_hi]) ^ high;
       } while (seed != empty_seed);
       if (this[_hi] == 0 && this[_lo] == 0) {
         this[_lo] = 23063;
       }
       this[_nextState]();
       this[_nextState]();
       this[_nextState]();
       this[_nextState]();
     }
     [_nextState]() {
       let tmpHi = 4294901760 * dart.notNull(this[_lo]);
       let tmpHiLo = tmpHi & dart.notNull(_Random._MASK32);
       let tmpHiHi = tmpHi - tmpHiLo;
       let tmpLo = 55905 * dart.notNull(this[_lo]);
       let tmpLoLo = tmpLo & dart.notNull(_Random._MASK32);
       let tmpLoHi = tmpLo - tmpLoLo;
       let newLo = tmpLoLo + tmpHiLo + dart.notNull(this[_hi]);
       this[_lo] = newLo & dart.notNull(_Random._MASK32);
       let newLoHi = newLo - dart.notNull(this[_lo]);
       this[_hi] = ((tmpLoHi + tmpHiHi + newLoHi) / dart.notNull(_POW2_32))[dartx.truncate]() & dart.notNull(_Random._MASK32);
       dart.assert(dart.notNull(this[_lo]) < dart.notNull(_POW2_32));
       dart.assert(dart.notNull(this[_hi]) < dart.notNull(_POW2_32));
     }
     nextInt(max) {
       if (dart.notNull(max) <= 0 || dart.notNull(max) > dart.notNull(_POW2_32)) {
         dart.throw(new core.RangeError(`max must be in range 0 < max ≤ 2^32, was ${max}`));
       }
       if ((dart.notNull(max) & dart.notNull(max) - 1) == 0) {
         this[_nextState]();
         return dart.notNull(this[_lo]) & dart.notNull(max) - 1;
       }
       let rnd32 = null;
       let result = null;
       do {
         this[_nextState]();
         rnd32 = this[_lo];
         result = dart.asInt(rnd32[dartx.remainder](max));
       } while (dart.notNull(rnd32) - dart.notNull(result) + dart.notNull(max) >= dart.notNull(_POW2_32));
       return result;
     }
     nextDouble() {
       this[_nextState]();
       let bits26 = dart.notNull(this[_lo]) & (1 << 26) - 1;
       this[_nextState]();
       let bits27 = dart.notNull(this[_lo]) & (1 << 27) - 1;
       return (bits26 * dart.notNull(_Random._POW2_27_D) + bits27) / dart.notNull(_Random._POW2_53_D);
     }
     nextBool() {
       this[_nextState]();
       return (dart.notNull(this[_lo]) & 1) == 0;
     }
   }
   _Random[dart.implements] = () => [Random];
   dart.setSignature(_Random, {
     constructors: () => ({_Random: [_Random, [core.int]]}),
     methods: () => ({
       [_nextState]: [dart.void, []],
       nextInt: [core.int, [core.int]],
       nextDouble: [core.double, []],
       nextBool: [core.bool, []]
     })
   });
   _Random[dart.owner] = exports;
   _Random._POW2_53_D = 1.0 * 9007199254740992;
   _Random._POW2_27_D = 1.0 * (1 << 27);
   _Random._MASK32 = 4294967295;
   // Exports:
   exports.Point$ = Point$;
   exports.Point = Point;
   exports.Random = Random;
   exports.Rectangle$ = Rectangle$;
   exports.Rectangle = Rectangle;
   exports.MutableRectangle$ = MutableRectangle$;
   exports.MutableRectangle = MutableRectangle;
   exports.E = E;
   exports.LN10 = LN10;
   exports.LN2 = LN2;
   exports.LOG2E = LOG2E;
   exports.LOG10E = LOG10E;
   exports.PI = PI;
   exports.SQRT1_2 = SQRT1_2;
   exports.SQRT2 = SQRT2;
   exports.min = min;
   exports.max = max;
   exports.atan2 = atan2;
   exports.pow = pow;
   exports.sin = sin;
   exports.cos = cos;
   exports.tan = tan;
   exports.acos = acos;
   exports.asin = asin;
   exports.atan = atan;
