/usr/include/Inventor/SbVec4i32.h is in libcoin60-dev 3.1.3-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 | #ifndef COIN_SBVEC4I32_H
#define COIN_SBVEC4I32_H
/**************************************************************************\
*
* This file is part of the Coin 3D visualization library.
* Copyright (C) by Kongsberg Oil & Gas Technologies.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* ("GPL") version 2 as published by the Free Software Foundation.
* See the file LICENSE.GPL at the root directory of this source
* distribution for additional information about the GNU GPL.
*
* For using Coin with software that can not be combined with the GNU
* GPL, and for taking advantage of the additional benefits of our
* support services, please contact Kongsberg Oil & Gas Technologies
* about acquiring a Coin Professional Edition License.
*
* See http://www.coin3d.org/ for more information.
*
* Kongsberg Oil & Gas Technologies, Bygdoy Alle 5, 0257 Oslo, NORWAY.
* http://www.sim.no/ sales@sim.no coin-support@coin3d.org
*
\**************************************************************************/
#include <Inventor/SbBasic.h>
#include <Inventor/system/inttypes.h>
#ifndef NDEBUG
#include <Inventor/errors/SoDebugError.h>
#endif // !NDEBUG
class SbVec4ui32;
class SbVec4b;
class SbVec4s;
class SbVec4f;
class SbVec4d;
class COIN_DLL_API SbVec4i32 {
public:
SbVec4i32(void) { }
SbVec4i32(const int32_t v[4]) { vec[0] = v[0]; vec[1] = v[1]; vec[2] = v[2]; vec[3] = v[3]; }
SbVec4i32(int32_t x, int32_t y, int32_t z, int32_t w) { vec[0] = x; vec[1] = y; vec[2] = z; vec[3] = w; }
explicit SbVec4i32(const SbVec4ui32 & v) { setValue(v); }
explicit SbVec4i32(const SbVec4b & v) { setValue(v); }
explicit SbVec4i32(const SbVec4s & v) { setValue(v); }
explicit SbVec4i32(const SbVec4f & v) { setValue(v); }
explicit SbVec4i32(const SbVec4d & v) { setValue(v); }
SbVec4i32 & setValue(const int32_t v[4]) { vec[0] = v[0]; vec[1] = v[1]; vec[2] = v[2]; vec[3] = v[3]; return *this; }
SbVec4i32 & setValue(int32_t x, int32_t y, int32_t z, int32_t w) { vec[0] = x; vec[1] = y; vec[2] = z; vec[3] = w; return *this; }
SbVec4i32 & setValue(const SbVec4ui32 & v);
SbVec4i32 & setValue(const SbVec4b & v);
SbVec4i32 & setValue(const SbVec4s & v);
SbVec4i32 & setValue(const SbVec4f & v);
SbVec4i32 & setValue(const SbVec4d & v);
const int32_t * getValue(void) const { return vec; }
void getValue(int32_t & x, int32_t & y, int32_t & z, int32_t & w) const { x = vec[0]; y = vec[1]; z = vec[2]; w = vec[3]; }
int32_t & operator [] (int i) { return vec[i]; }
const int32_t & operator [] (int i) const { return vec[i]; }
int32_t dot(const SbVec4i32 & v) const { return vec[0] * v[0] + vec[1] * v[1] + vec[2] * v[2] + vec[3] * v[3]; }
void negate(void) { vec[0] = -vec[0]; vec[1] = -vec[1]; vec[2] = -vec[2]; vec[3] = -vec[3]; }
SbVec4i32 & operator *= (int d) { vec[0] *= d; vec[1] *= d; vec[2] *= d; vec[3] *= d; return *this; }
SbVec4i32 & operator *= (double d);
SbVec4i32 & operator /= (int d) { SbDividerChk("SbVec4i32::operator/=(int)", d); vec[0] /= d; vec[1] /= d; vec[2] /= d; vec[3] /= d; return *this; }
SbVec4i32 & operator /= (double d) { SbDividerChk("SbVec4i32::operator/=(double)", d); return operator *= (1.0 / d); }
SbVec4i32 & operator += (const SbVec4i32 & v) { vec[0] += v[0]; vec[1] += v[1]; vec[2] += v[2]; vec[3] += v[3]; return *this; }
SbVec4i32 & operator -= (const SbVec4i32 & v) { vec[0] -= v[0]; vec[1] -= v[1]; vec[2] -= v[2]; vec[3] -= v[3]; return *this; }
SbVec4i32 operator - (void) const { return SbVec4i32(-vec[0], -vec[1], -vec[2], -vec[3]); }
protected:
int32_t vec[4];
}; // SbVec4i32
COIN_DLL_API inline SbVec4i32 operator * (const SbVec4i32 & v, int d) {
SbVec4i32 val(v); val *= d; return val;
}
COIN_DLL_API inline SbVec4i32 operator * (const SbVec4i32 & v, double d) {
SbVec4i32 val(v); val *= d; return val;
}
COIN_DLL_API inline SbVec4i32 operator * (int d, const SbVec4i32 & v) {
SbVec4i32 val(v); val *= d; return val;
}
COIN_DLL_API inline SbVec4i32 operator * (double d, const SbVec4i32 & v) {
SbVec4i32 val(v); val *= d; return val;
}
COIN_DLL_API inline SbVec4i32 operator / (const SbVec4i32 & v, int d) {
SbDividerChk("operator/(SbVec4i32,int)", d);
SbVec4i32 val(v); val /= d; return val;
}
COIN_DLL_API inline SbVec4i32 operator / (const SbVec4i32 & v, double d) {
SbDividerChk("operator/(SbVec4i32,double)", d);
SbVec4i32 val(v); val /= d; return val;
}
COIN_DLL_API inline SbVec4i32 operator + (const SbVec4i32 & v1, const SbVec4i32 & v2) {
SbVec4i32 v(v1); v += v2; return v;
}
COIN_DLL_API inline SbVec4i32 operator - (const SbVec4i32 & v1, const SbVec4i32 & v2) {
SbVec4i32 v(v1); v -= v2; return v;
}
COIN_DLL_API inline int operator == (const SbVec4i32 & v1, const SbVec4i32 & v2) {
return ((v1[0] == v2[0]) && (v1[1] == v2[1]) && (v1[2] == v2[2]) && (v1[3] == v2[3]));
}
COIN_DLL_API inline int operator != (const SbVec4i32 & v1, const SbVec4i32 & v2) {
return !(v1 == v2);
}
#endif // !COIN_SBVEC4I32_H
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