// UI measurers: rulers (linear, curve, area) and Scale Bar class Rulers { constructor() { this.data = []; } linear(points) { const ruler = new LinearRuler(points); this.data.push(ruler); return ruler; } toString() { const string = this.data.map(ruler => ruler.toString()).join("; "); return string; } fromString(string) { this.data = []; const rulers = string.split("; "); for (ruler of rulers) { const [type, pointsString] = ruler.split(": "); const points = pointsString.split(" ").map(el => el.split(",").map(n => +n)); if (type === "linear") this.linear(points); } } draw() { this.data.forEach(ruler => ruler.draw()); } undraw() { this.data.forEach(ruler => ruler.undraw()); } remove(id) { const ruler = this.data.find(ruler => ruler.id === id); ruler.undraw(); const rulerIndex = this.data.indexOf(ruler); rulers.data.splice(rulerIndex, 1); } } class LinearRuler { constructor(points) { this.points = points; this.id = rulers.data.length; } toString() { return "linear" + ": " + this.points.join(" "); } getPointsString() { return this.points.join(" "); } updatePoint(index, x, y) { this.points[index] = [x, y]; } getPointId(x, y) { return this.points.findIndex(el => el[0] == x && el[1] == y); } addPoint(i) { const [x, y] = this.points[i]; i ? this.points.push([x, y]) : this.points.unshift([x, y]); } draw() { if (this.el) this.el.selectAll("*").remove(); const points = this.getPointsString(); const size = rn(1 / scale ** .3 * 2, 2); const dash = rn(30 / distanceScaleInput.value, 2); const el = this.el = ruler.append("g").attr("class", "ruler").call(d3.drag().on("start", this.drag)).attr("font-size", 10 * size) el.append("polyline").attr("points", points).attr("class", "white").attr("stroke-width", size) .call(d3.drag().on("start", () => this.addControl(this))); el.append("polyline").attr("points", points).attr("class", "gray").attr("stroke-width", rn(size * 1.2, 2)).attr("stroke-dasharray", dash); el.append("g").attr("class", "rulerPoints").attr("stroke-width", .5 * size).attr("font-size", 2 * size); el.append("text").attr("dx", ".35em").attr("dy", "-.45em").on("click", () => rulers.remove(this.id)); this.drawPoints(el); this.updateLabel(); } drawPoints(el) { const g = el.select(".rulerPoints"); g.selectAll("circle").remove(); for (let i=0; i < this.points.length; i++) { const [x, y] = this.points[i]; this.drawPoint(g, x, y, i); } } drawPoint(el, x, y, i) { const context = this; const circle = el.append("circle") .attr("r", "1em").attr("cx", x).attr("cy", y) .on("click", function() {context.removePoint(context, i)}) .call(d3.drag().clickDistance(3).on("start", function() {context.dragControl(context, i)})); if (!this.isEdge(i)) circle.attr("class", "control"); } isEdge(i) { return i === 0 || i === this.points.length-1; } updateLabel() { const length = this.getLength(); const text = rn(length * distanceScaleInput.value) + " " + distanceUnitInput.value; const [x, y] = last(this.points); this.el.select("text").attr("x", x).attr("y", y).text(text); } getLength() { let length = 0; for (let i=0; i < this.points.length - 1; i++) { const [x1, y1] = this.points[i]; const [x2, y2] = this.points[i+1]; length += Math.hypot(x1 - x2, y1 - y2); } return length; } drag() { const tr = parseTransform(this.getAttribute("transform")); const x = +tr[0] - d3.event.x, y = +tr[1] - d3.event.y; d3.event.on("drag", function() { const transform = `translate(${(x + d3.event.x)},${(y + d3.event.y)})`; this.setAttribute("transform", transform); }); } dragControl(context, pointId) { let edge = context.isEdge(pointId) let circle = context.el.select(`circle:nth-child(${pointId+1})`); const line = context.el.selectAll("polyline"); d3.event.on("drag", function() { if (edge) { if (d3.event.dx < .1 && d3.event.dy < .1) return; context.addPoint(pointId); context.drawPoints(context.el); if (pointId) pointId++; circle = context.el.select(`circle:nth-child(${pointId+1})`); edge = false; } const x = rn(d3.event.x, 1); const y = rn(d3.event.y, 1); context.updatePoint(pointId, x, y); line.attr("points", context.getPointsString()); circle.attr("cx", x).attr("cy", y); context.updateLabel(); }); } addControl(context) { const x = rn(d3.event.x, 1); const y = rn(d3.event.y, 1); const pointId = getSegmentId(context.points, [x, y]); context.points.splice(pointId, 0, [x, y]); context.drawPoints(context.el); context.dragControl(context, pointId); } removePoint(context, pointId) { this.points.splice(pointId, 1); if (this.points.length < 2) context.el.remove(); else context.draw(); } undraw() { this.el.remove(); } } function drawOpisometer() { lineGen.curve(d3.curveBasis); const size = rn(1 / scale ** .3 * 2, 1); const dash = rn(30 / distanceScaleInput.value, 2); const p0 = d3.mouse(this); const points = [[p0[0], p0[1]]]; let length = 0; const rulerNew = ruler.append("g").attr("class", "opisometer").call(d3.drag().on("start", dragRuler)); const curve = rulerNew.append("path").attr("class", "white").attr("stroke-width", size); const curveGray = rulerNew.append("path").attr("class", "gray").attr("stroke-width", size).attr("stroke-dasharray", dash); const text = rulerNew.append("text").attr("dy", "-.3em").attr("font-size", 10 * size).on("click", removeParent); const start = rulerNew.append("circle").attr("r", 2 * size).attr("stroke-width", .5 * size).attr("data-edge", "start").call(d3.drag().on("start", dragOpisometerEnd)); const end = rulerNew.append("circle").attr("r", 2 * size).attr("stroke-width", .5 * size).attr("data-edge", "end").call(d3.drag().on("start", dragOpisometerEnd)); d3.event.on("drag", function() { const p = d3.mouse(this); const diff = Math.hypot(last(points)[0] - p[0], last(points)[1] - p[1]); if (diff > 3) points.push([p[0], p[1]]); else return; const path = round(lineGen(points)); curve.attr("d", path); curveGray.attr("d", path); length = curve.node().getTotalLength(); const label = rn(length * distanceScaleInput.value) + " " + distanceUnitInput.value; text.attr("x", p[0]).attr("y", p[1]).text(label); }); d3.event.on("end", function() { restoreDefaultEvents(); clearMainTip(); addOpisometer.classList.remove("pressed"); const c = curve.node().getPointAtLength(length / 2); const p = curve.node().getPointAtLength(length / 2 - 1); const atan = p.x > c.x ? Math.atan2(p.y - c.y, p.x - c.x) : Math.atan2(c.y - p.y, c.x - p.x); const angle = rn(atan * 180 / Math.PI, 3); const rotate = `rotate(${angle} ${c.x} ${c.y})`; rulerNew.attr("data-points", JSON.stringify(points)); text.attr("x", c.x).attr("y", c.y).attr("transform", rotate); start.attr("cx", points[0][0]).attr("cy", points[0][1]); end.attr("cx", last(points)[0]).attr("cy", last(points)[1]); }); } function dragOpisometerEnd() { const ruler = d3.select(this.parentNode); const curve = ruler.select(".white"); const curveGray = ruler.select(".gray"); const text = ruler.select("text"); const points = JSON.parse(ruler.attr("data-points")); const x0 = +this.getAttribute("cx"), y0 = +this.getAttribute("cy"); if (x0 === points[0][0] && y0 === points[0][1]) points.reverse(); lineGen.curve(d3.curveBasis); let length = 0; d3.event.on("drag", function() { const p = d3.mouse(this); d3.select(this).attr("cx", p[0]).attr("cy", p[1]); const diff = Math.hypot(last(points)[0] - p[0], last(points)[1] - p[1]); if (diff > 3) points.push([p[0], p[1]]); else return; const path = round(lineGen(points)); curve.attr("d", path); curveGray.attr("d", path); length = curve.node().getTotalLength(); const label = rn(length * distanceScaleInput.value) + " " + distanceUnitInput.value; text.text(label); }); d3.event.on("end", function() { const c = curve.node().getPointAtLength(length / 2); const p = curve.node().getPointAtLength(length / 2 - 1); const atan = p.x > c.x ? Math.atan2(p.y - c.y, p.x - c.x) : Math.atan2(c.y - p.y, c.x - p.x); const angle = rn(atan * 