   exports.sqrt = sqrt;
   exports.exp = exp;
   exports.log = log;
 });
	dart_library.library('dart/math', null, /* Imports */[
	'dart/_runtime',
	'dart/core'
	], /* Lazy imports */[
	'dart/_js_helper'
	], function(exports, dart, core, _js_helper) {
	'use strict';
	let dartx = dart.dartx;
	exports[dart.uri] = 'dart:math';
	class _JenkinsSmiHash extends core.Object {
	static combine(hash, value) {
	hash = 536870911 & dart.notNull(hash) + dart.notNull(value);
	hash = 536870911 & dart.notNull(hash) + ((524287 & dart.notNull(hash)) << 10);
	return dart.notNull(hash) ^ dart.notNull(hash) >> 6;
	}
	static finish(hash) {
	hash = 536870911 & dart.notNull(hash) + ((67108863 & dart.notNull(hash)) << 3);
	hash = dart.notNull(hash) ^ dart.notNull(hash) >> 11;
	return 536870911 & dart.notNull(hash) + ((16383 & dart.notNull(hash)) << 15);
	}
	static hash2(a, b) {
	return _JenkinsSmiHash.finish(_JenkinsSmiHash.combine(_JenkinsSmiHash.combine(0, dart.as(a, core.int)), dart.as(b, core.int)));
	}
	static hash4(a, b, c, d) {
	return _JenkinsSmiHash.finish(_JenkinsSmiHash.combine(_JenkinsSmiHash.combine(_JenkinsSmiHash.combine(_JenkinsSmiHash.combine(0, dart.as(a, core.int)), dart.as(b, core.int)), dart.as(c, core.int)), dart.as(d, core.int)));
	}
	}
	dart.setSignature(_JenkinsSmiHash, {
	statics: () => ({
	combine: [core.int, [core.int, core.int]],
	finish: [core.int, [core.int]],
	hash2: [core.int, [dart.dynamic, dart.dynamic]],
	hash4: [core.int, [dart.dynamic, dart.dynamic, dart.dynamic, dart.dynamic]]
	}),
	names: ['combine', 'finish', 'hash2', 'hash4']
	});
	_JenkinsSmiHash[dart.owner] = exports;
	const Point$ = dart.generic(function(T) {
	class Point extends core.Object {
	Point(x, y) {
	this.x = x;
	this.y = y;
	}
	toString() {
	return `Point(${this.x}, ${this.y})`;
	}
	['=='](other) {
	if (!dart.is(other, Point$())) return false;
	return dart.equals(this.x, dart.dload(other, 'x')) && dart.equals(this.y, dart.dload(other, 'y'));
	}
	get hashCode() {
	return _JenkinsSmiHash.hash2(dart.hashCode(this.x), dart.hashCode(this.y));
	}
	['+'](other) {
	dart.as(other, Point$(T));
	return new (Point$(T))(dart.notNull(this.x) + dart.notNull(other.x), dart.notNull(this.y) + dart.notNull(other.y));
	}
	['-'](other) {
	dart.as(other, Point$(T));
	return new (Point$(T))(dart.notNull(this.x) - dart.notNull(other.x), dart.notNull(this.y) - dart.notNull(other.y));
	}
	['*'](factor) {
	return new (Point$(T))(dart.notNull(this.x) * dart.notNull(factor), dart.notNull(this.y) * dart.notNull(factor));
	}
	get magnitude() {
	return sqrt(dart.notNull(this.x) * dart.notNull(this.x) + dart.notNull(this.y) * dart.notNull(this.y));
	}
	distanceTo(other) {
	dart.as(other, Point$(T));
	let dx = dart.notNull(this.x) - dart.notNull(other.x);
	let dy = dart.notNull(this.y) - dart.notNull(other.y);
	return sqrt(dx * dx + dy * dy);
	}
	squaredDistanceTo(other) {
	dart.as(other, Point$(T));
	let dx = dart.notNull(this.x) - dart.notNull(other.x);
	let dy = dart.notNull(this.y) - dart.notNull(other.y);
	return dx * dx + dy * dy;
	}
	}
	dart.setSignature(Point, {
	constructors: () => ({Point: [Point$(T), [T, T]]}),
	methods: () => ({
	'+': [Point$(T), [Point$(T)]],
	'-': [Point$(T), [Point$(T)]],
	'*': [Point$(T), [core.num]],
	distanceTo: [core.double, [Point$(T)]],
	squaredDistanceTo: [T, [Point$(T)]]
