echarts Polar 源码
echarts Polar 代码
文件路径:/src/coord/polar/Polar.ts
/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
import RadiusAxis from './RadiusAxis';
import AngleAxis from './AngleAxis';
import PolarModel from './PolarModel';
import { CoordinateSystem, CoordinateSystemMaster, CoordinateSystemClipArea } from '../CoordinateSystem';
import GlobalModel from '../../model/Global';
import { ParsedModelFinder, ParsedModelFinderKnown } from '../../util/model';
import { ScaleDataValue } from '../../util/types';
import ExtensionAPI from '../../core/ExtensionAPI';
export const polarDimensions = ['radius', 'angle'];
interface Polar {
update(ecModel: GlobalModel, api: ExtensionAPI): void
}
class Polar implements CoordinateSystem, CoordinateSystemMaster {
readonly name: string;
readonly dimensions = polarDimensions;
readonly type = 'polar';
/**
* x of polar center
*/
cx = 0;
/**
* y of polar center
*/
cy = 0;
private _radiusAxis = new RadiusAxis();
private _angleAxis = new AngleAxis();
axisPointerEnabled = true;
model: PolarModel;
constructor(name: string) {
this.name = name || '';
this._radiusAxis.polar = this._angleAxis.polar = this;
}
/**
* If contain coord
*/
containPoint(point: number[]) {
const coord = this.pointToCoord(point);
return this._radiusAxis.contain(coord[0])
&& this._angleAxis.contain(coord[1]);
}
/**
* If contain data
*/
containData(data: number[]) {
return this._radiusAxis.containData(data[0])
&& this._angleAxis.containData(data[1]);
}
getAxis(dim: 'radius' | 'angle') {
const key = ('_' + dim + 'Axis') as '_radiusAxis' | '_angleAxis';
return this[key];
}
getAxes() {
return [this._radiusAxis, this._angleAxis];
}
/**
* Get axes by type of scale
*/
getAxesByScale(scaleType: 'ordinal' | 'interval' | 'time' | 'log') {
const axes = [];
const angleAxis = this._angleAxis;
const radiusAxis = this._radiusAxis;
angleAxis.scale.type === scaleType && axes.push(angleAxis);
radiusAxis.scale.type === scaleType && axes.push(radiusAxis);
return axes;
}
getAngleAxis() {
return this._angleAxis;
}
getRadiusAxis() {
return this._radiusAxis;
}
getOtherAxis(axis: AngleAxis | RadiusAxis): AngleAxis | RadiusAxis {
const angleAxis = this._angleAxis;
return axis === angleAxis ? this._radiusAxis : angleAxis;
}
/**
* Base axis will be used on stacking.
*
*/
getBaseAxis() {
return this.getAxesByScale('ordinal')[0]
|| this.getAxesByScale('time')[0]
|| this.getAngleAxis();
}
getTooltipAxes(dim: 'radius' | 'angle' | 'auto') {
const baseAxis = (dim != null && dim !== 'auto')
? this.getAxis(dim) : this.getBaseAxis();
return {
baseAxes: [baseAxis],
otherAxes: [this.getOtherAxis(baseAxis)]
};
}
/**
* Convert a single data item to (x, y) point.
* Parameter data is an array which the first element is radius and the second is angle
*/
dataToPoint(data: ScaleDataValue[], clamp?: boolean) {
return this.coordToPoint([
this._radiusAxis.dataToRadius(data[0], clamp),
this._angleAxis.dataToAngle(data[1], clamp)
]);
}
/**
* Convert a (x, y) point to data
*/
pointToData(point: number[], clamp?: boolean) {
const coord = this.pointToCoord(point);
return [
this._radiusAxis.radiusToData(coord[0], clamp),
this._angleAxis.angleToData(coord[1], clamp)
];
}
/**
* Convert a (x, y) point to (radius, angle) coord
*/
pointToCoord(point: number[]) {
let dx = point[0] - this.cx;
let dy = point[1] - this.cy;
const angleAxis = this.getAngleAxis();
const extent = angleAxis.getExtent();
let minAngle = Math.min(extent[0], extent[1]);
let maxAngle = Math.max(extent[0], extent[1]);
// Fix fixed extent in polarCreator
// FIXME
angleAxis.inverse
? (minAngle = maxAngle - 360)
: (maxAngle = minAngle + 360);
const radius = Math.sqrt(dx * dx + dy * dy);
dx /= radius;
dy /= radius;
let radian = Math.atan2(-dy, dx) / Math.PI * 180;
// move to angleExtent
const dir = radian < minAngle ? 1 : -1;
while (radian < minAngle || radian > maxAngle) {
radian += dir * 360;
}
return [radius, radian];
}
/**
* Convert a (radius, angle) coord to (x, y) point
*/
coordToPoint(coord: number[]) {
const radius = coord[0];
const radian = coord[1] / 180 * Math.PI;
const x = Math.cos(radian) * radius + this.cx;
// Inverse the y
const y = -Math.sin(radian) * radius + this.cy;
return [x, y];
}
/**
* Get ring area of cartesian.
* Area will have a contain function to determine if a point is in the coordinate system.
*/
getArea(): PolarArea {
const angleAxis = this.getAngleAxis();
const radiusAxis = this.getRadiusAxis();
const radiusExtent = radiusAxis.getExtent().slice();
radiusExtent[0] > radiusExtent[1] && radiusExtent.reverse();
const angleExtent = angleAxis.getExtent();
const RADIAN = Math.PI / 180;
return {
cx: this.cx,
cy: this.cy,
r0: radiusExtent[0],
r: radiusExtent[1],
startAngle: -angleExtent[0] * RADIAN,
endAngle: -angleExtent[1] * RADIAN,
clockwise: angleAxis.inverse,
contain(x: number, y: number) {
// It's a ring shape.
// Start angle and end angle don't matter
const dx = x - this.cx;
const dy = y - this.cy;
// minus a tiny value 1e-4 to avoid being clipped unexpectedly
const d2 = dx * dx + dy * dy - 1e-4;
const r = this.r;
const r0 = this.r0;
return d2 <= r * r && d2 >= r0 * r0;
}
};
}
convertToPixel(ecModel: GlobalModel, finder: ParsedModelFinder, value: ScaleDataValue[]) {
const coordSys = getCoordSys(finder);
return coordSys === this ? this.dataToPoint(value) : null;
}
convertFromPixel(ecModel: GlobalModel, finder: ParsedModelFinder, pixel: number[]) {
const coordSys = getCoordSys(finder);
return coordSys === this ? this.pointToData(pixel) : null;
}
}
function getCoordSys(finder: ParsedModelFinderKnown) {
const seriesModel = finder.seriesModel;
const polarModel = finder.polarModel as PolarModel;
return polarModel && polarModel.coordinateSystem
|| seriesModel && seriesModel.coordinateSystem as Polar;
}
interface PolarArea extends CoordinateSystemClipArea {
cx: number
cy: number
r0: number
r: number
startAngle: number
endAngle: number
clockwise: boolean
}
export default Polar;
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