532 lines
14 KiB
C
532 lines
14 KiB
C
#ifndef _BASIC_GEOMETRY_MATRIX2X2_H_
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#define _BASIC_GEOMETRY_MATRIX2X2_H_
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#include "angle.h"
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#include "vector2.h"
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#include "matrixes.h"
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// =================== Reset ==================== //
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inline void matrix2x2_reset_fp32(matrix2x2_fp32_t* matrix)
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{
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matrix->r1c1 = 0.0f;
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matrix->r1c2 = 0.0f;
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matrix->r2c1 = 0.0f;
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matrix->r2c2 = 0.0f;
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}
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inline void matrix2x2_reset_fp64(matrix2x2_fp64_t* matrix)
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{
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matrix->r1c1 = 0.0;
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matrix->r1c2 = 0.0;
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matrix->r2c1 = 0.0;
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matrix->r2c2 = 0.0;
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}
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// ================== Identity ================== //
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inline void matrix2x2_set_to_identity_fp32(matrix2x2_fp32_t* matrix)
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{
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matrix->r1c1 = 1.0f;
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matrix->r1c2 = 0.0f;
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matrix->r2c1 = 0.0f;
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matrix->r2c2 = 1.0f;
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}
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inline void matrix2x2_set_to_identity_fp64(matrix2x2_fp64_t* matrix)
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{
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matrix->r1c1 = 1.0;
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matrix->r1c2 = 0.0;
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matrix->r2c1 = 0.0;
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matrix->r2c2 = 1.0;
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}
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// ================ Make Diagonal =============== //
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inline void matrix2x2_set_to_diagonal_fp32(const float d1, const float d2, matrix2x2_fp32_t* matrix)
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{
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matrix->r1c1 = d1;
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matrix->r1c2 = 0.0f;
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matrix->r2c1 = 0.0f;
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matrix->r2c2 = d2;
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}
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inline void matrix2x2_set_to_diagonal_fp64(const double d1, const double d2, matrix2x2_fp64_t* matrix)
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{
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matrix->r1c1 = d1;
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matrix->r1c2 = 0.0;
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matrix->r2c1 = 0.0;
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matrix->r2c2 = d2;
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}
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// ============== Rotation Matrix =============== //
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inline void matrix2x2_make_rotation_fp32(const float angle, const angle_unit_t unit, matrix2x2_fp32_t* matrix)
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{
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const float radians = fp32_angle_to_radians(angle, unit);
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const float cosine = cosf(radians);
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const float sine = sinf(radians);
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matrix->r1c1 = cosine;
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matrix->r1c2 = -sine;
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matrix->r2c1 = sine;
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matrix->r2c2 = cosine;
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}
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inline void matrix2x2_make_rotation_fp64(const double angle, const angle_unit_t unit, matrix2x2_fp64_t* matrix)
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{
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const double radians = fp64_angle_to_radians(angle, unit);
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const double cosine = cos(radians);
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const double sine = sin(radians);
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matrix->r1c1 = cosine;
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matrix->r1c2 = -sine;
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matrix->r2c1 = sine;
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matrix->r2c2 = cosine;
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}
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// ==================== Copy ==================== //
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inline void matrix2x2_copy_fp32(const matrix2x2_fp32_t* from, matrix2x2_fp32_t* to)
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{
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to->r1c1 = from->r1c1;
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to->r1c2 = from->r1c2;
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to->r2c1 = from->r2c1;
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to->r2c2 = from->r2c2;
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}
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inline void matrix2x2_copy_fp64(const matrix2x2_fp64_t* from, matrix2x2_fp64_t* to)
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{
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to->r1c1 = from->r1c1;
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to->r1c2 = from->r1c2;
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to->r2c1 = from->r2c1;
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to->r2c2 = from->r2c2;
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}
