32

有人可以解释如何检查一个旋转的矩形是否与另一个矩形相交吗?

4

14 回答 14

38
  1. 对于两个多边形中的每条边,检查它是否可以用作分隔线。如果是这样,你就完成了:没有交叉点。
  2. 如果没有找到分隔线,则您有一个交叉点。
/// Checks if the two polygons are intersecting.
bool IsPolygonsIntersecting(Polygon a, Polygon b)
{
    foreach (var polygon in new[] { a, b })
    {
        for (int i1 = 0; i1 < polygon.Points.Count; i1++)
        {
            int i2 = (i1 + 1) % polygon.Points.Count;
            var p1 = polygon.Points[i1];
            var p2 = polygon.Points[i2];

            var normal = new Point(p2.Y - p1.Y, p1.X - p2.X);

            double? minA = null, maxA = null;
            foreach (var p in a.Points)
            {
                var projected = normal.X * p.X + normal.Y * p.Y;
                if (minA == null || projected < minA)
                    minA = projected;
                if (maxA == null || projected > maxA)
                    maxA = projected;
            }

            double? minB = null, maxB = null;
            foreach (var p in b.Points)
            {
                var projected = normal.X * p.X + normal.Y * p.Y;
                if (minB == null || projected < minB)
                    minB = projected;
                if (maxB == null || projected > maxB)
                    maxB = projected;
            }

            if (maxA < minB || maxB < minA)
                return false;
        }
    }
    return true;
}

有关更多信息,请参阅本文:2D 多边形碰撞检测 - 代码项目

注意:该算法仅适用于凸多边形,按顺时针或逆时针顺序指定。

于 2012-06-09T22:35:02.290 回答
34

在 javascript 中,完全相同的算法是(为方便起见):

/**
 * Helper function to determine whether there is an intersection between the two polygons described
 * by the lists of vertices. Uses the Separating Axis Theorem
 *
 * @param a an array of connected points [{x:, y:}, {x:, y:},...] that form a closed polygon
 * @param b an array of connected points [{x:, y:}, {x:, y:},...] that form a closed polygon
 * @return true if there is any intersection between the 2 polygons, false otherwise
 */
function doPolygonsIntersect (a, b) {
    var polygons = [a, b];
    var minA, maxA, projected, i, i1, j, minB, maxB;

    for (i = 0; i < polygons.length; i++) {

        // for each polygon, look at each edge of the polygon, and determine if it separates
        // the two shapes
        var polygon = polygons[i];
        for (i1 = 0; i1 < polygon.length; i1++) {

            // grab 2 vertices to create an edge
            var i2 = (i1 + 1) % polygon.length;
            var p1 = polygon[i1];
            var p2 = polygon[i2];

            // find the line perpendicular to this edge
            var normal = { x: p2.y - p1.y, y: p1.x - p2.x };

            minA = maxA = undefined;
            // for each vertex in the first shape, project it onto the line perpendicular to the edge
            // and keep track of the min and max of these values
            for (j = 0; j < a.length; j++) {
                projected = normal.x * a[j].x + normal.y * a[j].y;
                if (isUndefined(minA) || projected < minA) {
                    minA = projected;
                }
                if (isUndefined(maxA) || projected > maxA) {
                    maxA = projected;
                }
            }

            // for each vertex in the second shape, project it onto the line perpendicular to the edge
            // and keep track of the min and max of these values
            minB = maxB = undefined;
            for (j = 0; j < b.length; j++) {
                projected = normal.x * b[j].x + normal.y * b[j].y;
                if (isUndefined(minB) || projected < minB) {
                    minB = projected;
                }
                if (isUndefined(maxB) || projected > maxB) {
                    maxB = projected;
                }
            }

            // if there is no overlap between the projects, the edge we are looking at separates the two
            // polygons, and we know there is no overlap
            if (maxA < minB || maxB < minA) {
                CONSOLE("polygons don't intersect!");
                return false;
            }
        }
    }
    return true;
};

希望这可以帮助某人。

于 2012-09-13T21:18:36.210 回答
10

如果有人感兴趣,这里是 Java 中的相同算法。

boolean isPolygonsIntersecting(Polygon a, Polygon b)
{
    for (int x=0; x<2; x++)
    {
        Polygon polygon = (x==0) ? a : b;

        for (int i1=0; i1<polygon.getPoints().length; i1++)
        {
            int   i2 = (i1 + 1) % polygon.getPoints().length;
            Point p1 = polygon.getPoints()[i1];
            Point p2 = polygon.getPoints()[i2];

