1
0
Fork 0
mirror of https://github.com/AquariaOSE/Aquaria.git synced 2024-11-30 06:45:43 +00:00
Aquaria/ExternalLibs/glm/gtx/simd_mat4.hpp

184 lines
5.9 KiB
C++
Raw Normal View History

2015-07-12 20:07:27 +00:00
///////////////////////////////////////////////////////////////////////////////////////////////////
// OpenGL Mathematics Copyright (c) 2005 - 2011 G-Truc Creation (www.g-truc.net)
///////////////////////////////////////////////////////////////////////////////////////////////////
// Created : 2009-05-07
// Updated : 2009-05-07
// Licence : This source is under MIT License
// File : glm/gtx/simd_vec4.hpp
///////////////////////////////////////////////////////////////////////////////////////////////////
// Dependency:
// - GLM core
// - intrinsic
///////////////////////////////////////////////////////////////////////////////////////////////////
#ifndef glm_gtx_simd_mat4
#define glm_gtx_simd_mat4
// Dependency:
#include "../glm.hpp"
#if(GLM_ARCH & GLM_ARCH_SSE2)
# include "../core/intrinsic_matrix.hpp"
# include "../gtx/simd_vec4.hpp"
#else
# error "GLM: GLM_GTX_simd_mat4 requires compiler support of SSE2 through intrinsics"
#endif
#if(defined(GLM_MESSAGES) && !defined(glm_ext))
# pragma message("GLM: GLM_GTX_simd_mat4 extension included")
#endif
namespace glm{
namespace detail
{
/// 4x4 Matrix implemented using SIMD SEE intrinsics.
/// \ingroup gtx_simd_mat4
GLM_ALIGNED_STRUCT(16) fmat4x4SIMD
{
enum ctor{null};
typedef float value_type;
typedef fvec4SIMD col_type;
typedef fvec4SIMD row_type;
typedef std::size_t size_type;
static size_type value_size();
static size_type col_size();
static size_type row_size();
static bool is_matrix();
fvec4SIMD Data[4];
//////////////////////////////////////
// Constructors
fmat4x4SIMD();
explicit fmat4x4SIMD(float const & s);
explicit fmat4x4SIMD(
float const & x0, float const & y0, float const & z0, float const & w0,
float const & x1, float const & y1, float const & z1, float const & w1,
float const & x2, float const & y2, float const & z2, float const & w2,
float const & x3, float const & y3, float const & z3, float const & w3);
explicit fmat4x4SIMD(
fvec4SIMD const & v0,
fvec4SIMD const & v1,
fvec4SIMD const & v2,
fvec4SIMD const & v3);
explicit fmat4x4SIMD(
tmat4x4<float> const & m);
// Conversions
//template <typename U>
//explicit tmat4x4(tmat4x4<U> const & m);
//explicit tmat4x4(tmat2x2<T> const & x);
//explicit tmat4x4(tmat3x3<T> const & x);
//explicit tmat4x4(tmat2x3<T> const & x);
//explicit tmat4x4(tmat3x2<T> const & x);
//explicit tmat4x4(tmat2x4<T> const & x);
//explicit tmat4x4(tmat4x2<T> const & x);
//explicit tmat4x4(tmat3x4<T> const & x);
//explicit tmat4x4(tmat4x3<T> const & x);
// Accesses
fvec4SIMD & operator[](size_type i);
fvec4SIMD const & operator[](size_type i) const;
// Unary updatable operators
fmat4x4SIMD & operator= (fmat4x4SIMD const & m);
fmat4x4SIMD & operator+= (float const & s);
fmat4x4SIMD & operator+= (fmat4x4SIMD const & m);
fmat4x4SIMD & operator-= (float const & s);
