标签:box return CanvasImageRender .# 预设 UI ._ null ca
1 "use strict";
2
3 var __emptyPoint = null, __emptyContext = null, __emptyPointA = null;
4
5 const ColorRefTable = {
6 "aliceblue": "#f0f8ff",
7 "antiquewhite": "#faebd7",
8 "aqua": "#00ffff",
9 "aquamarine": "#7fffd4",
10 "azure": "#f0ffff",
11 "beige": "#f5f5dc",
12 "bisque": "#ffe4c4",
13 "black": "#000000",
14 "blanchedalmond": "#ffebcd",
15 "blue": "#0000ff",
16 "blueviolet": "#8a2be2",
17 "brown": "#a52a2a",
18 "burlywood": "#deb887",
19 "cadetblue": "#5f9ea0",
20 "chartreuse": "#7fff00",
21 "chocolate": "#d2691e",
22 "coral": "#ff7f50",
23 "cornsilk": "#fff8dc",
24 "crimson": "#dc143c",
25 "cyan": "#00ffff",
26 "darkblue": "#00008b",
27 "darkcyan": "#008b8b",
28 "darkgoldenrod": "#b8860b",
29 "darkgray": "#a9a9a9",
30 "darkgreen": "#006400",
31 "darkgrey": "#a9a9a9",
32 "darkkhaki": "#bdb76b",
33 "darkmagenta": "#8b008b",
34 "firebrick": "#b22222",
35 "darkolivegreen": "#556b2f",
36 "darkorange": "#ff8c00",
37 "darkorchid": "#9932cc",
38 "darkred": "#8b0000",
39 "darksalmon": "#e9967a",
40 "darkseagreen": "#8fbc8f",
41 "darkslateblue": "#483d8b",
42 "darkslategray": "#2f4f4f",
43 "darkslategrey": "#2f4f4f",
44 "darkturquoise": "#00ced1",
45 "darkviolet": "#9400d3",
46 "deeppink": "#ff1493",
47 "deepskyblue": "#00bfff",
48 "dimgray": "#696969",
49 "dimgrey": "#696969",
50 "dodgerblue": "#1e90ff",
51 "floralwhite": "#fffaf0",
52 "forestgreen": "#228b22",
53 "fuchsia": "#ff00ff",
54 "gainsboro": "#dcdcdc",
55 "ghostwhite": "#f8f8ff",
56 "gold": "#ffd700",
57 "goldenrod": "#daa520",
58 "gray": "#808080",
59 "green": "#008000",
60 "greenyellow": "#adff2f",
61 "grey": "#808080",
62 "honeydew": "#f0fff0",
63 "hotpink": "#ff69b4",
64 "indianred": "#cd5c5c",
65 "indigo": "#4b0082",
66 "ivory": "#fffff0",
67 "khaki": "#f0e68c",
68 "lavender": "#e6e6fa",
69 "lavenderblush": "#fff0f5",
70 "lawngreen": "#7cfc00",
71 "lemonchiffon": "#fffacd",
72 "lightblue": "#add8e6",
73 "lightcoral": "#f08080",
74 "lightcyan": "#e0ffff",
75 "lightgoldenrodyellow": "#fafad2",
76 "lightgray": "#d3d3d3",
77 "lightgreen": "#90ee90",
78 "lightgrey": "#d3d3d3",
79 "lightpink": "#ffb6c1",
80 "lightsalmon": "#ffa07a",
81 "lightseagreen": "#20b2aa",
82 "lightskyblue": "#87cefa",
83 "lightslategray": "#778899",
84 "lightslategrey": "#778899",
85 "lightsteelblue": "#b0c4de",
86 "lightyellow": "#ffffe0",
87 "lime": "#00ff00",
88 "limegreen": "#32cd32",
89 "linen": "#faf0e6",
90 "magenta": "#ff00ff",
91 "maroon": "#800000",
92 "mediumaquamarine": "#66cdaa",
93 "mediumblue": "#0000cd",
94 "mediumorchid": "#ba55d3",
95 "mediumpurple": "#9370db",
96 "mediumseagreen": "#3cb371",
97 "mediumslateblue": "#7b68ee",
98 "mediumspringgreen": "#00fa9a",
99 "mediumturquoise": "#48d1cc",
100 "mediumvioletred": "#c71585",
101 "midnightblue": "#191970",
102 "mintcream": "#f5fffa",
103 "mistyrose": "#ffe4e1",
104 "moccasin": "#ffe4b5",
105 "navajowhite": "#ffdead",
106 "navy": "#000080",
107 "oldlace": "#fdf5e6",
108 "olive": "#808000",
109 "olivedrab": "#6b8e23",
110 "orange": "#ffa500",
111 "orangered": "#ff4500",
112 "orchid": "#da70d6",
113 "palegoldenrod": "#eee8aa",
114 "palegreen": "#98fb98",
115 "paleturquoise": "#afeeee",
116 "palevioletred": "#db7093",
117 "papayawhip": "#ffefd5",
118 "peachpuff": "#ffdab9",
119 "peru": "#cd853f",
120 "pink": "#ffc0cb",
121 "plum": "#dda0dd",
122 "powderblue": "#b0e0e6",
123 "purple": "#800080",
124 "red": "#ff0000",
125 "rosybrown": "#bc8f8f",
126 "royalblue": "#4169e1",
127 "saddlebrown": "#8b4513",
128 "salmon": "#fa8072",
129 "sandybrown": "#f4a460",
130 "seagreen": "#2e8b57",
131 "seashell": "#fff5ee",
132 "sienna": "#a0522d",
133 "silver": "#c0c0c0",
134 "skyblue": "#87ceeb",
135 "slateblue": "#6a5acd",
136 "slategray": "#708090",
137 "slategrey": "#708090",
138 "snow": "#fffafa",
139 "springgreen": "#00ff7f",
140 "steelblue": "#4682b4",
141 "tan": "#d2b48c",
142 "teal": "#008080",
143 "thistle": "#d8bfd8",
144 "tomato": "#ff6347",
145 "turquoise": "#40e0d0",
146 "violet": "#ee82ee",
147 "wheat": "#f5deb3",
148 "white": "#ffffff",
149 "whitesmoke": "#f5f5f5",
150 "yellow": "#ffff00",
151 "yellowgreen": "#9acd32"
152 },
153
154 UTILS = {
155
156 emptyArray(arr){
157 return !Array.isArray(arr) || arr.length === 0;
158 },
159
160 createContext(w = 1, h = 1){
161 const canvas = document.createElement("canvas"),
162 context = canvas.getContext("2d");
163 canvas.width = w;
164 canvas.height = h;
165 return context;
166 },
167
168 isObject(obj){
169
170 return obj !== null && typeof obj === "object" && Array.isArray(obj) === false;
171
172 },
173
174 isNumber(num){
175
176 return typeof num === "number" && isNaN(num) === false;
177
178 },
179
180 //获取最后一个点后面的字符
181 getFileType(string){
182 let type = "", str = string.split('').reverse().join('');
183 for(let k = 0, len = str.length; k < len; k++){
184 if(str[k] === ".") break;
185 type += str[k];
186 }
187 return type.split('').reverse().join('');
188 },
189
190 //删除 string 所有的空格
191 deleteSpaceAll(str){
192 const len = str.length;
193 var result = '';
194 for(let i = 0; i < len; i++){
195 if(str[i] !== '') result += str[i]
196 }
197
198 return result
199 },
200
201 //删除 string 两边空格
202 removeSpaceSides(string){
203
204 return string.replace(/(^\s*)|(\s*$)/g, "");
205
206 },
207
208 //返回 num 与 num1 之间的随机数
209 random(num, num1){
210
211 if(num < num1) return Math.random() * (num1 - num) + num;
212
213 else if(num > num1) return Math.random() * (num - num1) + num1;
214
215 else return num;
216
217 },
218
219 //生成 UUID
220 generateUUID: function (){
221 const _lut = [];
222
223 for ( let i = 0; i < 256; i ++ ) {
224
225 _lut[ i ] = ( i < 16 ? '0' : '' ) + ( i ).toString( 16 );
226
227 }
228
229 return function (){
230 const d0 = Math.random() * 0xffffffff | 0;
231 const d1 = Math.random() * 0xffffffff | 0;
232 const d2 = Math.random() * 0xffffffff | 0;
233 const d3 = Math.random() * 0xffffffff | 0;
234 const uuid = _lut[ d0 & 0xff ] + _lut[ d0 >> 8 & 0xff ] + _lut[ d0 >> 16 & 0xff ] + _lut[ d0 >> 24 & 0xff ] + '-' +
235 _lut[ d1 & 0xff ] + _lut[ d1 >> 8 & 0xff ] + '-' + _lut[ d1 >> 16 & 0x0f | 0x40 ] + _lut[ d1 >> 24 & 0xff ] + '-' +
236 _lut[ d2 & 0x3f | 0x80 ] + _lut[ d2 >> 8 & 0xff ] + '-' + _lut[ d2 >> 16 & 0xff ] + _lut[ d2 >> 24 & 0xff ] +
237 _lut[ d3 & 0xff ] + _lut[ d3 >> 8 & 0xff ] + _lut[ d3 >> 16 & 0xff ] + _lut[ d3 >> 24 & 0xff ];
238
239 return uuid.toLowerCase(); //toLowerCase() 这里展平连接的字符串以节省堆内存空间
240 }
241 }(),
242
243 //欧几里得距离(两点的直线距离)
244 distance(x, y, x1, y1){
245
246 return Math.sqrt(Math.pow(x - x1, 2) + Math.pow(y - y1, 2));
247
248 },
249
250 downloadFile(blob, fileName){
251 const link = document.createElement("a");
252 link.href = URL.createObjectURL(blob);
253 link.download = fileName;
254 link.click();
255 },
256
257 loadFileJSON(callback){
258 const input = document.createElement("input");
259 input.type = "file";
260 input.accept = ".json";
261
262 input.onchange = a => {
263 if(a.target.files.length === 0) return;
264 const fr = new FileReader();
265 fr.onloadend = b => callback(b.target.result);
266 fr.readAsText(a.target.files[0]); //fr.readAsDataURL(a.target.files[0]);
267 }
268
269 input.click();
270 },
271
272 get emptyPoint(){
273 if(__emptyPoint === null) __emptyPoint = new Point();
274 return __emptyPoint;
275 },
276
277 get emptyPointA(){
278 if(__emptyPointA === null) __emptyPointA = new Point();
279 return __emptyPointA;
280 },
281
282 get emptyContext(){
283 if(__emptyContext === null) __emptyContext = document.createElement("canvas").getContext('2d')
284 return __emptyContext;
285 },
286
287 /* 把 target 以相等的比例缩放至 result 大小
288 target, result: Object{width, height}; //也可以是img元素
289 */
290 setSizeToSameScale(target, result = {width: 100, height: 100}){
291 if(!target) return result;
292
293 const width = target.width,
294 height = target.height,
295 ratio = width / height,
296 scale = ratio < 1 ? ratio * result.width / width : result.width / width;
297
298 result.width = width * scale;
299 result.height = height * scale;
300
301 return result;
302 }
303
304 }
305
306
307
308 /* AnimateLoop 动画循环
309
310 */
311 class AnimateLoop{
312
313 #id = NaN;
314 #animate = null;
315
316 get running(){
317 return !isNaN(this.#id);
318 }
319
320 constructor(onupdate = null){
321 const animate = () => {
322 this.#id = requestAnimationFrame(animate);
323 this.onupdate();
324 }
325
326 this.#animate = animate;
327 this.onupdate = onupdate;
328 }
329
330 pause(){
331 if(!isNaN(this.#id)){
332 cancelAnimationFrame(this.#id);
333 this.#id = NaN;
334 }
335 return this;
336 }
337
338 play(onupdate){
339 if(typeof onupdate === "function") this.onupdate = onupdate;
340 if(this.onupdate !== null && isNaN(this.#id)){
341 this.#animate();
342 }
343 return this;
344 }
345
346 }
347
348
349
350
351 /** Ajax
352 parameter:
353 option = {
354 url: 可选, 默认 ''
355 method: 可选, post 或 get请求, 默认 post
356 asy: 可选, 是否异步执行, 默认 true
357 success: 可选, 成功回调, 默认 null
358 error: 可选, 超时或失败调用, 默认 null
359 change: 可选, 请求状态改变时调用, 默认 null
360 data: 可选, 如果定义则在初始化时自动执行.send(data)方法
361 }
362
363 demo:
364 const data = `email=${email}&password=${password}`,
365
366 //默认 post 请求:
367 ajax = new Ajax({
368 url: './login',
369 data: data,
370 success: mes => console.log(mes),
371 });
372
373 //get 请求:
374 ajax.method = "get";
375 ajax.send(data);
376 */
377 class Ajax{
378
379 constructor(option = {}){
380 this.url = option.url || "";
381 this.method = option.method || "post";
382 this.asy = typeof option.asy === "boolean" ? option.asy : true;
383 this.success = option.success || null;
384 this.error = option.error || null;
385 this.change = option.change || null;
386
387 //init XML
388 this.xhr = new XMLHttpRequest();
389
390 this.xhr.onerror = this.xhr.ontimeout = option.error || null;
391
392 this.xhr.onreadystatechange = event => {
393
394 if(event.target.readyState === 4 && event.target.status === 200){
395
396 if(this.success !== null) this.success(event.target.responseText, event);
397
398 }
399
400 else if(this.change !== null) this.change(event);
401
402 }
403
404 if(option.data) this.send(option.data);
405 }
406
407 send(data = ""){
408 if(this.method === "get"){
409 this.xhr.open(this.method, this.url+"?"+data, this.asy);
410 this.xhr.send();
411 }
412
413 else if(this.method === "post"){
414 this.xhr.open(this.method, this.url, this.asy);
415 this.xhr.setRequestHeader("Content-type", "application/x-www-form-urlencoded");
416 this.xhr.send(data);
417 }
418 }
419
420 }
421
422
423
424
425 /* IndexedDB 本地数据库
426
427 parameter:
428 name: String; //需要打开的数据库名称(如果不存在则会新建一个) 必须
429 done: Function(IndexedDB); //链接数据库成功时的回调 默认 null
430 version: Number; //数据库版本(高版本数据库将覆盖低版本的数据库) 默认 1
431
432 attribute:
433 database: IndexedDB; //链接完成的数据库对象
434 transaction: IDBTransaction; //事务管理(读和写)
435 objectStore: IDBObjectStore; //当前的事务
436
437 method:
438 set(data, key, callback) //添加或更新
439 get(key, callback) //获取
440 delete(key, callback) //删除
441
442 traverse(callback) //遍历
443 getAll(callback) //获取全部
444 clear(callback) //清理所以数据
445 close() //关闭数据库链接
446
447 readOnly:
448
449 static:
450 indexedDB: Object;
451
452 demo:
453
454 new IndexedDB('TEST', db => {
455
456 conosle.log(db);
457
458 });
459
460 */
461 class IndexedDB{
462
463 static indexedDB = window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB;
464
465 get objectStore(){ //每个事务只能使用一次, 所以每次都需要重新创建
466 return this.database.transaction(this.name, 'readwrite').objectStore(this.name);
467 }
468
469 constructor(name, done = null, version = 1){
470
471 if(IndexedDB.indexedDB === undefined) return console.error("IndexedDB: 不支持IndexedDB");
472
473 if(typeof name !== 'string') return console.warn('IndexedDB: 参数错误');
474
475 this.name = name;
476 this.database = null;
477
478 const request = IndexedDB.indexedDB.open(name, version);
479
480 request.onupgradeneeded = (e)=>{ //数据库不存在 或 版本号不同时 触发
481 if(!this.database) this.database = e.target.result;
482 if(this.database.objectStoreNames.contains(name) === false) this.database.createObjectStore(name);
483 }
484
485 request.onsuccess = (e)=>{
486 this.database = e.target.result;
487 if(typeof done === 'function') done(this);
488 }
489
490 request.onerror = (e)=>{
491 console.error(e);
492 }
493
494 }
495
496 close(){
497
498 return this.database.close();
499
500 }
501
502 clear(callback){
503
504 this.objectStore.clear().onsuccess = callback;
505
506 }
507
508 traverse(callback){
509
510 this.objectStore.openCursor().onsuccess = callback;
511
512 }
513
514 set(data, key = 0, callback){
515
516 this.objectStore.put(data, key).onsuccess = callback;
517
518 }
519
520 get(key = 0, callback){
521
522 this.objectStore.get(key).onsuccess = callback;
523
524 }
525
526 del(key = 0, callback){
527
528 this.objectStore.delete(key).onsuccess = callback;
529
530 }
531
532 getAll(callback){
533
534 this.objectStore.getAll().onsuccess = callback;
535
536 }
537
538 }
539
540
541
542
543 /* TreeStruct 树结构基类
544
545 attribute:
546 parent: TreeStruct;
547 children: Array[TreeStruct];
548
549 method:
550 add(v: TreeStruct): v; //v添加到自己的子集
551 remove(v: TreeStruct): v; //删除v, 前提v必须是自己的子集
552 export(): Array[Object]; //TreeStruct 转为 可导出的结构, 包括其所有的后代
553
554 getPath(v: TreeStruct): Array[TreeStruct]; //获取自己到v的路径
555
556 traverse(callback: Function): undefined; //迭代自己的每一个后代, 包括自己
557 callback(value: TreeStruct); //如返回 "continue" 则不在迭代其后代(不是结束迭代, 而是只结束当前节点的后代);
558
559 traverseUp(callback): undefined; //向上遍历每一个父, 包括自己
560 callback(value: TreeStruct); //如返回 "break" 立即停止遍历;
561
562 static:
563 import(arr: Array[Object]): TreeStruct; //.export() 返回的 arr 转为 TreeStruct
564
565 */
566 class TreeStruct{
567
568 static import(arr){
569
570 //json = JSON.parse(json);
571 const len = arr.length;
572
573 for(let k = 0, v; k < len; k++){
574 v = Object.assign(new TreeStruct(), arr[k]);
575 v.parent = arr[arr[k].parent] || null;
576 if(v.parent !== null) v.parent.add(v);
577 arr[k] = v;
578 }
579
580 return arr[0];
581
582 }
583
584 constructor(){
585 this.parent = null;
586 this.children = [];
587 }
588
589 getPath(v){
590
591 var path;
592
593 const pathA = [];
594 this.traverseUp(tar => {
595 if(v === tar){
596 path = pathA;
597 return "break";
598 }
599 pathA.push(tar);
600 });
601
602 if(path) return path;
603
604 const pathB = [];
605 v.traverseUp(tar => {
606 if(this === tar){
607 path = pathB.reverse();
608 return "break";
609 }
610 else{
611 let i = pathA.indexOf(tar);
612 if(i !== -1){
613 pathA.splice(i);
614 pathA.push(tar);
615 path = pathA.concat(pathB.reverse());
616 return "break";
617 }
618 }
619 pathB.push(tar);
620 });
621
622 return path;
623
624 }
625
626 add(v){
627 v.parent = this;
628 if(this.children.includes(v) === false) this.children.push(v);
629
630 return v;
631 }
632
633 remove(v){
634 const i = this.children.indexOf(v);
635 if(i !== -1) this.children.splice(i, 1);
636 v.parent = null;
637
638 return v;
639 }
640
641 traverse(callback, key = 0){
642
643 if(callback(this, key) !== "continue"){
644
645 for(let k = 0, len = this.children.length; k < len; k++){
646
647 this.children[k].traverse(callback, k);
648
649 }
650
651 }
652
653 }
654
655 traverseUp(callback){
656
657 var par = this.parent;
658
659 while(par !== null){
660 if(callback(par) === "break") return;
661 par = par.parent;
662 }
663
664 }
665
666 export(){
667
668 const result = [], arr = [];
669 var obj = null;
670
671 this.traverse(v => {
672 obj = Object.assign({}, v);
673 obj.parent = arr.indexOf(v.parent);
674 delete obj.children;
