skia2/experimental/Intersection/CubicBezierClip.cpp

#include "CurveIntersection.h"
#include "LineParameters.h"
#include <algorithm> // used for std::swap

// return false if unable to clip (e.g., unable to create implicit line)
// caller should subdivide, or create degenerate if the values are too small
bool bezier_clip(const Cubic& cubic1, const Cubic& cubic2, double& minT, double& maxT) {
    minT = 1;
    maxT = 0;
    // determine normalized implicit line equation for pt[0] to pt[3]
    //   of the form ax + by + c = 0, where a*a + b*b == 1
    
    // find the implicit line equation parameters
    LineParameters endLine;
    endLine.cubicEndPoints(cubic1);
    if (!endLine.normalize()) {
        printf("line cannot be normalized: need more code here\n");
        return false;
    }

    double distance[2];
    endLine.controlPtDistance(cubic1, distance);
    
    // find fat line
    double top = distance[0];
    double bottom = distance[1];
    if (top > bottom) {
        std::swap(top, bottom);
    }
    if (top * bottom >= 0) {
        const double scale = 3/4.0; // http://cagd.cs.byu.edu/~tom/papers/bezclip.pdf (13)
        if (top < 0) {
            top *= scale;
            bottom = 0;
        } else {
            top = 0;
            bottom *= scale;
        }
    } else {
        const double scale = 4/9.0; // http://cagd.cs.byu.edu/~tom/papers/bezclip.pdf (15)
        top *= scale;
        bottom *= scale;
    }
    
    // compute intersecting candidate distance
    Cubic distance2y; // points with X of (0, 1/3, 2/3, 1)
    endLine.cubicDistanceY(cubic2, distance2y);
    
    int flags = 0;
    if (approximately_lesser(distance2y[0].y, top)) {
        flags |= kFindTopMin;
    } else if (approximately_greater(distance2y[0].y, bottom)) {
        flags |= kFindBottomMin;
    } else {
        minT = 0;
    }

    if (approximately_lesser(distance2y[3].y, top)) {
        flags |= kFindTopMax;
    } else if (approximately_greater(distance2y[3].y, bottom)) {
        flags |= kFindBottomMax;
    } else {
        maxT = 1;
    }
    // Find the intersection of distance convex hull and fat line.
    char to_0[2];
    char to_3[2];
    bool do_1_2_edge = convex_x_hull(distance2y, to_0, to_3);
    x_at(distance2y[0], distance2y[to_0[0]], top, bottom, flags, minT, maxT);
    if (to_0[0] != to_0[1]) {
        x_at(distance2y[0], distance2y[to_0[1]], top, bottom, flags, minT, maxT);
    }
    x_at(distance2y[to_3[0]], distance2y[3], top, bottom, flags, minT, maxT);
    if (to_3[0] != to_3[1]) {
        x_at(distance2y[to_3[1]], distance2y[3], top, bottom, flags, minT, maxT);
    }
    if (do_1_2_edge) {
        x_at(distance2y[1], distance2y[2], top, bottom, flags, minT, maxT);
    }
    
    return minT < maxT; // returns false if distance shows no intersection
}
save work in progress git-svn-id: http://skia.googlecode.com/svn/trunk@3141 2bbb7eff-a529-9590-31e7-b0007b416f81 2012-02-03 22:07:47 +00:00			`#include "CurveIntersection.h"`
work in progress for shape operations A experimental/Intersection A experimental/Intersection/Intersections.h A experimental/Intersection/DataTypes.cpp A experimental/Intersection/QuadraticReduceOrder.cpp A experimental/Intersection/IntersectionUtilities.cpp A experimental/Intersection/CubicIntersection_Tests.h A experimental/Intersection/LineParameteters_Test.cpp A experimental/Intersection/ReduceOrder.cpp A experimental/Intersection/QuadraticIntersection.cpp A experimental/Intersection/Extrema.h A experimental/Intersection/CubicIntersection_TestData.h A experimental/Intersection/QuadraticParameterization_Test.cpp A experimental/Intersection/TestUtilities.cpp A experimental/Intersection/CubicRoots.cpp A experimental/Intersection/QuadraticParameterization.cpp A experimental/Intersection/QuadraticSubDivide.cpp A experimental/Intersection/LineIntersection_Test.cpp A experimental/Intersection/LineIntersection.cpp A experimental/Intersection/CubicParameterizationCode.cpp A experimental/Intersection/LineParameters.h A experimental/Intersection/CubicIntersection.h A experimental/Intersection/CubeRoot.cpp A experimental/Intersection/SkAntiEdge.h A experimental/Intersection/ConvexHull_Test.cpp A experimental/Intersection/CubicBezierClip_Test.cpp A experimental/Intersection/CubicIntersection_Tests.cpp A experimental/Intersection/CubicBezierClip.cpp A experimental/Intersection/CubicIntersectionT.cpp A experimental/Intersection/Inline_Tests.cpp A experimental/Intersection/ReduceOrder_Test.cpp A experimental/Intersection/QuadraticIntersection_TestData.h A experimental/Intersection/DataTypes.h A experimental/Intersection/Extrema.cpp A experimental/Intersection/EdgeApp.cpp A experimental/Intersection/CubicIntersection_TestData.cpp A experimental/Intersection/IntersectionUtilities.h A experimental/Intersection/CubicReduceOrder.cpp A experimental/Intersection/CubicCoincidence.cpp A experimental/Intersection/CubicIntersection_Test.cpp A experimental/Intersection/CubicIntersection.cpp A experimental/Intersection/QuadraticUtilities.h A experimental/Intersection/SkAntiEdge.cpp A experimental/Intersection/TestUtilities.h A experimental/Intersection/CubicParameterization_Test.cpp A experimental/Intersection/LineIntersection.h A experimental/Intersection/CubicSubDivide.cpp A experimental/Intersection/CubicParameterization.cpp A experimental/Intersection/QuadraticBezierClip_Test.cpp A experimental/Intersection/QuadraticBezierClip.cpp A experimental/Intersection/BezierClip_Test.cpp A experimental/Intersection/ConvexHull.cpp A experimental/Intersection/BezierClip.cpp A experimental/Intersection/QuadraticIntersection_TestData.cpp git-svn-id: http://skia.googlecode.com/svn/trunk@3005 2bbb7eff-a529-9590-31e7-b0007b416f81 2012-01-10 21:46:10 +00:00			`#include "LineParameters.h"`
			`#include <algorithm> // used for std::swap`

