Удаление избыточных функций, добавление функций для комплексных чисел и кватернионов

basic-geometry-test/tests/vector2/vector2_is_zero.c

@@ -21,7 +21,7 @@ static const BgcVector2FP32 _TEST_FP32_NONZERO_VECTOR2_LIST[] = {
     { -1.25f * BGC_EPSYLON_FP32, 0.0f },
     { 0.0f, 1.25f * BGC_EPSYLON_FP32 },
     { 0.0f, -1.25f * BGC_EPSYLON_FP32 },
-    { 1.25f * BGC_EPSYLON_FP32, 1.25 * BGC_EPSYLON_FP32 },
+    { 1.25f * BGC_EPSYLON_FP32, 1.25f * BGC_EPSYLON_FP32 },
     { -1.25f * BGC_EPSYLON_FP32, -1.25f * BGC_EPSYLON_FP32 }
 };
 

basic-geometry/matrix2x2.c

@@ -18,20 +18,20 @@ extern inline double bgc_matrix2x2_get_determinant_fp64(const BgcMatrix2x2FP64*
 extern inline int bgc_matrix2x2_is_singular_fp32(const BgcMatrix2x2FP32* matrix);
 extern inline int bgc_matrix2x2_is_singular_fp64(const BgcMatrix2x2FP64* matrix);
 
-extern inline void bgc_matrix2x2_copy_fp32(const BgcMatrix2x2FP32* from, BgcMatrix2x2FP32* to);
-extern inline void bgc_matrix2x2_copy_fp64(const BgcMatrix2x2FP64* from, BgcMatrix2x2FP64* to);
+extern inline void bgc_matrix2x2_copy_fp32(const BgcMatrix2x2FP32* source, BgcMatrix2x2FP32* destination);
+extern inline void bgc_matrix2x2_copy_fp64(const BgcMatrix2x2FP64* source, BgcMatrix2x2FP64* destination);
 
 extern inline void bgc_matrix2x2_swap_fp32(BgcMatrix2x2FP32* matrix1, BgcMatrix2x2FP32* matrix2);
 extern inline void bgc_matrix2x2_swap_fp64(BgcMatrix2x2FP64* matrix1, BgcMatrix2x2FP64* matrix2);
 
-extern inline void bgc_matrix2x2_convert_fp64_to_fp32(const BgcMatrix2x2FP64* from, BgcMatrix2x2FP32* to);
-extern inline void bgc_matrix2x2_convert_fp32_to_fp64(const BgcMatrix2x2FP32* from, BgcMatrix2x2FP64* to);
+extern inline void bgc_matrix2x2_convert_fp64_to_fp32(const BgcMatrix2x2FP64* source, BgcMatrix2x2FP32* destination);
+extern inline void bgc_matrix2x2_convert_fp32_to_fp64(const BgcMatrix2x2FP32* source, BgcMatrix2x2FP64* destination);
 
-extern inline int bgc_matrix2x2_invert_fp32(BgcMatrix2x2FP32* matrix);
-extern inline int bgc_matrix2x2_invert_fp64(BgcMatrix2x2FP64* matrix);
+extern inline int bgc_matrix2x2_invert_fp32(const BgcMatrix2x2FP32* matrix, BgcMatrix2x2FP32* inverted);
+extern inline int bgc_matrix2x2_invert_fp64(const BgcMatrix2x2FP64* matrix, BgcMatrix2x2FP64* inverted);
 
-extern inline void bgc_matrix2x2_transpose_fp32(BgcMatrix2x2FP32* matrix);
-extern inline void bgc_matrix2x2_transpose_fp64(BgcMatrix2x2FP64* matrix);
+extern inline void bgc_matrix2x2_transpose_fp32(const BgcMatrix2x2FP32* matrix, BgcMatrix2x2FP32* transposed);
+extern inline void bgc_matrix2x2_transpose_fp64(const BgcMatrix2x2FP64* matrix, BgcMatrix2x2FP64* transposed);
 
 extern inline void bgc_matrix2x2_set_row1_fp32(const float c1, const float c2, BgcMatrix2x2FP32* matrix);
 extern inline void bgc_matrix2x2_set_row1_fp64(const double c1, const double c2, BgcMatrix2x2FP64* matrix);
@@ -45,12 +45,6 @@ extern inline void bgc_matrix2x2_set_column1_fp64(const double r1, const double
 extern inline void bgc_matrix2x2_set_column2_fp32(const float r1, const float r2, BgcMatrix2x2FP32* matrix);
 extern inline void bgc_matrix2x2_set_column2_fp64(const double r1, const double r2, BgcMatrix2x2FP64* matrix);
 
-extern inline int bgc_matrix2x2_get_inverted_fp32(const BgcMatrix2x2FP32* from, BgcMatrix2x2FP32* to);
-extern inline int bgc_matrix2x2_get_inverted_fp64(const BgcMatrix2x2FP64* from, BgcMatrix2x2FP64* to);
-
-extern inline void bgc_matrix2x2_get_transposed_fp32(const BgcMatrix2x2FP32* from, BgcMatrix2x2FP32* to);
-extern inline void bgc_matrix2x2_get_transposed_fp64(const BgcMatrix2x2FP64* from, BgcMatrix2x2FP64* to);
-
 extern inline void bgc_matrix2x2_add_fp32(const BgcMatrix2x2FP32* matrix1, const BgcMatrix2x2FP32* matrix2, BgcMatrix2x2FP32* sum);
 extern inline void bgc_matrix2x2_add_fp64(const BgcMatrix2x2FP64* matrix1, const BgcMatrix2x2FP64* matrix2, BgcMatrix2x2FP64* sum);
 
@@ -74,4 +68,3 @@ extern inline void bgc_matrix2x2_get_left_product_fp64(const BgcVector2FP64* vec
 
 extern inline void bgc_matrix2x2_get_right_product_fp32(const BgcMatrix2x2FP32* matrix, const BgcVector2FP32* vector, BgcVector2FP32* product);
 extern inline void bgc_matrix2x2_get_right_product_fp64(const BgcMatrix2x2FP64* matrix, const BgcVector2FP64* vector, BgcVector2FP64* product);
-

basic-geometry/matrix2x2.h

@@ -111,22 +111,22 @@ inline int bgc_matrix2x2_is_singular_fp64(const BgcMatrix2x2FP64* matrix)
 
 // ==================== Copy ==================== //
 
-inline void bgc_matrix2x2_copy_fp32(const BgcMatrix2x2FP32* from, BgcMatrix2x2FP32* to)
+inline void bgc_matrix2x2_copy_fp32(const BgcMatrix2x2FP32* source, BgcMatrix2x2FP32* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
 }
 
-inline void bgc_matrix2x2_copy_fp64(const BgcMatrix2x2FP64* from, BgcMatrix2x2FP64* to)
+inline void bgc_matrix2x2_copy_fp64(const BgcMatrix2x2FP64* source, BgcMatrix2x2FP64* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
 }
 
 // ==================== Swap ==================== //
@@ -175,27 +175,27 @@ inline void bgc_matrix2x2_swap_fp64(BgcMatrix2x2FP64* matrix1, BgcMatrix2x2FP64*
 
 // ================== Convert =================== //
 
-inline void bgc_matrix2x2_convert_fp64_to_fp32(const BgcMatrix2x2FP64* from, BgcMatrix2x2FP32* to)
+inline void bgc_matrix2x2_convert_fp64_to_fp32(const BgcMatrix2x2FP64* source, BgcMatrix2x2FP32* destination)
 {
-    to->r1c1 = (float)from->r1c1;
-    to->r1c2 = (float)from->r1c2;
+    destination->r1c1 = (float)source->r1c1;
+    destination->r1c2 = (float)source->r1c2;
 
-    to->r2c1 = (float)from->r2c1;
-    to->r2c2 = (float)from->r2c2;
+    destination->r2c1 = (float)source->r2c1;
+    destination->r2c2 = (float)source->r2c2;
 }
 
-inline void bgc_matrix2x2_convert_fp32_to_fp64(const BgcMatrix2x2FP32* from, BgcMatrix2x2FP64* to)
+inline void bgc_matrix2x2_convert_fp32_to_fp64(const BgcMatrix2x2FP32* source, BgcMatrix2x2FP64* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
 }
 
 // =================== Invert =================== //
 
-inline int bgc_matrix2x2_invert_fp32(BgcMatrix2x2FP32* matrix)
+inline int bgc_matrix2x2_invert_fp32(const BgcMatrix2x2FP32* matrix, BgcMatrix2x2FP32* inverted)
 {
     const float determinant = bgc_matrix2x2_get_determinant_fp32(matrix);
 
@@ -211,16 +211,16 @@ inline int bgc_matrix2x2_invert_fp32(BgcMatrix2x2FP32* matrix)
 
     const float multiplier = 1.0f / determinant;
 
-    matrix->r1c1 = r1c1 * multiplier;
-    matrix->r1c2 = r1c2 * multiplier;
+    inverted->r1c1 = r1c1 * multiplier;
+    inverted->r1c2 = r1c2 * multiplier;
 
-    matrix->r2c1 = r2c1 * multiplier;
-    matrix->r2c2 = r2c2 * multiplier;
+    inverted->r2c1 = r2c1 * multiplier;
+    inverted->r2c2 = r2c2 * multiplier;
 
     return 1;
 }
 
-inline int bgc_matrix2x2_invert_fp64(BgcMatrix2x2FP64* matrix)
+inline int bgc_matrix2x2_invert_fp64(const BgcMatrix2x2FP64* matrix, BgcMatrix2x2FP64* inverted)
 {
     const double determinant = bgc_matrix2x2_get_determinant_fp64(matrix);
 
@@ -236,29 +236,37 @@ inline int bgc_matrix2x2_invert_fp64(BgcMatrix2x2FP64* matrix)
 
     const double multiplier = 1.0 / determinant;
 
-    matrix->r1c1 = r1c1 * multiplier;
-    matrix->r1c2 = r1c2 * multiplier;
+    inverted->r1c1 = r1c1 * multiplier;
+    inverted->r1c2 = r1c2 * multiplier;
 
-    matrix->r2c1 = r2c1 * multiplier;
-    matrix->r2c2 = r2c2 * multiplier;
+    inverted->r2c1 = r2c1 * multiplier;
+    inverted->r2c2 = r2c2 * multiplier;
 
     return 1;
 }
 
 // ================= Transpose ================== //
 
-inline void bgc_matrix2x2_transpose_fp32(BgcMatrix2x2FP32* matrix)
+inline void bgc_matrix2x2_transpose_fp32(const BgcMatrix2x2FP32* matrix, BgcMatrix2x2FP32* transposed)
 {
-    const float tmp = matrix->r1c2;
-    matrix->r1c2 = matrix->r2c1;
-    matrix->r2c1 = tmp;
+    const float r1c2 = matrix->r1c2;
+
+    transposed->r1c1 = matrix->r1c1;
+    transposed->r1c2 = matrix->r2c1;
+
+    transposed->r2c1 = r1c2;
+    transposed->r2c2 = matrix->r2c2;
 }
 
-inline void bgc_matrix2x2_transpose_fp64(BgcMatrix2x2FP64* matrix)
+inline void bgc_matrix2x2_transpose_fp64(const BgcMatrix2x2FP64* matrix, BgcMatrix2x2FP64* transposed)
 {
-    const double tmp = matrix->r1c2;
-    matrix->r1c2 = matrix->r2c1;
-    matrix->r2c1 = tmp;
+    const double r1c2 = matrix->r1c2;
+
+    transposed->r1c1 = matrix->r1c1;
+    transposed->r1c2 = matrix->r2c1;
+
+    transposed->r2c1 = r1c2;
+    transposed->r2c2 = matrix->r2c2;
 }
 
 // ================= Set Row 1 ================== //
@@ -317,82 +325,6 @@ inline void bgc_matrix2x2_set_column2_fp64(const double r1, const double r2, Bgc
     matrix->r2c2 = r2;
 }
 
-// ================ Get Inverted ================ //
-
-inline int bgc_matrix2x2_get_inverted_fp32(const BgcMatrix2x2FP32* matrix, BgcMatrix2x2FP32* inverted)
-{
-    const float determinant = bgc_matrix2x2_get_determinant_fp32(matrix);
-
-    if (bgc_is_zero_fp32(determinant)) {
-        return 0;
-    }
-
-    const float r1c1 = matrix->r2c2;
-    const float r1c2 = -matrix->r1c2;
-
-    const float r2c1 = -matrix->r2c1;
-    const float r2c2 = matrix->r1c1;
-
-    const float multiplier = 1.0f / determinant;
-
-    inverted->r1c1 = r1c1 * multiplier;
-    inverted->r1c2 = r1c2 * multiplier;
-
-    inverted->r2c1 = r2c1 * multiplier;
-    inverted->r2c2 = r2c2 * multiplier;
-
-    return 1;
-}
-
-inline int bgc_matrix2x2_get_inverted_fp64(const BgcMatrix2x2FP64* matrix, BgcMatrix2x2FP64* inverted)
-{
-    const double determinant = bgc_matrix2x2_get_determinant_fp64(matrix);
-
-    if (bgc_is_zero_fp64(determinant)) {
-        return 0;
-    }
-
-    const double r1c1 = matrix->r2c2;
-    const double r1c2 = -matrix->r1c2;
-
-    const double r2c1 = -matrix->r2c1;
-    const double r2c2 = matrix->r1c1;
-
-    const double multiplier = 1.0 / determinant;
-
-    inverted->r1c1 = r1c1 * multiplier;
-    inverted->r1c2 = r1c2 * multiplier;
-
-    inverted->r2c1 = r2c1 * multiplier;
-    inverted->r2c2 = r2c2 * multiplier;
-
-    return 1;
-}
-
-// =============== Get Transposed =============== //
-
-inline void bgc_matrix2x2_get_transposed_fp32(const BgcMatrix2x2FP32* matrix, BgcMatrix2x2FP32* transposed)
-{
-    float tmp = matrix->r1c2;
-
-    transposed->r1c1 = matrix->r1c1;
-    transposed->r1c2 = matrix->r2c1;
-
-    transposed->r2c1 = tmp;
-    transposed->r2c2 = matrix->r2c2;
-}
-
-inline void bgc_matrix2x2_get_transposed_fp64(const BgcMatrix2x2FP64* matrix, BgcMatrix2x2FP64* transposed)
-{
-    double tmp = matrix->r1c2;
-
-    transposed->r1c1 = matrix->r1c1;
-    transposed->r1c2 = matrix->r2c1;
-
-    transposed->r2c1 = tmp;
-    transposed->r2c2 = matrix->r2c2;
-}
-
 // ==================== Add ===================== //
 
 inline void bgc_matrix2x2_add_fp32(const BgcMatrix2x2FP32* matrix1, const BgcMatrix2x2FP32* matrix2, BgcMatrix2x2FP32* sum)

basic-geometry/matrix2x3.c

@@ -3,14 +3,17 @@
 extern inline void bgc_matrix2x3_reset_fp32(BgcMatrix2x3FP32* matrix);
 extern inline void bgc_matrix2x3_reset_fp64(BgcMatrix2x3FP64* matrix);
 
-extern inline void bgc_matrix2x3_copy_fp32(const BgcMatrix2x3FP32* from, BgcMatrix2x3FP32* to);
-extern inline void bgc_matrix2x3_copy_fp64(const BgcMatrix2x3FP64* from, BgcMatrix2x3FP64* to);
+extern inline void bgc_matrix2x3_copy_fp32(const BgcMatrix2x3FP32* source, BgcMatrix2x3FP32* destination);
+extern inline void bgc_matrix2x3_copy_fp64(const BgcMatrix2x3FP64* source, BgcMatrix2x3FP64* destination);
 
 extern inline void bgc_matrix2x3_swap_fp32(BgcMatrix2x3FP32* matrix1, BgcMatrix2x3FP32* matrix2);
 extern inline void bgc_matrix2x3_swap_fp64(BgcMatrix2x3FP64* matrix1, BgcMatrix2x3FP64* matrix2);
 
-extern inline void bgc_matrix2x3_convert_fp64_to_fp32(const BgcMatrix2x3FP64* from, BgcMatrix2x3FP32* to);
-extern inline void bgc_matrix2x3_convert_fp32_to_fp64(const BgcMatrix2x3FP32* from, BgcMatrix2x3FP64* to);
+extern inline void bgc_matrix2x3_convert_fp64_to_fp32(const BgcMatrix2x3FP64* source, BgcMatrix2x3FP32* destination);
+extern inline void bgc_matrix2x3_convert_fp32_to_fp64(const BgcMatrix2x3FP32* source, BgcMatrix2x3FP64* destination);
+
+extern inline void bgc_matrix2x3_transpose_fp32(const BgcMatrix3x2FP32* matrix, BgcMatrix2x3FP32* transposed);
+extern inline void bgc_matrix2x3_transpose_fp64(const BgcMatrix3x2FP64* matrix, BgcMatrix2x3FP64* transposed);
 
 extern inline void bgc_matrix2x3_set_row1_fp32(const float c1, const float c2, BgcMatrix2x3FP32* matrix);
 extern inline void bgc_matrix2x3_set_row1_fp64(const double c1, const double c2, BgcMatrix2x3FP64* matrix);
@@ -27,9 +30,6 @@ extern inline void bgc_matrix2x3_set_column1_fp64(const double r1, const double
 extern inline void bgc_matrix2x3_set_column2_fp32(const float r1, const float r2, const float r3, BgcMatrix2x3FP32* matrix);
 extern inline void bgc_matrix2x3_set_column2_fp64(const double r1, const double r2, const double r3, BgcMatrix2x3FP64* matrix);
 
-extern inline void bgc_matrix2x3_get_transposed_fp32(const BgcMatrix3x2FP32* from, BgcMatrix2x3FP32* to);
-extern inline void bgc_matrix2x3_get_transposed_fp64(const BgcMatrix3x2FP64* from, BgcMatrix2x3FP64* to);
-
 extern inline void bgc_matrix2x3_add_fp32(const BgcMatrix2x3FP32* matrix1, const BgcMatrix2x3FP32* matrix2, BgcMatrix2x3FP32* sum);
 extern inline void bgc_matrix2x3_add_fp64(const BgcMatrix2x3FP64* matrix1, const BgcMatrix2x3FP64* matrix2, BgcMatrix2x3FP64* sum);
 

basic-geometry/matrix2x3.h

@@ -33,28 +33,28 @@ inline void bgc_matrix2x3_reset_fp64(BgcMatrix2x3FP64* matrix)
 
 // ==================== Copy ==================== //
 
-inline void bgc_matrix2x3_copy_fp32(const BgcMatrix2x3FP32* from, BgcMatrix2x3FP32* to)
+inline void bgc_matrix2x3_copy_fp32(const BgcMatrix2x3FP32* source, BgcMatrix2x3FP32* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
 
-    to->r3c1 = from->r3c1;
-    to->r3c2 = from->r3c2;
+    destination->r3c1 = source->r3c1;
+    destination->r3c2 = source->r3c2;
 }
 
-inline void bgc_matrix2x3_copy_fp64(const BgcMatrix2x3FP64* from, BgcMatrix2x3FP64* to)
+inline void bgc_matrix2x3_copy_fp64(const BgcMatrix2x3FP64* source, BgcMatrix2x3FP64* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
 
-    to->r3c1 = from->r3c1;
-    to->r3c2 = from->r3c2;
+    destination->r3c1 = source->r3c1;
+    destination->r3c2 = source->r3c2;
 }
 
 // ==================== Swap ==================== //
@@ -121,28 +121,54 @@ inline void bgc_matrix2x3_swap_fp64(BgcMatrix2x3FP64* matrix1, BgcMatrix2x3FP64*
 
 // ================== Convert =================== //
 
-inline void bgc_matrix2x3_convert_fp64_to_fp32(const BgcMatrix2x3FP64* from, BgcMatrix2x3FP32* to)
+inline void bgc_matrix2x3_convert_fp64_to_fp32(const BgcMatrix2x3FP64* source, BgcMatrix2x3FP32* destination)
 {
-    to->r1c1 = (float) from->r1c1;
-    to->r1c2 = (float) from->r1c2;
+    destination->r1c1 = (float)source->r1c1;
+    destination->r1c2 = (float)source->r1c2;
 
-    to->r2c1 = (float) from->r2c1;
-    to->r2c2 = (float) from->r2c2;
+    destination->r2c1 = (float)source->r2c1;
+    destination->r2c2 = (float)source->r2c2;
 
-    to->r3c1 = (float) from->r3c1;
-    to->r3c2 = (float) from->r3c2;
+    destination->r3c1 = (float)source->r3c1;
+    destination->r3c2 = (float)source->r3c2;
 }
 
