#ifndef MATRIX4_H__ #define MATRIX4_H__ #include #include #include #include "define.h" #include "vector3.h" #ifndef M_PI #define M_PI 3.14159265f #endif #define DEGTORAD(x) ((x * M_PI) / 180.f) #define RADTODEG(x) ((180.f * x) / M_PI) template class Matrix4 { public: typedef T Type; public: static const Matrix4 ZERO; static const Matrix4 IDENTITY; public: Matrix4(); Matrix4(const T& v); Matrix4(const Matrix4& m); Matrix4(const T& m_11, const T& m_12, const T& m_13, const T& m_14, const T& m_21, const T& m_22, const T& m_23, const T& m_24, const T& m_31, const T& m_32, const T& m_33, const T& m_34, const T& m_41, const T& m_42, const T& m_43, const T& m_44); const T& Get11() const; const T& Get12() const; const T& Get13() const; const T& Get14() const; const T& Get21() const; const T& Get22() const; const T& Get23() const; const T& Get24() const; const T& Get31() const; const T& Get32() const; const T& Get33() const; const T& Get34() const; const T& Get41() const; const T& Get42() const; const T& Get43() const; const T& Get44() const; Matrix4& operator=(const Matrix4& m); Matrix4 operator+(const Matrix4& m) const; const Matrix4& operator+=(const Matrix4& m); Matrix4 operator-(const Matrix4& m) const; Matrix4 operator-() const; const Matrix4& operator-=(const Matrix4& m); Matrix4 operator*(const Matrix4& m) const; Matrix4 operator*(const T& v) const; const Matrix4& operator*=(const Matrix4& m); const Matrix4& operator*=(const T& v); Matrix4 operator/(const T& v) const; const Matrix4& operator/=(const T& v); bool operator==(const Matrix4& m) const; bool operator!=(const Matrix4& m) const; void SetZero(); void SetIdentity(); void SetPerspectiveProjection(const T& fov, const T& aspect, const T& nearPlane, const T& farPlane); void SetOrthographicProjection(const T& left, const T& right, const T& bottom, const T& top, const T& nearPlane, const T& farPlane); void SetLookAt(const Vector3& eyePosition, const Vector3& lookAtPosition, Vector3 upVector = Vector3(T(0), T(1), T(0))); bool IsZero() const; bool IsIdentity() const; void ApplyTranslation(const T& x, const T& y, const T& z); void ApplyRotation(const T& angle, const T& x, const T& y, const T& z); void ApplyScale(const T& x, const T& y, const T& z); Vector3 GetTranslation() const; const T* GetInternalValues() const; T* GetInternalValues(); std::string ToString(const std::string& lineBegin = "|", const std::string& lineEnd = "|\n") const; private: union { // column-major matrix struct { T m_11, m_21, m_31, m_41, m_12, m_22, m_32, m_42, m_13, m_23, m_33, m_43, m_14, m_24, m_34, m_44; }; T m_values[16]; }; }; typedef Matrix4 Matrix4i; typedef Matrix4 Matrix4f; typedef Matrix4 Matrix4d; template const Matrix4 Matrix4::ZERO = Matrix4(0); template const Matrix4 Matrix4::IDENTITY = Matrix4( 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1); template std::ostream& operator<<(std::ostream& out, const Matrix4& m) { out << m.ToString(); return out; } template Matrix4::Matrix4() { // Leave matrix uninitialized } template Matrix4::Matrix4(const T& v) { for(int i = 0; i < 16; ++i) m_values[i] = v; } template Matrix4::Matrix4(const Matrix4& m) { for(int i = 0; i < 16; ++i) m_values[i] = m.m_values[i]; } template Matrix4::Matrix4(const T& m_11, const T& m_12, const T& m_13, const T& m_14, const T& m_21, const T& m_22, const T& m_23, const T& m_24, const T& m_31, const T& m_32, const T& m_33, const T& m_34, const T& m_41, const T& m_42, const T& m_43, const T& m_44) { this->m_11 = m_11; this->m_12 = m_12; this->m_13 = m_13; this->m_14 = m_14; this->m_21 = m_21; this->m_22 = m_22; this->m_23 = m_23; this->m_24 = m_24; this->m_31 = m_31; this->m_32 = m_32; this->m_33 = m_33; this->m_34 = m_34; this->m_41 = m_41; this->m_42 = m_42; this->m_43 = m_43; this->m_44 = m_44; } template const T& Matrix4::Get11() const { return m_11; } template const T& Matrix4::Get12() const { return m_12; } template const T& Matrix4::Get13() const { return m_13; } template const T& Matrix4::Get14() const { return m_14; } template const T& Matrix4::Get21() const { return m_21; } template const T& Matrix4::Get22() const { return m_22; } template const T& Matrix4::Get23() const { return m_23; } template const T& Matrix4::Get24() const { return m_24; } template const T& Matrix4::Get31() const { return m_31; } template const T& Matrix4::Get32() const { return m_32; } template const T& Matrix4::Get33() const { return m_33; } template const T& Matrix4::Get34() const { return m_34; } template const T& Matrix4::Get41() const { return m_41; } template const T& Matrix4::Get42() const { return m_42; } template const T& Matrix4::Get43() const { return m_43; } template const T& Matrix4::Get44() const { return m_44; } template Matrix4& Matrix4::operator=(const Matrix4& m) { if(this != &m) { for(int i = 0; i < 16; ++i) m_values[i] = m.m_values[i]; } return *this; } template Matrix4 Matrix4::operator+(const Matrix4& m) const { return Matrix4( m_11 + m.m_11, m_12 + m.m_12, m_13 + m.m_13, m_14 + m.m_14, m_21 + m.m_21, m_22 + m.m_22, m_23 + m.m_23, m_24 + m.m_24, m_31 + m.m_31, m_32 + m.m_32, m_33 + m.m_33, m_34 + m.m_34, m_41 + m.m_41, m_42 + m.m_42, m_43 + m.m_43, m_44 + m.m_44); } template const Matrix4& Matrix4::operator+=(const Matrix4& m) { *this = *this + m; return *this; } template Matrix4 Matrix4::operator-(const Matrix4& m) const { return Matrix4( m_11 - m.m_11, m_12 - m.m_12, m_13 - m.m_13, m_14 - m.m_14, m_21 - m.m_21, m_22 - m.m_22, m_23 - m.m_23, m_24 - m.m_24, m_31 - m.m_31, m_32 - m.m_32, m_33 - m.m_33, m_34 - m.m_34, m_41 - m.m_41, m_42 - m.m_42, m_43 - m.m_43, m_44 - m.m_44); } template Matrix4 Matrix4::operator-() const { return Matrix4( -m_11, -m_12, -m_13, -m_14, -m_21, -m_22, -m_23, -m_24, -m_31, -m_32, -m_33, -m_34, -m_41, -m_42, -m_43, -m_44); } template const Matrix4& Matrix4::operator-=(const Matrix4& m) { *this = *this - m; return *this; } template Matrix4 Matrix4::operator*(const Matrix4& m) const { return Matrix4( m_11 * m.m_11 + m_12 * m.m_21 + m_13 * m.m_31 + m_14 * m.m_41, m_11 * m.m_12 + m_12 * m.m_22 + m_13 * m.m_32 + m_14 * m.m_42, m_11 * m.m_13 + m_12 * m.m_23 + m_13 * m.m_33 + m_14 * m.m_43, m_11 * m.m_14 + m_12 * m.m_24 + m_13 * m.m_34 + m_14 * m.m_44, m_21 * m.m_11 + m_22 * m.m_21 + m_23 * m.m_31 + m_24 * m.m_41, m_21 * m.m_12 + m_22 * m.m_22 + m_23 * m.m_32 + m_24 * m.m_42, m_21 * m.m_13 + m_22 * m.m_23 + m_23 * m.m_33 + m_24 * m.m_43, m_21 * m.m_14 + m_22 * m.m_24 + m_23 * m.m_34 + m_24 * m.m_44, m_31 * m.m_11 + m_32 * m.m_21 + m_33 * m.m_31 + m_34 * m.m_41, m_31 * m.m_12 + m_32 * m.m_22 + m_33 * m.m_32 + m_34 * m.m_42, m_31 * m.m_13 + m_32 * m.m_23 + m_33 * m.m_33 + m_34 * m.m_43, m_31 * m.m_14 + m_32 * m.m_24 + m_33 * m.m_34 + m_34 * m.m_44, m_41 * m.m_11 + m_42 * m.m_21 + m_43 * m.m_31 + m_44 * m.m_41, m_41 * m.m_12 + m_42 * m.m_22 + m_43 * m.m_32 + m_44 * m.m_42, m_41 * m.m_13 + m_42 * m.m_23 + m_43 * m.m_33 + m_44 * m.m_43, m_41 * m.m_14 + m_42 * m.m_24 + m_43 * m.m_34 + m_44 * m.m_44); } template Matrix4 Matrix4::operator*(const T& v) const { return Matrix4( m_11 * v, m_12 * v, m_13 * v, m_14 * v, m_21 * v, m_22 * v, m_23 * v, m_24 * v, m_31 * v, m_32 * v, m_33 * v, m_34 * v, m_41 * v, m_42 * v, m_43 * v, m_44 * v); } template const Matrix4& Matrix4::operator*=(const Matrix4& m) { *this = *this * m; return *this; } template const Matrix4& Matrix4::operator*=(const T& v) { *this = *this * v; return *this; } template Matrix4 Matrix4::operator/(const T& v) const { return Matrix4( m_11 / v, m_12 / v, m_13 / v, m_14 / v, m_21 / v, m_22 / v, m_23 / v, m_24 / v, m_31 / v, m_32 / v, m_33 / v, m_34 / v, m_41 / v, m_42 / v, m_43 / v, m_44 / v); } template const Matrix4& Matrix4::operator/=(const T& v) { *this = *this / v; return *this; } template bool Matrix4::operator==(const Matrix4& m) const { for(int i = 0; i < 16; ++i) if(m_values[i] != m.m_values[i]) return false; return true; } template bool Matrix4::operator!