	})
	});
	Point[dart.owner] = exports;
	return Point;
	});
	let Point = Point$();
	class Random extends core.Object {
	static new(seed) {
	if (seed === void 0) seed = null;
	return seed == null ? dart.const(new _JSRandom()) : new _Random(seed);
	}
	}
	dart.setSignature(Random, {
	constructors: () => ({new: [Random, [], [core.int]]})
	});
	Random[dart.owner] = exports;
	const _RectangleBase$ = dart.generic(function(T) {
	dart.defineExtensionNames([
	'right',
	'bottom',
	'toString',
	'==',
	'hashCode',
	'intersection',
	'intersects',
	'boundingBox',
	'containsRectangle',
	'containsPoint',
	'topLeft',
	'topRight',
	'bottomRight',
	'bottomLeft'
	]);
	class _RectangleBase extends core.Object {
	_RectangleBase() {
	}
	get right() {
	return dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]);
	}
	get bottom() {
	return dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]);
	}
	toString() {
	return `Rectangle (${this[dartx.left]}, ${this[dartx.top]}) ${this[dartx.width]} x ${this[dartx.height]}`;
	}
	['=='](other) {
	if (!dart.is(other, Rectangle)) return false;
	return dart.equals(this[dartx.left], dart.dload(other, 'left')) && dart.equals(this[dartx.top], dart.dload(other, 'top')) && dart.equals(this[dartx.right], dart.dload(other, 'right')) && dart.equals(this[dartx.bottom], dart.dload(other, 'bottom'));
	}
	get hashCode() {
	return _JenkinsSmiHash.hash4(dart.hashCode(this[dartx.left]), dart.hashCode(this[dartx.top]), dart.hashCode(this[dartx.right]), dart.hashCode(this[dartx.bottom]));
	}
	intersection(other) {
	dart.as(other, Rectangle$(T));
	let x0 = max(this[dartx.left], other[dartx.left]);
	let x1 = min(dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]), dart.notNull(other[dartx.left]) + dart.notNull(other[dartx.width]));
	if (dart.notNull(x0) <= dart.notNull(x1)) {
	let y0 = max(this[dartx.top], other[dartx.top]);
	let y1 = min(dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]), dart.notNull(other[dartx.top]) + dart.notNull(other[dartx.height]));
	if (dart.notNull(y0) <= dart.notNull(y1)) {
	return new (Rectangle$(T))(x0, y0, dart.notNull(x1) - dart.notNull(x0), dart.notNull(y1) - dart.notNull(y0));
	}
	}
	return null;
	}
	intersects(other) {
	return dart.notNull(this[dartx.left]) <= dart.notNull(other[dartx.left]) + dart.notNull(other[dartx.width]) && dart.notNull(other[dartx.left]) <= dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]) && dart.notNull(this[dartx.top]) <= dart.notNull(other[dartx.top]) + dart.notNull(other[dartx.height]) && dart.notNull(other[dartx.top]) <= dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]);
	}
	boundingBox(other) {
	dart.as(other, Rectangle$(T));
	let right = max(dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]), dart.notNull(other[dartx.left]) + dart.notNull(other[dartx.width]));
	let bottom = max(dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]), dart.notNull(other[dartx.top]) + dart.notNull(other[dartx.height]));
	let left = min(this[dartx.left], other[dartx.left]);
	let top = min(this[dartx.top], other[dartx.top]);
	return new (Rectangle$(T))(left, top, dart.notNull(right) - dart.notNull(left), dart.notNull(bottom) - dart.notNull(top));
	}
	containsRectangle(another) {
