xref: /external/deqp/framework/delibs/debase/deMath.h

#ifndef _DEMATH_H
#define _DEMATH_H
/*-------------------------------------------------------------------------
 * drawElements Base Portability Library
 * -------------------------------------
 *
 * Copyright 2014 The Android Open Source Project
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 *
 *//*!
 * \file
 * \brief Basic mathematical operations.
 *//*--------------------------------------------------------------------*/

#include "deDefs.h"

#include <math.h>
#include <float.h>

DE_BEGIN_EXTERN_C

/* Mathematical constants. */

#define DE_PI			3.14159265358979324f	/*!< Pi.					*/
#define DE_LOG_2		0.69314718056f			/*!< log_e(2.0)				*/
#define DE_INV_LOG_2	1.44269504089f			/*!< 1.0 / log_e(2.0)		*/
#define DE_E			2.71828182845904523536f	/*!< e.						*/
#define DE_LOG2_E		1.44269504088896340736f	/*!< log_2(e).				*/
#define DE_INV_LOG2_E	0.69314718055994530942f	/*!< 1.0 / log_2(e).		*/

#define DE_PI_DOUBLE	3.14159265358979323846  /*!< Pi as a double.		*/

/* Rounding mode control. */

typedef enum deRoundingMode_e
{
	DE_ROUNDINGMODE_TO_NEAREST = 0,
	DE_ROUNDINGMODE_TO_ZERO,
	DE_ROUNDINGMODE_TO_POSITIVE_INF,
	DE_ROUNDINGMODE_TO_NEGATIVE_INF,

	DE_ROUNDINGMODE_LAST
} deRoundingMode;

deRoundingMode		deGetRoundingMode	(void);
deBool				deSetRoundingMode	(deRoundingMode mode);

/* Float properties */

/* \note The NaN test probably won't work with -ffast-math */

DE_INLINE int		deFloatIsInf		(float x)		{ return (x > FLT_MAX) - (x < -FLT_MAX); }
DE_INLINE deBool	deFloatIsNaN		(float x)		{ return (x != x); }

DE_INLINE int		deIsInf				(double x)		{ return (x > DBL_MAX) - (x < -DBL_MAX); }
DE_INLINE deBool	deIsNaN				(double x)		{ return (x != x); }

/* Basic utilities. */

DE_INLINE float		deFloatAbs			(float x)						{ return (x >= 0.0f) ? x : -x; }
DE_INLINE float		deFloatMin			(float a, float b)				{ return (a <= b) ? a : b; }
DE_INLINE float		deFloatMax			(float a, float b)				{ return (a >= b) ? a : b; }
DE_INLINE float		deFloatClamp		(float x, float mn, float mx)	{ return (x <= mn) ? mn : ((x >= mx) ? mx : x); }

DE_INLINE double	deAbs				(double x)							{ return (x >= 0.0) ? x : -x; }
DE_INLINE double	deMin				(double a, double b)				{ return (a <= b) ? a : b; }
DE_INLINE double	deMax				(double a, double b)				{ return (a >= b) ? a : b; }
DE_INLINE double	deClamp				(double x, double mn, double mx)	{ return (x <= mn) ? mn : ((x >= mx) ? mx : x); }

/* Utility functions. */

DE_INLINE float		deFloatSign			(float a)					{ return (a == 0.0f) ? 0.0f : ((a > 0.0f) ? +1.0f : -1.0f); }
DE_INLINE int		deFloatIntSign		(float a)					{ return (a == 0.0f) ? 0 : ((a > 0.0f) ? +1 : -1); }
DE_INLINE float		deFloatFloor		(float a)					{ return (float)floor(a); }
DE_INLINE float		deFloatCeil			(float a)					{ return (float)ceil(a); }
DE_INLINE float		deFloatRound		(float a)					{ return deFloatFloor(a + 0.5f); }
DE_INLINE float 	deFloatFrac			(float a) 					{ return a - deFloatFloor(a); }
DE_INLINE float		deFloatMod			(float a, float b)			{ return (float)fmod(a, b); }
DE_INLINE float		deFloatModf			(float x, float* i)			{ double j = 0; double ret = modf(x, &j); *i = (float)j; return (float)ret; }
DE_INLINE float		deFloatMadd			(float a, float b, float c)	{ return (a*b) + c; }
DE_INLINE float		deFloatTrunc		(float a)					{ return deFloatSign(a) * deFloatFloor(deFloatAbs(a)); }
DE_INLINE float		deFloatLdExp		(float a, int exponent)		{ return (float)ldexp(a, exponent); }
DE_INLINE float		deFloatFrExp		(float x, int* exponent)	{ return (float)frexp(x, exponent); }
float				deFloatFractExp		(float x, int* exponent);

