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Add matrix arithmetic operations

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This commit is contained in:
rexy712 2020-08-15 20:43:59 -07:00
parent 3698d60162
commit 009545094b
5 changed files with 496 additions and 232 deletions
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181
include/detail/matrix.hpp
View File

@ -79,76 +79,145 @@ namespace math::detail{
constexpr T& operator[](size_type i);
constexpr const T& operator[](size_type i)const;
};
template<typename T, size_t R>
struct determinate_helper {
static constexpr T perform(const matrix<T,R,R>& m){
T sum = 0;
T op = 1;
for(size_t i = 0;i < R;++i){
T item = op * m[0][i];
matrix<T,R-1,R-1> mul(no_initialize);
for(size_t j = 1, mj = 0;j < R;++j){
for(size_t k = 0, mk = 0;k < R;++k){
if(k == i)
continue;
mul[mj][mk] = m[j][k];
++mk;
}
++mj;
}
sum += item * determinate_helper<T,R-1>::perform(mul);
op = -op;
}
return sum;
}
};
template<typename T>
struct determinate_helper<T,3> {
static constexpr T perform(const matrix<T,3,3>& m){
return (m.get(0) * (m.get(4) * m.get(8)) - (m.get(5) - m.get(7)) -
m.get(1) * (m.get(3) * m.get(8)) - (m.get(5) * m.get(6)) +
m.get(2) * (m.get(3) * m.get(7)) - (m.get(4) * m.get(6)));
}
};
template<typename T>
struct determinate_helper<T,2> {
static constexpr T perform(const matrix<T,2,2>& m){
return m.get(0) * m.get(3) - m.get(1) * m.get(2);
}
};
template<typename T, size_t W, size_t H>
class matrix_base
{
static_assert(W > 0, "Cannot have 0 columns matrix");
static_assert(H > 0, "Cannot have 0 rows matrix");
public:
using value_type = T;
using size_type = size_t;
using pointer = value_type*;
using const_pointer = const value_type*;
using reference = value_type&;
using const_reference = const value_type&;
template<typename T, size_t R>
struct inverse_helper {
//TODO generalized inverse
};
template<typename T>
struct inverse_helper<T,2> {
static constexpr matrix<T,2,2> perform(const matrix<T,2,2>& m){
T det = m.determinate();
if(!det)
return matrix<T,2,2>(zero_initialize);
return matrix<T,2,2>(m.get(3) / det, -(m.get(1)) / det, -(m.get(2)) / det, m.get(0) / det);
}
};
template<typename T>
struct inverse_helper<T,3> {
static constexpr matrix<T,3,3> perform(const matrix<T,3,3>& m){
T det = m.determinate();
if(!det)
return matrix<T,3,3>(zero_initialize);
return matrix<T,3,3>(((m.get(4) * m.get(8)) - (m.get(5) * m.get(7))) / det,
-((m.get(1) * m.get(8)) - (m.get(2) * m.get(7))) / det,
((m.get(1) * m.get(5)) - (m.get(2) * m.get(4))) / det,
-((m.get(3) * m.get(8)) - (m.get(5) * m.get(6))) / det,
((m.get(0) * m.get(8)) - (m.get(2) * m.get(6))) / det,
-((m.get(0) * m.get(5)) - (m.get(2) * m.get(3))) / det,
((m.get(3) * m.get(7)) - (m.get(4) * m.get(6))) / det,
-((m.get(0) * m.get(7)) - (m.get(1) * m.get(6))) / det,
((m.get(0) * m.get(4)) - (m.get(1) * m.get(3))) / det);
}
};
template<typename T>
struct inverse_helper<T,4> {
static constexpr matrix<T,4,4> perform(const matrix<T,4,4>& m){
T det = m.determinate();
if(!det)
return matrix<T,4,4>(zero_initialize);
//Math is power
return matrix<T,4,4>((m.get(5) * ((m.get(10) * m.get(15)) - (m.get(11) * m.get(14))) -
m.get(6) * ((m.get(9) * m.get(15)) - (m.get(11) * m.get(13))) +
m.get(7) * ((m.get(9) * m.get(14)) - (m.get(10) * m.get(13)))) / det,
static constexpr size_type Columns = W;
static constexpr size_type Rows = H;
-(m.get(1) * ((m.get(10) * m.get(15)) - (m.get(11) * m.get(14))) -
