TS, Prettier, Eslint (#39)

* TS, Prettier, Eslint

* Used rough ts definitions

package.json

@@ -7,11 +7,16 @@
   "dependencies": {
     "react": "16.12.0",
     "react-dom": "16.12.0",
-    "react-scripts": "3.0.1",
+    "react-scripts": "3.3.0",
     "roughjs": "3.1.0"
   },
   "devDependencies": {
-    "typescript": "3.3.3"
+    "@types/react": "16.9.17",
+    "@types/react-dom": "16.9.4",
+    "husky": "3.1.0",
+    "lint-staged": "9.5.0",
+    "prettier": "1.19.1",
+    "typescript": "3.7.4"
   },
   "scripts": {
     "start": "react-scripts start",
@@ -24,5 +29,22 @@
     "not dead",
     "not ie <= 11",
     "not op_mini all"
-  ]
-}
+  ],
+  "eslintConfig": {
+    "extends": "react-app"
+  },
+  "husky": {
+    "hooks": {
+      "pre-commit": "lint-staged"
+    }
+  },
+  "lint-staged": {
+    "*.{js,css,json,md,ts,tsx}": [
+      "prettier --write",
+      "git add"
+    ],
+    "*.{js,ts,tsx}": [
+      "eslint"
+    ]
+  }
+}

src/index.js

@@ -1,529 +0,0 @@
-import React from "react";
-import ReactDOM from "react-dom";
-import rough from "roughjs/dist/rough.umd.js";
-
-import "./styles.css";
-
-var elements = [];
-
-function isInsideAnElement(x, y) {
-  return (element) => {
-    const x1 = getElementAbsoluteX1(element)
-    const x2 = getElementAbsoluteX2(element)
-    const y1 = getElementAbsoluteY1(element)
-    const y2 = getElementAbsoluteY2(element)
-
-    return (x >= x1 && x <= x2) && (y >= y1 && y <= y2)
-  }
-}
-
-function newElement(type, x, y, width = 0, height = 0) {
-  const element = {
-    type: type,
-    x: x,
-    y: y,
-    width: width,
-    height: height,
-    isSelected: false
-  };
-  return element;
-}
-
-function exportAsPNG({
-  exportBackground,
-  exportVisibleOnly,
-  exportPadding = 10
-}) {
-  if ( !elements.length ) return window.alert("Cannot export empty canvas.");
-
-  // deselect & rerender
-
-  clearSelection();
-  drawScene();
-
-  // calculate visible-area coords
-
-  let subCanvasX1 = Infinity;
-  let subCanvasX2 = 0;
-  let subCanvasY1 = Infinity;
-  let subCanvasY2 = 0;
-
-  elements.forEach(element => {
-    subCanvasX1 = Math.min(subCanvasX1, getElementAbsoluteX1(element));
-    subCanvasX2 = Math.max(subCanvasX2, getElementAbsoluteX2(element));
-    subCanvasY1 = Math.min(subCanvasY1, getElementAbsoluteY1(element));
-    subCanvasY2 = Math.max(subCanvasY2, getElementAbsoluteY2(element));
-  });
-
-  // create temporary canvas from which we'll export
-
-  const tempCanvas = document.createElement("canvas");
-  const tempCanvasCtx = tempCanvas.getContext("2d");
-  tempCanvas.style.display = "none";
-  document.body.appendChild(tempCanvas);
-  tempCanvas.width = exportVisibleOnly
-    ? subCanvasX2 - subCanvasX1 + exportPadding * 2
-    : canvas.width;
-  tempCanvas.height = exportVisibleOnly
-    ? subCanvasY2 - subCanvasY1 + exportPadding * 2
-    : canvas.height;
-
-  if (exportBackground) {
-    tempCanvasCtx.fillStyle = "#FFF";
-    tempCanvasCtx.fillRect(0, 0, canvas.width, canvas.height);
-  }
-
-  // copy our original canvas onto the temp canvas
-  tempCanvasCtx.drawImage(
-    canvas, // source
-    exportVisibleOnly // sx
-      ? subCanvasX1 - exportPadding
-      : 0,
-    exportVisibleOnly // sy
-      ? subCanvasY1 - exportPadding
-      : 0,
-    exportVisibleOnly // sWidth
-      ? subCanvasX2 - subCanvasX1 + exportPadding * 2
-      : canvas.width,
-    exportVisibleOnly // sHeight
-      ? subCanvasY2 - subCanvasY1 + exportPadding * 2
-      : canvas.height,
-    0, // dx
-    0, // dy
-    exportVisibleOnly ? tempCanvas.width : canvas.width, // dWidth
-    exportVisibleOnly ? tempCanvas.height : canvas.height // dHeight
-  );
-
-  // create a temporary <a> elem which we'll use to download the image
-  const link = document.createElement("a");
-  link.setAttribute("download", "excalibur.png");
-  link.setAttribute("href", tempCanvas.toDataURL("image/png"));
-  link.click();
-
-  // clean up the DOM
-  link.remove();
-  if (tempCanvas !== canvas) tempCanvas.remove();
-}
-
-function rotate(x1, y1, x2, y2, angle) {
-  // 𝑎′𝑥=(𝑎𝑥−𝑐𝑥)cos𝜃−(𝑎𝑦−𝑐𝑦)sin𝜃+𝑐𝑥
-  // 𝑎′𝑦=(𝑎𝑥−𝑐𝑥)sin𝜃+(𝑎𝑦−𝑐𝑦)cos𝜃+𝑐𝑦.
