bigbluebutton-Github/bbb-export-annotations/shapes/Arrow.js

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import {Path, Marker, Defs} from '@svgdotjs/svg.js';
import {Shape} from './Shape.js';
import {TAU, circleFromThreePoints, normalize, rotate}
from '../shapes/helpers.js';
import {ColorTypes} from '../shapes/Shape.js';
/**
* Creates an SVG path from Tldraw v2 arrow data.
*
* @class Arrow
* @extends {Shape}
*/
export class Arrow extends Shape {
/**
* @param {Object} arrow - The arrow shape JSON.
*/
constructor(arrow) {
super(arrow);
this.start = this.props?.start;
this.end = this.props?.end;
this.arrowheadStart = this.props?.arrowheadStart;
this.arrowheadEnd = this.props?.arrowheadEnd;
this.bend = this.props?.bend;
}
/**
* Calculates the midpoint of a curve considering the bend of the line.
* The midpoint is adjusted by the bend property to represent the
* actual midpoint of a quadratic Bezier curve defined by the start
* and end points with the bend as control point offset.
*
* @return {number[]} An array containing the x and y coordinates.
*/
getMidpoint() {
const mid = [
(this.start.x + this.end.x) / 2,
(this.start.y + this.end.y) / 2];
const unitVector = normalize([
this.end.x - this.start.x,
this.end.y - this.start.y]);
const unitRotated = rotate(unitVector);
const bendOffset = [
unitRotated[0] * -this.bend,
unitRotated[1] * -this.bend];
const middle = [
mid[0] + bendOffset[0],
mid[1] + bendOffset[1]];
return middle;
}
/**
* Calculates the angle in radians between the line segments joining the start
* point to the midpoint and the endpoint to the midpoint of a given set of
* points. Assumes that `this.getMidpoint()` is a method which calculates the
* midpoint between the start and end points, `this.start` is the start point,
* and `this.end` is the end point of the line segments. The points are
* objects with `x` and `y`properties representing their coordinates.
* @return {number} Angle between the two line segments at the midpoint.
*/
getTheta() {
const [middleX, middleY] = this.getMidpoint();
const ab = Math.hypot(this.start.y - middleY, this.start.x - middleX);
const bc = Math.hypot(middleY - this.end.y, middleX - this.end.x);
const ca = Math.hypot(this.end.y - this.start.y, this.end.x - this.start.x);
const theta = Math.acos((bc * bc + ca * ca - ab * ab) / (2 * bc * ca)) * 2;
return theta || 0;
}
/**
* Constructs the path for the arrow, considering straight and curved lines.
*
* @return {string} - The SVG path string.
*/
constructPath() {
const [startX, startY] = [this.start.x, this.start.y];
const [endX, endY] = [this.end.x, this.end.y];
const bend = this.bend;
const isStraightLine = (bend.toFixed(2) === '0.00');
const straightLine = `M ${startX} ${startY} L ${endX} ${endY}`;
if (isStraightLine) {
return straightLine;
}
const [middleX, middleY] = this.getMidpoint();
const [,, r] = circleFromThreePoints(
[startX, startY],
[middleX, middleY],
[endX, endY]);
// Could not calculate a circle
if (!r) {
return straightLine;
}
const radius = r.toFixed(2);
// Whether to draw the longer arc
const theta = this.getTheta();
const largeArcFlag = theta > (TAU / 4) ? '1' : '0';
// Clockwise or counterclockwise
const sweepFlag = ((endX - startX) * (middleY - startY) -
(middleX - startX) * (endY - startY) > 0 ? '0' : '1');
const path = `M ${startX} ${startY} ` +
`A ${radius} ${radius} 0 ${largeArcFlag} ${sweepFlag} ` +
`${endX} ${endY}`;
return path;
}
/**
* Calculates the tangent angles at the start and end points of a path.
* This method assumes that the path is an instance of a class with
* a method `pointAt` which returns a point with `x` and `y` properties
* given a distance along the path.
*
* @param {Object} path - SVG.js path with the `pointAt` method.
* @return {Object} An object with `startAngleDegrees` and `endAngleDegrees`
* properties.