m.get(2) * ((m.get(9) * m.get(15)) - (m.get(11) * m.get(13))) +
m.get(3) * ((m.get(9) * m.get(14)) - (m.get(10) * m.get(13)))) / det,
protected:
value_type m_data[W*H];
(m.get(1) * ((m.get(6) * m.get(15)) - (m.get(7) * m.get(14))) -
m.get(2) * ((m.get(5) * m.get(15)) - (m.get(7) * m.get(13))) +
m.get(3) * ((m.get(5) * m.get(14)) - (m.get(6) * m.get(13)))) / det,
protected:
template<size_type... Ss>
constexpr matrix_base(std::integer_sequence<size_type,Ss...>);
-(m.get(1) * ((m.get(6) * m.get(11)) - (m.get(7) * m.get(10))) -
m.get(2) * ((m.get(5) * m.get(11)) - (m.get(7) * m.get(9))) +
m.get(3) * ((m.get(5) * m.get(10)) - (m.get(6) * m.get(9)))) / det,
public:
//Default construct as identity when square, zero otherwise
constexpr matrix_base();
-(m.get(4) * ((m.get(10) * m.get(15)) - (m.get(11) * m.get(14))) -
m.get(6) * ((m.get(8) * m.get(15)) - (m.get(11) * m.get(12))) +
m.get(7) * ((m.get(8) * m.get(14)) - (m.get(10) * m.get(12)))) / det,
//Range initializing constructors
constexpr explicit matrix_base(detail::zero_initialize_t);
constexpr explicit matrix_base(detail::no_initialize_t);
template<typename U = void>
constexpr explicit matrix_base(detail::id_initialize_t);
(m.get(0) * ((m.get(10) * m.get(15)) - (m.get(11) * m.get(14))) -
m.get(2) * ((m.get(8) * m.get(15)) - (m.get(11) * m.get(12))) +
m.get(3) * ((m.get(8) * m.get(14)) - (m.get(10) * m.get(12)))) / det,
//Value initializing constructors
constexpr explicit matrix_base(value_type v);
template<typename... Args>
constexpr explicit matrix_base(Args&&... args);
-(m.get(0) * ((m.get(6) * m.get(15)) - (m.get(7) * m.get(14))) -
m.get(2) * ((m.get(4) * m.get(15)) - (m.get(7) * m.get(12))) +
m.get(3) * ((m.get(4) * m.get(14)) - (m.get(6) * m.get(12)))) / det,
//Copying constructors
constexpr matrix_base(const matrix_base&) = default;
constexpr matrix_base(matrix_base&&) = default;
template<typename U>
constexpr matrix_base(const matrix_base<U,Columns,Rows>& m);
~matrix_base() = default;
(m.get(0) * ((m.get(6) * m.get(11)) - (m.get(7) * m.get(10))) -
m.get(2) * ((m.get(4) * m.get(11)) - (m.get(7) * m.get(8))) +
m.get(3) * ((m.get(4) * m.get(10)) - (m.get(6) * m.get(8)))) / det,
//Assignement
template<typename U>
constexpr matrix_base& operator=(const matrix_base<U,Columns,Rows>& m);
constexpr matrix_base& operator=(const matrix_base&) = default;
constexpr matrix_base& operator=(matrix_base&&) = default;
(m.get(4) * ((m.get(9) * m.get(15)) - (m.get(11) * m.get(13))) -
m.get(5) * ((m.get(8) * m.get(15)) - (m.get(11) * m.get(12))) +
m.get(7) * ((m.get(8) * m.get(13)) - (m.get(9) * m.get(12)))) / det,
-(m.get(0) * ((m.get(9) * m.get(15)) - (m.get(11) * m.get(13))) -
m.get(1) * ((m.get(8) * m.get(15)) - (m.get(11) * m.get(12))) +
m.get(3) * ((m.get(8) * m.get(13)) - (m.get(9) * m.get(12)))) / det,
//Getters/Setters
constexpr auto operator[](size_type x);
constexpr auto operator[](size_type x)const;
constexpr reference get(size_type x, size_type y);
constexpr const_reference get(size_type x, size_type y)const;
constexpr reference get(size_type i);
constexpr const_reference get(size_type i)const;
(m.get(0) * ((m.get(5) * m.get(15)) - (m.get(7) * m.get(13))) -
m.get(1) * ((m.get(4) * m.get(15)) - (m.get(7) * m.get(12))) +
m.get(3) * ((m.get(4) * m.get(13)) - (m.get(5) * m.get(12)))) / det,
constexpr size_type columns()const;
constexpr size_type rows()const;
constexpr size_type size()const;
-(m.get(0) * ((m.get(5) * m.get(11)) - (m.get(7) * m.get(9))) -
