penpot-exporter-figma-plugin/plugin-src/utils/applyRotation.ts

import { ClosePath, CurveTo, Segment } from '@ui/lib/types/shapes/pathShape';
import { Point } from '@ui/lib/types/utils/point';

export const applyRotation = (point: Point, transform: Transform, boundingBox: Rect): Point => {
  const centerPoint = calculateCenter(boundingBox);

  const rotatedPoint = applyMatrix(transform, {
    x: point.x - centerPoint.x,
    y: point.y - centerPoint.y
  });

  return {
    x: centerPoint.x + rotatedPoint.x,
    y: centerPoint.y + rotatedPoint.y
  };
};

export const applyRotationToSegment = (
  segment: Exclude<Segment, ClosePath>,
  transform: Transform,
  boundingBox: Rect
): Segment => {
  const rotated = applyRotation(
    { x: segment.params.x, y: segment.params.y },
    transform,
    boundingBox
  );

  if (isCurveTo(segment)) {
    const curve1 = applyRotation(
      { x: segment.params.c1x, y: segment.params.c1y },
      transform,
      boundingBox
    );
    const curve2 = applyRotation(
      { x: segment.params.c2x, y: segment.params.c2y },
      transform,
      boundingBox
    );

    segment.params.c1x = curve1.x;
    segment.params.c1y = curve1.y;
    segment.params.c2x = curve2.x;
    segment.params.c2y = curve2.y;
  }

  segment.params.x = rotated.x;
  segment.params.y = rotated.y;

  return segment;
};

export const applyInverseRotation = (
  point: Point,
  transform: Transform,
  boundingBox: Rect
): Point => applyRotation(point, inverseMatrix(transform), boundingBox);

export const getRotation = (transform: Transform): number =>
  Math.acos(transform[0][0]) * (180 / Math.PI);

export const isTransformed = (transform: Transform, boundingBox: Rect | null): boolean => {
  if (!boundingBox) {
    return false;
  }

  return transform[0][2] !== boundingBox.x || transform[1][2] !== boundingBox.y;
};

const inverseMatrix = (matrix: Transform): Transform => [
  [matrix[0][0], matrix[1][0], matrix[0][2]],
  [matrix[0][1], matrix[1][1], matrix[1][2]]
];

const applyMatrix = (matrix: Transform, point: Point): Point => ({
  x: point.x * matrix[0][0] + point.y * matrix[0][1],
  y: point.x * matrix[1][0] + point.y * matrix[1][1]
});

const calculateCenter = (boundingBox: Rect): Point => ({
  x: boundingBox.x + boundingBox.width / 2,
  y: boundingBox.y + boundingBox.height / 2
});

const isCurveTo = (segment: Segment): segment is CurveTo => segment.command === 'curve-to';
Apply rotations to any figure (#168) * Apply rotations to any figure * add changelog * apply rotations to curves too 2024-06-17 05:14:16 -05:00			`import { ClosePath, CurveTo, Segment } from '@ui/lib/types/shapes/pathShape';`
Implement rotation for vector lines (#160) * Implement rotation for vector lines * wip * Improve rotations for lines * add changelog * add layout attributes to line 2024-06-14 03:33:23 -05:00			`import { Point } from '@ui/lib/types/utils/point';`

			`export const applyRotation = (point: Point, transform: Transform, boundingBox: Rect): Point => {`
			`const centerPoint = calculateCenter(boundingBox);`

			`const rotatedPoint = applyMatrix(transform, {`
			`x: point.x - centerPoint.x,`
			`y: point.y - centerPoint.y`
			`});`

			`return {`
			`x: centerPoint.x + rotatedPoint.x,`
			`y: centerPoint.y + rotatedPoint.y`
			`};`
			`};`

Apply rotations to any figure (#168) * Apply rotations to any figure * add changelog * apply rotations to curves too 2024-06-17 05:14:16 -05:00			`export const applyRotationToSegment = (`
			`segment: Exclude<Segment, ClosePath>,`
			`transform: Transform,`
			`boundingBox: Rect`
			`): Segment => {`
			`const rotated = applyRotation(`
			`{ x: segment.params.x, y: segment.params.y },`
			`transform,`
			`boundingBox`
			`);`

			`if (isCurveTo(segment)) {`
			`const curve1 = applyRotation(`
			`{ x: segment.params.c1x, y: segment.params.c1y },`
			`transform,`
			`boundingBox`
			`);`
			`const curve2 = applyRotation(`
			`{ x: segment.params.c2x, y: segment.params.c2y },`
			`transform,`
			`boundingBox`
			`);`

			`segment.params.c1x = curve1.x;`
			`segment.params.c1y = curve1.y;`
			`segment.params.c2x = curve2.x;`
			`segment.params.c2y = curve2.y;`
			`}`

			`segment.params.x = rotated.x;`
			`segment.params.y = rotated.y;`

			`return segment;`
			`};`

Implement rotation for vector lines (#160) * Implement rotation for vector lines * wip * Improve rotations for lines * add changelog * add layout attributes to line 2024-06-14 03:33:23 -05:00			`export const applyInverseRotation = (`
			`point: Point,`
			`transform: Transform,`
			`boundingBox: Rect`
			`): Point => applyRotation(point, inverseMatrix(transform), boundingBox);`

remove base rotation and calculate it instead (#178) 2024-06-19 01:10:20 -05:00			`export const getRotation = (transform: Transform): number =>`
			`Math.acos(transform[0][0]) * (180 / Math.PI);`

Fix transformed shapes (#236) * fix transformed shapes * minor fix 2024-11-14 09:42:45 -05:00			`export const isTransformed = (transform: Transform, boundingBox: Rect \| null): boolean => {`
			`if (!boundingBox) {`
			`return false;`
			`}`

			`return transform[0][2] !== boundingBox.x \|\| transform[1][2] !== boundingBox.y;`
			`};`
Implement rotation for vector lines (#160) * Implement rotation for vector lines * wip * Improve rotations for lines * add changelog * add layout attributes to line 2024-06-14 03:33:23 -05:00
			`const inverseMatrix = (matrix: Transform): Transform => [`
			`[matrix[0][0], matrix[1][0], matrix[0][2]],`
			`[matrix[0][1], matrix[1][1], matrix[1][2]]`
			`];`

			`const applyMatrix = (matrix: Transform, point: Point): Point => ({`
			`x: point.x * matrix[0][0] + point.y * matrix[0][1],`
			`y: point.x * matrix[1][0] + point.y * matrix[1][1]`
			`});`

			`const calculateCenter = (boundingBox: Rect): Point => ({`
			`x: boundingBox.x + boundingBox.width / 2,`
			`y: boundingBox.y + boundingBox.height / 2`
			`});`
Apply rotations to any figure (#168) * Apply rotations to any figure * add changelog * apply rotations to curves too 2024-06-17 05:14:16 -05:00
			`const isCurveTo = (segment: Segment): segment is CurveTo => segment.command === 'curve-to';`