Продолжение переименования типов и функций

2025-01-14 19:25:04 +07:00 · 2025-01-14 19:25:04 +07:00 · 3b6efaafa9
commit 3b6efaafa9
parent 605afabd94
25 changed files with 768 additions and 916 deletions
--- a/basic-geometry-dev/basic-geometry-dev.cbp
+++ b/basic-geometry-dev/basic-geometry-dev.cbp
@ -31,7 +31,6 @@
 					<Add directory="../basic-geometry" />
 				</Compiler>
 				<Linker>
 					<Add option="-O2" />
 					<Add option="-s" />
 					<Add library="basic-geometry" />
 					<Add library="m" />
--- a/basic-geometry-dev/main.c
+++ b/basic-geometry-dev/main.c
@ -10,19 +10,19 @@
 #endif // _WINDOWS_
 typedef struct {
-//    fp32_versor_t versor1, versor2, result;
+    versor_fp32_t versor1, versor2, result;
-    fp32_matrix3x3_t matrix;
+    matrix3x3_fp32_t matrix;
-    fp32_vector3_t vector1, vector2;
+    vector3_fp32_t vector1, vector2;
-} fp32_structure_t;
+} structure_fp32_t;
-fp32_structure_t* allocate_structures(const unsigned int amount)
+structure_fp32_t* allocate_structures(const unsigned int amount)
 {
-    return calloc(amount, sizeof(fp32_structure_t));
+    return calloc(amount, sizeof(structure_fp32_t));
 }
-fp32_structure_t* make_structures(const unsigned int amount)
+structure_fp32_t* make_structures(const unsigned int amount)
 {
-    fp32_structure_t* list = allocate_structures(amount);
+    structure_fp32_t* list = allocate_structures(amount);
    if (list == 0) {
        return 0;
@ -31,8 +31,7 @@ fp32_structure_t* make_structures(const unsigned int amount)
    const float multiplier = 2.0f / RAND_MAX;
    for (unsigned int i = 0; i < amount; i++) {
-    /*
+        versor_fp32_set_values(
        fp32_versor_set_values(
            rand() * multiplier - 1.0f,
            rand() * multiplier - 1.0f,
            rand() * multiplier - 1.0f,
@ -40,7 +39,7 @@ fp32_structure_t* make_structures(const unsigned int amount)
            &list[i].versor1
        );
-        fp32_versor_set_values(
+        versor_fp32_set_values(
            rand() * multiplier - 1.0f,
            rand() * multiplier - 1.0f,
            rand() * multiplier - 1.0f,
@ -48,54 +47,54 @@ fp32_structure_t* make_structures(const unsigned int amount)
            &list[i].versor2
        );
-        fp32_versor_reset(&list[i].result);
+        versor_reset_fp32(&list[i].result);
 */
        fp32_matrix3x3_set_to_identity(&list[i].matrix);
-        fp32_vector3_set_values(
+        matrix3x3_fp32_set_to_identity(&list[i].matrix);
        vector3_set_fp32(
            rand() * multiplier - 1.0f,
            rand() * multiplier - 1.0f,
            rand() * multiplier - 1.0f,
            &list[i].vector1
        );
-        fp32_vector3_reset(&list[i].vector2);
+        vector3_reset_fp32(&list[i].vector2);
    }
    return list;
 }
-void print_versor(const fp32_versor_t* versor)
+void print_versor_fp32(const versor_fp32_t* versor)
 {
    printf("Versor (%f, %f, %f, %f)\n", versor->s0, versor->x1, versor->x2, versor->x3);
 }
-void print_vector(const fp32_vector3_t* vector)
+void print_versor_fp64(const versor_fp64_t* versor)
 {
-    printf("(%f, %f, %f) / %f\n", vector->x1,  vector->x2,  vector->x3,  fp32_vector3_get_modulus(vector));
+    printf("Versor (%lf, %lf, %lf, %lf)\n", versor->s0, versor->x1, versor->x2, versor->x3);
 }
-void item_work(fp32_structure_t* item)
+void print_vector_fp32(const vector3_fp32_t* vector)
 {
-    //fp32_versor_combine(&item->versor1, &item->versor1, &item->result);
+    printf("(%f, %f, %f) / %f\n", vector->x1,  vector->x2,  vector->x3,  vector3_get_modulus_fp32(vector));
    //fp32_versor_make_rotation_matrix(&item->result, &item->matrix);
    fp32_matrix3x3_right_product(&item->matrix, &item->vector1, &item->vector2);
 }
-void circle_work(const unsigned int amount, fp32_structure_t* list)
+void print_vector_fp64(const vector3_fp64_t* vector)
 {
-    for (unsigned int i = 0; i < amount; i++) {
+    printf("(%lf, %lf, %lf) / %lf\n", vector->x1,  vector->x2,  vector->x3,  vector3_get_modulus_fp64(vector));
-        //fp32_versor_combine(&list[i].versor1, &list[i].versor1, &list[i].result);
+}
-        //fp32_versor_make_rotation_matrix(&list[i].result, &list[i].matrix);
+
-        fp32_matrix3x3_right_product(&list[i].matrix, &list[i].vector1, &list[i].vector2);
+void item_work(structure_fp32_t* item)
-        //fp32_versor_turn(&list[i].result, &list[i].vector1, &list[i].vector2);
+{
-    }
+    versor_fp32_combine(&item->versor1, &item->versor1, &item->result);
    versor_fp32_make_rotation_matrix(&item->result, &item->matrix);
    matrix3x3_fp32_right_product(&item->matrix, &item->vector1, &item->vector2);
 }
 int main()
 {
    const unsigned int amount = 1000000;
-    fp32_structure_t* list;
+    structure_fp32_t* list;
 #ifdef _WIN64
    ULONGLONG now, start, end;
@ -121,14 +120,13 @@ int main()
    clock_gettime(CLOCK_REALTIME, &start);
 #endif // _WIN64
-    for (int j = 0; j < 1000; j++) {
+    for (unsigned int i = 0; i < amount; i++) {
-        //circle(amount, list);
