experimental/Intersection/Intersections.cpp - platform/external/skia - Git at Google

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

 #include "DataTypes.h"
 #include "Intersections.h"

 void Intersections::addCoincident(double s1, double e1, double s2, double e2) {
     SkASSERT((fCoincidentUsed & 1) != 1);
     for (int index = 0; index < fCoincidentUsed; index += 2) {
         double cs1 = fCoincidentT[fSwap][index];
         double ce1 = fCoincidentT[fSwap][index + 1];
         bool s1in = approximately_between(cs1, s1, ce1);
         bool e1in = approximately_between(cs1, e1, ce1);
         double cs2 = fCoincidentT[fSwap ^ 1][index];
         double ce2 = fCoincidentT[fSwap ^ 1][index + 1];
         bool s2in = approximately_between(cs2, s2, ce2);
         bool e2in = approximately_between(cs2, e2, ce2);
         if ((s1in | e1in) & (s2in | e2in)) {
             double lesser1 = SkTMin(cs1, ce1);
             index += cs1 > ce1;
             if (s1in < lesser1) {
                 fCoincidentT[fSwap][index] = s1in;
             } else if (e1in < lesser1) {
                 fCoincidentT[fSwap][index] = e1in;
             }
             index ^= 1;
             double greater1 = fCoincidentT[fSwap][index];
             if (s1in > greater1) {
                 fCoincidentT[fSwap][index] = s1in;
             } else if (e1in > greater1) {
                 fCoincidentT[fSwap][index] = e1in;
             }
             index &= ~1;
             double lesser2 = SkTMin(cs2, ce2);
             index += cs2 > ce2;
             if (s2in < lesser2) {
                 fCoincidentT[fSwap ^ 1][index] = s2in;
             } else if (e2in < lesser2) {
                 fCoincidentT[fSwap ^ 1][index] = e2in;
             }
             index ^= 1;
             double greater2 = fCoincidentT[fSwap ^ 1][index];
             if (s2in > greater2) {
                 fCoincidentT[fSwap ^ 1][index] = s2in;
             } else if (e2in > greater2) {
                 fCoincidentT[fSwap ^ 1][index] = e2in;
             }
             return;
         }
     }
     SkASSERT(fCoincidentUsed < 9);
     fCoincidentT[fSwap][fCoincidentUsed] = s1;
     fCoincidentT[fSwap ^ 1][fCoincidentUsed] = s2;
     ++fCoincidentUsed;
     fCoincidentT[fSwap][fCoincidentUsed] = e1;
     fCoincidentT[fSwap ^ 1][fCoincidentUsed] = e2;
     ++fCoincidentUsed;
 }

 void Intersections::cleanUp() {
     SkASSERT(fCoincidentUsed);
     SkASSERT(fUsed);
     // find any entries in fT that could be part of the coincident range

 }

 // FIXME: this doesn't respect swap, but add coincident does -- seems inconsistent
 void Intersections::insert(double one, double two) {
     SkASSERT(fUsed <= 1 || fT[0][0] < fT[0][1]);
     int index;
     for (index = 0; index < fUsed; ++index) {
         if (approximately_equal(fT[0][index], one)
                 && approximately_equal(fT[1][index], two)) {
             return;
         }
         if (fT[0][index] > one) {
             break;
         }
     }
     SkASSERT(fUsed < 9);
     int remaining = fUsed - index;
     if (remaining > 0) {
         memmove(&fT[0][index + 1], &fT[0][index], sizeof(fT[0][0]) * remaining);
         memmove(&fT[1][index + 1], &fT[1][index], sizeof(fT[1][0]) * remaining);
     }
     fT[0][index] = one;
     fT[1][index] = two;
     ++fUsed;
 }

 // FIXME: all callers should be moved to regular insert. Failures are likely
 // if two separate callers differ on whether ts are equal or not
 void Intersections::insertOne(double t, int side) {
     int used = side ? fUsed2 : fUsed;
     SkASSERT(used <= 1 || fT[side][0] < fT[side][1]);
     int index;
     for (index = 0; index < used; ++index) {
         if (approximately_equal(fT[side][index], t)) {
             return;
         }
         if (fT[side][index] > t) {
             break;
         }
     }
     SkASSERT(used < 9);
     int remaining = used - index;
     if (remaining > 0) {
         memmove(&fT[side][index + 1], &fT[side][index], sizeof(fT[side][0]) * remaining);
     }
     fT[side][index] = t;
     side ? ++fUsed2 : ++fUsed;
 }
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "DataTypes.h"
	#include "Intersections.h"