-inline void bgc_matrix2x3_convert_fp32_to_fp64(const BgcMatrix2x3FP32* from, BgcMatrix2x3FP64* to)
+inline void bgc_matrix2x3_convert_fp32_to_fp64(const BgcMatrix2x3FP32* source, BgcMatrix2x3FP64* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
 
-    to->r3c1 = from->r3c1;
-    to->r3c2 = from->r3c2;
+    destination->r3c1 = source->r3c1;
+    destination->r3c2 = source->r3c2;
+}
+
+// ================= Transpose ================== //
+
+inline void bgc_matrix2x3_transpose_fp32(const BgcMatrix3x2FP32* matrix, BgcMatrix2x3FP32* transposed)
+{
+    transposed->r1c1 = matrix->r1c1;
+    transposed->r1c2 = matrix->r2c1;
+
+    transposed->r2c1 = matrix->r1c2;
+    transposed->r2c2 = matrix->r2c2;
+
+    transposed->r3c1 = matrix->r1c3;
+    transposed->r3c2 = matrix->r2c3;
+}
+
+inline void bgc_matrix2x3_transpose_fp64(const BgcMatrix3x2FP64* matrix, BgcMatrix2x3FP64* transposed)
+{
+    transposed->r1c1 = matrix->r1c1;
+    transposed->r1c2 = matrix->r2c1;
+
+    transposed->r2c1 = matrix->r1c2;
+    transposed->r2c2 = matrix->r2c2;
+
+    transposed->r3c1 = matrix->r1c3;
+    transposed->r3c2 = matrix->r2c3;
 }
 
 // ================= Set Row 1 ================== //
@@ -219,33 +245,6 @@ inline void bgc_matrix2x3_set_column2_fp64(const double r1, const double r2, con
     matrix->r3c2 = r3;
 }
 
-// =============== Get transposed =============== //
-
-inline void bgc_matrix2x3_get_transposed_fp32(const BgcMatrix3x2FP32* matrix, BgcMatrix2x3FP32* transposed)
-{
-    transposed->r1c1 = matrix->r1c1;
-    transposed->r1c2 = matrix->r2c1;
-
-    transposed->r2c1 = matrix->r1c2;
-    transposed->r2c2 = matrix->r2c2;
-
-    transposed->r3c1 = matrix->r1c3;
-    transposed->r3c2 = matrix->r2c3;
-}
-
-inline void bgc_matrix2x3_get_transposed_fp64(const BgcMatrix3x2FP64* matrix, BgcMatrix2x3FP64* transposed)
-{
-    transposed->r1c1 = matrix->r1c1;
-    transposed->r1c2 = matrix->r2c1;
-
-    transposed->r2c1 = matrix->r1c2;
-    transposed->r2c2 = matrix->r2c2;
-
-    transposed->r3c1 = matrix->r1c3;
-    transposed->r3c2 = matrix->r2c3;
-}
-
-
 // ==================== Add ===================== //
 
 inline void bgc_matrix2x3_add_fp32(const BgcMatrix2x3FP32* matrix1, const BgcMatrix2x3FP32* matrix2, BgcMatrix2x3FP32* sum)

basic-geometry/matrix3x2.c

@@ -3,14 +3,17 @@
 extern inline void bgc_matrix3x2_reset_fp32(BgcMatrix3x2FP32* matrix);
 extern inline void bgc_matrix3x2_reset_fp64(BgcMatrix3x2FP64* matrix);
 
-extern inline void bgc_matrix3x2_copy_fp32(const BgcMatrix3x2FP32* from, BgcMatrix3x2FP32* to);
-extern inline void bgc_matrix3x2_copy_fp64(const BgcMatrix3x2FP64* from, BgcMatrix3x2FP64* to);
+extern inline void bgc_matrix3x2_copy_fp32(const BgcMatrix3x2FP32* source, BgcMatrix3x2FP32* destination);
+extern inline void bgc_matrix3x2_copy_fp64(const BgcMatrix3x2FP64* source, BgcMatrix3x2FP64* destination);
 
 extern inline void bgc_matrix3x2_swap_fp32(BgcMatrix3x2FP32* matrix1, BgcMatrix3x2FP32* matrix2);
 extern inline void bgc_matrix3x2_swap_fp64(BgcMatrix3x2FP64* matrix1, BgcMatrix3x2FP64* matrix2);
 
-extern inline void bgc_matrix3x2_convert_fp64_to_fp32(const BgcMatrix3x2FP64* from, BgcMatrix3x2FP32* to);
-extern inline void bgc_matrix3x2_convert_fp32_to_fp64(const BgcMatrix3x2FP32* from, BgcMatrix3x2FP64* to);
+extern inline void bgc_matrix3x2_convert_fp64_to_fp32(const BgcMatrix3x2FP64* source, BgcMatrix3x2FP32* destination);
+extern inline void bgc_matrix3x2_convert_fp32_to_fp64(const BgcMatrix3x2FP32* source, BgcMatrix3x2FP64* destination);
+
+extern inline void bgc_matrix3x2_transpose_fp32(const BgcMatrix2x3FP32* matrix, BgcMatrix3x2FP32* transposed);
+extern inline void bgc_matrix3x2_transpose_fp64(const BgcMatrix2x3FP64* matrix, BgcMatrix3x2FP64* transposed);
 
 extern inline void bgc_matrix3x2_set_row1_fp32(const float c1, const float c2, const float c3, BgcMatrix3x2FP32* matrix);
 extern inline void bgc_matrix3x2_set_row1_fp64(const double c1, const double c2, const double c3, BgcMatrix3x2FP64* matrix);
@@ -27,9 +30,6 @@ extern inline void bgc_matrix3x2_set_column2_fp64(const double r1, const double
 extern inline void bgc_matrix3x2_set_column3_fp32(const float r1, const float r2, BgcMatrix3x2FP32* matrix);
 extern inline void bgc_matrix3x2_set_column3_fp64(const double r1, const double r2, BgcMatrix3x2FP64* matrix);
 
-extern inline void bgc_matrix3x2_get_transposed_fp32(const BgcMatrix2x3FP32* from, BgcMatrix3x2FP32* to);
-extern inline void bgc_matrix3x2_get_transposed_fp64(const BgcMatrix2x3FP64* from, BgcMatrix3x2FP64* to);
-
 extern inline void bgc_matrix3x2_add_fp32(const BgcMatrix3x2FP32* matrix1, const BgcMatrix3x2FP32* matrix2, BgcMatrix3x2FP32* sum);
 extern inline void bgc_matrix3x2_add_fp64(const BgcMatrix3x2FP64* matrix1, const BgcMatrix3x2FP64* matrix2, BgcMatrix3x2FP64* sum);
 

basic-geometry/matrix3x2.h

@@ -31,26 +31,26 @@ inline void bgc_matrix3x2_reset_fp64(BgcMatrix3x2FP64* matrix)
 
 // ==================== Copy ==================== //
 
-inline void bgc_matrix3x2_copy_fp32(const BgcMatrix3x2FP32* from, BgcMatrix3x2FP32* to)
+inline void bgc_matrix3x2_copy_fp32(const BgcMatrix3x2FP32* source, BgcMatrix3x2FP32* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
-    to->r1c3 = from->r1c3;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
+    destination->r1c3 = source->r1c3;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
-    to->r2c3 = from->r2c3;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
+    destination->r2c3 = source->r2c3;
 }
 
-inline void bgc_matrix3x2_copy_fp64(const BgcMatrix3x2FP64* from, BgcMatrix3x2FP64* to)
+inline void bgc_matrix3x2_copy_fp64(const BgcMatrix3x2FP64* source, BgcMatrix3x2FP64* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
-    to->r1c3 = from->r1c3;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
+    destination->r1c3 = source->r1c3;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
-    to->r2c3 = from->r2c3;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
+    destination->r2c3 = source->r2c3;
 }
 
 // ==================== Swap ==================== //
@@ -111,26 +111,50 @@ inline void bgc_matrix3x2_swap_fp64(BgcMatrix3x2FP64* matrix1, BgcMatrix3x2FP64*
 
 // ================== Convert =================== //
 
-inline void bgc_matrix3x2_convert_fp64_to_fp32(const BgcMatrix3x2FP64* from, BgcMatrix3x2FP32* to)
+inline void bgc_matrix3x2_convert_fp64_to_fp32(const BgcMatrix3x2FP64* source, BgcMatrix3x2FP32* destination)
 {
-    to->r1c1 = (float) from->r1c1;
-    to->r1c2 = (float) from->r1c2;
-    to->r1c3 = (float) from->r1c3;
+    destination->r1c1 = (float)source->r1c1;
+    destination->r1c2 = (float)source->r1c2;
+    destination->r1c3 = (float)source->r1c3;
 
-    to->r2c1 = (float) from->r2c1;
-    to->r2c2 = (float) from->r2c2;
-    to->r2c3 = (float) from->r2c3;
+    destination->r2c1 = (float)source->r2c1;
+    destination->r2c2 = (float)source->r2c2;
+    destination->r2c3 = (float)source->r2c3;
 }
 
-inline void bgc_matrix3x2_convert_fp32_to_fp64(const BgcMatrix3x2FP32* from, BgcMatrix3x2FP64* to)
+inline void bgc_matrix3x2_convert_fp32_to_fp64(const BgcMatrix3x2FP32* source, BgcMatrix3x2FP64* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
-    to->r1c3 = from->r1c3;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
+    destination->r1c3 = source->r1c3;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
-    to->r2c3 = from->r2c3;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
+    destination->r2c3 = source->r2c3;
+}
+
+// ================= Transpose ================== //
+
+inline void bgc_matrix3x2_transpose_fp32(const BgcMatrix2x3FP32* matrix, BgcMatrix3x2FP32* transposed)
+{
+    transposed->r1c1 = matrix->r1c1;
+    transposed->r1c2 = matrix->r2c1;
+    transposed->r1c3 = matrix->r3c1;
+
+    transposed->r2c1 = matrix->r1c2;
+    transposed->r2c2 = matrix->r2c2;
+    transposed->r2c3 = matrix->r3c2;
+}
+
+inline void bgc_matrix3x2_transpose_fp64(const BgcMatrix2x3FP64* matrix, BgcMatrix3x2FP64* transposed)
+{
+    transposed->r1c1 = matrix->r1c1;
+    transposed->r1c2 = matrix->r2c1;
+    transposed->r1c3 = matrix->r3c1;
+
+    transposed->r2c1 = matrix->r1c2;
+    transposed->r2c2 = matrix->r2c2;
+    transposed->r2c3 = matrix->r3c2;
 }
 
 // ================= Set Row 1 ================== //
@@ -207,30 +231,6 @@ inline void bgc_matrix3x2_set_column3_fp64(const double r1, const double r2, Bgc
     matrix->r2c3 = r2;
 }
 
-// =============== Get transposed =============== //
-
-inline void bgc_matrix3x2_get_transposed_fp32(const BgcMatrix2x3FP32* from, BgcMatrix3x2FP32* to)
-{
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r2c1;
-    to->r1c3 = from->r3c1;
-
-    to->r2c1 = from->r1c2;
-    to->r2c2 = from->r2c2;
-    to->r2c3 = from->r3c2;
-}
-
-inline void bgc_matrix3x2_get_transposed_fp64(const BgcMatrix2x3FP64* from, BgcMatrix3x2FP64* to)
-{
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r2c1;
-    to->r1c3 = from->r3c1;
-
-    to->r2c1 = from->r1c2;
-    to->r2c2 = from->r2c2;
-    to->r2c3 = from->r3c2;
-}
-
 // ==================== Add ===================== //
 
 inline void bgc_matrix3x2_add_fp32(const BgcMatrix3x2FP32* matrix1, const BgcMatrix3x2FP32* matrix2, BgcMatrix3x2FP32* sum)

basic-geometry/matrix3x3.c

@@ -9,14 +9,14 @@ extern inline void bgc_matrix3x3_set_to_identity_fp64(BgcMatrix3x3FP64* matrix);
 extern inline void bgc_matrix3x3_set_to_diagonal_fp32(const float d1, const float d2, const float d3, BgcMatrix3x3FP32* matrix);
 extern inline void bgc_matrix3x3_set_to_diagonal_fp64(const double d1, const double d2, const double d3, BgcMatrix3x3FP64* matrix);
 
-extern inline void bgc_matrix3x3_copy_fp32(const BgcMatrix3x3FP32* from, BgcMatrix3x3FP32* to);
-extern inline void bgc_matrix3x3_copy_fp64(const BgcMatrix3x3FP64* from, BgcMatrix3x3FP64* to);
+extern inline void bgc_matrix3x3_copy_fp32(const BgcMatrix3x3FP32* source, BgcMatrix3x3FP32* destination);
+extern inline void bgc_matrix3x3_copy_fp64(const BgcMatrix3x3FP64* source, BgcMatrix3x3FP64* destination);
 
 extern inline void bgc_matrix3x3_swap_fp32(BgcMatrix3x3FP32* matrix1, BgcMatrix3x3FP32* matrix2);
 extern inline void bgc_matrix3x3_swap_fp64(BgcMatrix3x3FP64* matrix1, BgcMatrix3x3FP64* matrix2);
 
-extern inline void bgc_matrix3x3_convert_fp64_to_fp32(const BgcMatrix3x3FP64* from, BgcMatrix3x3FP32* to);
-extern inline void bgc_matrix3x3_convert_fp32_to_fp64(const BgcMatrix3x3FP32* from, BgcMatrix3x3FP64* to);
+extern inline void bgc_matrix3x3_convert_fp64_to_fp32(const BgcMatrix3x3FP64* source, BgcMatrix3x3FP32* destination);
+extern inline void bgc_matrix3x3_convert_fp32_to_fp64(const BgcMatrix3x3FP32* source, BgcMatrix3x3FP64* destination);
 
 extern inline float bgc_matrix3x3_get_determinant_fp32(const BgcMatrix3x3FP32* matrix);
 extern inline double bgc_matrix3x3_get_determinant_fp64(const BgcMatrix3x3FP64* matrix);
@@ -24,8 +24,8 @@ extern inline double bgc_matrix3x3_get_determinant_fp64(const BgcMatrix3x3FP64*
 extern inline int bgc_matrix3x3_is_singular_fp32(const BgcMatrix3x3FP32* matrix);
 extern inline int bgc_matrix3x3_is_singular_fp64(const BgcMatrix3x3FP64* matrix);
 
-extern inline void bgc_matrix3x3_transpose_fp32(BgcMatrix3x3FP32* matrix);
-extern inline void bgc_matrix3x3_transpose_fp64(BgcMatrix3x3FP64* matrix);
+extern inline void bgc_matrix3x3_transpose_fp32(const BgcMatrix3x3FP32* matrix, BgcMatrix3x3FP32* transposed);
+extern inline void bgc_matrix3x3_transpose_fp64(const BgcMatrix3x3FP64* matrix, BgcMatrix3x3FP64* transposed);
 
 extern inline void bgc_matrix3x3_set_row1_fp32(const float c1, const float c2, const float c3, BgcMatrix3x3FP32* matrix);
 extern inline void bgc_matrix3x3_set_row1_fp64(const double c1, const double c2, const double c3, BgcMatrix3x3FP64* matrix);
@@ -45,9 +45,6 @@ extern inline void bgc_matrix3x3_set_column2_fp64(const double r1, const double
 extern inline void bgc_matrix3x3_set_column3_fp32(const float r1, const float r2, const float r3, BgcMatrix3x3FP32* matrix);
 extern inline void bgc_matrix3x3_set_column3_fp64(const double r1, const double r2, const double r3, BgcMatrix3x3FP64* matrix);
 
-extern inline void bgc_matrix3x3_get_transposed_fp32(const BgcMatrix3x3FP32* matrix, BgcMatrix3x3FP32* result);
-extern inline void bgc_matrix3x3_get_transposed_fp64(const BgcMatrix3x3FP64* matrix, BgcMatrix3x3FP64* result);
-
 extern inline void bgc_matrix3x3_add_fp32(const BgcMatrix3x3FP32* matrix1, const BgcMatrix3x3FP32* matrix2, BgcMatrix3x3FP32* sum);
 extern inline void bgc_matrix3x3_add_fp64(const BgcMatrix3x3FP64* matrix1, const BgcMatrix3x3FP64* matrix2, BgcMatrix3x3FP64* sum);
 
@@ -74,11 +71,11 @@ extern inline void bgc_matrix3x3_get_right_product_fp64(const BgcMatrix3x3FP64*
 
 // =================== Invert =================== //
 
-int bgc_matrix3x3_invert_fp32(BgcMatrix3x3FP32* matrix)
+int bgc_matrix3x3_invert_fp32(const BgcMatrix3x3FP32* matrix, BgcMatrix3x3FP32* inverted)
 {
     const float determinant = bgc_matrix3x3_get_determinant_fp32(matrix);
 
-    if (-BGC_EPSYLON_FP32 <= determinant && determinant <= BGC_EPSYLON_FP32) {
+    if (bgc_is_zero_fp32(determinant)) {
         return 0;
     }
 
@@ -96,26 +93,26 @@ int bgc_matrix3x3_invert_fp32(BgcMatrix3x3FP32* matrix)
 
     const float multiplier = 1.0f / determinant;
 
-    matrix->r1c1 = r1c1 * multiplier;
-    matrix->r1c2 = r1c2 * multiplier;
-    matrix->r1c3 = r1c3 * multiplier;
+    inverted->r1c1 = r1c1 * multiplier;
+    inverted->r1c2 = r1c2 * multiplier;
+    inverted->r1c3 = r1c3 * multiplier;
 
-    matrix->r2c1 = r2c1 * multiplier;
-    matrix->r2c2 = r2c2 * multiplier;
-    matrix->r2c3 = r2c3 * multiplier;
+    inverted->r2c1 = r2c1 * multiplier;
+    inverted->r2c2 = r2c2 * multiplier;
+    inverted->r2c3 = r2c3 * multiplier;
 
-    matrix->r3c1 = r3c1 * multiplier;
-    matrix->r3c2 = r3c2 * multiplier;
-    matrix->r3c3 = r3c3 * multiplier;
+    inverted->r3c1 = r3c1 * multiplier;
+    inverted->r3c2 = r3c2 * multiplier;
+    inverted->r3c3 = r3c3 * multiplier;
 
     return 1;
 }
 
-int bgc_matrix3x3_invert_fp64(BgcMatrix3x3FP64* matrix)
+int bgc_matrix3x3_invert_fp64(const BgcMatrix3x3FP64* matrix, BgcMatrix3x3FP64* inverted)
 {
     const double determinant = bgc_matrix3x3_get_determinant_fp64(matrix);
 
-    if (-BGC_EPSYLON_FP64 <= determinant && determinant <= BGC_EPSYLON_FP64) {
+    if (bgc_is_zero_fp64(determinant)) {
         return 0;
     }
 
@@ -133,93 +130,17 @@ int bgc_matrix3x3_invert_fp64(BgcMatrix3x3FP64* matrix)
 
     const double multiplier = 1.0 / determinant;
 
-    matrix->r1c1 = r1c1 * multiplier;
-    matrix->r1c2 = r1c2 * multiplier;
-    matrix->r1c3 = r1c3 * multiplier;
+    inverted->r1c1 = r1c1 * multiplier;
+    inverted->r1c2 = r1c2 * multiplier;
+    inverted->r1c3 = r1c3 * multiplier;
 
-    matrix->r2c1 = r2c1 * multiplier;
-    matrix->r2c2 = r2c2 * multiplier;
-    matrix->r2c3 = r2c3 * multiplier;
+    inverted->r2c1 = r2c1 * multiplier;
+    inverted->r2c2 = r2c2 * multiplier;
+    inverted->r2c3 = r2c3 * multiplier;
 