			`// return false if unable to clip (e.g., unable to create implicit line)`
			`// caller should subdivide, or create degenerate if the values are too small`
			`bool bezier_clip(const Cubic& cubic1, const Cubic& cubic2, double& minT, double& maxT) {`
			`minT = 1;`
			`maxT = 0;`
			`// determine normalized implicit line equation for pt[0] to pt[3]`
			`// of the form ax + by + c = 0, where aa + bb == 1`

			`// find the implicit line equation parameters`
			`LineParameters endLine;`
			`endLine.cubicEndPoints(cubic1);`
			`if (!endLine.normalize()) {`
			`printf("line cannot be normalized: need more code here\n");`
			`return false;`
			`}`

			`double distance[2];`
			`endLine.controlPtDistance(cubic1, distance);`

			`// find fat line`
			`double top = distance[0];`
			`double bottom = distance[1];`
			`if (top > bottom) {`
			`std::swap(top, bottom);`
			`}`
			`if (top * bottom >= 0) {`
			`const double scale = 3/4.0; // http://cagd.cs.byu.edu/~tom/papers/bezclip.pdf (13)`
			`if (top < 0) {`
			`top *= scale;`
			`bottom = 0;`
			`} else {`
			`top = 0;`
			`bottom *= scale;`
			`}`
			`} else {`
			`const double scale = 4/9.0; // http://cagd.cs.byu.edu/~tom/papers/bezclip.pdf (15)`
			`top *= scale;`
			`bottom *= scale;`
			`}`

			`// compute intersecting candidate distance`
			`Cubic distance2y; // points with X of (0, 1/3, 2/3, 1)`
			`endLine.cubicDistanceY(cubic2, distance2y);`

			`int flags = 0;`
			`if (approximately_lesser(distance2y[0].y, top)) {`
			`flags \|= kFindTopMin;`
			`} else if (approximately_greater(distance2y[0].y, bottom)) {`
			`flags \|= kFindBottomMin;`
			`} else {`
			`minT = 0;`
			`}`

			`if (approximately_lesser(distance2y[3].y, top)) {`
			`flags \|= kFindTopMax;`
			`} else if (approximately_greater(distance2y[3].y, bottom)) {`
			`flags \|= kFindBottomMax;`
			`} else {`
			`maxT = 1;`
			`}`
			`// Find the intersection of distance convex hull and fat line.`
			`char to_0[2];`
			`char to_3[2];`
			`bool do_1_2_edge = convex_x_hull(distance2y, to_0, to_3);`
			`x_at(distance2y[0], distance2y[to_0[0]], top, bottom, flags, minT, maxT);`
			`if (to_0[0] != to_0[1]) {`
			`x_at(distance2y[0], distance2y[to_0[1]], top, bottom, flags, minT, maxT);`
			`}`
			`x_at(distance2y[to_3[0]], distance2y[3], top, bottom, flags, minT, maxT);`
			`if (to_3[0] != to_3[1]) {`
			`x_at(distance2y[to_3[1]], distance2y[3], top, bottom, flags, minT, maxT);`
			`}`
			`if (do_1_2_edge) {`
			`x_at(distance2y[1], distance2y[2], top, bottom, flags, minT, maxT);`
			`}`

			`return minT < maxT; // returns false if distance shows no intersection`
			`}`