excalidraw/src/element/linearElementEditor.ts

import {
  NonDeleted,
  ExcalidrawLinearElement,
  ExcalidrawElement,
} from "./types";
import { distance2d, rotate, isPathALoop } from "../math";
import { getElementAbsoluteCoords } from ".";
import { getElementPointsCoords } from "./bounds";
import { Point, AppState } from "../types";
import { mutateElement } from "./mutateElement";
import { SceneHistory } from "../history";
import { globalSceneState } from "../scene";

export class LinearElementEditor {
  public elementId: ExcalidrawElement["id"];
  public activePointIndex: number | null;
  public draggingElementPointIndex: number | null;
  public lastUncommittedPoint: Point | null;

  constructor(element: NonDeleted<ExcalidrawLinearElement>) {
    LinearElementEditor.normalizePoints(element);

    this.elementId = element.id;
    this.activePointIndex = null;
    this.lastUncommittedPoint = null;
    this.draggingElementPointIndex = null;
  }

  // ---------------------------------------------------------------------------
  // static methods
  // ---------------------------------------------------------------------------

  static POINT_HANDLE_SIZE = 20;

  static getElement(id: ExcalidrawElement["id"]) {
    const element = globalSceneState.getNonDeletedElement(id);
    if (element) {
      return element as NonDeleted<ExcalidrawLinearElement>;
    }
    return null;
  }

  /** @returns whether point was dragged */
  static handlePointDragging(
    appState: AppState,
    setState: React.Component<any, AppState>["setState"],
    scenePointerX: number,
    scenePointerY: number,
    lastX: number,
    lastY: number,
  ): boolean {
    if (!appState.editingLinearElement) {
      return false;
    }
    const { editingLinearElement } = appState;
    let { draggingElementPointIndex, elementId } = editingLinearElement;

    const element = LinearElementEditor.getElement(elementId);
    if (!element) {
      return false;
    }

    const clickedPointIndex =
      draggingElementPointIndex ??
      LinearElementEditor.getPointIndexUnderCursor(
        element,
        appState.zoom,
        scenePointerX,
        scenePointerY,
      );

    draggingElementPointIndex = draggingElementPointIndex ?? clickedPointIndex;
    if (draggingElementPointIndex > -1) {
      if (
        editingLinearElement.draggingElementPointIndex !==
          draggingElementPointIndex ||
        editingLinearElement.activePointIndex !== clickedPointIndex
      ) {
        setState({
          editingLinearElement: {
            ...editingLinearElement,
            draggingElementPointIndex,
            activePointIndex: clickedPointIndex,
          },
        });
      }

      const [deltaX, deltaY] = rotate(
        scenePointerX - lastX,
        scenePointerY - lastY,
        0,
        0,
        -element.angle,
      );
      const targetPoint = element.points[clickedPointIndex];
      LinearElementEditor.movePoint(element, clickedPointIndex, [
        targetPoint[0] + deltaX,
        targetPoint[1] + deltaY,
      ]);
      return true;
    }
    return false;
  }

  static handlePointerUp(
    editingLinearElement: LinearElementEditor,
  ): LinearElementEditor {
    const { elementId, draggingElementPointIndex } = editingLinearElement;
    const element = LinearElementEditor.getElement(elementId);
    if (!element) {
      return editingLinearElement;
    }

    if (
      draggingElementPointIndex !== null &&
      (draggingElementPointIndex === 0 ||
        draggingElementPointIndex === element.points.length - 1) &&
      isPathALoop(element.points)
    ) {
      LinearElementEditor.movePoint(
        element,
        draggingElementPointIndex,
        draggingElementPointIndex === 0
          ? element.points[element.points.length - 1]
          : element.points[0],
      );
    }
    if (draggingElementPointIndex !== null) {
      return {
        ...editingLinearElement,
        draggingElementPointIndex: null,
      };
    }
    return editingLinearElement;
  }

