@nmmty/lazycanvas
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A simple way to interact with @napi-rs/canvas in an advanced way!
159 lines (158 loc) • 7.04 kB
JavaScript
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.QuadraticLayer = void 0;
const BaseLayer_1 = require("./BaseLayer");
const types_1 = require("../../types");
const utils_1 = require("../../utils/utils");
const LazyUtil_1 = require("../../utils/LazyUtil");
/**
* Class representing a Quadratic Layer, extending the BaseLayer class.
*/
class QuadraticLayer extends BaseLayer_1.BaseLayer {
/**
* The properties of the Quadratic Layer.
*/
props;
/**
* Constructs a new QuadraticLayer instance.
* @param props {IQuadraticLayerProps} - The properties of the Quadratic Layer.
* @param misc {IBaseLayerMisc} - Miscellaneous options for the layer.
*/
constructor(props, misc) {
super(types_1.LayerType.QuadraticCurve, props || {}, misc);
this.props = props ? props : {};
if (!this.props.fillStyle)
this.props.fillStyle = '#000000';
this.props.centring = types_1.Centring.None;
}
/**
* Sets the control point of the quadratic layer.
* @param x {ScaleType} - The x-coordinate of the control point.
* @param y {ScaleType} - The y-coordinate of the control point.
* @returns {this} The current instance for chaining.
*/
setControlPoint(x, y) {
this.props.controlPoints = [{ x, y }];
return this;
}
/**
* Sets the end point of the quadratic layer.
* @param x {ScaleType} - The x-coordinate of the end point.
* @param y {ScaleType} - The y-coordinate of the end point.
* @returns {this} The current instance for chaining.
*/
setEndPosition(x, y) {
this.props.endPoint = { x, y };
return this;
}
/**
* Sets the color of the layer.
* @param color {ColorType} - The color of the layer.
* @returns {this} The current instance for chaining.
* @throws {LazyError} If the color is not provided or invalid.
*/
setColor(color) {
if (!color)
throw new LazyUtil_1.LazyError('The color of the layer must be provided');
if (!(0, utils_1.isColor)(color))
throw new LazyUtil_1.LazyError('The color of the layer must be a valid color');
this.props.fillStyle = color;
return this;
}
/**
* Sets the stroke properties of the layer.
* @param width {number} - The width of the stroke.
* @param cap {CanvasLineCap} - The cap style of the stroke.
* @param join {CanvasLineJoin} - The join style of the stroke.
* @param dash {number[]} - The dash pattern of the stroke.
* @param dashOffset {number} - The dash offset of the stroke.
* @param miterLimit {number} - The miter limit of the stroke.
* @returns {this} The current instance for chaining.
*/
setStroke(width, cap, join, dash, dashOffset, miterLimit) {
this.props.stroke = {
width,
cap: cap || 'butt',
join: join || 'miter',
dash: dash || [],
dashOffset: dashOffset || 0,
miterLimit: miterLimit || 10,
};
return this;
}
/**
* Calculates the bounding box of the quadratic curve.
* @param ctx {SKRSContext2D} - The canvas rendering context.
* @param canvas {Canvas | SvgCanvas} - The canvas instance.
* @param manager {LayersManager} - The layers manager.
* @returns {Object} The bounding box details including max, min, center, width, and height.
*/
getBoundingBox(ctx, canvas, manager) {
const parcer = (0, utils_1.parser)(ctx, canvas, manager);
const { xs, ys, cx, cy, xe, ye } = parcer.parseBatch({
xs: { v: this.props.x },
ys: { v: this.props.y, options: LazyUtil_1.defaultArg.vl(true) },
cx: { v: this.props.controlPoints[0].x },
cy: { v: this.props.controlPoints[0].y, options: LazyUtil_1.defaultArg.vl(true) },
xe: { v: this.props.endPoint.x },
ye: { v: this.props.endPoint.y, options: LazyUtil_1.defaultArg.vl(true) }
});
const { max, min, center, width, height } = (0, utils_1.getBoundingBoxBezier)([{ x: xs, y: ys }, { x: cx, y: cy }, { x: xe, y: ye }]);
return { max, min, center, width, height };
}
/**
* Draws the quadratic curve on the canvas.
* @param ctx {SKRSContext2D} - The canvas rendering context.
* @param canvas {Canvas | SvgCanvas} - The canvas instance.
* @param manager {LayersManager} - The layers manager.
* @param debug {boolean} - Whether to enable debug logging.
*/
async draw(ctx, canvas, manager, debug) {
const parcer = (0, utils_1.parser)(ctx, canvas, manager);
const { xs, ys, cx, cy, xe, ye } = parcer.parseBatch({
xs: { v: this.props.x },
ys: { v: this.props.y, options: LazyUtil_1.defaultArg.vl(true) },
cx: { v: this.props.controlPoints[0].x },
cy: { v: this.props.controlPoints[0].y, options: LazyUtil_1.defaultArg.vl(true) },
xe: { v: this.props.endPoint.x },
ye: { v: this.props.endPoint.y, options: LazyUtil_1.defaultArg.vl(true) }
});
const { max, min, center, width, height } = (0, utils_1.getBoundingBoxBezier)([{ x: xs, y: ys }, { x: cx, y: cy }, { x: xe, y: ye }]);
let fillStyle = await (0, utils_1.parseFillStyle)(ctx, this.props.fillStyle);
if (debug)
LazyUtil_1.LazyLog.log('none', `BezierLayer:`, { xs, ys, cx, cy, xe, ye, max, min, center, width, height, fillStyle });
ctx.save();
(0, utils_1.transform)(ctx, this.props.transform, { x: center.x, y: center.y, width, height, type: this.type });
(0, utils_1.drawShadow)(ctx, this.props.shadow);
(0, utils_1.opacity)(ctx, this.props.opacity);
(0, utils_1.filters)(ctx, this.props.filter);
ctx.beginPath();
ctx.moveTo(xs, ys);
ctx.strokeStyle = fillStyle;
ctx.lineWidth = this.props.stroke?.width || 1;
ctx.lineCap = this.props.stroke?.cap || 'butt';
ctx.lineJoin = this.props.stroke?.join || 'miter';
ctx.miterLimit = this.props.stroke?.miterLimit || 10;
ctx.lineDashOffset = this.props.stroke?.dashOffset || 0;
ctx.setLineDash(this.props.stroke?.dash || []);
ctx.quadraticCurveTo(cx, cy, xe, ye);
ctx.stroke();
ctx.closePath();
ctx.restore();
}
/**
* Converts the Quadratic Layer to a JSON representation.
* @returns {IQuadraticLayer} The JSON representation of the Quadratic Layer.
*/
toJSON() {
let data = super.toJSON();
let copy = { ...this.props };
for (const key of ['x', 'y', 'endPoint.x', 'endPoint.y', 'controlPoint.x', 'controlPoint.y', 'fillStyle']) {
if (copy[key] && typeof copy[key] === 'object' && 'toJSON' in copy[key]) {
copy[key] = copy[key].toJSON();
}
}
return { ...data, props: copy };
}
}
exports.QuadraticLayer = QuadraticLayer;