src/pathops/SkPathOpsCurve.h - platform/external/skqp - Gitiles

 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */
 #ifndef SkPathOpsCurve_DEFINE
 #define SkPathOpsCurve_DEFINE

 #include "SkPathOpsCubic.h"
 #include "SkPathOpsLine.h"
 #include "SkPathOpsQuad.h"

 static SkDPoint dline_xy_at_t(const SkPoint a[2], double t) {
     SkDLine line;
     line.set(a);
     return line.ptAtT(t);
 }

 static SkDPoint dquad_xy_at_t(const SkPoint a[3], double t) {
     SkDQuad quad;
     quad.set(a);
     return quad.ptAtT(t);
 }

 static SkDPoint dcubic_xy_at_t(const SkPoint a[4], double t) {
     SkDCubic cubic;
     cubic.set(a);
     return cubic.ptAtT(t);
 }

 static SkDPoint (* const CurveDPointAtT[])(const SkPoint[], double ) = {
     NULL,
     dline_xy_at_t,
     dquad_xy_at_t,
     dcubic_xy_at_t
 };

 static SkPoint fline_xy_at_t(const SkPoint a[2], double t) {
     return dline_xy_at_t(a, t).asSkPoint();
 }

 static SkPoint fquad_xy_at_t(const SkPoint a[3], double t) {
     return dquad_xy_at_t(a, t).asSkPoint();
 }

 static SkPoint fcubic_xy_at_t(const SkPoint a[4], double t) {
     return dcubic_xy_at_t(a, t).asSkPoint();
 }

 static SkPoint (* const CurvePointAtT[])(const SkPoint[], double ) = {
     NULL,
     fline_xy_at_t,
     fquad_xy_at_t,
     fcubic_xy_at_t
 };

 static SkDVector dline_dxdy_at_t(const SkPoint a[2], double ) {
     SkDLine line;
     line.set(a);
     return line[1] - line[0];
 }

 static SkDVector dquad_dxdy_at_t(const SkPoint a[3], double t) {
     SkDQuad quad;
     quad.set(a);
     return quad.dxdyAtT(t);
 }

 static SkDVector dcubic_dxdy_at_t(const SkPoint a[4], double t) {
     SkDCubic cubic;
     cubic.set(a);
     return cubic.dxdyAtT(t);
 }

 static SkDVector (* const CurveDSlopeAtT[])(const SkPoint[], double ) = {
     NULL,
     dline_dxdy_at_t,
     dquad_dxdy_at_t,
     dcubic_dxdy_at_t
 };

 static SkVector fline_dxdy_at_t(const SkPoint a[2], double ) {
     return a[1] - a[0];
 }

 static SkVector fquad_dxdy_at_t(const SkPoint a[3], double t) {
     return dquad_dxdy_at_t(a, t).asSkVector();
 }

 static SkVector fcubic_dxdy_at_t(const SkPoint a[4], double t) {
     return dcubic_dxdy_at_t(a, t).asSkVector();
 }

 static SkVector (* const CurveSlopeAtT[])(const SkPoint[], double ) = {
     NULL,
     fline_dxdy_at_t,
     fquad_dxdy_at_t,
     fcubic_dxdy_at_t
 };

 static SkPoint quad_top(const SkPoint a[3], double startT, double endT) {
     SkDQuad quad;
     quad.set(a);
     SkDPoint topPt = quad.top(startT, endT);
     return topPt.asSkPoint();
 }

 static SkPoint cubic_top(const SkPoint a[4], double startT, double endT) {
     SkDCubic cubic;
     cubic.set(a);
     SkDPoint topPt = cubic.top(startT, endT);
     return topPt.asSkPoint();
 }

 static SkPoint (* const CurveTop[])(const SkPoint[], double , double ) = {
     NULL,
     NULL,
     quad_top,
     cubic_top
 };

 static bool line_is_vertical(const SkPoint a[2], double startT, double endT) {
     SkDLine line;
     line.set(a);
     SkDPoint dst[2] = { line.ptAtT(startT), line.ptAtT(endT) };
     return AlmostEqualUlps(dst[0].fX, dst[1].fX);
 }

 static bool quad_is_vertical(const SkPoint a[3], double startT, double endT) {
     SkDQuad quad;
     quad.set(a);
     SkDQuad dst = quad.subDivide(startT, endT);
     return AlmostEqualUlps(dst[0].fX, dst[1].fX) && AlmostEqualUlps(dst[1].fX, dst[2].fX);
 }

 static bool cubic_is_vertical(const SkPoint a[4], double startT, double endT) {
     SkDCubic cubic;
     cubic.set(a);
     SkDCubic dst = cubic.subDivide(startT, endT);
     return AlmostEqualUlps(dst[0].fX, dst[1].fX) && AlmostEqualUlps(dst[1].fX, dst[2].fX)
             && AlmostEqualUlps(dst[2].fX, dst[3].fX);
 }

 static bool (* const CurveIsVertical[])(const SkPoint[], double , double) = {
     NULL,
     line_is_vertical,
     quad_is_vertical,
     cubic_is_vertical
 };