DE_INLINE double	deSign				(double x)						{ return deIsNaN(x) ? x : (double)((x > 0.0) - (x < 0.0)); }
DE_INLINE int		deIntSign			(double x)						{ return (x > 0.0) - (x < 0.0); }
DE_INLINE double	deFloor				(double a)						{ return floor(a); }
DE_INLINE double	deCeil				(double a)						{ return ceil(a); }
DE_INLINE double	deRound				(double a)						{ return floor(a + 0.5); }
DE_INLINE double 	deFrac				(double a) 						{ return a - deFloor(a); }
DE_INLINE double	deMod				(double a, double b)			{ return fmod(a, b); }
DE_INLINE double	deModf				(double x, double* i)			{ return modf(x, i); }
DE_INLINE double	deMadd				(double a, double b, double c)	{ return (a*b) + c; }
DE_INLINE double	deTrunc				(double a)						{ return deSign(a) * floor(fabs(a)); }
DE_INLINE double	deLdExp				(double a, int exponent)		{ return ldexp(a, exponent); }
double				deRoundEven			(double a);
DE_INLINE double	deFrExp				(double x, int* exponent)		{ return frexp(x, exponent); }
/* Like frexp, except the returned fraction is in range [1.0, 2.0) */
double				deFractExp			(double x, int* exponent);

/* Exponential functions. */

DE_INLINE float		deFloatPow			(float a, float b)			{ return (float)pow(a, b); }
DE_INLINE float		deFloatExp			(float a)					{ return (float)exp(a); }
DE_INLINE float		deFloatLog			(float a)					{ return (float)log(a); }
DE_INLINE float		deFloatExp2			(float a)					{ return (float)exp(a * DE_LOG_2); }
DE_INLINE float		deFloatLog2			(float a)					{ return (float)log(a) * DE_INV_LOG_2; }
DE_INLINE float		deFloatSqrt			(float a)					{ return (float)sqrt(a); }
DE_INLINE float		deFloatRcp			(float a)					{ return (1.0f / a); }
DE_INLINE float		deFloatRsq			(float a)					{ float s = (float)sqrt(a); return (s == 0.0f) ? 0.0f : (1.0f / s); }

DE_INLINE double	dePow				(double a, double b)		{ return pow(a, b); }
DE_INLINE double	deExp				(double a)					{ return exp(a); }
DE_INLINE double	deLog				(double a)					{ return log(a); }
DE_INLINE double	deExp2				(double a)					{ return exp(a * log(2.0)); }
DE_INLINE double	deLog2				(double a)					{ return log(a) / log(2.0); }
DE_INLINE double	deSqrt				(double a)					{ return sqrt(a); }
DE_INLINE double	deCbrt				(double a)					{ return deSign(a) * dePow(deAbs(a), 1.0 / 3.0); }

/* Geometric functions. */

DE_INLINE float		deFloatRadians		(float a)					{ return a * (DE_PI / 180.0f); }
DE_INLINE float		deFloatDegrees		(float a)					{ return a * (180.0f / DE_PI); }
DE_INLINE float		deFloatSin			(float a)					{ return (float)sin(a); }
DE_INLINE float		deFloatCos			(float a)					{ return (float)cos(a); }
DE_INLINE float		deFloatTan			(float a)					{ return (float)tan(a); }
DE_INLINE float		deFloatAsin			(float a)					{ return (float)asin(a); }
DE_INLINE float		deFloatAcos			(float a)					{ return (float)acos(a); }
DE_INLINE float		deFloatAtan2		(float y, float x)			{ return (float)atan2(y, x); }
DE_INLINE float		deFloatAtanOver		(float yOverX)				{ return (float)atan(yOverX); }
DE_INLINE float		deFloatSinh			(float a)					{ return (float)sinh(a); }
DE_INLINE float		deFloatCosh			(float a)					{ return (float)cosh(a); }
DE_INLINE float		deFloatTanh			(float a)					{ return (float)tanh(a); }
DE_INLINE float		deFloatAsinh		(float a)					{ return deFloatLog(a + deFloatSqrt(a*a + 1)); }
DE_INLINE float		deFloatAcosh		(float a)					{ return deFloatLog(a + deFloatSqrt(a*a - 1)); }
DE_INLINE float		deFloatAtanh		(float a)					{ return 0.5f*deFloatLog((1.0f+a)/(1.0f-a)); }