-  // https://math.stackexchange.com/questions/2204520/how-do-i-rotate-a-line-segment-in-a-specific-point-on-the-line
-  return [
-    (x1 - x2) * Math.cos(angle) - (y1 - y2) * Math.sin(angle) + x2,
-    (x1 - x2) * Math.sin(angle) + (y1 - y2) * Math.cos(angle) + y2
-  ];
-}
-
-var generator = rough.generator();
-
-function generateDraw(element) {
-  if (element.type === "selection") {
-    element.draw = (rc, context) => {
-      const fillStyle = context.fillStyle;
-      context.fillStyle = "rgba(0, 0, 255, 0.10)";
-      context.fillRect(element.x, element.y, element.width, element.height);
-      context.fillStyle = fillStyle;
-    };
-  } else if (element.type === "rectangle") {
-    const shape = generator.rectangle(0, 0, element.width, element.height);
-    element.draw = (rc, context) => {
-      context.translate(element.x, element.y);
-      rc.draw(shape);
-      context.translate(-element.x, -element.y);
-    };
-  } else if (element.type === "ellipse") {
-    const shape = generator.ellipse(
-      element.width / 2,
-      element.height / 2,
-      element.width,
-      element.height
-    );
-    element.draw = (rc, context) => {
-      context.translate(element.x, element.y);
-      rc.draw(shape);
-      context.translate(-element.x, -element.y);
-    };
-  } else if (element.type === "arrow") {
-    const x1 = 0;
-    const y1 = 0;
-    const x2 = element.width;
-    const y2 = element.height;
-
-    const size = 30; // pixels
-    const distance = Math.sqrt(Math.pow(x2 - x1, 2) + Math.pow(y2 - y1, 2));
-    // Scale down the arrow until we hit a certain size so that it doesn't look weird
-    const minSize = Math.min(size, distance / 2);
-    const xs = x2 - ((x2 - x1) / distance) * minSize;
-    const ys = y2 - ((y2 - y1) / distance) * minSize;
-
-    const angle = 20; // degrees
-    const [x3, y3] = rotate(xs, ys, x2, y2, (-angle * Math.PI) / 180);
-    const [x4, y4] = rotate(xs, ys, x2, y2, (angle * Math.PI) / 180);
-
-    const shapes = [
-      //    \
-      generator.line(x3, y3, x2, y2),
-      // -----
-      generator.line(x1, y1, x2, y2),
-      //    /
-      generator.line(x4, y4, x2, y2)
-    ];
-
-    element.draw = (rc, context) => {
-      context.translate(element.x, element.y);
-      shapes.forEach(shape => rc.draw(shape));
-      context.translate(-element.x, -element.y);
-    };
-    return;
-  } else if (element.type === "text") {
-    element.draw = (rc, context) => {
-      const font = context.font;
-      context.font = element.font;
-      context.fillText(
-        element.text,
-        element.x,
-        element.y + element.measure.actualBoundingBoxAscent
-      );
-      context.font = font;
-    };
-  } else {
-    throw new Error("Unimplemented type " + element.type);
-  }
-}
-
-// If the element is created from right to left, the width is going to be negative
-// This set of functions retrieves the absolute position of the 4 points.
-// We can't just always normalize it since we need to remember the fact that an arrow
-// is pointing left or right.