  static handlePointerDown(
    event: React.PointerEvent<HTMLCanvasElement>,
    appState: AppState,
    setState: React.Component<any, AppState>["setState"],
    history: SceneHistory,
    scenePointerX: number,
    scenePointerY: number,
  ): {
    didAddPoint: boolean;
    hitElement: ExcalidrawElement | null;
  } {
    const ret: ReturnType<typeof LinearElementEditor["handlePointerDown"]> = {
      didAddPoint: false,
      hitElement: null,
    };

    if (!appState.editingLinearElement) {
      return ret;
    }

    const { elementId } = appState.editingLinearElement;
    const element = LinearElementEditor.getElement(elementId);

    if (!element) {
      return ret;
    }

    if (event.altKey) {
      if (!appState.editingLinearElement.lastUncommittedPoint) {
        mutateElement(element, {
          points: [
            ...element.points,
            LinearElementEditor.createPointAt(
              element,
              scenePointerX,
              scenePointerY,
            ),
          ],
        });
      }
      history.resumeRecording();
      setState({
        editingLinearElement: {
          ...appState.editingLinearElement,
          activePointIndex: element.points.length - 1,
          lastUncommittedPoint: null,
        },
      });
      ret.didAddPoint = true;
      return ret;
    }

    const clickedPointIndex = LinearElementEditor.getPointIndexUnderCursor(
      element,
      appState.zoom,
      scenePointerX,
      scenePointerY,
    );

    // if we clicked on a point, set the element as hitElement otherwise
    //  it would get deselected if the point is outside the hitbox area
    if (clickedPointIndex > -1) {
      ret.hitElement = element;
    }

    setState({
      editingLinearElement: {
        ...appState.editingLinearElement,
        activePointIndex: clickedPointIndex > -1 ? clickedPointIndex : null,
      },
    });
    return ret;
  }

  static handlePointerMove(
    event: React.PointerEvent<HTMLCanvasElement>,
    scenePointerX: number,
    scenePointerY: number,
    editingLinearElement: LinearElementEditor,
  ): LinearElementEditor {
    const { elementId, lastUncommittedPoint } = editingLinearElement;
    const element = LinearElementEditor.getElement(elementId);
    if (!element) {
      return editingLinearElement;
    }

    const { points } = element;
    const lastPoint = points[points.length - 1];

    if (!event.altKey) {
      if (lastPoint === lastUncommittedPoint) {
        LinearElementEditor.movePoint(element, points.length - 1, "delete");
      }
      return editingLinearElement;
    }

    const newPoint = LinearElementEditor.createPointAt(
      element,
      scenePointerX,
      scenePointerY,
    );

    if (lastPoint === lastUncommittedPoint) {
      LinearElementEditor.movePoint(
        element,
        element.points.length - 1,
        newPoint,
      );
    } else {
      LinearElementEditor.movePoint(element, "new", newPoint);
    }

    return {
      ...editingLinearElement,
      lastUncommittedPoint: element.points[element.points.length - 1],
    };
  }

  static getPointsGlobalCoordinates(
    element: NonDeleted<ExcalidrawLinearElement>,
  ) {
    const [x1, y1, x2, y2] = getElementAbsoluteCoords(element);
    const cx = (x1 + x2) / 2;
    const cy = (y1 + y2) / 2;
    return element.points.map((point) => {
      let { x, y } = element;
      [x, y] = rotate(x + point[0], y + point[1], cx, cy, element.angle);
      return [x, y];
    });
  }

  static getPointIndexUnderCursor(
    element: NonDeleted<ExcalidrawLinearElement>,
    zoom: AppState["zoom"],
    x: number,
    y: number,
  ) {
    const pointHandles = this.getPointsGlobalCoordinates(element);
    let idx = pointHandles.length;
    // loop from right to left because points on the right are rendered over
    //  points on the left, thus should take precedence when clicking, if they
    //  overlap
    while (--idx > -1) {
      const point = pointHandles[idx];
      if (
        distance2d(x, y, point[0], point[1]) * zoom <
        // +1px to account for outline stroke
        this.POINT_HANDLE_SIZE / 2 + 1
      ) {
        return idx;
      }
    }
    return -1;
  }