=(const Matrix4& m) const { return !(*this == m); } template void Matrix4::SetZero() { *this = ZERO; } template void Matrix4::SetIdentity() { *this = IDENTITY; } template void Matrix4::SetPerspectiveProjection(const T& fov, const T& aspect, const T& nearPlane, const T& farPlane) { const float h = T(1) / tan(fov * T(M_PI / 360.f)); T negDepth = nearPlane - farPlane; SetZero(); m_11 = h / aspect; m_22 = h; m_33 = (farPlane + nearPlane) / negDepth; m_34 = T(2) * (nearPlane * farPlane) / negDepth; m_43 = -T(1); } template void Matrix4::SetOrthographicProjection(const T& left, const T& right, const T& bottom, const T& top, const T& nearPlane, const T& farPlane) { m_11 = T(2) / (right - left); m_12 = T(0); m_13 = T(0); m_14 = -(right + left) / (right - left); m_21 = T(0); m_22 = T(2) / (top - bottom); m_23 = T(0); m_24 = -(top + bottom) / (top - bottom); m_31 = T(0); m_32 = T(0); m_33 = -T(2) / (farPlane - nearPlane); m_34 = -(farPlane + nearPlane) / (farPlane - nearPlane); m_41 = T(0); m_42 = T(0); m_43 = T(0); m_44 = T(1); } template void Matrix4::SetLookAt(const Vector3& eyePosition, const Vector3& lookAtPosition, Vector3 upVector) { Vector3f L = lookAtPosition - eyePosition; L.Normalize(); upVector.Normalize(); Vector3f S = L.Cross(upVector); S.Normalize(); Vector3f U = S.Cross(L); Matrix4 M; M.m_11 = S.x; M.m_12 = S.y; M.m_13 = S.z; M.m_14 = 0; M.m_21 = U.x; M.m_22 = U.y; M.m_23 = U.z; M.m_24 = 0; M.m_31 = -L.x; M.m_32 = -L.y; M.m_33 = -L.z; M.m_34 = 0; M.m_41 = 0; M.m_42 = 0; M.m_43 = 0; M.m_44 = 1.f; SetIdentity(); *this *= M; ApplyTranslation(-eyePosition.x, -eyePosition.y, -eyePosition.z); } template void Matrix4::ApplyTranslation(const T& x, const T& y, const T& z) { Matrix4 tmp( 1, 0, 0, x, 0, 1, 0, y, 0, 0, 1, z, 0, 0, 0, 1); *this *= tmp; } template void Matrix4::ApplyRotation(const T& angle, const T& x, const T& y, const T& z) { // TODO axis (x, y, z) must be normalized... T s = sin(DEGTORAD(angle)); T c = cos(DEGTORAD(angle)); T ic = T(1) - c; Matrix4 tmp( x * x * ic + c, y * x * ic + (z * s), z * x * ic - (y * s), 0, x * y * ic - (z * s), y * y * ic + c, z * y * ic + (x * s), 0, x * z * ic + (y * s), y * z * ic - (x * s), z * z * ic + c, 0, 0, 0, 0, 1); *this *= tmp; } template void Matrix4::ApplyScale(const T& x, const T& y, const T& z) { Matrix4 tmp( x, 0, 0, 0, 0, y, 0, 0, 0, 0, z, 0, 0, 0, 0, 1); *this *= tmp; } template Vector3 Matrix4::GetTranslation() const { // NOTE: Works only if the matrix doesn't contains scale information (only rotation and translation) // Reference: http://www.gamedev.net/topic/397751-how-to-get-camera-position/ T x = -(m_11 * m_14 + m_21 * m_24 + m_31 * m_34); T y = -(m_12 * m_14 + m_22 * m_24 + m_32 * m_34); T z = -(m_13 * m_14 + m_23 * m_24 + m_33 * m_34); return Vector3(x, y, z); } template T* Matrix4::GetInternalValues() { return m_values; } template const T* Matrix4::GetInternalValues() const { return m_values; } template std::string Matrix4::ToString(const std::string& lineBegin, const std::string& lineEnd) const { std::ostringstream ss; ss << lineBegin << m_11 << " " << m_12 << " " << m_13 << " " << m_14 << lineEnd; ss << lineBegin << m_21 << " " << m_22 << " " << m_23 << " " << m_24 << lineEnd; ss << lineBegin << m_31 << " " << m_32 << " " << m_33 << " " << m_34 << lineEnd; ss << lineBegin << m_41 << " " << m_42 << " " << m_43 << " " << m_44 << lineEnd; return ss.str(); } #endif // MATRIX4_H__