-function getElementAbsoluteX1(element) {
-  return element.width >= 0 ? element.x : element.x + element.width;
-}
-function getElementAbsoluteX2(element) {
-  return element.width >= 0 ? element.x + element.width : element.x;
-}
-function getElementAbsoluteY1(element) {
-  return element.height >= 0 ? element.y : element.y + element.height;
-}
-function getElementAbsoluteY2(element) {
-  return element.height >= 0 ? element.y + element.height : element.y;
-}
-
-function setSelection(selection) {
-  const selectionX1 = getElementAbsoluteX1(selection);
-  const selectionX2 = getElementAbsoluteX2(selection);
-  const selectionY1 = getElementAbsoluteY1(selection);
-  const selectionY2 = getElementAbsoluteY2(selection);
-  elements.forEach(element => {
-    const elementX1 = getElementAbsoluteX1(element);
-    const elementX2 = getElementAbsoluteX2(element);
-    const elementY1 = getElementAbsoluteY1(element);
-    const elementY2 = getElementAbsoluteY2(element);
-    element.isSelected =
-      element.type !== "selection" &&
-      selectionX1 <= elementX1 &&
-      selectionY1 <= elementY1 &&
-      selectionX2 >= elementX2 &&
-      selectionY2 >= elementY2;
-  });
-}
-
-function clearSelection() {
-  elements.forEach(element => {
-    element.isSelected = false;
-  });
-}
-
-class App extends React.Component {
-  componentDidMount() {
-    this.onKeyDown = event => {
-      if (event.key === "Backspace" && event.target.nodeName !== "INPUT") {
-        for (var i = elements.length - 1; i >= 0; --i) {
-          if (elements[i].isSelected) {
-            elements.splice(i, 1);
-          }
-        }
-        drawScene();
-        event.preventDefault();
-      } else if (
-        event.key === "ArrowLeft" ||
-        event.key === "ArrowRight" ||
-        event.key === "ArrowUp" ||
-        event.key === "ArrowDown"
-      ) {
-        const step = event.shiftKey ? 5 : 1;
-        elements.forEach(element => {
-          if (element.isSelected) {
-            if (event.key === "ArrowLeft") element.x -= step;
-            else if (event.key === "ArrowRight") element.x += step;
-            else if (event.key === "ArrowUp") element.y -= step;
-            else if (event.key === "ArrowDown") element.y += step;
-          }
-        });
-        drawScene();
-        event.preventDefault();
-      }
-    };
-    document.addEventListener("keydown", this.onKeyDown, false);
-  }
-
-  componentWillUnmount() {
-    document.removeEventListener("keydown", this.onKeyDown, false);
-  }
-
-  constructor() {
-    super();
-    this.state = {
-      draggingElement: null,
-      elementType: "selection",
-      exportBackground: false,
-      exportVisibleOnly: true,
-      exportPadding: 10
-    };
-  }
-
-  render() {
-    const ElementOption = ({ type, children }) => {
-      return (
-        <label>
-          <input
-            type="radio"
-            checked={this.state.elementType === type}
-            onChange={() => {
-              this.setState({ elementType: type });
-              clearSelection();
-              drawScene();
-            }}
-          />
-          {children}
-        </label>
-      );
-    };
-
-    return <>
-      <div className="exportWrapper">
-        <button onClick={() => {
-          exportAsPNG({
-            exportBackground: this.state.exportBackground,
-            exportVisibleOnly: this.state.exportVisibleOnly,
-            exportPadding: this.state.exportPadding
-          })
-        }}>Export to png</button>
-        <label>
-          <input type="checkbox"
-            checked={this.state.exportBackground}
-            onChange={e => {
-              this.setState({ exportBackground: e.target.checked })
-            }}
-          /> background
-        </label>
-        <label>
-          <input type="checkbox"
-            checked={this.state.exportVisibleOnly}
-            onChange={e => {
-              this.setState({ exportVisibleOnly: e.target.checked })
-            }}
-          />
-          visible area only
-        </label>
-        (padding:
-          <input type="number" value={this.state.exportPadding}
-            onChange={e => {
-              this.setState({ exportPadding: e.target.value });
-            }}
-            disabled={!this.state.exportVisibleOnly}/>
-        px)
-      </div>
-      <div>
-        {/* Can't use the <ElementOption> form because ElementOption is re-defined
-          on every render, which would blow up and re-create the entire DOM tree,
-          which in addition to being inneficient, messes up with browser text
-          selection */}
-        {ElementOption({ type: "rectangle", children: "Rectangle" })}
-        {ElementOption({ type: "ellipse", children: "Ellipse" })}
-        {ElementOption({ type: "arrow", children: "Arrow" })}
-        {ElementOption({ type: "text", children: "Text" })}
-        {ElementOption({ type: "selection", children: "Selection" })}
-        <canvas
-          id="canvas"
-          width={window.innerWidth}
-          height={window.innerHeight}
-          onMouseDown={e => {
-            const x = e.clientX - e.target.offsetLeft;
-            const y = e.clientY - e.target.offsetTop;
-            const element = newElement(this.state.elementType, x, y);
-            let isDraggingElements = false;
-            const cursorStyle = document.documentElement.style.cursor;
-            if (this.state.elementType === "selection") {
-              const selectedElement = elements.find(element => {
-                const isSelected = isInsideAnElement(x, y)(element)
-                if (isSelected) {
-                  element.isSelected = true
-                }
-                return isSelected
-              })
-
-              if (selectedElement) {
-                this.setState({ draggingElement: selectedElement });
-              } else {
-                clearSelection()
-              }
-
-              isDraggingElements = elements.some(element => element.isSelected);
-
-              if (isDraggingElements) {
-                document.documentElement.style.cursor = "move";
-              }
-            }
-
-            if (this.state.elementType === "text") {
-              const text = prompt("What text do you want?");
-              if (text === null) {
-                return;
-              }
-              element.text = text;
-              element.font = "20px Virgil";
-              const font = context.font;
-              context.font = element.font;
-              element.measure = context.measureText(element.text);
-              context.font = font;
-              const height =
-                element.measure.actualBoundingBoxAscent +
-                element.measure.actualBoundingBoxDescent;
-              // Center the text
-              element.x -= element.measure.width / 2;
-              element.y -= element.measure.actualBoundingBoxAscent;
-              element.width = element.measure.width;
-              element.height = height;
-            }
-
-            generateDraw(element);
-            elements.push(element);
-            if (this.state.elementType === "text") {
-              this.setState({
-                draggingElement: null,
-                elementType: "selection"
-              });
-              element.isSelected = true;
-            } else {
-              this.setState({ draggingElement: element });
-            }
-
-            let lastX = x;
-            let lastY = y;
-
-            const onMouseMove = e => {
-              if (isDraggingElements) {
-                const selectedElements = elements.filter(el => el.isSelected);
-                if (selectedElements.length) {
-                  const x = e.clientX - e.target.offsetLeft;
-                  const y = e.clientY - e.target.offsetTop;
-                  selectedElements.forEach(element => {
-                    element.x += x - lastX;
-                    element.y += y - lastY;
-                  });
-                  lastX = x;
-                  lastY = y;
-                  drawScene();
-                  return;
-                }
-              }
-
-              // It is very important to read this.state within each move event,
-              // otherwise we would read a stale one!