-    matrix->r3c1 = r3c1 * multiplier;
-    matrix->r3c2 = r3c2 * multiplier;
-    matrix->r3c3 = r3c3 * multiplier;
-
-    return 1;
-}
-
-// ================ Get Inverted ================ //
-
-int bgc_matrix3x3_get_inverted_fp32(const BgcMatrix3x3FP32* matrix, BgcMatrix3x3FP32* result)
-{
-    const float determinant = bgc_matrix3x3_get_determinant_fp32(matrix);
-
-    if (-BGC_EPSYLON_FP32 <= determinant && determinant <= BGC_EPSYLON_FP32) {
-        return 0;
-    }
-
-    const float r1c1 = matrix->r2c2 * matrix->r3c3 - matrix->r2c3 * matrix->r3c2;
-    const float r1c2 = matrix->r1c3 * matrix->r3c2 - matrix->r1c2 * matrix->r3c3;
-    const float r1c3 = matrix->r1c2 * matrix->r2c3 - matrix->r1c3 * matrix->r2c2;
-
-    const float r2c1 = matrix->r2c3 * matrix->r3c1 - matrix->r2c1 * matrix->r3c3;
-    const float r2c2 = matrix->r1c1 * matrix->r3c3 - matrix->r1c3 * matrix->r3c1;
-    const float r2c3 = matrix->r1c3 * matrix->r2c1 - matrix->r1c1 * matrix->r2c3;
-
-    const float r3c1 = matrix->r2c1 * matrix->r3c2 - matrix->r2c2 * matrix->r3c1;
-    const float r3c2 = matrix->r1c2 * matrix->r3c1 - matrix->r1c1 * matrix->r3c2;
-    const float r3c3 = matrix->r1c1 * matrix->r2c2 - matrix->r1c2 * matrix->r2c1;
-
-    const float multiplier = 1.0f / determinant;
-
-    result->r1c1 = r1c1 * multiplier;
-    result->r1c2 = r1c2 * multiplier;
-    result->r1c3 = r1c3 * multiplier;
-
-    result->r2c1 = r2c1 * multiplier;
-    result->r2c2 = r2c2 * multiplier;
-    result->r2c3 = r2c3 * multiplier;
-
-    result->r3c1 = r3c1 * multiplier;
-    result->r3c2 = r3c2 * multiplier;
-    result->r3c3 = r3c3 * multiplier;
-
-    return 1;
-}
-
-int bgc_matrix3x3_get_inverted_fp64(const BgcMatrix3x3FP64* matrix, BgcMatrix3x3FP64* result)
-{
-    const double determinant = bgc_matrix3x3_get_determinant_fp64(matrix);
-
-    if (-BGC_EPSYLON_FP64 <= determinant && determinant <= BGC_EPSYLON_FP64) {
-        return 0;
-    }
-
-    const double r1c1 = matrix->r2c2 * matrix->r3c3 - matrix->r2c3 * matrix->r3c2;
-    const double r1c2 = matrix->r1c3 * matrix->r3c2 - matrix->r1c2 * matrix->r3c3;
-    const double r1c3 = matrix->r1c2 * matrix->r2c3 - matrix->r1c3 * matrix->r2c2;
-
-    const double r2c1 = matrix->r2c3 * matrix->r3c1 - matrix->r2c1 * matrix->r3c3;
-    const double r2c2 = matrix->r1c1 * matrix->r3c3 - matrix->r1c3 * matrix->r3c1;
-    const double r2c3 = matrix->r1c3 * matrix->r2c1 - matrix->r1c1 * matrix->r2c3;
-
-    const double r3c1 = matrix->r2c1 * matrix->r3c2 - matrix->r2c2 * matrix->r3c1;
-    const double r3c2 = matrix->r1c2 * matrix->r3c1 - matrix->r1c1 * matrix->r3c2;
-    const double r3c3 = matrix->r1c1 * matrix->r2c2 - matrix->r1c2 * matrix->r2c1;
-
-    const double multiplier = 1.0 / determinant;
-
-    result->r1c1 = r1c1 * multiplier;
-    result->r1c2 = r1c2 * multiplier;
-    result->r1c3 = r1c3 * multiplier;
-
-    result->r2c1 = r2c1 * multiplier;
-    result->r2c2 = r2c2 * multiplier;
-    result->r2c3 = r2c3 * multiplier;
-
-    result->r3c1 = r3c1 * multiplier;
-    result->r3c2 = r3c2 * multiplier;
-    result->r3c3 = r3c3 * multiplier;
+    inverted->r3c1 = r3c1 * multiplier;
+    inverted->r3c2 = r3c2 * multiplier;
+    inverted->r3c3 = r3c3 * multiplier;
 
     return 1;
 }

basic-geometry/matrix3x3.h

@@ -102,34 +102,34 @@ inline void bgc_matrix3x3_set_to_diagonal_fp64(const double d1, const double d2,
 
 // ==================== Copy ==================== //
 
-inline void bgc_matrix3x3_copy_fp32(const BgcMatrix3x3FP32* from, BgcMatrix3x3FP32* to)
+inline void bgc_matrix3x3_copy_fp32(const BgcMatrix3x3FP32* source, BgcMatrix3x3FP32* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
-    to->r1c3 = from->r1c3;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
+    destination->r1c3 = source->r1c3;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
-    to->r2c3 = from->r2c3;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
+    destination->r2c3 = source->r2c3;
 
-    to->r3c1 = from->r3c1;
-    to->r3c2 = from->r3c2;
-    to->r3c3 = from->r3c3;
+    destination->r3c1 = source->r3c1;
+    destination->r3c2 = source->r3c2;
+    destination->r3c3 = source->r3c3;
 }
 
-inline void bgc_matrix3x3_copy_fp64(const BgcMatrix3x3FP64* from, BgcMatrix3x3FP64* to)
+inline void bgc_matrix3x3_copy_fp64(const BgcMatrix3x3FP64* source, BgcMatrix3x3FP64* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
-    to->r1c3 = from->r1c3;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
+    destination->r1c3 = source->r1c3;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
-    to->r2c3 = from->r2c3;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
+    destination->r2c3 = source->r2c3;
 
-    to->r3c1 = from->r3c1;
-    to->r3c2 = from->r3c2;
-    to->r3c3 = from->r3c3;
+    destination->r3c1 = source->r3c1;
+    destination->r3c2 = source->r3c2;
+    destination->r3c3 = source->r3c3;
 }
 
 // ==================== Swap ==================== //
@@ -214,34 +214,34 @@ inline void bgc_matrix3x3_swap_fp64(BgcMatrix3x3FP64* matrix1, BgcMatrix3x3FP64*
 
 // ================== Convert =================== //
 
-inline void bgc_matrix3x3_convert_fp64_to_fp32(const BgcMatrix3x3FP64* from, BgcMatrix3x3FP32* to)
+inline void bgc_matrix3x3_convert_fp64_to_fp32(const BgcMatrix3x3FP64* source, BgcMatrix3x3FP32* destination)
 {
-    to->r1c1 = (float) from->r1c1;
-    to->r1c2 = (float) from->r1c2;
-    to->r1c3 = (float) from->r1c3;
+    destination->r1c1 = (float)source->r1c1;
+    destination->r1c2 = (float)source->r1c2;
+    destination->r1c3 = (float)source->r1c3;
 
-    to->r2c1 = (float) from->r2c1;
-    to->r2c2 = (float) from->r2c2;
-    to->r2c3 = (float) from->r2c3;
+    destination->r2c1 = (float)source->r2c1;
+    destination->r2c2 = (float)source->r2c2;
+    destination->r2c3 = (float)source->r2c3;
 
-    to->r3c1 = (float) from->r3c1;
-    to->r3c2 = (float) from->r3c2;
-    to->r3c3 = (float) from->r3c3;
+    destination->r3c1 = (float)source->r3c1;
+    destination->r3c2 = (float)source->r3c2;
+    destination->r3c3 = (float)source->r3c3;
 }
 
-inline void bgc_matrix3x3_convert_fp32_to_fp64(const BgcMatrix3x3FP32* from, BgcMatrix3x3FP64* to)
+inline void bgc_matrix3x3_convert_fp32_to_fp64(const BgcMatrix3x3FP32* source, BgcMatrix3x3FP64* destination)
 {
-    to->r1c1 = from->r1c1;
-    to->r1c2 = from->r1c2;
-    to->r1c3 = from->r1c3;
+    destination->r1c1 = source->r1c1;
+    destination->r1c2 = source->r1c2;
+    destination->r1c3 = source->r1c3;
 
-    to->r2c1 = from->r2c1;
-    to->r2c2 = from->r2c2;
-    to->r2c3 = from->r2c3;
+    destination->r2c1 = source->r2c1;
+    destination->r2c2 = source->r2c2;
+    destination->r2c3 = source->r2c3;
 
-    to->r3c1 = from->r3c1;
-    to->r3c2 = from->r3c2;
-    to->r3c3 = from->r3c3;
+    destination->r3c1 = source->r3c1;
+    destination->r3c2 = source->r3c2;
+    destination->r3c3 = source->r3c3;
 }
 
 // ================ Determinant ================= //
@@ -274,40 +274,48 @@ inline int bgc_matrix3x3_is_singular_fp64(const BgcMatrix3x3FP64* matrix)
 
 // =================== Invert =================== //
 
-int bgc_matrix3x3_invert_fp32(BgcMatrix3x3FP32* matrix);
+int bgc_matrix3x3_invert_fp32(const BgcMatrix3x3FP32* matrix, BgcMatrix3x3FP32* inverted);
 
-int bgc_matrix3x3_invert_fp64(BgcMatrix3x3FP64* matrix);
+int bgc_matrix3x3_invert_fp64(const BgcMatrix3x3FP64* matrix, BgcMatrix3x3FP64* inverted);
 
 // ================= Transpose ================== //
 
-inline void bgc_matrix3x3_transpose_fp32(BgcMatrix3x3FP32* matrix)
+inline void bgc_matrix3x3_transpose_fp32(const BgcMatrix3x3FP32* matrix, BgcMatrix3x3FP32* transposed)
 {
-    float tmp = matrix->r1c2;
-    matrix->r1c2 = matrix->r2c1;
-    matrix->r2c1 = tmp;
+    transposed->r1c1 = matrix->r1c1;
+    transposed->r2c2 = matrix->r2c2;
+    transposed->r3c3 = matrix->r3c3;
 
-    tmp = matrix->r1c3;
-    matrix->r1c3 = matrix->r3c1;
-    matrix->r3c1 = tmp;
+    const float r1c2 = matrix->r1c2;
+    const float r1c3 = matrix->r1c3;
+    const float r2c3 = matrix->r2c3;
 
-    tmp = matrix->r2c3;
-    matrix->r2c3 = matrix->r3c2;
-    matrix->r3c2 = tmp;
+    transposed->r1c2 = matrix->r2c1;
+    transposed->r1c3 = matrix->r3c1;
+    transposed->r2c3 = matrix->r3c2;
+
+    transposed->r2c1 = r1c2;
+    transposed->r3c1 = r1c3;
+    transposed->r3c2 = r2c3;
 }
 
-inline void bgc_matrix3x3_transpose_fp64(BgcMatrix3x3FP64* matrix)
+inline void bgc_matrix3x3_transpose_fp64(const BgcMatrix3x3FP64* matrix, BgcMatrix3x3FP64* transposed)
 {
-    double tmp = matrix->r1c2;
-    matrix->r1c2 = matrix->r2c1;
-    matrix->r2c1 = tmp;
+    transposed->r1c1 = matrix->r1c1;
+    transposed->r2c2 = matrix->r2c2;
+    transposed->r3c3 = matrix->r3c3;
 
-    tmp = matrix->r1c3;
-    matrix->r1c3 = matrix->r3c1;
-    matrix->r3c1 = tmp;
+    const double r1c2 = matrix->r1c2;
+    const double r1c3 = matrix->r1c3;
+    const double r2c3 = matrix->r2c3;
 
-    tmp = matrix->r2c3;
-    matrix->r2c3 = matrix->r3c2;
-    matrix->r3c2 = tmp;
+    transposed->r1c2 = matrix->r2c1;
+    transposed->r1c3 = matrix->r3c1;
+    transposed->r2c3 = matrix->r3c2;
+
+    transposed->r2c1 = r1c2;
+    transposed->r3c1 = r1c3;
+    transposed->r3c2 = r2c3;
 }
 
 // ================= Set Row 1 ================== //
@@ -406,54 +414,6 @@ inline void bgc_matrix3x3_set_column3_fp64(const double r1, const double r2, con
     matrix->r3c3 = r3;
 }
 
-// ================ Get Inverted ================ //
-
-int bgc_matrix3x3_get_inverted_fp32(const BgcMatrix3x3FP32* matrix, BgcMatrix3x3FP32* result);
-
-int bgc_matrix3x3_get_inverted_fp64(const BgcMatrix3x3FP64* matrix, BgcMatrix3x3FP64* result);
-
-// =============== Get Transposed =============== //
-
-inline void bgc_matrix3x3_get_transposed_fp32(const BgcMatrix3x3FP32* matrix, BgcMatrix3x3FP32* result)
-{
-    if (matrix == result) {
-        bgc_matrix3x3_transpose_fp32(result);
-        return;
-    }
-
-    result->r1c1 = matrix->r1c1;
-    result->r1c2 = matrix->r2c1;
-    result->r1c3 = matrix->r3c1;
-
-    result->r2c1 = matrix->r1c2;
-    result->r2c2 = matrix->r2c2;
-    result->r2c3 = matrix->r3c2;
-
-    result->r3c1 = matrix->r1c3;
-    result->r3c2 = matrix->r2c3;
-    result->r3c3 = matrix->r3c3;
-}
-
-inline void bgc_matrix3x3_get_transposed_fp64(const BgcMatrix3x3FP64* matrix, BgcMatrix3x3FP64* result)
-{
-    if (matrix == result) {
-        bgc_matrix3x3_transpose_fp64(result);
-        return;
-    }
-
-    result->r1c1 = matrix->r1c1;
-    result->r1c2 = matrix->r2c1;
-    result->r1c3 = matrix->r3c1;
-
-    result->r2c1 = matrix->r1c2;
-    result->r2c2 = matrix->r2c2;
-    result->r2c3 = matrix->r3c2;
-
-    result->r3c1 = matrix->r1c3;
-    result->r3c2 = matrix->r2c3;
-    result->r3c3 = matrix->r3c3;
-}
-
 // ==================== Add ===================== //
 
 inline void bgc_matrix3x3_add_fp32(const BgcMatrix3x3FP32* matrix1, const BgcMatrix3x3FP32* matrix2, BgcMatrix3x3FP32* sum)

basic-geometry/quaternion.c

@@ -21,35 +21,29 @@ extern inline int bgc_quaternion_is_zero_fp64(const BgcQuaternionFP64* quaternio
 extern inline int bgc_quaternion_is_unit_fp32(const BgcQuaternionFP32* quaternion);
 extern inline int bgc_quaternion_is_unit_fp64(const BgcQuaternionFP64* quaternion);
 
-extern inline void bgc_quaternion_copy_fp32(const BgcQuaternionFP32* from, BgcQuaternionFP32* to);
-extern inline void bgc_quaternion_copy_fp64(const BgcQuaternionFP64* from, BgcQuaternionFP64* to);
+extern inline void bgc_quaternion_copy_fp32(const BgcQuaternionFP32* source, BgcQuaternionFP32* destination);
+extern inline void bgc_quaternion_copy_fp64(const BgcQuaternionFP64* source, BgcQuaternionFP64* destination);
 
 extern inline void bgc_quaternion_swap_fp32(BgcQuaternionFP32* quarternion1, BgcQuaternionFP32* quarternion2);
 extern inline void bgc_quaternion_swap_fp64(BgcQuaternionFP64* quarternion1, BgcQuaternionFP64* quarternion2);
 
-extern inline void bgc_quaternion_convert_fp64_to_fp32(const BgcQuaternionFP64* quaternion, BgcQuaternionFP32* result);
-extern inline void bgc_quaternion_convert_fp32_to_fp64(const BgcQuaternionFP32* quaternion, BgcQuaternionFP64* result);
+extern inline void bgc_quaternion_convert_fp64_to_fp32(const BgcQuaternionFP64* source, BgcQuaternionFP32* destination);
+extern inline void bgc_quaternion_convert_fp32_to_fp64(const BgcQuaternionFP32* source, BgcQuaternionFP64* destination);
 
-extern inline void bgc_quaternion_conjugate_fp32(BgcQuaternionFP32* quaternion);
-extern inline void bgc_quaternion_conjugate_fp64(BgcQuaternionFP64* quaternion);
+extern inline void bgc_quaternion_conjugate_fp32(const BgcQuaternionFP32* quaternion, BgcQuaternionFP32* conjugate);
+extern inline void bgc_quaternion_conjugate_fp64(const BgcQuaternionFP64* quaternion, BgcQuaternionFP64* conjugate);
 
-extern inline int bgc_quaternion_normalize_fp32(BgcQuaternionFP32* quaternion);
-extern inline int bgc_quaternion_normalize_fp64(BgcQuaternionFP64* quaternion);
+extern inline int bgc_quaternion_invert_fp32(const BgcQuaternionFP32* quaternion, BgcQuaternionFP32* inverted);
+extern inline int bgc_quaternion_invert_fp64(const BgcQuaternionFP64* quaternion, BgcQuaternionFP64* inverted);
 
-extern inline void bgc_quaternion_get_conjugate_fp32(const BgcQuaternionFP32* quaternion, BgcQuaternionFP32* conjugate);
-extern inline void bgc_quaternion_get_conjugate_fp64(const BgcQuaternionFP64* quaternion, BgcQuaternionFP64* conjugate);
-
-extern inline int bgc_quaternion_get_normalized_fp32(const BgcQuaternionFP32* quaternion, BgcQuaternionFP32* normalized);
-extern inline int bgc_quaternion_get_normalized_fp64(const BgcQuaternionFP64* quaternion, BgcQuaternionFP64* normalized);
+extern inline int bgc_quaternion_normalize_fp32(const BgcQuaternionFP32* quaternion, BgcQuaternionFP32* normalized);
+extern inline int bgc_quaternion_normalize_fp64(const BgcQuaternionFP64* quaternion, BgcQuaternionFP64* normalized);
 
 extern inline void bgc_quaternion_get_product_fp32(const BgcQuaternionFP32* left, const BgcQuaternionFP32* right, BgcQuaternionFP32* product);
 extern inline void bgc_quaternion_get_product_fp64(const BgcQuaternionFP64* left, const BgcQuaternionFP64* right, BgcQuaternionFP64* product);
 
-extern inline void bgc_quaternion_get_rotation_matrix_fp32(const BgcQuaternionFP32* quaternion, BgcMatrix3x3FP32* rotation);
-extern inline void bgc_quaternion_get_rotation_matrix_fp64(const BgcQuaternionFP64* quaternion, BgcMatrix3x3FP64* rotation);
-
-extern inline void bgc_quaternion_get_reverse_matrix_fp32(const BgcQuaternionFP32* quaternion, BgcMatrix3x3FP32* reverse);
-extern inline void bgc_quaternion_get_reverse_matrix_fp64(const BgcQuaternionFP64* quaternion, BgcMatrix3x3FP64* reverse);
+extern inline int bgc_quaternion_get_ratio_fp32(const BgcQuaternionFP32* divident, const BgcQuaternionFP32* divisor, BgcQuaternionFP32* quotient);
+extern inline int bgc_quaternion_get_ratio_fp64(const BgcQuaternionFP64* divident, const BgcQuaternionFP64* divisor, BgcQuaternionFP64* quotient);
 
 extern inline void bgc_quaternion_add_fp32(const BgcQuaternionFP32* quaternion1, const BgcQuaternionFP32* quaternion2, BgcQuaternionFP32* sum);
 extern inline void bgc_quaternion_add_fp64(const BgcQuaternionFP64* quaternion1, const BgcQuaternionFP64* quaternion2, BgcQuaternionFP64* sum);
@@ -72,5 +66,11 @@ extern inline void bgc_quaternion_divide_fp64(const BgcQuaternionFP64* dividend,
 extern inline void bgc_quaternion_get_linear_interpolation_fp32(const BgcQuaternionFP32* vector1, const BgcQuaternionFP32* vector2, const float phase, BgcQuaternionFP32* interpolation);
 extern inline void bgc_quaternion_get_linear_interpolation_fp64(const BgcQuaternionFP64* vector1, const BgcQuaternionFP64* vector2, const double phase, BgcQuaternionFP64* interpolation);
 
+extern inline int bgc_quaternion_get_rotation_matrix_fp32(const BgcQuaternionFP32* quaternion, BgcMatrix3x3FP32* rotation);
+extern inline int bgc_quaternion_get_rotation_matrix_fp64(const BgcQuaternionFP64* quaternion, BgcMatrix3x3FP64* rotation);
+
+extern inline int bgc_quaternion_get_reverse_matrix_fp32(const BgcQuaternionFP32* quaternion, BgcMatrix3x3FP32* reverse);
+extern inline int bgc_quaternion_get_reverse_matrix_fp64(const BgcQuaternionFP64* quaternion, BgcMatrix3x3FP64* reverse);
+
 extern inline int bgc_quaternion_are_close_fp32(const BgcQuaternionFP32* quaternion1, const BgcQuaternionFP32* quaternion2);
 extern inline int bgc_quaternion_are_close_fp32(const BgcQuaternionFP32* quaternion1, const BgcQuaternionFP32* quaternion2);

basic-geometry/quaternion.h

@@ -119,20 +119,20 @@ inline int bgc_quaternion_is_unit_fp64(const BgcQuaternionFP64* quaternion)
 
