src/core/SkCubicMap.cpp - skia - Git at Google

 /*
  * Copyright 2018 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "SkCubicMap.h"
 #include "SkNx.h"
 #include "../../src/pathops/SkPathOpsCubic.h"

 void SkCubicMap::setPts(SkPoint p1, SkPoint p2) {
     Sk2s s1 = Sk2s::Load(&p1) * 3;
     Sk2s s2 = Sk2s::Load(&p2) * 3;

     s1 = Sk2s::Min(Sk2s::Max(s1, 0), 3);
     s2 = Sk2s::Min(Sk2s::Max(s2, 0), 3);

     (Sk2s(1) + s1 - s2).store(&fCoeff[0]);
     (s2 - s1 - s1).store(&fCoeff[1]);
     s1.store(&fCoeff[2]);

     this->buildXTable();
 }

 SkPoint SkCubicMap::computeFromT(float t) const {
     Sk2s a = Sk2s::Load(&fCoeff[0]);
     Sk2s b = Sk2s::Load(&fCoeff[1]);
     Sk2s c = Sk2s::Load(&fCoeff[2]);

     SkPoint result;
     (((a * t + b) * t + c) * t).store(&result);
     return result;
 }

 float SkCubicMap::computeYFromX(float x) const {
     x = SkTPin<float>(x, 0, 0.99999f) * kTableCount;
     float ix = sk_float_floor(x);
     int index = (int)ix;
     SkASSERT((unsigned)index < SK_ARRAY_COUNT(fXTable));
     return this->computeFromT(fXTable[index].fT0 + fXTable[index].fDT * (x - ix)).fY;
 }

 float SkCubicMap::hackYFromX(float x) const {
     x = SkTPin<float>(x, 0, 0.99999f) * kTableCount;
     float ix = sk_float_floor(x);
     int index = (int)ix;
     SkASSERT((unsigned)index < SK_ARRAY_COUNT(fXTable));
     return fXTable[index].fY0 + fXTable[index].fDY * (x - ix);
 }

 static float compute_t_from_x(float A, float B, float C, float x) {
     double roots[3];
     SkDEBUGCODE(int count =) SkDCubic::RootsValidT(A, B, C, -x, roots);
     SkASSERT(count == 1);
     return (float)roots[0];
 }

 void SkCubicMap::buildXTable() {
     float prevT = 0;

     const float dx = 1.0f / kTableCount;
     float x = dx;

     fXTable[0].fT0 = 0;
     fXTable[0].fY0 = 0;
     for (int i = 1; i < kTableCount; ++i) {
         float t = compute_t_from_x(fCoeff[0].fX, fCoeff[1].fX, fCoeff[2].fX, x);
         SkASSERT(t > prevT);

         fXTable[i - 1].fDT = t - prevT;
         fXTable[i].fT0 = t;

         SkPoint p = this->computeFromT(t);
         fXTable[i - 1].fDY = p.fY - fXTable[i - 1].fY0;
         fXTable[i].fY0 = p.fY;

         prevT = t;
         x += dx;
     }
     fXTable[kTableCount - 1].fDT = 1 - prevT;
     fXTable[kTableCount - 1].fDY = 1 - fXTable[kTableCount - 1].fY0;
 }
	/*
	* Copyright 2018 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "SkCubicMap.h"
	#include "SkNx.h"
	#include "../../src/pathops/SkPathOpsCubic.h"

	void SkCubicMap::setPts(SkPoint p1, SkPoint p2) {
	Sk2s s1 = Sk2s::Load(&p1) * 3;
	Sk2s s2 = Sk2s::Load(&p2) * 3;

	s1 = Sk2s::Min(Sk2s::Max(s1, 0), 3);
	s2 = Sk2s::Min(Sk2s::Max(s2, 0), 3);

	(Sk2s(1) + s1 - s2).store(&fCoeff[0]);
	(s2 - s1 - s1).store(&fCoeff[1]);
	s1.store(&fCoeff[2]);

	this->buildXTable();
	}

	SkPoint SkCubicMap::computeFromT(float t) const {
	Sk2s a = Sk2s::Load(&fCoeff[0]);
	Sk2s b = Sk2s::Load(&fCoeff[1]);
	Sk2s c = Sk2s::Load(&fCoeff[2]);

	SkPoint result;
	(((a * t + b) * t + c) * t).store(&result);
	return result;
	}

	float SkCubicMap::computeYFromX(float x) const {
	x = SkTPin<float>(x, 0, 0.99999f) * kTableCount;
	float ix = sk_float_floor(x);
	int index = (int)ix;
	SkASSERT((unsigned)index < SK_ARRAY_COUNT(fXTable));
	return this->computeFromT(fXTable[index].fT0 + fXTable[index].fDT * (x - ix)).fY;
	}

	float SkCubicMap::hackYFromX(float x) const {
	x = SkTPin<float>(x, 0, 0.99999f) * kTableCount;
	float ix = sk_float_floor(x);
	int index = (int)ix;
	SkASSERT((unsigned)index < SK_ARRAY_COUNT(fXTable));
	return fXTable[index].fY0 + fXTable[index].fDY * (x - ix);
	}

	static float compute_t_from_x(float A, float B, float C, float x) {
	double roots[3];
	SkDEBUGCODE(int count =) SkDCubic::RootsValidT(A, B, C, -x, roots);
	SkASSERT(count == 1);
	return (float)roots[0];
	}

	void SkCubicMap::buildXTable() {
	float prevT = 0;

	const float dx = 1.0f / kTableCount;
	float x = dx;

	fXTable[0].fT0 = 0;
	fXTable[0].fY0 = 0;
	for (int i = 1; i < kTableCount; ++i) {
	float t = compute_t_from_x(fCoeff[0].fX, fCoeff[1].fX, fCoeff[2].fX, x);
	SkASSERT(t > prevT);

	fXTable[i - 1].fDT = t - prevT;
	fXTable[i].fT0 = t;

	SkPoint p = this->computeFromT(t);
	fXTable[i - 1].fDY = p.fY - fXTable[i - 1].fY0;
	fXTable[i].fY0 = p.fY;

	prevT = t;
	x += dx;
	}
	fXTable[kTableCount - 1].fDT = 1 - prevT;
	fXTable[kTableCount - 1].fDY = 1 - fXTable[kTableCount - 1].fY0;
	}