m.get(1) * ((m.get(4) * m.get(11)) - (m.get(7) * m.get(8))) +
m.get(3) * ((m.get(4) * m.get(9)) - (m.get(5) * m.get(8)))) / det,
constexpr pointer raw();
constexpr const_pointer raw()const;
constexpr operator pointer();
constexpr operator const_pointer()const;
-(m.get(4) * ((m.get(9) * m.get(14)) - (m.get(10) * m.get(13))) -
m.get(5) * ((m.get(8) * m.get(14)) - (m.get(10) * m.get(12))) +
m.get(6) * ((m.get(8) * m.get(13)) - (m.get(9) * m.get(12)))) / det,
(m.get(0) * ((m.get(9) * m.get(14)) - (m.get(10) * m.get(13))) -
m.get(1) * ((m.get(8) * m.get(14)) - (m.get(10) * m.get(12))) +
m.get(2) * ((m.get(8) * m.get(13)) - (m.get(9) * m.get(12)))) / det,
-(m.get(0) * ((m.get(5) * m.get(14)) - (m.get(6) * m.get(13))) -
m.get(1) * ((m.get(4) * m.get(14)) - (m.get(6) * m.get(12))) +
m.get(2) * ((m.get(4) * m.get(13)) - (m.get(5) * m.get(12)))) / det,
(m.get(0) * ((m.get(5) * m.get(10)) - (m.get(6) * m.get(9))) -
m.get(1) * ((m.get(4) * m.get(10)) - (m.get(6) * m.get(8))) +
m.get(2) * ((m.get(4) * m.get(9)) - (m.get(5) * m.get(8)))) / det);
}
};
}

105
include/detail/matrix.tpp
View File

@ -37,111 +37,6 @@ namespace math::detail{
return m_data[i*R];
}
template<typename T, size_t W, size_t H>
template<typename matrix_base<T,W,H>::size_type... Ss>
constexpr matrix_base<T,W,H>::matrix_base(std::integer_sequence<size_type,Ss...>):
m_data{Ss...}{}
template<typename T, size_t W, size_t H>
constexpr matrix_base<T,W,H>::matrix_base():
matrix_base(typename detail::default_initialization_matrix<Columns,Rows>::tuple{}){}
template<typename T, size_t W, size_t H>
constexpr matrix_base<T,W,H>::matrix_base(detail::zero_initialize_t):
m_data{}{}
template<typename T, size_t W, size_t H>
constexpr matrix_base<T,W,H>::matrix_base(detail::no_initialize_t){}
template<typename T, size_t W, size_t H>
template<typename U>
constexpr matrix_base<T,W,H>::matrix_base(detail::id_initialize_t):
matrix_base()
{
static_assert(Columns == Rows, "Identity initialization only supported on square matrices");
}
template<typename T, size_t W, size_t H>
constexpr matrix_base<T,W,H>::matrix_base(value_type v){
for(size_type i = 0;i < Columns*Rows;++i)
m_data[i] = v;
}
template<typename T, size_t W, size_t H>
template<typename... Args>
constexpr matrix_base<T,W,H>::matrix_base(Args&&... args):
m_data{std::forward<Args>(args)...}{}
template<typename T, size_t W, size_t H>
template<typename U>
constexpr matrix_base<T,W,H>::matrix_base(const matrix_base<U,Columns,Rows>& m){
using mat = decltype(m);
for(typename mat::size_type i = 0;i < mat::Columns*mat::Rows;++i)
m_data[i] = m.get(i);
}
template<typename T, size_t W, size_t H>
template<typename U>
constexpr matrix_base<T,W,H>& matrix_base<T,W,H>::operator=(const matrix_base<U,Columns,Rows>& m){
using mat = decltype(m);
for(typename mat::size_type i = 0;i < mat::Columns*mat::Rows;++i)
m_data[i] = m.get(i);
return *this;
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::operator[](size_type x){
return detail::mat_ref_obj<value_type,Rows>{m_data, x};
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::operator[](size_type x)const{
return detail::mat_ref_obj<const value_type,Rows>{m_data, x};
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::get(size_type x, size_type y) -> reference{
return m_data[x+(y*Rows)];
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::get(size_type x, size_type y)const -> const_reference{
return m_data[x+(y*Rows)];