675 result.push(obj);
676 arr.push(v);
677 });
678
679 return result; //JSON.stringify(result);
680
681 }
682
683 }
684
685 Object.defineProperties(TreeStruct.prototype, {
686
687 isTreeStruct: {
688 configurable: false,
689 enumerable: false,
690 writable: false,
691 value: true,
692 }
693
694 });
695
696
697
698
699 /* Point
700 parameter:
701 x = 0, y = 0;
702
703 attribute
704 x, y: Number;
705
706 method:
707 set(x, y): this;
708 angle(origin): Number;
709 copy(point): this;
710 clone(): Point;
711 distance(point): Number; //获取欧几里得距离
712 distanceMHD(point): Number; //获取曼哈顿距离
713 distanceCompare(point): Number; //获取用于比较的距离(相对于.distance() 效率更高)
714 equals(point): Bool; //是否恒等
715 reverse(): this; //取反值
716 rotate(origin: Object{x,y}, angle): this; //旋转点
717 normalize(): this; //归一
718 */
719 class Point{
720
721 constructor(x = 0, y = 0){
722 this.x = x;
723 this.y = y;
724 }
725
726 set(x = 0, y = 0){
727 this.x = x;
728 this.y = y;
729
730 return this;
731 }
732
733 angle(origin){
734
735 return Math.atan2(this.y - origin.y, this.x - origin.x);
736
737 }
738
739 copy(point){
740
741 this.x = point.x;
742 this.y = point.y;
743 return this;
744 //return Object.assign(this, point);
745
746 }
747
748 clone(){
749
750 return new this.constructor().copy(this);
751 //return Object.assign(new this.constructor(), this);
752
753 }
754
755 distance(point){
756
757 return Math.sqrt(Math.pow(point.x - this.x, 2) + Math.pow(point.y - this.y, 2));
758
759 }
760
761 distanceMHD(point){
762
763 return Math.abs(this.x - point.x) + Math.abs(this.y - point.y);
764
765 }
766
767 distanceCompare(point){
768
769 return Math.pow(this.x - point.x, 2) + Math.pow(this.y - point.y, 2);
770
771 }
772
773 equals(point){
774
775 return point.x === this.x && point.y === this.y;
776
777 }
778
779 reverse(){
780 this.x = -this.x;
781 this.y = -this.y;
782
783 return this;
784 }
785
786 rotate(origin, angle){
787 const c = Math.cos(angle), s = Math.sin(angle),
788 x = this.x - origin.x, y = this.y - origin.y;
789
790 this.x = x * c - y * s + origin.x;
791 this.y = x * s + y * c + origin.y;
792
793 return this;
794 }
795
796 normalize(){
797 const len = 1 / (Math.sqrt(this.x * this.x + this.y * this.y) || 1);
798 this.x *= len;
799 this.y *= len;
800
801 return this;
802 }
803
804 /* add(point){
805 this.x += point.x;
806 this.y += point.y;
807 return this;
808 }
809
810 sub(point){
811 this.x -= point.x;
812 this.y -= point.y;
813 return this;
814 }
815
816 multiply(point){
817 this.x *= point.x;
818 this.y *= point.y;
819 return this;
820 }
821
822 divide(point){
823 this.x /= point.x;
824 this.y /= point.y;
825 return this;
826 } */
827
828 }
829
830 Object.defineProperties(Point.prototype, {
831
832 isPoint: {
833 configurable: false,
834 enumerable: false,
835 writable: false,
836 value: true,
837 }
838
839 });
840
841
842
843
844 /* Rotate
845 parameter:
846 x, y, a = 0
847
848 attribute:
849 angle: Number;
850 origin: Point;
851
852 method:
853 set(x, y, a): this;
854 */
855 class Rotate{
856
857 constructor(x, y, a = 0){
858 this.angle = a;
859 this.origin = new Point(x, y);
860 }
861
862 set(x, y, a){
863 this.origin.x = x;
864 this.origin.y = y;
865 this.angle = a;
866 return this;
867 }
868
869 pos(x, y){
870 this.origin.x = x;
871 this.origin.y = y;
872 return this;
873 }
874
875 copy(rotate){
876 this.angle = rotate.angle;
877 this.origin.copy(rotate.origin);
878 return this;
879 }
880
881 clone(){
882 return new this.constructor().copy(this);
883 }
884
885 toAngle(v){
886 this.angle = v / 180 * Math.PI;
887 return this;
888 }
889
890 }
891
892
893
894
895 /* Line
896 parameter: x, y, x1, y1: Number;
897 attribute: x, y, x1, y1: Number;
898 method:
899 set(x, y, x1, y1): this;
900 copy(line): this;
901 clone(): Line;
902 containsPoint(x, y): Bool; //点是否在线上
903 intersectPoint(line: Line, point: Point): Point; //如果不相交则返回null, 否则返回交点Point
904 isIntersect(line): Bool; //this与line是否相交
905 */
906 class Line{
907
908 constructor(x = 0, y = 0, x1 = 0, y1 = 0){
909 this.x = x;
910 this.y = y;
911 this.x1 = x1;
912 this.y1 = y1;
913 }
914
915 set(x = 0, y = 0, x1 = 0, y1 = 0){
916 this.x = x;
917 this.y = y;
918 this.x1 = x1;
919 this.y1 = y1;
920 return this;
921 }
922
923 copy(line){
924 this.x = line.x;
925 this.y = line.y;
926 this.x1 = line.x1;
927 this.y1 = line.y1;
928 return this;
929 //return Object.assign(this, line);
930 }
931
932 clone(){
933 return new this.constructor().copy(this);
934 //return Object.assign(new this.constructor(), this);
935 }
936
937 containsPoint(x, y){
938 return (x - this.x) * (x - this.x1) <= 0 && (y - this.y) * (y - this.y1) <= 0;
939 }
940
941 intersectPoint(line, point){
942 //解线性方程组, 求线段交点
943 //如果分母为0则平行或共线, 不相交
944 var denominator = (this.y1 - this.y) * (line.x1 - line.x) - (this.x - this.x1) * (line.y - line.y1);
945 if(denominator === 0) return null;
946
947 //线段所在直线的交点坐标 (x , y)
948 const x = ((this.x1 - this.x) * (line.x1 - line.x) * (line.y - this.y)
949 + (this.y1 - this.y) * (line.x1 - line.x) * this.x
950 - (line.y1 - line.y) * (this.x1 - this.x) * line.x) / denominator;
951
952 const y = -((this.y1 - this.y) * (line.y1 - line.y) * (line.x - this.x)
953 + (this.x1 - this.x) * (line.y1 - line.y) * this.y
954 - (line.x1 - line.x) * (this.y1 - this.y) * line.y) / denominator;
955
956 //判断交点是否在两条线段上
957 if(this.containsPoint(x, y) && line.containsPoint(x, y)){
958 point.x = x;
959 point.y = y;
960 return point;
961 }
962
963 return null;
964 }
965
966 isIntersect(line){
967 //快速排斥:
968 //两个线段为对角线组成的矩形,如果这两个矩形没有重叠的部分,那么两条线段是不可能出现重叠的
969
970 //这里的确如此,这一步是判定两矩形是否相交
971 //1.线段ab的低点低于cd的最高点(可能重合)
972 //2.cd的最左端小于ab的最右端(可能重合)
973 //3.cd的最低点低于ab的最高点(加上条件1,两线段在竖直方向上重合)
974 //4.ab的最左端小于cd的最右端(加上条件2,两直线在水平方向上重合)
975 //综上4个条件,两条线段组成的矩形是重合的
976 //特别要注意一个矩形含于另一个矩形之内的情况
977 if(!(Math.min(this.x,this.x1)<=Math.max(line.x,line.x1) && Math.min(line.y,line.y1)<=Math.max(this.y,this.y1) && Math.min(line.x,line.x1)<=Math.max(this.x,this.x1) && Math.min(this.y,this.y1)<=Math.max(line.y,line.y1))) return false;
978
979 //跨立实验:
980 //如果两条线段相交,那么必须跨立,就是以一条线段为标准,另一条线段的两端点一定在这条线段的两段
981 //也就是说a b两点在线段cd的两端,c d两点在线段ab的两端
982 var u=(line.x-this.x)*(this.y1-this.y)-(this.x1-this.x)*(line.y-this.y),
983 v = (line.x1-this.x)*(this.y1-this.y)-(this.x1-this.x)*(line.y1-this.y),
984 w = (this.x-line.x)*(line.y1-line.y)-(line.x1-line.x)*(this.y-line.y),
985 z = (this.x1-line.x)*(line.y1-line.y)-(line.x1-line.x)*(this.y1-line.y);
986
987 return u*v <= 0.00000001 && w*z <= 0.00000001;
988 }
989
990 }
991
992
993
994
995 /* Box 矩形
996 parameter:
997 x = 0, y = 0, w = 0, h = 0;
998
999 attribute:
1000 x,y: Number; 位置
1001 w,h: Number; 大小
1002
1003 只读
1004 mx, my: Number; //
1005
1006 method:
1007 set(x, y, w, h): this;
1008 pos(x, y): this; //设置位置
1009 size(w, h): this; //设置大小
1010 setFromRotate(rotate: Rotate): this; //根据 rotate 旋转自己
1011 setFromShapeRect(shapeRect): this; //ShapeRect 转为 Box (忽略 ShapeRect 的旋转和缩放)
1012 setFromCircle(circle, inner: Bool): this; //
1013 setFromPolygon(polygon, inner = true): this;//
1014 toArray(array: Array, index: Integer): this;
1015 copy(box): this; //复制
1016 clone(): Box; //克隆
1017 center(box): this; //设置位置在box居中
1018 distance(x, y): Number; //左上角原点 与 x,y 的直线距离
1019 isEmpty(): Boolean; //.w.h是否小于等于零
1020 maxX(): Number; //返回 max x(this.x+this.w);
1021 maxY(): Number; //返回 max y(this.y+this.h);
1022 expand(box): undefined; //扩容; 把box合并到this
1023 equals(box): Boolean; //this与box是否恒等
1024 intersectsBox(box): Boolean; //box与this是否相交(box在this内部也会返回true)
1025 containsPoint(x, y): Boolean; //x,y点是否在this内
1026 containsBox(box): Boolean; //box是否在this内(只是相交返回fasle)
1027 computeOverflow(b: Box, r: Box): undefined; //this相对b超出的部分赋值到r; r的size小于或等于0的话说明完全超出
1028 */
1029 class Box{
1030
1031 get mx(){
1032 return this.x + this.w;
1033 }
1034
1035 get my(){
1036 return this.y + this.h;
1037 }
1038
1039 get cx(){
1040 return this.w / 2 + this.x;
1041 }
1042
1043 get cy(){
1044 return this.h / 2 + this.y;
1045 }
1046
1047 constructor(x = 0, y = 0, w = 0, h = 0){
1048 //this.set(x, y, w, h);
1049 this.x = x;
1050 this.y = y;
1051 this.w = w;
1052 this.h = h;
1053 }
1054
1055 set(x, y, w, h){
1056 this.x = x;
1057 this.y = y;
1058 this.w = w;
1059 this.h = h;
1060 return this;
1061 }
1062
1063 pos(x, y){
1064 this.x = x;
1065 this.y = y;
1066 return this;
1067 }
1068
1069 size(w, h){
1070 this.w = w;
1071 this.h = h;
1072 return this;
1073 }
1074
1075 setFromRotate(rotate){
1076 var minX = this.x, minY = this.y, maxX = 0, maxY = 0;
1077 const point = UTILS.emptyPoint,
1078 run = function (){
1079 if(point.x < minX) minX = point.x;
1080 else if(point.x > maxX) maxX = point.x;
1081 if(point.y < minY) minY = point.y;
1082 else if(point.y > maxY) maxY = point.y;
1083 }
1084
1085 point.set(this.x, this.y).rotate(rotate.origin, rotate.angle); run();
1086 point.set(this.mx, this.y).rotate(rotate.origin, rotate.angle); run();
1087 point.set(this.mx, this.my).rotate(rotate.origin, rotate.angle); run();
1088 point.set(this.x, this.my).rotate(rotate.origin, rotate.angle); run();
1089
1090 this.x = minX;
1091 this.y = minY;
1092 this.w = maxX - minX;
1093 this.h = maxY - minY;
1094
1095 return this;
1096 }
1097
1098 setFromShapeRect(shapeRect){
1099 this.width = shapeRect.width;
1100 this.height = shapeRect.height;
1101 this.x = shapeRect.position.x - this.width / 2;
1102 this.y = shapeRect.position.y - this.height / 2;
1103 return this;
1104 }
1105
1106 setFromCircle(circle, inner = true){
1107 if(inner === true){
1108 this.x = Math.sin(-135 / 180 * Math.PI) * circle.r + circle.x;
1109 this.y = Math.cos(-135 / 180 * Math.PI) * circle.r + circle.y;
1110 this.w = this.h = Math.sin(135 / 180 * Math.PI) * circle.r + circle.x - this.x;
1111 }
1112
1113 else{
1114 this.x = circle.x - circle.r;
1115 this.y = circle.y - circle.r;
1116 this.w = this.h = circle.r * 2;
1117 }
1118 return this;
1119 }
1120
1121 setFromPolygon(polygon, inner = true){
1122 if(inner === true){
1123 console.warn('Box: 暂不支持第二个参数为true');
1124 }
1125
1126 else{
1127 const len = polygon.path.length;
1128 let x = Infinity, y = Infinity, mx = 0, my = 0;
1129 for(let k = 0, v; k < len; k+=2){
1130 v = polygon.path[k];
1131 if(v < x) x = v;
1132 else if(v > mx) mx = v;
1133
1134 v = polygon.path[k+1];
1135 if(v < y) y = v;
1136 else if(v > my) my = v;
1137
1138 }
1139
1140 this.set(x, y, mx - x, my - y);
1141
1142 }
1143 return this;
1144 }
1145
1146 toArray(array, index){
1147 array[index] = this.x;
1148 array[index+1] = this.y;
1149 array[index+2] = this.w;
1150 array[index+3] = this.h;
1151
1152 return this;
1153 }
1154
1155 copy(box){
1156 this.x = box.x;
1157 this.y = box.y;
1158 this.w = box.w;
1159 this.h = box.h;
1160 return this;
1161 //return Object.assign(this, box); //this.set(box.x, box.y, box.w, box.h);
1162 }
1163
1164 clone(){
1165 return new this.constructor().copy(this);
1166 //return Object.assign(new this.constructor(), this);
1167 }
1168
1169 center(box){
1170 this.x = (box.w - this.w) / 2 + box.x;
1171 this.y = (box.h - this.h) / 2 + box.y;
1172 return this;
1173 }
1174
1175 distance(x, y){
1176 return Math.sqrt(Math.pow(this.x - x, 2) + Math.pow(this.y - y, 2));
1177 }
1178
1179 isEmpty(){
1180 return this.w <= 0 || this.h <= 0;
1181 }
1182
1183 maxX(){
1184 return this.x + this.w;
1185 }
1186
1187 maxY(){
1188 return this.y + this.h;
1189 }
1190
1191 equals(box){
1192 return this.x === box.x && this.w === box.w && this.y === box.y && this.h === box.h;
1193 }
1194
1195 expand(box){
1196 var v = Math.min(this.x, box.x);
1197 this.w = Math.max(this.x + this.w - v, box.x + box.w - v);
1198 this.x = v;
1199
1200 v = Math.min(this.y, box.y);
1201 this.h = Math.max(this.y + this.h - v, box.y + box.h - v);
1202 this.y = v;
1203 }
1204
1205 intersectsBox(box){
1206 return box.x + box.w < this.x || box.x > this.x + this.w || box.y + box.h < this.y || box.y > this.y + this.h ? false : true;
1207 }
1208
1209 containsPoint(x, y){
1210 return x < this.x || x > this.x + this.w || y < this.y || y > this.y + this.h ? false : true;
1211 }
1212
1213 containsBox(box){
1214 return this.x <= box.x && box.x + box.w <= this.x + this.w && this.y <= box.y && box.y + box.h <= this.y + this.h;
1215 }
1216
1217 computeOverflow(p, r){
1218 r["copy"](this);
1219
1220 if(this["x"] < p["x"]){
1221 r["x"] = p["x"];
1222 r["w"] -= p["x"] - this["x"];
1223 }
1224
1225 if(this["y"] < p["y"]){
1226 r["y"] = p["y"];
1227 r["h"] -= p["y"] - this["y"];
1228 }
1229
1230 var m = p["x"] + p["w"];
1231 if(r["x"] + r["w"] > m) r["w"] = m - r["x"];
1232
1233 m = p["y"] + p["h"];
1234 if(r["y"] + r["h"] > m) r["h"] = m - r["y"];
1235 }
1236
1237 }
1238
1239 Object.defineProperties(Box.prototype, {
1240
1241 isBox: {
1242 configurable: false,
1243 enumerable: false,
1244 writable: false,
1245 value: true,
1246 },
1247
1248 });
1249
1250
1251
1252
1253 /* Circle 圆形
1254 parameter:
1255 attribute:
1256 x,y: Number; 中心点
1257 r: Number; 半径
1258
1259 //只读
1260 r2: Number; //返回直径 r*2
1261
1262 method:
1263 set(x, y, r): this;
1264 pos(x, y): this;
1265 copy(circle: Circle): this;
1266 clone(): Circle;
1267 distance(x, y): Number;
1268 equals(circle: Circle): Bool;
1269 containsPoint(x, y): Bool;
1270 intersectsCircle(circle: Circle): Bool;
1271 intersectsBox(box: Box): Bool;
1272 setFromBox(box, inner = true): this;
1273
1274 */
1275 class Circle{
1276
1277 get r2(){
1278 return this.r * 2;
1279 }
1280
1281 constructor(x = 0, y = 0, r = -1){
1282 //this.set(0, 0, -1);
1283 this.x = x;
1284 this.y = y;
1285 this.r = r;
1286 }
1287
1288 set(x, y, r){
1289 this.x = x;
1290 this.y = y;
1291 this.r = r;
1292
1293 return this;
1294 }
1295
1296 setFromBox(box, world = true, inner = true){
1297 this.x = box.w / 2 + (world === true ? box.x : 0);
1298 this.y = box.h / 2 + (world === true ? box.y : 0);
1299 this.r = inner === true ? Math.min(box.w, box.h) / 2 : UTILS.distance(0, 0, box.w, box.h) / 2;
1300
1301 return this;
1302 }
1303
1304 toArray(array, index){
1305 array[index] = this.x;
1306 array[index+1] = this.y;
1307 array[index+2] = this.r;
1308
1309 return this;
1310 }
1311
1312 pos(x, y){
1313 this.x = x;
1314 this.y = y;
1315
1316 return this;
1317 }
1318
1319 copy(circle){
1320 this.r = circle.r;
1321 this.x = circle.x;
1322 this.y = circle.y;
1323
1324 return this;
1325 }
1326
1327 clone(){
1328
1329 return new this.constructor().copy(this);
1330
1331 }
1332
1333 distance(x, y){
1334
1335 return Math.sqrt(Math.pow(this.x - x, 2) + Math.pow(this.y - y, 2));
1336
1337 }
1338
1339 equals(circle){
1340
1341 return circle.x === this.x && circle.y === this.y && circle.r === this.r;
1342
1343 }
1344
1345 containsPoint(x, y){
1346
1347 return (Math.pow(x - this.x, 2) + Math.pow(y - this.y, 2) <= Math.pow(this.r, 2));
1348
1349 }
1350
1351 intersectsCircle(circle){
1352
1353 return (Math.pow(circle.x - this.x, 2) + Math.pow(circle.y - this.y, 2) <= Math.pow(circle.r + this.r, 2));
1354
1355 }
1356
1357 intersectsBox(box){
1358
1359 return (Math.pow(Math.max(box.x, Math.min(box.x + box.w, this.x)) - this.x, 2) + Math.pow(Math.max(box.y, Math.min(box.y + box.h, this.y)) - this.y, 2) <= Math.pow(this.r, 2));
1360
1361 }
1362
1363 }
1364
1365 Object.defineProperties(Circle.prototype, {
1366
1367 isCircle: {
1368 configurable: false,
1369 enumerable: false,
1370 writable: false,
1371 value: true,
1372 }
1373
1374 });
1375
1376
1377
1378
1379 /* Polygon 多边形
1380
1381 parameter:
1382 path: Array[x, y];
1383
1384 attribute:
1385
1386 //只读属性
1387 path: Array[x, y];
