src/core/SkScaleToSides.h - skia - Git at Google

 /*
  * Copyright 2016 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkScaleToSides_DEFINED
 #define SkScaleToSides_DEFINED

 #include <cmath>
 #include "SkScalar.h"
 #include "SkTypes.h"

 class ScaleToSides {
 public:
     // This code assumes that a and b fit in in a float, and therefore the resulting smaller value
     // of a and b will fit in a float. The side of the rectangle may be larger than a float.
     // Scale must be less than or equal to the ratio limit / (*a + *b).
     // This code assumes that NaN and Inf are never passed in.
     static void AdjustRadii(double limit, double scale, SkScalar* a, SkScalar* b) {
         SkASSERTF(scale < 1.0 && scale > 0.0, "scale: %g", scale);

         *a = (float)((double)*a * scale);
         *b = (float)((double)*b * scale);

         // This check is conservative. (double)*a + (double)*b >= (double)(*a + *b)
         if ((double)*a + (double)*b > limit) {
             float* minRadius = a;
             float* maxRadius = b;

             // Force minRadius to be the smaller of the two.
             if (*minRadius > *maxRadius) {
                 SkTSwap(minRadius, maxRadius);
             }

             // newMinRadius must be float in order to give the actual value of the radius.
             // The newMinRadius will always be smaller than limit. The largest that minRadius can be
             // is 1/2 the ratio of minRadius : (minRadius + maxRadius), therefore in the resulting
             // division, minRadius can be no larger than 1/2 limit + ULP.
             float newMinRadius = *minRadius;

             // Because newMaxRadius is the result of a double to float conversion, it can be larger
             // than limit, but only by one ULP.
             float newMaxRadius = (float)(limit - newMinRadius);

             // If newMaxRadius forces the total over the limit, then it needs to be
             // reduced by one ULP to be less than limit - newMinRadius.
             // Note: nexttowardf is a c99 call and should be std::nexttoward, but this is not
             // implemented in the ARM compiler.
             if ((double)newMaxRadius + (double)newMinRadius > limit) {
                 newMaxRadius = nexttowardf(newMaxRadius, 0.0);
             }
             *maxRadius = newMaxRadius;
         }

         SkASSERTF(*a >= 0.0f && *b >= 0.0f, "a: %g, b: %g", *a, *b);
         SkASSERTF((*a + *b) <= limit, "limit: %g, a: %g, b: %g", limit, *a, *b);
     }
 };
 #endif // ScaleToSides_DEFINED
	/*
	* Copyright 2016 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkScaleToSides_DEFINED
	#define SkScaleToSides_DEFINED

	#include <cmath>
	#include "SkScalar.h"
	#include "SkTypes.h"

	class ScaleToSides {
	public:
	// This code assumes that a and b fit in in a float, and therefore the resulting smaller value
	// of a and b will fit in a float. The side of the rectangle may be larger than a float.
	// Scale must be less than or equal to the ratio limit / (a + b).
	// This code assumes that NaN and Inf are never passed in.
	static void AdjustRadii(double limit, double scale, SkScalar* a, SkScalar* b) {
	SkASSERTF(scale < 1.0 && scale > 0.0, "scale: %g", scale);

	a = (float)((double)a * scale);
	b = (float)((double)b * scale);

	// This check is conservative. (double)a + (double)b >= (double)(a + b)
	if ((double)a + (double)b > limit) {
	float* minRadius = a;
	float* maxRadius = b;

	// Force minRadius to be the smaller of the two.
	if (minRadius > maxRadius) {
	SkTSwap(minRadius, maxRadius);
	}

	// newMinRadius must be float in order to give the actual value of the radius.
	// The newMinRadius will always be smaller than limit. The largest that minRadius can be
	// is 1/2 the ratio of minRadius : (minRadius + maxRadius), therefore in the resulting
	// division, minRadius can be no larger than 1/2 limit + ULP.
	float newMinRadius = *minRadius;

	// Because newMaxRadius is the result of a double to float conversion, it can be larger
	// than limit, but only by one ULP.
	float newMaxRadius = (float)(limit - newMinRadius);

	// If newMaxRadius forces the total over the limit, then it needs to be
	// reduced by one ULP to be less than limit - newMinRadius.
	// Note: nexttowardf is a c99 call and should be std::nexttoward, but this is not
	// implemented in the ARM compiler.
	if ((double)newMaxRadius + (double)newMinRadius > limit) {
	newMaxRadius = nexttowardf(newMaxRadius, 0.0);
	}
	*maxRadius = newMaxRadius;
	}

	SkASSERTF(a >= 0.0f && b >= 0.0f, "a: %g, b: %g", a, b);
	SkASSERTF((a + b) <= limit, "limit: %g, a: %g, b: %g", limit, a, b);
	}
	};
	#endif // ScaleToSides_DEFINED