 // ==================== Copy ==================== //
 
-inline void bgc_quaternion_copy_fp32(const BgcQuaternionFP32* from, BgcQuaternionFP32* to)
+inline void bgc_quaternion_copy_fp32(const BgcQuaternionFP32* source, BgcQuaternionFP32* destination)
 {
-    to->s0 = from->s0;
-    to->x1 = from->x1;
-    to->x2 = from->x2;
-    to->x3 = from->x3;
+    destination->s0 = source->s0;
+    destination->x1 = source->x1;
+    destination->x2 = source->x2;
+    destination->x3 = source->x3;
 }
 
-inline void bgc_quaternion_copy_fp64(const BgcQuaternionFP64* from, BgcQuaternionFP64* to)
+inline void bgc_quaternion_copy_fp64(const BgcQuaternionFP64* source, BgcQuaternionFP64* destination)
 {
-    to->s0 = from->s0;
-    to->x1 = from->x1;
-    to->x2 = from->x2;
-    to->x3 = from->x3;
+    destination->s0 = source->s0;
+    destination->x1 = source->x1;
+    destination->x2 = source->x2;
+    destination->x3 = source->x3;
 }
 
 // ==================== Swap ==================== //
@@ -175,119 +175,127 @@ inline void bgc_quaternion_swap_fp64(BgcQuaternionFP64* quarternion1, BgcQuatern
 
 // ================== Convert =================== //
 
-inline void bgc_quaternion_convert_fp64_to_fp32(const BgcQuaternionFP64* quaternion, BgcQuaternionFP32* result)
+inline void bgc_quaternion_convert_fp64_to_fp32(const BgcQuaternionFP64* source, BgcQuaternionFP32* destination)
 {
-    result->s0 = (float) quaternion->s0;
-    result->x1 = (float) quaternion->x1;
-    result->x2 = (float) quaternion->x2;
-    result->x3 = (float) quaternion->x3;
+    destination->s0 = (float)source->s0;
+    destination->x1 = (float)source->x1;
+    destination->x2 = (float)source->x2;
+    destination->x3 = (float)source->x3;
 }
 
-inline void bgc_quaternion_convert_fp32_to_fp64(const BgcQuaternionFP32* quaternion, BgcQuaternionFP64* result)
+inline void bgc_quaternion_convert_fp32_to_fp64(const BgcQuaternionFP32* source, BgcQuaternionFP64* destination)
 {
-    result->s0 = quaternion->s0;
-    result->x1 = quaternion->x1;
-    result->x2 = quaternion->x2;
-    result->x3 = quaternion->x3;
+    destination->s0 = source->s0;
+    destination->x1 = source->x1;
+    destination->x2 = source->x2;
+    destination->x3 = source->x3;
 }
 
 // ================= Conjugate ================== //
 
-inline void bgc_quaternion_conjugate_fp32(BgcQuaternionFP32* quaternion)
+inline void bgc_quaternion_conjugate_fp32(const BgcQuaternionFP32* quaternion, BgcQuaternionFP32* conjugate)
 {
-    quaternion->x1 = -quaternion->x1;
-    quaternion->x2 = -quaternion->x2;
-    quaternion->x3 = -quaternion->x3;
+    conjugate->s0 = quaternion->s0;
+    conjugate->x1 = -quaternion->x1;
+    conjugate->x2 = -quaternion->x2;
+    conjugate->x3 = -quaternion->x3;
 }
 
-inline void bgc_quaternion_conjugate_fp64(BgcQuaternionFP64* quaternion)
+inline void bgc_quaternion_conjugate_fp64(const BgcQuaternionFP64* quaternion, BgcQuaternionFP64* conjugate)
 {
-    quaternion->x1 = -quaternion->x1;
-    quaternion->x2 = -quaternion->x2;
-    quaternion->x3 = -quaternion->x3;
+    conjugate->s0 = quaternion->s0;
+    conjugate->x1 = -quaternion->x1;
+    conjugate->x2 = -quaternion->x2;
+    conjugate->x3 = -quaternion->x3;
+}
+
+// =================== Invert =================== //
+
+inline int bgc_quaternion_invert_fp32(const BgcQuaternionFP32* quaternion, BgcQuaternionFP32* inverted)
+{
+    const float square_modulus = bgc_quaternion_get_square_modulus_fp32(quaternion);
+
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP32 || square_modulus != square_modulus) {
+        return 0;
+    }
+
+    const float multiplicand = 1.0f / square_modulus;
+
+    inverted->s0 = quaternion->s0 * multiplicand;
+    inverted->x1 = -quaternion->x1 * multiplicand;
+    inverted->x2 = -quaternion->x2 * multiplicand;
+    inverted->x3 = -quaternion->x3 * multiplicand;
+
+    return 1;
+}
+
+inline int bgc_quaternion_invert_fp64(const BgcQuaternionFP64* quaternion, BgcQuaternionFP64* inverted)
+{
+    const double square_modulus = bgc_quaternion_get_square_modulus_fp64(quaternion);
+
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP64 || square_modulus != square_modulus) {
+        return 0;
+    }
+
+    const double multiplicand = 1.0 / square_modulus;
+
+    inverted->s0 = quaternion->s0 * multiplicand;
+    inverted->x1 = -quaternion->x1 * multiplicand;
+    inverted->x2 = -quaternion->x2 * multiplicand;
+    inverted->x3 = -quaternion->x3 * multiplicand;
+
+    return 1;
 }
 
 // ================= Normalize ================== //
 
-inline int bgc_quaternion_normalize_fp32(BgcQuaternionFP32* quaternion)
+inline int bgc_quaternion_normalize_fp32(const BgcQuaternionFP32* quaternion, BgcQuaternionFP32* normalized)
 {
     const float square_modulus = bgc_quaternion_get_square_modulus_fp32(quaternion);
 
     if (bgc_is_sqare_unit_fp32(square_modulus)) {
+        bgc_quaternion_copy_fp32(quaternion, normalized);
         return 1;
     }
 
     if (square_modulus <= BGC_SQUARE_EPSYLON_FP32 || square_modulus != square_modulus) {
-        bgc_quaternion_reset_fp32(quaternion);
         return 0;
     }
 
     const float multiplier = sqrtf(1.0f / square_modulus);
 
-    quaternion->s0 *= multiplier;
-    quaternion->x1 *= multiplier;
-    quaternion->x2 *= multiplier;
-    quaternion->x3 *= multiplier;
+    normalized->s0 = quaternion->s0 * multiplier;
+    normalized->x1 = quaternion->x1 * multiplier;
+    normalized->x2 = quaternion->x2 * multiplier;
+    normalized->x3 = quaternion->x3 * multiplier;
 
     return 1;
 }
 
-inline int bgc_quaternion_normalize_fp64(BgcQuaternionFP64* quaternion)
+inline int bgc_quaternion_normalize_fp64(const BgcQuaternionFP64* quaternion, BgcQuaternionFP64* normalized)
 {
     const double square_modulus = bgc_quaternion_get_square_modulus_fp64(quaternion);
 
     if (bgc_is_sqare_unit_fp64(square_modulus)) {
+        bgc_quaternion_copy_fp64(quaternion, normalized);
         return 1;
     }
 
     if (square_modulus <= BGC_SQUARE_EPSYLON_FP64 || square_modulus != square_modulus) {
-        bgc_quaternion_reset_fp64(quaternion);
         return 0;
     }
 
     const double multiplier = sqrt(1.0 / square_modulus);
 
-    quaternion->s0 *= multiplier;
-    quaternion->x1 *= multiplier;
-    quaternion->x2 *= multiplier;
-    quaternion->x3 *= multiplier;
+    normalized->s0 *= multiplier;
+    normalized->x1 *= multiplier;
+    normalized->x2 *= multiplier;
+    normalized->x3 *= multiplier;
 
     return 1;
 }
 
-// =============== Get Conjugate ================ //
-
-inline void bgc_quaternion_get_conjugate_fp32(const BgcQuaternionFP32* quaternion, BgcQuaternionFP32* conjugate)
-{
-    conjugate->s0 = quaternion->s0;
-    conjugate->x1 = -quaternion->x1;
-    conjugate->x2 = -quaternion->x2;
-    conjugate->x3 = -quaternion->x3;
-}
-
-inline void bgc_quaternion_get_conjugate_fp64(const BgcQuaternionFP64* quaternion, BgcQuaternionFP64* conjugate)
-{
-    conjugate->s0 = quaternion->s0;
-    conjugate->x1 = -quaternion->x1;
-    conjugate->x2 = -quaternion->x2;
-    conjugate->x3 = -quaternion->x3;
-}
-
-// =============== Get Normalized =============== //
-
-inline int bgc_quaternion_get_normalized_fp32(const BgcQuaternionFP32* quaternion, BgcQuaternionFP32* normalized)
-{
-    bgc_quaternion_copy_fp32(quaternion, normalized);
-    return bgc_quaternion_normalize_fp32(normalized);
-}
-
-inline int bgc_quaternion_get_normalized_fp64(const BgcQuaternionFP64* quaternion, BgcQuaternionFP64* normalized)
-{
-    bgc_quaternion_copy_fp64(quaternion, normalized);
-    return bgc_quaternion_normalize_fp64(normalized);
-}
-
-// ================== Product =================== //
+// ================ Get Product ================= //
 
 inline void bgc_quaternion_get_product_fp32(const BgcQuaternionFP32* left, const BgcQuaternionFP32* right, BgcQuaternionFP32* product)
 {
@@ -315,164 +323,52 @@ inline void bgc_quaternion_get_product_fp64(const BgcQuaternionFP64* left, const
     product->x3 = x3;
 }
 
-// ============ Get Rotation Matrix ============= //
+// ================= Get Ratio ================== //
 
-inline void bgc_quaternion_get_rotation_matrix_fp32(const BgcQuaternionFP32* quaternion, BgcMatrix3x3FP32* rotation)
+inline int bgc_quaternion_get_ratio_fp32(const BgcQuaternionFP32* divident, const BgcQuaternionFP32* divisor, BgcQuaternionFP32* quotient)
 {
-    const float s0s0 = quaternion->s0 * quaternion->s0;
-    const float x1x1 = quaternion->x1 * quaternion->x1;
-    const float x2x2 = quaternion->x2 * quaternion->x2;
-    const float x3x3 = quaternion->x3 * quaternion->x3;
+    const float square_modulus = bgc_quaternion_get_square_modulus_fp32(divisor);
 
-    const float square_modulus = (s0s0 + x1x1) + (x2x2 + x3x3);
-
-    if (square_modulus <= BGC_SQUARE_EPSYLON_FP32 || square_modulus != square_modulus)
-    {
-        bgc_matrix3x3_set_to_identity_fp32(rotation);
-        return;
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP32 || square_modulus != square_modulus) {
+        return 0;
     }
 
-    const float corrector1 = 1.0f / square_modulus;
+    const float s0 = (divident->s0 * divisor->s0 + divident->x1 * divisor->x1) + (divident->x2 * divisor->x2 + divident->x3 * divisor->x3);
+    const float x1 = (divident->x1 * divisor->s0 + divident->x3 * divisor->x2) - (divident->s0 * divisor->x1 + divident->x2 * divisor->x3);
+    const float x2 = (divident->x2 * divisor->s0 + divident->x1 * divisor->x3) - (divident->s0 * divisor->x2 + divident->x3 * divisor->x1);
+    const float x3 = (divident->x3 * divisor->s0 + divident->x2 * divisor->x1) - (divident->s0 * divisor->x3 + divident->x1 * divisor->x2);
 
-    const float s0x1 = quaternion->s0 * quaternion->x1;
-    const float s0x2 = quaternion->s0 * quaternion->x2;
-    const float s0x3 = quaternion->s0 * quaternion->x3;
-    const float x1x2 = quaternion->x1 * quaternion->x2;
-    const float x1x3 = quaternion->x1 * quaternion->x3;
-    const float x2x3 = quaternion->x2 * quaternion->x3;
+    const float multiplicand = 1.0f / square_modulus;
 
-    const float corrector2 = 2.0f * corrector1;
+    quotient->s0 = s0 * multiplicand;
+    quotient->x1 = x1 * multiplicand;
+    quotient->x2 = x2 * multiplicand;
+    quotient->x3 = x3 * multiplicand;
 
-    rotation->r1c1 = corrector1 * ((s0s0 + x1x1) - (x2x2 + x3x3));
-    rotation->r2c2 = corrector1 * ((s0s0 + x2x2) - (x1x1 + x3x3));
-    rotation->r3c3 = corrector1 * ((s0s0 + x3x3) - (x1x1 + x2x2));
-
-    rotation->r1c2 = corrector2 * (x1x2 - s0x3);
-    rotation->r2c3 = corrector2 * (x2x3 - s0x1);
-    rotation->r3c1 = corrector2 * (x1x3 - s0x2);
-
-    rotation->r2c1 = corrector2 * (x1x2 + s0x3);
-    rotation->r3c2 = corrector2 * (x2x3 + s0x1);
-    rotation->r1c3 = corrector2 * (x1x3 + s0x2);
+    return 1;
 }
 
-inline void bgc_quaternion_get_rotation_matrix_fp64(const BgcQuaternionFP64* quaternion, BgcMatrix3x3FP64* rotation)
+inline int bgc_quaternion_get_ratio_fp64(const BgcQuaternionFP64* divident, const BgcQuaternionFP64* divisor, BgcQuaternionFP64* quotient)
 {
-    const double s0s0 = quaternion->s0 * quaternion->s0;
-    const double x1x1 = quaternion->x1 * quaternion->x1;
-    const double x2x2 = quaternion->x2 * quaternion->x2;
-    const double x3x3 = quaternion->x3 * quaternion->x3;
+    const double square_modulus = bgc_quaternion_get_square_modulus_fp64(divisor);
 
-    const double square_modulus = (s0s0 + x1x1) + (x2x2 + x3x3);
-
-    if (square_modulus <= BGC_SQUARE_EPSYLON_FP64 || square_modulus != square_modulus)
-    {
-        bgc_matrix3x3_set_to_identity_fp64(rotation);
-        return;
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP64 || square_modulus != square_modulus) {
+        return 0;
     }
 
-    const double corrector1 = 1.0f / square_modulus;
+    const double s0 = (divident->s0 * divisor->s0 + divident->x1 * divisor->x1) + (divident->x2 * divisor->x2 + divident->x3 * divisor->x3);
+    const double x1 = (divident->x1 * divisor->s0 + divident->x3 * divisor->x2) - (divident->s0 * divisor->x1 + divident->x2 * divisor->x3);
+    const double x2 = (divident->x2 * divisor->s0 + divident->x1 * divisor->x3) - (divident->s0 * divisor->x2 + divident->x3 * divisor->x1);
+    const double x3 = (divident->x3 * divisor->s0 + divident->x2 * divisor->x1) - (divident->s0 * divisor->x3 + divident->x1 * divisor->x2);
 
-    const double s0x1 = quaternion->s0 * quaternion->x1;
-    const double s0x2 = quaternion->s0 * quaternion->x2;
-    const double s0x3 = quaternion->s0 * quaternion->x3;
-    const double x1x2 = quaternion->x1 * quaternion->x2;
-    const double x1x3 = quaternion->x1 * quaternion->x3;
-    const double x2x3 = quaternion->x2 * quaternion->x3;
+    const double multiplicand = 1.0 / square_modulus;
 
-    const double corrector2 = 2.0f * corrector1;
+    quotient->s0 = s0 * multiplicand;
+    quotient->x1 = x1 * multiplicand;
+    quotient->x2 = x2 * multiplicand;
+    quotient->x3 = x3 * multiplicand;
 
-    rotation->r1c1 = corrector1 * ((s0s0 + x1x1) - (x2x2 + x3x3));
-    rotation->r2c2 = corrector1 * ((s0s0 + x2x2) - (x1x1 + x3x3));
-    rotation->r3c3 = corrector1 * ((s0s0 + x3x3) - (x1x1 + x2x2));
-
-    rotation->r1c2 = corrector2 * (x1x2 - s0x3);
-    rotation->r2c3 = corrector2 * (x2x3 - s0x1);
-    rotation->r3c1 = corrector2 * (x1x3 - s0x2);
-
-    rotation->r2c1 = corrector2 * (x1x2 + s0x3);
-    rotation->r3c2 = corrector2 * (x2x3 + s0x1);
-    rotation->r1c3 = corrector2 * (x1x3 + s0x2);
-}
-
-// ============= Get Reverse Matrix ============= //
-
-inline void bgc_quaternion_get_reverse_matrix_fp32(const BgcQuaternionFP32* quaternion, BgcMatrix3x3FP32* reverse)
-{
-    const float s0s0 = quaternion->s0 * quaternion->s0;
-    const float x1x1 = quaternion->x1 * quaternion->x1;
-    const float x2x2 = quaternion->x2 * quaternion->x2;
-    const float x3x3 = quaternion->x3 * quaternion->x3;
-
-    const float square_modulus = (s0s0 + x1x1) + (x2x2 + x3x3);
-
-    if (square_modulus <= BGC_SQUARE_EPSYLON_FP32 || square_modulus != square_modulus)
-    {
-        bgc_matrix3x3_set_to_identity_fp32(reverse);
-        return;
-    }
-
-    const float corrector1 = 1.0f / square_modulus;
-
-    const float s0x1 = quaternion->s0 * quaternion->x1;
-    const float s0x2 = quaternion->s0 * quaternion->x2;
-    const float s0x3 = quaternion->s0 * quaternion->x3;
-    const float x1x2 = quaternion->x1 * quaternion->x2;
-    const float x1x3 = quaternion->x1 * quaternion->x3;
-    const float x2x3 = quaternion->x2 * quaternion->x3;
-
-    const float corrector2 = 2.0f * corrector1;
-
-    reverse->r1c1 = corrector1 * ((s0s0 + x1x1) - (x2x2 + x3x3));
-    reverse->r2c2 = corrector1 * ((s0s0 + x2x2) - (x1x1 + x3x3));
-    reverse->r3c3 = corrector1 * ((s0s0 + x3x3) - (x1x1 + x2x2));
-
-    reverse->r1c2 = corrector2 * (x1x2 + s0x3);
-    reverse->r2c3 = corrector2 * (x2x3 + s0x1);
-    reverse->r3c1 = corrector2 * (x1x3 + s0x2);
-
-    reverse->r2c1 = corrector2 * (x1x2 - s0x3);
-    reverse->r3c2 = corrector2 * (x2x3 - s0x1);
-    reverse->r1c3 = corrector2 * (x1x3 - s0x2);
-}
-
-inline void bgc_quaternion_get_reverse_matrix_fp64(const BgcQuaternionFP64* quaternion, BgcMatrix3x3FP64* reverse)
-{
-    const double s0s0 = quaternion->s0 * quaternion->s0;
-    const double x1x1 = quaternion->x1 * quaternion->x1;
-    const double x2x2 = quaternion->x2 * quaternion->x2;
-    const double x3x3 = quaternion->x3 * quaternion->x3;
-
-    const double square_modulus = (s0s0 + x1x1) + (x2x2 + x3x3);
-
-    if (square_modulus <= BGC_SQUARE_EPSYLON_FP64 || square_modulus != square_modulus)
-    {
-        bgc_matrix3x3_set_to_identity_fp64(reverse);
-        return;
-    }
-
-    const double corrector1 = 1.0f / square_modulus;
-
-    const double s0x1 = quaternion->s0 * quaternion->x1;
-    const double s0x2 = quaternion->s0 * quaternion->x2;
-    const double s0x3 = quaternion->s0 * quaternion->x3;
-    const double x1x2 = quaternion->x1 * quaternion->x2;
-    const double x1x3 = quaternion->x1 * quaternion->x3;
-    const double x2x3 = quaternion->x2 * quaternion->x3;
-
-    const double corrector2 = 2.0f * corrector1;
-
-    reverse->r1c1 = corrector1 * ((s0s0 + x1x1) - (x2x2 + x3x3));
-    reverse->r2c2 = corrector1 * ((s0s0 + x2x2) - (x1x1 + x3x3));
-    reverse->r3c3 = corrector1 * ((s0s0 + x3x3) - (x1x1 + x2x2));
-
-    reverse->r1c2 = corrector2 * (x1x2 + s0x3);
-    reverse->r2c3 = corrector2 * (x2x3 + s0x1);
-    reverse->r3c1 = corrector2 * (x1x3 + s0x2);
-
-    reverse->r2c1 = corrector2 * (x1x2 - s0x3);
-    reverse->r3c2 = corrector2 * (x2x3 - s0x1);
-    reverse->r1c3 = corrector2 * (x1x3 - s0x2);
+    return 1;
 }
 