180 / Math.PI, 3); const rotate = `rotate(${angle} ${c.x} ${c.y})`; ruler.attr("data-points", JSON.stringify(points)); text.attr("x", c.x).attr("y", c.y).attr("transform", rotate); }); } function drawPlanimeter() { lineGen.curve(d3.curveBasisClosed); const size = rn(1 / scale ** .3 * 2, 1); const p0 = d3.mouse(this); const points = [[p0[0], p0[1]]]; const rulerNew = ruler.append("g").attr("class", "planimeter").call(d3.drag().on("start", dragRuler)); const curve = rulerNew.append("path").attr("class", "planimeter").attr("stroke-width", size); const text = rulerNew.append("text").attr("font-size", 10 * size).on("click", removeParent); d3.event.on("drag", function() { const p = d3.mouse(this); const diff = Math.hypot(last(points)[0] - p[0], last(points)[1] - p[1]); if (diff > 5) points.push([p[0], p[1]]); else return; curve.attr("d", round(lineGen(points))); }); d3.event.on("end", function() { restoreDefaultEvents(); clearMainTip(); addPlanimeter.classList.remove("pressed"); const polygonArea = rn(Math.abs(d3.polygonArea(points))); const unit = areaUnit.value === "square" ? " " + distanceUnitInput.value + "²" : " " + areaUnit.value; const area = si(polygonArea * distanceScaleInput.value ** 2) + " " + unit; const c = polylabel([points], 1.0); // pole of inaccessibility text.attr("x", c[0]).attr("y", c[1]).text(area); }); } // draw scale bar function drawScaleBar() { if (scaleBar.style("display") === "none") return; // no need to re-draw hidden element scaleBar.selectAll("*").remove(); // fully redraw every time const dScale = distanceScaleInput.value; const unit = distanceUnitInput.value; // calculate size const init = 100; // actual length in pixels if scale, dScale and size = 1; const size = +barSize.value; let val = init * size * dScale / scale; // bar length in distance unit if (val > 900) val = rn(val, -3); // round to 1000 else if (val > 90) val = rn(val, -2); // round to 100 else if (val > 9) val = rn(val, -1); // round to 10 else val = rn(val) // round to 1 const l = val * scale / dScale; // actual length in pixels on this scale scaleBar.append("line").attr("x1", 0.5).attr("y1", 0).attr("x2", l+size-0.5).attr("y2", 0).attr("stroke-width", size).attr("stroke", "white"); scaleBar.append("line").attr("x1", 0).attr("y1", size).attr("x2", l+size).attr("y2", size).attr("stroke-width", size).attr("stroke", "#3d3d3d"); const dash = size + " " + rn(l / 5 - size, 2); scaleBar.append("line").attr("x1", 0).attr("y1", 0).attr("x2", l+size).attr("y2", 0) .attr("stroke-width", rn(size * 3, 2)).attr("stroke-dasharray", dash).attr("stroke", "#3d3d3d"); const fontSize = rn(5 * size, 1); scaleBar.selectAll("text").data(d3.range(0,6)).enter().append("text") .attr("x", d => rn(d * l/5, 2)).attr("y", 0).attr("dy", "-.5em") .attr("font-size", fontSize).text(d => rn(d * l/5 * dScale / scale) + (d<5 ? "" : " " + unit)); if (barLabel.value !== "") { scaleBar.append("text").attr("x", (l+1) / 2).attr("y", 2 * size) .attr("dominant-baseline", "text-before-edge") .attr("font-size", fontSize).text(barLabel.value); } const bbox = scaleBar.node().getBBox(); // append backbround rectangle scaleBar.insert("rect", ":first-child").attr("x", -10).attr("y", -20).attr("width", bbox.width + 10).attr("height", bbox.height + 15) .attr("stroke-width", size).attr("stroke", "none").attr("filter", "url(#blur5)") .attr("fill", barBackColor.value).attr("opacity", +barBackOpacity.value); fitScaleBar(); } // fit ScaleBar to canvas size function fitScaleBar() { if (!scaleBar.select("rect").size() || scaleBar.style("display") === "none") return; const px = isNaN(+barPosX.value) ? .99 : barPosX.value / 100; const py = isNaN(+barPosY.value) ? .99 : barPosY.value / 100; const bbox = scaleBar.select("rect").node().getBBox(); const x = rn(svgWidth * px - bbox.width + 10), y = rn(svgHeight * py - bbox.height + 20); scaleBar.attr("transform", `translate(${x},${y})`); }