+        for (int j = 0; j < 1000; j++) {
        for (unsigned int i = 0; i < amount; i++) {
            //item_work(list + i);
-            //fp32_versor_combine(&list[i].versor1, &list[i].versor1, &list[i].result);
+            versor_fp32_combine(&list[i].versor1, &list[i].versor2, &list[i].result);
-            //fp32_versor_make_rotation_matrix(&list[i].result, &list[i].matrix);
+            versor_fp32_make_rotation_matrix(&list[i].result, &list[i].matrix);
-            fp32_matrix3x3_right_product(&list[i].matrix, &list[i].vector1, &list[i].vector2);
+            matrix3x3_fp32_right_product(&list[i].matrix, &list[i].vector1, &list[i].vector2);
-            //fp32_versor_turn(&list[i].result, &list[i].vector1, &list[i].vector2);
+            //versor_fp32_turn(&list[i].result, &list[i].vector1, &list[i].vector2);
        }
    }
@ -142,196 +140,11 @@ int main()
    printf("Time: %lf\n", (end.tv_sec - start.tv_sec) * 1000.0 + (end.tv_nsec - start.tv_nsec) * 0.000001);
 #endif // _WIN64
-    //print_versor(&list[10].versor1);
+    //print_versor_fp32(&list[10].versor1);
-    //print_versor(&list[10].versor2);
+    //print_versor_fp32(&list[10].versor2);
-    //print_versor(&list[10].result);
+    //print_versor_fp32(&list[10].result);
    free(list);
    return 0;
 }
 /*
 fp32_vector3_t* allocate_vectors3(const unsigned int amount)
 {
    return calloc(amount, sizeof(fp32_vector3_t));
 }
 fp32_vector3_t* make_zero_vectors3(const unsigned int amount)
 {
    fp32_vector3_t* list = allocate_vectors3(amount);
    if (list == 0) {
        return 0;
    }
    for (unsigned int i = 0; i < amount; i++) {
        fp32_vector3_reset(&list[i]);
    }
    return list;
 }
 fp32_vector3_t* make_random_vectors3(const unsigned int amount)
 {
    fp32_vector3_t* list = allocate_vectors3(amount);
    if (list == 0) {
        return 0;
    }
    const float multiplier = 2.0f / RAND_MAX;
    for (unsigned int i = 0; i < amount; i++) {
        list[i].x1 = rand() * multiplier - 1.0f;
        list[i].x2 = rand() * multiplier - 1.0f;
        list[i].x3 = rand() * multiplier - 1.0f;
    }
    return list;
 }
 fp32_versor_t* allocate_versors(const unsigned int amount)
 {
    return calloc(amount, sizeof(fp32_versor_t));
 }
 fp32_versor_t * make_zero_versors(const unsigned int amount)
 {
    fp32_versor_t * list = allocate_versors(amount);
    if (list == 0) {
        return 0;
    }
    for (unsigned int i = 0; i < amount; i++) {
        fp32_versor_reset(&list[i]);
    }
    return list;
 }
 fp32_versor_t * make_random_versors(const unsigned int amount)
 {
    fp32_versor_t * list = allocate_versors(amount);
    if (list == 0) {
        return 0;
    }
    const float multiplier = 2.0f / RAND_MAX;
    for (unsigned int i = 0; i < amount; i++) {
        fp32_versor_set_values(
            rand() * multiplier - 1.0f,
            rand() * multiplier - 1.0f,
            rand() * multiplier - 1.0f,
            rand() * multiplier - 1.0f,
            &list[i]
        );
    }
    return list;
 }
 int main()
 {
    const unsigned int amount = 1000000;
 #ifdef _WIN64
    ULONGLONG now, start, end;
    now = GetTickCount64();
    srand((unsigned int)(now & 0xfffffff));
 #else
    struct timespec now, start, end;
    clock_gettime(0, &now);
    srand((unsigned int)(now.tv_nsec & 0xfffffff));
 #endif // _WIN64
    fp32_versor_t * versors1 = make_random_versors(amount);
    if (versors1 == 0) {
        printf("Cannot allocate memory for versors1");
        return 0;
    }
    fp32_versor_t * versors2 = make_random_versors(amount);
    if (versors2 == 0) {
        printf("Cannot allocate memory for versors2");
        free(versors1);
        return 0;
    }
    fp32_versor_t * results = make_zero_versors(amount);
    if (results == 0) {
        printf("Cannot allocate memory for results");
        free(versors2);
        free(versors1);
        return 0;
    }
    fp32_matrix3x3_t* matrixes =malloc(amount * sizeof(fp32_matrix3x3_t));
    if (matrixes == 0) {
        printf("Cannot allocate memory for matrixes");
        free(results);
        free(versors2);
        free(versors1);
        return 0;
    }
    fp32_vector3_t* vectors = make_random_vectors3(amount);
    if (results == 0) {
        printf("Cannot allocate memory for result vectors");
        free(matrixes);
        free(results);
        free(versors2);
        free(versors1);
        return 0;
    }
 #ifdef _WIN64
    end = GetTickCount64();
    printf("Setup time: %lld\n", end - now);
    start = GetTickCount64();
 #else
    clock_gettime(CLOCK_REALTIME, &end);
    printf("Time: %lf\n", (end.tv_sec - now.tv_sec) * 1000.0 + (end.tv_nsec - now.tv_nsec) * 0.000001);
    clock_gettime(CLOCK_REALTIME, &start);
 #endif // _WIN64
    for (int j = 0; j < 1000; j++) {
        for (unsigned int i = 0; i < amount; i++) {
            fp32_versor_combine(&versors1[i], &versors2[i], &results[i]);
            fp32_versor_make_rotation_matrix(&versors1[i], &matrixes[i]);