1388
1389 method:
1390 add(x, y): this; //x,y添加至path;
1391 containsPoint(x, y): Bool; //x,y是否在多边形的内部(注意: 在路径上也返回 true)
1392
1393 */
1394 class Polygon{
1395
1396 #position = null;
1397 #path2D = null;
1398
1399 get path(){
1400
1401 return this.#position;
1402
1403 }
1404
1405 constructor(path = []){
1406 this.#position = path;
1407
1408 this.#path2D = new Path2D();
1409
1410 var len = path.length;
1411 if(len >= 2){
1412 if(len % 2 !== 0){
1413 len -= 1;
1414 path.splice(len, 1);
1415 }
1416
1417 const con = this.#path2D;
1418 con.moveTo(path[0], path[1]);
1419 for(let k = 2; k < len; k+=2) con.lineTo(path[k], path[k+1]);
1420
1421 }
1422
1423 }
1424
1425 add(x, y){
1426 this.#position.push(x, y);
1427 this.#path2D.lineTo(x, y);
1428 return this;
1429 }
1430
1431 containsPoint(x, y){
1432
1433 return UTILS.emptyContext.isPointInPath(this.#path2D, x, y);
1434
1435 }
1436
1437 isInPolygon(checkPoint, polygonPoints) {
1438 var counter = 0;
1439 var i;
1440 var xinters;
1441 var p1, p2;
1442 var pointCount = polygonPoints.length;
1443 p1 = polygonPoints[0];
1444 for (i = 1; i <= pointCount; i++) {
1445 p2 = polygonPoints[i % pointCount];
1446 if (
1447 checkPoint[0] > Math.min(p1[0], p2[0]) &&
1448 checkPoint[0] <= Math.max(p1[0], p2[0])
1449 ) {
1450 if (checkPoint[1] <= Math.max(p1[1], p2[1])) {
1451 if (p1[0] != p2[0]) {
1452 xinters =
1453 (checkPoint[0] - p1[0]) *
1454 (p2[1] - p1[1]) /
1455 (p2[0] - p1[0]) +
1456 p1[1];
1457 if (p1[1] == p2[1] || checkPoint[1] <= xinters) {
1458 counter++;
1459 }
1460 }
1461 }
1462 }
1463 p1 = p2;
1464 }
1465 if (counter % 2 == 0) {
1466 return false;
1467 } else {
1468 return true;
1469 }
1470 }
1471
1472 containsPolygon(polygon){
1473 const path = polygon.path, len = path.length;
1474 for(let k = 0; k < len; k += 2){
1475 if(this.containsPoint(path[k], path[k+1]) === false) return false;
1476 }
1477
1478 return true;
1479 }
1480
1481 toPoints(){
1482 const path = this.path, len = path.length, result = [];
1483
1484 for(let k = 0; k < len; k += 2) result.push(new Point(path[k], path[k+1]));
1485
1486 return result;
1487 }
1488
1489 toLines(){
1490 const path = this.path, len = path.length, result = [];
1491
1492 for(let k = 0, x = NaN, y; k < len; k += 2){
1493
1494 if(isNaN(x)){
1495 x = path[k];
1496 y = path[k+1];
1497 continue;
1498 }
1499
1500 const line = new Line(x, y, path[k], path[k+1]);
1501
1502 x = line.x1;
1503 y = line.y1;
1504
1505 result.push(line);
1506
1507 }
1508
1509 return result;
1510 }
1511
1512 merge(polygon){
1513
1514 const linesA = this.toLines(), linesB = polygon.toLines(), nodes = [], newLines = [],
1515
1516 pointA = new Point(), pointB = new Point(),
1517
1518 forEachNodes = (pathA, pathB, funcA = null, funcB = null) => {
1519 for(let k = 0, lenA = pathA.length, lenB = pathB.length; k < lenA; k++){
1520 if(funcA !== null) funcA(pathA[k]);
1521
1522 for(let i = 0; i < lenB; i++){
1523 if(funcB !== null) funcB(pathB[i], pathA[k]);
1524 }
1525
1526 }
1527 }
1528
1529 if(this.containsPolygon(polygon)){console.log('this -> polygon');
1530 forEachNodes(linesA, linesB, lineA => newLines.push(lineA), (lineB, lineA) => {
1531 if(lineA.intersectPoint(lineB, pointA) === pointA) newLines.push(pointA.clone());
1532 });
1533
1534 return newLines;
1535 }
1536
1537 //收集所有的交点 (保存至 line)
1538 forEachNodes(linesA, linesB, lineA => lineA.nodes = [], (lineB, lineA) => {
1539 if(lineB.nodes === undefined) lineB.nodes = [];
1540 if(lineA.intersectPoint(lineB, pointA) === pointA){
1541 const node = {
1542 lineA: lineA,
1543 lineB: lineB,
1544 point: pointA.clone(),
1545 disA: pointA.distanceCompare(pointB.set(lineA.x, lineA.y)),
1546 disB: pointA.distanceCompare(pointB.set(lineB.x, lineB.y)),
1547 }
1548 lineA.nodes.push(node);
1549 lineB.nodes.push(node);
1550 nodes.push(node);
1551 }
1552 });
1553
1554 //交点以原点为目标排序
1555 for(let k = 0, sotr = function (a,b){return a.disA - b.disA;}, countA = linesA.length; k < countA; k++) linesA[k].nodes.sort(sotr);
1556 for(let k = 0, sotr = function (a,b){return a.disB - b.disB;}, countB = linesB.length; k < countB; k++) linesB[k].nodes.sort(sotr);
1557
1558 var _loopTypeA, _loopTypeB;
1559 const result_loop = {
1560 lines: null,
1561 loopType: '',
1562 line: null,
1563 count: 0,
1564 indexed: 0,
1565 },
1566
1567 //遍历某条线
1568 loop = (lines, index, loopType) => {
1569 const length = lines.length, indexed = lines.length, model = lines === linesA ? polygon : this;
1570
1571 var line, i = 1;
1572 while(true){
1573 if(loopType === 'next') index = index === length - 1 ? 0 : index + 1;
1574 else if(loopType === 'back') index = index === 0 ? length - 1 : index - 1;
1575 line = lines[index];
1576
1577 result_loop.count = line.nodes.length;
1578 if(result_loop.count !== 0){
1579 result_loop.lines = lines;
1580 result_loop.loopType = loopType;
1581 result_loop.line = line;
1582 result_loop.indexed = index;
1583 if(loopType === 'next') addLine(line, model);
1584
1585 return result_loop;
1586 }
1587
1588 addLine(line, model);
1589 if(indexed === i++) break;
1590
1591 }
1592
1593 },
1594
1595 //更新或创建交点的索引
1596 setNodeIndex = (lines, index, loopType) => {
1597 const line = lines[index], count = line.nodes.length;
1598 if(loopType === undefined) loopType = lines === linesA ? _loopTypeA : _loopTypeB;
1599
1600 if(loopType === undefined) return;
1601
1602 if(line.nodeIndex === undefined){
1603 line.nodeIndex = loopType === 'next' ? 0 : count - 1;
1604 line.nodeState = count === 1 ? 'end' : 'start';
1605
1606 }
1607
1608 else{
1609 if(line.nodeState === 'end' || line.nodeState === ''){
1610 line.nodeState = '';
1611 return;
1612 }
1613
1614 if(loopType === 'next'){
1615 line.nodeIndex += 1;
1616
1617 if(line.nodeIndex === count - 1) line.nodeState = 'end';
1618 else line.nodeState = 'run';
1619 }
1620
1621 else if(loopType === 'back'){
1622 line.nodeIndex -= 1;
1623
1624 if(line.nodeIndex === 0) line.nodeState = 'end';
1625 else line.nodeState = 'run';
1626 }
1627
1628 }
1629
1630 },
1631
1632 //只有在跳线的时候才执行此方法, 如果跳线的话: 某条线上的交点必然在两端;
1633 getLoopType = (lines, index, nodePoint) => {
1634 const line = lines[index], lineNext = lines[index === lines.length - 1 ? 0 : index + 1],
1635
1636 model = lines === linesA ? polygon : this,
1637 isLineBack = newLines.includes(line) === false && model.containsPoint(line.x, line.y) === false,
1638 isLineNext = newLines.includes(lineNext) === false && model.containsPoint(lineNext.x, lineNext.y) === false;
1639
1640 if(isLineBack && isLineNext){
1641 const len = line.nodes.length;
1642 if(len >= 2){
1643 if(line.nodes[len - 1].point.equals(nodePoint)) return 'next';
1644 else if(line.nodes[0].point.equals(nodePoint)) return 'back';
1645 }
1646
1647 else console.warn('路径复杂', line);
1648
1649 }
1650
1651 else if(isLineNext){
1652 return 'next';
1653 }
1654
1655 else if(isLineBack){
1656 return 'back';
1657 }
1658
1659 return '';
1660 },
1661
1662 //添加线至新的形状数组
1663 addLine = (line, model) => {
1664 //if(newLines.includes(line) === false && model.containsPoint(line.x, line.y) === false) newLines.push(line);
1665 if(line.nodes.length === 0) newLines.push(line);
1666 else if(model.containsPoint(line.x, line.y) === false) newLines.push(line);
1667
1668 },
1669
1670 //处理拥有交点的线
1671 computeNodes = v => {
1672 if(v === undefined || v.count === 0) return;
1673
1674 setNodeIndex(v.lines, v.indexed, v.loopType);
1675
1676 //添加交点
1677 const node = v.line.nodes[v.line.nodeIndex];
1678 if(newLines.includes(node.point) === false) newLines.push(node.point);
1679 else return;
1680
1681 var lines = v.lines === linesA ? linesB : linesA,
1682 line = lines === linesA ? node.lineA : node.lineB,
1683 index = lines.indexOf(line);
1684
1685 setNodeIndex(lines, index);
1686
1687 //选择交点状态
1688 var nodeState = line.nodeState !== undefined ? line.nodeState : v.line.nodeState;
1689 if((v.count <= 2 && line.nodes.length > 2) || (v.count > 2 && line.nodes.length <= 2)){
1690 if(line.nodeState === 'start'){
1691 const backLine = v.loopType === 'next' ? v.lines[v.indexed === 0 ? v.lines.length-1 : v.indexed-1] : v.lines[v.indexed === v.lines.length-1 ? 0 : v.indexed+1];
1692
1693 if(newLines.includes(backLine) && backLine.nodes.length === 0){
1694 nodeState = 'run';
1695 }
1696
1697 }
1698 else if(line.nodeState === 'end'){
1699 const nextLine = v.loopType === 'next' ? v.lines[v.indexed === v.lines.length-1 ? 0 : v.indexed+1] : v.lines[v.indexed === 0 ? v.lines.length-1 : v.indexed-1];
1700 const model = v.lines === linesA ? polygon : this;
1701 if(model.containsPoint(nextLine.x, nextLine.y) === false && nextLine.nodes.length === 0){
1702 nodeState = 'run';
1703 }
1704
1705 }
1706 }
1707
1708 switch(nodeState){
1709
1710 //不跳线
1711 case 'run':
1712 if(v.loopType === 'back') addLine(v.line, v.lines === linesA ? polygon : this);
1713 return computeNodes(loop(v.lines, v.indexed, v.loopType));
1714
1715 //跳线
1716 case 'start':
1717 case 'end':
1718 const loopType = getLoopType(lines, index, node.point);
1719 if(loopType !== ''){
1720 if(lines === linesA) _loopTypeA = loopType;
1721 else _loopTypeB = loopType;
1722 if(loopType === 'back') addLine(line, v.lines === linesA ? this : polygon);
1723 return computeNodes(loop(lines, index, loopType));
1724 }
1725 break;
1726
1727 }
1728
1729 }
1730
1731 //获取介入点
1732 var startLine = null;
1733 for(let k = 0, len = nodes.length, node; k < len; k++){
1734 node = nodes[k];
1735 if(node.lineA.nodes.length !== 0){
1736 startLine = node.lineA;
1737 if(node.lineA.nodes.length === 1 && node.lineB.nodes.length > 1){
1738 startLine = node.lineB.nodes[0].lineB;
1739 result_loop.lines = linesB;
1740 result_loop.loopType = _loopTypeB = 'next';
1741 }
1742 else{
1743 result_loop.lines = linesA;
1744 result_loop.loopType = _loopTypeA = 'next';
1745 }
1746 result_loop.line = startLine;
1747 result_loop.count = startLine.nodes.length;
1748 result_loop.indexed = result_loop.lines.indexOf(startLine);
1749 break;
1750 }
1751 }
1752
1753 if(startLine === null){
1754 console.warn('Polygon: 找不到介入点, 终止了合并');
1755 return newLines;
1756 }
1757
1758 computeNodes(result_loop);
1759
1760 return newLines;
1761 }
1762
1763 }
1764
1765
1766
1767
1768 /* ShapeRect (一般2d矩形的原点在左上, 此矩形类的原点在中间)
1769 parameter:
1770 width = 0, height = 0
1771
1772 attribute:
1773 width, height: Number; //矩形的宽高
1774 position: Point; //位置(是旋转和缩放的中心点)
1775 rotation: Number; //旋转(绕 Z 轴旋转的弧度)
1776 scale: Point; //缩放
1777
1778 method:
1779 setFromBox(box): this; //Box 转为 ShapeRect
1780 compute(): undefined; //计算出矩形
1781 applyCanvas(context): undefined; //矩形应用到画布的上下文中
1782
1783 demo:
1784 const canvasRect = new ShapeRect(100, 150); console.log(canvasRect);
1785
1786 const canvas = document.createElement("canvas");
1787 canvas.width = WORLD.width;
1788 canvas.height = WORLD.height;
1789 canvas.style = `
1790 position: absolute;
1791 z-index: 9999;
1792 background: rgb(127,127,127);
1793 `;
1794 document.body.appendChild(canvas);
1795
1796 canvasRect.position.set(300, 300);
1797 canvasRect.rotation = UTILS.toAngle(45);
1798 canvasRect.scale.set(1.5, 1.5);
1799 canvasRect.compute();
1800
1801 const context = canvas.getContext("2d");
1802 canvasRect.applyCanvas(context);
1803
1804 context.strokeStyle = "red";
1805 context.stroke();
1806 */
1807 class ShapeRect{
1808
1809 #dots = [];
1810 #size = new Point();
1811 #min = new Point();
1812 #max = new Point();
1813
1814 constructor(width = 0, height = 0){
1815 this.width = width;
1816 this.height = height;
1817 this.position = new Point();
1818 this.rotation = 0;
1819 this.scale = new Point(1, 1);
1820 }
1821
1822 setFromBox(box){
1823 this.width = box.w;
1824 this.height = box.h;
1825 this.position.set(box.cx, box.cy);
1826 return this;
1827 }
1828
1829 compute(){
1830 //scale
1831 this.#size.set(this.width * this.scale.x, this.height * this.scale.y);
1832
1833 //position
1834 this.#min.set(this.position.x - this.#size.x / 2, this.position.y - this.#size.y / 2);
1835 this.#max.set(this.#min.x + this.#size.x, this.#min.y + this.#size.y);
1836
1837 //rotation
1838 const point = UTILS.emptyPoint;
1839 this.#dots.length = 0;
1840
1841 point.set(this.#min.x, this.#min.y).rotate(this.position, this.rotation);
1842 this.#dots.push(point.x, point.y);
1843
1844 point.set(this.#max.x, this.#min.y).rotate(this.position, this.rotation);
1845 this.#dots.push(point.x, point.y);
1846
1847 point.set(this.#max.x, this.#max.y).rotate(this.position, this.rotation);
1848 this.#dots.push(point.x, point.y);
1849
1850 point.set(this.#min.x, this.#max.y).rotate(this.position, this.rotation);
1851 this.#dots.push(point.x, point.y);
1852
1853 //缩放旋转后的 min 与 max
1854 //this.#min.set(Math.min(this.#dots[0], this.#dots[2], this.#dots[4], this.#dots[6]), Math.min(this.#dots[1], this.#dots[3], this.#dots[5], this.#dots[7]));
1855 //this.#max.set(Math.max(this.#dots[0], this.#dots[2], this.#dots[4], this.#dots[6]), Math.max(this.#dots[1], this.#dots[3], this.#dots[5], this.#dots[7]))
1856 }
1857
1858 drawImage(img, context){
1859 UTILS.emptyContext.canvas.width = this.#size.x;
1860 UTILS.emptyContext.canvas.height = this.#size.y;
1861 UTILS.emptyContext.drawImage(img, 0, 0, this.#size.x, this.#size.y);
1862
1863 const imageData = UTILS.emptyContext.getImageData(0, 0, this.#size.x, this.#size.y),
1864 width = imageData.width, height = imageData.height,
1865 len = width * height, point = UTILS.emptyPoint, center = UTILS.emptyPointA.set(width/2, height/2),
1866
1867 newImageData = UTILS.emptyContext.createImageData(width, height);
1868
1869 for(let k = 0; k < len; k++){
1870 point.set(k % width, Math.floor(k / width)).rotate(center, this.rotation);
1871 if(point.x < 0 || point.y < 0 || point.x > newImageData.width-1 || point.y > newImageData.height-1) continue;
1872
1873 point.set((width * Math.round(point.y) + Math.round(point.x)) * 4, k * 4);
1874 newImageData.data[point.x] = imageData.data[point.y];
1875 newImageData.data[point.x + 1] = imageData.data[point.y + 1];
1876 newImageData.data[point.x + 2] = imageData.data[point.y + 2];
1877 newImageData.data[point.x + 3] = imageData.data[point.y + 3];
1878 }
1879
1880 context.putImageData(newImageData, 20, 20);
1881 }
1882
1883 applyCanvas(context){
1884 context.beginPath();
1885 context.moveTo(this.#dots[0], this.#dots[1]);
1886
1887 for(let k = 2, len = this.#dots.length; k < len; k += 2){
1888 context.lineTo(this.#dots[k], this.#dots[k + 1]);
1889 }
1890
1891 context.closePath();
1892 }
1893
1894 }
1895
1896
1897
1898
1899 /* RGBColor
1900 parameter:
1901 r, g, b
1902
1903 method:
1904 set(r, g, b: Number): this; //rgb: 0 - 255; 第一个参数可以为 css color
1905 setFormHex(hex: Number): this; //
1906 setFormHSV(h, s, v: Number): this; //h:0-360; s,v:0-100; 颜色, 明度, 暗度
1907 setFormString(str: String): Number; //str: 英文|css color; 返回的是透明度 (如果为 rgba 则返回a; 否则总是返回1)
1908
1909 copy(v: RGBColor): this;
1910 clone(): RGBColor;
1911
1912 getHex(): Number;
1913 getHexString(): String;
1914 getHSV(result: Object{h, s, v}): result; //result: 默认是一个新的Object
1915 getRGBA(alpha: Number): String; //alpha: 0 - 1; 默认 1
1916 getStyle() //.getRGBA()别名
1917
1918 stringToColor(str: String): String; //str 转为 css color; 如果str不是color格式则返回 ""
1919
1920 */
1921 class RGBColor{
1922
1923 constructor(r = 255, g = 255, b = 255){
1924 this.r = r;
1925 this.g = g;
1926 this.b = b;
1927
1928 }
1929
1930 copy(v){
1931 this.r = v.r;
1932 this.g = v.g;
1933 this.b = v.b;
1934 return this;
1935 }
1936
1937 clone(){
1938 return new this.constructor().copy(this);
1939 }
1940
1941 set(r, g, b){