            Point normal = new Point(p2.y - p1.y, p1.x - p2.x);

            double minA = Double.POSITIVE_INFINITY;
            double maxA = Double.NEGATIVE_INFINITY;

            for (Point p : a.getPoints())
            {
                double projected = normal.x * p.x + normal.y * p.y;

                if (projected < minA)
                    minA = projected;
                if (projected > maxA)
                    maxA = projected;
            }

            double minB = Double.POSITIVE_INFINITY;
            double maxB = Double.NEGATIVE_INFINITY;

            for (Point p : b.getPoints())
            {
                double projected = normal.x * p.x + normal.y * p.y;

                if (projected < minB)
                    minB = projected;
                if (projected > maxB)
                    maxB = projected;
            }

            if (maxA < minB || maxB < minA)
                return false;
        }
    }

    return true;
}
于 2014-12-05T05:34:22.187 回答
4

查看 Oren Becker 设计的用于检测旋转矩形与形状的交集的方法:

struct _Vector2D 
{
    float x, y;
};

// C:center; S: size (w,h); ang: in radians, 
// rotate the plane by [-ang] to make the second rectangle axis in C aligned (vertical)
struct _RotRect 
{
    _Vector2D C;
    _Vector2D S;
    float ang;
};

调用以下函数将返回两个旋转的矩形是否相交:

// Rotated Rectangles Collision Detection, Oren Becker, 2001
bool check_two_rotated_rects_intersect(_RotRect * rr1, _RotRect * rr2)
{
    _Vector2D A, B,   // vertices of the rotated rr2
       C,      // center of rr2
       BL, TR; // vertices of rr2 (bottom-left, top-right)

 float ang = rr1->ang - rr2->ang, // orientation of rotated rr1
       cosa = cos(ang),           // precalculated trigonometic -
       sina = sin(ang);           // - values for repeated use

 float t, x, a;      // temporary variables for various uses
 float dx;           // deltaX for linear equations
 float ext1, ext2;   // min/max vertical values

 // move rr2 to make rr1 cannonic
 C = rr2->C;
 SubVectors2D(&C, &rr1->C);

 // rotate rr2 clockwise by rr2->ang to make rr2 axis-aligned
 RotateVector2DClockwise(&C, rr2->ang);

 // calculate vertices of (moved and axis-aligned := 'ma') rr2
 BL = TR = C;
 /*SubVectors2D(&BL, &rr2->S);
 AddVectors2D(&TR, &rr2->S);*/

 //-----------------------------------
 BL.x -= rr2->S.x/2;    BL.y -= rr2->S.y/2;
 TR.x += rr2->S.x/2;    TR.y += rr2->S.y/2;

 // calculate vertices of (rotated := 'r') rr1
 A.x = -(rr1->S.y/2)*sina; B.x = A.x; t = (rr1->S.x/2)*cosa; A.x += t; B.x -= t;
 A.y =  (rr1->S.y/2)*cosa; B.y = A.y; t = (rr1->S.x/2)*sina; A.y += t; B.y -= t;
 //---------------------------------------

 //// calculate vertices of (rotated := 'r') rr1
 //A.x = -rr1->S.y*sina; B.x = A.x; t = rr1->S.x*cosa; A.x += t; B.x -= t;
 //A.y =  rr1->S.y*cosa; B.y = A.y; t = rr1->S.x*sina; A.y += t; B.y -= t;

 t = sina*cosa;

 // verify that A is vertical min/max, B is horizontal min/max
 if (t < 0)
 {
  t = A.x; A.x = B.x; B.x = t;
  t = A.y; A.y = B.y; B.y = t;
 }

 // verify that B is horizontal minimum (leftest-vertex)
 if (sina < 0) { B.x = -B.x; B.y = -B.y; }

 // if rr2(ma) isn't in the horizontal range of
 // colliding with rr1(r), collision is impossible
 if (B.x > TR.x || B.x > -BL.x) return 0;