*/
getTangentAngleAtEnds(path) {
const length = path.length();
const start = path.pointAt(0);
const epsilon = 0.01; // A small value
const end = path.pointAt(length);
// Get points just a little further along the path to calculate the tangent
const startTangentPoint = path.pointAt(epsilon);
const endTangentPoint = path.pointAt(length - epsilon);
// Calculate angles using Math.atan2 to find the slope of the tangent
const startAngleRadians = Math.atan2(
startTangentPoint.y - start.y,
startTangentPoint.x - start.x) + + TAU / 2;
const endAngleRadians = Math.atan2(
end.y - endTangentPoint.y,
end.x - endTangentPoint.x);
// Convert to degrees
const startAngleDegrees = startAngleRadians * (360 / TAU);
const endAngleDegrees = endAngleRadians * (360 / TAU);
return {startAngleDegrees, endAngleDegrees};
}
/**
* Creates a marker element with specified attributes
* and shape based on the type. The marker is configured with default
* properties which can be overridden according to the type.
* The marker type determines the path and fill of the SVG element.
*
* @param {string} type - One of 'arrow', 'diamond', 'triangle', 'inverted',
* 'square', 'dot', 'bar'.
* @param {string} url - URL reference in SVG.
* @param {number} [angle=0] - Angle in degrees for the marker.
* @return {Marker} A new Marker instance.
*/
createMarker(type, url, angle = 0) {
const arrowMarker = new Marker({
id: url,
viewBox: '0 0 10 10',
refX: '5',
refY: '5',
markerWidth: '6',
markerHeight: '6',
orient: angle,
});
const fillColor = Shape.colorToHex(this.color, ColorTypes.FillColor);
switch (type) {
case 'arrow':
arrowMarker.path('M 0 0 L 10 5 L 0 10 Z').fill(this.shapeColor);
break;
case 'diamond':
arrowMarker.path('M 5 0 L 10 5 L 5 10 L 0 5 z')
.stroke(this.shapeColor)
.fill(fillColor);
break;
case 'triangle':
arrowMarker.path('M 0 0 L 10 5 L 0 10 Z')
.stroke(this.shapeColor)
.fill(fillColor);
break;
case 'inverted':
arrowMarker.attr('orient', angle + 180);
arrowMarker.path('M 0 0 L 10 5 L 0 10 Z')
.stroke(this.shapeColor)
.fill(fillColor);
break;
case 'square':
arrowMarker.path('M 0 0 L 10 0 L 10 10 L 0 10 Z')
.stroke(this.shapeColor)
.fill(fillColor);
break;
case 'dot':
const circleSize = 5;
arrowMarker.attr('refX', '0');
arrowMarker.attr('refY', circleSize / 2);
arrowMarker.attr('markerUnits', 'strokeWidth');
arrowMarker.attr('markerWidth', '6');
arrowMarker.attr('markerHeight', '6');
arrowMarker.stroke('context-stroke');
arrowMarker.fill(fillColor);
arrowMarker.circle(circleSize)
.stroke(this.shapeColor)
.fill(fillColor);
break;
case 'bar':
arrowMarker.attr('refX', '0');
arrowMarker.attr('refY', '2.5');
arrowMarker.path('M 0 0 L 0 -5 L 2 -5 L 2 5 L 0 5 Z')
.stroke(this.shapeColor)
.fill(this.shapeColor);
break;
default:
arrowMarker.path('M 0 0 L 10 5 L 0 10 z').fill(this.shapeColor);
}
return arrowMarker;
}
/**
* Renders the arrow object as an SVG group element.
*
* @return {G} - An SVG group element.
*/
draw() {
const arrowGroup = this.shapeGroup;
const arrowPath = new Path();
const pathData = this.constructPath();
arrowPath.attr({
'd': pathData,
'stroke': this.shapeColor,
'stroke-width': this.thickness,
'style': this.dasharray,
'fill': 'none',
});
const angles = this.getTangentAngleAtEnds(arrowPath);
// If there are arrowheads, create the markers
if (this.arrowheadStart !== 'none' || this.arrowheadEnd !== 'none') {
const defs = new Defs();
// There is an arrowhead at the start
if (this.arrowheadStart !== 'none') {
const url = `${this.arrowheadStart}-${this.id}-start`;
const startMarker = this.createMarker(
this.arrowheadStart,
url,
angles.startAngleDegrees);
defs.add(startMarker);
arrowPath.attr('marker-start', `url(#${url})`);
}
// There is an arrowhead at the end
if (this.arrowheadEnd !== 'none') {
const url = `${this.arrowheadEnd}-${this.id}-end`;
const endMarker = this.createMarker(
this.arrowheadEnd,
url,
angles.endAngleDegrees);
defs.add(endMarker);
arrowPath.attr('marker-end', `url(#${url})`);
}
arrowGroup.add(defs);
}
arrowGroup.add(arrowPath);
this.drawLabel(arrowGroup);
return arrowGroup;
}
}