	return dart.notNull(this[dartx.left]) <= dart.notNull(another[dartx.left]) && dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]) >= dart.notNull(another[dartx.left]) + dart.notNull(another[dartx.width]) && dart.notNull(this[dartx.top]) <= dart.notNull(another[dartx.top]) && dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]) >= dart.notNull(another[dartx.top]) + dart.notNull(another[dartx.height]);
	}
	containsPoint(another) {
	return dart.notNull(another.x) >= dart.notNull(this[dartx.left]) && dart.notNull(another.x) <= dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]) && dart.notNull(another.y) >= dart.notNull(this[dartx.top]) && dart.notNull(another.y) <= dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]);
	}
	get topLeft() {
	return new (Point$(T))(this[dartx.left], this[dartx.top]);
	}
	get topRight() {
	return new (Point$(T))(dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]), this[dartx.top]);
	}
	get bottomRight() {
	return new (Point$(T))(dart.notNull(this[dartx.left]) + dart.notNull(this[dartx.width]), dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]));
	}
	get bottomLeft() {
	return new (Point$(T))(this[dartx.left], dart.notNull(this[dartx.top]) + dart.notNull(this[dartx.height]));
	}
	}
	dart.setSignature(_RectangleBase, {
	constructors: () => ({_RectangleBase: [_RectangleBase$(T), []]}),
	methods: () => ({
	[dartx.intersection]: [Rectangle$(T), [Rectangle$(T)]],
	[dartx.intersects]: [core.bool, [Rectangle$(core.num)]],
	[dartx.boundingBox]: [Rectangle$(T), [Rectangle$(T)]],
	[dartx.containsRectangle]: [core.bool, [Rectangle$(core.num)]],
	[dartx.containsPoint]: [core.bool, [Point$(core.num)]]
	})
	});
	dart.defineExtensionMembers(_RectangleBase, [
	'toString',
	'==',
	'intersection',
	'intersects',
	'boundingBox',
	'containsRectangle',
	'containsPoint',
	'right',
	'bottom',
	'hashCode',
	'topLeft',
	'topRight',
	'bottomRight',
	'bottomLeft'
	]);
	_RectangleBase[dart.owner] = exports;
	return _RectangleBase;
	});
	let _RectangleBase = _RectangleBase$();
	const Rectangle$ = dart.generic(function(T) {
	dart.defineExtensionNames([
	'left',
	'top',
	'width',
	'height'
	]);
	class Rectangle extends _RectangleBase$(T) {
	Rectangle(left, top, width, height) {
	this[dartx.left] = left;
	this[dartx.top] = top;
	this[dartx.width] = dart.notNull(width) < 0 ? -dart.notNull(width) * 0 : width;
	this[dartx.height] = dart.notNull(height) < 0 ? -dart.notNull(height) * 0 : height;
	super._RectangleBase();
	}
	static fromPoints(a, b) {
	let left = min(a.x, b.x);
	let width = dart.notNull(max(a.x, b.x)) - dart.notNull(left);
	let top = min(a.y, b.y);
	let height = dart.notNull(max(a.y, b.y)) - dart.notNull(top);
	return new (Rectangle$(T))(left, top, width, height);
	}
	}
	dart.setSignature(Rectangle, {
	constructors: () => ({
	Rectangle: [Rectangle$(T), [T, T, T, T]],
	fromPoints: [Rectangle$(T), [Point$(T), Point$(T)]]
	})
	});
	dart.defineExtensionMembers(Rectangle, [
	'left',
	'left',
	'top',
	'top',
	'width',
	'width',
	'height',
	'height'
	]);
	Rectangle[dart.owner] = exports;
	return Rectangle;
	});
	let Rectangle = Rectangle$();
	const _width = Symbol('_width');
	const _height = Symbol('_height');
	const MutableRectangle$ = dart.generic(function(T) {
	class MutableRectangle extends _RectangleBase$(T) {
	MutableRectangle(left, top, width, height) {
	this.left = left;
