excalidraw/src/math.ts

import { Point } from "roughjs/bin/geometry";

// https://stackoverflow.com/a/6853926/232122
export function distanceBetweenPointAndSegment(
  x: number,
  y: number,
  x1: number,
  y1: number,
  x2: number,
  y2: number,
) {
  const A = x - x1;
  const B = y - y1;
  const C = x2 - x1;
  const D = y2 - y1;

  const dot = A * C + B * D;
  const lenSquare = C * C + D * D;
  let param = -1;
  if (lenSquare !== 0) {
    // in case of 0 length line
    param = dot / lenSquare;
  }

  let xx, yy;
  if (param < 0) {
    xx = x1;
    yy = y1;
  } else if (param > 1) {
    xx = x2;
    yy = y2;
  } else {
    xx = x1 + param * C;
    yy = y1 + param * D;
  }

  const dx = x - xx;
  const dy = y - yy;
  return Math.hypot(dx, dy);
}

export 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,
  ];
}

export const getPointOnAPath = (point: Point, path: Point[]) => {
  const [px, py] = point;
  const [start, ...other] = path;
  let [lastX, lastY] = start;
  let kLine: number = 0;
  let idx: number = 0;

  // if any item in the array is true, it means that a point is
  // on some segment of a line based path
  const retVal = other.some(([x2, y2], i) => {
    // we always take a line when dealing with line segments
    const x1 = lastX;
    const y1 = lastY;

    lastX = x2;
    lastY = y2;

    // if a point is not within the domain of the line segment
    // it is not on the line segment
    if (px < x1 || px > x2) {
      return false;
    }

    // check if all points lie on the same line
    // y1 = kx1 + b, y2 = kx2 + b
    // y2 - y1 = k(x2 - x2) -> k = (y2 - y1) / (x2 - x1)

    // coefficient for the line (p0, p1)
    const kL = (y2 - y1) / (x2 - x1);

    // coefficient for the line segment (p0, point)
    const kP1 = (py - y1) / (px - x1);

    // coefficient for the line segment (point, p1)
    const kP2 = (py - y2) / (px - x2);

    // because we are basing both lines from the same starting point
    // the only option for collinearity is having same coefficients

    // using it for floating point comparisons
    const epsilon = 0.3;

    // if coefficient is more than an arbitrary epsilon,
    // these lines are nor collinear
    if (Math.abs(kP1 - kL) > epsilon && Math.abs(kP2 - kL) > epsilon) {
      return false;
    }

    // store the coefficient because we are goint to need it
    kLine = kL;
    idx = i;

    return true;
  });

  // Return a coordinate that is always on the line segment
  if (retVal === true) {
    return { x: point[0], y: kLine * point[0], segment: idx };
  }

  return null;
};
-												Reintroduce multi-point arrows and add migration for it (#635)

* Revert "Revert "Feature: Multi Point Arrows (#338)" (#634)"

This reverts commit 3d2e59bfed4fa41a0cae49ee567a6f95ca26e7bf.

* Convert old arrow spec to new one

* Remove unnecessary failchecks and fix context transform issue in retina displays

* Remove old points failcheck from getArrowAbsoluteBounds

* Remove all failchecks for old arrow

* remove the rest of unnecessary checks

* Set default values for the arrow during import

* Add translations

* fix restore using unmigrated elements for state computation

* don't use width/height when migrating from new arrow spec

Co-authored-by: David Luzar <luzar.david@gmail.com>
Co-authored-by: Christopher Chedeau <vjeuxx@gmail.com>

											
										
										
											2020-02-01 15:49:18 +04:00
+								import { Point } from "roughjs/bin/geometry";
-												Move math and random files into their respective modules (#198)

* Move math and random files into their respective modules

- Move distanceBetweenPointAndSegment to math module
- Move LCG, randomSeed, and withCustomMathRandom to random module

* Add everything else back

											
										
										
											2020-01-06 13:33:22 +04:00
+								// https://stackoverflow.com/a/6853926/232122
 								export function distanceBetweenPointAndSegment(
 								  x: number,
 								  y: number,
 								  x1: number,
 								  y1: number,
 								  x2: number,
-												Set Trailing Cmma to (#525)


											
										
										
											2020-01-24 12:04:54 +02:00
+								  y2: number,
-												Move math and random files into their respective modules (#198)

* Move math and random files into their respective modules

- Move distanceBetweenPointAndSegment to math module
- Move LCG, randomSeed, and withCustomMathRandom to random module

* Add everything else back

											
										