 // if rr1(r) is axis-aligned, vertical min/max are easy to get
 if (t == 0) {ext1 = A.y; ext2 = -ext1; }
 // else, find vertical min/max in the range [BL.x, TR.x]
 else
 {
  x = BL.x-A.x; a = TR.x-A.x;
  ext1 = A.y;
  // if the first vertical min/max isn't in (BL.x, TR.x), then
  // find the vertical min/max on BL.x or on TR.x
  if (a*x > 0)
  {
   dx = A.x;
   if (x < 0) { dx -= B.x; ext1 -= B.y; x = a; }
   else       { dx += B.x; ext1 += B.y; }
   ext1 *= x; ext1 /= dx; ext1 += A.y;
  }

  x = BL.x+A.x; a = TR.x+A.x;
  ext2 = -A.y;
  // if the second vertical min/max isn't in (BL.x, TR.x), then
  // find the local vertical min/max on BL.x or on TR.x
  if (a*x > 0)
  {
   dx = -A.x;
   if (x < 0) { dx -= B.x; ext2 -= B.y; x = a; }
   else       { dx += B.x; ext2 += B.y; }
   ext2 *= x; ext2 /= dx; ext2 -= A.y;
  }
 }

 // check whether rr2(ma) is in the vertical range of colliding with rr1(r)
 // (for the horizontal range of rr2)
 return !((ext1 < BL.y && ext2 < BL.y) ||
      (ext1 > TR.y && ext2 > TR.y));
}

inline void AddVectors2D(_Vector2D * v1, _Vector2D * v2)
{ 
    v1->x += v2->x; v1->y += v2->y; 
}

inline void SubVectors2D(_Vector2D * v1, _Vector2D * v2)
{ 
    v1->x -= v2->x; v1->y -= v2->y; 
}

inline void RotateVector2DClockwise(_Vector2D * v, float ang)
{
    float t, cosa = cos(ang), sina = sin(ang);
    t = v->x; 
    v->x = t*cosa + v->y*sina; 
    v->y = -t*sina + v->y*cosa;
}
于 2013-12-26T06:20:10.860 回答
3

在 Python 中:

def do_polygons_intersect(a, b):
    """
 * Helper function to determine whether there is an intersection between the two polygons described
 * by the lists of vertices. Uses the Separating Axis Theorem
 *
 * @param a an ndarray of connected points [[x_1, y_1], [x_2, y_2],...] that form a closed polygon
 * @param b an ndarray of connected points [[x_1, y_1], [x_2, y_2],...] that form a closed polygon
 * @return true if there is any intersection between the 2 polygons, false otherwise
    """

    polygons = [a, b];
    minA, maxA, projected, i, i1, j, minB, maxB = None, None, None, None, None, None, None, None

    for i in range(len(polygons)):

        # for each polygon, look at each edge of the polygon, and determine if it separates
        # the two shapes
        polygon = polygons[i];
        for i1 in range(len(polygon)):

            # grab 2 vertices to create an edge
            i2 = (i1 + 1) % len(polygon);
            p1 = polygon[i1];
            p2 = polygon[i2];

            # find the line perpendicular to this edge
            normal = { 'x': p2[1] - p1[1], 'y': p1[0] - p2[0] };

            minA, maxA = None, None
            # for each vertex in the first shape, project it onto the line perpendicular to the edge
            # and keep track of the min and max of these values
            for j in range(len(a)):
                projected = normal['x'] * a[j][0] + normal['y'] * a[j][1];
                if (minA is None) or (projected < minA): 
                    minA = projected

                if (maxA is None) or (projected > maxA):
                    maxA = projected

            # for each vertex in the second shape, project it onto the line perpendicular to the edge
            # and keep track of the min and max of these values
            minB, maxB = None, None
            for j in range(len(b)): 
                projected = normal['x'] * b[j][0] + normal['y'] * b[j][1]
                if (minB is None) or (projected < minB):
                    minB = projected

                if (maxB is None) or (projected > maxB):
                    maxB = projected

            # if there is no overlap between the projects, the edge we are looking at separates the two
            # polygons, and we know there is no overlap
            if (maxA < minB) or (maxB < minA):
                print("polygons don't intersect!")
                return False;

    return True
于 2019-07-10T02:58:34.857 回答
2

也许它会帮助某人。PHP中的相同算法:

function isPolygonsIntersecting($a, $b) {
    $polygons = array($a, $b);

    for ($i = 0; $i < count($polygons); $i++) {
        $polygon = $polygons[$i];

        for ($i1 = 0; $i1 < count($polygon); $i1++) {
            $i2 = ($i1 + 1) % count($polygon);
            $p1 = $polygon[$i1];
            $p2 = $polygon[$i2];