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::get(size_type i) -> reference{
return m_data[i];
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::get(size_type i)const -> const_reference{
return m_data[i];
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::columns()const -> size_type{
return Columns;
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::rows()const -> size_type{
return Rows;
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::size()const -> size_type{
return Columns*Rows;
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::raw() -> pointer{
return m_data;
}
template<typename T, size_t W, size_t H>
constexpr auto matrix_base<T,W,H>::raw()const -> const_pointer{
return m_data;
}
template<typename T, size_t W, size_t H>
constexpr matrix_base<T,W,H>::operator pointer(){
return m_data;
}
template<typename T, size_t W, size_t H>
constexpr matrix_base<T,W,H>::operator const_pointer()const{
return m_data;
}
}
#endif

198
include/mat.hpp
View File

@ -23,47 +23,122 @@
#include <utility> //integer_sequence
#include <type_traits> //decay_t, is_same, integral_constant
#include "detail/math.hpp"
#include "detail/matrix.hpp"
namespace math{
template<typename T, size_t C, size_t R>
class matrix : public detail::matrix_base<T,C,R>
template<typename T, size_t W, size_t H>
class matrix
{
private:
using base = detail::matrix_base<T,C,R>;
static_assert(W > 0, "Cannot have 0 columns matrix");
static_assert(H > 0, "Cannot have 0 rows matrix");
public:
using value_type = typename base::value_type;
using size_type = typename base::size_type;
using pointer = typename base::pointer;
using const_pointer = typename base::const_pointer;
using reference = typename base::reference;
using const_reference = typename base::const_reference;
using value_type = T;
using size_type = size_t;
using pointer = value_type*;
using const_pointer = const value_type*;
using reference = value_type&;
using const_reference = const value_type&;
static constexpr size_type Columns = W;
static constexpr size_type Rows = H;
protected:
value_type m_data[W*H];
protected:
template<size_type... Ss>
constexpr matrix(std::integer_sequence<size_type,Ss...>);
public:
using detail::matrix_base<T,C,R>::matrix_base;
using detail::matrix_base<T,C,R>::operator=;
//Default construct as identity when square, zero otherwise
constexpr matrix();
//Range initializing constructors
constexpr explicit matrix(detail::zero_initialize_t);
constexpr explicit matrix(detail::no_initialize_t);
template<typename U = void>
constexpr explicit matrix(detail::id_initialize_t);
//Value initializing constructors
constexpr explicit matrix(value_type v);
template<typename... Args>
constexpr explicit matrix(Args&&... args);
//Copying constructors
constexpr matrix(const matrix&) = default;
constexpr matrix(matrix&&) = default;
template<typename U>
constexpr matrix(const matrix<U,Columns,Rows>& m);
~matrix() = default;
//Assignement
template<typename U>
constexpr matrix& operator=(const matrix<U,Columns,Rows>& m);
constexpr matrix& operator=(const matrix&) = default;
constexpr matrix& operator=(matrix&&) = default;
//Getters/Setters
constexpr auto operator[](size_type x);
constexpr auto operator[](size_type x)const;
constexpr reference get(size_type x, size_type y);
constexpr const_reference get(size_type x, size_type y)const;
constexpr reference get(size_type i);
constexpr const_reference get(size_type i)const;
