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authorNao Pross <np@0hm.ch>2024-02-12 15:23:24 +0100
committerNao Pross <np@0hm.ch>2024-02-12 15:23:24 +0100
commitfbd6758fb4649b146176dbbc2dfe9384c69ef58d (patch)
tree0993d5c74a5cd1773ff9a572e4926d3102c0299f /src/EigenUnsupported/OpenGLSupport
parentMove into version control (diff)
downloadfsisotool-fbd6758fb4649b146176dbbc2dfe9384c69ef58d.tar.gz
fsisotool-fbd6758fb4649b146176dbbc2dfe9384c69ef58d.zip
Remove old stuff with Eigen
Diffstat (limited to 'src/EigenUnsupported/OpenGLSupport')
-rw-r--r--src/EigenUnsupported/OpenGLSupport322
1 files changed, 0 insertions, 322 deletions
diff --git a/src/EigenUnsupported/OpenGLSupport b/src/EigenUnsupported/OpenGLSupport
deleted file mode 100644
index f8c2130..0000000
--- a/src/EigenUnsupported/OpenGLSupport
+++ /dev/null
@@ -1,322 +0,0 @@
-// This file is part of Eigen, a lightweight C++ template library
-// for linear algebra.
-//
-// Copyright (C) 2010 Gael Guennebaud <gael.guennebaud@inria.fr>
-//
-// This Source Code Form is subject to the terms of the Mozilla
-// Public License v. 2.0. If a copy of the MPL was not distributed
-// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
-
-#ifndef EIGEN_OPENGL_MODULE
-#define EIGEN_OPENGL_MODULE
-
-#include "../../Eigen/Geometry"
-
-#if defined(__APPLE_CC__)
- #include <OpenGL/gl.h>
-#else
- #include <GL/gl.h>
-#endif
-
-namespace Eigen {
-
-/**
- * \defgroup OpenGLSUpport_Module OpenGL Support module
- *
- * This module provides wrapper functions for a couple of OpenGL functions
- * which simplify the way to pass Eigen's object to openGL.
- * Here is an example:
- *
- * \code
- * // You need to add path_to_eigen/unsupported to your include path.
- * #include <Eigen/OpenGLSupport>
- * // ...
- * Vector3f x, y;
- * Matrix3f rot;
- *
- * glVertex(y + x * rot);
- *
- * Quaternion q;
- * glRotate(q);
- *
- * // ...
- * \endcode
- *
- */
-//@{
-
-#define EIGEN_GL_FUNC_DECLARATION(FUNC) \
-namespace internal { \
- template< typename XprType, \
- typename Scalar = typename XprType::Scalar, \
- int Rows = XprType::RowsAtCompileTime, \
- int Cols = XprType::ColsAtCompileTime, \
- bool IsGLCompatible = bool(internal::evaluator<XprType>::Flags&LinearAccessBit) \
- && bool(XprType::Flags&DirectAccessBit) \
- && (XprType::IsVectorAtCompileTime || (XprType::Flags&RowMajorBit)==0)> \
- struct EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl); \
- \
- template<typename XprType, typename Scalar, int Rows, int Cols> \
- struct EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl)<XprType,Scalar,Rows,Cols,false> { \
- inline static void run(const XprType& p) { \
- EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl)<typename plain_matrix_type_column_major<XprType>::type>::run(p); } \
- }; \
-} \
- \
-template<typename Derived> inline void FUNC(const Eigen::DenseBase<Derived>& p) { \
- EIGEN_CAT(EIGEN_CAT(internal::gl_,FUNC),_impl)<Derived>::run(p.derived()); \
-}
-
-
-#define EIGEN_GL_FUNC_SPECIALIZATION_MAT(FUNC,SCALAR,ROWS,COLS,SUFFIX) \
-namespace internal { \
- template< typename XprType> struct EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl)<XprType, SCALAR, ROWS, COLS, true> { \
- inline static void run(const XprType& p) { FUNC##SUFFIX(p.data()); } \
- }; \
-}
-
-
-#define EIGEN_GL_FUNC_SPECIALIZATION_VEC(FUNC,SCALAR,SIZE,SUFFIX) \
-namespace internal { \
- template< typename XprType> struct EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl)<XprType, SCALAR, SIZE, 1, true> { \
- inline static void run(const XprType& p) { FUNC##SUFFIX(p.data()); } \
- }; \
- template< typename XprType> struct EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl)<XprType, SCALAR, 1, SIZE, true> { \
- inline static void run(const XprType& p) { FUNC##SUFFIX(p.data()); } \
- }; \
-}
-
-