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// ==================== Swap ==================== //
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inline void matrix2x2_swap_fp32(matrix2x2_fp32_t* matrix1, matrix2x2_fp32_t* matrix2)
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{
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const float r1c1 = matrix2->r1c1;
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const float r1c2 = matrix2->r1c2;
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const float r2c1 = matrix2->r2c1;
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const float r2c2 = matrix2->r2c2;
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matrix2->r1c1 = matrix1->r1c1;
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matrix2->r1c2 = matrix1->r1c2;
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matrix2->r2c1 = matrix1->r2c1;
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matrix2->r2c2 = matrix1->r2c2;
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matrix1->r1c1 = r1c1;
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matrix1->r1c2 = r1c2;
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matrix1->r2c1 = r2c1;
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matrix1->r2c2 = r2c2;
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}
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inline void matrix2x2_swap_fp64(matrix2x2_fp64_t* matrix1, matrix2x2_fp64_t* matrix2)
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{
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const double r1c1 = matrix2->r1c1;
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const double r1c2 = matrix2->r1c2;
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const double r2c1 = matrix2->r2c1;
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const double r2c2 = matrix2->r2c2;
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matrix2->r1c1 = matrix1->r1c1;
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matrix2->r1c2 = matrix1->r1c2;
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matrix2->r2c1 = matrix1->r2c1;
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matrix2->r2c2 = matrix1->r2c2;
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matrix1->r1c1 = r1c1;
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matrix1->r1c2 = r1c2;
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matrix1->r2c1 = r2c1;
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matrix1->r2c2 = r2c2;
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}
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// ============= Copy to twin type ============== //
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inline void matrix2x2_convert_fp64_to_fp32(const matrix2x2_fp64_t* from, matrix2x2_fp32_t* to)
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{
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to->r1c1 = (float)from->r1c1;
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to->r1c2 = (float)from->r1c2;
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to->r2c1 = (float)from->r2c1;
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to->r2c2 = (float)from->r2c2;
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}
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inline void matrix2x2_convert_fp32_to_fp64(const matrix2x2_fp32_t* from, matrix2x2_fp64_t* to)
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{
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to->r1c1 = from->r1c1;
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to->r1c2 = from->r1c2;
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to->r2c1 = from->r2c1;
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to->r2c2 = from->r2c2;
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}
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// ================ Determinant ================= //
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inline float matrix2x2_get_determinant_fp32(const matrix2x2_fp32_t* matrix)
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{
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return matrix->r1c1 * matrix->r2c2 - matrix->r1c2 * matrix->r2c1;
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}
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inline double matrix2x2_get_determinant_fp64(const matrix2x2_fp64_t* matrix)
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{
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return matrix->r1c1 * matrix->r2c2 - matrix->r1c2 * matrix->r2c1;
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}
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// ================== Singular ================== //
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inline int matrix2x2_is_singular_fp32(const matrix2x2_fp32_t* matrix)
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{
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const float determinant = matrix2x2_get_determinant_fp32(matrix);
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return -FP32_EPSYLON <= determinant && determinant <= FP32_EPSYLON;
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}
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inline int matrix2x2_is_singular_fp64(const matrix2x2_fp64_t* matrix)
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{
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const double determinant = matrix2x2_get_determinant_fp64(matrix);
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return -FP64_EPSYLON <= determinant && determinant <= FP64_EPSYLON;
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}
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// =============== Transposition ================ //
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inline void matrix2x2_transpose_fp32(matrix2x2_fp32_t* matrix)
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{
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const float tmp = matrix->r1c2;
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matrix->r1c2 = matrix->r2c1;
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matrix->r2c1 = tmp;
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}
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inline void matrix2x2_transpose_fp64(matrix2x2_fp64_t* matrix)
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{
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const double tmp = matrix->r1c2;
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matrix->r1c2 = matrix->r2c1;
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matrix->r2c1 = tmp;
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}
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// ================= Inversion ================== //
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inline int matrix2x2_invert_fp32(matrix2x2_fp32_t* matrix)
