/usr/include/dime/util/Linear.h is in libdime-dev 0.20111205-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* Copyright (c) Kongsberg Oil & Gas Technologies AS
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* Neither the name of the copyright holder nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
\**************************************************************************/
#ifndef DIME_LINEAR_H
#define DIME_LINEAR_H
#include <dime/Basic.h>
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
class DIME_DLL_API dimeVec2f
{
public:
dimeVec2f() {}
dimeVec2f(const dimeVec2f &vec) {x = vec.x; y = vec.y;}
dimeVec2f(dxfdouble _x, dxfdouble _y) {x = _x; y = _y;}
void setValue(const dxfdouble _x, const dxfdouble _y) {x = _x; y = _y;}
//dxfdouble operator [] (const int i) const
//{ return (i==0?x:y); }
// dxfdouble & operator [] (const int i)
//{ return(i==0?x:y);}
void print() const { printf("Coord2: (%.3f, %.3f)\n", x,y);}
void print(const char *s) {printf("%s: (%.3f, %.3f)\n", s,x,y);}
dxfdouble x,y;
}; // class dimeVec2f
typedef dimeVec2f dimeVec2d;
class DIME_DLL_API dimeVec3f
{
public:
dxfdouble x, y, z;
dimeVec3f(void) {};
dimeVec3f(const dxfdouble X, const dxfdouble Y, const dxfdouble Z)
{ x=X; y=Y; z=Z; };
dimeVec3f(const dxfdouble *xyz)
{ x = xyz[0]; y = xyz[1]; z = xyz[2]; }
dimeVec3f (const dimeVec3f& v)
{ x=v.x; y=v.y; z=v.z; };
dimeVec3f cross(const dimeVec3f &v) const
{ return dimeVec3f(y*v.z-z*v.y, z*v.x-x*v.z, x*v.y-y*v.x); }
dxfdouble dot(const dimeVec3f &v) const
{ return x*v.x+y*v.y+z*v.z; }
bool equals(const dimeVec3f &v)
{ return (x == v.x && y == v.y && z == v.z); }
bool equals(const dimeVec3f &v, dxfdouble tol)
{ return (fabs(x-v.x) <= tol && fabs(y-v.y) <= tol && fabs(z-v.z) <= tol); }
operator dxfdouble *() { return &x; }
const dxfdouble *getValue() const { return &x; }
void getValue(dxfdouble &_x, dxfdouble &_y, dxfdouble &_z) const
{ _x = x; _y = y; _z = z;}
dxfdouble length() const
{ return (dxfdouble) sqrt(x*x+y*y+z*z); }
dxfdouble sqrLength(void) const
{ return x*x+y*y+z*z; }
void negate(void)
{ x = -x; y = -y; z = -z; }
void setValue(const dxfdouble *v)
{ x = v[0]; y = v[1]; z = v[2]; }
void setValue(const dxfdouble X, const dxfdouble Y, const dxfdouble Z)
{ x=X; y=Y; z=Z; }
dxfdouble operator [] (const int i) const
{ return( (i==0)?x:((i==1)?y:z) ); };
dxfdouble & operator [] (const int i)
{ return( (i==0)?x:((i==1)?y:z) ); };
dimeVec3f &operator *= (const dxfdouble s)
{ x*=s; y*=s; z*=s; return *this; }
dimeVec3f &operator /= (const dxfdouble s)
{ x/=s; y/=s; z/=s; return *this; }
dimeVec3f &operator += (const dimeVec3f &v)
{ x+=v.x; y+=v.y; z+=v.z; return *this; }
dimeVec3f &operator -= (const dimeVec3f &v)
{ x-=v.x; y-=v.y; z-=v.z; return *this;}
dimeVec3f operator -() const
{ return dimeVec3f(-x, -y, -z); }
friend dimeVec3f operator *(const dimeVec3f &v, dxfdouble s)
{ return dimeVec3f(v.x*s, v.y*s, v.z*s); }
friend dimeVec3f operator *(dxfdouble s, const dimeVec3f &v)
{ return dimeVec3f(v.x*s, v.y*s, v.z*s); }
friend dimeVec3f operator / (const dimeVec3f &v, dxfdouble s)
{ return dimeVec3f(v.x/s, v.y/s, v.z/s); }
friend dimeVec3f operator + (const dimeVec3f &v1, const dimeVec3f &v2)
{ return dimeVec3f(v1.x+v2.x, v1.y+v2.y, v1.z+v2.z); }
friend dimeVec3f operator - (const dimeVec3f &v1, const dimeVec3f &v2)