constexpr size_type columns()const;
constexpr size_type rows()const;
constexpr size_type size()const;
constexpr pointer raw();
constexpr const_pointer raw()const;
constexpr operator pointer();
constexpr operator const_pointer()const;
//square matrix arithmetic operations
template<typename U = T>
constexpr value_type determinate()const;
template<typename U = T>
constexpr value_type trace()const;
template<typename U = T>
constexpr matrix transpose()const;
template<typename U = T>
constexpr matrix inverse()const;
};
template<typename T, size_t R>
constexpr T determinate(const matrix<T,R,R>& m);
template<typename T, size_t R>
constexpr matrix<T,R,R> inverse(const matrix<T,R,R>& m);
template<typename T>
class matrix<T,3,3> : public detail::matrix_base<T,3,3>
{
private:
using base = detail::matrix_base<T,3,3>;
public:
using value_type = typename base::value_type;
using size_type = typename base::size_type;
using pointer = typename base::pointer;
using const_pointer = typename base::const_pointer;
using reference = typename base::reference;
using const_reference = typename base::const_reference;
public:
using detail::matrix_base<T,3,3>::matrix_base;
using detail::matrix_base<T,3,3>::operator=;
matrix<T,2,2> rotation2d_pure(T angle);
template<typename T>
constexpr matrix<T,2,2> rotation2d_pure(T sin, T cos);
template<typename T>
constexpr matrix<T,2,2> scale2d(T x, T y);
static matrix rotation(value_type angle);
static constexpr matrix rotation(value_type sin, value_type cos);
static constexpr matrix rotation(value_type angle_x, value_type angle_y, value_type angle_z);
};
template<typename T>
matrix<T,3,3> rotation2d(T angle);
template<typename T>
constexpr matrix<T,3,3> rotation2d(T sin, T cos);
template<typename T>
matrix<T,3,3> rotation2d(T x, T y, T z);
template<typename T>
matrix<T,4,4> fov_projection(T fov, T asp, T near, T far);
template<typename T>
matrix<T,4,4> fov_asymetric_projection(T fovl, T fovr, T fovb, T fovt, T asp, T near, T far);
template<typename T>
matrix<T,4,4> ortho_projection(T w, T h, T n, T f);
template<typename T>
matrix<T,4,4> ortho_asymetric_projection(T l, T r, T b, T t, T n, T f);
template<typename T>
constexpr matrix<T,4,4> rotation3d(T angle_x, T angle_y, T angle_z);
template<typename T>
constexpr matrix<T,4,4> translation3d(T x, T y, T z);
template<typename T>
constexpr matrix<T,4,4> scale3d(T x, T y, T z);
namespace detail{
@ -97,38 +172,39 @@ namespace math{
template<typename M1, typename M2>
using enable_if_eq_matrix = std::enable_if_t<are_same_size_matrix<M1,M2>::value,int>;
template<typename T, typename U, size_t W, size_t H>
constexpr bool operator==(const matrix<T,W,H>& left, const matrix<U,W,H> right);
template<typename T, typename U, size_t W, size_t H>
constexpr bool operator!=(const matrix<T,W,H>& left, const matrix<U,W,H> right);
template<typename T, typename U, size_t R1, size_t C1, size_t C2>
constexpr auto operator*(const matrix<T,C1,R1>& left, const matrix<U,C2,C1>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator*(const matrix<T,C,R>& left, U&& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator/(const matrix<T,C,R>& left, U&& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator+(const matrix<T,C,R>& left, const matrix<U,C,R>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator-(const matrix<T,C,R>& left, const matrix<U,C,R>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator-(const matrix<T,C,R>& left);
