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206 lines
4.4 KiB
C++
206 lines
4.4 KiB
C++
// Copyright 2019 Dolphin Emulator Project
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// Licensed under GPLv2+
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// Refer to the license.txt file included.
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#include "Common/Matrix.h"
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#include <algorithm>
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#include <cmath>
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namespace
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{
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// Multiply a NxM matrix by a NxP matrix.
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template <int N, int M, int P, typename T>
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auto MatrixMultiply(const std::array<T, N * M>& a, const std::array<T, M * P>& b)
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-> std::array<T, N * P>
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{
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std::array<T, N * P> result;
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for (int n = 0; n != N; ++n)
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{
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for (int p = 0; p != P; ++p)
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{
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T temp = {};
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for (int m = 0; m != M; ++m)
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{
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temp += a[n * M + m] * b[m * P + p];
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}
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result[n * P + p] = temp;
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}
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}
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return result;
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}
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} // namespace
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namespace Common
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{
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Matrix33 Matrix33::Identity()
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{
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Matrix33 mtx = {};
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mtx.data[0] = 1.0f;
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mtx.data[4] = 1.0f;
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mtx.data[8] = 1.0f;
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return mtx;
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}
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Matrix33 Matrix33::RotateX(float rad)
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{
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const float s = std::sin(rad);
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const float c = std::cos(rad);
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Matrix33 mtx = {};
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mtx.data[0] = 1;
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mtx.data[4] = c;
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mtx.data[5] = -s;
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mtx.data[7] = s;
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mtx.data[8] = c;
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return mtx;
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}
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Matrix33 Matrix33::RotateY(float rad)
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{
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const float s = std::sin(rad);
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const float c = std::cos(rad);
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Matrix33 mtx = {};
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mtx.data[0] = c;
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mtx.data[2] = s;
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mtx.data[4] = 1;
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mtx.data[6] = -s;
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mtx.data[8] = c;
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return mtx;
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}
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Matrix33 Matrix33::RotateZ(float rad)
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{
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const float s = std::sin(rad);
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const float c = std::cos(rad);
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Matrix33 mtx = {};
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mtx.data[0] = c;
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mtx.data[1] = -s;
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mtx.data[3] = s;
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mtx.data[4] = c;
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mtx.data[8] = 1;
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return mtx;
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}
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Matrix33 Matrix33::Rotate(float rad, const Vec3& axis)
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{
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const float s = std::sin(rad);
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const float c = std::cos(rad);
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Matrix33 mtx;
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mtx.data[0] = axis.x * axis.x * (1 - c) + c;
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mtx.data[1] = axis.x * axis.y * (1 - c) - axis.z * s;
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mtx.data[2] = axis.x * axis.z * (1 - c) + axis.y * s;
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mtx.data[3] = axis.y * axis.x * (1 - c) + axis.z * s;
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mtx.data[4] = axis.y * axis.y * (1 - c) + c;
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mtx.data[5] = axis.y * axis.z * (1 - c) - axis.x * s;
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mtx.data[6] = axis.z * axis.x * (1 - c) - axis.y * s;
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mtx.data[7] = axis.z * axis.y * (1 - c) + axis.x * s;
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mtx.data[8] = axis.z * axis.z * (1 - c) + c;
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return mtx;
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}
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Matrix33 Matrix33::Scale(const Vec3& vec)
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{
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Matrix33 mtx = {};
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mtx.data[0] = vec.x;
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mtx.data[4] = vec.y;
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mtx.data[8] = vec.z;
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return mtx;
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}
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void Matrix33::Multiply(const Matrix33& a, const Matrix33& b, Matrix33* result)
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{
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result->data = MatrixMultiply<3, 3, 3>(a.data, b.data);
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}
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void Matrix33::Multiply(const Matrix33& a, const Vec3& vec, Vec3* result)
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{
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result->data = MatrixMultiply<3, 3, 1>(a.data, vec.data);
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}
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Matrix44 Matrix44::Identity()
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{
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Matrix44 mtx = {};
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mtx.data[0] = 1.0f;
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mtx.data[5] = 1.0f;
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mtx.data[10] = 1.0f;
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mtx.data[15] = 1.0f;
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return mtx;
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}
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Matrix44 Matrix44::FromMatrix33(const Matrix33& m33)
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{
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Matrix44 mtx;
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for (int i = 0; i < 3; ++i)
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{
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for (int j = 0; j < 3; ++j)
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{
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mtx.data[i * 4 + j] = m33.data[i * 3 + j];
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}
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}
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for (int i = 0; i < 3; ++i)
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{
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mtx.data[i * 4 + 3] = 0;
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mtx.data[i + 12] = 0;
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}
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mtx.data[15] = 1.0f;
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return mtx;
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}
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Matrix44 Matrix44::FromArray(const std::array<float, 16>& arr)
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{
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Matrix44 mtx;
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mtx.data = arr;
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return mtx;
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}
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Matrix44 Matrix44::Translate(const Vec3& vec)
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{
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Matrix44 mtx = Matrix44::Identity();
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mtx.data[3] = vec.x;
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mtx.data[7] = vec.y;
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mtx.data[11] = vec.z;
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return mtx;
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}
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Matrix44 Matrix44::Shear(const float a, const float b)
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{
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Matrix44 mtx = Matrix44::Identity();
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mtx.data[2] = a;
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mtx.data[6] = b;
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return mtx;
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}
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Matrix44 Matrix44::Perspective(float fov_y, float aspect_ratio, float z_near, float z_far)
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{
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Matrix44 mtx{};
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const float tan_half_fov_y = std::tan(fov_y / 2);
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mtx.data[0] = 1 / (aspect_ratio * tan_half_fov_y);
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mtx.data[5] = 1 / tan_half_fov_y;
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mtx.data[10] = -(z_far + z_near) / (z_far - z_near);
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mtx.data[11] = -(2 * z_far * z_near) / (z_far - z_near);
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mtx.data[14] = -1;
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return mtx;
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}
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void Matrix44::Multiply(const Matrix44& a, const Matrix44& b, Matrix44* result)
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{
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result->data = MatrixMultiply<4, 4, 4>(a.data, b.data);
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}
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Vec3 Matrix44::Transform(const Vec3& v, float w) const
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{
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const auto result = MatrixMultiply<4, 4, 1>(data, {v.x, v.y, v.z, w});
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return Vec3{result[0], result[1], result[2]};
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}
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void Matrix44::Multiply(const Matrix44& a, const Vec4& vec, Vec4* result)
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{
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result->data = MatrixMultiply<4, 4, 1>(a.data, vec.data);
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}
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} // namespace Common
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