-EIGEN_GL_FUNC_DECLARATION (glVertex)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,int, 2,2iv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,short, 2,2sv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,float, 2,2fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,double, 2,2dv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,int, 3,3iv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,short, 3,3sv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,float, 3,3fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,double, 3,3dv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,int, 4,4iv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,short, 4,4sv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,float, 4,4fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glVertex,double, 4,4dv)
-
-EIGEN_GL_FUNC_DECLARATION (glTexCoord)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,int, 2,2iv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,short, 2,2sv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,float, 2,2fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,double, 2,2dv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,int, 3,3iv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,short, 3,3sv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,float, 3,3fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,double, 3,3dv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,int, 4,4iv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,short, 4,4sv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,float, 4,4fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTexCoord,double, 4,4dv)
-
-EIGEN_GL_FUNC_DECLARATION (glColor)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,int, 2,2iv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,short, 2,2sv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,float, 2,2fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,double, 2,2dv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,int, 3,3iv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,short, 3,3sv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,float, 3,3fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,double, 3,3dv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,int, 4,4iv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,short, 4,4sv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,float, 4,4fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glColor,double, 4,4dv)
-
-EIGEN_GL_FUNC_DECLARATION (glNormal)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glNormal,int, 3,3iv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glNormal,short, 3,3sv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glNormal,float, 3,3fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glNormal,double, 3,3dv)
-
-inline void glScale2fv(const float* v) { glScalef(v[0], v[1], 1.f); }
-inline void glScale2dv(const double* v) { glScaled(v[0], v[1], 1.0); }
-inline void glScale3fv(const float* v) { glScalef(v[0], v[1], v[2]); }
-inline void glScale3dv(const double* v) { glScaled(v[0], v[1], v[2]); }
-
-EIGEN_GL_FUNC_DECLARATION (glScale)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glScale,float, 2,2fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glScale,double, 2,2dv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glScale,float, 3,3fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glScale,double, 3,3dv)
-
-template<typename Scalar> void glScale(const UniformScaling<Scalar>& s) { glScale(Matrix<Scalar,3,1>::Constant(s.factor())); }
-
-inline void glTranslate2fv(const float* v) { glTranslatef(v[0], v[1], 0.f); }
-inline void glTranslate2dv(const double* v) { glTranslated(v[0], v[1], 0.0); }
-inline void glTranslate3fv(const float* v) { glTranslatef(v[0], v[1], v[2]); }
-inline void glTranslate3dv(const double* v) { glTranslated(v[0], v[1], v[2]); }
-
-EIGEN_GL_FUNC_DECLARATION (glTranslate)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTranslate,float, 2,2fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTranslate,double, 2,2dv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTranslate,float, 3,3fv)
-EIGEN_GL_FUNC_SPECIALIZATION_VEC(glTranslate,double, 3,3dv)
-