  static createPointAt(
    element: NonDeleted<ExcalidrawLinearElement>,
    scenePointerX: number,
    scenePointerY: number,
  ): Point {
    const [x1, y1, x2, y2] = getElementAbsoluteCoords(element);
    const cx = (x1 + x2) / 2;
    const cy = (y1 + y2) / 2;
    const [rotatedX, rotatedY] = rotate(
      scenePointerX,
      scenePointerY,
      cx,
      cy,
      -element.angle,
    );

    return [rotatedX - element.x, rotatedY - element.y];
  }

  // element-mutating methods
  // ---------------------------------------------------------------------------

  /**
   * Normalizes line points so that the start point is at [0,0]. This is
   *  expected in various parts of the codebase.
   */
  static normalizePoints(element: NonDeleted<ExcalidrawLinearElement>) {
    const { points } = element;

    const offsetX = points[0][0];
    const offsetY = points[0][1];

    mutateElement(element, {
      points: points.map((point, _idx) => {
        return [point[0] - offsetX, point[1] - offsetY] as const;
      }),
      x: element.x + offsetX,
      y: element.y + offsetY,
    });
  }

  static movePoint(
    element: NonDeleted<ExcalidrawLinearElement>,
    pointIndex: number | "new",
    targetPosition: Point | "delete",
  ) {
    const { points } = element;

    // in case we're moving start point, instead of modifying its position
    //  which would break the invariant of it being at [0,0], we move
    //  all the other points in the opposite direction by delta to
    //  offset it. We do the same with actual element.x/y position, so
    //  this hacks are completely transparent to the user.
    let offsetX = 0;
    let offsetY = 0;

    let nextPoints: (readonly [number, number])[];
    if (targetPosition === "delete") {
      // remove point
      if (pointIndex === "new") {
        throw new Error("invalid args in movePoint");
      }
      nextPoints = points.slice();
      nextPoints.splice(pointIndex, 1);
      if (pointIndex === 0) {
        // if deleting first point, make the next to be [0,0] and recalculate
        //  positions of the rest with respect to it
        offsetX = nextPoints[0][0];
        offsetY = nextPoints[0][1];
        nextPoints = nextPoints.map((point, idx) => {
          if (idx === 0) {
            return [0, 0];
          }
          return [point[0] - offsetX, point[1] - offsetY];
        });
      }
    } else if (pointIndex === "new") {
      nextPoints = [...points, targetPosition];
    } else {
      const deltaX = targetPosition[0] - points[pointIndex][0];
      const deltaY = targetPosition[1] - points[pointIndex][1];
      nextPoints = points.map((point, idx) => {
        if (idx === pointIndex) {
          if (idx === 0) {
            offsetX = deltaX;
            offsetY = deltaY;
            return point;
          }
          offsetX = 0;
          offsetY = 0;

          return [point[0] + deltaX, point[1] + deltaY] as const;
        }
        return offsetX || offsetY
          ? ([point[0] - offsetX, point[1] - offsetY] as const)
          : point;
      });
    }

    const nextCoords = getElementPointsCoords(element, nextPoints);
    const prevCoords = getElementPointsCoords(element, points);
    const nextCenterX = (nextCoords[0] + nextCoords[2]) / 2;
    const nextCenterY = (nextCoords[1] + nextCoords[3]) / 2;
    const prevCenterX = (prevCoords[0] + prevCoords[2]) / 2;
    const prevCenterY = (prevCoords[1] + prevCoords[3]) / 2;
    const dX = prevCenterX - nextCenterX;
    const dY = prevCenterY - nextCenterY;
    const rotated = rotate(offsetX, offsetY, dX, dY, element.angle);