            $normal = array(
                "x" => $p2["y"] - $p1["y"], 
                "y" => $p1["x"] - $p2["x"]
            );

            $minA = NULL; $maxA = NULL;
            for ($j = 0; $j < count($a); $j++) {
                $projected = $normal["x"] * $a[$j]["x"] + $normal["y"] * $a[$j]["y"];
                if (!isset($minA) || $projected < $minA) {
                    $minA = $projected;
                }
                if (!isset($maxA) || $projected > $maxA) {
                    $maxA = $projected;
                }
            }

            $minB = NULL; $maxB = NULL;
            for ($j = 0; $j < count($b); $j++) {
                $projected = $normal["x"] * $b[$j]["x"] + $normal["y"] * $b[$j]["y"];
                if (!isset($minB) || $projected < $minB) {
                    $minB = $projected;
                }
                if (!isset($maxB) || $projected > $maxB) {
                    $maxB = $projected;
                }
            }

            if ($maxA < $minB || $maxB < $minA) {
                return false;
            }
        }
    }

    return true;
}
于 2014-08-12T10:12:27.677 回答
1

您也可以使用Rect.IntersectsWith()

例如,在 WPF 中,如果您有两个 UIElement,使用 RenderTransform 并放置在 Canvas 上,并且您想知道它们是否相交,您可以使用类似的东西:

bool IsIntersecting(UIElement element1, UIElement element2)
{
    Rect area1 = new Rect(
        (double)element1.GetValue(Canvas.TopProperty),
        (double)element1.GetValue(Canvas.LeftProperty),
        (double)element1.GetValue(Canvas.WidthProperty),
        (double)element1.GetValue(Canvas.HeightProperty));

    Rect area2 = new Rect(
        (double)element2.GetValue(Canvas.TopProperty),
        (double)element2.GetValue(Canvas.LeftProperty),
        (double)element2.GetValue(Canvas.WidthProperty),
        (double)element2.GetValue(Canvas.HeightProperty));

    Transform transform1 = element1.RenderTransform as Transform;
    Transform transform2 = element2.RenderTransform as Transform;

    if (transform1 != null)
    {
        area1.Transform(transform1.Value);
    }

    if (transform2 != null)
    {
        area2.Transform(transform2.Value);
    }

    return area1.IntersectsWith(area2);
}
于 2014-02-18T12:15:29.477 回答
0

带有切换到(例如)包括“触摸”情况的 Type(Java)Script 实现:

class Position {
    private _x: number;
    private _y: number;

    public constructor(x: number = null, y: number = null) {
        this._x = x;
        this._y = y;
    }

    public get x() { return this._x; }
    public set x(value: number) { this._x = value; }

    public get y() { return this._y; }
    public set y(value: number) { this._y = value; }
}

class Polygon {
    private _positions: Array<Position>;

    public constructor(positions: Array<Position> = null) {
        this._positions = positions;
    }

    public addPosition(position: Position) {
        if (!position) {
            return;
        }

        if (!this._positions) {
            this._positions = new Array<Position>();
        }

        this._positions.push(position);
    }

    public get positions(): ReadonlyArray<Position> { return this._positions; }

/**
 * https://stackoverflow.com/a/12414951/468910
 * 
 * Helper function to determine whether there is an intersection between the two polygons described
 * by the lists of vertices. Uses the Separating Axis Theorem
 *
 * @param polygonToCompare a polygon to compare with
 * @param allowTouch consider it an intersection when polygons only "touch"
 * @return true if there is any intersection between the 2 polygons, false otherwise
 */
  public isIntersecting(polygonToCompare: Polygon, allowTouch: boolean = true): boolean {
    const polygons: Array<ReadonlyArray<Position>> = [this.positions, polygonToCompare.positions]

    const firstPolygonPositions: ReadonlyArray<Position> = polygons[0];
    const secondPolygonPositions: ReadonlyArray<Position> = polygons[1];

    let minA, maxA, projected, i, i1, j, minB, maxB;

    for (i = 0; i < polygons.length; i++) {

        // for each polygon, look at each edge of the polygon, and determine if it separates
        // the two shapes
        const polygon = polygons[i];
        for (i1 = 0; i1 < polygon.length; i1++) {

