feat: prevent overlapping of blips

2024-02-28 16:27:28 +01:00
parent 13591b9672
commit 535c9e8a8f
5 changed files with 114 additions and 26 deletions
--- a/scripts/buildData.ts
+++ b/scripts/buildData.ts
@@ -6,9 +6,16 @@ import { markedHighlight } from "marked-highlight";
 import path from "path";

 import config from "../next.config.mjs";
+import Positioner from "./positioner";

+import { getChartConfig, getQuadrants, getRings } from "@/lib/data";
 import { Flag, Item } from "@/lib/types";

+const rings = getRings();
+const quadrants = getQuadrants();
+const { size } = getChartConfig();
+const positioner = new Positioner(size, quadrants, rings);
+
 const marked = new Marked(
  markedHighlight({
    langPrefix: "hljs language-",
@@ -72,6 +79,7 @@ async function parseDirectory(dirPath: string): Promise<Item[]> {
            flag: Flag.Default,
            tags: data.tags || [],
            revisions: [],
+            position: [0, 0],
          };
        } else {
          items[id].release = releaseDate;
@@ -146,8 +154,7 @@ function postProcessItems(items: Item[]): {

  const processedItems = items.map((item) => ({
    ...item,
-    // @todo: Maybe we should use a better random number generator to avoid overlapping of blips
-    random: [Math.sqrt(Math.random()), Math.random()] as [number, number],
+    position: positioner.getNextPosition(item.quadrant, item.ring),
    flag: getFlag(item, latestRelease),
    // only keep revision which ring or body is different
    revisions: item.revisions
--- a/scripts/positioner.ts
+++ b/scripts/positioner.ts
@@ -0,0 +1,95 @@
+import { Quadrant, Ring } from "@/lib/types";
+
+type Position = [x: number, y: number];
+type RingDimension = [innerRadius: number, outerRadius: number];
+
+// Corresponding to positions 1, 2, 3, and 4 respectively
+const startAngles = [270, 0, 180, 90];
+
+export default class Positioner {
+  private readonly centerRadius: number;
+  private readonly minDistance: number = 20;
+  private readonly paddingRing: number = 15;
+  private readonly paddingAngle: number = 10;
+  private positions: Record<string, Position[]> = {};
+  private ringDimensions: Record<string, RingDimension> = {};
+  private quadrantAngles: Record<string, number> = {};
+
+  constructor(size: number, quadrants: Quadrant[], rings: Ring[]) {
+    this.centerRadius = size / 2;
+
+    quadrants.forEach((quadrant) => {
+      this.quadrantAngles[quadrant.id] = startAngles[quadrant.position - 1];
+    });
+
+    rings.forEach((ring, index) => {
+      const innerRadius =
+        (rings[index - 1]?.radius ?? 0) * this.centerRadius + this.paddingRing;
+      const outerRadius =
+        (ring.radius ?? 1) * this.centerRadius - this.paddingRing;
+      this.ringDimensions[ring.id] = [innerRadius, outerRadius];
+    });
+  }
+
+  static getDistance(a: Position, b: Position): number {
+    const [x1, y1] = a;
+    const [x2, y2] = b;
+    return Math.sqrt((x1 - x2) ** 2 + (y1 - y2) ** 2);
+  }
+
+  private isOverlapping(position: Position, positions: Position[]): boolean {
+    return positions.some(
+      (p) => Positioner.getDistance(position, p) < this.minDistance,
+    );
+  }
+
+  private getXYPosition(
+    quadrantId: string,
+    ringId: string,
+    radiusFraction: number,
+    angleFraction: number,
+  ): Position {
+    const [innerRadius, outerRadius] = this.ringDimensions[ringId];
+    const ringWidth = outerRadius - innerRadius;
+    const absoluteRadius = innerRadius + radiusFraction * ringWidth;
+
+    const startAngle = this.quadrantAngles[quadrantId] + this.paddingAngle;
+    const endAngle = startAngle + 90 - 2 * this.paddingAngle;
+    const absoluteAngle = startAngle + (endAngle - startAngle) * angleFraction;
+    const angleInRadians = ((absoluteAngle - 90) * Math.PI) / 180;
+
+    return [
+      Math.round(this.centerRadius + absoluteRadius * Math.cos(angleInRadians)),
+      Math.round(this.centerRadius + absoluteRadius * Math.sin(angleInRadians)),
+    ];
+  }
+
+  public getNextPosition(quadrantId: string, ringId: string): Position {
+    this.positions[quadrantId] ??= [];
+
+    let tries = 0;
+    let position: Position;
+
+    do {
+      position = this.getXYPosition(
+        quadrantId,
+        ringId,
+        Math.sqrt(Math.random()),
+        Math.random(),
+      );
+      tries++;
+    } while (
+      this.isOverlapping(position, this.positions[quadrantId]) &&
+      tries < 150
+    );
+
+    if (tries >= 150) {
+      console.warn(
+        `Could not find a non-overlapping position for ${quadrantId} in ring ${ringId}`,
+      );
+    }
+
+    this.positions[quadrantId].push(position);
+    return position;
+  }
+}
--- a/src/components/Radar/Chart.tsx
+++ b/src/components/Radar/Chart.tsx
@@ -86,29 +86,8 @@ const _Chart: FC<ChartProps> = ({
    const ring = rings.find((r) => r.id === item.ring);
    const quadrant = quadrants.find((q) => q.id === item.quadrant);
    if (!ring || !quadrant) return null; // If no ring or quadrant, don't render item
+    const [x, y] = item.position;

