102 lines
3.0 KiB
JavaScript
102 lines
3.0 KiB
JavaScript
class SelfConnection {
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constructor(state, mouse) {
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this.id = guid();
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this.state = state;
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this.anchorAngle = 0;
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this.mouseOffsetAngle = 0;
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this._text = '';
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if(mouse) {
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this.setAnchorPoint(mouse.x, mouse.y);
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}
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}
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get text() {
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return this._text;
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}
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set text(value) {
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documents[activeDocument].addChange('selfconnection', this.id, 'edit', ['_text'], [this._text], true);
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this._text = value;
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documents[activeDocument].addChange('selfconnection', this.id, 'edit', ['_text'], [this._text]);
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}
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setMouseStart(x, y) {
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this.mouseOffsetAngle = this.anchorAngle - Math.atan2(y - this.state.y, x - this.state.x);
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}
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setAnchorPoint(x, y) {
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this.anchorAngle = Math.atan2(y - this.state.y, x - this.state.x) + this.mouseOffsetAngle;
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const snap = Math.round(this.anchorAngle / (Math.PI / 2)) * (Math.PI / 2);
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if(Math.abs(this.anchorAngle - snap) < .1)
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this.anchorAngle = snap;
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if(this.anchorAngle < -Math.PI)
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this.anchorAngle += 2 * Math.PI;
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if(this.anchorAngle > Math.PI)
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this.anchorAngle -= 2 * Math.PI;
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}
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getEndPointsAndCircle() {
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const circle = {
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x: this.state.x + 1.5 * radius * Math.cos(this.anchorAngle),
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y: this.state.y + 1.5 * radius * Math.sin(this.anchorAngle),
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radius: 0.75 * radius,
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};
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const startAngle = this.anchorAngle - Math.PI * .8;
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const endAngle = this.anchorAngle + Math.PI * .8;
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const start = {
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x: circle.x + circle.radius * Math.cos(startAngle),
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y: circle.y + circle.radius * Math.sin(startAngle),
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};
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const end = {
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x: circle.x + circle.radius * Math.cos(endAngle),
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y: circle.y + circle.radius * Math.sin(endAngle),
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};
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return {
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isCircle: true,
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start,
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end,
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startAngle,
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endAngle,
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circle,
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};
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}
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draw() {
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const endPoints = this.getEndPointsAndCircle();
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ctx.strokeStyle = ctx.fillStyle = settings.colors.getColor(this);
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ctx.beginPath();
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ctx.arc(endPoints.circle.x, endPoints.circle.y, endPoints.circle.radius, endPoints.startAngle, endPoints.endAngle);
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ctx.stroke();
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ctx.closePath();
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const textX = endPoints.circle.x + endPoints.circle.radius * Math.cos(this.anchorAngle),
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textY = endPoints.circle.y + endPoints.circle.radius * Math.sin(this.anchorAngle);
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ctx.drawText(this.text, textX, textY, this.anchorAngle, selectedObject === this);
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ctx.drawArrow(endPoints.end.x, endPoints.end.y, endPoints.endAngle + Math.PI * .4);
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}
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containsPoint(x, y) {
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const endPoints = this.getEndPointsAndCircle(),
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dx = x - endPoints.circle.x,
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dy = y - endPoints.circle.y,
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distance = Math.sqrt(dx ** 2 + dy ** 2) - endPoints.circle.radius;
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return Math.abs(distance) < settings.hitTargetPadding;
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}
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}
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