 #endif
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#ifndef SkPathOpsCurve_DEFINE
	#define SkPathOpsCurve_DEFINE

	#include "SkPathOpsCubic.h"
	#include "SkPathOpsLine.h"
	#include "SkPathOpsQuad.h"

	static SkDPoint dline_xy_at_t(const SkPoint a[2], double t) {
	SkDLine line;
	line.set(a);
	return line.ptAtT(t);
	}

	static SkDPoint dquad_xy_at_t(const SkPoint a[3], double t) {
	SkDQuad quad;
	quad.set(a);
	return quad.ptAtT(t);
	}

	static SkDPoint dcubic_xy_at_t(const SkPoint a[4], double t) {
	SkDCubic cubic;
	cubic.set(a);
	return cubic.ptAtT(t);
	}

	static SkDPoint (* const CurveDPointAtT[])(const SkPoint[], double ) = {
	NULL,
	dline_xy_at_t,
	dquad_xy_at_t,
	dcubic_xy_at_t
	};

	static SkPoint fline_xy_at_t(const SkPoint a[2], double t) {
	return dline_xy_at_t(a, t).asSkPoint();
	}

	static SkPoint fquad_xy_at_t(const SkPoint a[3], double t) {
	return dquad_xy_at_t(a, t).asSkPoint();
	}

	static SkPoint fcubic_xy_at_t(const SkPoint a[4], double t) {
	return dcubic_xy_at_t(a, t).asSkPoint();
	}

	static SkPoint (* const CurvePointAtT[])(const SkPoint[], double ) = {
	NULL,
	fline_xy_at_t,
	fquad_xy_at_t,
	fcubic_xy_at_t
	};

	static SkDVector dline_dxdy_at_t(const SkPoint a[2], double ) {
	SkDLine line;
	line.set(a);
	return line[1] - line[0];
	}

	static SkDVector dquad_dxdy_at_t(const SkPoint a[3], double t) {
	SkDQuad quad;
	quad.set(a);
	return quad.dxdyAtT(t);
	}

	static SkDVector dcubic_dxdy_at_t(const SkPoint a[4], double t) {
	SkDCubic cubic;
	cubic.set(a);
	return cubic.dxdyAtT(t);
	}

	static SkDVector (* const CurveDSlopeAtT[])(const SkPoint[], double ) = {
	NULL,
	dline_dxdy_at_t,
	dquad_dxdy_at_t,
	dcubic_dxdy_at_t
	};

	static SkVector fline_dxdy_at_t(const SkPoint a[2], double ) {
	return a[1] - a[0];
	}

	static SkVector fquad_dxdy_at_t(const SkPoint a[3], double t) {
	return dquad_dxdy_at_t(a, t).asSkVector();
	}

	static SkVector fcubic_dxdy_at_t(const SkPoint a[4], double t) {
	return dcubic_dxdy_at_t(a, t).asSkVector();
	}

	static SkVector (* const CurveSlopeAtT[])(const SkPoint[], double ) = {
	NULL,
	fline_dxdy_at_t,
	fquad_dxdy_at_t,
	fcubic_dxdy_at_t
	};

	static SkPoint quad_top(const SkPoint a[3], double startT, double endT) {
	SkDQuad quad;
	quad.set(a);
	SkDPoint topPt = quad.top(startT, endT);
	return topPt.asSkPoint();
	}

	static SkPoint cubic_top(const SkPoint a[4], double startT, double endT) {
	SkDCubic cubic;
	cubic.set(a);
	SkDPoint topPt = cubic.top(startT, endT);
	return topPt.asSkPoint();
	}

	static SkPoint (* const CurveTop[])(const SkPoint[], double , double ) = {
	NULL,
	NULL,
	quad_top,
	cubic_top
	};

	static bool line_is_vertical(const SkPoint a[2], double startT, double endT) {
	SkDLine line;
	line.set(a);
	SkDPoint dst[2] = { line.ptAtT(startT), line.ptAtT(endT) };
	return AlmostEqualUlps(dst[0].fX, dst[1].fX);
	}

	static bool quad_is_vertical(const SkPoint a[3], double startT, double endT) {
	SkDQuad quad;
	quad.set(a);
	SkDQuad dst = quad.subDivide(startT, endT);
	return AlmostEqualUlps(dst[0].fX, dst[1].fX) && AlmostEqualUlps(dst[1].fX, dst[2].fX);
	}

	static bool cubic_is_vertical(const SkPoint a[4], double startT, double endT) {
	SkDCubic cubic;
	cubic.set(a);
	SkDCubic dst = cubic.subDivide(startT, endT);
	return AlmostEqualUlps(dst[0].fX, dst[1].fX) && AlmostEqualUlps(dst[1].fX, dst[2].fX)
	&& AlmostEqualUlps(dst[2].fX, dst[3].fX);
	}

	static bool (* const CurveIsVertical[])(const SkPoint[], double , double) = {
	NULL,
	line_is_vertical,
	quad_is_vertical,
	cubic_is_vertical
	};

	#endif