            // grab 2 vertices to create an edge
            const i2 = (i1 + 1) % polygon.length;
            const p1 = polygon[i1];
            const p2 = polygon[i2];

            // find the line perpendicular to this edge
            const normal = {
                x: p2.y - p1.y,
                y: p1.x - p2.x
            };

            minA = maxA = undefined;
            // for each vertex in the first shape, project it onto the line perpendicular to the edge
            // and keep track of the min and max of these values
            for (j = 0; j < firstPolygonPositions.length; j++) {
                projected = normal.x * firstPolygonPositions[j].x + normal.y * firstPolygonPositions[j].y;

                if (!minA || projected < minA || (!allowTouch && projected === minA)) {
                    minA = projected;
                }

                if (!maxA || projected > maxA || (!allowTouch && projected === maxA)) {
                    maxA = projected;
                }
            }

            // for each vertex in the second shape, project it onto the line perpendicular to the edge
            // and keep track of the min and max of these values
            minB = maxB = undefined;
            for (j = 0; j < secondPolygonPositions.length; j++) {
                projected = normal.x * secondPolygonPositions[j].x + normal.y * secondPolygonPositions[j].y;

                if (!minB || projected < minB || (!allowTouch && projected === minB)) {
                    minB = projected;
                }

                if (!maxB || projected > maxB || (!allowTouch && projected === maxB)) {
                    maxB = projected;
                }
            }

            // if there is no overlap between the projects, the edge we are looking at separates the two
            // polygons, and we know there is no overlap
            if (maxA < minB || (!allowTouch && maxA === minB) || maxB < minA || (!allowTouch && maxB === minA)) {
                return false;
            }
        }
    }

    return true;
}
于 2018-05-18T11:13:48.117 回答
0

Lua 实现内置在 love2d 框架中。碰撞检测功能无论如何都在纯lua中工作

math.inf = 1e309
function love.load()
    pol = {{0, 0}, {30, 2}, {8, 30}}
    pol2 = {{60, 60}, {90, 61}, {98, 100}, {80, 100}}
end
function love.draw()
    for k,v in ipairs(pol) do
        love.graphics.line(pol[k][1], pol[k][2], pol[k % #pol + 1][1], pol[k % #pol + 1][2])
    end
    for k,v in ipairs(pol2) do
        love.graphics.line(pol2[k][1], pol2[k][2], pol2[k % #pol2 + 1][1], pol2[k % #pol2 + 1][2])
    end
end

function love.update(dt)
    pol[1][1] = love.mouse.getX()
    pol[1][2] = love.mouse.getY()
    pol[2][1] = pol[1][1] + 30
    pol[2][2] = pol[1][2] + 2
    pol[3][1] = pol[1][1] + 8
    pol[3][2] = pol[1][2] + 30

    --lazy way to see that's function works
    print(doPolygonsIntersect(pol, pol2))
end
-------------------------------------------------------------------------
function doPolygonsIntersect(a,b)
polygons = {a,b}
for i=1, #polygons do
    polygon = polygons[i]
    for i1=1, #polygon do
        i2 = i1 % #polygon + 1
        p1 = polygon[i1]
        p2 = polygon[i2]

        nx,ny = p2[2] - p1[2], p1[1] - p2[1]

        minA = math.inf
        maxA = -math.inf
        for j=1, #a do
            projected = nx * a[j][1] + ny * a[j][2]
            if projected < minA then minA = projected end
            if projected > maxA then maxA = projected end
        end

        minB = math.inf
        maxB = -math.inf
        for j=1, #b do
            projected = nx * b[j][1] + ny * b[j][2]
            if projected < minB then minB = projected end
            if projected > maxB then maxB = projected end
        end

        if maxA < minB or maxB < minA then return false end
    end
end
return true
end
于 2019-04-21T08:15:37.563 回答
0