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{
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const float determinant = matrix2x2_get_determinant_fp32(matrix);
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if (-FP32_EPSYLON <= determinant && determinant <= FP32_EPSYLON) {
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return 0;
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}
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const float r1c1 = matrix->r2c2;
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const float r1c2 = -matrix->r1c2;
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const float r2c1 = -matrix->r2c1;
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const float r2c2 = matrix->r1c1;
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const float multiplier = 1.0f / determinant;
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matrix->r1c1 = r1c1 * multiplier;
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matrix->r1c2 = r1c2 * multiplier;
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matrix->r2c1 = r2c1 * multiplier;
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matrix->r2c2 = r2c2 * multiplier;
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return 1;
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}
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inline int matrix2x2_invert_fp64(matrix2x2_fp64_t* matrix)
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{
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const double determinant = matrix2x2_get_determinant_fp64(matrix);
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if (-FP64_EPSYLON <= determinant && determinant <= FP64_EPSYLON) {
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return 0;
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}
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const double r1c1 = matrix->r2c2;
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const double r1c2 = -matrix->r1c2;
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const double r2c1 = -matrix->r2c1;
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const double r2c2 = matrix->r1c1;
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const double multiplier = 1.0 / determinant;
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matrix->r1c1 = r1c1 * multiplier;
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matrix->r1c2 = r1c2 * multiplier;
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matrix->r2c1 = r2c1 * multiplier;
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matrix->r2c2 = r2c2 * multiplier;
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return 1;
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}
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// =============== Set Transposed =============== //
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inline void matrix2x2_set_transposed_fp32(const matrix2x2_fp32_t* from, matrix2x2_fp32_t* to)
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{
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float tmp = from->r1c2;
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to->r1c1 = from->r1c1;
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to->r1c2 = from->r2c1;
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to->r2c1 = tmp;
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to->r2c2 = from->r2c2;
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}
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inline void matrix2x2_set_transposed_fp64(const matrix2x2_fp64_t* from, matrix2x2_fp64_t* to)
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{
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double tmp = from->r1c2;
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to->r1c1 = from->r1c1;
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to->r1c2 = from->r2c1;
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to->r2c1 = tmp;
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to->r2c2 = from->r2c2;
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}
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// ================ Set Inverted ================ //
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inline int matrix2x2_set_inverted_fp32(const matrix2x2_fp32_t* from, matrix2x2_fp32_t* to)
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{
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const float determinant = matrix2x2_get_determinant_fp32(from);
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if (-FP32_EPSYLON <= determinant && determinant <= FP32_EPSYLON) {
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return 0;
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}
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const float r1c1 = from->r2c2;
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const float r1c2 = -from->r1c2;
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const float r2c1 = -from->r2c1;
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const float r2c2 = from->r1c1;
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const float multiplier = 1.0f / determinant;
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to->r1c1 = r1c1 * multiplier;
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to->r1c2 = r1c2 * multiplier;
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to->r2c1 = r2c1 * multiplier;
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to->r2c2 = r2c2 * multiplier;
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return 1;
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}
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inline int matrix2x2_set_inverted_fp64(const matrix2x2_fp64_t* from, matrix2x2_fp64_t* to)
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{
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const double determinant = matrix2x2_get_determinant_fp64(from);
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if (-FP64_EPSYLON <= determinant && determinant <= FP64_EPSYLON) {
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return 0;
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}
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const double r1c1 = from->r2c2;
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const double r1c2 = -from->r1c2;
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const double r2c1 = -from->r2c1;
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const double r2c2 = from->r1c1;
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const double multiplier = 1.0 / determinant;
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to->r1c1 = r1c1 * multiplier;
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to->r1c2 = r1c2 * multiplier;
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to->r2c1 = r2c1 * multiplier;