1942 if(typeof r !== "string"){
1943 this.r = r || 255;
1944 this.g = g || 255;
1945 this.b = b || 255;
1946 }
1947
1948 else this.setFormString(r);
1949
1950 return this;
1951 }
1952
1953 setFormHex(hex){
1954 hex = Math.floor( hex );
1955
1956 this.r = hex >> 16 & 255;
1957 this.g = hex >> 8 & 255;
1958 this.b = hex & 255;
1959 return this;
1960 }
1961
1962 setFormHSV(h, s, v){
1963 h = h >= 360 ? 0 : h;
1964 var s=s/100;
1965 var v=v/100;
1966 var h1=Math.floor(h/60) % 6;
1967 var f=h/60-h1;
1968 var p=v*(1-s);
1969 var q=v*(1-f*s);
1970 var t=v*(1-(1-f)*s);
1971 var r,g,b;
1972 switch(h1){
1973 case 0:
1974 r=v;
1975 g=t;
1976 b=p;
1977 break;
1978 case 1:
1979 r=q;
1980 g=v;
1981 b=p;
1982 break;
1983 case 2:
1984 r=p;
1985 g=v;
1986 b=t;
1987 break;
1988 case 3:
1989 r=p;
1990 g=q;
1991 b=v;
1992 break;
1993 case 4:
1994 r=t;
1995 g=p;
1996 b=v;
1997 break;
1998 case 5:
1999 r=v;
2000 g=p;
2001 b=q;
2002 break;
2003 }
2004
2005 this.r = Math.round(r*255);
2006 this.g = Math.round(g*255);
2007 this.b = Math.round(b*255);
2008 return this;
2009 }
2010
2011 setFormString(color){
2012 if(typeof color !== "string") return 1;
2013 var _color = this.stringToColor(color);
2014
2015 if(_color[0] === "#"){
2016 const len = _color.length;
2017 if(len === 4){
2018 _color = _color.slice(1);
2019 this.setFormHex(parseInt("0x"+_color + "" + _color));
2020 }
2021 else if(len === 7) this.setFormHex(parseInt("0x"+_color.slice(1)));
2022
2023 }
2024
2025 else if(_color[0] === "r" && _color[1] === "g" && _color[2] === "b"){
2026 const arr = [];
2027 for(let k = 0, len = _color.length, v = "", is = false; k < len; k++){
2028
2029 if(is === true){
2030 if(_color[k] === "," || _color[k] === ")"){
2031 arr.push(parseFloat(v));
2032 v = "";
2033 }
2034 else v += _color[k];
2035
2036 }
2037
2038 else if(_color[k] === "(") is = true;
2039
2040 }
2041
2042 this.set(arr[0], arr[1], arr[2]);
2043 return arr[3] === undefined ? 1 : arr[3];
2044 }
2045
2046 return 1;
2047 }
2048
2049 getHex(){
2050
2051 return Math.max( 0, Math.min( 255, this.r ) ) << 16 ^ Math.max( 0, Math.min( 255, this.g ) ) << 8 ^ Math.max( 0, Math.min( 255, this.b ) ) << 0;
2052
2053 }
2054
2055 getHexString(){
2056
2057 return '#' + ( '000000' + this.getHex().toString( 16 ) ).slice( - 6 );
2058
2059 }
2060
2061 getHSV(result){
2062 result = result || {}
2063 var r=this.r/255;
2064 var g=this.g/255;
2065 var b=this.b/255;
2066 var h,s,v;
2067 var min=Math.min(r,g,b);
2068 var max=v=Math.max(r,g,b);
2069 var l=(min+max)/2;
2070 var difference = max-min;
2071
2072 if(max==min){
2073 h=0;
2074 }else{
2075 switch(max){
2076 case r: h=(g-b)/difference+(g < b ? 6 : 0);break;
2077 case g: h=2.0+(b-r)/difference;break;
2078 case b: h=4.0+(r-g)/difference;break;
2079 }
2080 h=Math.round(h*60);
2081 }
2082 if(max==0){
2083 s=0;
2084 }else{
2085 s=1-min/max;
2086 }
2087 s=Math.round(s*100);
2088 v=Math.round(v*100);
2089 result.h = h;
2090 result.s = s;
2091 result.v = v;
2092 return result;
2093 }
2094
2095 getStyle(){
2096 return this.getRGBA(1);
2097 }
2098
2099 getRGBA(alpha){
2100 alpha = typeof alpha === 'number' ? alpha : 1;
2101 return 'rgba('+this.r+','+this.g+','+this.b+','+alpha+')';
2102 }
2103
2104 stringToColor(str){
2105 var _color = "";
2106 for(let k = 0, len = str.length; k < len; k++){
2107 if(str[k] === " ") continue;
2108 _color += str[k];
2109 }
2110
2111 if(_color[0] === "#" || (_color[0] === "r" && _color[1] === "g" && _color[2] === "b")) return _color;
2112
2113 return ColorRefTable[_color] || "";
2114 }
2115
2116 }
2117
2118 Object.defineProperties(RGBColor.prototype, {
2119
2120 isRGBColor: {
2121 configurable: false,
2122 enumerable: false,
2123 writable: false,
2124 value: true,
2125 }
2126
2127 });
2128
2129
2130
2131
2132 /* Timer 定时器
2133
2134 parameter:
2135 func: Function; //定时器运行时的回调; 默认 null, 如果定义构造器将自动调用一次.restart()方法
2136 speed: Number; //延迟多少毫秒执行一次 func; 默认 3000;
2137 step: Integer; //执行多少次: 延迟speed毫秒执行一次 func; 默认 Infinity;
2138
2139 attribute:
2140 func, speed, step; //这些属性可以随时更改;
2141
2142 //只读属性
2143 readyState: String; //定时器状态; 可能值: '', 'start', 'running', 'done'; ''表示定时器从未启动
2144 number: Number; //运行的次数
2145
2146 method:
2147 start(func, speed): this; //启动定时器 (如果定时器正在运行则什么都不会做)
2148 restart(): undefined; //重启定时器
2149 stop(): undefined; //停止定时器
2150
2151 demo:
2152 //每 3000 毫秒 打印一次 timer.number
2153 new Timer(timer => {
2154 console.log(timer.number);
2155 }, 3000);
2156
2157 */
2158 class Timer{
2159
2160 #restart = -1;
2161 #speed = 0;
2162 #isRun = false;
2163 #i = 0;
2164 #readyState = ''; //start|running
2165
2166 get number(){
2167 return this.#i;
2168 }
2169
2170 get readyState(){
2171 return this.#i >= this.step ? 'done' : this.#readyState;
2172 }
2173
2174 get running(){
2175 return this.#isRun;
2176 }
2177
2178 constructor(func = null, speed = 3000, step = Infinity){
2179 this.func = func;
2180 this.speed = speed;
2181 this.step = step;
2182 //this.onDone = null;
2183
2184 if(typeof this.func === "function") this.restart();
2185
2186 }
2187
2188 start(func, time){
2189 if(typeof func === 'function') this.func = func;
2190 if(UTILS.isNumber(time) === true) this.speed = time;
2191 this.restart();
2192
2193 return this;
2194 }
2195
2196 restart(){
2197 if(this.#isRun === false){
2198 setTimeout(this._loop, this.speed);
2199 this.#isRun = true;
2200 this.#restart = -1;
2201 this.#i = 0;
2202 this.#readyState = 'start';
2203
2204 }
2205
2206 else{
2207 this.#restart = Date.now();
2208 this.#speed = this.speed;
2209
2210 }
2211
2212 }
2213
2214 stop(){
2215 if(this.#isRun === true){
2216 this.#restart = -1;
2217 this.#i = this.step;
2218 }
2219
2220 }
2221
2222 _loop = () => {
2223
2224 //重启计时器
2225 if(this.#restart !== -1){
2226
2227 let gone = Date.now() - this.#restart;
2228 this.#restart = -1;
2229
2230 if(gone >= this.#speed) gone = this.speed;
2231 else{
2232 if(this.#speed === this.speed) gone = this.#speed - gone;
2233 else gone = (this.#speed - gone) / this.#speed * this.speed;
2234 }
2235
2236 setTimeout(this._loop, gone);
2237
2238 this.#i = 1;
2239 if(this.func !== null) this.func(this);
2240
2241 }
2242
2243 //正在运行
2244 else if(this.#i < this.step){
2245
2246 setTimeout(this._loop, this.speed);
2247
2248 this.#i++;
2249 if(this.#readyState !== 'running') this.#readyState = 'running';
2250 if(this.func !== null) this.func(this);
2251
2252 }
2253
2254 //完成
2255 else this.#isRun = false;
2256
2257 }
2258
2259 }
2260
2261
2262
2263
2264 /* SeekPath A*寻路
2265
2266 parameter:
2267 option: Object{
2268 angle: Number, //8 || 16
2269 timeout: Number, //单位为毫秒
2270 size: Number, //每格的宽高
2271 lenX, lenY: Number, //长度
2272 disables: Array[0||1],
2273 heights: Array[Number],
2274 path: Array[], //存放寻路结果 默认创建一个空数组
2275 }
2276
2277 attribute:
2278 size: Number; //每个索引的大小
2279 lenX: Number; //最大长度x (设置此属性时, 你需要重新.initMap(heights);)
2280 lenY: Number; //最大长度y (设置此属性时, 你需要重新.initMap(heights);)
2281
2282 //此属性已废弃 range: Box; //本次的搜索范围, 默认: 0,0,lenX,lenY
2283 angle: Number; //8四方向 或 16八方向 默认 16
2284 timeout: Number; //超时毫秒 默认 500
2285 mapRange: Box; //地图box
2286 //此属性已废弃(run函数不在检测相邻的高) maxHeight: Number; //相邻可走的最大高 默认 6
2287
2288 //只读属性
2289 success: Bool; //只读; 本次搜索是否成功找到终点; (如果为false说明.run()返回的是 距终点最近的路径; 超时也会被判定为false)
2290 path: Array[x, y, z]; //存放.run()返回的路径
2291 map: Map; //地图的缓存数据
2292
2293 method:
2294 initMap(heights: Array[Number]): undefiend; //初始化类时自动调用一次; heights:如果你的场景存在高请定义此参数
2295 run(x, y, x1, y1: Number): Array[x, y, z]; //参数索引坐标
2296 getDots(x, y, a, r): Array[ix, iy]; //获取周围的点 x,y, a:8|16, r:存放结果数组
2297 getLegalPoints(ix, iy, count): Array[x, y, z]; //获取 ix, iy 周围 合法的, 相邻的 count 个点
2298
2299 demo:
2300 const sp = new SeekPath({
2301 angle: 16,
2302 timeout: 500,
2303 //maxHeight: 6,
2304 size: 10,
2305 lenX: 1000,
2306 lenY: 1000,
2307 }),
2308
2309 path = sp.run(0, 0, 1000, 1000);
2310
2311 console.log(sp);
2312
2313 */
2314 class SeekPath{
2315
2316 static _open = []
2317 static _dots = [] //.run() .getLegalPoints()
2318 static dots4 = []; //._check()
2319 static _sort = function (a, b){return a["f"] - b["f"];}
2320
2321 #map = null;
2322 #path = null;
2323 #success = true;
2324 #halfX = 50;
2325 #halfY = 50;
2326
2327 #size = 10;
2328 #lenX = 10;
2329 #lenY = 10;
2330
2331 constructor(option = {}){
2332 this.angle = (option.angle === 8 || option.angle === 16) ? option.angle : 16; //8四方向 或 16八方向
2333 this.timeout = option.timeout || 500; //超时毫秒
2334 //this.maxHeight = option.maxHeight || 6;
2335 this.mapRange = new Box();
2336 this.size = option.size || 10;
2337 this.lenX = option.lenX || 10;
2338 this.lenY = option.lenY || 10;
2339 this.#path = Array.isArray(option.path) ? option.path : [];
2340 this.initMap(option.disable, option.height);
2341 option = undefined
2342 }
2343
2344 //this.#map[x][y] = Object{height: 此点的高,默认0, is: 此点是否可走,默认1(disable)};
2345 get map(){
2346 return this.#map;
2347 }
2348
2349 //this.#path = Array[x,y,z]
2350 get path(){
2351 return this.#path;
2352 }
2353
2354 get success(){
2355 return this.#success;
2356 }
2357
2358 get size(){
2359 return this.#size;
2360 }
2361
2362 set size(v){
2363 this.#size = v;
2364 v = v / 2;
2365 this.#halfX = v * this.#lenX;
2366 this.#halfY = v * this.#lenY;
2367 }
2368
2369 get lenX(){
2370 return this.#lenX;
2371 }
2372
2373 set lenX(v){
2374 this.#lenX = v;
2375 v = this.#size / 2;
2376 this.#halfX = v * this.#lenX;
2377 this.#halfY = v * this.#lenY;
2378
2379 }
2380
2381 get lenY(){
2382 return this.#lenY;
2383 }
2384
2385 set lenY(v){
2386 this.#lenY = v;
2387 v = this.#size / 2;
2388 this.#halfX = v * this.#lenX;
2389 this.#halfY = v * this.#lenY;
2390
2391 }
2392
2393 toScene(n, v){ //n = "x|y"
2394 //n = n === "y" ? "lenY" : "lenX";
2395 if(n === "y" || n === "z") return v * this.#size - this.#halfY;
2396 return v * this.#size - this.#halfX;
2397
2398 }
2399
2400 toIndex(n, v){
2401 //n = n === "y" ? "lenY" : "lenX";
2402 if(n === "y" || n === "z") return Math.round((this.#halfY + v) / this.#size);
2403 return Math.round((this.#halfX + v) / this.#size);
2404
2405 }
2406
2407 initMap(disable, height){
2408
2409 disable = Array.isArray(disable) === true ? disable : null;
2410 height = Array.isArray(height) === true ? height : null;
2411
2412 const lenX = this.lenX, lenY = this.lenY;
2413 var getHeight = (ix, iy) => {
2414 if(height === null) return 0;
2415 ix = height[ix * lenY + iy];
2416 if(ix === undefined) return 0;
2417 return ix;
2418 },
2419 getDisable = (ix, iy) => {
2420 if(disable === null) return 1;
2421 ix = disable[ix * lenY + iy];
2422 if(ix === undefined) return 0;
2423 return ix;
2424 },
2425
2426 map = []//new Map();
2427
2428 for(let x = 0, y, m; x < lenX; x++){
2429 m = []//new Map();
2430 for(y = 0; y < lenY; y++) m[y] = {x:x, y:y, height:getHeight(x, y), is:getDisable(x, y), g:0, h:0, f:0, p:null, id:""}//m.set(y, {x:x, y:y, height:getHeight(x, y), g:0, h:0, f:0, p:null, id:""});
2431 map[x] = m;//map.set(x, m);
2432 }
2433
2434 this.#map = map;
2435 this._id = -1;
2436 this._updateID();
2437 this.mapRange.set(0, 0, this.#lenX-1, this.#lenY-1);
2438
2439 map = disable = height = getHeight = undefined;
2440
2441 }
2442
2443 getLegalPoints(ix, iy, count, result = []){
2444 const _dots = SeekPath._dots;
2445 result.length = 0;
2446 result[0] = this.#map[ix][iy];
2447 count += 1;
2448
2449 while(result.length < count){
2450 for(let k = 0, i, n, d, len = result.length; k < len; k++){
2451 n = result[k];
2452 this.getDots(n.x, n.y, this.angle, _dots);
2453 for(i = 0; i < this.angle; i += 2){
2454 d = this.#map[_dots[i]][_dots[i+1]];
2455 if(d.is === 1 && this.mapRange.containsPoint(d.x, d.y) && !result.includes(d)){
2456 if(Math.abs(n.x - d.x) + Math.abs(n.y - d.y) === 2 && this._check(n, d)){
2457 result.push(d);
2458 }
2459 }
2460 }
2461 }
2462 }
2463
2464 result.splice(0, 1);
2465 return result;
2466 }
2467
2468 getLinePoints(now, next, count, result = []){
2469 if(count === 1) return result[0] = next;
2470 if(count % 2 === 0) count += 1;
2471
2472 const len = Math.floor(count / 2),
2473 nowPoint = UTILS.emptyPoint,
2474 angle90 = UTILS.toAngle(90);
2475
2476 var i, ix, iy, n, nn = next;
2477
2478 nowPoint.set(now.x, now.y).rotate(next, angle90); //now 以 next 为原点顺时针旋转 90 度
2479 var disX = nowPoint.x - next.x,
2480 disY = nowPoint.y - next.y;
2481
2482 for(i = 0; i < len; i++){
2483 ix = disX + disX * i + next.x;
2484 iy = disY + disY * i + next.y;
2485
2486 n = this.#map[ix][iy];
2487 if(n.is === 1) nn = n;
2488 result[len-1-i] = nn;
2489 }
2490
2491 result[len] = next;
2492 nn = next
2493
2494 nowPoint.set(now.x, now.y).rotate(next, -angle90);
2495 disX = nowPoint.x - next.x;
2496 disY = nowPoint.y - next.y;
2497
2498 for(i = 0; i < len; i++){
2499 ix = disX + disX * i + next.x;
2500 iy = disY + disY * i + next.y;
2501
2502 n = this.#map[ix][iy];
2503 if(n.is === 1) nn = n;
2504 result[len+1+i] = nn;
2505 }
2506
2507 return result;
2508 }
2509
2510 getDots(x, y, a, r = []){ //获取周围的点 x,y, a:8|16, r:存放结果数组
2511 r.length = 0;
2512 const x_1 = x-1, x1 = x+1, y_1 = y-1, y1 = y+1;
2513 if(a === 16) r.push(x_1, y_1, x, y_1, x1, y_1, x_1, y, x1, y, x_1, y1, x, y1, x1, y1);
2514 else r.push(x, y_1, x, y1, x_1, y, x1, y);
2515 }
2516
2517 _updateID(){ //更新标记
2518 this._id++;
2519 this._openID = "o_"+this._id;
2520 this._closeID = "c_"+this._id;
2521 }
2522
2523 _check(dotA, dotB){ //检测 a 是否能到 b
2524 //获取 dotB 周围的4个点 并 遍历这4个点
2525 this.getDots(dotB.x, dotB.y, 8, SeekPath.dots4);
2526 for(let k = 0, x, y; k < 8; k += 2){
2527 x = SeekPath.dots4[k];
2528 y = SeekPath.dots4[k+1];
2529 if(this.mapRange.containsPoint(x, y) === false) continue;
2530
2531 //找出 dotA 与 dotB 相交的两个点:
2532 if(Math.abs(dotA.x - x) + Math.abs(dotA.y - y) === 1){
2533 //如果其中一个交点是不可走的则 dotA 到 dotB 不可走, 既返回 false
2534 if(this.#map[x][y].is === 0) return false;
2535 }
2536
2537 }
2538
2539 return true;
2540 }
2541
2542 run(x, y, x1, y1, path = this.#path){
2543 path.length = 0;
2544 if(this.#map === null || this.mapRange.containsPoint(x, y) === false) return path;
2545
2546 var _n = this.#map[x][y];
2547 if(_n.is === 0) return path;
2548
2549 const _sort = SeekPath._sort,
2550 _open = SeekPath._open,
2551 _dots = SeekPath._dots,
2552 time = Date.now();
2553
2554 //var isDot = true,
2555 var suc = _n, k, mhd, g, h, f, _d;
2556
2557 _n.g = 0;
2558 _n.h = _n.h = Math.abs(x1 - x) * 10 + Math.abs(y1 - y) * 10;
2559 _n.f = _n.h;
2560 _n.p = null;
2561 this._updateID();
2562 _n.id = this._openID;
2563 _open.push(_n);
2564
2565 while(_open.length !== 0){
2566 if(Date.now() - time > this.timeout) break;
2567
2568 _open.sort(_sort);
2569 _n = _open.shift();
2570 if(_n.x === x1 && _n.y === y1){
2571 suc = _n;
2572 break;
2573 }
2574
2575 if(suc.h > _n.h) suc = _n;
2576 _n.id = this._closeID;
2577 this.getDots(_n.x, _n.y, this.angle, _dots);
2578
2579 for(k = 0; k < this.angle; k += 2){
2580
2581 _d = this.#map[_dots[k]][_dots[k+1]];
2582 if(_d.id === this._closeID || _d.is === 0 || this.mapRange.containsPoint(_d.x, _d.y) === false) continue;
2583
2584 mhd = Math["abs"](_n["x"] - _d.x) + Math["abs"](_n["y"] - _d.y);
2585 g = _n["g"] + (mhd === 1 ? 10 : 14);
2586 h = Math["abs"](x1 - _d.x) * 10 + Math["abs"](y1 - _d.y) * 10;
2587 f = g + h;
2588
2589 if(_d.id !== this._openID){
2590 //如果是斜角和8方向:
2591 if(mhd !== 1 && this.angle === 16){
2592 if(this._check(_n, _d)){
2593 _d.g = g;
2594 _d.h = h;
2595 _d.f = f;
2596 _d.p = _n;
2597 _d.id = this._openID;
2598 _open.push(_d);
2599 }
2600 }else{
2601 _d.g = g;
2602 _d.h = h;
2603 _d.f = f;
2604 _d.p = _n;