采用 Sri 的 JavaScript 并使其与 Phaser 3 Polygons 一起使用。

    /// Checks if the two Phaser 3 polygons are intersecting.
    gameScene.doPolygonsIntersect=function(a, b) {
        // https://stackoverflow.com/questions/10962379/how-to-check-intersection-between-2-rotated-rectangles#10965077
        /**
         * Helper function to determine whether there is an intersection between the two polygons described
         * by the lists of vertices. Uses the Separating Axis Theorem
         *
         * @param a an array of connected points [{x:, y:}, {x:, y:},...] that form a closed polygon
         * @param b an array of connected points [{x:, y:}, {x:, y:},...] that form a closed polygon
         * @return true if there is any intersection between the 2 polygons, false otherwise
         */

        var polygons = [a, b];
        var minA, maxA, projected, i, i1, j, minB, maxB;

        for (i = 0; i < polygons.length; i++) {

            // for each polygon, look at each edge of the polygon, and determine if it separates
            // the two shapes
            var polygon = polygons[i];
            for (i1 = 0; i1 < polygon.points.length; i1++) {

                // grab 2 vertices to create an edge
                var i2 = (i1 + 1) % polygon.points.length;
                var p1 = polygon.points[i1];
                var p2 = polygon.points[i2];

                // find the line perpendicular to this edge
                var normal = { x: p2.y - p1.y, y: p1.x - p2.x };

                minA = maxA = undefined;
                // for each vertex in the first shape, project it onto the line perpendicular to the edge
                // and keep track of the min and max of these values
                for (j = 0; j < a.points.length; j++) {
                    projected = normal.x * a.points[j].x + normal.y * a.points[j].y;
                    if (!isDef(minA) || projected < minA) {
                        minA = projected;
                    }
                    if (!isDef(maxA) || projected > maxA) {
                        maxA = projected;
                    }
                }

                // for each vertex in the second shape, project it onto the line perpendicular to the edge
                // and keep track of the min and max of these values
                minB = maxB = undefined;
                for (j = 0; j < b.points.length; j++) {
                    projected = normal.x * b.points[j].x + normal.y * b.points[j].y;
                    if (!isDef(minB) || projected < minB) {
                        minB = projected;
                    }
                    if (!isDef(maxB) || projected > maxB) {
                        maxB = projected;
                    }
                }

                // if there is no overlap between the projects, the edge we are looking at separates the two
                // polygons, and we know there is no overlap
                if (maxA < minB || maxB < minA) {
                    console.log("polygons don't intersect!");
                    return false;
                }
            }
        }
        return true;
    };
于 2019-12-14T14:07:23.387 回答
0

它在 LUA 中,希望它能在需要时帮助某人:

function doPolygonsIntersect(a, b)
    local polygons = { a, b };
    local minA, maxA, projected, i, i1, j, minB, maxB;

    for i = 1, #polygons do
        --// for each polygon, look at each edge of the polygon, and determine if it separates
        --// the two shapes
        local polygon = polygons[i];
        for i1 = 0, (#polygon-1) do
            --// grab 2 vertices to create an edge
            local i2 = (i1 + 1) % (#polygon);
            local p1 = polygon[i1+1];
            local p2 = polygon[i2+1];

            --// find the line perpendicular to this edge
            local normal = { x = p2.y - p1.y, y = p1.x - p2.x };
            minA = nil;
            maxA = nil;

            --// for each vertex in the first shape, project it onto the line perpendicular to the edge
            --// and keep track of the min and max of these values
            for j = 1, #a do
                projected = normal.x * a[j].x + normal.y * a[j].y;
                if (minA == nil or projected < minA) then
                    minA = projected;
                end
                if (maxA == nil or projected > maxA) then
                    maxA = projected;
                end
            end

            --// for each vertex in the second shape, project it onto the line perpendicular to the edge
            --// and keep track of the min and max of these values
            minB = nil;
            maxB = nil;
            for j = 1, #b do
                projected = normal.x * b[j].x + normal.y * b[j].y;
                if (minB == nil or projected < minB) then
                    minB = projected;
                end
                if (maxB == nil or projected > maxB) then
                    maxB = projected;
                end
            end

            if (maxA < minB or maxB < minA) then
                return false;
            end
        end
    end

