/usr/include/clippoly/graphmat.h is in libclippoly-dev 0.11-6+b2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* tutvis library
* Copyright (C) 1993 University of Twente
* klamer@mi.el.utwente.nl
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the Free
* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/*
graphmat.h
Author: Hans Gringhuis
graphmat - 3d graphics and associated matrix and vector routines
*/
/*
* Revision 1.7 2005/03/12 16:32:36 klamer
* Changes to keep Visual C++ (vc98) silent while compiling.
*
* Revision 1.6 2005/02/28 21:12:05 klamer
* Made changes such that gcc 3.4.2 compiles silent with -ansi -pedantic -Wall.
*
* Revision 1.5 2005/02/28 17:21:12 klamer
* Changed to have g++ 3.2.3 run silently using g++ -ansi -pedantic -Wall -Wno-unused -Wno-reorder.
* Change use of (libg++) String to ANSI C++ string.
*
* Revision 1.6 1992/10/16 16:16:47 klamer
* Gave anonymous structures and unions names;
* This to circumvent bug in gdb4.5.
*
* Revision 1.5 1992/09/11 15:08:09 klamer
* deleted const on first argument of gm_alloc.
* added const to v_len2() call.
*
* Revision 1.4 1992/05/19 07:41:49 klamer
* gm_dummy is no longer defined if C++ is used.
* C++ is more efficient now!
*
* Revision 1.3 1992/05/11 13:10:54 klamer
* Added const in prototypes for const arguments.
*
* Revision 1.2 1992/05/07 14:48:47 klamer
* made C++ compatible.
*
*/
#ifndef GRAPHMAT_INCLUDE
#define GRAPHMAT_INCLUDE
/****** Other includes ******/
#ifdef __cplusplus
#include <cstdio>
#include <cstdlib>
#include <cmath>
#else
#ifndef FILE
#include <stdio.h>
#endif
#ifndef __malloc_h
#include <malloc.h>
#endif
#ifndef __math_h
#include <math.h>
#endif
#endif
/****** DEFINES ******/
/* macro's for accessing the data elements of a vector or a matrix */
#define m_elem(mat, i, j) ((mat).m[(i)][(j)])
#define v_elem(vec, i) ((vec).a[(int)(i)])
#define v_x(vec) ((vec).s.x)
#define v_y(vec) ((vec).s.y)
#define v_z(vec) ((vec).s.z)
#define v_w(vec) ((vec).s.w)
/*
#define gm_NEW(type, ptr, func) \
(((gm_dummy = malloc(sizeof(type))) == NULL) ? \
((type *)gm_error(NOMEM, func)) : \
(type *)gm_dummy)
*/
typedef enum
{
DIV0, NOMEM, MATSING
} gm_error_t;
#ifdef __cplusplus
extern "C" void gm_error( int, const char * );
#ifdef __GNUG__
#pragma interface
#endif
inline void *
gm_alloc( /*const*/ void *ptr, const char *func, int len )
{
if (ptr != 0)
return ptr;
else
{
void *gm_dummy;
if ((gm_dummy = malloc(len)) == NULL)
return gm_error(NOMEM,func), (void *)0;
else
return gm_dummy;
}
}
#define gm_ALLOC(type, ptr, func) ((type *) \
gm_alloc(ptr, func, sizeof(type))
#else
/****** Globals ******/
char *gm_dummy; /* used for memory allocation in gm_ALLOC() */
/* check if ptr is NULL, if so then allocate memory else return ptr */
#define gm_ALLOC(type, ptr, func) (((ptr) == NULL) ? \
((gm_dummy = (char *)malloc(sizeof(type))) == NULL) ? \
(gm_error(NOMEM, func), (type *)NULL) : \
(type *)gm_dummy : (ptr))
#endif
/* if ptr is NULL then deallocate used space pointed by ptr */
#define gm_FREE(ptr) if((ptr) != NULL) free((char *)(ptr))
/* divide num by div if div != 0 else gm_error() */