-    const padding = 15; // Padding in pixels
-    const paddingAngle = 10; // Padding in degrees
-
-    // Random factors to determine position within the ring
-    const [randomRadius, randomAngleFactor] = item.random || [
-      Math.sqrt(Math.random()),
-      Math.random(),
-    ];
-    const innerRadius =
-      (rings[rings.indexOf(ring) - 1]?.radius || 0) + padding / center; // Add inner padding
-    const outerRadius = (ring.radius || 1) - padding / center; // Subtract outer padding
-    const ringWidth = (outerRadius - innerRadius) * center; // Width of the ring in the SVG
-
-    // Calculate the position within the ring
-    const itemRadius = innerRadius * center + randomRadius * ringWidth;
-    // Calculate the angle with padding offset, avoiding the exact edges
-    const startAngle = startAngles[quadrant.position - 1] + paddingAngle;
-    const endAngle = startAngle + 90 - 2 * paddingAngle; // Subtract padding from both sides
-    const itemAngle = startAngle + (endAngle - startAngle) * randomAngleFactor;
-
-    // Convert polar coordinates to cartesian for the item's position
-    const { x, y } = polarToCartesian(itemRadius, itemAngle);
    return (
      <Link
        key={item.id}
--- a/src/lib/types.ts
+++ b/src/lib/types.ts
@@ -24,7 +24,7 @@ export interface Item {
  tags: string[];
  release: Release;
  revisions?: Revision[];
-  random?: [radius: number, angle: number];
+  position: [x: number, y: number];
 }

 export interface Ring {
--- a/src/pages/index.tsx
+++ b/src/pages/index.tsx
@@ -5,6 +5,7 @@ import { Radar } from "@/components/Radar/Radar";
 import { Tags } from "@/components/Tags/Tags";
 import {
  getAppName,
+  getChartConfig,
  getItems,
  getQuadrants,
  getReleases,
@@ -17,6 +18,7 @@ const Home: CustomPage = () => {
  const router = useRouter();
  const tag = router.query.tag as string | undefined;
  const appName = getAppName();
+  const chartConfig = getChartConfig();
  const version = getReleases().length;
  const rings = getRings();
  const quadrants = getQuadrants();
@@ -33,7 +35,12 @@ const Home: CustomPage = () => {
          Version #{version}
        </span>
      </h1>
-      <Radar quadrants={quadrants} rings={rings} items={items} />
+      <Radar
+        size={chartConfig.size}
+        quadrants={quadrants}
+        rings={rings}
+        items={items}
+      />
      <Tags tags={tags} activeTag={tag} />
      <QuadrantList items={items} />
    </>