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/* $Id: macros.h,v 1.18 2001/01/24 00:04:58 brianp Exp $ */

/*
 * Mesa 3-D graphics library
 * Version:  3.5
 * 
 * Copyright (C) 1999-2000  Brian Paul   All Rights Reserved.
 * 
 * Permission is hereby granted, free of charge, to any person obtaining a
 * copy of this software and associated documentation files (the "Software"),
 * to deal in the Software without restriction, including without limitation
 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
 * and/or sell copies of the Software, and to permit persons to whom the
 * Software is furnished to do so, subject to the following conditions:
 * 
 * The above copyright notice and this permission notice shall be included
 * in all copies or substantial portions of the Software.
 * 
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
 * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
 * BRIAN PAUL BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN
 * AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
 * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
 */


/*
 * A collection of useful macros.
 */


#ifndef MACROS_H
#define MACROS_H


#include "glheader.h"
/* Do not reference mtypes.h from this file.
 */


/* Limits: */
#define MAX_GLUSHORT	0xffff
#define MAX_GLUINT	0xffffffff


/* Pi */
#ifndef M_PI
#define M_PI (3.1415926)
#endif


/* Degrees to radians conversion: */
#define DEG2RAD (M_PI/180.0)


#ifndef NULL
#define NULL 0
#endif



/*
 * Bitmask helpers
 */
#define SET_BITS(WORD, BITS)    (WORD) |= (BITS)
#define CLEAR_BITS(WORD, BITS)  (WORD) &= ~(BITS)
#define TEST_BITS(WORD, BITS)   ((WORD) & (BITS))


/* Stepping a GLfloat pointer by a byte stride 
 */
#define STRIDE_F(p, i)  (p = (GLfloat *)((GLubyte *)p + i))
#define STRIDE_UI(p, i)  (p = (GLuint *)((GLubyte *)p + i))
#define STRIDE_4UB(p, i)  (p = (GLubyte (*)[4])((GLubyte *)p + i))
#define STRIDE_4CHAN(p, i)  (p = (GLchan (*)[4])((GLchan *)p + i))
#define STRIDE_T(p, t, i)  (p = (t)((GLubyte *)p + i))


#define ZERO_2V( DST )	(DST)[0] = (DST)[1] = 0
#define ZERO_3V( DST )	(DST)[0] = (DST)[1] = (DST)[2] = 0
#define ZERO_4V( DST )	(DST)[0] = (DST)[1] = (DST)[2] = (DST)[3] = 0


#define TEST_EQ_4V(a,b)  ((a)[0] == (b)[0] && 	\
			  (a)[1] == (b)[1] &&	\
			  (a)[2] == (b)[2] &&	\
			  (a)[3] == (b)[3])

#define TEST_EQ_3V(a,b)  ((a)[0] == (b)[0] && 	\
			  (a)[1] == (b)[1] &&	\
			  (a)[2] == (b)[2])

#if defined(__i386__)
#define TEST_EQ_4UBV(DST, SRC) *((GLuint*)(DST)) == *((GLuint*)(SRC))	
#else
#define TEST_EQ_4UBV(DST, SRC) TEST_EQ_4V(DST, SRC)
#endif



/* Copy short vectors: */
#define COPY_2V( DST, SRC )			\
do {						\
   (DST)[0] = (SRC)[0];				\
   (DST)[1] = (SRC)[1];				\
} while (0)

#define COPY_3V( DST, SRC )			\
do {						\
   (DST)[0] = (SRC)[0];				\
   (DST)[1] = (SRC)[1];				\
   (DST)[2] = (SRC)[2];				\
} while (0)

#define COPY_4V( DST, SRC )			\
do {						\
   (DST)[0] = (SRC)[0];				\
   (DST)[1] = (SRC)[1];				\
   (DST)[2] = (SRC)[2];				\
   (DST)[3] = (SRC)[3];				\
} while (0)