	this.top = top;
	this[_width] = dart.notNull(width) < 0 ? _clampToZero(width) : width;
	this[_height] = dart.notNull(height) < 0 ? _clampToZero(height) : height;
	super._RectangleBase();
	}
	static fromPoints(a, b) {
	let left = min(a.x, b.x);
	let width = dart.notNull(max(a.x, b.x)) - dart.notNull(left);
	let top = min(a.y, b.y);
	let height = dart.notNull(max(a.y, b.y)) - dart.notNull(top);
	return new (MutableRectangle$(T))(left, top, width, height);
	}
	get width() {
	return this[_width];
	}
	set width(width) {
	dart.as(width, T);
	if (dart.notNull(width) < 0) width = _clampToZero(width);
	this[_width] = width;
	}
	get height() {
	return this[_height];
	}
	set height(height) {
	dart.as(height, T);
	if (dart.notNull(height) < 0) height = _clampToZero(height);
	this[_height] = height;
	}
	}
	MutableRectangle[dart.implements] = () => [Rectangle$(T)];
	dart.setSignature(MutableRectangle, {
	constructors: () => ({
	MutableRectangle: [MutableRectangle$(T), [T, T, T, T]],
	fromPoints: [MutableRectangle$(T), [Point$(T), Point$(T)]]
	})
	});
	dart.defineExtensionMembers(MutableRectangle, [
	'left',
	'left',
	'top',
	'top',
	'width',
	'width',
	'height',
	'height'
	]);
	MutableRectangle[dart.owner] = exports;
	return MutableRectangle;
	});
	let MutableRectangle = MutableRectangle$();
	function _clampToZero(value) {
	dart.assert(dart.notNull(value) < 0);
	return -dart.notNull(value) * 0;
	}
	dart.fn(_clampToZero, core.num, [core.num]);
	const E = 2.718281828459045;
	const LN10 = 2.302585092994046;
	const LN2 = 0.6931471805599453;
	const LOG2E = 1.4426950408889634;
	const LOG10E = 0.4342944819032518;
	const PI = 3.141592653589793;
	const SQRT1_2 = 0.7071067811865476;
	const SQRT2 = 1.4142135623730951;
	function min(a, b) {
	if (!(typeof a == 'number')) dart.throw(new core.ArgumentError(a));
	if (!(typeof b == 'number')) dart.throw(new core.ArgumentError(b));
	if (dart.notNull(a) > dart.notNull(b)) return b;
	if (dart.notNull(a) < dart.notNull(b)) return a;
	if (typeof b == 'number') {
	if (typeof a == 'number') {
	if (a == 0.0) {
	return (dart.notNull(a) + dart.notNull(b)) * dart.notNull(a) * dart.notNull(b);
	}
	}
	if (a == 0 && dart.notNull(b[dartx.isNegative]) \|\| dart.notNull(b[dartx.isNaN])) return b;
	return a;
	}
	return a;
	}
	dart.fn(min, () => dart.definiteFunctionType(dart.dynamic, [dart.dynamic, dart.dynamic]));
	function max(a, b) {
	if (!(typeof a == 'number')) dart.throw(new core.ArgumentError(a));
	if (!(typeof b == 'number')) dart.throw(new core.ArgumentError(b));
	if (dart.notNull(a) > dart.notNull(b)) return a;
	if (dart.notNull(a) < dart.notNull(b)) return b;
	if (typeof b == 'number') {
	if (typeof a == 'number') {
	if (a == 0.0) {
	return dart.notNull(a) + dart.notNull(b);
	}
	}
	if (dart.notNull(b[dartx.isNaN])) return b;
	return a;
	}
	if (b == 0 && dart.notNull(a[dartx.isNegative])) return b;
	return a;
	}
	dart.fn(max, () => dart.definiteFunctionType(dart.dynamic, [dart.dynamic, dart.dynamic]));
	function atan2(a, b) {
	return Math.atan2(_js_helper.checkNum(a), _js_helper.checkNum(b));
	}
	dart.fn(atan2, core.double, [core.num, core.num]);
	function pow(x, exponent) {
	_js_helper.checkNum(x);
	_js_helper.checkNum(exponent);
	return Math.pow(x, exponent);
	}
	dart.fn(pow, core.num, [core.num, core.num]);
	function sin(x) {