										
											2020-01-06 13:33:22 +04:00
+								) {
 								  const A = x - x1;
 								  const B = y - y1;
 								  const C = x2 - x1;
 								  const D = y2 - y1;
 								  const dot = A * C + B * D;
 								  const lenSquare = C * C + D * D;
 								  let param = -1;
 								  if (lenSquare !== 0) {
 								    // in case of 0 length line
 								    param = dot / lenSquare;
 								  }
 								  let xx, yy;
 								  if (param < 0) {
 								    xx = x1;
 								    yy = y1;
 								  } else if (param > 1) {
 								    xx = x2;
 								    yy = y2;
 								  } else {
 								    xx = x1 + param * C;
 								    yy = y1 + param * D;
 								  }
 								  const dx = x - xx;
 								  const dy = y - yy;
 								  return Math.hypot(dx, dy);
 								}
-												Extract element functions into modules (#207)


											
										
										
											2020-01-06 19:34:22 +04:00
 								export function rotate(
 								  x1: number,
 								  y1: number,
 								  x2: number,
 								  y2: number,
-												Set Trailing Cmma to (#525)


											
										
										
											2020-01-24 12:04:54 +02:00
+								  angle: number,
-												Extract element functions into modules (#207)


											
										
										
											2020-01-06 19:34:22 +04:00
+								) {
 								  // 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,
-												Set Trailing Cmma to (#525)


											
										
										
											2020-01-24 12:04:54 +02:00
+								    (x1 - x2) * Math.sin(angle) + (y1 - y2) * Math.cos(angle) + y2,
-												Extract element functions into modules (#207)


											
										
										
											2020-01-06 19:34:22 +04:00
+								  ];
 								}
-												Reintroduce multi-point arrows and add migration for it (#635)

* Revert "Revert "Feature: Multi Point Arrows (#338)" (#634)"

This reverts commit 3d2e59bfed4fa41a0cae49ee567a6f95ca26e7bf.

* Convert old arrow spec to new one

* Remove unnecessary failchecks and fix context transform issue in retina displays

* Remove old points failcheck from getArrowAbsoluteBounds

* Remove all failchecks for old arrow

* remove the rest of unnecessary checks

* Set default values for the arrow during import

* Add translations

* fix restore using unmigrated elements for state computation

* don't use width/height when migrating from new arrow spec

Co-authored-by: David Luzar <luzar.david@gmail.com>
Co-authored-by: Christopher Chedeau <vjeuxx@gmail.com>

											
										
										
											2020-02-01 15:49:18 +04:00
 								export const getPointOnAPath = (point: Point, path: Point[]) => {
 								  const [px, py] = point;
 								  const [start, ...other] = path;
 								  let [lastX, lastY] = start;
 								  let kLine: number = 0;
 								  let idx: number = 0;
 								  // if any item in the array is true, it means that a point is
 								  // on some segment of a line based path
 								  const retVal = other.some(([x2, y2], i) => {
 								    // we always take a line when dealing with line segments
 								    const x1 = lastX;
 								    const y1 = lastY;
 								    lastX = x2;
 								    lastY = y2;
 								    // if a point is not within the domain of the line segment
 								    // it is not on the line segment
 								    if (px < x1 || px > x2) {
 								      return false;
 								    }
 								    // check if all points lie on the same line
 								    // y1 = kx1 + b, y2 = kx2 + b
 								    // y2 - y1 = k(x2 - x2) -> k = (y2 - y1) / (x2 - x1)
 								    // coefficient for the line (p0, p1)
 								    const kL = (y2 - y1) / (x2 - x1);
 								    // coefficient for the line segment (p0, point)
 								    const kP1 = (py - y1) / (px - x1);
 								    // coefficient for the line segment (point, p1)
 								    const kP2 = (py - y2) / (px - x2);
 								    // because we are basing both lines from the same starting point
 								    // the only option for collinearity is having same coefficients
 								    // using it for floating point comparisons
 								    const epsilon = 0.3;
 								    // if coefficient is more than an arbitrary epsilon,
 								    // these lines are nor collinear
 								    if (Math.abs(kP1 - kL) > epsilon && Math.abs(kP2 - kL) > epsilon) {
 								      return false;
 								    }
 								    // store the coefficient because we are goint to need it
 								    kLine = kL;
 								    idx = i;
 								    return true;
 								  });
 								  // Return a coordinate that is always on the line segment
 								  if (retVal === true) {
 								    return { x: point[0], y: kLine * point[0], segment: idx };
 								  }
 								  return null;
 								};