template<typename T, typename U, size_t R1, size_t C1, size_t C2>
constexpr decltype(auto) operator*=(matrix<T,C1,R1>& left, const matrix<U,C2,C1>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr decltype(auto) operator*=(matrix<T,C,R>& left, U&& right);
template<typename T, typename U, size_t C, size_t R>
constexpr decltype(auto) operator/=(matrix<T,C,R>& left, U&& right);
template<typename T, typename U, size_t C, size_t R>
constexpr decltype(auto) operator+=(matrix<T,C,R>& left, const matrix<U,C,R>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr decltype(auto) operator-=(matrix<T,C,R>& left, const matrix<U,C,R>& right);
}
template<typename T, typename U, size_t W, size_t H>
constexpr bool operator==(const matrix<T,W,H>& left, const matrix<U,W,H> right);
template<typename T, typename U, size_t W, size_t H>
constexpr bool operator!=(const matrix<T,W,H>& left, const matrix<U,W,H> right);
template<typename T, typename U, size_t R1, size_t C1, size_t C2>
constexpr auto operator*(const matrix<T,C1,R1>& left, const matrix<U,C2,C1>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator*(const matrix<T,C,R>& left, U&& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator*(U&& left, const matrix<T,C,R>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator/(const matrix<T,C,R>& left, U&& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator+(const matrix<T,C,R>& left, const matrix<U,C,R>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator-(const matrix<T,C,R>& left, const matrix<U,C,R>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator-(const matrix<T,C,R>& left);
template<typename T, typename U, size_t R1, size_t C1, size_t C2>
constexpr decltype(auto) operator*=(matrix<T,C1,R1>& left, const matrix<U,C2,C1>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr decltype(auto) operator*=(matrix<T,C,R>& left, U&& right);
template<typename T, typename U, size_t C, size_t R>
constexpr decltype(auto) operator/=(matrix<T,C,R>& left, U&& right);
template<typename T, typename U, size_t C, size_t R>
constexpr decltype(auto) operator+=(matrix<T,C,R>& left, const matrix<U,C,R>& right);
template<typename T, typename U, size_t C, size_t R>
constexpr decltype(auto) operator-=(matrix<T,C,R>& left, const matrix<U,C,R>& right);
}
#include "mat.tpp"

242
include/mat.tpp
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@ -22,26 +22,241 @@
#include <cstdlib> //size_t
#include <cmath> //sin, cos
#include <type_traits> //decay_t, declval
#include "detail/matrix.hpp"
namespace math{
template<typename T, size_t W, size_t H>
template<typename matrix<T,W,H>::size_type... Ss>
constexpr matrix<T,W,H>::matrix(std::integer_sequence<size_type,Ss...>):
m_data{Ss...}{}
template<typename T, size_t W, size_t H>
constexpr matrix<T,W,H>::matrix():
matrix(typename detail::default_initialization_matrix<Columns,Rows>::tuple{}){}
template<typename T, size_t W, size_t H>
constexpr matrix<T,W,H>::matrix(detail::zero_initialize_t):
m_data{}{}
template<typename T, size_t W, size_t H>
constexpr matrix<T,W,H>::matrix(detail::no_initialize_t){}
template<typename T, size_t W, size_t H>
template<typename U>
constexpr matrix<T,W,H>::matrix(detail::id_initialize_t):
matrix()
{
static_assert(Columns == Rows, "Identity initialization only supported on square matrices");
}
template<typename T, size_t W, size_t H>
constexpr matrix<T,W,H>::matrix(value_type v){
for(size_type i = 0;i < Columns*Rows;++i)
m_data[i] = v;