	return Math.sin(_js_helper.checkNum(x));
	}
	dart.fn(sin, core.double, [core.num]);
	function cos(x) {
	return Math.cos(_js_helper.checkNum(x));
	}
	dart.fn(cos, core.double, [core.num]);
	function tan(x) {
	return Math.tan(_js_helper.checkNum(x));
	}
	dart.fn(tan, core.double, [core.num]);
	function acos(x) {
	return Math.acos(_js_helper.checkNum(x));
	}
	dart.fn(acos, core.double, [core.num]);
	function asin(x) {
	return Math.asin(_js_helper.checkNum(x));
	}
	dart.fn(asin, core.double, [core.num]);
	function atan(x) {
	return Math.atan(_js_helper.checkNum(x));
	}
	dart.fn(atan, core.double, [core.num]);
	function sqrt(x) {
	return Math.sqrt(_js_helper.checkNum(x));
	}
	dart.fn(sqrt, core.double, [core.num]);
	function exp(x) {
	return Math.exp(_js_helper.checkNum(x));
	}
	dart.fn(exp, core.double, [core.num]);
	function log(x) {
	return Math.log(_js_helper.checkNum(x));
	}
	dart.fn(log, core.double, [core.num]);
	const _POW2_32 = 4294967296;
	class _JSRandom extends core.Object {
	_JSRandom() {
	}
	nextInt(max) {
	if (dart.notNull(max) <= 0 \|\| dart.notNull(max) > dart.notNull(_POW2_32)) {
	dart.throw(new core.RangeError(`max must be in range 0 < max ≤ 2^32, was ${max}`));
	}
	return Math.random() * max >>> 0;
	}
	nextDouble() {
	return Math.random();
	}
	nextBool() {
	return Math.random() < 0.5;
	}
	}
	_JSRandom[dart.implements] = () => [Random];
	dart.setSignature(_JSRandom, {
	constructors: () => ({_JSRandom: [_JSRandom, []]}),
	methods: () => ({
	nextInt: [core.int, [core.int]],
	nextDouble: [core.double, []],
	nextBool: [core.bool, []]
	})
	});
	_JSRandom[dart.owner] = exports;
	const _lo = Symbol('_lo');
	const _hi = Symbol('_hi');
	const _nextState = Symbol('_nextState');
	class _Random extends core.Object {
	_Random(seed) {
	this[_lo] = 0;
	this[_hi] = 0;
	let empty_seed = 0;
	if (dart.notNull(seed) < 0) {
	empty_seed = -1;
	}
	do {
	let low = dart.notNull(seed) & dart.notNull(_Random._MASK32);
	seed = ((dart.notNull(seed) - low) / dart.notNull(_POW2_32))[dartx.truncate]();
	let high = dart.notNull(seed) & dart.notNull(_Random._MASK32);
	seed = ((dart.notNull(seed) - high) / dart.notNull(_POW2_32))[dartx.truncate]();
	let tmplow = low << 21;
	let tmphigh = high << 21 \| low >> 11;
	tmplow = (~low & dart.notNull(_Random._MASK32)) + tmplow;
	low = tmplow & dart.notNull(_Random._MASK32);
	high = ~high + tmphigh + ((tmplow - low) / 4294967296)[dartx.truncate]() & dart.notNull(_Random._MASK32);
	tmphigh = high >> 24;
	tmplow = low >> 24 \| high << 8;
	low = low ^ tmplow;
	high = high ^ tmphigh;
	tmplow = low * 265;
	low = tmplow & dart.notNull(_Random._MASK32);
	high = high * 265 + ((tmplow - low) / 4294967296)[dartx.truncate]() & dart.notNull(_Random._MASK32);
	tmphigh = high >> 14;
	tmplow = low >> 14 \| high << 18;
	low = low ^ tmplow;
	high = high ^ tmphigh;
	tmplow = low * 21;
	low = tmplow & dart.notNull(_Random._MASK32);
	high = high * 21 + ((tmplow - low) / 4294967296)[dartx.truncate]() & dart.notNull(_Random._MASK32);
	tmphigh = high >> 28;
	tmplow = low >> 28 \| high << 4;
	low = low ^ tmplow;
	high = high ^ tmphigh;
	tmplow = low << 31;
	tmphigh = high << 31 \| low >> 1;
	tmplow = tmplow + low;
	low = tmplow & dart.notNull(_Random._MASK32);
	high = high + tmphigh + ((tmplow - low) / 4294967296)[dartx.truncate]() & dart.notNull(_Random._MASK32);