            fp32_matrix3x3_right_product(&matrixes[i], &vectors[i], &vectors[i]);
            //fp32_versor_turn(&results[i], &vectors[i], &vectors[i]);
        }
    }
 #ifdef _WIN64
    end = GetTickCount64();
    printf("Time: %lld\n", end - start);
 #else
    clock_gettime(CLOCK_REALTIME, &end);
    printf("Time: %lf\n", (end.tv_sec - start.tv_sec) * 1000.0 + (end.tv_nsec - start.tv_nsec) * 0.000001);
 #endif // _WIN64
    print_versor(versors1 + 10);
    print_versor(versors2 + 10);
    print_versor(results + 10);
    free(vectors);
    free(matrixes);
    free(results);
    free(versors2);
    free(versors1);
    return 0;
 }
 */
--- a/basic-geometry-test/fp32_vector2_test.c
+++ b/basic-geometry-test/fp32_vector2_test.c
@ -1,8 +1,8 @@
-#include "fp32_vector2_test.h"
+#include "vector2_fp32_test.h"
 const int TEST_FP32_VECTOR2_AMOUNT_1 = 5;
-const fp32_vector2_t TEST_FP32_VECTOR2_COMMON_1[] = {
+const vector2_fp32_t TEST_FP32_VECTOR2_COMMON_1[] = {
    { 3.0f, 4.0f },
    { -3.0f, -4.0f },
    { 10000.0f, -20000.0f },
@ -10,7 +10,7 @@ const fp32_vector2_t TEST_FP32_VECTOR2_COMMON_1[] = {
    { -123.5f, 3.7283f }
 };
-const fp32_vector2_t TEST_FP32_VECTOR2_COMMON_2[] = {
+const vector2_fp32_t TEST_FP32_VECTOR2_COMMON_2[] = {
    { -3.0f, -4.0f },
    { -3.0f, -4.0f },
    { 0.002f, -0.05f },
@ -22,14 +22,14 @@ const fp32_vector2_t TEST_FP32_VECTOR2_COMMON_2[] = {
 const float FP32_VECTOR2_SQUARE_MODULUS_1[] = { 25.0f, 25.0f, 500000000.0f, 100.01f, 15266.150221f };
-int test_fp32_vector2_square_modulus()
+int test_vector2_fp32_square_modulus()
 {
-    print_test_name("fp32_vector2_t square modulus");
+    print_test_name("vector2_fp32_t square modulus");
    float square_modulus;
    for (int i = 0; i < TEST_FP32_VECTOR2_AMOUNT_1; i++) {
-        square_modulus = fp32_vector2_get_square_modulus(&TEST_FP32_VECTOR2_COMMON_1[i]);
+        square_modulus = vector2_get_square_modulus_fp32(&TEST_FP32_VECTOR2_COMMON_1[i]);
        if (!test_fp32_are_equal(square_modulus, FP32_VECTOR2_SQUARE_MODULUS_1[i], TEST_FP32_TWO_EPSYLON)) {
            print_test_failed();
@ -45,14 +45,14 @@ int test_fp32_vector2_square_modulus()
 const float FP32_VECTOR2_MODULUS_1[] = { 5.0f, 5.0f, 22360.68f, 10.0005f, 123.55626338f };
-int test_fp32_vector2_modulus()
+int test_vector2_fp32_modulus()
 {
-    print_test_name("fp32_vector2_t modulus");
+    print_test_name("vector2_fp32_t modulus");
    float square_modulus;
    for (int i = 0; i < TEST_FP32_VECTOR2_AMOUNT_1; i++) {
-        square_modulus = fp32_vector2_get_modulus(&TEST_FP32_VECTOR2_COMMON_1[i]);
+        square_modulus = vector2_get_modulus_fp32(&TEST_FP32_VECTOR2_COMMON_1[i]);
        if (!test_fp32_are_equal(square_modulus, FP32_VECTOR2_MODULUS_1[i], TEST_FP32_EPSYLON)) {
            print_test_failed();
@ -66,7 +66,7 @@ int test_fp32_vector2_modulus()
 // ===================== Add ==================== //
-const fp32_vector2_t TEST_FP32_VECTOR2_COMMON_1_2_SUM[] = {
+const vector2_fp32_t TEST_FP32_VECTOR2_COMMON_1_2_SUM[] = {
    { 0.0f, 0.0f },
    { -6.0f, -8.0f },
    { 10000.002f, -20000.05f },
@ -74,14 +74,14 @@ const fp32_vector2_t TEST_FP32_VECTOR2_COMMON_1_2_SUM[] = {
    { -122.0f, -19.6217f }
 };
-int test_fp32_vector2_add()
+int test_vector2_fp32_add()
 {
-    print_test_name("fp32_vector2_t add");
+    print_test_name("vector2_fp32_t add");
-    fp32_vector2_t vector;
+    vector2_fp32_t vector;
    for (int i = 0; i < TEST_FP32_VECTOR2_AMOUNT_1; i++) {
-        fp32_vector2_add(&TEST_FP32_VECTOR2_COMMON_1[i], &TEST_FP32_VECTOR2_COMMON_2[i], &vector);
+        vector2_fp32_add(&TEST_FP32_VECTOR2_COMMON_1[i], &TEST_FP32_VECTOR2_COMMON_2[i], &vector);
        if (!test_fp32_are_equal(vector.x1, TEST_FP32_VECTOR2_COMMON_1_2_SUM[i].x1, TEST_FP32_EPSYLON) ||
            !test_fp32_are_equal(vector.x2, TEST_FP32_VECTOR2_COMMON_1_2_SUM[i].x2, TEST_FP32_EPSYLON)) {
@ -96,7 +96,7 @@ int test_fp32_vector2_add()
 // ================== Subtract ================== //
-const fp32_vector2_t TEST_FP32_VECTOR2_COMMON_1_2_DIFF[] = {
+const vector2_fp32_t TEST_FP32_VECTOR2_COMMON_1_2_DIFF[] = {
    { 6.0f, 8.0f },
    { 0.0f, 0.0f },
    { 9999.998f, -19999.95f },
@ -104,14 +104,14 @@ const fp32_vector2_t TEST_FP32_VECTOR2_COMMON_1_2_DIFF[] = {
    { -125.0f, 27.0783f }
 };
-int test_fp32_vector2_subtract()
+int test_vector2_fp32_subtract()
 {
-    print_test_name("fp32_vector2_t subtract");
+    print_test_name("vector2_fp32_t subtract");
-    fp32_vector2_t vector;
+    vector2_fp32_t vector;
    for (int i = 0; i < TEST_FP32_VECTOR2_AMOUNT_1; i++) {
-        fp32_vector2_subtract(&TEST_FP32_VECTOR2_COMMON_1[i], &TEST_FP32_VECTOR2_COMMON_2[i], &vector);
+        vector2_fp32_subtract(&TEST_FP32_VECTOR2_COMMON_1[i], &TEST_FP32_VECTOR2_COMMON_2[i], &vector);
        if (!test_fp32_are_equal(vector.x1, TEST_FP32_VECTOR2_COMMON_1_2_DIFF[i].x1, TEST_FP32_EPSYLON) ||
            !test_fp32_are_equal(vector.x2, TEST_FP32_VECTOR2_COMMON_1_2_DIFF[i].x2, TEST_FP32_EPSYLON)) {