#define gm_DIV(num, div, func) (((div) != 0.0) ? ((num) / (div)) : gm_error(DIV0, (func)))
/****** Level 1 : data definition ******/
typedef union hvec2_t
{
double a[3];
struct hvec2_s
{
double x, y, w;
} s;
} hvec2_t;
typedef union hvec3_t
{
double a[4];
struct hvec3_s
{
double x, y, z, w;
} s;
} hvec3_t;
typedef struct hmat2_t
{
double m[3][3];
} hmat2_t;
typedef struct hmat3_t
{
double m[4][4];
} hmat3_t;
typedef enum
{
X_AXIS, Y_AXIS, Z_AXIS
} b_axis;
/****** Level 2 : Data initialisation ******/
#define m_free2(matrix) gm_FREE(matrix)
#define v_free2(vector) gm_FREE(vector)
#define m_free3(matrix) gm_FREE(matrix)
#define v_free3(vector) gm_FREE(vector)
#ifndef __cplusplus
#define m_alloc2(m_result) gm_ALLOC(hmat2_t, (m_result), "m_alloc2()")
#define v_alloc2(v_result) gm_ALLOC(hvec2_t, (v_result), "v_alloc2()")
#define m_alloc3(m_result) gm_ALLOC(hmat3_t, (m_result), "m_alloc3()")
#define v_alloc3(v_result) gm_ALLOC(hvec3_t, (v_result), "v_alloc3()")
#else
inline void *
Alloc(unsigned int x )
{
void *res;
res = malloc(x);
if (res == 0)
gm_error(NOMEM,"Alloc");
return res;
}
inline hmat2_t *
m_alloc2(hmat2_t *r)
{
if (r)
return r;
else
return (hmat2_t *) Alloc(sizeof(hmat2_t));
}
inline hmat3_t *
m_alloc3(hmat3_t *r)
{
if (r)
return r;
else
return (hmat3_t *) Alloc(sizeof(hmat3_t));
}
inline hvec2_t *
v_alloc2(hvec2_t *r)
{
if (r)
return r;
else
return (hvec2_t *) Alloc(sizeof(hvec2_t));
}
inline hvec3_t *
v_alloc3(hvec3_t *r)
{
if (r)
return r;
else
return (hvec3_t *) Alloc(sizeof(hvec3_t));
}
#endif
/****** FUNCTION DEFINITIONS ******/
#if defined(__STDC__) || defined(__cplusplus)
# define P_(s) s
#else
# define P_(s) ()
#endif
#ifdef __cplusplus
extern "C" {
#define C__ }
#else
#define C__
#endif
hmat2_t *m_cpy2 P_((const hmat2_t *m_source, hmat2_t *m_result));
hmat2_t *m_unity2 P_((hmat2_t *m_result));
hvec2_t *v_cpy2 P_((const hvec2_t *v_source, hvec2_t *v_result));
hvec2_t *v_fill2 P_((double x, double y, double w, hvec2_t *v_result));
hvec2_t *v_unity2 P_((b_axis axis, hvec2_t *v_result));
hvec2_t *v_zero2 P_((hvec2_t *v_result));
hmat3_t *m_cpy3 P_((const hmat3_t *m_source, hmat3_t *m_result));
hmat3_t *m_unity3 P_((hmat3_t *m_result));
hvec3_t *v_cpy3 P_((const hvec3_t *v_source, hvec3_t *v_result));
hvec3_t *v_fill3 P_((double x, double y, double z, double w, hvec3_t *v_result));
hvec3_t *v_unity3 P_((b_axis axis, hvec3_t *v_result));
hvec3_t *v_zero3 P_((hvec3_t *v_result));
double m_det2 P_((const hmat2_t *matrix));
double v_len2 P_((const hvec2_t *vector));
double vtmv_mul2 P_((const hvec2_t *vector, const hmat2_t *matrix));
double vv_inprod2 P_((const hvec2_t *vectorA, const hvec2_t *vectorB));
hmat2_t *m_inv2 P_((const hmat2_t *matrix, hmat2_t *m_result));
hmat2_t *m_tra2 P_((const hmat2_t *matrix, hmat2_t *m_result));
hmat2_t *mm_add2 P_((const hmat2_t *matrixA, const hmat2_t *matrixB, hmat2_t *m_result));
hmat2_t *mm_mul2 P_((const hmat2_t *matrixA, const hmat2_t *matrixB, hmat2_t *m_result));
hmat2_t *mm_sub2 P_((const hmat2_t *matrixA, const hmat2_t *matrixB, hmat2_t *m_result));
hmat2_t *mtmm_mul2 P_((const hmat2_t *matrixA, const hmat2_t *matrixB, hmat2_t *m_result));