	tmplow = dart.notNull(this[_lo]) * 1037;
	this[_lo] = tmplow & dart.notNull(_Random._MASK32);
	this[_hi] = dart.notNull(this[_hi]) * 1037 + ((tmplow - dart.notNull(this[_lo])) / 4294967296)[dartx.truncate]() & dart.notNull(_Random._MASK32);
	this[_lo] = dart.notNull(this[_lo]) ^ low;
	this[_hi] = dart.notNull(this[_hi]) ^ high;
	} while (seed != empty_seed);
	if (this[_hi] == 0 && this[_lo] == 0) {
	this[_lo] = 23063;
	}
	this[_nextState]();
	this[_nextState]();
	this[_nextState]();
	this[_nextState]();
	}
	[_nextState]() {
	let tmpHi = 4294901760 * dart.notNull(this[_lo]);
	let tmpHiLo = tmpHi & dart.notNull(_Random._MASK32);
	let tmpHiHi = tmpHi - tmpHiLo;
	let tmpLo = 55905 * dart.notNull(this[_lo]);
	let tmpLoLo = tmpLo & dart.notNull(_Random._MASK32);
	let tmpLoHi = tmpLo - tmpLoLo;
	let newLo = tmpLoLo + tmpHiLo + dart.notNull(this[_hi]);
	this[_lo] = newLo & dart.notNull(_Random._MASK32);
	let newLoHi = newLo - dart.notNull(this[_lo]);
	this[_hi] = ((tmpLoHi + tmpHiHi + newLoHi) / dart.notNull(_POW2_32))[dartx.truncate]() & dart.notNull(_Random._MASK32);
	dart.assert(dart.notNull(this[_lo]) < dart.notNull(_POW2_32));
	dart.assert(dart.notNull(this[_hi]) < dart.notNull(_POW2_32));
	}
	nextInt(max) {
	if (dart.notNull(max) <= 0 \|\| dart.notNull(max) > dart.notNull(_POW2_32)) {
	dart.throw(new core.RangeError(`max must be in range 0 < max ≤ 2^32, was ${max}`));
	}
	if ((dart.notNull(max) & dart.notNull(max) - 1) == 0) {
	this[_nextState]();
	return dart.notNull(this[_lo]) & dart.notNull(max) - 1;
	}
	let rnd32 = null;
	let result = null;
	do {
	this[_nextState]();
	rnd32 = this[_lo];
	result = dart.asInt(rnd32[dartx.remainder](max));
	} while (dart.notNull(rnd32) - dart.notNull(result) + dart.notNull(max) >= dart.notNull(_POW2_32));
	return result;
	}
	nextDouble() {
	this[_nextState]();
	let bits26 = dart.notNull(this[_lo]) & (1 << 26) - 1;
	this[_nextState]();
	let bits27 = dart.notNull(this[_lo]) & (1 << 27) - 1;
	return (bits26 * dart.notNull(_Random._POW2_27_D) + bits27) / dart.notNull(_Random._POW2_53_D);
	}
	nextBool() {
	this[_nextState]();
	return (dart.notNull(this[_lo]) & 1) == 0;
	}
	}
	_Random[dart.implements] = () => [Random];
	dart.setSignature(_Random, {
	constructors: () => ({_Random: [_Random, [core.int]]}),
	methods: () => ({
	[_nextState]: [dart.void, []],
	nextInt: [core.int, [core.int]],
	nextDouble: [core.double, []],
	nextBool: [core.bool, []]
	})
	});
	_Random[dart.owner] = exports;
	_Random._POW2_53_D = 1.0 * 9007199254740992;
	_Random._POW2_27_D = 1.0 * (1 << 27);
	_Random._MASK32 = 4294967295;
	// Exports:
	exports.Point$ = Point$;
	exports.Point = Point;
	exports.Random = Random;
	exports.Rectangle$ = Rectangle$;
	exports.Rectangle = Rectangle;
	exports.MutableRectangle$ = MutableRectangle$;
	exports.MutableRectangle = MutableRectangle;
	exports.E = E;
	exports.LN10 = LN10;
	exports.LN2 = LN2;
	exports.LOG2E = LOG2E;
	exports.LOG10E = LOG10E;
	exports.PI = PI;
	exports.SQRT1_2 = SQRT1_2;
	exports.SQRT2 = SQRT2;
	exports.min = min;
	exports.max = max;
	exports.atan2 = atan2;
	exports.pow = pow;
	exports.sin = sin;
	exports.cos = cos;
	exports.tan = tan;
	exports.acos = acos;
	exports.asin = asin;
	exports.atan = atan;
	exports.sqrt = sqrt;
	exports.exp = exp;
	exports.log = log;
	});