-template<typename Scalar> void glTranslate(const Translation<Scalar,2>& t) { glTranslate(t.vector()); }
-template<typename Scalar> void glTranslate(const Translation<Scalar,3>& t) { glTranslate(t.vector()); }
-
-EIGEN_GL_FUNC_DECLARATION (glMultMatrix)
-EIGEN_GL_FUNC_SPECIALIZATION_MAT(glMultMatrix,float, 4,4,f)
-EIGEN_GL_FUNC_SPECIALIZATION_MAT(glMultMatrix,double, 4,4,d)
-
-template<typename Scalar> void glMultMatrix(const Transform<Scalar,3,Affine>& t) { glMultMatrix(t.matrix()); }
-template<typename Scalar> void glMultMatrix(const Transform<Scalar,3,Projective>& t) { glMultMatrix(t.matrix()); }
-template<typename Scalar> void glMultMatrix(const Transform<Scalar,3,AffineCompact>& t) { glMultMatrix(Transform<Scalar,3,Affine>(t).matrix()); }
-
-EIGEN_GL_FUNC_DECLARATION (glLoadMatrix)
-EIGEN_GL_FUNC_SPECIALIZATION_MAT(glLoadMatrix,float, 4,4,f)
-EIGEN_GL_FUNC_SPECIALIZATION_MAT(glLoadMatrix,double, 4,4,d)
-
-template<typename Scalar> void glLoadMatrix(const Transform<Scalar,3,Affine>& t) { glLoadMatrix(t.matrix()); }
-template<typename Scalar> void glLoadMatrix(const Transform<Scalar,3,Projective>& t) { glLoadMatrix(t.matrix()); }
-template<typename Scalar> void glLoadMatrix(const Transform<Scalar,3,AffineCompact>& t) { glLoadMatrix(Transform<Scalar,3,Affine>(t).matrix()); }
-
-inline void glRotate(const Rotation2D<float>& rot)
-{
- glRotatef(rot.angle()*180.f/float(EIGEN_PI), 0.f, 0.f, 1.f);
-}
-inline void glRotate(const Rotation2D<double>& rot)
-{
- glRotated(rot.angle()*180.0/double(EIGEN_PI), 0.0, 0.0, 1.0);
-}
-
-template<typename Derived> void glRotate(const RotationBase<Derived,3>& rot)
-{
- Transform<typename Derived::Scalar,3,Projective> tr(rot);
- glMultMatrix(tr.matrix());
-}
-
-#define EIGEN_GL_MAKE_CONST_const const
-#define EIGEN_GL_MAKE_CONST__
-#define EIGEN_GL_EVAL(X) X
-
-#define EIGEN_GL_FUNC1_DECLARATION(FUNC,ARG1,CONST) \
-namespace internal { \
- template< typename XprType, \
- typename Scalar = typename XprType::Scalar, \
- int Rows = XprType::RowsAtCompileTime, \
- int Cols = XprType::ColsAtCompileTime, \
- bool IsGLCompatible = bool(internal::evaluator<XprType>::Flags&LinearAccessBit) \
- && bool(XprType::Flags&DirectAccessBit) \
- && (XprType::IsVectorAtCompileTime || (XprType::Flags&RowMajorBit)==0)> \
- struct EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl); \
- \
- template<typename XprType, typename Scalar, int Rows, int Cols> \
- struct EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl)<XprType,Scalar,Rows,Cols,false> { \
- inline static void run(ARG1 a,EIGEN_GL_EVAL(EIGEN_GL_MAKE_CONST_##CONST) XprType& p) { \
- EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl)<typename plain_matrix_type_column_major<XprType>::type>::run(a,p); } \
- }; \
-} \
- \
-template<typename Derived> inline void FUNC(ARG1 a,EIGEN_GL_EVAL(EIGEN_GL_MAKE_CONST_##CONST) Eigen::DenseBase<Derived>& p) { \
- EIGEN_CAT(EIGEN_CAT(internal::gl_,FUNC),_impl)<Derived>::run(a,p.derived()); \
-}
-
-
-#define EIGEN_GL_FUNC1_SPECIALIZATION_MAT(FUNC,ARG1,CONST,SCALAR,ROWS,COLS,SUFFIX) \
-namespace internal { \
- template< typename XprType> struct EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl)<XprType, SCALAR, ROWS, COLS, true> { \
- inline static void run(ARG1 a, EIGEN_GL_EVAL(EIGEN_GL_MAKE_CONST_##CONST) XprType& p) { FUNC##SUFFIX(a,p.data()); } \
- }; \
-}
-
-
-#define EIGEN_GL_FUNC1_SPECIALIZATION_VEC(FUNC,ARG1,CONST,SCALAR,SIZE,SUFFIX) \
-namespace internal { \
- template< typename XprType> struct EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl)<XprType, SCALAR, SIZE, 1, true> { \
- inline static void run(ARG1 a, EIGEN_GL_EVAL(EIGEN_GL_MAKE_CONST_##CONST) XprType& p) { FUNC##SUFFIX(a,p.data()); } \
- }; \
- template< typename XprType> struct EIGEN_CAT(EIGEN_CAT(gl_,FUNC),_impl)<XprType, SCALAR, 1, SIZE, true> { \
- inline static void run(ARG1 a, EIGEN_GL_EVAL(EIGEN_GL_MAKE_CONST_##CONST) XprType& p) { FUNC##SUFFIX(a,p.data()); } \
- }; \
-}
-
-EIGEN_GL_FUNC1_DECLARATION (glGet,GLenum,_)
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glGet,GLenum,_,float, 4,4,Floatv)
