import BezierEdgeBase from './util/BezierEdgeBase' /** * A Static Bezier Edge. Bezier curves are used to model smooth gradual * curves in paths between nodes. * * @extends BezierEdgeBase */ class BezierEdgeStatic extends BezierEdgeBase { /** * @param {Object} options * @param {Object} body * @param {Label} labelModule */ constructor(options, body, labelModule) { super(options, body, labelModule); } /** * Draw a line between two nodes * @param {CanvasRenderingContext2D} ctx * @param {{toArrow: boolean, toArrowScale: (allOptions.edges.arrows.to.scaleFactor|{number}|allOptions.edges.arrows.middle.scaleFactor|allOptions.edges.arrows.from.scaleFactor|Array|number), toArrowType: *, middleArrow: boolean, middleArrowScale: (number|allOptions.edges.arrows.middle.scaleFactor|{number}|Array), middleArrowType: (allOptions.edges.arrows.middle.type|{string}|string|*), fromArrow: boolean, fromArrowScale: (allOptions.edges.arrows.to.scaleFactor|{number}|allOptions.edges.arrows.middle.scaleFactor|allOptions.edges.arrows.from.scaleFactor|Array|number), fromArrowType: *, arrowStrikethrough: (*|boolean|allOptions.edges.arrowStrikethrough|{boolean}), color: undefined, inheritsColor: (string|string|string|allOptions.edges.color.inherit|{string, boolean}|Array|*), opacity: *, hidden: *, length: *, shadow: *, shadowColor: *, shadowSize: *, shadowX: *, shadowY: *, dashes: (*|boolean|Array|allOptions.edges.dashes|{boolean, array}), width: *}} values * @param {Node} viaNode * @private */ _line(ctx, values, viaNode) { this._bezierCurve(ctx, values, viaNode); } /** * * @returns {Array.<{x: number, y: number}>} */ getViaNode() { return this._getViaCoordinates(); } /** * We do not use the to and fromPoints here to make the via nodes the same as edges without arrows. * @returns {{x: undefined, y: undefined}} * @private */ _getViaCoordinates() { // Assumption: x/y coordinates in from/to always defined let xVia = undefined; let yVia = undefined; let factor = this.options.smooth.roundness; let type = this.options.smooth.type; let dx = Math.abs(this.from.x - this.to.x); let dy = Math.abs(this.from.y - this.to.y); if (type === 'discrete' || type === 'diagonalCross') { let stepX; let stepY; if (dx <= dy) { stepX = stepY = factor * dy; } else { stepX = stepY = factor * dx; } if (this.from.x > this.to.x) stepX = -stepX; if (this.from.y >= this.to.y) stepY = -stepY; xVia = this.from.x + stepX; yVia = this.from.y + stepY; if (type === "discrete") { if (dx <= dy) { xVia = dx < factor * dy ? this.from.x : xVia; } else { yVia = dy < factor * dx ? this.from.y : yVia; } } } else if (type === "straightCross") { let stepX = (1 - factor) * dx; let stepY = (1 - factor) * dy; if (dx <= dy) { // up - down stepX = 0; if (this.from.y < this.to.y) stepY = -stepY; } else { // left - right if (this.from.x < this.to.x) stepX = -stepX; stepY = 0; } xVia = this.to.x + stepX; yVia = this.to.y + stepY; } else if (type === 'horizontal') { let stepX = (1 - factor) * dx; if (this.from.x < this.to.x) stepX = -stepX; xVia = this.to.x + stepX; yVia = this.from.y; } else if (type === 'vertical') { let stepY = (1 - factor) * dy; if (this.from.y < this.to.y) stepY = -stepY; xVia = this.from.x; yVia = this.to.y + stepY; } else if (type === 'curvedCW') { dx = this.to.x - this.from.x; dy = this.from.y - this.to.y; let radius = Math.sqrt(dx * dx + dy * dy); let pi = Math.PI; let originalAngle = Math.atan2(dy, dx); let myAngle = (originalAngle + ((factor * 0.5) + 0.5) * pi) % (2 * pi); xVia = this.from.x + (factor * 0.5 + 0.5) * radius * Math.sin(myAngle); yVia = this.from.y + (factor * 0.5 + 0.5) * radius * Math.cos(myAngle); } else if (type === 'curvedCCW') { dx = this.to.x - this.from.x; dy = this.from.y - this.to.y; let radius = Math.sqrt(dx * dx + dy * dy); let pi = Math.PI; let originalAngle = Math.atan2(dy, dx); let myAngle = (originalAngle + ((-factor * 0.5) + 0.5) * pi) % (2 * pi); xVia = this.from.x + (factor * 0.5 + 0.5) * radius * Math.sin(myAngle); yVia = this.from.y + (factor * 0.5 + 0.5) * radius * Math.cos(myAngle); } else { // continuous let stepX; let stepY; if (dx <= dy) { stepX = stepY = factor * dy; } else { stepX = stepY = factor * dx; } if (this.from.x > this.to.x) stepX = -stepX; if (this.from.y >= this.to.y) stepY = -stepY; xVia = this.from.x + stepX; yVia = this.from.y + stepY; if (dx <= dy) { if (this.from.x <= this.to.x) { xVia = this.to.x < xVia ? this.to.x : xVia; } else { xVia = this.to.x > xVia ? this.to.x : xVia; } } else { if (this.from.y >= this.to.y) { yVia = this.to.y > yVia ? this.to.y : yVia; } else { yVia = this.to.y < yVia ? this.to.y : yVia; } } } return {x: xVia, y: yVia}; } /** * * @param {Node} nearNode * @param {CanvasRenderingContext2D} ctx * @param {Object} options * @returns {*} * @private */ _findBorderPosition(nearNode, ctx, options = {}) { return this._findBorderPositionBezier(nearNode, ctx, options.via); } /** * * @param {number} x1 * @param {number} y1 * @param {number} x2 * @param {number} y2 * @param {number} x3 * @param {number} y3 * @param {Node} viaNode * @returns {number} * @private */ _getDistanceToEdge(x1, y1, x2, y2, x3, y3, viaNode = this._getViaCoordinates()) { // x3,y3 is the point return this._getDistanceToBezierEdge(x1, y1, x2, y2, x3, y3, viaNode); } /** * Combined function of pointOnLine and pointOnBezier. This gives the coordinates of a point on the line at a certain percentage of the way * @param {number} percentage * @param {Node} viaNode * @returns {{x: number, y: number}} * @private */ getPoint(percentage, viaNode = this._getViaCoordinates()) { var t = percentage; var x = Math.pow(1 - t, 2) * this.fromPoint.x + (2 * t * (1 - t)) * viaNode.x + Math.pow(t, 2) * this.toPoint.x; var y = Math.pow(1 - t, 2) * this.fromPoint.y + (2 * t * (1 - t)) * viaNode.y + Math.pow(t, 2) * this.toPoint.y; return {x: x, y: y}; } } export default BezierEdgeStatic;