#define COPY_4UBV(DST, SRC)			\
do {						\
   if (sizeof(GLuint)==4*sizeof(GLubyte)) {	\
      *((GLuint*)(DST)) = *((GLuint*)(SRC));	\
   }						\
   else {					\
      (DST)[0] = (SRC)[0];			\
      (DST)[1] = (SRC)[1];			\
      (DST)[2] = (SRC)[2];			\
      (DST)[3] = (SRC)[3];			\
   }						\
} while (0)


#define COPY_2FV( DST, SRC )			\
do {						\
   const GLfloat *_tmp = (SRC);			\
   (DST)[0] = _tmp[0];				\
   (DST)[1] = _tmp[1];				\
} while (0)

#define COPY_3FV( DST, SRC )			\
do {						\
   const GLfloat *_tmp = (SRC);			\
   (DST)[0] = _tmp[0];				\
   (DST)[1] = _tmp[1];				\
   (DST)[2] = _tmp[2];				\
} while (0)

#define COPY_4FV( DST, SRC )			\
do {						\
   const GLfloat *_tmp = (SRC);			\
   (DST)[0] = _tmp[0];				\
   (DST)[1] = _tmp[1];				\
   (DST)[2] = _tmp[2];				\
   (DST)[3] = _tmp[3];				\
} while (0)



#define COPY_SZ_4V(DST, SZ, SRC) 		\
do {						\
   switch (SZ) {				\
   case 4: (DST)[3] = (SRC)[3];			\
   case 3: (DST)[2] = (SRC)[2];			\
   case 2: (DST)[1] = (SRC)[1];			\
   case 1: (DST)[0] = (SRC)[0];			\
   }  						\
} while(0)			   

#define COPY_CLEAN_4V(DST, SZ, SRC) 		\
do {						\
      ASSIGN_4V( DST, 0, 0, 0, 1 );		\
      COPY_SZ_4V( DST, SZ, SRC );		\
} while (0)

#define SUB_4V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] = (SRCA)[0] - (SRCB)[0];		\
      (DST)[1] = (SRCA)[1] - (SRCB)[1];		\
      (DST)[2] = (SRCA)[2] - (SRCB)[2];		\
      (DST)[3] = (SRCA)[3] - (SRCB)[3];		\
} while (0)

#define ADD_4V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] = (SRCA)[0] + (SRCB)[0];		\
      (DST)[1] = (SRCA)[1] + (SRCB)[1];		\
      (DST)[2] = (SRCA)[2] + (SRCB)[2];		\
      (DST)[3] = (SRCA)[3] + (SRCB)[3];		\
} while (0)

#define SCALE_4V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] = (SRCA)[0] * (SRCB)[0];		\
      (DST)[1] = (SRCA)[1] * (SRCB)[1];		\
      (DST)[2] = (SRCA)[2] * (SRCB)[2];		\
      (DST)[3] = (SRCA)[3] * (SRCB)[3];		\
} while (0)

#define ACC_4V( DST, SRC )			\
do {						\
      (DST)[0] += (SRC)[0];			\
      (DST)[1] += (SRC)[1];			\
      (DST)[2] += (SRC)[2];			\
      (DST)[3] += (SRC)[3];			\
} while (0)

#define ACC_SCALE_4V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] += (SRCA)[0] * (SRCB)[0];	\
      (DST)[1] += (SRCA)[1] * (SRCB)[1];	\
      (DST)[2] += (SRCA)[2] * (SRCB)[2];	\
      (DST)[3] += (SRCA)[3] * (SRCB)[3];	\
} while (0)

#define ACC_SCALE_SCALAR_4V( DST, S, SRCB )	\
do {						\
      (DST)[0] += S * (SRCB)[0];		\
      (DST)[1] += S * (SRCB)[1];		\
      (DST)[2] += S * (SRCB)[2];		\
      (DST)[3] += S * (SRCB)[3];		\
} while (0)