 // ==================== Add ===================== //
@@ -599,6 +495,190 @@ inline void bgc_quaternion_get_linear_interpolation_fp64(const BgcQuaternionFP64
     interpolation->x3 = quaternion1->x3 * counterphase + quaternion2->x3 * phase;
 }
 
+// ============ Get Rotation Matrix ============= //
+
+inline int bgc_quaternion_get_rotation_matrix_fp32(const BgcQuaternionFP32* quaternion, BgcMatrix3x3FP32* rotation)
+{
+    const float s0s0 = quaternion->s0 * quaternion->s0;
+    const float x1x1 = quaternion->x1 * quaternion->x1;
+    const float x2x2 = quaternion->x2 * quaternion->x2;
+    const float x3x3 = quaternion->x3 * quaternion->x3;
+
+    const float square_modulus = (s0s0 + x1x1) + (x2x2 + x3x3);
+
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP32 || square_modulus != square_modulus)
+    {
+        return 0;
+    }
+
+    const float corrector1 = 1.0f / square_modulus;
+
+    const float s0x1 = quaternion->s0 * quaternion->x1;
+    const float s0x2 = quaternion->s0 * quaternion->x2;
+    const float s0x3 = quaternion->s0 * quaternion->x3;
+    const float x1x2 = quaternion->x1 * quaternion->x2;
+    const float x1x3 = quaternion->x1 * quaternion->x3;
+    const float x2x3 = quaternion->x2 * quaternion->x3;
+
+    const float corrector2 = 2.0f * corrector1;
+
+    rotation->r1c1 = corrector1 * ((s0s0 + x1x1) - (x2x2 + x3x3));
+    rotation->r2c2 = corrector1 * ((s0s0 + x2x2) - (x1x1 + x3x3));
+    rotation->r3c3 = corrector1 * ((s0s0 + x3x3) - (x1x1 + x2x2));
+
+    rotation->r1c2 = corrector2 * (x1x2 - s0x3);
+    rotation->r2c3 = corrector2 * (x2x3 - s0x1);
+    rotation->r3c1 = corrector2 * (x1x3 - s0x2);
+
+    rotation->r2c1 = corrector2 * (x1x2 + s0x3);
+    rotation->r3c2 = corrector2 * (x2x3 + s0x1);
+    rotation->r1c3 = corrector2 * (x1x3 + s0x2);
+
+    return 1;
+}
+
+inline int bgc_quaternion_get_rotation_matrix_fp64(const BgcQuaternionFP64* quaternion, BgcMatrix3x3FP64* rotation)
+{
+    const double s0s0 = quaternion->s0 * quaternion->s0;
+    const double x1x1 = quaternion->x1 * quaternion->x1;
+    const double x2x2 = quaternion->x2 * quaternion->x2;
+    const double x3x3 = quaternion->x3 * quaternion->x3;
+
+    const double square_modulus = (s0s0 + x1x1) + (x2x2 + x3x3);
+
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP64 || square_modulus != square_modulus)
+    {
+        return 0;
+    }
+
+    const double corrector1 = 1.0f / square_modulus;
+
+    const double s0x1 = quaternion->s0 * quaternion->x1;
+    const double s0x2 = quaternion->s0 * quaternion->x2;
+    const double s0x3 = quaternion->s0 * quaternion->x3;
+    const double x1x2 = quaternion->x1 * quaternion->x2;
+    const double x1x3 = quaternion->x1 * quaternion->x3;
+    const double x2x3 = quaternion->x2 * quaternion->x3;
+
+    const double corrector2 = 2.0f * corrector1;
+
+    rotation->r1c1 = corrector1 * ((s0s0 + x1x1) - (x2x2 + x3x3));
+    rotation->r2c2 = corrector1 * ((s0s0 + x2x2) - (x1x1 + x3x3));
+    rotation->r3c3 = corrector1 * ((s0s0 + x3x3) - (x1x1 + x2x2));
+
+    rotation->r1c2 = corrector2 * (x1x2 - s0x3);
+    rotation->r2c3 = corrector2 * (x2x3 - s0x1);
+    rotation->r3c1 = corrector2 * (x1x3 - s0x2);
+
+    rotation->r2c1 = corrector2 * (x1x2 + s0x3);
+    rotation->r3c2 = corrector2 * (x2x3 + s0x1);
+    rotation->r1c3 = corrector2 * (x1x3 + s0x2);
+
+    return 1;
+}
+
+// ============= Get Reverse Matrix ============= //
+
+inline int bgc_quaternion_get_reverse_matrix_fp32(const BgcQuaternionFP32* quaternion, BgcMatrix3x3FP32* reverse)
+{
+    const float s0s0 = quaternion->s0 * quaternion->s0;
+    const float x1x1 = quaternion->x1 * quaternion->x1;
+    const float x2x2 = quaternion->x2 * quaternion->x2;
+    const float x3x3 = quaternion->x3 * quaternion->x3;
+
+    const float square_modulus = (s0s0 + x1x1) + (x2x2 + x3x3);
+
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP32 || square_modulus != square_modulus)
+    {
+        return 0;
+    }
+
+    const float corrector1 = 1.0f / square_modulus;
+
+    const float s0x1 = quaternion->s0 * quaternion->x1;
+    const float s0x2 = quaternion->s0 * quaternion->x2;
+    const float s0x3 = quaternion->s0 * quaternion->x3;
+    const float x1x2 = quaternion->x1 * quaternion->x2;
+    const float x1x3 = quaternion->x1 * quaternion->x3;
+    const float x2x3 = quaternion->x2 * quaternion->x3;
+
+    const float corrector2 = 2.0f * corrector1;
+
+    reverse->r1c1 = corrector1 * ((s0s0 + x1x1) - (x2x2 + x3x3));
+    reverse->r2c2 = corrector1 * ((s0s0 + x2x2) - (x1x1 + x3x3));
+    reverse->r3c3 = corrector1 * ((s0s0 + x3x3) - (x1x1 + x2x2));
+
+    reverse->r1c2 = corrector2 * (x1x2 + s0x3);
+    reverse->r2c3 = corrector2 * (x2x3 + s0x1);
+    reverse->r3c1 = corrector2 * (x1x3 + s0x2);
+
+    reverse->r2c1 = corrector2 * (x1x2 - s0x3);
+    reverse->r3c2 = corrector2 * (x2x3 - s0x1);
+    reverse->r1c3 = corrector2 * (x1x3 - s0x2);
+
+    return 1;
+}
+
+inline int bgc_quaternion_get_reverse_matrix_fp64(const BgcQuaternionFP64* quaternion, BgcMatrix3x3FP64* reverse)
+{
+    const double s0s0 = quaternion->s0 * quaternion->s0;
+    const double x1x1 = quaternion->x1 * quaternion->x1;
+    const double x2x2 = quaternion->x2 * quaternion->x2;
+    const double x3x3 = quaternion->x3 * quaternion->x3;
+
+    const double square_modulus = (s0s0 + x1x1) + (x2x2 + x3x3);
+
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP64 || square_modulus != square_modulus)
+    {
+        return 0;
+    }
+
+    const double corrector1 = 1.0f / square_modulus;
+
+    const double s0x1 = quaternion->s0 * quaternion->x1;
+    const double s0x2 = quaternion->s0 * quaternion->x2;
+    const double s0x3 = quaternion->s0 * quaternion->x3;
+    const double x1x2 = quaternion->x1 * quaternion->x2;
+    const double x1x3 = quaternion->x1 * quaternion->x3;
+    const double x2x3 = quaternion->x2 * quaternion->x3;
+
+    const double corrector2 = 2.0f * corrector1;
+
+    reverse->r1c1 = corrector1 * ((s0s0 + x1x1) - (x2x2 + x3x3));
+    reverse->r2c2 = corrector1 * ((s0s0 + x2x2) - (x1x1 + x3x3));
+    reverse->r3c3 = corrector1 * ((s0s0 + x3x3) - (x1x1 + x2x2));
+
+    reverse->r1c2 = corrector2 * (x1x2 + s0x3);
+    reverse->r2c3 = corrector2 * (x2x3 + s0x1);
+    reverse->r3c1 = corrector2 * (x1x3 + s0x2);
+
+    reverse->r2c1 = corrector2 * (x1x2 - s0x3);
+    reverse->r3c2 = corrector2 * (x2x3 - s0x1);
+    reverse->r1c3 = corrector2 * (x1x3 - s0x2);
+
+    return 1;
+}
+
+inline int bgc_quaternion_get_both_matrixes_fp32(const BgcQuaternionFP32* quaternion, BgcMatrix3x3FP32* rotation, BgcMatrix3x3FP32* reverse)
+{
+    if (bgc_quaternion_get_reverse_matrix_fp32(quaternion, reverse)) {
+        bgc_matrix3x3_transpose_fp32(reverse, rotation);
+        return 1;
+    }
+
+    return 0;
+}
+
+inline int bgc_quaternion_get_both_matrixes_fp64(const BgcQuaternionFP64* quaternion, BgcMatrix3x3FP64* rotation, BgcMatrix3x3FP64* reverse)
+{
+    if (bgc_quaternion_get_reverse_matrix_fp64(quaternion, reverse)) {
+        bgc_matrix3x3_transpose_fp64(reverse, rotation);
+        return 1;
+    }
+
+    return 0;
+}
+
 // ================== Are Close ================= //
 
 inline int bgc_quaternion_are_close_fp32(const BgcQuaternionFP32* quaternion1, const BgcQuaternionFP32* quaternion2)

basic-geometry/rotation3.h

@@ -47,7 +47,7 @@ inline void bgc_rotation3_set_values_fp32(const float x1, const float x2, const
     rotation->axis.x2 = x2;
     rotation->axis.x3 = x3;
 
-    if (bgc_vector3_normalize_fp32(&rotation->axis)) {
+    if (bgc_vector3_normalize_fp32(&rotation->axis, &rotation->axis)) {
         rotation->radians = bgc_angle_to_radians_fp32(angle, unit);
     }
     else {
@@ -62,7 +62,7 @@ inline void bgc_rotation3_set_values_fp64(const double x1, const double x2, cons
     rotation->axis.x2 = x2;
     rotation->axis.x3 = x3;
 
-    if (bgc_vector3_normalize_fp64(&rotation->axis)) {
+    if (bgc_vector3_normalize_fp64(&rotation->axis, &rotation->axis)) {
         rotation->radians = bgc_angle_to_radians_fp64(angle, unit);
     }
     else {
@@ -76,7 +76,7 @@ inline void bgc_rotation3_set_with_axis_fp32(const BgcVector3FP32* axis, const f
     rotation->axis.x2 = axis->x2;
     rotation->axis.x3 = axis->x3;
 
-    if (bgc_vector3_normalize_fp32(&rotation->axis)) {
+    if (bgc_vector3_normalize_fp32(&rotation->axis, &rotation->axis)) {
         rotation->radians = bgc_angle_to_radians_fp32(angle, unit);
     }
     else {
@@ -90,7 +90,7 @@ inline void bgc_rotation3_set_with_axis_fp64(const BgcVector3FP64* axis, const d
     rotation->axis.x2 = axis->x2;
     rotation->axis.x3 = axis->x3;
 
-    if (bgc_vector3_normalize_fp64(&rotation->axis)) {
+    if (bgc_vector3_normalize_fp64(&rotation->axis, &rotation->axis)) {
         rotation->radians = bgc_angle_to_radians_fp64(angle, unit);
     }
     else {

basic-geometry/tangent-pair.c

@@ -16,24 +16,21 @@ extern inline void bgc_tangent_pair_set_turn_fp64(const double angle, const BgcA
 extern inline float bgc_tangent_pair_get_angle_fp32(const BgcTangentPairFP32* tangent, const BgcAngleUnitEnum unit);
 extern inline double bgc_tangent_pair_get_angle_fp64(const BgcTangentPairFP64* tangent, const BgcAngleUnitEnum unit);
 
-extern inline void bgc_tangent_pair_copy_fp32(const BgcTangentPairFP32* from, BgcTangentPairFP32* to);
-extern inline void bgc_tangent_pair_copy_fp64(const BgcTangentPairFP64* from, BgcTangentPairFP64* to);
+extern inline void bgc_tangent_pair_copy_fp32(const BgcTangentPairFP32* source, BgcTangentPairFP32* destination);
+extern inline void bgc_tangent_pair_copy_fp64(const BgcTangentPairFP64* source, BgcTangentPairFP64* destination);
 
 extern inline void bgc_tangent_pair_swap_fp32(BgcTangentPairFP32* tangent1, BgcTangentPairFP32* tangent2);
 extern inline void bgc_tangent_pair_swap_fp64(BgcTangentPairFP64* tangent1, BgcTangentPairFP64* tangent2);
 
-extern inline void bgc_tangent_pair_convert_fp64_to_fp32(const BgcTangentPairFP64* from, BgcTangentPairFP32* to);
-extern inline void bgc_tangent_pair_convert_fp32_to_fp64(const BgcTangentPairFP32* from, BgcTangentPairFP64* to);
+extern inline void bgc_tangent_pair_convert_fp64_to_fp32(const BgcTangentPairFP64* source, BgcTangentPairFP32* destination);
+extern inline void bgc_tangent_pair_convert_fp32_to_fp64(const BgcTangentPairFP32* source, BgcTangentPairFP64* destination);
 
-extern inline void bgc_tangent_pair_invert_fp32(BgcTangentPairFP32* tangent);
-extern inline void bgc_tangent_pair_invert_fp64(BgcTangentPairFP64* tangent);
+extern inline void bgc_tangent_pair_invert_fp32(const BgcTangentPairFP32* tangent, BgcTangentPairFP32* inverted);
+extern inline void bgc_tangent_pair_invert_fp64(const BgcTangentPairFP64* tangent, BgcTangentPairFP64* inverted);
 
 extern inline void bgc_tangent_pair_combine_fp32(const BgcTangentPairFP32* tangent1, const BgcTangentPairFP32* tangent2, BgcTangentPairFP32* result);
 extern inline void bgc_tangent_pair_combine_fp64(const BgcTangentPairFP64* tangent1, const BgcTangentPairFP64* tangent2, BgcTangentPairFP64* result);
 
-extern inline void bgc_tangent_pair_get_inverted_fp32(const BgcTangentPairFP32* tangent, BgcTangentPairFP32* result);
-extern inline void bgc_tangent_pair_get_inverted_fp64(const BgcTangentPairFP64* tangent, BgcTangentPairFP64* result);
-
 extern inline void bgc_tangent_pair_get_rotation_matrix_fp32(const BgcTangentPairFP32* tangent, BgcMatrix2x2FP32* matrix);
 extern inline void bgc_tangent_pair_get_rotation_matrix_fp64(const BgcTangentPairFP64* tangent, BgcMatrix2x2FP64* matrix);
 

basic-geometry/tangent-pair.h

@@ -155,20 +155,20 @@ inline double bgc_tangent_pair_get_angle_fp64(const BgcTangentPairFP64* tangent,
 
 // ==================== Copy ==================== //
 
-inline void bgc_tangent_pair_copy_fp32(const BgcTangentPairFP32* from, BgcTangentPairFP32* to)
+inline void bgc_tangent_pair_copy_fp32(const BgcTangentPairFP32* source, BgcTangentPairFP32* destination)
 {
-    _BgcTwinTangentPairFP32* twin = (_BgcTwinTangentPairFP32*)to;
+    _BgcTwinTangentPairFP32* twin = (_BgcTwinTangentPairFP32*)destination;
 
-    twin->cos = from->cos;
-    twin->sin = from->sin;
+    twin->cos = source->cos;
+    twin->sin = source->sin;
 }
 
-inline void bgc_tangent_pair_copy_fp64(const BgcTangentPairFP64* from, BgcTangentPairFP64* to)
+inline void bgc_tangent_pair_copy_fp64(const BgcTangentPairFP64* source, BgcTangentPairFP64* destination)
 {
-    _BgcTwinTangentPairFP64* twin = (_BgcTwinTangentPairFP64*)to;
+    _BgcTwinTangentPairFP64* twin = (_BgcTwinTangentPairFP64*)destination;
 
-    twin->cos = from->cos;
-    twin->sin = from->sin;
+    twin->cos = source->cos;
+    twin->sin = source->sin;
 }
 
 // ==================== Swap ==================== //
@@ -207,26 +207,32 @@ inline void bgc_tangent_pair_swap_fp64(BgcTangentPairFP64* tangent1, BgcTangentP
 
 // ================== Convert =================== //
 
-inline void bgc_tangent_pair_convert_fp64_to_fp32(const BgcTangentPairFP64* from, BgcTangentPairFP32* to)
+inline void bgc_tangent_pair_convert_fp64_to_fp32(const BgcTangentPairFP64* source, BgcTangentPairFP32* destination)
 {
-    bgc_tangent_pair_set_values_fp32((float)from->cos, (float)from->sin, to);
+    bgc_tangent_pair_set_values_fp32((float)source->cos, (float)source->sin, destination);
 }
 
-inline void bgc_tangent_pair_convert_fp32_to_fp64(const BgcTangentPairFP32* from, BgcTangentPairFP64* to)
+inline void bgc_tangent_pair_convert_fp32_to_fp64(const BgcTangentPairFP32* source, BgcTangentPairFP64* destination)
 {
-    bgc_tangent_pair_set_values_fp64((double)from->cos, (double)from->sin, to);
+    bgc_tangent_pair_set_values_fp64((double)source->cos, (double)source->sin, destination);
 }
 
 // =================== Invert =================== //
 
-inline void bgc_tangent_pair_invert_fp32(BgcTangentPairFP32* tangent)
+inline void bgc_tangent_pair_invert_fp32(const BgcTangentPairFP32* tangent, BgcTangentPairFP32* inverted)
 {
-    ((_BgcTwinTangentPairFP32*)tangent)->sin = -tangent->sin;
+    _BgcTwinTangentPairFP32* twin = (_BgcTwinTangentPairFP32*)inverted;
+
+    twin->cos = tangent->cos;
+    twin->sin = -tangent->sin;
 }
 
-inline void bgc_tangent_pair_invert_fp64(BgcTangentPairFP64* tangent)
+inline void bgc_tangent_pair_invert_fp64(const BgcTangentPairFP64* tangent, BgcTangentPairFP64* inverted)
 {
-    ((_BgcTwinTangentPairFP64*)tangent)->sin = -tangent->sin;
+    _BgcTwinTangentPairFP64* twin = (_BgcTwinTangentPairFP64*)inverted;
+
+    twin->cos = tangent->cos;
+    twin->sin = -tangent->sin;
 }
 
 // ================ Combination ================= //
@@ -249,24 +255,6 @@ inline void bgc_tangent_pair_combine_fp64(const BgcTangentPairFP64* tangent1, co
     );
 }
 
-// ================ Set Inverted ================ //
-
-inline void bgc_tangent_pair_get_inverted_fp32(const BgcTangentPairFP32* tangent, BgcTangentPairFP32* result)
-{
-    _BgcTwinTangentPairFP32* twin = (_BgcTwinTangentPairFP32*)result;
-
-    twin->cos = tangent->cos;
-    twin->sin = -tangent->sin;
-}
-
-inline void bgc_tangent_pair_get_inverted_fp64(const BgcTangentPairFP64* tangent, BgcTangentPairFP64* result)
-{
-    _BgcTwinTangentPairFP64* twin = (_BgcTwinTangentPairFP64*)result;
-
-    twin->cos = tangent->cos;
-    twin->sin = -tangent->sin;
-}
-
 // ============== Rotation Matrix =============== //
 
 inline void bgc_tangent_pair_get_rotation_matrix_fp32(const BgcTangentPairFP32* tangent, BgcMatrix2x2FP32* matrix)

basic-geometry/utilities.h

@@ -6,9 +6,10 @@
 #define BGC_EPSYLON_FP32 4.76837E-7f
 #define BGC_SQUARE_EPSYLON_FP32 2.27373906E-13f
 
-#define BGC_ONE_THIRD_FP32 0.333333333f
-#define BGC_ONE_SIXTH_FP32 0.166666667f
-#define BGC_ONE_NINETH_FP32 0.111111111f
+#define BGC_ONE_THIRD_FP32 0.3333333333f
+#define BGC_ONE_SIXTH_FP32 0.1666666667f
+#define BGC_ONE_SEVENTH_FP32 0.142857142857f
+#define BGC_ONE_NINETH_FP32 0.1111111111f
 