-              const draggingElement = this.state.draggingElement;
-              if (!draggingElement) return;
-              let width = e.clientX - e.target.offsetLeft - draggingElement.x;
-              let height = e.clientY - e.target.offsetTop - draggingElement.y;
-              draggingElement.width = width;
-              // Make a perfect square or circle when shift is enabled
-              draggingElement.height = e.shiftKey ? width : height;
-
-              generateDraw(draggingElement);
-
-              if (this.state.elementType === "selection") {
-                setSelection(draggingElement);
-              }
-              drawScene();
-            };
-
-            const onMouseUp = e => {
-              const { draggingElement, elementType } = this.state
-
-              window.removeEventListener("mousemove", onMouseMove);
-              window.removeEventListener("mouseup", onMouseUp);
-
-              document.documentElement.style.cursor = cursorStyle;
-
-              // if no element is clicked, clear the selection and redraw
-              if (draggingElement === null ) {
-                clearSelection()
-                drawScene();
-                return
-              }
-
-              if (elementType === "selection") {
-                if (isDraggingElements) {
-                  isDraggingElements = false;
-                }
-                elements.pop()
-              } else {
-                draggingElement.isSelected = true;
-              }
-
-              this.setState({
-                draggingElement: null,
-                elementType: "selection"
-              });
-              drawScene();
-            };
-
-            window.addEventListener("mousemove", onMouseMove);
-            window.addEventListener("mouseup", onMouseUp);
-
-            drawScene();
-          }}
-        />
-      </div>
-    </>;
-  }
-}
-
-const rootElement = document.getElementById("root");
-ReactDOM.render(<App />, rootElement);
-const canvas = document.getElementById("canvas");
-const rc = rough.canvas(canvas);
-const context = canvas.getContext("2d");
-
-// Big hack to ensure that all the 1px lines are drawn at 1px instead of 2px
-// https://stackoverflow.com/questions/13879322/drawing-a-1px-thick-line-in-canvas-creates-a-2px-thick-line/13879402#comment90766599_13879402
-context.translate(0.5, 0.5);
-
-function drawScene() {
-  ReactDOM.render(<App />, rootElement);
-
-  context.clearRect(-0.5, -0.5, canvas.width, canvas.height);
-
-  elements.forEach(element => {
-    element.draw(rc, context);
-    if (element.isSelected) {
-      const margin = 4;
-
-      const elementX1 = getElementAbsoluteX1(element);
-      const elementX2 = getElementAbsoluteX2(element);
-      const elementY1 = getElementAbsoluteY1(element);
-      const elementY2 = getElementAbsoluteY2(element);
-      const lineDash = context.getLineDash();
-      context.setLineDash([8, 4]);
-      context.strokeRect(
-        elementX1 - margin,
-        elementY1 - margin,
-        elementX2 - elementX1 + margin * 2,
-        elementY2 - elementY1 + margin * 2
-      );
-      context.setLineDash(lineDash);
-    }
-  });
-}
-
-drawScene();

src/index.tsx

@@ -0,0 +1,581 @@
+import React from "react";
+import ReactDOM from "react-dom";
+import rough from "roughjs/bin/wrappers/rough";
+import { RoughCanvas } from "roughjs/bin/canvas";
+
+import "./styles.css";
+
+type ExcaliburElement = ReturnType<typeof newElement>;