@ -128,21 +128,21 @@ int test_fp32_vector2_subtract()
 int test_fp32_vector2()
 {
-    print_test_section("fp32_vector2_t");
+    print_test_section("vector2_fp32_t");
-    if (test_fp32_vector2_square_modulus() != TEST_RESULT_SUCCES) {
+    if (test_vector2_fp32_square_modulus() != TEST_RESULT_SUCCES) {
        return TEST_RESULT_FAILED;
    }
-    if (test_fp32_vector2_modulus() != TEST_RESULT_SUCCES) {
+    if (test_vector2_fp32_modulus() != TEST_RESULT_SUCCES) {
        return TEST_RESULT_FAILED;
    }
-    if (test_fp32_vector2_add() != TEST_RESULT_SUCCES) {
+    if (test_vector2_fp32_add() != TEST_RESULT_SUCCES) {
        return TEST_RESULT_FAILED;
    }
-    if (test_fp32_vector2_subtract() != TEST_RESULT_SUCCES) {
+    if (test_vector2_fp32_subtract() != TEST_RESULT_SUCCES) {
        return TEST_RESULT_FAILED;
    }
--- a/basic-geometry-test/fp32_vector2_test.h
+++ b/basic-geometry-test/fp32_vector2_test.h
@ -5,12 +5,12 @@
 int test_fp32_vector2();
-int test_fp32_vector2_square_modulus();
+int test_vector2_fp32_square_modulus();
-int test_fp32_vector2_modulus();
+int test_vector2_fp32_modulus();
-int test_fp32_vector2_add();
+int test_vector2_fp32_add();
-int test_fp32_vector2_subtract();
+int test_vector2_fp32_subtract();
 #endif
--- a/basic-geometry-test/main.c
+++ b/basic-geometry-test/main.c
@ -2,7 +2,7 @@
 #include <stdlib.h>
 #include "geometry_test.h"
-#include "fp32_vector2_test.h"
+#include "vector2_fp32_test.h"
 #define PROGRAM_RESULT_SUCCESS 0
 #define PROGRAM_RESULT_FAILED 1
--- a/basic-geometry/angle.h
+++ b/basic-geometry/angle.h
@ -52,31 +52,31 @@ typedef enum {
 // ========= Convert radians to degrees ========= //
-static inline float fp32_radians_to_degrees(const float radians)
+inline float fp32_radians_to_degrees(const float radians)
 {
    return radians * FP32_DEGREES_IN_RADIAN;
 }
-static inline double fp64_radians_to_degrees(const double radians)
+inline double fp64_radians_to_degrees(const double radians)
 {
    return radians * FP64_DEGREES_IN_RADIAN;
 }
 // ========== Convert radians to turns ========== //
-static inline float fp32_radians_to_turns(const float radians)
+inline float fp32_radians_to_turns(const float radians)
 {
    return radians * FP32_TURNS_IN_RADIAN;
 }
-static inline double fp64_radians_to_turns(const double radians)
+inline double fp64_radians_to_turns(const double radians)
 {
    return radians * FP64_TURNS_IN_RADIAN;
 }
 // ========= Convert radians to any unit ======== //
-static inline float fp32_radians_to_units(const float radians, const angle_unit_t to_unit)
+inline float fp32_radians_to_units(const float radians, const angle_unit_t to_unit)
 {
    if (to_unit == BG_ANGLE_UNIT_DEGREES) {
        return radians * FP32_DEGREES_IN_RADIAN;
@ -89,7 +89,7 @@ static inline float fp32_radians_to_units(const float radians, const angle_unit_
    return radians;
 }
-static inline double fp64_radians_to_units(const double radians, const angle_unit_t to_unit)
+inline double fp64_radians_to_units(const double radians, const angle_unit_t to_unit)
 {
    if (to_unit == BG_ANGLE_UNIT_DEGREES) {
        return radians * FP64_DEGREES_IN_RADIAN;
@ -104,7 +104,7 @@ static inline double fp64_radians_to_units(const double radians, const angle_uni
 // ============ Normalize radians ============= //
-static inline float fp32_radians_normalize(const float radians, const angle_range_t range)
+inline float fp32_radians_normalize(const float radians, const angle_range_t range)
 {
    if (range == BG_ANGLE_RANGE_UNSIGNED) {
        if (0.0f <= radians && radians < FP32_TWO_PI) {
@ -128,7 +128,7 @@ static inline float fp32_radians_normalize(const float radians, const angle_rang
    return turns * FP32_TWO_PI;
 }
-static inline double fp64_radians_normalize(const double radians, const angle_range_t range)
+inline double fp64_radians_normalize(const double radians, const angle_range_t range)
 {
    if (range == BG_ANGLE_RANGE_UNSIGNED) {
        if (0.0 <= radians && radians < FP64_TWO_PI) {
@ -156,31 +156,31 @@ static inline double fp64_radians_normalize(const double radians, const angle_ra
 // ========= Convert degrees to radians ========= //
-static inline float fp32_degrees_to_radians(const float degrees)
+inline float fp32_degrees_to_radians(const float degrees)
 {
    return degrees * FP32_RADIANS_IN_DEGREE;
 }
-static inline double fp64_degrees_to_radians(const double degrees)
+inline double fp64_degrees_to_radians(const double degrees)
 {
    return degrees * FP64_RADIANS_IN_DEGREE;
 }
 // ========== Convert degrees to turns ========== //
-static inline float fp32_degrees_to_turns(const float radians)
+inline float fp32_degrees_to_turns(const float radians)
 {
    return radians * FP32_TURNS_IN_DEGREE;
 }
-static inline double fp64_degrees_to_turns(const double radians)
+inline double fp64_degrees_to_turns(const double radians)
 {
    return radians * FP64_TURNS_IN_DEGREE;
 }
 // ========= Convert degreess to any unit ======== //