 #define BGC_GOLDEN_RATIO_HIGH_FP32 1.618034f
 #define BGC_GOLDEN_RATIO_LOW_FP32 0.618034f
@@ -18,32 +19,33 @@
 #define BGC_EPSYLON_FP64 4.996003611E-14
 #define BGC_SQUARE_EPSYLON_FP64 2.496005208112504E-27
 
-#define BGC_ONE_THIRD_FP64 0.333333333333333333
-#define BGC_ONE_SIXTH_FP64 0.166666666666666667
-#define BGC_ONE_NINETH_FP64 0.111111111111111111
+#define BGC_ONE_THIRD_FP64 0.3333333333333333333
+#define BGC_ONE_SIXTH_FP64 0.1666666666666666667
+#define BGC_ONE_SEVENTH_FP64 0.142857142857142857
+#define BGC_ONE_NINETH_FP64 0.1111111111111111111
 
 #define BGC_GOLDEN_RATIO_HIGH_FP64 1.61803398874989485
 #define BGC_GOLDEN_RATIO_LOW_FP64 0.61803398874989485
 
-inline int bgc_is_zero_fp32(const float square_value)
+inline int bgc_is_zero_fp32(const float value)
 {
-    return (-BGC_EPSYLON_FP32 <= square_value) && (square_value <= BGC_EPSYLON_FP32);
+    return (-BGC_EPSYLON_FP32 <= value) && (value <= BGC_EPSYLON_FP32);
 }
 
-inline int bgc_is_zero_fp64(const double square_value)
+inline int bgc_is_zero_fp64(const double value)
 {
-    return (-BGC_EPSYLON_FP64 <= square_value) && (square_value <= BGC_EPSYLON_FP64);
+    return (-BGC_EPSYLON_FP64 <= value) && (value <= BGC_EPSYLON_FP64);
 }
 
 
-inline int bgc_is_unit_fp32(const float square_value)
+inline int bgc_is_unit_fp32(const float value)
 {
-    return (1.0f - BGC_EPSYLON_FP32 <= square_value) && (square_value <= 1.0f + BGC_EPSYLON_FP32);
+    return (1.0f - BGC_EPSYLON_FP32 <= value) && (value <= 1.0f + BGC_EPSYLON_FP32);
 }
 
-inline int bgc_is_unit_fp64(const double square_value)
+inline int bgc_is_unit_fp64(const double value)
 {
-    return (1.0 - BGC_EPSYLON_FP64 <= square_value) && (square_value <= 1.0 + BGC_EPSYLON_FP64);
+    return (1.0 - BGC_EPSYLON_FP64 <= value) && (value <= 1.0 + BGC_EPSYLON_FP64);
 }
 
 

basic-geometry/vector2.c

@@ -3,45 +3,42 @@
 extern inline void bgc_vector2_reset_fp32(BgcVector2FP32* vector);
 extern inline void bgc_vector2_reset_fp64(BgcVector2FP64* vector);
 
-extern inline void bgc_vector2_set_values_fp32(const float x1, const float x2, BgcVector2FP32* to);
-extern inline void bgc_vector2_set_values_fp64(const double x1, const double x2, BgcVector2FP64* to);
-
-extern inline float bgc_vector2_get_square_modulus_fp32(const BgcVector2FP32* vector);
-extern inline double bgc_vector2_get_square_modulus_fp64(const BgcVector2FP64* vector);
-
-extern inline float bgc_vector2_get_modulus_fp32(const BgcVector2FP32* vector);
-extern inline double bgc_vector2_get_modulus_fp64(const BgcVector2FP64* vector);
-
-extern inline int bgc_vector2_is_zero_fp32(const BgcVector2FP32* vector);
-extern inline int bgc_vector2_is_zero_fp64(const BgcVector2FP64* vector);
-
-extern inline int bgc_vector2_is_unit_fp32(const BgcVector2FP32* vector);
-extern inline int bgc_vector2_is_unit_fp64(const BgcVector2FP64* vector);
+extern inline void bgc_vector2_set_values_fp32(const float x1, const float x2, BgcVector2FP32* destination);
+extern inline void bgc_vector2_set_values_fp64(const double x1, const double x2, BgcVector2FP64* destination);
 
-extern inline void bgc_vector2_copy_fp32(const BgcVector2FP32* from, BgcVector2FP32* to);
-extern inline void bgc_vector2_copy_fp64(const BgcVector2FP64* from, BgcVector2FP64* to);
+extern inline float bgc_vector2_get_square_modulus_fp32(const BgcVector2FP32* vector);
+extern inline double bgc_vector2_get_square_modulus_fp64(const BgcVector2FP64* vector);
+
+extern inline float bgc_vector2_get_modulus_fp32(const BgcVector2FP32* vector);
+extern inline double bgc_vector2_get_modulus_fp64(const BgcVector2FP64* vector);
+
+extern inline int bgc_vector2_is_zero_fp32(const BgcVector2FP32* vector);
+extern inline int bgc_vector2_is_zero_fp64(const BgcVector2FP64* vector);
+
+extern inline int bgc_vector2_is_unit_fp32(const BgcVector2FP32* vector);
+extern inline int bgc_vector2_is_unit_fp64(const BgcVector2FP64* vector);
+
+extern inline void bgc_vector2_copy_fp32(const BgcVector2FP32* source, BgcVector2FP32* destination);
+extern inline void bgc_vector2_copy_fp64(const BgcVector2FP64* source, BgcVector2FP64* destination);
 
 extern inline void bgc_vector2_swap_fp32(BgcVector2FP32* vector1, BgcVector2FP32* vector2);
 extern inline void bgc_vector2_swap_fp64(BgcVector2FP64* vector1, BgcVector2FP64* vector2);
 
-extern inline void bgc_vector2_convert_fp64_to_fp32(const BgcVector2FP64* from, BgcVector2FP32* to);
-extern inline void bgc_vector2_convert_fp32_to_fp64(const BgcVector2FP32* from, BgcVector2FP64* to);
+extern inline void bgc_vector2_convert_fp64_to_fp32(const BgcVector2FP64* source, BgcVector2FP32* destination);
+extern inline void bgc_vector2_convert_fp32_to_fp64(const BgcVector2FP32* source, BgcVector2FP64* destination);
+
+extern inline void bgc_vector2_reverse_fp32(const BgcVector2FP32* vector, BgcVector2FP32* reverse);
+extern inline void bgc_vector2_reverse_fp64(const BgcVector2FP64* vector, BgcVector2FP64* reverse);
+
+extern inline int bgc_vector2_normalize_fp32(const BgcVector2FP32* vector, BgcVector2FP32* normalized);
+extern inline int bgc_vector2_normalize_fp64(const BgcVector2FP64* vector, BgcVector2FP64* normalized);
+
+extern inline void bgc_vector2_complex_conjugate_fp32(const BgcVector2FP32* vector, BgcVector2FP32* conjugate);
+extern inline void bgc_vector2_complex_conjugate_fp64(const BgcVector2FP64* vector, BgcVector2FP64* conjugate);
+
+extern inline int bgc_vector2_complex_invert_fp32(const BgcVector2FP32* vector, BgcVector2FP32* inverted);
+extern inline int bgc_vector2_complex_invert_fp64(const BgcVector2FP64* vector, BgcVector2FP64* inverted);
 
-extern inline void bgc_vector2_reverse_fp32(BgcVector2FP32* vector);
-extern inline void bgc_vector2_reverse_fp64(BgcVector2FP64* vector);
-
-extern inline int bgc_vector2_normalize_fp32(BgcVector2FP32* vector);
-extern inline int bgc_vector2_normalize_fp64(BgcVector2FP64* vector);
-
-extern inline void bgc_vector2_get_reverse_fp32(const BgcVector2FP32* vector, BgcVector2FP32* reverse);
-extern inline void bgc_vector2_get_reverse_fp64(const BgcVector2FP64* vector, BgcVector2FP64* reverse);
-
-extern inline int bgc_vector2_get_normalized_fp32(const BgcVector2FP32* vector, BgcVector2FP32* result);
-extern inline int bgc_vector2_get_normalized_fp64(const BgcVector2FP64* vector, BgcVector2FP64* result);
-
-extern inline void bgc_vector2_get_complex_conjugate_fp32(const BgcVector2FP32* vector, BgcVector2FP32* conjugate);
-extern inline void bgc_vector2_get_complex_conjugate_fp64(const BgcVector2FP64* vector, BgcVector2FP64* conjugate);
-
 extern inline void bgc_vector2_add_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2, BgcVector2FP32* sum);
 extern inline void bgc_vector2_add_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2, BgcVector2FP64* sum);
 
@@ -51,9 +48,9 @@ extern inline void bgc_vector2_add_scaled_fp64(const BgcVector2FP64* basic_vecto
 extern inline void bgc_vector2_subtract_fp32(const BgcVector2FP32* minuend, const BgcVector2FP32* subtrahend, BgcVector2FP32* difference);
 extern inline void bgc_vector2_subtract_fp64(const BgcVector2FP64* minuend, const BgcVector2FP64* subtrahend, BgcVector2FP64* difference);
 
-extern inline void bgc_vector2_subtract_scaled_fp32(const BgcVector2FP32* basic_vector, const BgcVector2FP32* scalable_vector, const float scale, BgcVector2FP32* difference);
-extern inline void bgc_vector2_subtract_scaled_fp64(const BgcVector2FP64* basic_vector, const BgcVector2FP64* scalable_vector, const double scale, BgcVector2FP64* difference);
-
+extern inline void bgc_vector2_subtract_scaled_fp32(const BgcVector2FP32* basic_vector, const BgcVector2FP32* scalable_vector, const float scale, BgcVector2FP32* difference);
+extern inline void bgc_vector2_subtract_scaled_fp64(const BgcVector2FP64* basic_vector, const BgcVector2FP64* scalable_vector, const double scale, BgcVector2FP64* difference);
+
 extern inline void bgc_vector2_multiply_fp32(const BgcVector2FP32* multiplicand, const float multiplier, BgcVector2FP32* product);
 extern inline void bgc_vector2_multiply_fp64(const BgcVector2FP64* multiplicand, const double multiplier, BgcVector2FP64* product);
 
@@ -64,16 +61,16 @@ extern inline void bgc_vector2_get_mean_of_two_fp32(const BgcVector2FP32* vector
 extern inline void bgc_vector2_get_mean_of_two_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2, BgcVector2FP64* mean);
 
 extern inline void bgc_vector2_get_mean_of_three_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2, const BgcVector2FP32* vector3, BgcVector2FP32* mean);
-extern inline void bgc_vector2_get_mean_of_three_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2, const BgcVector2FP64* vector3, BgcVector2FP64* mean);
-
-extern inline void bgc_vector2_get_linear_interpolation_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2, const float phase, BgcVector2FP32* interpolation);
-extern inline void bgc_vector2_get_linear_interpolation_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2, const double phase, BgcVector2FP64* interpolation);
-
-extern inline void bgc_vector2_minimize_fp32(const BgcVector2FP32* vector, BgcVector2FP32* minimal);
-extern inline void bgc_vector2_minimize_fp64(const BgcVector2FP64* vector, BgcVector2FP64* minimal);
-
-extern inline void bgc_vector2_maximize_fp32(const BgcVector2FP32* vector, BgcVector2FP32* maximal);
-extern inline void bgc_vector2_maximize_fp64(const BgcVector2FP64* vector, BgcVector2FP64* maximal);
+extern inline void bgc_vector2_get_mean_of_three_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2, const BgcVector2FP64* vector3, BgcVector2FP64* mean);
+
+extern inline void bgc_vector2_get_linear_interpolation_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2, const float phase, BgcVector2FP32* interpolation);
+extern inline void bgc_vector2_get_linear_interpolation_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2, const double phase, BgcVector2FP64* interpolation);
+
+extern inline void bgc_vector2_minimize_fp32(const BgcVector2FP32* vector, BgcVector2FP32* minimal);
+extern inline void bgc_vector2_minimize_fp64(const BgcVector2FP64* vector, BgcVector2FP64* minimal);
+
+extern inline void bgc_vector2_maximize_fp32(const BgcVector2FP32* vector, BgcVector2FP32* maximal);
+extern inline void bgc_vector2_maximize_fp64(const BgcVector2FP64* vector, BgcVector2FP64* maximal);
 
 extern inline float bgc_vector2_get_scalar_product_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2);
 extern inline double bgc_vector2_get_scalar_product_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2);
@@ -84,6 +81,9 @@ extern inline double bgc_vector2_get_cross_product_fp64(const BgcVector2FP64* ve
 extern inline void bgc_vector2_get_complex_product_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2, BgcVector2FP32* product);
 extern inline void bgc_vector2_get_complex_product_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2, BgcVector2FP64* product);
 
+extern inline int bgc_vector2_get_complex_ratio_fp32(const BgcVector2FP32* divident, const BgcVector2FP32* divisor, BgcVector2FP32* quotient);
+extern inline int bgc_vector2_get_complex_ratio_fp64(const BgcVector2FP64* divident, const BgcVector2FP64* divisor, BgcVector2FP64* quotient);
+
 extern inline float bgc_vector2_get_square_distance_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2);
 extern inline double bgc_vector2_get_square_distance_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2);
 
@@ -96,48 +96,48 @@ extern inline int bgc_vector2_are_close_enough_fp64(const BgcVector2FP64* vector
 extern inline int bgc_vector2_are_close_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2);
 extern inline int bgc_vector2_are_close_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2);
 
-// =============== Complex Power ================ //
-
-void bgc_vector2_get_complex_power_fp32(const BgcVector2FP32* base, const BgcVector2FP32* power, BgcVector2FP32* result)
-{
-    const float base_square_modulus = bgc_vector2_get_square_modulus_fp32(base);
-
-    if (base_square_modulus <= BGC_SQUARE_EPSYLON_FP32) {
-        result->x1 = 0.0f;
-        result->x2 = 0.0f;
-        return;
-    }
-
-    const float log_modulus = logf(base_square_modulus) * 0.5f;
-    const float angle = atan2f(base->x2, base->x1);
-
-    const float result_modulus = expf(power->x1 * log_modulus - power->x2 * angle);
-    const float result_angle = power->x1 * angle + power->x2 * log_modulus;
-
-    result->x1 = result_modulus * cosf(result_angle);
-    result->x2 = result_modulus * sinf(result_angle);
-}
-
-void bgc_vector2_get_complex_power_fp64(const BgcVector2FP64* base, const BgcVector2FP64* power, BgcVector2FP64* result)
-{
-    const double base_square_modulus = bgc_vector2_get_square_modulus_fp64(base);
-
-    if (base_square_modulus <= BGC_SQUARE_EPSYLON_FP64) {
-        result->x1 = 0.0;
-        result->x2 = 0.0;
-        return;
-    }
-
-    const double log_modulus = log(base_square_modulus) * 0.5;
-    const double angle = atan2(base->x2, base->x1);
-
-    const double result_modulus = exp(power->x1 * log_modulus - power->x2 * angle);
-    const double result_angle = power->x1 * angle + power->x2 * log_modulus;
-
-    result->x1 = result_modulus * cos(result_angle);
-    result->x2 = result_modulus * sin(result_angle);
-}
-
+// =============== Complex Power ================ //
+
+void bgc_vector2_get_complex_power_fp32(const BgcVector2FP32* base, const BgcVector2FP32* power, BgcVector2FP32* result)
+{
+    const float base_square_modulus = bgc_vector2_get_square_modulus_fp32(base);
+
+    if (base_square_modulus <= BGC_SQUARE_EPSYLON_FP32) {
+        result->x1 = 0.0f;
+        result->x2 = 0.0f;
+        return;
+    }
+
+    const float log_modulus = logf(base_square_modulus) * 0.5f;
+    const float angle = atan2f(base->x2, base->x1);
+
+    const float result_modulus = expf(power->x1 * log_modulus - power->x2 * angle);
+    const float result_angle = power->x1 * angle + power->x2 * log_modulus;
+
+    result->x1 = result_modulus * cosf(result_angle);
+    result->x2 = result_modulus * sinf(result_angle);
+}
+
+void bgc_vector2_get_complex_power_fp64(const BgcVector2FP64* base, const BgcVector2FP64* power, BgcVector2FP64* result)
+{
+    const double base_square_modulus = bgc_vector2_get_square_modulus_fp64(base);
+
+    if (base_square_modulus <= BGC_SQUARE_EPSYLON_FP64) {
+        result->x1 = 0.0;
+        result->x2 = 0.0;
+        return;
+    }
+
+    const double log_modulus = log(base_square_modulus) * 0.5;
+    const double angle = atan2(base->x2, base->x1);
+
+    const double result_modulus = exp(power->x1 * log_modulus - power->x2 * angle);
+    const double result_angle = power->x1 * angle + power->x2 * log_modulus;
+
+    result->x1 = result_modulus * cos(result_angle);
+    result->x2 = result_modulus * sin(result_angle);
+}
+
 // =================== Angle ==================== //
 
 float bgc_vector2_get_angle_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2, const BgcAngleUnitEnum unit)

basic-geometry/vector2.h

@@ -32,16 +32,16 @@ inline void bgc_vector2_reset_fp64(BgcVector2FP64* vector)
 
 // ==================== Set ===================== //
 
-inline void bgc_vector2_set_values_fp32(const float x1, const float x2, BgcVector2FP32* to)
+inline void bgc_vector2_set_values_fp32(const float x1, const float x2, BgcVector2FP32* destination)
 {
-    to->x1 = x1;
-    to->x2 = x2;
+    destination->x1 = x1;
+    destination->x2 = x2;
 }
 
-inline void bgc_vector2_set_values_fp64(const double x1, const double x2, BgcVector2FP64* to)
+inline void bgc_vector2_set_values_fp64(const double x1, const double x2, BgcVector2FP64* destination)
 {
-    to->x1 = x1;
-    to->x2 = x2;
+    destination->x1 = x1;
+    destination->x2 = x2;
 }
 
 // ================== Modulus =================== //
@@ -90,16 +90,16 @@ inline int bgc_vector2_is_unit_fp64(const BgcVector2FP64* vector)
 
 // ==================== Copy ==================== //
 
-inline void bgc_vector2_copy_fp32(const BgcVector2FP32* from, BgcVector2FP32* to)
+inline void bgc_vector2_copy_fp32(const BgcVector2FP32* source, BgcVector2FP32* destination)
 {
-    to->x1 = from->x1;
-    to->x2 = from->x2;
+    destination->x1 = source->x1;
+    destination->x2 = source->x2;
 }
 
-inline void bgc_vector2_copy_fp64(const BgcVector2FP64* from, BgcVector2FP64* to)
+inline void bgc_vector2_copy_fp64(const BgcVector2FP64* source, BgcVector2FP64* destination)
 {
-    to->x1 = from->x1;
-    to->x2 = from->x2;
+    destination->x1 = source->x1;
+    destination->x2 = source->x2;
 }
 
 // ==================== Swap ==================== //
@@ -130,132 +130,126 @@ inline void bgc_vector2_swap_fp64(BgcVector2FP64* vector1, BgcVector2FP64* vecto
 
 // ================== Convert =================== //
 
-inline void bgc_vector2_convert_fp64_to_fp32(const BgcVector2FP64* from, BgcVector2FP32* to)
+inline void bgc_vector2_convert_fp64_to_fp32(const BgcVector2FP64* source, BgcVector2FP32* destination)
 {
-    to->x1 = (float)from->x1;
-    to->x2 = (float)from->x2;
+    destination->x1 = (float)source->x1;
+    destination->x2 = (float)source->x2;
 }
 
-inline void bgc_vector2_convert_fp32_to_fp64(const BgcVector2FP32* from, BgcVector2FP64* to)
+inline void bgc_vector2_convert_fp32_to_fp64(const BgcVector2FP32* source, BgcVector2FP64* destination)
 {
-    to->x1 = from->x1;
-    to->x2 = from->x2;
+    destination->x1 = source->x1;
+    destination->x2 = source->x2;
 }
 
 // ================== Reverse =================== //
 
-inline void bgc_vector2_reverse_fp32(BgcVector2FP32* vector)
+inline void bgc_vector2_reverse_fp32(const BgcVector2FP32* vector, BgcVector2FP32* reverse)
 {
-    vector->x1 = -vector->x1;
-    vector->x2 = -vector->x2;
+    reverse->x1 = -vector->x1;
+    reverse->x2 = -vector->x2;
 }
 
-inline void bgc_vector2_reverse_fp64(BgcVector2FP64* vector)
+inline void bgc_vector2_reverse_fp64(const BgcVector2FP64* vector, BgcVector2FP64* reverse)
 {
-    vector->x1 = -vector->x1;
-    vector->x2 = -vector->x2;
+    reverse->x1 = -vector->x1;
+    reverse->x2 = -vector->x2;
 }
 