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glGet,GLenum,_,double, 4,4,Doublev)
-
-// glUniform API
-
-#ifdef GL_VERSION_2_0
-
-inline void glUniform2fv_ei (GLint loc, const float* v) { glUniform2fv(loc,1,v); }
-inline void glUniform2iv_ei (GLint loc, const int* v) { glUniform2iv(loc,1,v); }
-
-inline void glUniform3fv_ei (GLint loc, const float* v) { glUniform3fv(loc,1,v); }
-inline void glUniform3iv_ei (GLint loc, const int* v) { glUniform3iv(loc,1,v); }
-
-inline void glUniform4fv_ei (GLint loc, const float* v) { glUniform4fv(loc,1,v); }
-inline void glUniform4iv_ei (GLint loc, const int* v) { glUniform4iv(loc,1,v); }
-
-inline void glUniformMatrix2fv_ei (GLint loc, const float* v) { glUniformMatrix2fv(loc,1,false,v); }
-inline void glUniformMatrix3fv_ei (GLint loc, const float* v) { glUniformMatrix3fv(loc,1,false,v); }
-inline void glUniformMatrix4fv_ei (GLint loc, const float* v) { glUniformMatrix4fv(loc,1,false,v); }
-
-
-EIGEN_GL_FUNC1_DECLARATION (glUniform,GLint,const)
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,float, 2,2fv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,int, 2,2iv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,float, 3,3fv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,int, 3,3iv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,float, 4,4fv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,int, 4,4iv_ei)
-
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glUniform,GLint,const,float, 2,2,Matrix2fv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glUniform,GLint,const,float, 3,3,Matrix3fv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glUniform,GLint,const,float, 4,4,Matrix4fv_ei)
-
-#endif
-
-#ifdef GL_VERSION_2_1
-
-inline void glUniformMatrix2x3fv_ei(GLint loc, const float* v) { glUniformMatrix2x3fv(loc,1,false,v); }
-inline void glUniformMatrix3x2fv_ei(GLint loc, const float* v) { glUniformMatrix3x2fv(loc,1,false,v); }
-inline void glUniformMatrix2x4fv_ei(GLint loc, const float* v) { glUniformMatrix2x4fv(loc,1,false,v); }
-inline void glUniformMatrix4x2fv_ei(GLint loc, const float* v) { glUniformMatrix4x2fv(loc,1,false,v); }
-inline void glUniformMatrix3x4fv_ei(GLint loc, const float* v) { glUniformMatrix3x4fv(loc,1,false,v); }
-inline void glUniformMatrix4x3fv_ei(GLint loc, const float* v) { glUniformMatrix4x3fv(loc,1,false,v); }
-
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glUniform,GLint,const,float, 2,3,Matrix2x3fv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glUniform,GLint,const,float, 3,2,Matrix3x2fv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glUniform,GLint,const,float, 2,4,Matrix2x4fv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glUniform,GLint,const,float, 4,2,Matrix4x2fv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glUniform,GLint,const,float, 3,4,Matrix3x4fv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_MAT(glUniform,GLint,const,float, 4,3,Matrix4x3fv_ei)
-
-#endif
-
-#ifdef GL_VERSION_3_0
-
-inline void glUniform2uiv_ei (GLint loc, const unsigned int* v) { glUniform2uiv(loc,1,v); }
-inline void glUniform3uiv_ei (GLint loc, const unsigned int* v) { glUniform3uiv(loc,1,v); }
-inline void glUniform4uiv_ei (GLint loc, const unsigned int* v) { glUniform4uiv(loc,1,v); }
-
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,unsigned int, 2,2uiv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,unsigned int, 3,3uiv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,unsigned int, 4,4uiv_ei)
-
-#endif
-
-#ifdef GL_ARB_gpu_shader_fp64
-inline void glUniform2dv_ei (GLint loc, const double* v) { glUniform2dv(loc,1,v); }
-inline void glUniform3dv_ei (GLint loc, const double* v) { glUniform3dv(loc,1,v); }
-inline void glUniform4dv_ei (GLint loc, const double* v) { glUniform4dv(loc,1,v); }
-
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,double, 2,2dv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,double, 3,3dv_ei)
-EIGEN_GL_FUNC1_SPECIALIZATION_VEC(glUniform,GLint,const,double, 4,4dv_ei)
-#endif
-
-
-//@}
-
-}
-
-#endif // EIGEN_OPENGL_MODULE