	void Intersections::addCoincident(double s1, double e1, double s2, double e2) {
	SkASSERT((fCoincidentUsed & 1) != 1);
	for (int index = 0; index < fCoincidentUsed; index += 2) {
	double cs1 = fCoincidentT[fSwap][index];
	double ce1 = fCoincidentT[fSwap][index + 1];
	bool s1in = approximately_between(cs1, s1, ce1);
	bool e1in = approximately_between(cs1, e1, ce1);
	double cs2 = fCoincidentT[fSwap ^ 1][index];
	double ce2 = fCoincidentT[fSwap ^ 1][index + 1];
	bool s2in = approximately_between(cs2, s2, ce2);
	bool e2in = approximately_between(cs2, e2, ce2);
	if ((s1in \| e1in) & (s2in \| e2in)) {
	double lesser1 = SkTMin(cs1, ce1);
	index += cs1 > ce1;
	if (s1in < lesser1) {
	fCoincidentT[fSwap][index] = s1in;
	} else if (e1in < lesser1) {
	fCoincidentT[fSwap][index] = e1in;
	}
	index ^= 1;
	double greater1 = fCoincidentT[fSwap][index];
	if (s1in > greater1) {
	fCoincidentT[fSwap][index] = s1in;
	} else if (e1in > greater1) {
	fCoincidentT[fSwap][index] = e1in;
	}
	index &= ~1;
	double lesser2 = SkTMin(cs2, ce2);
	index += cs2 > ce2;
	if (s2in < lesser2) {
	fCoincidentT[fSwap ^ 1][index] = s2in;
	} else if (e2in < lesser2) {
	fCoincidentT[fSwap ^ 1][index] = e2in;
	}
	index ^= 1;
	double greater2 = fCoincidentT[fSwap ^ 1][index];
	if (s2in > greater2) {
	fCoincidentT[fSwap ^ 1][index] = s2in;
	} else if (e2in > greater2) {
	fCoincidentT[fSwap ^ 1][index] = e2in;
	}
	return;
	}
	}
	SkASSERT(fCoincidentUsed < 9);
	fCoincidentT[fSwap][fCoincidentUsed] = s1;
	fCoincidentT[fSwap ^ 1][fCoincidentUsed] = s2;
	++fCoincidentUsed;
	fCoincidentT[fSwap][fCoincidentUsed] = e1;
	fCoincidentT[fSwap ^ 1][fCoincidentUsed] = e2;
	++fCoincidentUsed;
	}

	void Intersections::cleanUp() {
	SkASSERT(fCoincidentUsed);
	SkASSERT(fUsed);
	// find any entries in fT that could be part of the coincident range

	}

	// FIXME: this doesn't respect swap, but add coincident does -- seems inconsistent
	void Intersections::insert(double one, double two) {
	SkASSERT(fUsed <= 1 \|\| fT[0][0] < fT[0][1]);
	int index;
	for (index = 0; index < fUsed; ++index) {
	if (approximately_equal(fT[0][index], one)
	&& approximately_equal(fT[1][index], two)) {
	return;
	}
	if (fT[0][index] > one) {
	break;
	}
	}
	SkASSERT(fUsed < 9);
	int remaining = fUsed - index;
	if (remaining > 0) {
	memmove(&fT[0][index + 1], &fT[0][index], sizeof(fT[0][0]) * remaining);
	memmove(&fT[1][index + 1], &fT[1][index], sizeof(fT[1][0]) * remaining);
	}
	fT[0][index] = one;
	fT[1][index] = two;
	++fUsed;
	}

	// FIXME: all callers should be moved to regular insert. Failures are likely
	// if two separate callers differ on whether ts are equal or not
	void Intersections::insertOne(double t, int side) {
	int used = side ? fUsed2 : fUsed;
	SkASSERT(used <= 1 \|\| fT[side][0] < fT[side][1]);
	int index;
	for (index = 0; index < used; ++index) {
	if (approximately_equal(fT[side][index], t)) {
	return;
	}
	if (fT[side][index] > t) {
	break;
	}
	}
	SkASSERT(used < 9);
	int remaining = used - index;
	if (remaining > 0) {
	memmove(&fT[side][index + 1], &fT[side][index], sizeof(fT[side][0]) * remaining);
	}
	fT[side][index] = t;
	side ? ++fUsed2 : ++fUsed;
	}