+type ExcaliburTextElement = ExcaliburElement & {
+  type: "text";
+  font: string;
+  text: string;
+  measure: TextMetrics;
+};
+
+var elements = Array.of<ExcaliburElement>();
+
+function isInsideAnElement(x: number, y: number) {
+  return (element: ExcaliburElement) => {
+    const x1 = getElementAbsoluteX1(element);
+    const x2 = getElementAbsoluteX2(element);
+    const y1 = getElementAbsoluteY1(element);
+    const y2 = getElementAbsoluteY2(element);
+
+    return x >= x1 && x <= x2 && y >= y1 && y <= y2;
+  };
+}
+
+function newElement(type: string, x: number, y: number, width = 0, height = 0) {
+  const element = {
+    type: type,
+    x: x,
+    y: y,
+    width: width,
+    height: height,
+    isSelected: false,
+    draw(rc: RoughCanvas, context: CanvasRenderingContext2D) {}
+  };
+  return element;
+}
+
+function exportAsPNG({
+  exportBackground,
+  exportVisibleOnly,
+  exportPadding = 10
+}: {
+  exportBackground: boolean;
+  exportVisibleOnly: boolean;
+  exportPadding?: number;
+}) {
+  if (!elements.length) return window.alert("Cannot export empty canvas.");
+
+  // deselect & rerender
+
+  clearSelection();
+  drawScene();
+
+  // calculate visible-area coords
+
+  let subCanvasX1 = Infinity;
+  let subCanvasX2 = 0;
+  let subCanvasY1 = Infinity;
+  let subCanvasY2 = 0;
+
+  elements.forEach(element => {
+    subCanvasX1 = Math.min(subCanvasX1, getElementAbsoluteX1(element));
+    subCanvasX2 = Math.max(subCanvasX2, getElementAbsoluteX2(element));
+    subCanvasY1 = Math.min(subCanvasY1, getElementAbsoluteY1(element));
+    subCanvasY2 = Math.max(subCanvasY2, getElementAbsoluteY2(element));
+  });
+
+  // create temporary canvas from which we'll export
+
+  const tempCanvas = document.createElement("canvas");
+  const tempCanvasCtx = tempCanvas.getContext("2d")!;
+  tempCanvas.style.display = "none";
+  document.body.appendChild(tempCanvas);
+  tempCanvas.width = exportVisibleOnly
+    ? subCanvasX2 - subCanvasX1 + exportPadding * 2
+    : canvas.width;
+  tempCanvas.height = exportVisibleOnly
+    ? subCanvasY2 - subCanvasY1 + exportPadding * 2
+    : canvas.height;
+
+  if (exportBackground) {
+    tempCanvasCtx.fillStyle = "#FFF";
+    tempCanvasCtx.fillRect(0, 0, canvas.width, canvas.height);
+  }
+
+  // copy our original canvas onto the temp canvas
+  tempCanvasCtx.drawImage(
+    canvas, // source
+    exportVisibleOnly // sx
+      ? subCanvasX1 - exportPadding
+      : 0,
+    exportVisibleOnly // sy
+      ? subCanvasY1 - exportPadding
+      : 0,
+    exportVisibleOnly // sWidth
+      ? subCanvasX2 - subCanvasX1 + exportPadding * 2
+      : canvas.width,
+    exportVisibleOnly // sHeight
+      ? subCanvasY2 - subCanvasY1 + exportPadding * 2
+      : canvas.height,
+    0, // dx
+    0, // dy
+    exportVisibleOnly ? tempCanvas.width : canvas.width, // dWidth
+    exportVisibleOnly ? tempCanvas.height : canvas.height // dHeight
+  );
+
+  // create a temporary <a> elem which we'll use to download the image
+  const link = document.createElement("a");
+  link.setAttribute("download", "excalibur.png");
+  link.setAttribute("href", tempCanvas.toDataURL("image/png"));
+  link.click();
+
+  // clean up the DOM
+  link.remove();
+  if (tempCanvas !== canvas) tempCanvas.remove();
+}
+
+function rotate(x1: number, y1: number, x2: number, y2: number, angle: number) {
+  // 𝑎′𝑥=(𝑎𝑥−𝑐𝑥)cos𝜃−(𝑎𝑦−𝑐𝑦)sin𝜃+𝑐𝑥
+  // 𝑎′𝑦=(𝑎𝑥−𝑐𝑥)sin𝜃+(𝑎𝑦−𝑐𝑦)cos𝜃+𝑐𝑦.