 // ================= Normalize ================== //
 
-inline int bgc_vector2_normalize_fp32(BgcVector2FP32* vector)
+inline int bgc_vector2_normalize_fp32(const BgcVector2FP32* vector, BgcVector2FP32* normalized)
 {
     const float square_modulus = bgc_vector2_get_square_modulus_fp32(vector);
 
     if (bgc_is_sqare_unit_fp32(square_modulus)) {
+        normalized->x1 = vector->x1;
+        normalized->x2 = vector->x2;
         return 1;
     }
 
     if (square_modulus <= BGC_SQUARE_EPSYLON_FP32 || square_modulus != square_modulus) {
-        vector->x1 = 0.0f;
-        vector->x2 = 0.0f;
         return 0;
     }
 
     const float multiplicand = sqrtf(1.0f / square_modulus);
 
-    vector->x1 *= multiplicand;
-    vector->x2 *= multiplicand;
+    normalized->x1 = vector->x1 * multiplicand;
+    normalized->x2 = vector->x2 * multiplicand;
 
     return 1;
 }
 
-inline int bgc_vector2_normalize_fp64(BgcVector2FP64* vector)
+inline int bgc_vector2_normalize_fp64(const BgcVector2FP64* vector, BgcVector2FP64* normalized)
 {
     const double square_modulus = bgc_vector2_get_square_modulus_fp64(vector);
 
     if (bgc_is_sqare_unit_fp64(square_modulus)) {
+        normalized->x1 = vector->x1;
+        normalized->x2 = vector->x2;
         return 1;
     }
 
     if (square_modulus <= BGC_SQUARE_EPSYLON_FP64 || square_modulus != square_modulus) {
-        vector->x1 = 0.0;
-        vector->x2 = 0.0;
         return 0;
     }
 
     const double multiplicand = sqrt(1.0 / square_modulus);
 
-    vector->x1 *= multiplicand;
-    vector->x2 *= multiplicand;
+    normalized->x1 = vector->x1 * multiplicand;
+    normalized->x2 = vector->x2 * multiplicand;
 
     return 1;
 }
 
 // ============= Complex Conjugate ============== //
 
-inline void bgc_vector2_complex_conjugate_fp32(BgcVector2FP32* vector)
-{
-    vector->x2 = -vector->x2;
-}
-
-inline void bgc_vector2_complex_conjugate_fp64(BgcVector2FP64* vector)
-{
-    vector->x2 = -vector->x2;
-}
-
-// ================ Get Reverse ================= //
-
-inline void bgc_vector2_get_reverse_fp32(const BgcVector2FP32* vector, BgcVector2FP32* reverse)
-{
-    reverse->x1 = -vector->x1;
-    reverse->x2 = -vector->x2;
-}
-
-inline void bgc_vector2_get_reverse_fp64(const BgcVector2FP64* vector, BgcVector2FP64* reverse)
-{
-    reverse->x1 = -vector->x1;
-    reverse->x2 = -vector->x2;
-}
-
-// =============== Get Normalized =============== //
-
-inline int bgc_vector2_get_normalized_fp32(const BgcVector2FP32* vector, BgcVector2FP32* normalized)
-{
-    bgc_vector2_copy_fp32(vector, normalized);
-    return bgc_vector2_normalize_fp32(normalized);
-}
-
-inline int bgc_vector2_get_normalized_fp64(const BgcVector2FP64* vector, BgcVector2FP64* normalized)
-{
-    bgc_vector2_copy_fp64(vector, normalized);
-    return bgc_vector2_normalize_fp64(normalized);
-}
-
-// =========== Get Complex Conjugate ============ //
-
-inline void bgc_vector2_get_complex_conjugate_fp32(const BgcVector2FP32* vector, BgcVector2FP32* conjugate)
+inline void bgc_vector2_complex_conjugate_fp32(const BgcVector2FP32* vector, BgcVector2FP32* conjugate)
 {
     conjugate->x1 = vector->x1;
     conjugate->x2 = -vector->x2;
 }
 
-inline void bgc_vector2_get_complex_conjugate_fp64(const BgcVector2FP64* vector, BgcVector2FP64* conjugate)
+inline void bgc_vector2_complex_conjugate_fp64(const BgcVector2FP64* vector, BgcVector2FP64* conjugate)
 {
     conjugate->x1 = vector->x1;
     conjugate->x2 = -vector->x2;
 }
 
+// =============== Complex Invert =============== //
+
+inline int bgc_vector2_complex_invert_fp32(const BgcVector2FP32* vector, BgcVector2FP32* inverted)
+{
+    const float square_modulus = bgc_vector2_get_square_modulus_fp32(vector);
+
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP32 || square_modulus != square_modulus) {
+        return 0;
+    }
+
+    const float multiplicand = 1.0f / square_modulus;
+
+    inverted->x1 = vector->x1 * multiplicand;
+    inverted->x2 = -vector->x2 * multiplicand;
+
+    return 1;
+}
+
+inline int bgc_vector2_complex_invert_fp64(const BgcVector2FP64* vector, BgcVector2FP64* inverted)
+{
+    const double square_modulus = bgc_vector2_get_square_modulus_fp64(vector);
+
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP64 || square_modulus != square_modulus) {
+        return 0;
+    }
+
+    const double multiplicand = 1.0 / square_modulus;
+
+    inverted->x1 = vector->x1 * multiplicand;
+    inverted->x2 = -vector->x2 * multiplicand;
+
+    return 1;
+}
+
 // ==================== Add ===================== //
 
 inline void bgc_vector2_add_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2, BgcVector2FP32* sum)
@@ -432,7 +426,7 @@ inline void bgc_vector2_maximize_fp64(const BgcVector2FP64* vector, BgcVector2FP
     }
 }
 
-// =============== Scalar Product =============== //
+// ============= Get Scalar Product ============= //
 
 inline float bgc_vector2_get_scalar_product_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2)
 {
@@ -444,7 +438,7 @@ inline double bgc_vector2_get_scalar_product_fp64(const BgcVector2FP64* vector1,
     return vector1->x1 * vector2->x1 + vector1->x2 * vector2->x2;
 }
 
-// =============== Cross Product ================ //
+// ============= Get Cross Product ============== //
 
 inline float bgc_vector2_get_cross_product_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2)
 {
@@ -456,7 +450,7 @@ inline double bgc_vector2_get_cross_product_fp64(const BgcVector2FP64* vector1,
     return vector1->x1 * vector2->x2 - vector1->x2 * vector2->x1;
 }
 
-// ============== Complex Product =============== //
+// ============ Get Complex Product ============= //
 
 inline void bgc_vector2_get_complex_product_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2, BgcVector2FP32* result)
 {
@@ -476,19 +470,59 @@ inline void bgc_vector2_get_complex_product_fp64(const BgcVector2FP64* vector1,
     result->x2 = x2;
 }
 
-// =============== Complex Power ================ //
+// ============= Get Complex Ratio ============== //
+
+inline int bgc_vector2_get_complex_ratio_fp32(const BgcVector2FP32* divident, const BgcVector2FP32* divisor, BgcVector2FP32* quotient)
+{
+    const float square_modulus = bgc_vector2_get_square_modulus_fp32(divisor);
+
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP32) {
+        return 0;
+    }
+
+    const float x1 = divident->x1 * divisor->x1 + divident->x2 * divisor->x2;
+    const float x2 = divident->x2 * divisor->x1 - divident->x1 * divisor->x2;
+
+    const float multiplier = 1.0f / square_modulus;
+
+    quotient->x1 = x1 * multiplier;
+    quotient->x2 = x2 * multiplier;
+
+    return 1;
+}
+
+inline int bgc_vector2_get_complex_ratio_fp64(const BgcVector2FP64* divident, const BgcVector2FP64* divisor, BgcVector2FP64* quotient)
+{
+    const double square_modulus = bgc_vector2_get_square_modulus_fp64(divisor);
+
+    if (square_modulus <= BGC_SQUARE_EPSYLON_FP64) {
+        return 0;
+    }
+
+    const double x1 = divident->x1 * divisor->x1 + divident->x2 * divisor->x2;
+    const double x2 = divident->x2 * divisor->x1 - divident->x1 * divisor->x2;
+
+    const double multiplier = 1.0 / square_modulus;
+
+    quotient->x1 = x1 * multiplier;
+    quotient->x2 = x2 * multiplier;
+
+    return 1;
+}
+
+// ============= Get Complex Power ============== //
 
 void bgc_vector2_get_complex_power_fp32(const BgcVector2FP32* base, const BgcVector2FP32* power, BgcVector2FP32* result);
 
 void bgc_vector2_get_complex_power_fp64(const BgcVector2FP64* base, const BgcVector2FP64* power, BgcVector2FP64* result);
 
-// =================== Angle ==================== //
+// ================= Get Angle ================== //
 
 float bgc_vector2_get_angle_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2, const BgcAngleUnitEnum unit);
 
 double bgc_vector2_get_angle_fp64(const BgcVector2FP64* vector1, const BgcVector2FP64* vector2, const BgcAngleUnitEnum unit);
 
-// =============== Square Distance ============== //
+// ============= Get Square Distance ============ //
 
 inline float bgc_vector2_get_square_distance_fp32(const BgcVector2FP32* vector1, const BgcVector2FP32* vector2)
 {

basic-geometry/vector3.c

@@ -3,42 +3,36 @@
 extern inline void bgc_vector3_reset_fp32(BgcVector3FP32* vector);
 extern inline void bgc_vector3_reset_fp64(BgcVector3FP64* vector);
 
-extern inline void bgc_vector3_set_values_fp32(const float x1, const float x2, const float x3, BgcVector3FP32* to);
-extern inline void bgc_vector3_set_values_fp64(const double x1, const double x2, const double x3, BgcVector3FP64* to);
-
-extern inline float bgc_vector3_get_square_modulus_fp32(const BgcVector3FP32* vector);
-extern inline double bgc_vector3_get_square_modulus_fp64(const BgcVector3FP64* vector);
-
-extern inline float bgc_vector3_get_modulus_fp32(const BgcVector3FP32* vector);
-extern inline double bgc_vector3_get_modulus_fp64(const BgcVector3FP64* vector);
-
-extern inline int bgc_vector3_is_zero_fp32(const BgcVector3FP32* vector);
-extern inline int bgc_vector3_is_zero_fp64(const BgcVector3FP64* vector);
-
-extern inline int bgc_vector3_is_unit_fp32(const BgcVector3FP32* vector);
-extern inline int bgc_vector3_is_unit_fp64(const BgcVector3FP64* vector);
+extern inline void bgc_vector3_set_values_fp32(const float x1, const float x2, const float x3, BgcVector3FP32* destination);
+extern inline void bgc_vector3_set_values_fp64(const double x1, const double x2, const double x3, BgcVector3FP64* destination);
 
-extern inline void bgc_vector3_copy_fp32(const BgcVector3FP32* from, BgcVector3FP32* to);
-extern inline void bgc_vector3_copy_fp64(const BgcVector3FP64* from, BgcVector3FP64* to);
+extern inline float bgc_vector3_get_square_modulus_fp32(const BgcVector3FP32* vector);
+extern inline double bgc_vector3_get_square_modulus_fp64(const BgcVector3FP64* vector);
 
-extern inline void bgc_vector3_convert_fp64_to_fp32(const BgcVector3FP64* from, BgcVector3FP32* to);
-extern inline void bgc_vector3_convert_fp32_to_fp64(const BgcVector3FP32* from, BgcVector3FP64* to);
+extern inline float bgc_vector3_get_modulus_fp32(const BgcVector3FP32* vector);
+extern inline double bgc_vector3_get_modulus_fp64(const BgcVector3FP64* vector);
+
+extern inline int bgc_vector3_is_zero_fp32(const BgcVector3FP32* vector);
+extern inline int bgc_vector3_is_zero_fp64(const BgcVector3FP64* vector);
+
+extern inline int bgc_vector3_is_unit_fp32(const BgcVector3FP32* vector);
+extern inline int bgc_vector3_is_unit_fp64(const BgcVector3FP64* vector);
+
+extern inline void bgc_vector3_copy_fp32(const BgcVector3FP32* source, BgcVector3FP32* destination);
+extern inline void bgc_vector3_copy_fp64(const BgcVector3FP64* source, BgcVector3FP64* destination);
+
+extern inline void bgc_vector3_convert_fp64_to_fp32(const BgcVector3FP64* source, BgcVector3FP32* destination);
+extern inline void bgc_vector3_convert_fp32_to_fp64(const BgcVector3FP32* source, BgcVector3FP64* destination);
 
 extern inline void bgc_vector3_swap_fp32(BgcVector3FP32* vector1, BgcVector3FP32* vector2);
 extern inline void bgc_vector3_swap_fp64(BgcVector3FP64* vector1, BgcVector3FP64* vector2);
 
-extern inline void bgc_vector3_reverse_fp32(BgcVector3FP32* vector);
-extern inline void bgc_vector3_reverse_fp64(BgcVector3FP64* vector);
-
-extern inline int bgc_vector3_normalize_fp32(BgcVector3FP32* vector);
-extern inline int bgc_vector3_normalize_fp64(BgcVector3FP64* vector);
-
-extern inline void bgc_vector3_get_reverse_fp32(const BgcVector3FP32* vector, BgcVector3FP32* reverse);
-extern inline void bgc_vector3_get_reverse_fp64(const BgcVector3FP64* vector, BgcVector3FP64* reverse);
-
-extern inline int bgc_vector3_get_normalized_fp32(const BgcVector3FP32* vector, BgcVector3FP32* normalized);
-extern inline int bgc_vector3_get_normalized_fp64(const BgcVector3FP64* vector, BgcVector3FP64* normalized);
-
+extern inline void bgc_vector3_reverse_fp32(const BgcVector3FP32* vector, BgcVector3FP32* reverse);
+extern inline void bgc_vector3_reverse_fp64(const BgcVector3FP64* vector, BgcVector3FP64* reverse);
+
+extern inline int bgc_vector3_normalize_fp32(const BgcVector3FP32* vector, BgcVector3FP32* normalized);
+extern inline int bgc_vector3_normalize_fp64(const BgcVector3FP64* vector, BgcVector3FP64* normalized);
+
 extern inline void bgc_vector3_add_fp32(const BgcVector3FP32* vector1, const BgcVector3FP32* vector2, BgcVector3FP32* sum);
 extern inline void bgc_vector3_add_fp64(const BgcVector3FP64* vector1, const BgcVector3FP64* vector2, BgcVector3FP64* sum);
 
@@ -48,9 +42,9 @@ extern inline void bgc_vector3_add_scaled_fp64(const BgcVector3FP64* basic_vecto
 extern inline void bgc_vector3_subtract_fp32(const BgcVector3FP32* minuend, const BgcVector3FP32* subtrahend, BgcVector3FP32* difference);
 extern inline void bgc_vector3_subtract_fp64(const BgcVector3FP64* minuend, const BgcVector3FP64* subtrahend, BgcVector3FP64* difference);
 
-extern inline void bgc_vector3_subtract_scaled_fp32(const BgcVector3FP32* basic_vector, const BgcVector3FP32* scalable_vector, const float scale, BgcVector3FP32* difference);
-extern inline void bgc_vector3_subtract_scaled_fp64(const BgcVector3FP64* basic_vector, const BgcVector3FP64* scalable_vector, const double scale, BgcVector3FP64* difference);
-
+extern inline void bgc_vector3_subtract_scaled_fp32(const BgcVector3FP32* basic_vector, const BgcVector3FP32* scalable_vector, const float scale, BgcVector3FP32* difference);
+extern inline void bgc_vector3_subtract_scaled_fp64(const BgcVector3FP64* basic_vector, const BgcVector3FP64* scalable_vector, const double scale, BgcVector3FP64* difference);
+
 extern inline void bgc_vector3_multiply_fp32(const BgcVector3FP32* multiplicand, const float multiplier, BgcVector3FP32* product);
 extern inline void bgc_vector3_multiply_fp64(const BgcVector3FP64* multiplicand, const double multiplier, BgcVector3FP64* product);
 
@@ -62,16 +56,16 @@ extern inline void bgc_vector3_get_mean_of_two_fp64(const BgcVector3FP64* vector
 
 extern inline void bgc_vector3_get_mean_of_three_fp32(const BgcVector3FP32* vector1, const BgcVector3FP32* vector2, const BgcVector3FP32* vector3, BgcVector3FP32* result);
 extern inline void bgc_vector3_get_mean_of_three_fp64(const BgcVector3FP64* vector1, const BgcVector3FP64* vector2, const BgcVector3FP64* vector3, BgcVector3FP64* result);
-
-extern inline void bgc_vector3_get_linear_interpolation_fp32(const BgcVector3FP32* vector1, const BgcVector3FP32* vector2, const float phase, BgcVector3FP32* interpolation);
-extern inline void bgc_vector3_get_linear_interpolation_fp64(const BgcVector3FP64* vector1, const BgcVector3FP64* vector2, const double phase, BgcVector3FP64* interpolation);
 
-extern inline void bgc_vector3_minimize_fp32(const BgcVector3FP32* vector, BgcVector3FP32* minimal);
-extern inline void bgc_vector3_minimize_fp64(const BgcVector3FP64* vector, BgcVector3FP64* minimal);
-
-extern inline void bgc_vector3_maximize_fp32(const BgcVector3FP32* vector, BgcVector3FP32* maximal);
-extern inline void bgc_vector3_maximize_fp64(const BgcVector3FP64* vector, BgcVector3FP64* maximal);
-
+extern inline void bgc_vector3_get_linear_interpolation_fp32(const BgcVector3FP32* vector1, const BgcVector3FP32* vector2, const float phase, BgcVector3FP32* interpolation);
+extern inline void bgc_vector3_get_linear_interpolation_fp64(const BgcVector3FP64* vector1, const BgcVector3FP64* vector2, const double phase, BgcVector3FP64* interpolation);
+
+extern inline void bgc_vector3_minimize_fp32(const BgcVector3FP32* vector, BgcVector3FP32* minimal);
+extern inline void bgc_vector3_minimize_fp64(const BgcVector3FP64* vector, BgcVector3FP64* minimal);
+
+extern inline void bgc_vector3_maximize_fp32(const BgcVector3FP32* vector, BgcVector3FP32* maximal);
+extern inline void bgc_vector3_maximize_fp64(const BgcVector3FP64* vector, BgcVector3FP64* maximal);
+
 extern inline float bgc_vector3_get_scalar_product_fp32(const BgcVector3FP32* vector1, const BgcVector3FP32* vector2);
 extern inline double bgc_vector3_get_scalar_product_fp64(const BgcVector3FP64* vector1, const BgcVector3FP64* vector2);
 

basic-geometry/vector3.h

@@ -36,18 +36,18 @@ inline void bgc_vector3_reset_fp64(BgcVector3FP64* vector)
 
 // ==================== Set ===================== //
 
-inline void bgc_vector3_set_values_fp32(const float x1, const float x2, const float x3, BgcVector3FP32* to)
+inline void bgc_vector3_set_values_fp32(const float x1, const float x2, const float x3, BgcVector3FP32* destination)
 {
-    to->x1 = x1;
-    to->x2 = x2;
-    to->x3 = x3;
+    destination->x1 = x1;
+    destination->x2 = x2;
+    destination->x3 = x3;
 }
 
-inline void bgc_vector3_set_values_fp64(const double x1, const double x2, const double x3, BgcVector3FP64* to)
+inline void bgc_vector3_set_values_fp64(const double x1, const double x2, const double x3, BgcVector3FP64* destination)
 {
-    to->x1 = x1;
-    to->x2 = x2;
-    to->x3 = x3;
+    destination->x1 = x1;
+    destination->x2 = x2;
+    destination->x3 = x3;
 }
 
 // ================== Modulus =================== //
@@ -96,18 +96,18 @@ inline int bgc_vector3_is_unit_fp64(const BgcVector3FP64* vector)
 
 // ==================== Copy ==================== //
 
-inline void bgc_vector3_copy_fp32(const BgcVector3FP32* from, BgcVector3FP32* to)
+inline void bgc_vector3_copy_fp32(const BgcVector3FP32* source, BgcVector3FP32* destination)
 {
-    to->x1 = from->x1;
-    to->x2 = from->x2;
-    to->x3 = from->x3;
+    destination->x1 = source->x1;
+    destination->x2 = source->x2;
+    destination->x3 = source->x3;
 }
 