    mutateElement(element, {
      points: nextPoints,
      x: element.x + rotated[0],
      y: element.y + rotated[1],
    });
  }
}
Implement line editing (#1616) * implement line editing * line editing with rotation * ensure adding new points is disabled on point dragging * fix hotkey replacement * don't paint bounding box when creating new multipoint * tweak points style, account for zoom and z-index * don't persist editingLinearElement to localStorage * don't mutate on noop points updates * account for rotation when adding new point * ensure clicking on points doesn't deselect element * tweak history handling around editingline element * update snapshots * refactor pointerMove handling * factor out point dragging * factor out pointerDown * improve positioning with rotation * revert to use roughjs for calculating points bounds * migrate from storing editingLinearElement.element to id * make GlobalScene.getElement into O(1) * use Alt for adding new points * fix adding and deleting a point with rotation * disable resize handlers & bounding box on line edit Co-authored-by: daishi <daishi@axlight.com> 2020-06-01 11:35:44 +02:00			`import {`
			`NonDeleted,`
			`ExcalidrawLinearElement,`
			`ExcalidrawElement,`
			`} from "./types";`
			`import { distance2d, rotate, isPathALoop } from "../math";`
			`import { getElementAbsoluteCoords } from ".";`
			`import { getElementPointsCoords } from "./bounds";`
			`import { Point, AppState } from "../types";`
			`import { mutateElement } from "./mutateElement";`
			`import { SceneHistory } from "../history";`
			`import { globalSceneState } from "../scene";`

			`export class LinearElementEditor {`
			`public elementId: ExcalidrawElement["id"];`
			`public activePointIndex: number \| null;`
			`public draggingElementPointIndex: number \| null;`
			`public lastUncommittedPoint: Point \| null;`

			`constructor(element: NonDeleted<ExcalidrawLinearElement>) {`
			`LinearElementEditor.normalizePoints(element);`

			`this.elementId = element.id;`
			`this.activePointIndex = null;`
			`this.lastUncommittedPoint = null;`
			`this.draggingElementPointIndex = null;`
			`}`

			`// ---------------------------------------------------------------------------`
			`// static methods`
			`// ---------------------------------------------------------------------------`

			`static POINT_HANDLE_SIZE = 20;`

			`static getElement(id: ExcalidrawElement["id"]) {`
			`const element = globalSceneState.getNonDeletedElement(id);`
			`if (element) {`
			`return element as NonDeleted<ExcalidrawLinearElement>;`
			`}`
			`return null;`
			`}`

			`/** @returns whether point was dragged */`
			`static handlePointDragging(`
			`appState: AppState,`
			`setState: React.Component<any, AppState>["setState"],`
			`scenePointerX: number,`
			`scenePointerY: number,`
			`lastX: number,`
			`lastY: number,`
			`): boolean {`
			`if (!appState.editingLinearElement) {`
			`return false;`
			`}`
			`const { editingLinearElement } = appState;`
			`let { draggingElementPointIndex, elementId } = editingLinearElement;`

			`const element = LinearElementEditor.getElement(elementId);`
			`if (!element) {`
			`return false;`
			`}`

			`const clickedPointIndex =`
			`draggingElementPointIndex ??`
			`LinearElementEditor.getPointIndexUnderCursor(`
			`element,`
			`appState.zoom,`
			`scenePointerX,`
			`scenePointerY,`
			`);`

			`draggingElementPointIndex = draggingElementPointIndex ?? clickedPointIndex;`
			`if (draggingElementPointIndex > -1) {`
			`if (`
			`editingLinearElement.draggingElementPointIndex !==`
			`draggingElementPointIndex \|\|`
			`editingLinearElement.activePointIndex !== clickedPointIndex`
			`) {`
			`setState({`
			`editingLinearElement: {`
			`...editingLinearElement,`
			`draggingElementPointIndex,`
			`activePointIndex: clickedPointIndex,`
			`},`
			`});`
			`}`