-static inline float fp32_degrees_to_units(const float degrees, const angle_unit_t to_unit)
+inline float fp32_degrees_to_units(const float degrees, const angle_unit_t to_unit)
 {
    if (to_unit == BG_ANGLE_UNIT_RADIANS) {
        return degrees * FP32_RADIANS_IN_DEGREE;
@ -193,7 +193,7 @@ static inline float fp32_degrees_to_units(const float degrees, const angle_unit_
    return degrees;
 }
-static inline double fp64_degrees_to_units(const double degrees, const angle_unit_t to_unit)
+inline double fp64_degrees_to_units(const double degrees, const angle_unit_t to_unit)
 {
    if (to_unit == BG_ANGLE_UNIT_RADIANS) {
        return degrees * FP64_RADIANS_IN_DEGREE;
@ -208,7 +208,7 @@ static inline double fp64_degrees_to_units(const double degrees, const angle_uni
 // ============ Normalize degrees ============= //
-static inline float fp32_degrees_normalize(const float degrees, const angle_range_t range)
+inline float fp32_degrees_normalize(const float degrees, const angle_range_t range)
 {
    if (range == BG_ANGLE_RANGE_UNSIGNED) {
        if (0.0f <= degrees && degrees < 360.0f) {
@ -232,7 +232,7 @@ static inline float fp32_degrees_normalize(const float degrees, const angle_rang
    return turns * 360.0f;
 }
-static inline double fp64_degrees_normalize(const double degrees, const angle_range_t range)
+inline double fp64_degrees_normalize(const double degrees, const angle_range_t range)
 {
    if (range == BG_ANGLE_RANGE_UNSIGNED) {
        if (0.0 <= degrees && degrees < 360.0) {
@ -260,31 +260,31 @@ static inline double fp64_degrees_normalize(const double degrees, const angle_ra
 // ========== Convert turns to radians ========== //
-static inline float fp32_turns_to_radians(const float turns)
+inline float fp32_turns_to_radians(const float turns)
 {
    return turns * FP32_TWO_PI;
 }
-static inline double fp64_turns_to_radians(const double turns)
+inline double fp64_turns_to_radians(const double turns)
 {
    return turns * FP64_TWO_PI;
 }
 // ========== Convert turns to degrees ========== //
-static inline float fp32_turns_to_degrees(const float turns)
+inline float fp32_turns_to_degrees(const float turns)
 {
    return turns * 360.0f;
 }
-static inline double fp64_turns_to_degrees(const double turns)
+inline double fp64_turns_to_degrees(const double turns)
 {
    return turns * 360.0;
 }
 // ========= Convert turns to any unit ======== //
-static inline float fp32_turns_to_units(const float turns, const angle_unit_t to_unit)
+inline float fp32_turns_to_units(const float turns, const angle_unit_t to_unit)
 {
    if (to_unit == BG_ANGLE_UNIT_RADIANS) {
        return turns * FP32_TWO_PI;
@ -297,7 +297,7 @@ static inline float fp32_turns_to_units(const float turns, const angle_unit_t to
    return turns;
 }
-static inline double fp64_turns_to_units(const double turns, const angle_unit_t to_unit)
+inline double fp64_turns_to_units(const double turns, const angle_unit_t to_unit)
 {
    if (to_unit == BG_ANGLE_UNIT_RADIANS) {
        return turns * FP64_TWO_PI;
@ -312,7 +312,7 @@ static inline double fp64_turns_to_units(const double turns, const angle_unit_t
 // ============= Normalize turns ============== //
-static inline float fp32_turns_normalize(const float turns, const angle_range_t range)
+inline float fp32_turns_normalize(const float turns, const angle_range_t range)
 {
    if (range == BG_ANGLE_RANGE_UNSIGNED) {
        if (0.0f <= turns && turns < 1.0f) {
@ -334,7 +334,7 @@ static inline float fp32_turns_normalize(const float turns, const angle_range_t
    return rest;
 }
-static inline double fp64_turns_normalize(const double turns, const angle_range_t range)
+inline double fp64_turns_normalize(const double turns, const angle_range_t range)
 {
    if (range == BG_ANGLE_RANGE_UNSIGNED) {
        if (0.0 <= turns && turns < 1.0) {
@ -360,7 +360,7 @@ static inline double fp64_turns_normalize(const double turns, const angle_range_
 // ========= Convert any unit to radians ======== //
-static inline float fp32_angle_to_radians(const float angle, const angle_unit_t unit)
+inline float fp32_angle_to_radians(const float angle, const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_DEGREES) {
        return angle * FP32_RADIANS_IN_DEGREE;
@ -373,7 +373,7 @@ static inline float fp32_angle_to_radians(const float angle, const angle_unit_t
    return angle;
 }
-static inline double fp64_angle_to_radians(const double angle, const angle_unit_t unit)
+inline double fp64_angle_to_radians(const double angle, const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_DEGREES) {
        return angle * FP64_RADIANS_IN_DEGREE;
@ -388,7 +388,7 @@ static inline double fp64_angle_to_radians(const double angle, const angle_unit_
 // ========= Convert any unit to degreess ======== //
-static inline float fp32_angle_to_degrees(const float angle, const angle_unit_t unit)
+inline float fp32_angle_to_degrees(const float angle, const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_RADIANS) {