2605 _d.id = this._openID;
2606 _open.push(_d);
2607 }
2608 }
2609
2610 else if(g < _d.g){
2611 _d.g = g;
2612 _d.f = g + _d.h;
2613 _d.p = _n;
2614 }
2615
2616 }
2617 }
2618
2619 this.#success = suc === _n;
2620
2621 while(suc !== null){
2622 path.unshift(suc);
2623 //path.unshift(this.toScene("x", suc["x"]), suc["height"], this.toScene("y", suc["y"]));
2624 suc = suc["p"];
2625 }
2626
2627 _open.length = _dots.length = 0;
2628
2629 return path;
2630 }
2631
2632 }
2633
2634
2635
2636
2637 /* RunningList
2638 如果触发过程中删除(回调函数中删除正在遍历的数组), 不仅 len 没有变(遍历前定义的len没有变, 真实的len随之减少), 而且还会漏掉一个key;
2639
2640 */
2641 class RunningList{
2642
2643 /* static getProxy(runName){
2644
2645 return new Proxy(new RunningList(runName), {
2646
2647 get(tar, key){
2648
2649 },
2650
2651 set(tar, key, val){
2652
2653 }
2654
2655 });
2656
2657 } */
2658
2659 constructor(runName = 'update'){
2660 this._running = false;
2661 this._list = [];
2662 this._delList = [];
2663 this._runName = runName;
2664 }
2665
2666 get length(){
2667
2668 return this._list.length;
2669
2670 }
2671
2672 add(v){
2673
2674 if(!this._list.includes(v)) this._list.push(v);
2675
2676 }
2677
2678 clear(){
2679 this._list.length = 0;
2680 this._delList.length = 0;
2681 }
2682
2683 push(...v){
2684
2685 v.forEach(_v => this._list.push(_v));
2686
2687 }
2688
2689 splice(v){
2690 if(this._running === true){
2691 if(!this._delList.includes(v)) this._delList.push(v);
2692 }
2693
2694 else{
2695 const i = this._list.indexOf(v);
2696 if(i !== -1) this._list.splice(i, 1);
2697 }
2698
2699 }
2700
2701 update(){
2702
2703 var k, len = this._list.length;
2704
2705 this._running = true;
2706 if(this._runName !== ''){
2707 for(k = 0; k < len; k++) this._list[k][this._runName]();
2708 }else{
2709 for(k = 0; k < len; k++) this._list[k]();
2710 }
2711 this._running = false;
2712
2713 var i;
2714 len = this._delList.length;
2715 for(k = 0; k < len; k++){
2716 //this.splice(this._delList[k]);
2717 i = this._list.indexOf(this._delList[k]);
2718 if(i !== -1) this._list.splice(i, 1);
2719 }
2720 this._delList.length = 0;
2721
2722 }
2723
2724 }
2725
2726
2727
2728
2729 /* TweenValue (从 原点 以规定的时间到达 终点)
2730
2731 parameter: origin, end, time, onUpdate, onEnd;
2732
2733 attribute:
2734 origin: Object; //原点(起点)
2735 end: Object; //终点
2736 time: Number; //origin 到 end 花费的时间
2737 onUpdate: Function; //更新回调; 一个回调参数 origin; 默认null;
2738 onEnd: Function; //结束回调; 没有回调参数; 默认null; (如果返回的是"restart"将不从队列删除, 你可以在onEnd中更新.end不间断的继续补间)
2739
2740 method:
2741 reset(origin, end: Object): undefined; //更换 .origin, .end; 它会清除其它对象的缓存属性
2742 reverse(): undefined; //this.end 复制 this.origin 的原始值
2743 update(): undefined; //Tween 通过此方法统一更新 TweenValue
2744
2745 demo:
2746 //init Tween:
2747 const tween = new Tween(),
2748 animate = function (){
2749 requestAnimationFrame(animate);
2750 tween.update();
2751 }
2752
2753 //init TweenValue:
2754 const v1 = new Tween.Value({x:0, y:0}, {x:5, y:10}, 1000, v => console.log(v));
2755
2756 animate();
2757 tween.start(v1);
2758
2759 */
2760 class TweenValue{
2761
2762 constructor(origin = {}, end = {}, time = 500, onUpdate = null, onEnd = null, onStart = null){
2763 this.origin = origin;
2764 this.end = end;
2765 this.time = time;
2766
2767 this.onUpdate = onUpdate;
2768 this.onEnd = onEnd;
2769 this.onStart = onStart;
2770
2771 //以下属性不能直接设置
2772 this._r = null;
2773 this._t = 0;
2774 this._v = Object.create(null);
2775
2776 }
2777
2778 _start(){
2779 var v = "";
2780 for(v in this.origin) this._v[v] = this.origin[v];
2781
2782 this._t = Date.now();
2783 //this.update();
2784
2785 }
2786
2787 reset(origin, end){
2788 this.origin = origin;
2789 this.end = end;
2790 this._v = Object.create(null);
2791
2792 }
2793
2794 reverse(){
2795 var n = "";
2796 for(n in this.origin) this.end[n] = this._v[n];
2797
2798 }
2799
2800 update(){
2801
2802 if(this["_r"] !== null){
2803
2804 var ted = Date["now"]() - this["_t"];
2805
2806 if(ted >= this["time"]){
2807
2808 for(ted in this["origin"]) this["origin"][ted] = this["end"][ted];
2809
2810 if(this["onEnd"] !== null){
2811
2812 if(this["onEnd"](this) === "restart"){
2813 if(this["onUpdate"] !== null) this["onUpdate"](this["origin"]);
2814 this["_start"]();
2815 }
2816
2817 else this["_r"]["stop"](this);
2818
2819 }
2820
2821 else this["_r"]["stop"](this);
2822
2823 }
2824
2825 else{
2826 ted = ted / this["time"];
2827 let n = "";
2828 for(n in this["origin"]) this["origin"][n] = ted * (this["end"][n] - this["_v"][n]) + this["_v"][n];
2829 if(this["onUpdate"] !== null) this["onUpdate"](this["origin"]);
2830 }
2831
2832 }
2833
2834 }
2835
2836 }
2837
2838 Object.defineProperties(TweenValue.prototype, {
2839
2840 isTweenValue: {
2841 configurable: false,
2842 enumerable: false,
2843 writable: false,
2844 value: true,
2845 }
2846
2847 });
2848
2849
2850
2851
2852 /* TweenAlone (相对于 TweenValue 此类可以独立补间, 不需要 Tween)
2853
2854 demo:
2855 const v1 = new TweenAlone({x:0, y:0}, {x:5, y:10}, 1000, v => console.log(v)),
2856 animate = function (){
2857 requestAnimationFrame(animate);
2858 v1.update();
2859 }
2860
2861 animate();
2862 v1.start();
2863
2864 */
2865 class TweenAlone extends TweenValue{
2866
2867 constructor(origin, end, time, onUpdate, onEnd, onStart){
2868 super(origin, end, time, onUpdate, onEnd, onStart);
2869
2870 }
2871
2872 start(){
2873 if(this.onStart !== null) this.onStart();
2874 this._r = this;
2875 this._start();
2876
2877 }
2878
2879 stop(){
2880 this._r = null;
2881
2882 }
2883
2884 }
2885
2886
2887
2888
2889
2890 /* Tween 动画补间 (TweenValue 的root, 可以管理多个TweenValue)
2891
2892 parameter:
2893 attribute:
2894 method:
2895 start(value: TweenValue): undefined;
2896 stop(value: TweenValue): undefined;
2897
2898 static:
2899 Value: TweenValue;
2900
2901 demo:
2902 //init Tween:
2903 const tween = new Tween(),
2904 animate = function (){
2905 requestAnimationFrame(animate);
2906 tween.update();
2907 }
2908
2909 //init TweenValue:
2910 const v2 = new Tween.Value({x:0, y:0}, {x:5, y:10}, 1000, v => console.log(v), v => {
2911 v2.reverse(); //v2.end 复制起始值
2912 return "restart"; //返回"restart"表示不删除队列, 需要继续补间
2913 });
2914
2915 animate();
2916 tween.start(v2);
2917
2918 */
2919 class Tween extends RunningList{
2920
2921 static Value = TweenValue;
2922
2923 constructor(){
2924 super();
2925
2926 }
2927
2928 start(value){
2929 if(value.onStart !== null) value.onStart();
2930 if(value._r === null) this.push(value);
2931 value._r = this;
2932 value._start(this);
2933
2934 }
2935
2936 stop(value){
2937 if(value._r !== null) this.splice(value);
2938 value._r = null;
2939
2940 }
2941
2942 }
2943
2944
2945
2946
2947 /* TweenTarget 朝着轴插值(有效的跟踪动态目标, 注意此类需要配合 RunningList 类使用, 因为此类在任何情况下都没有阻止你调用.update()方法)
2948 parameter:
2949 v1 = {x: 0},
2950 v2 = {x: 100},
2951 distance = 1, //每次移动的距离
2952 onUpdate = null, //
2953 onEnd = null
2954
2955 attribute:
2956 v1: Object; //起点
2957 v2: Object; //终点
2958 onUpdate: Function; //
2959 onEnd: Function; //
2960
2961 method:
2962 update(): undefined; //一般在动画循环里执行此方法
2963 updateAxis(): undefined; //更新v1至v2的方向轴 (初始化时构造器自动调用一次)
2964 setDistance(distance: Number): undefined; //设置每次移动的距离 (初始化时构造器自动调用一次)
2965
2966 demo:
2967 const ttc = new TweenTarget({x:0, y:0}, {x:100, y:100}, 10),
2968
2969 //计时器模拟动画循环函数, 每秒执行一次.update()
2970 timer = new Timer(() => {
2971 ttc.update();
2972 console.log('update: ', ttc.v1);
2973
2974 }, 1000, Infinity);
2975
2976 ttc.onEnd = v => {
2977 timer.stop();
2978 console.log('end: ', v);
2979 }
2980
2981 timer.start();
2982 console.log(ttc);
2983
2984 */
2985 class TweenTarget{
2986
2987 #distance = 1;
2988 #distancePow2 = 1;
2989 #axis = {};
2990
2991 constructor(v1 = {x: 0}, v2 = {x: 100}, distance, onUpdate = null, onEnd = null){
2992 this.v1 = v1;
2993 this.v2 = v2;
2994 this.onUpdate = onUpdate;
2995 this.onEnd = onEnd;
2996
2997 this.setDistance(distance);
2998 this.updateAxis();
2999 }
3000
3001 setDistance(v = 1){
3002 this.#distance = v;
3003 this.#distancePow2 = Math.pow(v, 2);
3004 }
3005
3006 updateAxis(){
3007 var n, v, len = 0;
3008
3009 for(n in this.v1){
3010 v = this.v2[n] - this.v1[n];
3011 len += v * v;
3012 this.#axis[n] = v;
3013
3014 }
3015
3016 len = Math.sqrt(len);
3017
3018 if(len !== 0){
3019
3020 for(n in this.v1) this.#axis[n] *= 1 / len;
3021
3022 }
3023 }
3024
3025 update(){
3026 var n, len = 0;
3027
3028 for(n in this.v1) len += Math.pow(this.v1[n] - this.v2[n], 2);
3029
3030 if(len > this.#distancePow2){
3031
3032 for(n in this.v1) this.v1[n] += this.#axis[n] * this.#distance;
3033 if(this.onUpdate !== null) this.onUpdate(this.v1);
3034
3035 }
3036
3037 else{
3038
3039 for(n in this.v1) this.v1[n] = this.v2[n];
3040 if(this.onEnd !== null) this.onEnd(this.v1);
3041
3042 }
3043 }
3044
3045 }
3046
3047
3048
3049
3050 /* EventDispatcher 自定义事件管理器
3051 parameter:
3052 attribute:
3053
3054 method:
3055 clearEvents(eventName): undefined; //清除eventName列表, 如果 eventName 未定义清除所有事件
3056 customEvents(eventName, eventParam): this; //创建自定义事件 eventParam 可选 默认{}
3057 getParam(eventName): eventParam;
3058 trigger(eventName, callback): undefined; //触发 (callback: 可选)
3059 register(eventName, callback): undefined; //
3060 deleteEvent(eventName, callback): undefined; //
3061
3062 demo:
3063 const eventDispatcher = new EventDispatcher();
3064 eventDispatcher.customEvents("test", {name: "test"});
3065
3066 eventDispatcher.register("test", eventParam => {
3067 console.log(eventParam) //Object{name: "test"}
3068 });
3069
3070 eventDispatcher.trigger("test");
3071
3072 */
3073 class EventDispatcher{
3074
3075 constructor(){
3076 this._eventsList = {};
3077 this.__eventsList = [];
3078 this.__trigger = "";
3079
3080 }
3081
3082 clearEvents(eventName){
3083
3084 //if(this.__trigger === eventName) return console.warn("EventDispatcher: 清除事件失败");
3085 if(this._eventsList[eventName] !== undefined) this._eventsList[eventName].func = []
3086
3087 else this._eventsList = {}
3088
3089 }
3090
3091 customEvents(eventName, eventParam = {}){
3092 //if(typeof eventName !== "string") return console.warn("EventDispatcher: 注册自定义事件失败");
3093 if(this._eventsList[eventName] !== undefined) return console.warn("EventDispatcher: "+eventName+" 已存在");
3094 //eventParam = eventParam || {}
3095 //if(eventParam.type === undefined) eventParam.type = eventName;
3096 this._eventsList[eventName] = {func: [], param: eventParam}
3097 return this;
3098 }
3099
3100 getParam(eventName){
3101 return this._eventsList[eventName]["param"];
3102 }
3103
3104 trigger(eventName, callback){
3105 //if(this._eventsList[eventName] === undefined) return;
3106
3107 const obj = this._eventsList[eventName];
3108 var k, len = obj.func.length;
3109
3110 if(len !== 0){
3111 if(typeof callback === "function") callback(obj["param"]); //更新参数(eventParam)
3112
3113 //触发过程(如果触发过程中删除事件, 不仅 len 没有变, 而且还会漏掉一个key, 所以在触发过程中删除的事件要特殊处理)
3114 this.__trigger = eventName;
3115 for(k = 0; k < len; k++) obj["func"][k](obj["param"]);
3116 this.__trigger = "";
3117 //触发过程结束
3118
3119 //删除在触发过程中要删除的事件
3120 len = this.__eventsList.length;
3121 for(k = 0; k < len; k++) this.deleteEvent(eventName, this.__eventsList[k]);
3122 this.__eventsList.length = 0;
3123
3124 }
3125
3126 }
3127
3128 register(eventName, callback){
3129 if(this._eventsList[eventName] === undefined) return console.warn("EventDispatcher: "+eventName+" 不存在");
3130 const obj = this._eventsList[eventName];
3131 //if(obj.func.includes(callback) === false) obj.func.push(callback);
3132 //else console.warn("EventDispatcher: 回调函数重复");
3133 obj.func.push(callback);
3134 }
3135
3136 deleteEvent(eventName, callback){
3137 if(this._eventsList[eventName] === undefined) return console.warn("EventDispatcher: "+eventName+" 不存在");
3138
3139 if(this.__trigger === eventName) this.__eventsList.push(callback);
3140 else{
3141 const obj = this._eventsList[eventName], i = obj.func.indexOf(callback);
3142 if(i !== -1) obj.func.splice(i, 1);
3143 }
3144
3145 }
3146
3147 }
3148
3149
3150
3151
3152 export {
3153 UTILS,
3154 ColorRefTable,
3155 AnimateLoop,
3156 Ajax,
3157 IndexedDB,
3158 TreeStruct,
3159 Point,
3160 Line,
3161 Box,
3162 Circle,
3163 Polygon,
3164 RGBColor,
3165 Timer,
3166 SeekPath,
3167 RunningList,
3168 TweenValue,
3169 TweenAlone,
3170 Tween,
3171 TweenTarget,
3172 EventDispatcher,
3173 Rotate,
3174 ShapeRect,
3175 }
Utils.js
1 "use strict";
2
3 import {
4 UTILS,
5 Box,
6 Rotate,
7 EventDispatcher,
8 Point,
9 AnimateLoop,
10 } from './Utils.js';
11
12
13 /* CanvasImageEvent (CanvasImageRender 内部用此类管理 dom 事件)
14 ca 必须的属性: visible, box, rotate, index
15 ca 必须的方法: 没有;
16
17 parameter:
18 domElement: CanvasImageRender.domElement; //必须
19 box: CanvasImageRender.box; //必须
20 ||或者第一个参数为 CanvasImageRender
21
22 与.initEvent(domElement, box)参数一样
23
24 attribute:
25 domElement
26 box: Box;
27
28 method:
29 add(ca: CanvasImage, eventName: String, callback: Function): ca; //ca添加事件
30 remove(ca: CanvasImage, eventName: String, callback: Function): ca; //ca删除事件
31 eventName: 可能的值为 CanvasImageEvent.canvasEventsList 的属性名
32 callback: 参数 event, ca
33
34 clear(ca: CanvasImage, eventName: String): ca; //ca 必须; eventName 可选, 如果未定义则清空ca的所有事件;
35 disposeEvent(eventName): this; //.initEvent(domElement, box)调用一次此方法
36 initEvent(domElement, box): this; //每次更换 domElement, box 后应调用此方法; (CanvasAnimateEvent初始化时自动调用一次)
37 setScale(x, y: Number): undefiend; //
38
39 eventName:
40 (如果注册了 "out"|"over" 事件, 在弃用时(CanvasImageRender 不在使用):
41 必需要调用.disposeEvent(eventName)方法清理注册的dom事件,
42 因为这两个事件用的是 pointermove 而不是 onpointermove);
43
44 down //鼠标左右键按下
45 move //鼠标左右键移动
46 up //鼠标左右键抬起
47
48 click //鼠标左键
49 wheel //鼠标滚动轮
50 out //移出
51 over //移入
52
53 demo:
54 const car = new CanvasImageRender({width: 100, height: 100}),
55 cae = new CanvasImageEvent(car),
56 ca = car.add(new CanvasImage(image));
57
58 //ca添加点击事件
59 cae.add(ca, 'click', (event, target) => console.log(event, target));
60
61 car.render();
62
63 */
64 class CanvasImageEvent{
65
66 static bind(obj, is){
67 /* const _eventList = {}
68 Object.defineProperty(obj, "_eventList", {
69 get(){return _eventList;}
70 }); */
71 obj._eventList = {};
72 if(is === true){
73 let k, evns = CanvasImageEvent.canvasEventsList;
74 for(k in evns) obj._eventList[k] = [];
75 }
76
77 }
78
79 static canvasEventsList = {
80 down: "onpointerdown",
81 move: "onpointermove",
82 up: "onpointerup",
83 click: "onclick",
84 wheel: "onmousewheel",
85 out: "pointermove", //移出
86 over: "pointermove", //移入
87 }
88
89 static isEventName(eventName){
90
91 return CanvasImageEvent.canvasEventsList[eventName] !== undefined;
92
93 }
94
95 static emptyBox = new Box();
96 static emptyRotate = new Rotate();
97
98 constructor(domElement, box, maxSize){
99 this._running = "";
100 this._delList = [];
101 this.initEvent(domElement, box, maxSize);
102 CanvasImageEvent.bind(this);
103 }
104
105 initEvent(domElement, box, maxSize = null){
106 this.disposeEvent();
107
108 if(CanvasImageRender.prototype.isPrototypeOf(domElement)){
109 this.domElement = domElement.domElement;
110 this.box = domElement.box;
111 this.maxSize = domElement.maxSize;
112 }
113
114 else{
115 this.domElement = domElement;
116 this.box = box;
117 this.maxSize = maxSize;
118 }
119
120 if(this._eventList !== undefined){
121 for(let evn in this._eventList){
122 if(this._eventList[evn] !== undefined) this._createEvent(evn);
123 }
124
125 }
126
127 return this;
128 }
129
130 add(ca, eventName, callback){
131 if(CanvasImageEvent.canvasEventsList[eventName] === undefined) return console.warn("CanvasImageEvent: 参数错误 "+ eventName);