#define SCALE_SCALAR_4V( DST, S, SRCB )		\
do {						\
      (DST)[0] = S * (SRCB)[0];			\
      (DST)[1] = S * (SRCB)[1];			\
      (DST)[2] = S * (SRCB)[2];			\
      (DST)[3] = S * (SRCB)[3];			\
} while (0)


#define SELF_SCALE_SCALAR_4V( DST, S )		\
do {						\
      (DST)[0] *= S;				\
      (DST)[1] *= S;				\
      (DST)[2] *= S;				\
      (DST)[3] *= S;				\
} while (0)


/*
 * Similarly for 3-vectors.
 */
#define SUB_3V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] = (SRCA)[0] - (SRCB)[0];		\
      (DST)[1] = (SRCA)[1] - (SRCB)[1];		\
      (DST)[2] = (SRCA)[2] - (SRCB)[2];		\
} while (0)

#define ADD_3V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] = (SRCA)[0] + (SRCB)[0];		\
      (DST)[1] = (SRCA)[1] + (SRCB)[1];		\
      (DST)[2] = (SRCA)[2] + (SRCB)[2];		\
} while (0)

#define SCALE_3V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] = (SRCA)[0] * (SRCB)[0];		\
      (DST)[1] = (SRCA)[1] * (SRCB)[1];		\
      (DST)[2] = (SRCA)[2] * (SRCB)[2];		\
} while (0)

#define ACC_3V( DST, SRC )			\
do {						\
      (DST)[0] += (SRC)[0];			\
      (DST)[1] += (SRC)[1];			\
      (DST)[2] += (SRC)[2];			\
} while (0)

#define ACC_SCALE_3V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] += (SRCA)[0] * (SRCB)[0];	\
      (DST)[1] += (SRCA)[1] * (SRCB)[1];	\
      (DST)[2] += (SRCA)[2] * (SRCB)[2];	\
} while (0)

#define SCALE_SCALAR_3V( DST, S, SRCB ) 	\
do {						\
      (DST)[0] = S * (SRCB)[0];			\
      (DST)[1] = S * (SRCB)[1];			\
      (DST)[2] = S * (SRCB)[2];			\
} while (0)

#define ACC_SCALE_SCALAR_3V( DST, S, SRCB )	\
do {						\
      (DST)[0] += S * (SRCB)[0];		\
      (DST)[1] += S * (SRCB)[1];		\
      (DST)[2] += S * (SRCB)[2];		\
} while (0)

#define SELF_SCALE_SCALAR_3V( DST, S )		\
do {						\
      (DST)[0] *= S;				\
      (DST)[1] *= S;				\
      (DST)[2] *= S;				\
} while (0)

#define ACC_SCALAR_3V( DST, S ) 		\
do {						\
      (DST)[0] += S;				\
      (DST)[1] += S;				\
      (DST)[2] += S;				\
} while (0)

/* And also for 2-vectors
 */
#define SUB_2V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] = (SRCA)[0] - (SRCB)[0];		\
      (DST)[1] = (SRCA)[1] - (SRCB)[1];		\
} while (0)

#define ADD_2V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] = (SRCA)[0] + (SRCB)[0];		\
      (DST)[1] = (SRCA)[1] + (SRCB)[1];		\
} while (0)

#define SCALE_2V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] = (SRCA)[0] * (SRCB)[0];		\
      (DST)[1] = (SRCA)[1] * (SRCB)[1];		\
} while (0)

#define ACC_2V( DST, SRC )			\
do {						\
      (DST)[0] += (SRC)[0];			\
      (DST)[1] += (SRC)[1];			\
} while (0)

#define ACC_SCALE_2V( DST, SRCA, SRCB )		\
do {						\
      (DST)[0] += (SRCA)[0] * (SRCB)[0];	\
      (DST)[1] += (SRCA)[1] * (SRCB)[1];	\
} while (0)