+  // https://math.stackexchange.com/questions/2204520/how-do-i-rotate-a-line-segment-in-a-specific-point-on-the-line
+  return [
+    (x1 - x2) * Math.cos(angle) - (y1 - y2) * Math.sin(angle) + x2,
+    (x1 - x2) * Math.sin(angle) + (y1 - y2) * Math.cos(angle) + y2
+  ];
+}
+
+// Casting second argument (DrawingSurface) to any,
+// because it is requred by TS definitions and not required at runtime
+var generator = rough.generator(null, null as any);
+
+function isTextElement(
+  element: ExcaliburElement
+): element is ExcaliburTextElement {
+  return element.type === "text";
+}
+
+function generateDraw(element: ExcaliburElement) {
+  if (element.type === "selection") {
+    element.draw = (rc, context) => {
+      const fillStyle = context.fillStyle;
+      context.fillStyle = "rgba(0, 0, 255, 0.10)";
+      context.fillRect(element.x, element.y, element.width, element.height);
+      context.fillStyle = fillStyle;
+    };
+  } else if (element.type === "rectangle") {
+    const shape = generator.rectangle(0, 0, element.width, element.height);
+    element.draw = (rc, context) => {
+      context.translate(element.x, element.y);
+      rc.draw(shape);
+      context.translate(-element.x, -element.y);
+    };
+  } else if (element.type === "ellipse") {
+    const shape = generator.ellipse(
+      element.width / 2,
+      element.height / 2,
+      element.width,
+      element.height
+    );
+    element.draw = (rc, context) => {
+      context.translate(element.x, element.y);
+      rc.draw(shape);
+      context.translate(-element.x, -element.y);
+    };
+  } else if (element.type === "arrow") {
+    const x1 = 0;
+    const y1 = 0;
+    const x2 = element.width;
+    const y2 = element.height;
+
+    const size = 30; // pixels
+    const distance = Math.sqrt(Math.pow(x2 - x1, 2) + Math.pow(y2 - y1, 2));
+    // Scale down the arrow until we hit a certain size so that it doesn't look weird
+    const minSize = Math.min(size, distance / 2);
+    const xs = x2 - ((x2 - x1) / distance) * minSize;
+    const ys = y2 - ((y2 - y1) / distance) * minSize;
+
+    const angle = 20; // degrees
+    const [x3, y3] = rotate(xs, ys, x2, y2, (-angle * Math.PI) / 180);
+    const [x4, y4] = rotate(xs, ys, x2, y2, (angle * Math.PI) / 180);
+
+    const shapes = [
+      //    \
+      generator.line(x3, y3, x2, y2),
+      // -----
+      generator.line(x1, y1, x2, y2),
+      //    /
+      generator.line(x4, y4, x2, y2)
+    ];
+
+    element.draw = (rc, context) => {
+      context.translate(element.x, element.y);
+      shapes.forEach(shape => rc.draw(shape));
+      context.translate(-element.x, -element.y);
+    };
+    return;
+  } else if (isTextElement(element)) {
+    element.draw = (rc, context) => {
+      const font = context.font;
+      context.font = element.font;
+      context.fillText(
+        element.text,
+        element.x,
+        element.y + element.measure.actualBoundingBoxAscent
+      );
+      context.font = font;
+    };
+  } else {
+    throw new Error("Unimplemented type " + element.type);
+  }
+}
+
+// If the element is created from right to left, the width is going to be negative
+// This set of functions retrieves the absolute position of the 4 points.
+// We can't just always normalize it since we need to remember the fact that an arrow
+// is pointing left or right.
+function getElementAbsoluteX1(element: ExcaliburElement) {
+  return element.width >= 0 ? element.x : element.x + element.width;
+}
+function getElementAbsoluteX2(element: ExcaliburElement) {
+  return element.width >= 0 ? element.x + element.width : element.x;
+}
+function getElementAbsoluteY1(element: ExcaliburElement) {
+  return element.height >= 0 ? element.y : element.y + element.height;
+}
+function getElementAbsoluteY2(element: ExcaliburElement) {
+  return element.height >= 0 ? element.y + element.height : element.y;
+}
+
+function setSelection(selection: ExcaliburElement) {
+  const selectionX1 = getElementAbsoluteX1(selection);
+  const selectionX2 = getElementAbsoluteX2(selection);
+  const selectionY1 = getElementAbsoluteY1(selection);
+  const selectionY2 = getElementAbsoluteY2(selection);
+  elements.forEach(element => {
+    const elementX1 = getElementAbsoluteX1(element);
+    const elementX2 = getElementAbsoluteX2(element);
+    const elementY1 = getElementAbsoluteY1(element);
+    const elementY2 = getElementAbsoluteY2(element);
+    element.isSelected =
+      element.type !== "selection" &&
+      selectionX1 <= elementX1 &&
+      selectionY1 <= elementY1 &&
+      selectionX2 >= elementX2 &&
+      selectionY2 >= elementY2;
+  });
+}
+
+function clearSelection() {
+  elements.forEach(element => {
+    element.isSelected = false;
+  });
+}
+
+type AppState = {
+  draggingElement: ExcaliburElement | null;
+  elementType: string;
+  exportBackground: boolean;
+  exportVisibleOnly: boolean;
+  exportPadding: number;
+};
+
+class App extends React.Component<{}, AppState> {
+  public componentDidMount() {
+    document.addEventListener("keydown", this.onKeyDown, false);
+  }
+
+  public componentWillUnmount() {
+    document.removeEventListener("keydown", this.onKeyDown, false);
+  }
+
+  public state: AppState = {
+    draggingElement: null,
+    elementType: "selection",
+    exportBackground: false,
+    exportVisibleOnly: true,
+    exportPadding: 10
+  };
+
+  private onKeyDown = (event: KeyboardEvent) => {
+    if (
+      event.key === "Backspace" &&
+      (event.target as HTMLElement)?.nodeName !== "INPUT"
+    ) {
+      for (var i = elements.length - 1; i >= 0; --i) {
+        if (elements[i].isSelected) {
+          elements.splice(i, 1);
+        }
+      }
+      drawScene();
+      event.preventDefault();
+    } else if (
+      event.key === "ArrowLeft" ||
+      event.key === "ArrowRight" ||
+      event.key === "ArrowUp" ||
+      event.key === "ArrowDown"
+    ) {
+      const step = event.shiftKey ? 5 : 1;
+      elements.forEach(element => {
+        if (element.isSelected) {
+          if (event.key === "ArrowLeft") element.x -= step;
+          else if (event.key === "ArrowRight") element.x += step;