132 if(typeof callback !== "function") return console.warn("CanvasImageEvent: 事件添加失败,参数错误");
133
134 this._add(ca, eventName);
135 this._addCA(ca, eventName, callback);
136
137 return ca;
138 }
139
140 remove(ca, eventName, callback){
141 if(CanvasImageEvent.canvasEventsList[eventName] === undefined) return console.warn("CanvasImageEvent: 参数错误 "+ eventName);
142 if(typeof callback !== "function") return console.warn("CanvasImageEvent: 事件添加失败,参数错误");
143 if(this._running !== eventName){
144 this._remove(ca, eventName);
145 this._removeCA(ca, eventName, callback);
146 }
147
148 else this._delList.push(ca, eventName, callback);
149
150 return ca;
151 }
152
153 disposeEvent(eventName){
154 if(eventName === "over" || eventName === "out"){
155
156 if(typeof this["_"+eventName] === "function"){
157 this.domElement.removeEventListener(CanvasImageEvent.canvasEventsList[eventName], this["_"+eventName]);
158 delete this["_"+eventName];
159 }
160
161 }
162
163 else{
164
165 if(typeof this["_over"] === "function"){
166 this.domElement.removeEventListener(CanvasImageEvent.canvasEventsList["over"], this["_over"]);
167 delete this["_over"];
168 }
169
170 if(typeof this["_out"] === "function"){
171 this.domElement.removeEventListener(CanvasImageEvent.canvasEventsList["out"], this["_out"]);
172 delete this["_out"];
173 }
174
175 }
176
177 return this;
178 }
179
180 clear(ca, eventName){
181 if(eventName === undefined){
182 var k; for(k in this._eventList){
183 this._remove(ca, k);
184 }
185
186 if(ca._eventList !== undefined) delete ca._eventList; //CanvasImageEvent.bind(ca, true);
187
188 }
189
190 else if(CanvasImageEvent.canvasEventsList[eventName] !== undefined){
191 this._remove(ca, eventName);
192
193 if(ca._eventList !== undefined) ca._eventList[eventName].length = 0;
194
195 }
196
197 return ca;
198 }
199
200 _addCA(ca, eventName, callback){
201 if(ca._eventList === undefined) CanvasImageEvent.bind(ca);
202 if(ca._eventList[eventName] === undefined) ca._eventList[eventName] = [];
203 ca._eventList[eventName].push(callback);
204
205 }
206
207 _removeCA(ca, eventName, callback){
208 if(ca._eventList !== undefined && ca._eventList[eventName] !== undefined){
209 for(let k = 0, len = ca._eventList[eventName].length; k < len; k++){
210 if(ca._eventList[eventName][k] === callback){
211 ca._eventList[eventName].splice(k, 1);
212 break;
213 }
214 }
215 }
216
217 }
218
219 _add(ca, eventName){
220 if(this._eventList[eventName] === undefined){
221 this._eventList[eventName] = [];
222 this._createEvent(eventName);
223 }
224
225 //if(this._eventList[eventName].includes(ca) === false) this._eventList[eventName].push(ca);
226 this._eventList[eventName].push(ca);
227 }
228
229 _remove(ca, eventName){
230 if(this._eventList[eventName] !== undefined){
231 let key = this._eventList[eventName].indexOf(ca);
232 if(key !== -1) this._eventList[eventName].splice(key, 1);
233 if(key === 0){
234 if(eventName == "over" || eventName === "out") this.disposeEvent(eventName);
235 else this.domElement[CanvasImageEvent.canvasEventsList[eventName]] = null;
236 delete this._eventList[eventName];
237 }
238
239 }
240
241 }
242
243 _createEvent(evn){
244 var k, len, ca, arr, tar = null, oldTar = null, _run = null, offsetX, offsetY;
245
246 const _box = CanvasImageEvent.emptyBox, _rotate = CanvasImageEvent.emptyRotate,
247
248 run = event => {
249 len = this["_eventList"][evn].length;
250 if(len === 0) return;
251
252 offsetX = event.offsetX + this.box.x;
253 offsetY = event.offsetY + this.box.y;
254
255 tar = null;
256 for(k = 0; k < len; k++){
257 ca = this["_eventList"][evn][k];
258 _box.copy(ca.box);
259
260 //计算旋转后的box
261 if(ca.rotate !== null) _box.setFromRotate(_rotate.set(_box.x+ca.rotate.origin.x, _box.y+ca.rotate.origin.y, ca.rotate.angle));
262
263 if(ca["visible"] === true && _box.containsPoint(offsetX, offsetY)){
264
265 if(tar === null || tar["index"] < ca["index"]) tar = ca;
266
267 }
268
269 }
270
271 if(_run !== null) _run();
272 if(tar !== null){
273 this._running = evn;
274 arr = tar["_eventList"][evn];
275 len = arr.length;
276 for(k = 0; k < len; k++) arr[k](event, tar);
277 tar = null;
278
279 len = this._delList.length;
280 for(k = 0; k < len; k += 3){
281 this._remove(this._delList[k], this._delList[k+1]);
282 this._removeCA(this._delList[k], this._delList[k+1], this._delList[k+2]);
283 }
284 this._running = "";
285 this._delList.length = 0;
286 }
287
288 }
289
290 if(evn === "over" || evn === "out"){
291 this.domElement.addEventListener(CanvasImageEvent.canvasEventsList[evn], run);
292 this["_"+evn] = run;
293 if(evn === "over"){
294 _run = ()=>{
295 if(tar !== null){
296 if(oldTar !== null){
297 if(oldTar !== tar) oldTar = tar;
298 else tar = null;
299 }
300 else oldTar = tar;
301 }
302 else if(oldTar !== null) oldTar = null;
303
304 }
305
306 }
307
308 else{
309 let _tar = null;
310 _run = ()=>{
311 if(tar !== null){
312 if(oldTar !== null){
313 if(oldTar !== tar){
314 _tar = tar;
315 tar = oldTar;
316 oldTar = _tar;
317 }
318 else tar = null;
319 }
320 else{
321 oldTar = tar;
322 tar = null;
323 }
324 }
325 else if(oldTar !== null){
326 tar = oldTar;
327 oldTar = null;
328 }
329
330 }
331
332 }
333
334 /* _run = ()=>{
335 if(tar !== null){
336 if(oldTar !== null){
337
338 if(oldTar !== tar){
339 if(evn === "over") oldTar = tar;
340 else{
341 let _tar = tar;
342 tar = oldTar;
343 oldTar = _tar;
344 }
345 }
346
347 else tar = null;
348
349 }
350
351 else{
352 oldTar = tar;
353 if(evn === "out") tar = null;
354
355 }
356
357 }
358
359 else{
360 if(oldTar !== null){
361 if(evn === "out") tar = oldTar;
362 oldTar = null;
363 }
364
365 }
366
367 } */
368
369 }
370
371 else this.domElement[CanvasImageEvent.canvasEventsList[evn]] = run;
372
373 }
374
375 }
376
377
378
379
380 /* CanvasImageRender (渲染 CanvasImage)
381 parameter:
382 option = {
383 canvas //默认 新的canvas
384 width, height //默认 1
385 className, id //默认 ""
386
387 //一下属性 scroll 为 true 才有效
388 scroll //是否启用滚动轴; 默认 false
389 scrollSize //滚动轴的宽或高; 默认 6; (如果想隐藏滚动条最好用 scrollVisible, 而不是把此属性设为0)
390 scrollVisible //滚动轴的显示类型; 可能值 "auto" || "visible" || 默认"";
391
392 scrollEventType //可能的值: 默认"", "default", "touch";
393 inertia //是否启用移动端滚动轴的惯性; 默认 false
394 inertiaLife //移动端滚动轴惯性生命(阻力强度); 0 - 1; 默认 0.04;
395 }
396
397 attribute:
398 method:
399
400 ImageData:
401 length: w * h * 4
402 r: 0 - 255
403 g: 0 - 255
404 b: 0 - 255
405 a: 0 - 255 Math.round(255 * a)
406
407 遍历:
408 const data = context.getImageData(0, 0, canvas.width, canvas.height).data;
409 for(let k = 0, x, y, r, g, b, a, i; k < len; k++){
410 x = k % width;
411 y = Math.floor(k / width);
412
413 i = k*4;
414 r = data[i]
415 g = data[i+1]
416 b = data[i+2]
417 a = data[i+3]
418
419 console.log(x, y, r, g, b, a, i);
420 }
421
422 demo:
423 //CanvasImageRender
424 const cir = new CanvasImageRender({
425 width: WORLD.width,
426 height: WORLD.height,
427
428 //一下属性 scroll 为 true 才有效
429 scroll: true, //是否启用滚动轴; 默认 false
430 scrollSize: 10, //滚动轴的宽或高; 默认 6;
431 scrollVisible: "auto", //滚动轴的显示类型; 可能值 默认"auto" || "visible" || ""; (scroll视图不影响scroll的运行,所以在移动端可以把视图干掉既 scrollVisible: "")
432
433 scrollEventType: "pc", //可能的值: 默认 disable 禁用, pc, mobile;
434 //inertia: true, //移动端滚动轴是否启用惯性; 默认 false
435 //inertiaLife: 0.04, //移动端滚动轴惯性生命(阻力强度); 0 - 1; 默认 0.04;
436 });
437 cir.domElement.style = `
438 position: absolute;
439 z-index: 9999;
440 background: rgb(127,127,127);
441 `;
442
443 const ciA = new CanvasImage().loadImage("view/examples/img/test.png", cir),
444 pi2 = Math.PI*2;
445
446 for(let k = 0, ca; k < 3000; k++){
447 ca = cir.list[k] = new CanvasImage(ciA);
448 ca.pos(UTILS.random(0, 10000), UTILS.random(0, 10000));
449 ca.rotate = new Rotate(0, 0, UTILS.random(0, pi2));
450 }
451
452 //为什么要用 initList() ? 因为for循环中是直接把ca加入到了列表, 没对ca做任何初始化操作;
453 //如果全用.add() 就不需要在调用 initList(); 但 .add() 方法不适合一次性添加多个 CanvasImage;
454 cir.initList();
455
456 */
457 class CanvasImageRender{
458
459 static emptyArrA = []
460 static emptyArrB = []
461 static paramCon = {alpha: true}
462
463 static defaultStyles = {
464 filter: "none",
465 globalAlpha: 1,
466 globalCompositeOperation: "source-over",
467 imageSmoothingEnabled: true,
468 miterLimit: 10,
469 font: "12px SimSun, Songti SC",
470 textAlign: "left",
471 textBaseline: "top",
472 lineCap: "butt",
473 lineJoin: "miter",
474 lineDashOffset: 0,
475 lineWidth: 1,
476 shadowColor: "rgba(0, 0, 0, 0)",
477 shadowBlur: 0,
478 shadowOffsetX: 0,
479 shadowOffsetY: 0,
480 fillStyle: "rgba(0,0,0,0.6)",
481 strokeStyle: "#ffffff",
482 }
483
484 static setDefaultStyles(context){
485 let k = "", styles = CanvasImageRender.defaultStyles;
486 for(k in styles){
487 if(context[k] !== styles[k]) context[k] = styles[k];
488 }
489 }
490
491 static getContext(canvas, className, id){
492 if(CanvasImageRender.isCanvas(canvas) === false) canvas = document.createElement("canvas");
493 const context = canvas.getContext("2d", CanvasImageRender.paramCon);
494
495 if(typeof className === "string") canvas.className = className;
496 if(typeof id === "string") canvas.setAttribute('id', id);
497
498 return context;
499 }
500
501 static downloadImage(func){
502 const input = document.createElement("input");
503 input.type = "file";
504 input.multiple = "multiple";
505 input.accept = ".png, .jpg, .jpeg, .bmp, .gif";
506
507 input.onchange = e => {
508 if(e.target.files.length === 0) return;
509 const fr = new FileReader();
510 fr.onloadend = e1 => {
511 const img = new Image();
512 img.onload = () => func(img);
513 img.src = e1.target.result;
514 }
515
516 fr.readAsDataURL(e.target.files[0]);
517 }
518
519 input.click();
520 }
521
522 static isCanvasImage(img){ //OffscreenCanvas:ImageBitmap; CSSImageValue:
523
524 return ImageBitmap["prototype"]["isPrototypeOf"](img) ||
525 HTMLImageElement["prototype"]["isPrototypeOf"](img) ||
526 HTMLCanvasElement["prototype"]["isPrototypeOf"](img) ||
527 CanvasRenderingContext2D["prototype"]["isPrototypeOf"](img) ||
528 HTMLVideoElement["prototype"]["isPrototypeOf"](img);
529
530 }
531
532 static isCanvas(canvas){
533
534 return HTMLCanvasElement["prototype"]["isPrototypeOf"](canvas);
535
536 }
537
538 #canvasImageEvent = new CanvasImageEvent();
539 #eventDispatcher = new EventDispatcher();
540 #box = new Box();
541 #length = 0;
542 get box(){return this.#box;}
543 get length(){return this.#length;}
544
545 #maxSize = null;
546 get maxSize(){return this.#maxSize;}
547
548 constructor(option = {}){
549 this.list = [];
550 this.context = CanvasImageRender.getContext(option.canvas, option.className, option.id);
551 this.domElement = this.context.canvas;
552
553 let _x = this.#box.x, _y = this.#box.y;
554 Object.defineProperties(this.#box, {
555
556 x: {
557 get: () => {return _x;},
558 set: v => {
559 if(v < 0 || this.#maxSize === null) v = 0;
560 else if(v + this.#box.w > this.#maxSize.x) v = this.#maxSize.x - this.#box.w;
561 _x = v;
562 }
563 },
564
565 y: {
566 get: () => {return _y;},
567 set: v => {
568 if(v < 0 || this.#maxSize === null) v = 0;
569 else if(v + this.#box.h > this.#maxSize.y) v = this.#maxSize.y - this.#box.h;
570 _y = v;
571 }
572 },
573
574 });
575
576 //event
577 this.#canvasImageEvent.initEvent(this);
578 const eventParam = {target: this},
579 eventParam1 = {target: this, value: null}
580 this.#eventDispatcher
581 .customEvents("pos", eventParam)
582 .customEvents("initList", eventParam)
583 .customEvents("size", eventParam)
584 .customEvents("add", eventParam1)
585 .customEvents("remove", eventParam1);
586
587 //scroll
588 if(option.scroll === true){
589 this.#maxSize = new Point();
590 this.scrollSize = UTILS.isNumber(option.scrollSize) ? option.scrollSize : 6;
591
592 switch(option.scrollVisible){
593 case "visible":
594 case "auto":
595 this.scrollVisible = option.scrollVisible;
596 break;
597
598 default:
599 this.scrollVisible = "";
600 break;
601 }
602
603 switch(option.scrollEventType){
604 case "default":
605 this._createScrollEventPC();
606 break;
607
608 case "touch":
609 this._createScrollEventMobile(option.inertia, option.inertiaLife);
610 break;
611
612 default:
613 break;
614 }
615 }
616
617 this.size(option.width, option.height);
618 }
619
620 addEvent(ca, eventName, callback){
621 if(ca) this.#canvasImageEvent.add(ca, eventName, callback);
622 else this.#eventDispatcher.register(eventName, callback);
623 }
624
625 removeEvent(ca, eventName, callback){
626 if(ca) this.#canvasImageEvent.remove(ca, eventName, callback);
627 else this.#eventDispatcher.deleteEvent(eventName, callback);
628 }
629
630 isDraw(ca){
631 return ca["visible"] === true && ca["image"] !== null && this["box"]["intersectsBox"](ca["box"]);
632 }
633
634 pos(x = 0, y = 0){
635 this.domElement.style.left = x + "px";
636 this.domElement.style.top = y + "px";
637 this.#eventDispatcher.trigger("pos");
638 return this;
639 }
640
641 size(w = 1, h = 1){
642 this.domElement.width = w;
643 this.domElement.height = h;
644 CanvasImageRender.setDefaultStyles(this.context);
645 this.box.size(w, h);
646 this.#eventDispatcher.trigger("size");
647 return this;
648 }
649
650 add(ca){
651 if(CanvasImage.prototype.isPrototypeOf(ca) && !this.list.includes(ca)){
652 const len = this.list.length;
653
654 if(this.list[ca.index] === undefined){
655 ca.index = len;
656 this.list.push(ca);
657 }
658
659 else{
660 const arr = this.list.splice(ca.index);
661 this.list.push(ca);
662 for(let k = 0, c = arr.length; k < c; k++){
663 this.list.push(arr[k]);
664 arr[k].index++;
665 }
666 }
667
668 if(this.#maxSize !== null) this._bindScroll(ca);
669 this.#length++;
670 this.#eventDispatcher.trigger("add", param => param.value = ca);
671 }
672
673 return ca;
674 }
675
676 remove(ca){
677 var i = ca.index;
678
679 if(this.list[i] !== ca) i = this.list.indexOf(ca);
680
681 if(i !== -1){
682 this.list.splice(i, 1);
683 for(let k = i, len = this.list.length; k < len; k++) this.list[k].index -= 1;
684 if(this.#maxSize !== null) this._unbindScroll(ca);
685 this.#length--;
686 this.#eventDispatcher.trigger("remove", param => param.value = ca);
687 }
688
689 return ca;
690 }
691
692 render(parentElem = document.body){
693 this.redraw();
694 if(this.domElement.parentElement === null) parentElem.appendChild(this.domElement);
695 return this;
696 }
697
698 initList(i){
699 if(i === undefined || i < 0) i = 0;
700 this.#length = this.list.length;
701
702 for(let k = i; k < this.#length; k++) this.list[k].index = k;
703
704 if(this.#maxSize !== null){
705 this._resetMaxSizeX();
706 this._resetMaxSizeY();
707 }
708
709 this.#eventDispatcher.trigger("initList");
710 return this;
711 }
712
713 clear(){
714
715 this['context']['clearRect'](0, 0, this['box']['w'], this['box']['h']);
716
717 }
718
719 draw(){
720 const len = this["list"]["length"];
721 for(let k = 0, ca; k < len; k++){
722 ca = this["list"][k];
723 if(this["isDraw"](ca) === true) this["_draw"](ca);
724 }
725
726 if(this.#maxSize !== null && this.scrollVisible !== "") this._drawScroll();
727 }
728
729 clearTarget(ca){
730 this["_computeOverlap"](ca);
731 ca["overlap"]["draw"] = false;
732 this["_drawTarget"](ca);
733 }
734
735 drawTarget(ca){
736 this["_computeOverlap"](ca);
737 this["_drawTarget"](ca);
738 }
739
740 redraw(){
741 this.clear();
742 this.draw();
743 }
744
745
746 //限内部使用
747 _computeOverlap(tar){ //暂不支持带有旋转或缩放的 CanvasImage (如遇到将忽略)
748 //1 如果检索到与box相交的ca时, 合并其box执行以下步骤:
749 //2 检索 已检索过的 并且 没有相交的ca
750 //3 如果存在相交的ca就合并box并继续第 2 步; 如果不存在继续第 1 步
751 if(tar["overlap"] === null) tar["overlap"] = {box: new Box(), draw: false};