        return angle * FP32_DEGREES_IN_RADIAN;
@ -401,7 +401,7 @@ static inline float fp32_angle_to_degrees(const float angle, const angle_unit_t
    return angle;
 }
-static inline double fp64_angle_to_degrees(const double angle, const angle_unit_t unit)
+inline double fp64_angle_to_degrees(const double angle, const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_RADIANS) {
        return angle * FP64_DEGREES_IN_RADIAN;
@ -416,7 +416,7 @@ static inline double fp64_angle_to_degrees(const double angle, const angle_unit_
 // ========= Convert any unit to turns ======== //
-static inline float fp32_angle_to_turns(const float angle, const angle_unit_t unit)
+inline float fp32_angle_to_turns(const float angle, const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_RADIANS) {
        return angle * FP32_TURNS_IN_RADIAN;
@ -429,7 +429,7 @@ static inline float fp32_angle_to_turns(const float angle, const angle_unit_t un
    return angle;
 }
-static inline double fp64_angle_to_turns(const double angle, const angle_unit_t unit)
+inline double fp64_angle_to_turns(const double angle, const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_RADIANS) {
        return angle * FP64_TURNS_IN_RADIAN;
@ -444,7 +444,7 @@ static inline double fp64_angle_to_turns(const double angle, const angle_unit_t
 // ============= Get Full Circle ============== //
-static inline float fp32_angle_get_full_circle(const angle_unit_t unit)
+inline float fp32_angle_get_full_circle(const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_DEGREES) {
        return 360.0f;
@ -457,7 +457,7 @@ static inline float fp32_angle_get_full_circle(const angle_unit_t unit)
    return FP32_TWO_PI;
 }
-static inline double fp64_angle_get_full_circle(const angle_unit_t unit)
+inline double fp64_angle_get_full_circle(const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_DEGREES) {
        return 360.0;
@ -472,7 +472,7 @@ static inline double fp64_angle_get_full_circle(const angle_unit_t unit)
 // ============= Get Half Circle ============== //
-static inline float fp32_angle_get_half_circle(const angle_unit_t unit)
+inline float fp32_angle_get_half_circle(const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_DEGREES) {
        return 180.0f;
@ -485,7 +485,7 @@ static inline float fp32_angle_get_half_circle(const angle_unit_t unit)
    return FP32_PI;
 }
-static inline double fp64_angle_get_half_circle(const angle_unit_t unit)
+inline double fp64_angle_get_half_circle(const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_DEGREES) {
        return 180.0;
@ -500,7 +500,7 @@ static inline double fp64_angle_get_half_circle(const angle_unit_t unit)
 // ============= Get Half Circle ============== //
-static inline float fp32_angle_get_quater_circle(const angle_unit_t unit)
+inline float fp32_angle_get_quater_circle(const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_DEGREES) {
        return 90.0f;
@ -513,7 +513,7 @@ static inline float fp32_angle_get_quater_circle(const angle_unit_t unit)
    return FP32_HALF_OF_PI;
 }
-static inline double fp64_angle_get_quater_circle(const angle_unit_t unit)
+inline double fp64_angle_get_quater_circle(const angle_unit_t unit)
 {
    if (unit == BG_ANGLE_UNIT_DEGREES) {
        return 90.0;
@ -528,7 +528,7 @@ static inline double fp64_angle_get_quater_circle(const angle_unit_t unit)
 // ================ Normalize ================= //
-static inline float fp32_angle_normalize(const float angle, const angle_unit_t unit, const angle_range_t range)
+inline float fp32_angle_normalize(const float angle, const angle_unit_t unit, const angle_range_t range)
 {
    if (unit == BG_ANGLE_UNIT_DEGREES) {
        return fp32_degrees_normalize(angle, range);
@ -541,7 +541,7 @@ static inline float fp32_angle_normalize(const float angle, const angle_unit_t u
    return fp32_radians_normalize(angle, range);
 }
-static inline double fp64_angle_normalize(const double angle, const angle_unit_t unit, const angle_range_t range)
+inline double fp64_angle_normalize(const double angle, const angle_unit_t unit, const angle_range_t range)
 {
    if (unit == BG_ANGLE_UNIT_DEGREES) {
        return fp64_degrees_normalize(angle, range);
--- a/basic-geometry/basis.h
+++ b/basic-geometry/basis.h
@ -1,5 +1,5 @@
-#ifndef __GEOMETRY__TYPES_H_
+#ifndef _GEOMETRY_BASIS_H_
-#define __GEOMETRY__TYPES_H_
+#define _GEOMETRY_BASIS_H_
 #define FP32_EPSYLON_EFFECTIVENESS_LIMIT 10.0f
@ -27,7 +27,7 @@
 #define FP64_GOLDEN_RATIO_HIGH 1.61803398874989485
 #define FP64_GOLDEN_RATIO_LOW 0.61803398874989485
-static inline int fp32_are_equal(const float value1, const float value2)
+inline int fp32_are_equal(const float value1, const float value2)
 {
    if (-FP32_EPSYLON_EFFECTIVENESS_LIMIT < value1 && value1 < FP32_EPSYLON_EFFECTIVENESS_LIMIT) {
        return -FP32_EPSYLON <= (value1 - value2) && (value1 - value2) <= FP32_EPSYLON;
@ -40,7 +40,7 @@ static inline int fp32_are_equal(const float value1, const float value2)