-inline void bgc_vector3_copy_fp64(const BgcVector3FP64* from, BgcVector3FP64* to)
+inline void bgc_vector3_copy_fp64(const BgcVector3FP64* source, BgcVector3FP64* destination)
 {
-    to->x1 = from->x1;
-    to->x2 = from->x2;
-    to->x3 = from->x3;
+    destination->x1 = source->x1;
+    destination->x2 = source->x2;
+    destination->x3 = source->x3;
 }
 
 // ==================== Swap ==================== //
@@ -144,116 +144,86 @@ inline void bgc_vector3_swap_fp64(BgcVector3FP64* vector1, BgcVector3FP64* vecto
 
 // ================== Convert =================== //
 
-inline void bgc_vector3_convert_fp64_to_fp32(const BgcVector3FP64* from, BgcVector3FP32* to)
+inline void bgc_vector3_convert_fp64_to_fp32(const BgcVector3FP64* source, BgcVector3FP32* destination)
 {
-    to->x1 = (float) from->x1;
-    to->x2 = (float) from->x2;
-    to->x3 = (float) from->x3;
+    destination->x1 = (float)source->x1;
+    destination->x2 = (float)source->x2;
+    destination->x3 = (float)source->x3;
 }
 
-inline void bgc_vector3_convert_fp32_to_fp64(const BgcVector3FP32* from, BgcVector3FP64* to)
+inline void bgc_vector3_convert_fp32_to_fp64(const BgcVector3FP32* source, BgcVector3FP64* destination)
 {
-    to->x1 = from->x1;
-    to->x2 = from->x2;
-    to->x3 = from->x3;
+    destination->x1 = source->x1;
+    destination->x2 = source->x2;
+    destination->x3 = source->x3;
 }
 
 // ================== Reverse =================== //
 
-inline void bgc_vector3_reverse_fp32(BgcVector3FP32* vector)
+inline void bgc_vector3_reverse_fp32(const BgcVector3FP32* vector, BgcVector3FP32* reverse)
 {
-    vector->x1 = -vector->x1;
-    vector->x2 = -vector->x2;
-    vector->x3 = -vector->x3;
+    reverse->x1 = -vector->x1;
+    reverse->x2 = -vector->x2;
+    reverse->x3 = -vector->x3;
 }
 
-inline void bgc_vector3_reverse_fp64(BgcVector3FP64* vector)
+inline void bgc_vector3_reverse_fp64(const BgcVector3FP64* vector, BgcVector3FP64* reverse)
 {
-    vector->x1 = -vector->x1;
-    vector->x2 = -vector->x2;
-    vector->x3 = -vector->x3;
+    reverse->x1 = -vector->x1;
+    reverse->x2 = -vector->x2;
+    reverse->x3 = -vector->x3;
 }
 
 // ================= Normalize ================== //
 
-inline int bgc_vector3_normalize_fp32(BgcVector3FP32* vector)
+inline int bgc_vector3_normalize_fp32(const BgcVector3FP32* vector, BgcVector3FP32* normalized)
 {
     const float square_modulus = bgc_vector3_get_square_modulus_fp32(vector);
 
     if (bgc_is_sqare_unit_fp32(square_modulus)) {
+        normalized->x1 = vector->x1;
+        normalized->x2 = vector->x2;
+        normalized->x3 = vector->x3;
         return 1;
     }
 
     if (square_modulus <= BGC_SQUARE_EPSYLON_FP32 || square_modulus != square_modulus) {
-        vector->x1 = 0.0f;
-        vector->x2 = 0.0f;
-        vector->x3 = 0.0f;
         return 0;
     }
 
     const float multiplicand = sqrtf(1.0f / square_modulus);
 
-    vector->x1 *= multiplicand;
-    vector->x2 *= multiplicand;
-    vector->x3 *= multiplicand;
+    normalized->x1 = vector->x1 * multiplicand;
+    normalized->x2 = vector->x2 * multiplicand;
+    normalized->x3 = vector->x3 * multiplicand;
 
     return 1;
 }
 
-inline int bgc_vector3_normalize_fp64(BgcVector3FP64* vector)
+inline int bgc_vector3_normalize_fp64(const BgcVector3FP64* vector, BgcVector3FP64* normalized)
 {
     const double square_modulus = bgc_vector3_get_square_modulus_fp64(vector);
 
     if (bgc_is_sqare_unit_fp64(square_modulus)) {
+        normalized->x1 = vector->x1;
+        normalized->x2 = vector->x2;
+        normalized->x3 = vector->x3;
         return 1;
     }
 
     if (square_modulus <= BGC_SQUARE_EPSYLON_FP64 || square_modulus != square_modulus) {
-        vector->x1 = 0.0;
-        vector->x2 = 0.0;
-        vector->x3 = 0.0;
         return 0;
     }
 
     const double multiplicand = sqrt(1.0 / square_modulus);
 
-    vector->x1 *= multiplicand;
-    vector->x2 *= multiplicand;
-    vector->x3 *= multiplicand;
+    normalized->x1 = vector->x1 * multiplicand;
+    normalized->x2 = vector->x2 * multiplicand;
+    normalized->x3 = vector->x3 * multiplicand;
 
     return 1;
 }
 
-// ================ Get Reverse ================= //
-
-inline void bgc_vector3_get_reverse_fp32(const BgcVector3FP32* vector, BgcVector3FP32* reverse)
-{
-    reverse->x1 = -vector->x1;
-    reverse->x2 = -vector->x2;
-    reverse->x3 = -vector->x3;
-}
-
-inline void bgc_vector3_get_reverse_fp64(const BgcVector3FP64* vector, BgcVector3FP64* reverse)
-{
-    reverse->x1 = -vector->x1;
-    reverse->x2 = -vector->x2;
-    reverse->x3 = -vector->x3;
-}
-
-// =============== Get Normalized =============== //
-
-inline int bgc_vector3_get_normalized_fp32(const BgcVector3FP32* vector, BgcVector3FP32* normalized)
-{
-    bgc_vector3_copy_fp32(vector, normalized);
-    return bgc_vector3_normalize_fp32(normalized);
-}
-
-inline int bgc_vector3_get_normalized_fp64(const BgcVector3FP64* vector, BgcVector3FP64* normalized)
-{
-    bgc_vector3_copy_fp64(vector, normalized);
-    return bgc_vector3_normalize_fp64(normalized);
-}
-
 // ==================== Add ===================== //
 
 inline void bgc_vector3_add_fp32(const BgcVector3FP32* vector1, const BgcVector3FP32* vector2, BgcVector3FP32* sum)

basic-geometry/versor.c

@@ -16,8 +16,8 @@ extern inline void bgc_versor_set_values_fp64(const double s0, const double x1,
 extern inline void bgc_versor_set_rotation_fp32(const BgcRotation3FP32* rotation, BgcVersorFP32* result);
 extern inline void bgc_versor_set_rotation_fp64(const BgcRotation3FP64* rotation, BgcVersorFP64* result);
 
-extern inline void bgc_versor_copy_fp32(const BgcVersorFP32* from, BgcVersorFP32* to);
-extern inline void bgc_versor_copy_fp64(const BgcVersorFP64* from, BgcVersorFP64* to);
+extern inline void bgc_versor_copy_fp32(const BgcVersorFP32* source, BgcVersorFP32* destination);
+extern inline void bgc_versor_copy_fp64(const BgcVersorFP64* source, BgcVersorFP64* destination);
 
 extern inline void bgc_versor_swap_fp32(BgcVersorFP32* versor1, BgcVersorFP32* versor2);
 extern inline void bgc_versor_swap_fp64(BgcVersorFP64* versor1, BgcVersorFP64* versor2);
@@ -25,14 +25,14 @@ extern inline void bgc_versor_swap_fp64(BgcVersorFP64* versor1, BgcVersorFP64* v
 extern inline int bgc_versor_is_identity_fp32(const BgcVersorFP32* versor);
 extern inline int bgc_versor_is_identity_fp64(const BgcVersorFP64* versor);
 
-extern inline void bgc_versor_convert_fp64_to_fp32(const BgcVersorFP64* versor, BgcVersorFP32* result);
-extern inline void bgc_versor_convert_fp32_to_fp64(const BgcVersorFP32* versor, BgcVersorFP64* result);
+extern inline void bgc_versor_convert_fp64_to_fp32(const BgcVersorFP64* source, BgcVersorFP32* destination);
+extern inline void bgc_versor_convert_fp32_to_fp64(const BgcVersorFP32* source, BgcVersorFP64* destination);
 
-extern inline void bgc_versor_shorten_fp32(BgcVersorFP32* versor);
-extern inline void bgc_versor_shorten_fp64(BgcVersorFP64* versor);
+extern inline void bgc_versor_shorten_fp32(const BgcVersorFP32* versor, BgcVersorFP32* shortened);
+extern inline void bgc_versor_shorten_fp64(const BgcVersorFP64* versor, BgcVersorFP64* shortened);
 
-extern inline void bgc_versor_invert_fp32(BgcVersorFP32* versor);
-extern inline void bgc_versor_invert_fp64(BgcVersorFP64* versor);
+extern inline void bgc_versor_invert_fp32(const BgcVersorFP32* versor, BgcVersorFP32* inverted);
+extern inline void bgc_versor_invert_fp64(const BgcVersorFP64* versor, BgcVersorFP64* inverted);
 
 extern inline void bgc_versor_combine_fp32(const BgcVersorFP32* second, const BgcVersorFP32* first, BgcVersorFP32* result);
 extern inline void bgc_versor_combine_fp64(const BgcVersorFP64* second, const BgcVersorFP64* first, BgcVersorFP64* result);
@@ -40,12 +40,6 @@ extern inline void bgc_versor_combine_fp64(const BgcVersorFP64* second, const Bg
 extern inline void bgc_versor_combine3_fp32(const BgcVersorFP32* third, const BgcVersorFP32* second, const BgcVersorFP32* first, BgcVersorFP32* result);
 extern inline void bgc_versor_combine3_fp64(const BgcVersorFP64* third, const BgcVersorFP64* second, const BgcVersorFP64* first, BgcVersorFP64* result);
 
-extern inline void bgc_versor_get_shortened_fp32(const BgcVersorFP32* versor, BgcVersorFP32* shortened);
-extern inline void bgc_versor_get_shortened_fp64(const BgcVersorFP64* versor, BgcVersorFP64* shortened);
-
-extern inline void bgc_versor_get_inverted_fp32(const BgcVersorFP32* versor, BgcVersorFP32* to);
-extern inline void bgc_versor_get_inverted_fp64(const BgcVersorFP64* versor, BgcVersorFP64* to);
-
 extern inline void bgc_versor_get_rotation_matrix_fp32(const BgcVersorFP32* versor, BgcMatrix3x3FP32* matrix);
 extern inline void bgc_versor_get_rotation_matrix_fp64(const BgcVersorFP64* versor, BgcMatrix3x3FP64* matrix);
 

basic-geometry/versor.h

@@ -114,24 +114,24 @@ inline void bgc_versor_set_rotation_fp64(const BgcRotation3FP64* rotation, BgcVe
 
 // ==================== Copy ==================== //
 
-inline void bgc_versor_copy_fp32(const BgcVersorFP32* from, BgcVersorFP32* to)
+inline void bgc_versor_copy_fp32(const BgcVersorFP32* source, BgcVersorFP32* destination)
 {
-    _BgcDarkTwinVersorFP32* twin = (_BgcDarkTwinVersorFP32*)to;
+    _BgcDarkTwinVersorFP32* twin = (_BgcDarkTwinVersorFP32*)destination;
 
-    twin->s0 = from->s0;
-    twin->x1 = from->x1;
-    twin->x2 = from->x2;
-    twin->x3 = from->x3;
+    twin->s0 = source->s0;
+    twin->x1 = source->x1;
+    twin->x2 = source->x2;
+    twin->x3 = source->x3;
 }
 
-inline void bgc_versor_copy_fp64(const BgcVersorFP64* from, BgcVersorFP64* to)
+inline void bgc_versor_copy_fp64(const BgcVersorFP64* source, BgcVersorFP64* destination)
 {
-    _BgcDarkTwinVersorFP64* twin = (_BgcDarkTwinVersorFP64*)to;
+    _BgcDarkTwinVersorFP64* twin = (_BgcDarkTwinVersorFP64*)destination;
 
-    twin->s0 = from->s0;
-    twin->x1 = from->x1;
-    twin->x2 = from->x2;
-    twin->x3 = from->x3;
+    twin->s0 = source->s0;
+    twin->x1 = source->x1;
+    twin->x2 = source->x2;
+    twin->x3 = source->x3;
 }
 
 // ==================== Swap ==================== //
@@ -194,51 +194,61 @@ inline int bgc_versor_is_identity_fp64(const BgcVersorFP64* versor)
 
 // ================== Convert =================== //
 
-inline void bgc_versor_convert_fp64_to_fp32(const BgcVersorFP64* versor, BgcVersorFP32* result)
+inline void bgc_versor_convert_fp64_to_fp32(const BgcVersorFP64* source, BgcVersorFP32* destination)
 {
     bgc_versor_set_values_fp32(
-        (float) versor->s0,
-        (float) versor->x1,
-        (float) versor->x2,
-        (float) versor->x3,
-        result
+        (float)source->s0,
+        (float)source->x1,
+        (float)source->x2,
+        (float)source->x3,
+        destination
     );
 }
 
-inline void bgc_versor_convert_fp32_to_fp64(const BgcVersorFP32* versor, BgcVersorFP64* result)
+inline void bgc_versor_convert_fp32_to_fp64(const BgcVersorFP32* source, BgcVersorFP64* destination)
 {
     bgc_versor_set_values_fp64(
-        versor->s0,
-        versor->x1,
-        versor->x2,
-        versor->x3,
-        result
+        source->s0,
+        source->x1,
+        source->x2,
+        source->x3,
+        destination
     );
 }
 
 // ================== Shorten =================== //
 
-inline void bgc_versor_shorten_fp32(BgcVersorFP32* versor)
+inline void bgc_versor_shorten_fp32(const BgcVersorFP32* versor, BgcVersorFP32* shortened)
 {
+    _BgcDarkTwinVersorFP32* twin = (_BgcDarkTwinVersorFP32*)shortened;
+
     if (versor->s0 >= 0.0f) {
+        twin->x1 = versor->s0;
+        twin->x1 = versor->x1;
+        twin->x2 = versor->x2;
+        twin->x3 = versor->x3;
         return;
     }
 
-    _BgcDarkTwinVersorFP32* twin = (_BgcDarkTwinVersorFP32*)versor;
-    twin->s0 = -versor->s0;
+    twin->x1 = -versor->s0;
     twin->x1 = -versor->x1;
     twin->x2 = -versor->x2;
     twin->x3 = -versor->x3;
 }
 
-inline void bgc_versor_shorten_fp64(BgcVersorFP64* versor)
+inline void bgc_versor_shorten_fp64(const BgcVersorFP64* versor, BgcVersorFP64* shortened)
 {
-    if (versor->s0 >= 0.0f) {
+    _BgcDarkTwinVersorFP64* twin = (_BgcDarkTwinVersorFP64*)shortened;
+
+    if (versor->s0 >= 0.0) {
+        twin->x1 = versor->s0;
+        twin->x1 = versor->x1;
+        twin->x2 = versor->x2;
+        twin->x3 = versor->x3;
         return;
     }
 
-    _BgcDarkTwinVersorFP64* twin = (_BgcDarkTwinVersorFP64*)versor;
-    twin->s0 = -versor->s0;
+    twin->x1 = -versor->s0;
     twin->x1 = -versor->x1;
     twin->x2 = -versor->x2;
     twin->x3 = -versor->x3;
@@ -246,17 +256,19 @@ inline void bgc_versor_shorten_fp64(BgcVersorFP64* versor)
 
 // =================== Invert =================== //
 
-inline void bgc_versor_invert_fp32(BgcVersorFP32* versor)
+inline void bgc_versor_invert_fp32(const BgcVersorFP32* versor, BgcVersorFP32* inverted)
 {
-    _BgcDarkTwinVersorFP32* twin = (_BgcDarkTwinVersorFP32*)versor;
+    _BgcDarkTwinVersorFP32* twin = (_BgcDarkTwinVersorFP32*)inverted;
+    twin->s0 = versor->s0;
     twin->x1 = -versor->x1;
     twin->x2 = -versor->x2;
     twin->x3 = -versor->x3;
 }
 
-inline void bgc_versor_invert_fp64(BgcVersorFP64* versor)
+inline void bgc_versor_invert_fp64(const BgcVersorFP64* versor, BgcVersorFP64* inverted)
 {
-    _BgcDarkTwinVersorFP64* twin = (_BgcDarkTwinVersorFP64*)versor;
+    _BgcDarkTwinVersorFP64* twin = (_BgcDarkTwinVersorFP64*)inverted;
+    twin->s0 = versor->s0;
     twin->x1 = -versor->x1;
     twin->x2 = -versor->x2;
     twin->x3 = -versor->x3;
@@ -326,64 +338,6 @@ void bgc_versor_get_rotation_fp32(const BgcVersorFP32* versor, BgcRotation3FP32*
 
 void bgc_versor_get_rotation_fp64(const BgcVersorFP64* versor, BgcRotation3FP64* result);
 
-// =============== Get Shortened ================ //
-
-inline void bgc_versor_get_shortened_fp32(const BgcVersorFP32* versor, BgcVersorFP32* shortened)
-{
-    _BgcDarkTwinVersorFP32* twin = (_BgcDarkTwinVersorFP32*)shortened;
-
-    if (versor->s0 >= 0.0f) {
-        twin->x1 = versor->s0;
-        twin->x1 = versor->x1;
-        twin->x2 = versor->x2;
-        twin->x3 = versor->x3;
-        return;
-    }
-
-    twin->x1 = -versor->s0;
-    twin->x1 = -versor->x1;
-    twin->x2 = -versor->x2;
-    twin->x3 = -versor->x3;
-}
-
-inline void bgc_versor_get_shortened_fp64(const BgcVersorFP64* versor, BgcVersorFP64* shortened)
-{
-    _BgcDarkTwinVersorFP64* twin = (_BgcDarkTwinVersorFP64*)shortened;
-
-    if (versor->s0 >= 0.0) {
-        twin->x1 = versor->s0;
-        twin->x1 = versor->x1;
-        twin->x2 = versor->x2;
-        twin->x3 = versor->x3;
-        return;
-    }
-
-    twin->x1 = -versor->s0;
-    twin->x1 = -versor->x1;
-    twin->x2 = -versor->x2;
-    twin->x3 = -versor->x3;
-}
-
-// ================ Get Inverted ================ //
-
-inline void bgc_versor_get_inverted_fp32(const BgcVersorFP32* versor, BgcVersorFP32* to)
-{
-    _BgcDarkTwinVersorFP32* twin = (_BgcDarkTwinVersorFP32*)to;
-    twin->s0 = versor->s0;
-    twin->x1 = -versor->x1;
-    twin->x2 = -versor->x2;
-    twin->x3 = -versor->x3;
-}
-
-inline void bgc_versor_get_inverted_fp64(const BgcVersorFP64* versor, BgcVersorFP64* to)
-{
-    _BgcDarkTwinVersorFP64* twin = (_BgcDarkTwinVersorFP64*)to;
-    twin->s0 = versor->s0;
-    twin->x1 = -versor->x1;
-    twin->x2 = -versor->x2;
-    twin->x3 = -versor->x3;
-}
-
 // ============ Get Rotation Matrix ============= //
 
 inline void bgc_versor_get_rotation_matrix_fp32(const BgcVersorFP32* versor, BgcMatrix3x3FP32* matrix)
@@ -505,13 +459,13 @@ inline void bgc_versor_get_reverse_matrix_fp64(const BgcVersorFP64* versor, BgcM
 inline void bgc_versor_get_both_matrixes_fp32(const BgcVersorFP32* versor, BgcMatrix3x3FP32* rotation, BgcMatrix3x3FP32* reverse)
 {
     bgc_versor_get_reverse_matrix_fp32(versor, reverse);
-    bgc_matrix3x3_get_transposed_fp32(reverse, rotation);
+    bgc_matrix3x3_transpose_fp32(reverse, rotation);
 }
 
 inline void bgc_versor_get_both_matrixes_fp64(const BgcVersorFP64* versor, BgcMatrix3x3FP64* rotation, BgcMatrix3x3FP64* reverse)
 {
     bgc_versor_get_reverse_matrix_fp64(versor, reverse);
-    bgc_matrix3x3_get_transposed_fp64(reverse, rotation);
+    bgc_matrix3x3_transpose_fp64(reverse, rotation);
 }
 
 // ================ Turn Vector ================= //