hmat2_t *sm_mul2 P_((double scalar, const hmat2_t *matrix, hmat2_t *m_result));
hmat2_t *vvt_mul2 P_((const hvec2_t *vectorA, const hvec2_t *vectorB, hmat2_t *m_result));
hvec2_t *mv_mul2 P_((const hmat2_t *matrix, const hvec2_t *vector, hvec2_t *v_result));
hvec2_t *sv_mul2 P_((double scalar, const hvec2_t *vector, hvec2_t *v_result));
hvec2_t *v_homo2 P_((const hvec2_t *vector, hvec2_t *v_result));
hvec2_t *v_norm2 P_((const hvec2_t *vector, hvec2_t *v_result));
hvec2_t *vv_add2 P_((const hvec2_t *vectorA, const hvec2_t *vectorB, hvec2_t *v_result));
hvec2_t *vv_sub2 P_((const hvec2_t *vectorA, const hvec2_t *vectorB, hvec2_t *v_result));
double m_det3 P_((const hmat3_t *matrix));
double v_len3 P_((const hvec3_t *vector));
double vtmv_mul3 P_((const hvec3_t *vector, const hmat3_t *matrix));
double vv_inprod3 P_((const hvec3_t *vectorA, const hvec3_t *vectorB));
hmat3_t *m_inv3 P_((const hmat3_t *matrix, hmat3_t *m_result));
hmat3_t *m_tra3 P_((const hmat3_t *matrix, hmat3_t *m_result));
hmat3_t *mm_add3 P_((const hmat3_t *matrixA, const hmat3_t *matrixB, hmat3_t *m_result));
hmat3_t *mm_mul3 P_((const hmat3_t *matrixA, const hmat3_t *matrixB, hmat3_t *m_result));
hmat3_t *mm_sub3 P_((const hmat3_t *matrixA, const hmat3_t *matrixB, hmat3_t *m_result));
hmat3_t *mtmm_mul3 P_((const hmat3_t *matrixA, const hmat3_t *matrixB, hmat3_t *m_result));
hmat3_t *sm_mul3 P_((double scalar, const hmat3_t *matrix, hmat3_t *m_result));
hvec3_t *mv_mul3 P_((const hmat3_t *matrix, const hvec3_t *vector, hvec3_t *v_result));
hvec3_t *sv_mul3 P_((double scalar, const hvec3_t *vector, hvec3_t *v_result));
hvec3_t *v_homo3 P_((const hvec3_t *vector, hvec3_t *v_result));
hvec3_t *v_norm3 P_((const hvec3_t *vector, hvec3_t *v_result));
hvec3_t *vv_add3 P_((const hvec3_t *vectorA, const hvec3_t *vectorB, hvec3_t *v_result));
hvec3_t *vv_cross3 P_((const hvec3_t *vectorA, const hvec3_t *vectorB, hvec3_t *v_result));
hvec3_t *vv_sub3 P_((const hvec3_t *vectorA, const hvec3_t *vectorB, hvec3_t *v_result));
hmat3_t *vvt_mul3 P_((const hvec3_t *vectorA, const hvec3_t *vectorB, hmat3_t *m_result));
hmat2_t *miraxis2 P_((b_axis axis, hmat2_t *m_result));
hmat2_t *mirorig2 P_((hmat2_t *m_result));
hmat2_t *rot2 P_((double rotation, hmat2_t *m_result));
hmat2_t *scaorig2 P_((double scale, hmat2_t *m_result));
hmat2_t *scaxis2 P_((double scale, b_axis axis, hmat2_t *m_result));
hmat2_t *transl2 P_((const hvec2_t *translation, hmat2_t *m_result));
hmat3_t *miraxis3 P_((b_axis axis, hmat3_t *m_result));
hmat3_t *mirorig3 P_((hmat3_t *m_result));
hmat3_t *mirplane3 P_((b_axis plane, hmat3_t *m_result));
hmat3_t *prjorthaxis P_((b_axis axis, hmat3_t *m_result));
hmat3_t *prjpersaxis P_((b_axis axis, hmat3_t *m_result));
hmat3_t *rot3 P_((double rotation, b_axis axis, hmat3_t *m_result));
hmat3_t *scaorig3 P_((double scale, hmat3_t *m_result));
hmat3_t *scaplane3 P_((double scale, b_axis plane, hmat3_t *m_result));
hmat3_t *scaxis3 P_((double scale, b_axis axis, hmat3_t *m_result));
hmat3_t *transl3 P_((const hvec3_t *translation, hmat3_t *m_result));
C__
#undef C__
#undef P_
#endif
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