    return value2 <= value1 * (1.0f + FP32_EPSYLON) && value1 <= value2 * (1.0f + FP32_EPSYLON);
 }
-static inline int fp64_are_equal(const double value1, const double value2)
+inline int fp64_are_equal(const double value1, const double value2)
 {
    if (-FP64_EPSYLON_EFFECTIVENESS_LIMIT < value1 && value1 < FP64_EPSYLON_EFFECTIVENESS_LIMIT) {
        return -FP64_EPSYLON <= (value1 - value2) && (value1 - value2) <= FP64_EPSYLON;
--- a/basic-geometry/matrix2x2.h
+++ b/basic-geometry/matrix2x2.h
@ -7,7 +7,7 @@
 // =================== Reset ==================== //
-static inline void fp32_matrix2x2_reset(fp32_matrix2x2_t* matrix)
+inline void matrix2x2_reset_fp32(matrix2x2_fp32_t* matrix)
 {
    matrix->r1c1 = 0.0f;
    matrix->r1c2 = 0.0f;
@ -15,7 +15,7 @@ static inline void fp32_matrix2x2_reset(fp32_matrix2x2_t* matrix)
    matrix->r2c2 = 0.0f;
 }
-static inline void fp64_matrix2x2_reset(fp64_matrix2x2_t* matrix)
+inline void matrix2x2_reset_fp64(matrix2x2_fp64_t* matrix)
 {
    matrix->r1c1 = 0.0;
    matrix->r1c2 = 0.0;
@ -25,7 +25,7 @@ static inline void fp64_matrix2x2_reset(fp64_matrix2x2_t* matrix)
 // ================== Identity ================== //
-static inline void fp32_matrix2x2_set_to_identity(fp32_matrix2x2_t* matrix)
+inline void matrix2x2_fp32_set_to_identity(matrix2x2_fp32_t* matrix)
 {
    matrix->r1c1 = 1.0f;
    matrix->r1c2 = 0.0f;
@ -33,7 +33,7 @@ static inline void fp32_matrix2x2_set_to_identity(fp32_matrix2x2_t* matrix)
    matrix->r2c2 = 1.0f;
 }
-static inline void fp64_matrix2x2_set_to_identity(fp64_matrix2x2_t* matrix)
+inline void matrix2x2_fp64_set_to_identity(matrix2x2_fp64_t* matrix)
 {
    matrix->r1c1 = 1.0;
    matrix->r1c2 = 0.0;
@ -43,7 +43,7 @@ static inline void fp64_matrix2x2_set_to_identity(fp64_matrix2x2_t* matrix)
 // ================ Make Diagonal =============== //
-static inline void fp32_matrix2x2_set_to_diagonal(const float d1, const float d2, fp32_matrix2x2_t* matrix)
+inline void matrix2x2_fp32_set_to_diagonal(const float d1, const float d2, matrix2x2_fp32_t* matrix)
 {
    matrix->r1c1 = d1;
    matrix->r1c2 = 0.0f;
@ -51,7 +51,7 @@ static inline void fp32_matrix2x2_set_to_diagonal(const float d1, const float d2
    matrix->r2c2 = d2;
 }
-static inline void fp64_matrix2x2_set_to_diagonal(const double d1, const double d2, fp64_matrix2x2_t* matrix)
+inline void matrix2x2_fp64_set_to_diagonal(const double d1, const double d2, matrix2x2_fp64_t* matrix)
 {
    matrix->r1c1 = d1;
    matrix->r1c2 = 0.0;
@ -61,7 +61,7 @@ static inline void fp64_matrix2x2_set_to_diagonal(const double d1, const double
 // ============== Rotation Matrix =============== //
-static inline void fp32_matrix2x2_make_turn(const float angle, const angle_unit_t unit, fp32_matrix2x2_t* matrix)
+inline void matrix2x2_fp32_make_turn(const float angle, const angle_unit_t unit, matrix2x2_fp32_t* matrix)
 {
    const float radians = fp32_angle_to_radians(angle, unit);
    const float cosine = cosf(radians);
@ -73,7 +73,7 @@ static inline void fp32_matrix2x2_make_turn(const float angle, const angle_unit_
    matrix->r2c2 = cosine;
 }
-static inline void fp64_matrix2x2_make_turn(const double angle, const angle_unit_t unit, fp64_matrix2x2_t* matrix)
+inline void matrix2x2_fp64_make_turn(const double angle, const angle_unit_t unit, matrix2x2_fp64_t* matrix)
 {
    const double radians = fp64_angle_to_radians(angle, unit);
    const double cosine = cos(radians);
@ -87,7 +87,7 @@ static inline void fp64_matrix2x2_make_turn(const double angle, const angle_unit
 // ==================== Copy ==================== //
-static inline void fp32_matrix2x2_copy(const fp32_matrix2x2_t* from, fp32_matrix2x2_t* to)
+inline void matrix2x2_copy_fp32(const matrix2x2_fp32_t* from, matrix2x2_fp32_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r1c2;
@ -96,7 +96,7 @@ static inline void fp32_matrix2x2_copy(const fp32_matrix2x2_t* from, fp32_matrix
    to->r2c2 = from->r2c2;
 }
-static inline void fp64_matrix2x2_copy(const fp64_matrix2x2_t* from, fp64_matrix2x2_t* to)
+inline void matrix2x2_copy_fp64(const matrix2x2_fp64_t* from, matrix2x2_fp64_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r1c2;
@ -107,7 +107,7 @@ static inline void fp64_matrix2x2_copy(const fp64_matrix2x2_t* from, fp64_matrix
 // ==================== Swap ==================== //
-static inline void fp32_matrix2x2_swap(fp32_matrix2x2_t* matrix1, fp32_matrix2x2_t* matrix2)
+inline void matrix2x2_swap_fp32(matrix2x2_fp32_t* matrix1, matrix2x2_fp32_t* matrix2)
 {
    const float r1c1 = matrix2->r1c1;
    const float r1c2 = matrix2->r1c2;
@ -128,7 +128,7 @@ static inline void fp32_matrix2x2_swap(fp32_matrix2x2_t* matrix1, fp32_matrix2x2
    matrix1->r2c2 = r2c2;
 }
-static inline void fp64_matrix2x2_swap(fp64_matrix2x2_t* matrix1, fp64_matrix2x2_t* matrix2)
+inline void matrix2x2_swap_fp64(matrix2x2_fp64_t* matrix1, matrix2x2_fp64_t* matrix2)
 {
    const double r1c1 = matrix2->r1c1;
    const double r1c2 = matrix2->r1c2;