			`const [deltaX, deltaY] = rotate(`
			`scenePointerX - lastX,`
			`scenePointerY - lastY,`
			`0,`
			`0,`
			`-element.angle,`
			`);`
			`const targetPoint = element.points[clickedPointIndex];`
			`LinearElementEditor.movePoint(element, clickedPointIndex, [`
			`targetPoint[0] + deltaX,`
			`targetPoint[1] + deltaY,`
			`]);`
			`return true;`
			`}`
			`return false;`
			`}`

			`static handlePointerUp(`
			`editingLinearElement: LinearElementEditor,`
			`): LinearElementEditor {`
			`const { elementId, draggingElementPointIndex } = editingLinearElement;`
			`const element = LinearElementEditor.getElement(elementId);`
			`if (!element) {`
			`return editingLinearElement;`
			`}`

			`if (`
			`draggingElementPointIndex !== null &&`
			`(draggingElementPointIndex === 0 \|\|`
			`draggingElementPointIndex === element.points.length - 1) &&`
			`isPathALoop(element.points)`
			`) {`
			`LinearElementEditor.movePoint(`
			`element,`
			`draggingElementPointIndex,`
			`draggingElementPointIndex === 0`
			`? element.points[element.points.length - 1]`
			`: element.points[0],`
			`);`
			`}`
			`if (draggingElementPointIndex !== null) {`
			`return {`
			`...editingLinearElement,`
			`draggingElementPointIndex: null,`
			`};`
			`}`
			`return editingLinearElement;`
			`}`

			`static handlePointerDown(`
			`event: React.PointerEvent<HTMLCanvasElement>,`
			`appState: AppState,`
			`setState: React.Component<any, AppState>["setState"],`
			`history: SceneHistory,`
			`scenePointerX: number,`
			`scenePointerY: number,`
			`): {`
			`didAddPoint: boolean;`
			`hitElement: ExcalidrawElement \| null;`
			`} {`
			`const ret: ReturnType<typeof LinearElementEditor["handlePointerDown"]> = {`
			`didAddPoint: false,`
			`hitElement: null,`
			`};`

			`if (!appState.editingLinearElement) {`
			`return ret;`
			`}`

			`const { elementId } = appState.editingLinearElement;`
			`const element = LinearElementEditor.getElement(elementId);`

			`if (!element) {`
			`return ret;`
			`}`

			`if (event.altKey) {`
			`if (!appState.editingLinearElement.lastUncommittedPoint) {`
			`mutateElement(element, {`
			`points: [`
			`...element.points,`
			`LinearElementEditor.createPointAt(`
			`element,`
			`scenePointerX,`
			`scenePointerY,`
			`),`
			`],`
			`});`
			`}`
Fix undo with line editing (#1717) 2020-06-06 00:11:24 +09:00			`history.resumeRecording();`
Implement line editing (#1616) * implement line editing * line editing with rotation * ensure adding new points is disabled on point dragging * fix hotkey replacement * don't paint bounding box when creating new multipoint * tweak points style, account for zoom and z-index * don't persist editingLinearElement to localStorage * don't mutate on noop points updates * account for rotation when adding new point * ensure clicking on points doesn't deselect element * tweak history handling around editingline element * update snapshots * refactor pointerMove handling * factor out point dragging * factor out pointerDown * improve positioning with rotation * revert to use roughjs for calculating points bounds * migrate from storing editingLinearElement.element to id * make GlobalScene.getElement into O(1) * use Alt for adding new points * fix adding and deleting a point with rotation * disable resize handlers & bounding box on line edit Co-authored-by: daishi <daishi@axlight.com> 2020-06-01 11:35:44 +02:00			`setState({`
			`editingLinearElement: {`
			`...appState.editingLinearElement,`
			`activePointIndex: element.points.length - 1,`
			`lastUncommittedPoint: null,`
			`},`
			`});`
			`ret.didAddPoint = true;`
			`return ret;`
			`}`