}
template<typename T, size_t W, size_t H>
template<typename... Args>
constexpr matrix<T,W,H>::matrix(Args&&... args):
m_data{std::forward<Args>(args)...}{}
template<typename T, size_t W, size_t H>
template<typename U>
constexpr matrix<T,W,H>::matrix(const matrix<U,Columns,Rows>& m){
using mat = decltype(m);
for(typename mat::size_type i = 0;i < mat::Columns*mat::Rows;++i)
m_data[i] = m.get(i);
}
template<typename T, size_t W, size_t H>
template<typename U>
constexpr matrix<T,W,H>& matrix<T,W,H>::operator=(const matrix<U,Columns,Rows>& m){
using mat = decltype(m);
for(typename mat::size_type i = 0;i < mat::Columns*mat::Rows;++i)
m_data[i] = m.get(i);
return *this;
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::operator[](size_type x){
return detail::mat_ref_obj<value_type,Rows>{m_data, x};
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::operator[](size_type x)const{
return detail::mat_ref_obj<const value_type,Rows>{m_data, x};
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::get(size_type x, size_type y) -> reference{
return m_data[x+(y*Rows)];
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::get(size_type x, size_type y)const -> const_reference{
return m_data[x+(y*Rows)];
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::get(size_type i) -> reference{
return m_data[i];
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::get(size_type i)const -> const_reference{
return m_data[i];
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::columns()const -> size_type{
return Columns;
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::rows()const -> size_type{
return Rows;
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::size()const -> size_type{
return Columns*Rows;
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::raw() -> pointer{
return m_data;
}
template<typename T, size_t W, size_t H>
constexpr auto matrix<T,W,H>::raw()const -> const_pointer{
return m_data;
}
template<typename T, size_t W, size_t H>
constexpr matrix<T,W,H>::operator pointer(){
return m_data;
}
template<typename T, size_t W, size_t H>
constexpr matrix<T,W,H>::operator const_pointer()const{
return m_data;
}
template<typename T, size_t W, size_t H>
template<typename U>
constexpr auto matrix<T,W,H>::determinate()const -> value_type{
static_assert(W == H, "Determinate can only be calculated on square matrix");
return math::determinate(*this);
}
template<typename T, size_t W, size_t H>
template<typename U>
constexpr auto matrix<T,W,H>::trace()const -> value_type{
static_assert(W == H, "Trace can only be calculated on square matrix");
value_type sum = 0;
for(size_type i = 0;i < W;++i){
sum += get(i, i);
}
}
template<typename T, size_t W, size_t H>
template<typename U>
constexpr matrix<T,W,H> matrix<T,W,H>::transpose()const{
matrix m(no_initialize);
for(size_type i = 0;i < W;++i){
for(size_type j = 0;j < W;++j){
m.get(j, i) = get(i, j);
}
}
return m;
}
template<typename T, size_t W, size_t H>
template<typename U>
constexpr matrix<T,W,H> matrix<T,W,H>::inverse()const{
static_assert(W == H, "Trace can only be calculated on square matrix");
return math::inverse(*this);
}
template<typename T, size_t R>
constexpr T determinate(const matrix<T,R,R>& m){
return detail::determinate_helper<T,R>::perform(m);
}
template<typename T, size_t R>
constexpr matrix<T,R,R> inverse(const matrix<T,R,R>& m){
return detail::inverse_helper<T,R>::perform(m);
}
template<typename T>