DE_INLINE double	deSin			(double a)						{ return sin(a); }
DE_INLINE double	deCos			(double a)						{ return cos(a); }
DE_INLINE double	deTan			(double a)						{ return tan(a); }
DE_INLINE double	deAsin			(double a)						{ return asin(a); }
DE_INLINE double	deAcos			(double a)						{ return acos(a); }
DE_INLINE double	deAtan2			(double y, double x)			{ return atan2(y, x); }
DE_INLINE double	deAtanOver		(double yOverX)					{ return atan(yOverX); }
DE_INLINE double	deSinh			(double a)						{ return sinh(a); }
DE_INLINE double	deCosh			(double a)						{ return cosh(a); }
DE_INLINE double	deTanh			(double a)						{ return tanh(a); }
DE_INLINE double	deAsinh			(double a)						{ return deLog(a + deSqrt(a*a + 1)); }
DE_INLINE double	deAcosh			(double a)						{ return deLog(a + deSqrt(a*a - 1)); }
DE_INLINE double	deAtanh			(double a)						{ return 0.5*deLog((1.0+a)/(1.0-a)); }

/* Interpolation. */

DE_INLINE float		deFloatMix			(float a, float b, float t)	{ return a*(1.0f-t) + b*t; }
DE_INLINE float		deFloatStep			(float limit, float val)	{ return (val < limit) ? 0.0f : 1.0f; }
DE_INLINE float		deFloatSmoothStep	(float e0, float e1, float v)
{
	float t;
	if (v <= e0) return 0.0f;
	if (v >= e1) return 1.0f;
	t = (v - e0) / (e1 - e0);
	return t * t * (3.0f - 2.0f * t);
}

DE_INLINE double	deMix				(double a, double b, double t)	{ return a*(1.0-t) + b*t; }
DE_INLINE double	deStep				(double limit, double val)		{ return (val < limit) ? 0.0 : 1.0; }

/* Comparison functions. */

DE_INLINE deBool	deFloatCmpEQ		(float a, float b)			{ return (a == b); }
DE_INLINE deBool	deFloatCmpNE		(float a, float b)			{ return (a != b); }
DE_INLINE deBool	deFloatCmpLT		(float a, float b)			{ return (a < b);  }
DE_INLINE deBool	deFloatCmpLE		(float a, float b)			{ return (a <= b); }
DE_INLINE deBool	deFloatCmpGT		(float a, float b)			{ return (a > b);  }
DE_INLINE deBool	deFloatCmpGE		(float a, float b)			{ return (a >= b); }

/* Conversion to integer. */

DE_INLINE float		deInt32ToFloat		(deInt32 x)					{ return (float)x; }
DE_INLINE deInt32	deChopFloatToInt32	(float x)					{ return (deInt32)x; }

DE_INLINE deInt32	deFloorFloatToInt32	(float x)					{ return (deInt32)(deFloatFloor(x)); }
DE_INLINE deInt32	deCeilFloatToInt32	(float x)					{ return (deInt32)(deFloatCeil(x)); }

/* Arithmetic round */
DE_INLINE deInt16 	deRoundFloatToInt16 (float x)				{ if(x >= 0.0f) return (deInt16)(x + 0.5f); else return (deInt16)(x - 0.5f); }
DE_INLINE deInt32	deRoundFloatToInt32	(float x)				{ if(x >= 0.0f) return (deInt32)(x + 0.5f); else return (deInt32)(x - 0.5f); }
DE_INLINE deInt64	deRoundFloatToInt64 (float x)				{ if(x >= 0.0f) return (deInt64)(x + 0.5f); else return (deInt64)(x - 0.5f); }

DE_END_EXTERN_C

#endif /* _DEMATH_H */