752 const _list = CanvasImageRender.emptyArrA, list = CanvasImageRender.emptyArrB, len = this.list.length, box = tar["overlap"]["box"]["copy"](tar["box"]);
753
754 for(let k = 0, i = 0, c = 0, _c = 0, a = _list, b = list, loop = false; k < len; k++){
755 tar = this["list"][k];
756 if(tar["overlap"] === null) tar["overlap"] = {box: new Box(), draw: false};
757
758 if(this.isDraw(tar) === false){
759 if(tar["overlap"]["draw"] !== false) tar["overlap"]["draw"] = false;
760 continue;
761 }
762
763 if(box["intersectsBox"](tar["box"]) === true){
764 if(tar["overlap"]["draw"] !== true) tar["overlap"]["draw"] = true;
765 box["expand"](tar["box"]);
766 loop = true;
767
768 while(loop === true){
769 b["length"] = 0;
770 loop = false;
771 c = _c;
772
773 for(i = 0; i < c; i++){
774 tar = a[i];
775
776 if(box["intersectsBox"](tar["box"]) === true){
777 if(tar["overlap"]["draw"] !== true) tar["overlap"]["draw"] = true;
778 box["expand"](tar["box"]);
779 loop = true; _c--;
780 }
781
782 else b.push(tar);
783
784 }
785
786 a = a === _list ? list : _list;
787 b = b === _list ? list : _list;
788
789 }
790
791 }
792
793 else{
794 _c++;
795 a["push"](tar);
796 if(tar["overlap"]["draw"] !== false) tar["overlap"]["draw"] = false;
797 }
798
799 }
800
801 _list.length = list.length = 0;
802 }
803
804 _drawImage(ca, ox = 0, oy = 0){
805 if(ca["opacity"] === 1){
806 if(ca.isScale === false) this["context"]["drawImage"](ca["image"], ca["box"]["x"]-this.#box.x+ox, ca["box"]["y"]-this.#box.y+oy);
807 else this["context"]["drawImage"](ca["image"], ca["box"]["x"]-this.#box.x+ox, ca["box"]["y"]-this.#box.y+oy, ca.box.w, ca.box.h);
808 }
809
810 else{
811 this["context"]["globalAlpha"] = ca["opacity"];
812 if(ca.isScale === false) this["context"]["drawImage"](ca["image"], ca["box"]["x"]-this.#box.x+ox, ca["box"]["y"]-this.#box.y+oy);
813 else this["context"]["drawImage"](ca["image"], ca["box"]["x"]-this.#box.x+ox, ca["box"]["y"]-this.#box.y+oy, ca.box.w, ca.box.h);
814 this["context"]["globalAlpha"] = 1;
815 }
816 }
817
818 _draw(ca){
819 if(ca.rotate === null) this._drawImage(ca);
820 else{
821 const cx = ca.rotate.origin.x + ca.box.x - this.#box.x,
822 cy = ca.rotate.origin.y + ca.box.y - this.#box.y;
823 this.context.translate(cx, cy);
824 this.context.rotate(ca.rotate.angle);
825 this._drawImage(ca, -cx, -cy);
826 this.context.rotate(-ca.rotate.angle);
827 this.context.translate(-cx, -cy);
828 }
829 }
830
831 _drawTarget(ca){
832 const len = this["list"]["length"];
833 this["context"]["clearRect"](ca["overlap"]["box"]["x"], ca["overlap"]["box"]["y"], ca["overlap"]["box"]["w"], ca["overlap"]["box"]["h"]);
834
835 for(let k = 0; k < len; k++){
836 ca = this["list"][k];
837 if(ca["overlap"]["draw"] === true) this._draw(ca);
838 }
839
840 if(this.#maxSize !== null && this.scrollVisible !== "") this._drawScroll();
841 }
842
843 //关于scroll
844 _drawScroll(){
845 if(this.scrollVisible === "visible" || (this.scrollVisible === "auto" && this.#maxSize.x > this.#box.w)){
846 this.context.fillRect(this._cursorX(), this.#box.h - this.scrollSize, this.#maxSize.x <= this.#box.w ? this.#box.w : this.#box.w / this.#maxSize.x * this.#box.w, this.scrollSize);
847 }
848
849 if(this.scrollVisible === "visible" || (this.scrollVisible === "auto" && this.#maxSize.y > this.#box.h)){
850 this.context.fillRect(this.#box.w - this.scrollSize, this._cursorY(), this.scrollSize, this.#maxSize.y <= this.#box.h ? this.#box.h : this.#box.h / this.#maxSize.y * this.#box.h);
851 }
852 }
853
854 _createScrollEventPC(){
855 var dPos = -1;
856
857 const setTop = (event, top) => {
858 this.#box.y = top / this.box.h * this.#maxSize.y;
859 this.redraw();
860 },
861
862 setLeft = (event, left) => {
863 this.#box.x = left / this.box.w * this.#maxSize.x;
864 this.redraw();
865 },
866
867 onMoveTop = event => {
868 setTop(event, event.offsetY - dPos);
869 },
870
871 onMoveLeft = event => {
872 setLeft(event, event.offsetX - dPos);
873 },
874
875 onUpTop = event => {
876 document.body.removeEventListener('pointermove', onMoveTop);
877 document.body.removeEventListener('pointerup', onUpTop);
878 if(event !== null) onMoveTop(event);
879 },
880
881 onUpLeft = event => {
882 document.body.removeEventListener('pointermove', onMoveLeft);
883 document.body.removeEventListener('pointerup', onUpLeft);
884 if(event !== null) onMoveLeft(event);
885 },
886
887 scope = this, _box = this.#box,
888
889 //伪 CanvasImage, 是 CanvasImageEvent 使用的必须属性
890 boxX = new Box(),
891 eventTargetX = {
892 get index(){return scope.length+1;},
893 get visible(){return true;},
894 get box(){return boxX},
895 get rotate(){return null},
896 },
897
898 boxY = new Box(),
899 eventTargetY = {
900 get index(){return scope.length+2;},
901 get visible(){return true;},
902 get box(){return boxY},
903 get rotate(){return null},
904 },
905
906 eventTargetWheel = {
907 get index(){return -1;},
908 get visible(){return true;},
909 get box(){return _box},
910 get rotate(){return null},
911 }
912
913 Object.defineProperties(boxX, {
914 x: {get: () => {return _box.x;}},
915 y: {get: () => {return _box.h - scope.scrollSize + _box.y;}},
916 w: {get: () => {return _box.w;}},
917 h: {get: () => {return scope.scrollSize;}},
918 });
919
920 Object.defineProperties(boxY, {
921 x: {get: () => {return _box.w - scope.scrollSize + _box.x;}},
922 y: {get: () => {return _box.y;}},
923 w: {get: () => {return scope.scrollSize;}},
924 h: {get: () => {return _box.h;}},
925 });
926
927 //pc event
928 this.#canvasImageEvent.add(eventTargetX, "down", event => {
929 dPos = event.offsetX - this._cursorX();
930 onUpLeft(null);
931 document.body.addEventListener("pointermove", onMoveLeft);
932 document.body.addEventListener("pointerup", onUpLeft);
933 });
934
935 this.#canvasImageEvent.add(eventTargetY, "down", event => {
936 dPos = event.offsetY - this._cursorY();
937 onUpTop(null);
938 document.body.addEventListener("pointermove", onMoveTop);
939 document.body.addEventListener("pointerup", onUpTop);
940 });
941
942 this.#canvasImageEvent.add(eventTargetWheel, "wheel", event => {
943 if(this.#maxSize.y > this.#box.h){
944 dPos = 50 / this.#maxSize.y * this.#box.h;
945 setTop(event, this._cursorY() + (event.wheelDelta === 120 ? -dPos : dPos));
946 }
947 else if(this.#maxSize.x > this.#box.w){
948 dPos = 50 / this.#maxSize.x * this.#box.w;
949 setLeft(event, this._cursorX() + (event.wheelDelta === 120 ? -dPos : dPos));
950 }
951 });
952
953 }
954
955 _createScrollEventMobile(inertia, inertiaLife){
956 var px, py, dPos = 0, sPos = new Point(), step = 1, aniamteRun = false, stepA = "", stepB = "";
957
958 if(inertia === true){
959 inertiaLife = 1 - ((UTILS.isNumber(inertiaLife) && inertiaLife >= 0 && inertiaLife <= 1) ? inertiaLife : 0.04);
960 var animate = new AnimateLoop(null), sTime = 0,
961
962 inertiaTop = (event, speed) => {
963 if(Math.abs(speed) < 1) return;
964
965 stepA = speed < 0 ? "-top" : "top";
966 if(aniamteRun && stepA === stepB) step += 0.3;
967 else{
968 step = 1;
969 stepB = stepA;
970 }
971
972 animate.play(() => {
973 speed *= inertiaLife;
974 setTop(event, this.#box.y + step * 20 * speed);
975 if(Math.abs(speed) < 0.001 || this.#box.y <= 0 || this.#box.my >= this.#maxSize.y) animate.pause();
976 });
977 },
978
979 inertiaLeft = (event, speed) => {
980 if(Math.abs(speed) < 1) return;
981 stepA = speed < 0 ? "-left" : "left";
982 if(aniamteRun && stepA === stepB) step += 0.3;
983 else{
984 step = 1;
985 stepB = stepA;
986 }
987 animate.play(() => {
988 speed *= inertiaLife;
989 setLeft(event, this.#box.x + step * 20 * speed);
990 if(Math.abs(speed) < 0.001 || this.#box.x <= 0 || this.#box.mx >= this.#maxSize.x) animate.pause();
991 });
992 }
993 }
994
995 const setTop = (event, top) => {
996 this.#box.y = top;
997 this.redraw();
998 },
999
1000 setLeft = (event, left) => {
1001 this.#box.x = left;
1002 this.redraw();
1003 },
1004
1005 onMoveTop = event => {
1006 setTop(event, dPos - event.offsetY);
1007 },
1008
1009 onMoveLeft = event => {
1010 setLeft(event, dPos - event.offsetX);
1011 },
1012
1013 onUpTop = event => {
1014 document.body.removeEventListener('pointermove', onMoveTop);
1015 document.body.removeEventListener('pointerup', onUpTop);
1016 if(event !== null){
1017 onMoveTop(event);
1018 if(inertia === true) inertiaTop(event, (this.#box.y - sPos.y) / (Date.now() - sTime));
1019 }
1020 },
1021
1022 onUpLeft = event => {
1023 document.body.removeEventListener('pointermove', onMoveLeft);
1024 document.body.removeEventListener('pointerup', onUpLeft);
1025 if(event !== null){
1026 onMoveLeft(event);
1027 if(inertia === true) inertiaLeft(event, (this.#box.x - sPos.x) / (Date.now() - sTime));
1028 }
1029 },
1030
1031 _box = this.#box,
1032
1033 eventTarget = {
1034 get index(){return -1;}, //最低优先
1035 get visible(){return true;},
1036 get box(){return _box;},
1037 get rotate(){return null},
1038 },
1039
1040 a1 = Math.PI / 4, a2 = Math.PI / 2 + a1,
1041
1042 onUp = event => {
1043 this.domElement.removeEventListener("pointerup", onUp);
1044 this.domElement.removeEventListener('pointermove', onMove);
1045 },
1046
1047 onMove = event => {
1048 dPos++; if(dPos < 10) return;
1049 onUp(event);
1050 const a = Math.atan2(event.pageY - py, event.pageX - px);
1051 if((a < a2 && a >= a1) || (a < -a1 && a >= -a2)){ //y轴
1052 if(this.#maxSize.y > this.#box.h){
1053 dPos = py + sPos.y;
1054 document.body.addEventListener("pointermove", onMoveTop);
1055 document.body.addEventListener("pointerup", onUpTop);
1056 }
1057 }
1058 else{ //x轴
1059 if(this.#maxSize.x > this.#box.w){
1060 dPos = px + sPos.x;
1061 document.body.addEventListener("pointermove", onMoveLeft);
1062 document.body.addEventListener("pointerup", onUpLeft);
1063 }
1064 }
1065 }
1066
1067 this.#canvasImageEvent.add(eventTarget, "down", event => {
1068 px = event.offsetX;
1069 py = event.offsetY;
1070 dPos = 0;
1071 sPos.set(this.#box.x, this.#box.y);
1072 sTime = Date.now();
1073
1074 if(inertia === true){
1075 aniamteRun = animate.running;
1076 animate.pause();
1077 }
1078
1079 //防止没触发 move 或 up 事件;
1080 onUpLeft(null);
1081 onUpTop(null);
1082 onUp();
1083 this.domElement.addEventListener("pointermove", onMove);
1084 this.domElement.addEventListener("pointerup", onUp);
1085 });
1086 }
1087
1088 _bindScroll(ca){
1089 ca.__bindObj.writeBoxX = (nm, om) => {
1090 if(nm > this.#maxSize.x) this.#maxSize.x = nm;
1091 else if(nm < this.#maxSize.x){
1092 if(om >= this.#maxSize.x) this._resetMaxSizeX();
1093 }
1094 };
1095
1096 ca.__bindObj.writeBoxY = (nm, om) => {
1097 if(nm > this.#maxSize.y) this.#maxSize.y = nm;
1098 else if(nm < this.#maxSize.y){
1099 if(om >= this.#maxSize.y) this._resetMaxSizeY();
1100 }
1101 };
1102
1103 ca.__bindObj.writeBoxX(ca.box.mx);
1104 ca.__bindObj.writeBoxY(ca.box.my);
1105 }
1106
1107 _unbindScroll(ca){
1108 ca.__bindObj.writeBoxX = null;
1109 ca.__bindObj.writeBoxY = null;
1110 if(ca.box.mx >= this.#maxSize.x) this._resetMaxSizeX();
1111 if(ca.box.my >= this.#maxSize.y) this._resetMaxSizeY();
1112 }
1113
1114 _resetMaxSizeX(){
1115 this.#maxSize.x = 0;
1116 for(let k = 0, len = this.list.length, m; k < len; k++){
1117 m = this.list[k].box.mx;
1118 if(m > this.#maxSize.x) this.#maxSize.x = m;
1119 }
1120 }
1121
1122 _resetMaxSizeY(){
1123 this.#maxSize.y = 0;
1124 for(let k = 0, len = this.list.length, m; k < len; k++){
1125 m = this.list[k].box.my;
1126 if(m > this.#maxSize.y) this.#maxSize.y = m;
1127 }
1128 }
1129
1130 _cursorX(v = this.#box.x){
1131 return v/this.#maxSize.x*this.#box.w;
1132 }
1133
1134 _cursorY(v = this.#box.y){
1135 return v/this.#maxSize.y*this.#box.h;
1136 }
1137
1138 }
1139
1140
1141
1142
1143 /* CanvasImage
1144 parameter:
1145 image (构造器会调用一次 .setImage(image) 来处理 image 参数)
1146
1147 attribute:
1148 opacity: Float; //透明度; 值0至1之间; 默认1;
1149 visible: Boolean; //默认true; 完全隐藏(既不绘制视图, 也不触发绑定的事件)
1150 box: Box; //.x.y 图像的位置, .w.h 图像的宽高;
1151 rotate: Roate; //旋转; 默认 null (注意: 旋转的原点是相对于 box.x.y 的)
1152 暂未实现, 先用box.w.h代替缩放//scale: Box; //缩放; .x.y中心点, .w.h缩放; 默认 null; (注意: 缩放的原点是相对于 box.x.y 的)
1153 x, y: Number; //this.box 的 .x.y
1154
1155 //以下属性不建议直接修改
1156 overlap: Object; //CanvasImageRender.computeOverlaps(ca) 方法更新
1157 index: Integer; //CanvasImageRender.index(ca) 修改
1158
1159 //只读
1160 width, height, image; isRotate, isScale
1161
1162 method:
1163 setImage(image): this; //设置图像 (image 如果是 CanvasImage 并它正在加载图像时, 则会在它加载完成时自动设置 image);
1164 loadImage(src, onl oad): this; //加载并设置图像 (onload 如果是 CanvasImageRender 则加载完后自动调用一次 redraw 或 render 方法);
1165 loadVideo(src, onl oad, type = "mp4")
1166 pos(x, y): this; //设置位置; x 可以是: Number, Object{x,y}
1167
1168 demo:
1169 //CanvasImageRender
1170 const cir = new CanvasImageRender({width: WORLD.width, height: WORLD.height});
1171 cir.domElement.style = `
1172 position: absolute;
1173 z-index: 9999;
1174 background: rgb(127,127,127);
1175 `;
1176
1177 //values
1178 const ciA = cir.add(new CanvasImage()).pos(59, 59).load("view/examples/img/test.png", cir);
1179 ciA.opacity = 0.2; //设置透明度
1180
1181 const ciB = cir.add(new CanvasImage(ciA)).pos(59, 120);
1182 ciB.rotate = new Rotate().toAngle(45); //旋转45度
1183
1184 //event
1185 const cie = new CanvasImageEvent(cir); //注意: CanvasImage 的缩放和旋转都会影响到 CanvasImageEvent
1186 cie.add(ciB, "click", event => { //ciB 添加 点击事件
1187 console.log("click ciB: ", event);
1188 });
1189
1190
1191 //这个用于搭载H5视频 video
1192 cir.add(new CanvasImage())
1193
1194 .loadVideo("view/examples/video/test.mp4", ci => {
1195
1196 //同比例缩放视频
1197 const newSize = UTILS.setSizeToSameScale(ci.image, {width: 100, height: 100});
1198 ci.box.size(newSize.width, newSize.height).center(cir.box);
1199
1200 //播放按钮
1201 const cic = cir.add(new CanvasImageCustom())
1202 .size(50, 30).text("PLAY", "#fff")
1203 .rect(4).stroke("blue");
1204 cic.box.center(cir.box);
1205
1206 //动画循环
1207 const animateLoop = new AnimateLoop(() => cir.redraw());
1208
1209 //谷歌浏览器必须要用户与文档交互一次才能播放视频 (点击后播放动画)
1210 cir.addEvent(cic, "up", () => {
1211 cic.visible = false;
1212 ci.image.play(); // ci.image 其实是一个 video 元素
1213 animateLoop.play(); //播放动画
1214 });
1215
1216 //把 canvas 添加至 dom 树
1217 cir.render();
1218
1219 });
1220
1221 */
1222 class CanvasImage{
1223
1224 static bindBox(obj, box){
1225 var _x = box.x, _y = box.y, _w = box.w, _h = box.h, oldV;
1226
1227 Object.defineProperties(box, {
1228
1229 x: {
1230 get: () => {return _x;},
1231 set: v => {
1232 oldV = _x;
1233 _x = v;
1234 if(obj.writeBoxX !== null) obj.writeBoxX(v+_w, oldV+_w);
1235 }
1236 },
1237
1238 y: {
1239 get: () => {return _y;},
1240 set: v => {
1241 oldV = _y;
1242 _y = v;
1243 if(obj.writeBoxY !== null) obj.writeBoxY(v+_h, oldV+_h);
1244 }
1245 },
1246
1247 w: {
1248 get: () => {return _w;},
1249 set: v => {
1250 oldV = _w;
1251 _w = v;
1252 if(obj.writeBoxX !== null) obj.writeBoxX(v+_x, oldV+_x);
1253 }
1254 },
1255
1256 h: {
1257 get: () => {return _h;},
1258 set: v => {
1259 oldV = _h;
1260 _h = v;
1261 if(obj.writeBoxY !== null) obj.writeBoxY(v+_y, oldV+_y);
1262 }
1263 },
1264
1265 });
1266 }
1267
1268 #box = new Box();
1269 #image = null;
1270 #isLoadImage = false;
1271 #__bindObj = {
1272 writeBoxX: null,
1273 writeBoxY: null,
1274 }
1275
1276 get name(){return this.constructor.name;}
1277 get box(){return this.#box;}
1278 get image(){return this.#image;}
1279 get isScale(){return this.#image.width !== this.box.w || this.#image.height !== this.box.h;}
1280 get width(){return this.#image !== null ? this.#image.width : 0;}
1281 get height(){return this.#image !== null ? this.#image.height : 0;}