{ return dimeVec3f(v1.x-v2.x, v1.y-v2.y, v1.z-v2.z); }
friend bool operator ==(const dimeVec3f &v1, const dimeVec3f &v2)
{ return (v1.x == v2.x && v1.y == v2.y && v1.z == v2.z); }
friend bool operator !=(const dimeVec3f &v1, const dimeVec3f &v2)
{ return (v1.x != v2.x || v1.y != v2.y || v1.z != v2.z); }
dimeVec3f& operator = (const dimeVec3f &v) // extra
{ x=v.x; y=v.y; z=v.z; return *this; }
void multMatrix(dxfdouble *matrix) // extra
{
dxfdouble tx, ty, tz;
tx = ty = tz = 0.0f;
tx = matrix[0]*x+matrix[1]*y+matrix[2]*z;
ty = matrix[4]*x+matrix[5]*y+matrix[6]*z;
tz = matrix[8]*x+matrix[9]*y+matrix[10]*z;
x = tx, y = ty, z = tz;
}
void print() const // extra
{ printf("dimeVec3f: (%.3f, %.3f, %.3f)\n",x, y, z); }
void print(const char *s) const
{ printf("%s: (%.3f, %.3f, %.3f)\n",s, x, y, z); }
dimeVec3f multComponents(const dimeVec3f &v) const
{ return dimeVec3f(x*v.x, y*v.y, z*v.z); }
dxfdouble angle(const dimeVec3f &v2);
void normalize();
}; // class dimeVec3f
typedef dimeVec3f dimeVec3d;
class DIME_DLL_API dimeMatrix
{
public:
dimeMatrix() {}
dimeMatrix(const dimeMatrix &matrix);
// Constructor given all 16 elements in row-major order
dimeMatrix(dxfdouble a11, dxfdouble a12, dxfdouble a13, dxfdouble a14,
dxfdouble a21, dxfdouble a22, dxfdouble a23, dxfdouble a24,
dxfdouble a31, dxfdouble a32, dxfdouble a33, dxfdouble a34,
dxfdouble a41, dxfdouble a42, dxfdouble a43, dxfdouble a44);
void transpose();
void makeIdentity();
bool isIdentity() const;
void setTransform(const dimeVec3f &translation,
const dimeVec3f &scalefactor,
const dimeVec3f &rotAngles);
dimeMatrix &multRight(const dimeMatrix &m); // this = this * m
dimeMatrix &multLeft(const dimeMatrix &m); // this = m * this
// Sets matrix to rotate by given rotation
void setRotate(const dimeVec3f &rot);
void setRotate(const dimeVec3f &x, const dimeVec3f &y, const dimeVec3f &z);
// sets matrix to rotate around given vector
void setRotation(const dimeVec3f &u, const dxfdouble angle);
// Sets matrix to scale by given uniform factor
void setScale(const dxfdouble s);
// Sets matrix to scale by given vector
void setScale(const dimeVec3f &s);
// Sets matrix to translate by given vector
void setTranslate(const dimeVec3f &t);
// Multiplies matrix by given column vector, giving vector result
void multMatrixVec(const dimeVec3f &src, dimeVec3f &dst) const;
// transforms vector
void multMatrixVec(dimeVec3f &vec) const;
// Multiplies given row vector by matrix, giving vector result
//void multVecMatrix(const dimeVec3f &src, dimeVec3f &dst) const;
// Cast: returns pointer to storage of first element
operator dxfdouble *() { return &matrix[0][0]; }
// Make it look like a usual matrix (so you can do m[3][2])
dxfdouble *operator [](int i) { return &matrix[i][0]; }
const dxfdouble * operator [](int i) const { return &matrix[i][0];}
dimeMatrix &operator =(const dimeMatrix &m);
// Performs right multiplication with another matrix
dimeMatrix &operator *=(const dimeMatrix &m) { return multRight(m); }
static dimeMatrix identity();
bool inverse();
bool inverse2();
dxfdouble determinant(const int i=-2, const int j=-1);
void operator *=(const dxfdouble val);
private:
dxfdouble matrix[4][4];
}; // class dimeMatrix
#endif // ! DIME_LINEAR_H
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