fmat4x4SIMD & operator-= (fmat4x4SIMD const & m);
fmat4x4SIMD & operator*= (float const & s);
fmat4x4SIMD & operator*= (fmat4x4SIMD const & m);
fmat4x4SIMD & operator/= (float const & s);
fmat4x4SIMD & operator/= (fmat4x4SIMD const & m);
fmat4x4SIMD & operator++ ();
fmat4x4SIMD & operator-- ();
};
// Binary operators
fmat4x4SIMD operator+ (fmat4x4SIMD const & m, float const & s);
fmat4x4SIMD operator+ (float const & s, fmat4x4SIMD const & m);
fmat4x4SIMD operator+ (fmat4x4SIMD const & m1, fmat4x4SIMD const & m2);
fmat4x4SIMD operator- (fmat4x4SIMD const & m, float const & s);
fmat4x4SIMD operator- (float const & s, fmat4x4SIMD const & m);
fmat4x4SIMD operator- (fmat4x4SIMD const & m1, fmat4x4SIMD const & m2);
fmat4x4SIMD operator* (fmat4x4SIMD const & m, float const & s);
fmat4x4SIMD operator* (float const & s, fmat4x4SIMD const & m);
fvec4SIMD operator* (fmat4x4SIMD const & m, fvec4SIMD const & v);
fvec4SIMD operator* (fvec4SIMD const & v, fmat4x4SIMD const & m);
fmat4x4SIMD operator* (fmat4x4SIMD const & m1, fmat4x4SIMD const & m2);
fmat4x4SIMD operator/ (fmat4x4SIMD const & m, float const & s);
fmat4x4SIMD operator/ (float const & s, fmat4x4SIMD const & m);
fvec4SIMD operator/ (fmat4x4SIMD const & m, fvec4SIMD const & v);
fvec4SIMD operator/ (fvec4SIMD const & v, fmat4x4SIMD const & m);
fmat4x4SIMD operator/ (fmat4x4SIMD const & m1, fmat4x4SIMD const & m2);
// Unary constant operators
fmat4x4SIMD const operator- (fmat4x4SIMD const & m);
fmat4x4SIMD const operator-- (fmat4x4SIMD const & m, int);
fmat4x4SIMD const operator++ (fmat4x4SIMD const & m, int);
}//namespace detail
namespace gtx{
namespace simd_mat4 ///< GLM_GTX_simd_mat4 extension: SIMD implementation of mat4 type.
{
typedef detail::fmat4x4SIMD simdMat4;
/// \addtogroup gtx_simd_mat4
///@{
//! Convert a simdMat4 to a mat4.
//! (From GLM_GTX_simd_mat4 extension)
detail::tmat4x4<float> mat4_cast(
detail::fmat4x4SIMD const & x);
//! Multiply matrix x by matrix y component-wise, i.e.,
//! result[i][j] is the scalar product of x[i][j] and y[i][j].
//! (From GLM_GTX_simd_mat4 extension).
detail::fmat4x4SIMD matrixCompMult(
detail::fmat4x4SIMD const & x,
detail::fmat4x4SIMD const & y);
//! Treats the first parameter c as a column vector
//! and the second parameter r as a row vector
//! and does a linear algebraic matrix multiply c * r.
//! (From GLM_GTX_simd_mat4 extension).
detail::fmat4x4SIMD outerProduct(
detail::fvec4SIMD const & c,
detail::fvec4SIMD const & r);
//! Returns the transposed matrix of x
//! (From GLM_GTX_simd_mat4 extension).
detail::fmat4x4SIMD transpose(
detail::fmat4x4SIMD const & x);
//! Return the determinant of a mat4 matrix.
//! (From GLM_GTX_simd_mat4 extension).
float determinant(
detail::fmat4x4SIMD const & m);
//! Return the inverse of a mat4 matrix.
//! (From GLM_GTX_simd_mat4 extension).
detail::fmat4x4SIMD inverse(
detail::fmat4x4SIMD const & m);
/// @}
}// namespace simd_mat4
}// namespace gtx
}// namespace glm
#include "simd_mat4.inl"
namespace glm{using namespace gtx::simd_mat4;}
#endif//glm_gtx_simd_mat4