src/third_party/skia/include/private/SkFloatBits.h - cobalt - Git at Google

 /*
  * Copyright 2008 The Android Open Source Project
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef SkFloatBits_DEFINED
 #define SkFloatBits_DEFINED

 #include "SkTypes.h"
 #include "SkSafe_math.h"

 /** Convert a sign-bit int (i.e. float interpreted as int) into a 2s compliement
     int. This also converts -0 (0x80000000) to 0. Doing this to a float allows
     it to be compared using normal C operators (<, <=, etc.)
 */
 static inline int32_t SkSignBitTo2sCompliment(int32_t x) {
     if (x < 0) {
         x &= 0x7FFFFFFF;
         x = -x;
     }
     return x;
 }

 /** Convert a 2s compliment int to a sign-bit (i.e. int interpreted as float).
     This undoes the result of SkSignBitTo2sCompliment().
  */
 static inline int32_t Sk2sComplimentToSignBit(int32_t x) {
     int sign = x >> 31;
     // make x positive
     x = (x ^ sign) - sign;
     // set the sign bit as needed
     x |= SkLeftShift(sign, 31);
     return x;
 }

 union SkFloatIntUnion {
     float   fFloat;
     int32_t fSignBitInt;
 };

 // Helper to see a float as its bit pattern (w/o aliasing warnings)
 static inline int32_t SkFloat2Bits(float x) {
     SkFloatIntUnion data;
     data.fFloat = x;
     return data.fSignBitInt;
 }

 // Helper to see a bit pattern as a float (w/o aliasing warnings)
 static inline float SkBits2Float(int32_t floatAsBits) {
     SkFloatIntUnion data;
     data.fSignBitInt = floatAsBits;
     return data.fFloat;
 }

 /** Return the float as a 2s compliment int. Just to be used to compare floats
     to each other or against positive float-bit-constants (like 0). This does
     not return the int equivalent of the float, just something cheaper for
     compares-only.
  */
 static inline int32_t SkFloatAs2sCompliment(float x) {
     return SkSignBitTo2sCompliment(SkFloat2Bits(x));
 }

 /** Return the 2s compliment int as a float. This undos the result of
     SkFloatAs2sCompliment
  */
 static inline float Sk2sComplimentAsFloat(int32_t x) {
     return SkBits2Float(Sk2sComplimentToSignBit(x));
 }

 static inline int32_t pin_double_to_int(double x) {
     return (int32_t)SkTPin<double>(x, SK_MinS32, SK_MaxS32);
 }

 /** Return the floor of the float as an int.
     If the value is out of range, or NaN, return +/- SK_MaxS32
 */
 static inline int32_t SkFloatToIntFloor(float x) {
     return pin_double_to_int(floor(x));
 }

 /** Return the float rounded to an int.
     If the value is out of range, or NaN, return +/- SK_MaxS32
 */
 static inline int32_t SkFloatToIntRound(float x) {
     return pin_double_to_int(floor((double)x + 0.5));
 }

 /** Return the ceiling of the float as an int.
     If the value is out of range, or NaN, return +/- SK_MaxS32
 */
 static inline int32_t SkFloatToIntCeil(float x) {
     return pin_double_to_int(ceil(x));
 }

 //  Scalar wrappers for float-bit routines

 #define SkScalarAs2sCompliment(x)    SkFloatAs2sCompliment(x)
 #define Sk2sComplimentAsScalar(x)    Sk2sComplimentAsFloat(x)

 #endif
	/*
	* Copyright 2008 The Android Open Source Project
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#ifndef SkFloatBits_DEFINED
	#define SkFloatBits_DEFINED

	#include "SkTypes.h"
	#include "SkSafe_math.h"

	/** Convert a sign-bit int (i.e. float interpreted as int) into a 2s compliement
	int. This also converts -0 (0x80000000) to 0. Doing this to a float allows
	it to be compared using normal C operators (<, <=, etc.)
	*/
	static inline int32_t SkSignBitTo2sCompliment(int32_t x) {
	if (x < 0) {
	x &= 0x7FFFFFFF;
	x = -x;
	}
	return x;
	}

	/** Convert a 2s compliment int to a sign-bit (i.e. int interpreted as float).
	This undoes the result of SkSignBitTo2sCompliment().
	*/
	static inline int32_t Sk2sComplimentToSignBit(int32_t x) {
	int sign = x >> 31;
	// make x positive
	x = (x ^ sign) - sign;
	// set the sign bit as needed
	x \|= SkLeftShift(sign, 31);
	return x;
	}

	union SkFloatIntUnion {
	float fFloat;
	int32_t fSignBitInt;
	};

	// Helper to see a float as its bit pattern (w/o aliasing warnings)
	static inline int32_t SkFloat2Bits(float x) {
	SkFloatIntUnion data;
	data.fFloat = x;
	return data.fSignBitInt;
	}

	// Helper to see a bit pattern as a float (w/o aliasing warnings)
	static inline float SkBits2Float(int32_t floatAsBits) {
	SkFloatIntUnion data;
	data.fSignBitInt = floatAsBits;
	return data.fFloat;
	}

	/** Return the float as a 2s compliment int. Just to be used to compare floats
	to each other or against positive float-bit-constants (like 0). This does
	not return the int equivalent of the float, just something cheaper for
	compares-only.
	*/
	static inline int32_t SkFloatAs2sCompliment(float x) {
	return SkSignBitTo2sCompliment(SkFloat2Bits(x));
	}

	/** Return the 2s compliment int as a float. This undos the result of
	SkFloatAs2sCompliment
	*/
	static inline float Sk2sComplimentAsFloat(int32_t x) {
	return SkBits2Float(Sk2sComplimentToSignBit(x));
	}

	static inline int32_t pin_double_to_int(double x) {
	return (int32_t)SkTPin<double>(x, SK_MinS32, SK_MaxS32);
	}

	/** Return the floor of the float as an int.
	If the value is out of range, or NaN, return +/- SK_MaxS32
	*/
	static inline int32_t SkFloatToIntFloor(float x) {
	return pin_double_to_int(floor(x));
	}

	/** Return the float rounded to an int.
	If the value is out of range, or NaN, return +/- SK_MaxS32
	*/
	static inline int32_t SkFloatToIntRound(float x) {
	return pin_double_to_int(floor((double)x + 0.5));
	}

	/** Return the ceiling of the float as an int.
	If the value is out of range, or NaN, return +/- SK_MaxS32
	*/
	static inline int32_t SkFloatToIntCeil(float x) {
	return pin_double_to_int(ceil(x));
	}

	// Scalar wrappers for float-bit routines

	#define SkScalarAs2sCompliment(x) SkFloatAs2sCompliment(x)
	#define Sk2sComplimentAsScalar(x) Sk2sComplimentAsFloat(x)

	#endif