#define SCALE_SCALAR_2V( DST, S, SRCB ) 	\
do {						\
      (DST)[0] = S * (SRCB)[0];			\
      (DST)[1] = S * (SRCB)[1];			\
} while (0)

#define ACC_SCALE_SCALAR_2V( DST, S, SRCB )	\
do {						\
      (DST)[0] += S * (SRCB)[0];		\
      (DST)[1] += S * (SRCB)[1];		\
} while (0)

#define SELF_SCALE_SCALAR_2V( DST, S )		\
do {						\
      (DST)[0] *= S;				\
      (DST)[1] *= S;				\
} while (0)

#define ACC_SCALAR_2V( DST, S ) 		\
do {						\
      (DST)[0] += S;				\
      (DST)[1] += S;				\
} while (0)



/* Assign scalers to short vectors: */
#define ASSIGN_2V( V, V0, V1 )	\
do { 				\
    V[0] = V0; 			\
    V[1] = V1; 			\
} while(0)

#define ASSIGN_3V( V, V0, V1, V2 )	\
do { 				 	\
    V[0] = V0; 				\
    V[1] = V1; 				\
    V[2] = V2; 				\
} while(0)

#define ASSIGN_4V( V, V0, V1, V2, V3 ) 		\
do { 						\
    V[0] = V0;					\
    V[1] = V1;					\
    V[2] = V2;					\
    V[3] = V3; 					\
} while(0)




/* Absolute value (for Int, Float, Double): */
#define ABSI(X)  ((X) < 0 ? -(X) : (X))
#define ABSF(X)  ((X) < 0.0F ? -(X) : (X))
#define ABSD(X)  ((X) < 0.0 ? -(X) : (X))



/* Round a floating-point value to the nearest integer: */
#define ROUNDF(X)  ( (X)<0.0F ? ((GLint) ((X)-0.5F)) : ((GLint) ((X)+0.5F)) )


/* Compute ceiling of integer quotient of A divided by B: */
#define CEILING( A, B )  ( (A) % (B) == 0 ? (A)/(B) : (A)/(B)+1 )


/* Clamp X to [MIN,MAX]: */
#define CLAMP( X, MIN, MAX )  ( (X)<(MIN) ? (MIN) : ((X)>(MAX) ? (MAX) : (X)) )

/* Assign X to CLAMP(X, MIN, MAX) */
#define CLAMP_SELF(x, mn, mx)  \
   ( (x)<(mn) ? ((x) = (mn)) : ((x)>(mx) ? ((x)=(mx)) : (x)) )



/* Min of two values: */
#define MIN2( A, B )   ( (A)<(B) ? (A) : (B) )

/* MAX of two values: */
#define MAX2( A, B )   ( (A)>(B) ? (A) : (B) )

/* Dot product of two 2-element vectors */
#define DOT2( a, b )  ( (a)[0]*(b)[0] + (a)[1]*(b)[1] )

/* Dot product of two 3-element vectors */
#define DOT3( a, b )  ( (a)[0]*(b)[0] + (a)[1]*(b)[1] + (a)[2]*(b)[2] )

/* Dot product of two 4-element vectors */
#define DOT4( a, b )  ( (a)[0]*(b)[0] + (a)[1]*(b)[1] + \
			(a)[2]*(b)[2] + (a)[3]*(b)[3] )

#define DOT4V(v,a,b,c,d) (v[0]*(a) + v[1]*(b) + v[2]*(c) + v[3]*(d))


#define CROSS3(n, u, v) 			\
do {						\
   (n)[0] = (u)[1]*(v)[2] - (u)[2]*(v)[1]; 	\
   (n)[1] = (u)[2]*(v)[0] - (u)[0]*(v)[2]; 	\
   (n)[2] = (u)[0]*(v)[1] - (u)[1]*(v)[0];	\
} while (0)


#endif