1282 get isLoadImage(){return this.#isLoadImage;}
1283 get __bindObj(){return this.#__bindObj;}
1284 get x(){return this.box.x;}
1285 get y(){return this.box.y;}
1286
1287 constructor(image){
1288 this.opacity = 1;
1289 this.visible = true;
1290 this.rotate = null;
1291 //this.scale = null;
1292
1293 //以下属性不建议直接修改
1294 this.overlap = null;
1295 this.index = -1;
1296
1297 CanvasImage.bindBox(this.#__bindObj, this.#box);
1298 this.setImage(image);
1299 }
1300
1301 pos(x, y){
1302 if(UTILS.isNumber(x)){
1303 this.box.x = x;
1304 this.box.y = y;
1305 }
1306 else if(UTILS.isObject(x)){
1307 this.box.x = x.x;
1308 this.box.y = x.y;
1309 }
1310 return this;
1311 }
1312
1313 setImage(image){
1314 if(CanvasImageRender.isCanvasImage(image)){
1315 this.box.size(image.width, image.height);
1316 this.#image = image;
1317 }
1318 else if(CanvasImage.prototype.isPrototypeOf(image)){
1319 if(image.isLoadImage){
1320 if(Array.isArray(image.loadImage_cis)) image.loadImage_cis.push(this);
1321 else image.loadImage_cis = [this];
1322 }
1323 else this.setImage(image.image);
1324 }
1325 else{
1326 this.box.size(0, 0);
1327 this.#image = null;
1328 }
1329 return this;
1330 }
1331
1332 loadImage(src, onl oad){
1333 this.#isLoadImage = true;
1334 const image = new Image();
1335 image.onload = () => this._loadSuccess(image, onl oad);
1336 image.src = src;
1337 return this;
1338 }
1339
1340 loadVideo(src, onl oad, type = "mp4"){
1341 /* video 加载事件 的顺序
1342 onl oadstart
1343 ondurationchange
1344 onl oadedmetadata //元数据加载完成包含: 时长,尺寸大小(视频),文本轨道。
1345 onl oadeddata
1346 onprogress
1347 oncanplay
1348 oncanplaythrough
1349
1350 //控制事件:
1351 onended //播放结束
1352 onpause //暂停播放
1353 onplay //开始播放
1354 */
1355 this.#isLoadImage = true;
1356 const video = document.createElement("video"),
1357 source = document.createElement("source");
1358 video.appendChild(source);
1359 source.type = `video/${type}`;
1360
1361 video.oncanplay = () => {
1362 //video 的 width, height 属性如果不设的话永远都是0
1363 video.width = video.videoWidth;
1364 video.height = video.videoHeight;
1365 this._loadSuccess(video, onl oad);
1366 };
1367
1368 source.src = src;
1369 return this;
1370 }
1371
1372 _loadSuccess(image, onl oad){
1373 this.setImage(image);
1374 this.#isLoadImage = false;
1375
1376 if(Array.isArray(this.loadImage_cis)){
1377 this.loadImage_cis.forEach(ci => ci.setImage(image));
1378 delete this.loadImage_cis;
1379 }
1380
1381 if(typeof onl oad === "function") onl oad(this);
1382 else if(CanvasImageRender.prototype.isPrototypeOf(onload)){
1383 if(onload.domElement.parentElement !== null) onl oad.redraw();
1384 else onl oad.render();
1385 }
1386 }
1387
1388 /* setScale(nx = 0, ny = 0, ratio = 1){
1389 this.scale.w = this.#box.w * ratio;
1390 this.scale.h = this.#box.h * ratio;
1391 this.scale.x = nx - ((nx - this.scale.x) * ratio + this.scale.x) + this.scale.x;
1392 this.scale.y = ny - ((ny - this.scale.y) * ratio + this.scale.y) + this.scale.y;
1393 return this;
1394 }
1395
1396 setScaleToSameScaleFromBox(newWidth = this.#box.w){
1397 if(this.#image === null || this.scale === null) return this;
1398
1399 const width = this.#image.width,
1400 height = this.#image.height,
1401 ratio = width / height,
1402 scale = ratio < 1 ? ratio * newWidth / width : newWidth / width;
1403
1404 this.scale.w = width * scale;
1405 this.scale.h = height * scale;
1406
1407 return this;
1408 }
1409
1410 setScaleToCenterFromBox(){
1411 if(this.scale === null) return this;
1412
1413 this.scale.x = (this.#box.w - this.scale.w) / 2;
1414 this.scale.y = (this.#box.h - this.scale.h) / 2;
1415
1416 return this;
1417 } */
1418
1419 }
1420
1421
1422
1423
1424 /* CanvasImages
1425
1426 */
1427 class CanvasImages extends CanvasImage{
1428
1429 #i = -1;
1430 get cursor(){return this.#i;}
1431 set cursor(i){
1432 super.setImage(this.images[i]);
1433 this.#i = this.image !== null ? i : -1;
1434 }
1435
1436 constructor(images = []){
1437 super(images[0]);
1438 this.images = images;
1439 if(this.image !== null) this.#i = 0;
1440 }
1441
1442 setImage(image){
1443 super.setImage(image);
1444
1445 if(this.image !== null && Array.isArray(this.images)){
1446 const i = this.images.indexOf(this.image);
1447 if(i === -1){
1448 this.#i = this.images.length;
1449 this.images.push(this.image);
1450 }
1451 else this.#i = i;
1452 }
1453
1454 return this;
1455 }
1456
1457 next(){
1458 const len = this.images.length - 1;
1459 if(len !== -1){
1460 if(this.#i < len) this.#i++;
1461 else this.#i = 0;
1462 super.setImage(this.images[this.#i]);
1463 }
1464 }
1465
1466 loadImages(srcs, onDone, onUpdate){
1467 onUpdate = typeof onUpdate === "function" ? onUpdate : null;
1468 var i = 0, c = srcs.length, img = null, _i = this.images.length;
1469
1470 const len = srcs.length,
1471 func = ()=>{
1472 i++; if(onUpdate !== null) onUpdate(this.images, _i);
1473 if(i === c && typeof onDone === "function"){
1474 this.cursor = 0;
1475 onDone(this.images, _i, srcs);
1476 }
1477 else _i++;
1478 }
1479
1480 for(let k = 0, ty = ""; k < len; k++){
1481 ty = typeof srcs[k];
1482 if(ty === "string" || ty === "object"){
1483 ty = ty === "string" ? srcs[k] : srcs[k].src;
1484 if(ty !== "" && typeof ty === "string"){
1485 img = new Image();
1486 img.onload = func;
1487 this.images.push(img);
1488 img.src = ty;
1489 }
1490 else c--;
1491 }
1492 }
1493
1494 return this;
1495 }
1496
1497 }
1498
1499
1500
1501
1502 /* CanvasImageCustom
1503
1504 demo:
1505 //CanvasImageRender
1506 const cir = new CanvasImageRender({width: WORLD.width, height: WORLD.height});
1507 cir.domElement.style = `
1508 position: absolute;
1509 z-index: 9999;
1510 background: rgb(127,127,127);
1511 `;
1512
1513 //values
1514 cir.add(new CanvasImageCustom())
1515 .pos(59, 180)
1516 .load("view/examples/img/test.png", cir);
1517
1518 cir.add(new CanvasImageCustom())
1519 .pos(59, 180)
1520 .text("value", "red")
1521 .rect().stroke()
1522
1523 */
1524 class CanvasImageCustom extends CanvasImage{
1525
1526 constructor(canvas){
1527 super(canvas);
1528 }
1529
1530 toImage(callback){
1531 var image = new Image();
1532 image.src = this.image.toDataURL("image/png");
1533 image.onload = callback;
1534 }
1535
1536 shear(canvas, dx = 0, dy = 0){
1537 if(CanvasImageRender.isCanvas(canvas) === false){
1538 canvas = document.createElement("canvas");
1539 canvas.width = this.width;
1540 canvas.height = this.height;
1541 }
1542
1543 canvas.getContext("2d").drawImage(this.image, dx, dy);
1544
1545 return canvas;
1546 }
1547
1548 setImage(image){
1549 if(CanvasImageRender.isCanvas(image)){ //image 如果是画布
1550 super.setImage(image);
1551 this.context = CanvasImageRender.getContext(image);
1552 this.size(image.width, image.height);
1553 }
1554 else{
1555 if(CanvasImageRender.isCanvasImage(image)){ //image 如果是图像
1556 this.context = CanvasImageRender.getContext();
1557 super.setImage(this.context.canvas);
1558 this.size(image.width, image.height);
1559 this.context.drawImage(image, 0, 0);
1560 }else{ //image 如果是其它对象
1561 if(image) super.setImage(image);
1562 else{
1563 this.context = CanvasImageRender.getContext();
1564 super.setImage(this.context.canvas);
1565 this.size(this.width, this.height);
1566 }
1567 }
1568 }
1569
1570 return this;
1571 }
1572
1573 clear(){
1574 this.context.clearRect(0, 0, this.box.w, this.box.h);
1575 return this;
1576 }
1577
1578 size(w, h){
1579 this.box.size(w, h);
1580 this.image.width = w;
1581 this.image.height = h;
1582 CanvasImageRender.setDefaultStyles(this.context);
1583 this.fontSize = parseFloat(CanvasImageRender.defaultStyles.font);
1584 this.fillStyle = CanvasImageRender.defaultStyles.fillStyle;
1585 this.strokeStyle = CanvasImageRender.defaultStyles.strokeStyle;
1586 this.shadowColor = CanvasImageRender.defaultStyles.shadowColor;
1587 return this;
1588 }
1589
1590 shadow(shadowColor = "rgba(0,0,0,0)", shadowBlur, shadowOffsetX, shadowOffsetY){
1591 const con = this.context;
1592 if(typeof shadowColor === "string" && this.shadowColor !== shadowColor) this.shadowColor = con.shadowColor = shadowColor;
1593 if(con.shadowBlur !== shadowBlur && typeof shadowBlur === "number") con.shadowBlur = shadowBlur;
1594 if(con.shadowOffsetX !== shadowOffsetX && typeof shadowOffsetX === "number") con.shadowOffsetX = shadowOffsetX;
1595 if(con.shadowOffsetY !== shadowOffsetY && typeof shadowOffsetY === "number") con.shadowOffsetY = shadowOffsetY;
1596 return this;
1597 }
1598
1599 line(x, y, x1, y1){
1600 this.context.beginPath();
1601 this.context.moveTo(x, y);
1602 this.context.lineTo(x1, y1);
1603 return this;
1604 }
1605
1606 path(arr, close = false){
1607 const con = this.context;
1608 con.beginPath();
1609 con.moveTo(arr[0], arr[1]);
1610 for(let k = 2, len = arr.length; k < len; k+=2) con.lineTo(arr[k], arr[k+1]);
1611 if(close === true) con.closePath();
1612 return this;
1613 }
1614
1615 rect(r){
1616 const con = this.context, s = con.lineWidth;
1617 var x = s / 2,
1618 y = s / 2,
1619 w = this.box.w - s,
1620 h = this.box.h - s;
1621
1622 if(UTILS.isNumber(r) === false || r <= 0){
1623 con.rect(x, y, w, h);
1624 return this;
1625 }
1626
1627 const _x = x + r,
1628 _y = y + r,
1629 mx = x + w,
1630 my = y + h,
1631 _mx = mx - r,
1632 _my = my - r;
1633
1634 //上
1635 con.moveTo(_x, y);
1636 con.lineTo(_mx, y);
1637 con.arcTo(mx, y, mx, _y, r);
1638
1639 //右
1640 con.lineTo(mx, _y);
1641 con.lineTo(mx, _my);
1642 con.arcTo(mx, my, _x, my, r);
1643
1644 //下
1645 con.lineTo(_x, my);
1646 con.lineTo(_mx, my);
1647 con.arcTo(x, my, x, _my, r);
1648
1649 //左
1650 con.lineTo(x, _y);
1651 con.lineTo(x, _my);
1652 con.arcTo(x, y, _x, y, r);
1653
1654 return this;
1655 }
1656
1657 stroke(color, lineWidth){
1658 if(typeof color === "string" && this.strokeStyle !== color) this.strokeStyle = this.context.strokeStyle = color;
1659 if(UTILS.isNumber(lineWidth) && this.context.lineWidth !== lineWidth) this.context.lineWidth = lineWidth;
1660 this.context.stroke();
1661 return this;
1662 }
1663
1664 fill(color){
1665 if(typeof color === "string" && this.fillStyle !== color) this.fillStyle = this.context.fillStyle = color;
1666 this.context.fill();
1667 return this;
1668 }
1669
1670 text(value, color, fontSize = this.fontSize, x = -1, y = -1){
1671 if(UTILS.isNumber(fontSize) && this.fontSize !== fontSize){
1672 this.fontSize = fontSize;
1673 this.context.font = fontSize+"px SimSun, Songti SC";
1674 }
1675
1676 const textWidth = this.context.measureText(value).width;
1677 if(textWidth > this.box.w || this.fontSize > this.box.h){
1678 this.size(textWidth+4, this.fontSize+4);
1679 this.fontSize = fontSize;
1680 this.context.font = fontSize+"px SimSun, Songti SC";
1681 }
1682
1683 if(x === -1) x = (this.box.w - textWidth) / 2;
1684 if(y === -1) y = (this.box.h - this.fontSize) / 2;
1685
1686 if(typeof color === "string" && this.fillStyle !== color) this.fillStyle = this.context.fillStyle = color;
1687 this.context.fillText(value, x, y);
1688
1689 return this;
1690 }
1691
1692 }
1693
1694
1695
1696 export {
1697 CanvasImageRender,
1698 CanvasImage,
1699 CanvasImages,
1700 CanvasImageCustom,
1701 }
CanvasImageRender.js
1 "use strict";
2
3 import {
4 UTILS,
5 } from './Utils.js';
6
7 import {
8 CanvasImages,
9 CanvasImageCustom,
10 } from './CanvasImageRender.js';
11
12 var padding = 4;
13
14 const emptyCIC = new CanvasImageCustom();
15
16 function But_0(w, h, v){
17 if(!UTILS.isNumber(w) || w <= 0 || w === Infinity) w = emptyCIC.context.measureText(v).width+padding+padding;
18 if(!UTILS.isNumber(h) || h <= 0 || h === Infinity) h = Math.max(emptyCIC.fontSize+padding+padding,Math.round(30/70*w));
19
20 emptyCIC.size(w, h).rect(Math.min(w, h) * 0.1);
21
22 const bgColor = "#b3b3b3", color = "#ffffff", borderColor = "#999999",
23
24 a = emptyCIC
25 .fill(bgColor)
26 .text(v, color)
27 .stroke(borderColor)
28 .shear(),
29
30 c = emptyCIC
31 .fill("rgba(0,0,0,0.75)")
32 .shear(),
33
34 b = emptyCIC.clear()
35 .fill(bgColor)
36 .text(v, borderColor)
37 .stroke(color)
38 .shear();
39
40 return [a, b, c];
41 }
42
43
44 /* CanvasButton 为画布预设按钮 (防止移动端多指混乱)
45 parameter:
46 option = {
47 style: 0,
48 width: 100,
49 height: 0,
50 value: "TEST",
51 }
52
53 attribute:
54 enable: Bool; //是否启用;
55 value: String; //只读
56
57 method:
58 bindEvent(cir: CanvasImageRender, callback: Func): this;
59
60 demo:
61 //button
62 const cb = cir.add(new CanvasButton({
63 width: 80,
64 value: "测试 TEST",
65 }));
66
67 cb.bindEvent(cir, event => console.log(1));
68 cb.box.center(cir.box);
69 console.log(cb);
70 */
71 class CanvasButton extends CanvasImages{
72
73 static fontSize(v){
74 v = UTILS.isNumber(v) && v > 0 && v !== Infinity ? v : 12;
75 if(v === emptyCIC.fontSize) return v;
76 emptyCIC.fontSize = v;
77 emptyCIC.context.font = v+"px SimSun, Songti SC";
78 return v;
79 }
80
81 static padding(v){
82 padding = UTILS.isNumber(v) && v > 0 && v !== Infinity ? v : 4;
83 return padding;
84 }
85
86 #value = "";
87 get value(){return this.#value;}
88
89 #enable = true;
90 get enable(){return this.#enable;}
91 set enable(v){
92 if(v === false){
93 this.cursor = 2;
94 this.#enable = false;
95 }
96 else if(v === true){
97 this.cursor = 0;
98 this.#enable = false;
99 }
100 }
101
102 constructor(option = {}){
103
104 const value = option.value !== "" && typeof option.value === "string" ? option.value : "Button";
105
106 switch(option.style){
107 case "default":
108 default:
109 var images = But_0(option.width, option.height, value);
110 break;
111 }
112
113 super(images);
114 this.#value = value;
115
116 }
117
118 bindEvent(cir, callback){
119 callback = typeof callback === "function" ? callback : null;
120
121 var pointerId = -1;
122
123 const onup_body = event => {
124 if(event.pointerId !== pointerId) return;
125 document.body.removeEventListener("pointerup", onup_body);
126 this.cursor = 0;
127 cir.redraw();
128 },
129
130 onup = event => {
131 if(callback !== null && this.#enable && event.pointerId === pointerId) callback(event, this);
132 },
133
134 ondown = event => {
135 if(event.button !== 0 || this.#enable === false) return;
136 pointerId = event.pointerId;
137 document.body.addEventListener("pointerup", onup_body);
138 this.cursor = 1;
139 cir.redraw();
140 },
141
142 remove = () => {
143 document.body.removeEventListener("pointerup", onup_body);
144 cir.removeEvent(this, "up", onup);
145 cir.removeEvent(this, "down", ondown);
146 cir.removeEvent(null, "remove", remove);
147 }
148
149 cir.addEvent(this, "down", ondown);
150 cir.addEvent(this, "up", onup);
151 cir.addEvent(null, "remove", remove);
152
153 return this;
154 }
155
156 }
157
158
159
160
161 export {
162 CanvasButton,
163 }
CanvasButton.js
使用例子: (按钮的默认样式)
1 //CanvasImageRender
2 const cir = new CanvasImageRender({
3 width: window.innerWidth, //canvas 的宽高
4 height: window.innerHeight,
5 });
6
7 //.domElement 是一个 canvas
8 cir.domElement.style = `
9 position: absolute;
10 z-index: 9999;
11 background: rgb(127,127,127);
12 `;
13
14 console.log(cir);
15
16 //button
17 const cb = cir.add(new CanvasButton({
18 style: 0, //默认样式
19 width: 80, //高自动设置, 也可手动设置
20 value: "测试 TEST", //按钮名称
21 }));
22
23 //绑定事件
24 cb.bindEvent(cir, event => console.log(1));
25
26 //位置在画布中居中
27 cb.box.center(cir.box);
28
29 console.log(cb);
30
31 //canvas 添加至dom树
32 cir.render();
结果图:
抬起
按下
禁用
CanvasButton 被new完后根据参数创建了3张图(每个样式都会创建三张图),
按钮的样式变化其实就是切换这三张图而已, 这些事都是它的父类做的
标签:box,return,CanvasImageRender,.#,预设,UI,._,null,ca 来源: https://www.cnblogs.com/weihexinCode/p/16675922.html
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