+          else if (event.key === "ArrowUp") element.y -= step;
+          else if (event.key === "ArrowDown") element.y += step;
+        }
+      });
+      drawScene();
+      event.preventDefault();
+    }
+  };
+
+  private renderOption({
+    type,
+    children
+  }: {
+    type: string;
+    children: React.ReactNode;
+  }) {
+    return (
+      <label>
+        <input
+          type="radio"
+          checked={this.state.elementType === type}
+          onChange={() => {
+            this.setState({ elementType: type });
+            clearSelection();
+            drawScene();
+          }}
+        />
+        {children}
+      </label>
+    );
+  }
+
+  public render() {
+    return (
+      <>
+        <div className="exportWrapper">
+          <button
+            onClick={() => {
+              exportAsPNG({
+                exportBackground: this.state.exportBackground,
+                exportVisibleOnly: this.state.exportVisibleOnly,
+                exportPadding: this.state.exportPadding
+              });
+            }}
+          >
+            Export to png
+          </button>
+          <label>
+            <input
+              type="checkbox"
+              checked={this.state.exportBackground}
+              onChange={e => {
+                this.setState({ exportBackground: e.target.checked });
+              }}
+            />{" "}
+            background
+          </label>
+          <label>
+            <input
+              type="checkbox"
+              checked={this.state.exportVisibleOnly}
+              onChange={e => {
+                this.setState({ exportVisibleOnly: e.target.checked });
+              }}
+            />
+            visible area only
+          </label>
+          (padding:
+          <input
+            type="number"
+            value={this.state.exportPadding}
+            onChange={e => {
+              this.setState({ exportPadding: Number(e.target.value) });
+            }}
+            disabled={!this.state.exportVisibleOnly}
+          />
+          px)
+        </div>
+        <div>
+          {this.renderOption({ type: "rectangle", children: "Rectangle" })}
+          {this.renderOption({ type: "ellipse", children: "Ellipse" })}
+          {this.renderOption({ type: "arrow", children: "Arrow" })}
+          {this.renderOption({ type: "text", children: "Text" })}
+          {this.renderOption({ type: "selection", children: "Selection" })}
+          <canvas
+            id="canvas"
+            width={window.innerWidth}
+            height={window.innerHeight}
+            onMouseDown={e => {
+              const x = e.clientX - (e.target as HTMLElement).offsetLeft;
+              const y = e.clientY - (e.target as HTMLElement).offsetTop;
+              const element = newElement(this.state.elementType, x, y);
+              let isDraggingElements = false;
+              const cursorStyle = document.documentElement.style.cursor;
+              if (this.state.elementType === "selection") {
+                const selectedElement = elements.find(element => {
+                  const isSelected = isInsideAnElement(x, y)(element);
+                  if (isSelected) {
+                    element.isSelected = true;
+                  }
+                  return isSelected;
+                });
+
+                if (selectedElement) {
+                  this.setState({ draggingElement: selectedElement });
+                } else {
+                  clearSelection();
+                }
+
+                isDraggingElements = elements.some(
+                  element => element.isSelected
+                );
+
+                if (isDraggingElements) {
+                  document.documentElement.style.cursor = "move";
+                }
+              }
+
+              if (isTextElement(element)) {
+                const text = prompt("What text do you want?");
+                if (text === null) {
+                  return;
+                }
+                element.text = text;
+                element.font = "20px Virgil";
+                const font = context.font;
+                context.font = element.font;
+                element.measure = context.measureText(element.text);
+                context.font = font;
+                const height =
+                  element.measure.actualBoundingBoxAscent +
+                  element.measure.actualBoundingBoxDescent;
+                // Center the text
+                element.x -= element.measure.width / 2;
+                element.y -= element.measure.actualBoundingBoxAscent;
+                element.width = element.measure.width;
+                element.height = height;
+              }
+
+              generateDraw(element);
+              elements.push(element);
+              if (this.state.elementType === "text") {
+                this.setState({
+                  draggingElement: null,
+                  elementType: "selection"
+                });
+                element.isSelected = true;
+              } else {
+                this.setState({ draggingElement: element });
+              }
+
+              let lastX = x;
+              let lastY = y;
+
+              const onMouseMove = (e: MouseEvent) => {
+                const target = e.target;
+                if (!(target instanceof HTMLElement)) {
+                  return;
+                }
+
+                if (isDraggingElements) {
+                  const selectedElements = elements.filter(el => el.isSelected);
+                  if (selectedElements.length) {
+                    const x = e.clientX - target.offsetLeft;
+                    const y = e.clientY - target.offsetTop;
+                    selectedElements.forEach(element => {
+                      element.x += x - lastX;
+                      element.y += y - lastY;
+                    });
+                    lastX = x;
+                    lastY = y;
+                    drawScene();
+                    return;
+                  }
+                }
+
+                // It is very important to read this.state within each move event,
+                // otherwise we would read a stale one!