    return true;
end
于 2020-02-21T19:37:47.183 回答
0

Go 中公认的算法。

func isPolygonIntersecting(a *Polygon, b *Polygon) bool {
    for _, polygon := range []*Polygon{a, b} {
        for i1 := 0; i1 < len(*polygon); i1++ {
            i2 := (i1 + 1) % len(*polygon)
            p1 := (*polygon)[i1]
            p2 := (*polygon)[i2]

            normal := pixel.V(p2.Y-p1.Y, p1.X-p2.X)

            minA := math.MaxFloat64
            maxA := math.MaxFloat64
            for _, p := range *a {
                projected := normal.X*p.X + normal.Y*p.Y
                if minA == math.MaxFloat64 || projected < minA {
                    minA = projected
                }
                if maxA == math.MaxFloat64 || projected > maxA {
                    maxA = projected
                }
            }

            minB := math.MaxFloat64
            maxB := math.MaxFloat64
            for _, p := range *b {
                projected := normal.X*p.X + normal.Y*p.Y
                if minB == math.MaxFloat64 || projected < minB {
                    minB = projected
                }
                if maxB == math.MaxFloat64 || projected > maxB {
                    maxB = projected
                }
            }

            if maxA < minB || maxB < minA {
                return false
            }
        }
    }
    return true
}

type Polygon []struct {
    X float64
    Y float64
}
于 2021-01-31T04:10:18.830 回答
0

@dabs 的答案https://stackoverflow.com/a/56962827/11846040转换为 Dart:

// `CustomPoint` is just a class holding two x/y or y/x values

class Polygon {
  final CustomPoint<num> nw;
  final CustomPoint<num> ne;
  final CustomPoint<num> se;
  final CustomPoint<num> sw;

  Polygon(this.nw, this.ne, this.se, this.sw);

  List<CustomPoint<num>> get points => [nw, ne, se, sw];
}

bool overlap(Polygon a, Polygon b) {
    for (int x = 0; x < 2; x++) {
      final Polygon polygon = (x == 0) ? a : b;

      for (int i1 = 0; i1 < polygon.points.length; i1++) {
        final int i2 = (i1 + 1) % polygon.points.length;
        final CustomPoint<num> p1 = polygon.points[i1];
        final CustomPoint<num> p2 = polygon.points[i2];

        final CustomPoint<num> normal =
            CustomPoint<num>(p2.y - p1.y, p1.x - p2.x);

        double minA = double.infinity;
        double maxA = double.negativeInfinity;

        for (CustomPoint<num> p in a.points) {
          final num projected = normal.x * p.x + normal.y * p.y;

          if (projected < minA) minA = projected.toDouble();
          if (projected > maxA) maxA = projected.toDouble();
        }

        double minB = double.infinity;
        double maxB = double.negativeInfinity;

        for (CustomPoint<num> p in b.points) {
          final num projected = normal.x * p.x + normal.y * p.y;

          if (projected < minB) minB = projected.toDouble();
          if (projected > maxB) maxB = projected.toDouble();
        }

        if (maxA < minB || maxB < minA) return false;
      }
    }

    return true;
  }

我搜索了几个月才能找到这个答案,但找不到。享受你现在的人 15 年!

于 2021-10-09T11:31:21.077 回答
0

Matlab实现:

function isIntersecting = IsPolygonsIntersecting(polyVertices1, polyVertices2)
    isIntersecting = ...
        IsPolygon1Intersecting2( polyVertices1, polyVertices2 ) && ...
        IsPolygon1Intersecting2( polyVertices2, polyVertices1 );
end

function isIntersecting = IsPolygon1Intersecting2(polyVertices1,polyVertices2)
    nVertices = size(polyVertices1,1);
    isIntersecting = true;
    for i1 = 1:nVertices    
        % Current edge vertices:
        i2 = mod(i1, nVertices) + 1;
        p1 = polyVertices1(i1,:);
        p2 = polyVertices1(i2,:);

        % Project the polygon vertices on the edge normal and find the extreme values:
        normal = [p2(2) - p1(2); p1(1) - p2(1)];

        minA = min(polyVertices1 * normal);
        maxA = max(polyVertices1 * normal);
        minB = min(polyVertices2 * normal);
        maxB = max(polyVertices2 * normal);

        if (maxA < minB || maxB < minA)
            isIntersecting = false;
            return;
        end
    end
end
于 2021-11-09T12:17:49.253 回答