			`const clickedPointIndex = LinearElementEditor.getPointIndexUnderCursor(`
			`element,`
			`appState.zoom,`
			`scenePointerX,`
			`scenePointerY,`
			`);`

			`// if we clicked on a point, set the element as hitElement otherwise`
			`// it would get deselected if the point is outside the hitbox area`
			`if (clickedPointIndex > -1) {`
			`ret.hitElement = element;`
			`}`

			`setState({`
			`editingLinearElement: {`
			`...appState.editingLinearElement,`
			`activePointIndex: clickedPointIndex > -1 ? clickedPointIndex : null,`
			`},`
			`});`
			`return ret;`
			`}`

			`static handlePointerMove(`
			`event: React.PointerEvent<HTMLCanvasElement>,`
			`scenePointerX: number,`
			`scenePointerY: number,`
			`editingLinearElement: LinearElementEditor,`
			`): LinearElementEditor {`
			`const { elementId, lastUncommittedPoint } = editingLinearElement;`
			`const element = LinearElementEditor.getElement(elementId);`
			`if (!element) {`
			`return editingLinearElement;`
			`}`

			`const { points } = element;`
			`const lastPoint = points[points.length - 1];`

			`if (!event.altKey) {`
			`if (lastPoint === lastUncommittedPoint) {`
			`LinearElementEditor.movePoint(element, points.length - 1, "delete");`
			`}`
			`return editingLinearElement;`
			`}`

			`const newPoint = LinearElementEditor.createPointAt(`
			`element,`
			`scenePointerX,`
			`scenePointerY,`
			`);`

			`if (lastPoint === lastUncommittedPoint) {`
			`LinearElementEditor.movePoint(`
			`element,`
			`element.points.length - 1,`
			`newPoint,`
			`);`
			`} else {`
			`LinearElementEditor.movePoint(element, "new", newPoint);`
			`}`

			`return {`
			`...editingLinearElement,`
			`lastUncommittedPoint: element.points[element.points.length - 1],`
			`};`
			`}`

			`static getPointsGlobalCoordinates(`
			`element: NonDeleted<ExcalidrawLinearElement>,`
			`) {`
			`const [x1, y1, x2, y2] = getElementAbsoluteCoords(element);`
			`const cx = (x1 + x2) / 2;`
			`const cy = (y1 + y2) / 2;`
			`return element.points.map((point) => {`
			`let { x, y } = element;`
			`[x, y] = rotate(x + point[0], y + point[1], cx, cy, element.angle);`
			`return [x, y];`
			`});`
			`}`

			`static getPointIndexUnderCursor(`
			`element: NonDeleted<ExcalidrawLinearElement>,`
			`zoom: AppState["zoom"],`
			`x: number,`
			`y: number,`
			`) {`
			`const pointHandles = this.getPointsGlobalCoordinates(element);`
			`let idx = pointHandles.length;`
			`// loop from right to left because points on the right are rendered over`
			`// points on the left, thus should take precedence when clicking, if they`
			`// overlap`
			`while (--idx > -1) {`
			`const point = pointHandles[idx];`
			`if (`
			`distance2d(x, y, point[0], point[1]) * zoom <`
			`// +1px to account for outline stroke`
			`this.POINT_HANDLE_SIZE / 2 + 1`
			`) {`
			`return idx;`
			`}`
			`}`
			`return -1;`
			`}`

			`static createPointAt(`
			`element: NonDeleted<ExcalidrawLinearElement>,`
			`scenePointerX: number,`
			`scenePointerY: number,`
			`): Point {`
			`const [x1, y1, x2, y2] = getElementAbsoluteCoords(element);`
			`const cx = (x1 + x2) / 2;`
			`const cy = (y1 + y2) / 2;`
			`const [rotatedX, rotatedY] = rotate(`
			`scenePointerX,`
			`scenePointerY,`
			`cx,`
			`cy,`
			`-element.angle,`
			`);`