+                const draggingElement = this.state.draggingElement;
+                if (!draggingElement) return;
+                let width = e.clientX - target.offsetLeft - draggingElement.x;
+                let height = e.clientY - target.offsetTop - draggingElement.y;
+                draggingElement.width = width;
+                // Make a perfect square or circle when shift is enabled
+                draggingElement.height = e.shiftKey ? width : height;
+
+                generateDraw(draggingElement);
+
+                if (this.state.elementType === "selection") {
+                  setSelection(draggingElement);
+                }
+                drawScene();
+              };
+
+              const onMouseUp = (e: MouseEvent) => {
+                const { draggingElement, elementType } = this.state;
+
+                window.removeEventListener("mousemove", onMouseMove);
+                window.removeEventListener("mouseup", onMouseUp);
+
+                document.documentElement.style.cursor = cursorStyle;
+
+                // if no element is clicked, clear the selection and redraw
+                if (draggingElement === null) {
+                  clearSelection();
+                  drawScene();
+                  return;
+                }
+
+                if (elementType === "selection") {
+                  if (isDraggingElements) {
+                    isDraggingElements = false;
+                  }
+                  elements.pop();
+                } else {
+                  draggingElement.isSelected = true;
+                }
+
+                this.setState({
+                  draggingElement: null,
+                  elementType: "selection"
+                });
+                drawScene();
+              };
+
+              window.addEventListener("mousemove", onMouseMove);
+              window.addEventListener("mouseup", onMouseUp);
+
+              drawScene();
+            }}
+          />
+        </div>
+      </>
+    );
+  }
+}
+
+const rootElement = document.getElementById("root");
+ReactDOM.render(<App />, rootElement);
+const canvas = document.getElementById("canvas") as HTMLCanvasElement;
+const rc = rough.canvas(canvas);
+const context = canvas.getContext("2d")!;
+
+// Big hack to ensure that all the 1px lines are drawn at 1px instead of 2px
+// https://stackoverflow.com/questions/13879322/drawing-a-1px-thick-line-in-canvas-creates-a-2px-thick-line/13879402#comment90766599_13879402
+context.translate(0.5, 0.5);
+
+function drawScene() {
+  ReactDOM.render(<App />, rootElement);
+
+  context.clearRect(-0.5, -0.5, canvas.width, canvas.height);
+
+  elements.forEach(element => {
+    element.draw(rc, context);
+    if (element.isSelected) {
+      const margin = 4;
+
+      const elementX1 = getElementAbsoluteX1(element);
+      const elementX2 = getElementAbsoluteX2(element);
+      const elementY1 = getElementAbsoluteY1(element);
+      const elementY2 = getElementAbsoluteY2(element);
+      const lineDash = context.getLineDash();
+      context.setLineDash([8, 4]);
+      context.strokeRect(
+        elementX1 - margin,
+        elementY1 - margin,
+        elementX2 - elementX1 + margin * 2,
+        elementY2 - elementY1 + margin * 2
+      );
+      context.setLineDash(lineDash);
+    }
+  });
+}
+
+drawScene();

src/react-app-env.d.ts

@@ -0,0 +1 @@
+/// <reference types="react-scripts" />

tsconfig.json

@@ -0,0 +1,19 @@
+{
+  "compilerOptions": {
+    "target": "es5",
+    "lib": ["dom", "dom.iterable", "esnext"],
+    "allowJs": true,
+    "skipLibCheck": true,
+    "esModuleInterop": true,
+    "allowSyntheticDefaultImports": true,
+    "strict": true,
+    "forceConsistentCasingInFileNames": true,
+    "module": "esnext",
+    "moduleResolution": "node",
+    "resolveJsonModule": true,
+    "isolatedModules": true,
+    "noEmit": true,
+    "jsx": "react"
+  },
+  "include": ["src"]
+}