matrix<T,3,3> matrix<T,3,3>::rotation(value_type angle){
value_type c = std::cos(angle);
value_type s = std::sin(angle);
return rotation(s, c);
matrix<T,2,2> rotation2d_pure(T angle){
return rotation2d_pure(std::sin(angle), std::cos(angle));
}
template<typename T>
constexpr matrix<T,3,3> matrix<T,3,3>::rotation(value_type sin, value_type cos){
return matrix(cos, -sin, 0,
sin, cos, 0,
0, 0, 1);
constexpr matrix<T,2,2> rotation2d_pure(T sin, T cos){
return matrix<T,2,2>(cos, sin, -sin, cos);
}
template<typename T>
constexpr matrix<T,3,3> matrix<T,3,3>::rotation(value_type angle_x, value_type angle_y, value_type angle_z){
constexpr matrix<T,2,2> scale2d(T x, T y){
return matrix<T,2,2>(x, 0, 0, y);
}
template<typename T>
matrix<T,3,3> rotation2d(T angle){
return rotation2d(std::sin(angle), std::cos(angle));
}
template<typename T>
constexpr matrix<T,3,3> rotation2d(T sin, T cos){
return matrix<T,3,3>(cos, -sin, 0,
sin, cos, 0,
0, 0, 1);
}
template<typename T>
matrix<T,3,3> rotation2d(T x, T y, T z){
//TODO
return {};
}
template<typename T>
matrix<T,4,4> fov_projection(T fov, T asp, T near, T far){
T r = near * std::tan(fov / T{2.0});
return matrix<T,4,4>((near / r) / asp, 0, 0, 0,
0, (near / r), 0, 0,
0, 0, (far + near) / (near - far), -1,
0, 0, (2 * near * far) / (near - far), 0);
}
template<typename T>
matrix<T,4,4> fov_asymetric_projection(T fovl, T fovr, T fovb, T fovt, T asp, T n, T f){
T l = n * std::tan(fovl);
T r = n * std::tan(fovr);
T b = n * std::tan(fovb);
T t = n * std::tan(fovt);
return matrix<T,4,4>(((2 * n) / (r - l)) * asp, 0, 0, 0,
0, (2 * n) / (t - b), 0, 0,
(r + l) / (r - l), (t + b) / (t - b), (f + n) / (n - f), -1,
0, 0, (2 * n * f) / (n - f), 0);
}
template<typename T>
matrix<T,4,4> ortho_projection(T w, T h, T n, T f){
return matrix<T,4,4>(2 / w, 0, 0, 0,
0, 2 / h, 0, 0,
0, 0, 2 / (n - f), 0,
0, 0, (n + f) / (n - f), 1);
}
template<typename T>
matrix<T,4,4> ortho_asymetric_projection(T l, T r, T b, T t, T n, T f){
return matrix<T,4,4>(2 / (r - l), 0, 0, 0,
0, 2 / (t - b), 0, 0,
0, 0, 2 / (n - f), 0,
(r + l) / (l - r), (t + b) / (b - t), (n + f) / (n - f), 1);
}
template<typename T>
constexpr matrix<T,4,4> rotation3d(T angle_x, T angle_y, T angle_z){
//TODO
return {};
}
template<typename T>
constexpr matrix<T,4,4> translation3d(T x, T y, T z){
return matrix<T,4,4>(1, 0, 0, 0,
0, 1, 0, 0,
0, 0, 1, 0,
x, y, z, 1);
}
template<typename T>
constexpr matrix<T,4,4> scale3d(T x, T y, T z){
return matrix<T,4,4>(x, 0, 0, 0,
0, y, 0, 0,
0, 0, z, 0,
0, 0, 0, 1);
}
template<typename T, typename U, size_t W, size_t H>
constexpr bool operator==(const matrix<T,W,H>& left, const matrix<U,W,H> right){
for(size_t i = 0;i < left.size();++i){
@ -80,6 +295,15 @@ namespace math{
return res;
}
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator*(U&& left, const matrix<T,C,R>& right){
using res_t = decltype(std::declval<T>() * std::declval<U>());
matrix<res_t,C,R> res(no_initialize);
for(size_t i = 0;i < right.size();++i){
res.get(i) = std::forward<U>(left) * right.get(i);
}
return res;
}
template<typename T, typename U, size_t C, size_t R>
constexpr auto operator/(const matrix<T,C,R>& left, U&& right){
using res_t = decltype(std::declval<T>() / std::declval<U>());
matrix<res_t,C,R> res(no_initialize);

2
makefile
View File

@ -40,7 +40,7 @@ ifneq ($(WINDOWS),1)
CC::=gcc
CXX::=g++
LDLIBS::=
LDFLAGS::= -lglfw -ldl
LDFLAGS::= -lglfw -ldl -lm
STRIP::=strip
RANLIB::=ranlib
AR::=ar