			`return [rotatedX - element.x, rotatedY - element.y];`
			`}`

			`// element-mutating methods`
			`// ---------------------------------------------------------------------------`

			`/**`
			`* Normalizes line points so that the start point is at [0,0]. This is`
			`* expected in various parts of the codebase.`
			`*/`
			`static normalizePoints(element: NonDeleted<ExcalidrawLinearElement>) {`
			`const { points } = element;`

			`const offsetX = points[0][0];`
			`const offsetY = points[0][1];`

			`mutateElement(element, {`
			`points: points.map((point, _idx) => {`
			`return [point[0] - offsetX, point[1] - offsetY] as const;`
			`}),`
			`x: element.x + offsetX,`
			`y: element.y + offsetY,`
			`});`
			`}`

			`static movePoint(`
			`element: NonDeleted<ExcalidrawLinearElement>,`
			`pointIndex: number \| "new",`
			`targetPosition: Point \| "delete",`
			`) {`
			`const { points } = element;`

			`// in case we're moving start point, instead of modifying its position`
			`// which would break the invariant of it being at [0,0], we move`
			`// all the other points in the opposite direction by delta to`
			`// offset it. We do the same with actual element.x/y position, so`
			`// this hacks are completely transparent to the user.`
			`let offsetX = 0;`
			`let offsetY = 0;`

			`let nextPoints: (readonly [number, number])[];`
			`if (targetPosition === "delete") {`
			`// remove point`
			`if (pointIndex === "new") {`
			`throw new Error("invalid args in movePoint");`
			`}`
			`nextPoints = points.slice();`
			`nextPoints.splice(pointIndex, 1);`
			`if (pointIndex === 0) {`
			`// if deleting first point, make the next to be [0,0] and recalculate`
			`// positions of the rest with respect to it`
			`offsetX = nextPoints[0][0];`
			`offsetY = nextPoints[0][1];`
			`nextPoints = nextPoints.map((point, idx) => {`
			`if (idx === 0) {`
			`return [0, 0];`
			`}`
			`return [point[0] - offsetX, point[1] - offsetY];`
			`});`
			`}`
			`} else if (pointIndex === "new") {`
			`nextPoints = [...points, targetPosition];`
			`} else {`
			`const deltaX = targetPosition[0] - points[pointIndex][0];`
			`const deltaY = targetPosition[1] - points[pointIndex][1];`
			`nextPoints = points.map((point, idx) => {`
			`if (idx === pointIndex) {`
			`if (idx === 0) {`
			`offsetX = deltaX;`
			`offsetY = deltaY;`
			`return point;`
			`}`
			`offsetX = 0;`
			`offsetY = 0;`

			`return [point[0] + deltaX, point[1] + deltaY] as const;`
			`}`
			`return offsetX \|\| offsetY`
			`? ([point[0] - offsetX, point[1] - offsetY] as const)`
			`: point;`
			`});`
			`}`

			`const nextCoords = getElementPointsCoords(element, nextPoints);`
			`const prevCoords = getElementPointsCoords(element, points);`
			`const nextCenterX = (nextCoords[0] + nextCoords[2]) / 2;`
			`const nextCenterY = (nextCoords[1] + nextCoords[3]) / 2;`
			`const prevCenterX = (prevCoords[0] + prevCoords[2]) / 2;`
			`const prevCenterY = (prevCoords[1] + prevCoords[3]) / 2;`
			`const dX = prevCenterX - nextCenterX;`
			`const dY = prevCenterY - nextCenterY;`
			`const rotated = rotate(offsetX, offsetY, dX, dY, element.angle);`

			`mutateElement(element, {`
			`points: nextPoints,`
			`x: element.x + rotated[0],`
			`y: element.y + rotated[1],`
			`});`
			`}`
			`}`