package.src.core.dom.ts Maven / Gradle / Ivy
import env from './env';
import {buildTransformer} from './fourPointsTransform';
import {Dictionary} from './types';
const EVENT_SAVED_PROP = '___zrEVENTSAVED';
const _calcOut: number[] = [];
type SavedInfo = {
markers?: HTMLDivElement[]
trans?: ReturnType
invTrans?: ReturnType
srcCoords?: number[]
}
/**
* Transform "local coord" from `elFrom` to `elTarget`.
* "local coord": the coord based on the input `el`. The origin point is at
* the position of "left: 0; top: 0;" in the `el`.
*
* Support when CSS transform is used.
*
* Having the `out` (that is, `[outX, outY]`), we can create an DOM element
* and set the CSS style as "left: outX; top: outY;" and append it to `elTarge`
* to locate the element.
*
* For example, this code below positions a child of `document.body` on the event
* point, no matter whether `body` has `margin`/`paddin`/`transfrom`/... :
* ```js
* transformLocalCoord(out, container, document.body, event.offsetX, event.offsetY);
* if (!eqNaN(out[0])) {
* // Then locate the tip element on the event point.
* var tipEl = document.createElement('div');
* tipEl.style.cssText = 'position: absolute; left:' + out[0] + ';top:' + out[1] + ';';
* document.body.appendChild(tipEl);
* }
* ```
*
* Notice: In some env this method is not supported. If called, `out` will be `[NaN, NaN]`.
*
* @param {Array.} out [inX: number, inY: number] The output..
* If can not transform, `out` will not be modified but return `false`.
* @param {HTMLElement} elFrom The `[inX, inY]` is based on elFrom.
* @param {HTMLElement} elTarget The `out` is based on elTarget.
* @param {number} inX
* @param {number} inY
* @return {boolean} Whether transform successfully.
*/
export function transformLocalCoord(
out: number[],
elFrom: HTMLElement,
elTarget: HTMLElement,
inX: number,
inY: number
) {
return transformCoordWithViewport(_calcOut, elFrom, inX, inY, true)
&& transformCoordWithViewport(out, elTarget, _calcOut[0], _calcOut[1]);
}
/**
* Transform between a "viewport coord" and a "local coord".
* "viewport coord": the coord based on the left-top corner of the viewport
* of the browser.
* "local coord": the coord based on the input `el`. The origin point is at
* the position of "left: 0; top: 0;" in the `el`.
*
* Support the case when CSS transform is used on el.
*
* @param out [inX: number, inY: number] The output. If `inverse: false`,
* it represents "local coord", otherwise "vireport coord".
* If can not transform, `out` will not be modified but return `false`.
* @param el The "local coord" is based on the `el`, see comment above.
* @param inX If `inverse: false`,
* it represents "vireport coord", otherwise "local coord".
* @param inY If `inverse: false`,
* it represents "vireport coord", otherwise "local coord".
* @param inverse
* `true`: from "viewport coord" to "local coord".
* `false`: from "local coord" to "viewport coord".
* @return {boolean} Whether transform successfully.
*/
export function transformCoordWithViewport(
out: number[],
el: HTMLElement,
inX: number,
inY: number,
inverse?: boolean
) {
if (el.getBoundingClientRect && env.domSupported && !isCanvasEl(el)) {
const saved = (el as any)[EVENT_SAVED_PROP] || ((el as any)[EVENT_SAVED_PROP] = {});
const markers = prepareCoordMarkers(el, saved);
const transformer = preparePointerTransformer(markers, saved, inverse);
if (transformer) {
transformer(out, inX, inY);
return true;
}
}
return false;
}
function prepareCoordMarkers(el: HTMLElement, saved: SavedInfo) {
let markers = saved.markers;
if (markers) {
return markers;
}
markers = saved.markers = [];
const propLR = ['left', 'right'];
const propTB = ['top', 'bottom'];
for (let i = 0; i < 4; i++) {
const marker = document.createElement('div');
const stl = marker.style;
const idxLR = i % 2;
const idxTB = (i >> 1) % 2;
stl.cssText = [
'position: absolute',
'visibility: hidden',
'padding: 0',
'margin: 0',
'border-width: 0',
'user-select: none',
'width:0',
'height:0',
// 'width: 5px',
// 'height: 5px',
propLR[idxLR] + ':0',
propTB[idxTB] + ':0',
propLR[1 - idxLR] + ':auto',
propTB[1 - idxTB] + ':auto',
''
].join('!important;');
el.appendChild(marker);
markers.push(marker);
}
return markers;
}
function preparePointerTransformer(markers: HTMLDivElement[], saved: SavedInfo, inverse?: boolean) {
const transformerName: 'invTrans' | 'trans' = inverse ? 'invTrans' : 'trans';
const transformer = saved[transformerName];
const oldSrcCoords = saved.srcCoords;
const srcCoords = [];
const destCoords = [];
let oldCoordTheSame = true;
for (let i = 0; i < 4; i++) {
const rect = markers[i].getBoundingClientRect();
const ii = 2 * i;
const x = rect.left;
const y = rect.top;
srcCoords.push(x, y);
oldCoordTheSame = oldCoordTheSame && oldSrcCoords && x === oldSrcCoords[ii] && y === oldSrcCoords[ii + 1];
destCoords.push(markers[i].offsetLeft, markers[i].offsetTop);
}
// Cache to avoid time consuming of `buildTransformer`.
return (oldCoordTheSame && transformer)
? transformer
: (
saved.srcCoords = srcCoords,
saved[transformerName] = inverse
? buildTransformer(destCoords, srcCoords)
: buildTransformer(srcCoords, destCoords)
);
}
export function isCanvasEl(el: HTMLElement): el is HTMLCanvasElement {
return el.nodeName.toUpperCase() === 'CANVAS';
}
const replaceReg = /([&<>"'])/g;
const replaceMap: Dictionary = {
'&': '&',
'<': '<',
'>': '>',
'"': '"',
'\'': '''
};
export function encodeHTML(source: string): string {
return source == null
? ''
: (source + '').replace(replaceReg, function (str, c) {
return replaceMap[c];
});
}
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