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to->r2c2 = r2c2 * multiplier;
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return 1;
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}
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// ================= Set Row 1 ================== //
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inline void matrix2x2_set_row1_fp32(const float c1, const float c2, matrix2x2_fp32_t* matrix)
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{
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matrix->r1c1 = c1;
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matrix->r1c2 = c2;
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}
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inline void matrix2x2_set_row1_fp64(const double c1, const double c2, matrix2x2_fp64_t* matrix)
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{
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matrix->r1c1 = c1;
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matrix->r1c2 = c2;
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}
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// ================= Set Row 2 ================== //
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inline void matrix2x2_set_row2_fp32(const float c1, const float c2, matrix2x2_fp32_t* matrix)
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{
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matrix->r2c1 = c1;
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matrix->r2c2 = c2;
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}
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inline void matrix2x2_set_row2_fp64(const double c1, const double c2, matrix2x2_fp64_t* matrix)
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{
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matrix->r2c1 = c1;
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matrix->r2c2 = c2;
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}
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// ================ Set Column 1 ================ //
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inline void matrix2x2_set_column1_fp32(const float r1, const float r2, matrix2x2_fp32_t* matrix)
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{
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matrix->r1c1 = r1;
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matrix->r2c1 = r2;
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}
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inline void matrix2x2_set_column1_fp64(const double r1, const double r2, matrix2x2_fp64_t* matrix)
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{
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matrix->r1c1 = r1;
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matrix->r2c1 = r2;
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}
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// ================ Set Column 2 ================ //
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inline void matrix2x2_set_column2_fp32(const float r1, const float r2, matrix2x2_fp32_t* matrix)
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{
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matrix->r1c2 = r1;
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matrix->r2c2 = r2;
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}
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inline void matrix2x2_set_column2_fp64(const double r1, const double r2, matrix2x2_fp64_t* matrix)
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{
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matrix->r1c2 = r1;
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matrix->r2c2 = r2;
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}
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// ================ Append scaled =============== //
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inline void matrix2x2_add_scaled_fp32(matrix2x2_fp32_t* basic_vector, const matrix2x2_fp32_t* scalable_vector, const float scale)
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{
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basic_vector->r1c1 += scalable_vector->r1c1 * scale;
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basic_vector->r1c2 += scalable_vector->r1c2 * scale;
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basic_vector->r2c1 += scalable_vector->r2c1 * scale;
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basic_vector->r2c2 += scalable_vector->r2c2 * scale;
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}
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inline void matrix2x2_add_scaled_fp64(matrix2x2_fp64_t* basic_vector, const matrix2x2_fp64_t* scalable_vector, const double scale)
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{
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basic_vector->r1c1 += scalable_vector->r1c1 * scale;
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basic_vector->r1c2 += scalable_vector->r1c2 * scale;
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basic_vector->r2c1 += scalable_vector->r2c1 * scale;
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basic_vector->r2c2 += scalable_vector->r2c2 * scale;
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}
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// ================== Addition ================== //
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inline void matrix2x2_add_fp32(const matrix2x2_fp32_t* matrix1, const matrix2x2_fp32_t* matrix2, matrix2x2_fp32_t* sum)
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{
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sum->r1c1 = matrix1->r1c1 + matrix2->r1c1;
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sum->r1c2 = matrix1->r1c2 + matrix2->r1c2;
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sum->r2c1 = matrix1->r2c1 + matrix2->r2c1;
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sum->r2c2 = matrix1->r2c2 + matrix2->r2c2;
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}
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inline void matrix2x2_add_fp64(const matrix2x2_fp64_t* matrix1, const matrix2x2_fp64_t* matrix2, matrix2x2_fp64_t* sum)
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{
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sum->r1c1 = matrix1->r1c1 + matrix2->r1c1;
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sum->r1c2 = matrix1->r1c2 + matrix2->r1c2;
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sum->r2c1 = matrix1->r2c1 + matrix2->r2c1;
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sum->r2c2 = matrix1->r2c2 + matrix2->r2c2;
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}
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// ================ Subtraction ================= //
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inline void matrix2x2_subtract_fp32(const matrix2x2_fp32_t* minuend, const matrix2x2_fp32_t* subtrahend, matrix2x2_fp32_t* difference)
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{
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difference->r1c1 = minuend->r1c1 - subtrahend->r1c1;
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difference->r1c2 = minuend->r1c2 - subtrahend->r1c2;
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difference->r2c1 = minuend->r2c1 - subtrahend->r2c1;
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difference->r2c2 = minuend->r2c2 - subtrahend->r2c2;
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}
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inline void matrix2x2_subtract_fp64(const matrix2x2_fp64_t* minuend, const matrix2x2_fp64_t* subtrahend, matrix2x2_fp64_t* difference)
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{
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difference->r1c1 = minuend->r1c1 - subtrahend->r1c1;
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difference->r1c2 = minuend->r1c2 - subtrahend->r1c2;
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difference->r2c1 = minuend->r2c1 - subtrahend->r2c1;
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difference->r2c2 = minuend->r2c2 - subtrahend->r2c2;
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}
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// =============== Multiplication =============== //
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inline void matrix2x2_multiply_fp32(const matrix2x2_fp32_t* multiplicand, const float multiplier, matrix2x2_fp32_t* product)
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{
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product->r1c1 = multiplicand->r1c1 * multiplier;
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product->r1c2 = multiplicand->r1c2 * multiplier;
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product->r2c1 = multiplicand->r2c1 * multiplier;
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product->r2c2 = multiplicand->r2c2 * multiplier;
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}
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inline void matrix2x2_multiply_fp64(const matrix2x2_fp64_t* multiplicand, const double multiplier, matrix2x2_fp64_t* product)
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{
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product->r1c1 = multiplicand->r1c1 * multiplier;
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product->r1c2 = multiplicand->r1c2 * multiplier;
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product->r2c1 = multiplicand->r2c1 * multiplier;
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product->r2c2 = multiplicand->r2c2 * multiplier;
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}
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// ================== Division ================== //
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inline void matrix2x2_divide_fp32(const matrix2x2_fp32_t* dividend, const float divisor, matrix2x2_fp32_t* quotient)
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{
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matrix2x2_multiply_fp32(dividend, 1.0f / divisor, quotient);
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}
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inline void matrix2x2_fp64_divide(const matrix2x2_fp64_t* dividend, const double divisor, matrix2x2_fp64_t* quotient)
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{
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matrix2x2_multiply_fp64(dividend, 1.0 / divisor, quotient);
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}
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// ============ Left Vector Product ============= //
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inline void matrix2x2_left_product_fp32(const vector2_fp32_t* vector, const matrix2x2_fp32_t* matrix, vector2_fp32_t* result)
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{
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const float x1 = vector->x1 * matrix->r1c1 + vector->x2 * matrix->r2c1;
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const float x2 = vector->x1 * matrix->r1c2 + vector->x2 * matrix->r2c2;
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result->x1 = x1;
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result->x2 = x2;
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}
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inline void matrix2x2_left_product_fp64(const vector2_fp64_t* vector, const matrix2x2_fp64_t* matrix, vector2_fp64_t* result)
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{
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const double x1 = vector->x1 * matrix->r1c1 + vector->x2 * matrix->r2c1;
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const double x2 = vector->x1 * matrix->r1c2 + vector->x2 * matrix->r2c2;
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result->x1 = x1;
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result->x2 = x2;
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}
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// ============ Right Vector Product ============ //
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inline void matrix2x2_right_product_fp32(const matrix2x2_fp32_t* matrix, const vector2_fp32_t* vector, vector2_fp32_t* result)
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{
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const float x1 = matrix->r1c1 * vector->x1 + matrix->r1c2 * vector->x2;
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const float x2 = matrix->r2c1 * vector->x1 + matrix->r2c2 * vector->x2;
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result->x1 = x1;
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result->x2 = x2;
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}
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inline void matrix2x2_right_product_fp64(const matrix2x2_fp64_t* matrix, const vector2_fp64_t* vector, vector2_fp64_t* result)
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{
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const double x1 = matrix->r1c1 * vector->x1 + matrix->r1c2 * vector->x2;
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const double x2 = matrix->r2c1 * vector->x1 + matrix->r2c2 * vector->x2;
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result->x1 = x1;
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result->x2 = x2;
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}
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#endif
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