@ -151,7 +151,7 @@ static inline void fp64_matrix2x2_swap(fp64_matrix2x2_t* matrix1, fp64_matrix2x2
 // ============= Copy to twin type ============== //
-static inline void fp32_matrix2x2_set_from_fp64(const fp64_matrix2x2_t* from, fp32_matrix2x2_t* to)
+inline void matrix2x2_fp32_set_from_fp64(const matrix2x2_fp64_t* from, matrix2x2_fp32_t* to)
 {
    to->r1c1 = (float)from->r1c1;
    to->r1c2 = (float)from->r1c2;
@ -160,7 +160,7 @@ static inline void fp32_matrix2x2_set_from_fp64(const fp64_matrix2x2_t* from, fp
    to->r2c2 = (float)from->r2c2;
 }
-static inline void fp64_matrix2x2_set_from_fp32(const fp32_matrix2x2_t* from, fp64_matrix2x2_t* to)
+inline void matrix2x2_fp64_set_from_fp32(const matrix2x2_fp32_t* from, matrix2x2_fp64_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r1c2;
@ -171,42 +171,42 @@ static inline void fp64_matrix2x2_set_from_fp32(const fp32_matrix2x2_t* from, fp
 // ================ Determinant ================= //
-static inline float fp32_matrix2x2_get_determinant(const fp32_matrix2x2_t* matrix)
+inline float matrix2x2_fp32_get_determinant(const matrix2x2_fp32_t* matrix)
 {
    return matrix->r1c1 * matrix->r2c2 - matrix->r1c2 * matrix->r2c1;
 }
-static inline double fp64_matrix2x2_get_determinant(const fp64_matrix2x2_t* matrix)
+inline double matrix2x2_fp64_get_determinant(const matrix2x2_fp64_t* matrix)
 {
    return matrix->r1c1 * matrix->r2c2 - matrix->r1c2 * matrix->r2c1;
 }
 // ================== Singular ================== //
-static inline int fp32_matrix2x2_is_singular(const fp32_matrix2x2_t* matrix)
+inline int matrix2x2_fp32_is_singular(const matrix2x2_fp32_t* matrix)
 {
-    const float determinant = fp32_matrix2x2_get_determinant(matrix);
+    const float determinant = matrix2x2_fp32_get_determinant(matrix);
    return -FP32_EPSYLON <= determinant && determinant <= FP32_EPSYLON;
 }
-static inline int fp64_matrix2x2_is_singular(const fp64_matrix2x2_t* matrix)
+inline int matrix2x2_fp64_is_singular(const matrix2x2_fp64_t* matrix)
 {
-    const double determinant = fp64_matrix2x2_get_determinant(matrix);
+    const double determinant = matrix2x2_fp64_get_determinant(matrix);
    return -FP64_EPSYLON <= determinant && determinant <= FP64_EPSYLON;
 }
 // =============== Transposition ================ //
-static inline void fp32_matrix2x2_transpose(fp32_matrix2x2_t* matrix)
+inline void matrix2x2_fp32_transpose(matrix2x2_fp32_t* matrix)
 {
    const float tmp = matrix->r1c2;
    matrix->r1c2 = matrix->r2c1;
    matrix->r2c1 = tmp;
 }
-static inline void fp64_matrix2x2_transpose(fp64_matrix2x2_t* matrix)
+inline void matrix2x2_fp64_transpose(matrix2x2_fp64_t* matrix)
 {
    const double tmp = matrix->r1c2;
    matrix->r1c2 = matrix->r2c1;
@ -215,9 +215,9 @@ static inline void fp64_matrix2x2_transpose(fp64_matrix2x2_t* matrix)
 // ================= Inversion ================== //
-static inline int fp32_matrix2x2_invert(fp32_matrix2x2_t* matrix)
+inline int matrix2x2_invert_fp32(matrix2x2_fp32_t* matrix)
 {
-    const float determinant = fp32_matrix2x2_get_determinant(matrix);
+    const float determinant = matrix2x2_fp32_get_determinant(matrix);
    if (-FP32_EPSYLON <= determinant && determinant <= FP32_EPSYLON) {
        return 0;
@ -240,9 +240,9 @@ static inline int fp32_matrix2x2_invert(fp32_matrix2x2_t* matrix)
    return 1;
 }
-static inline int fp64_matrix2x2_invert(fp64_matrix2x2_t* matrix)
+inline int matrix2x2_invert_fp64(matrix2x2_fp64_t* matrix)
 {
-    const double determinant = fp64_matrix2x2_get_determinant(matrix);
+    const double determinant = matrix2x2_fp64_get_determinant(matrix);
    if (-FP64_EPSYLON <= determinant && determinant <= FP64_EPSYLON) {
        return 0;
@ -267,7 +267,7 @@ static inline int fp64_matrix2x2_invert(fp64_matrix2x2_t* matrix)
 // =============== Set Transposed =============== //
-static inline void fp32_matrix2x2_set_transposed(const fp32_matrix2x2_t* from, fp32_matrix2x2_t* to)
+inline void matrix2x2_fp32_set_transposed(const matrix2x2_fp32_t* from, matrix2x2_fp32_t* to)
 {
    float tmp = from->r1c2;
@ -278,7 +278,7 @@ static inline void fp32_matrix2x2_set_transposed(const fp32_matrix2x2_t* from, f
    to->r2c2 = from->r2c2;
 }
-static inline void fp64_matrix2x2_set_transposed(const fp64_matrix2x2_t* from, fp64_matrix2x2_t* to)
+inline void matrix2x2_fp64_set_transposed(const matrix2x2_fp64_t* from, matrix2x2_fp64_t* to)
 {
    double tmp = from->r1c2;
@ -291,9 +291,9 @@ static inline void fp64_matrix2x2_set_transposed(const fp64_matrix2x2_t* from, f
 // ================ Set Inverted ================ //
-static inline int fp32_matrix2x2_set_inverted(const fp32_matrix2x2_t* from, fp32_matrix2x2_t* to)
+inline int matrix2x2_fp32_set_inverted(const matrix2x2_fp32_t* from, matrix2x2_fp32_t* to)
 {
-    const float determinant = fp32_matrix2x2_get_determinant(from);
+    const float determinant = matrix2x2_fp32_get_determinant(from);
    if (-FP32_EPSYLON <= determinant && determinant <= FP32_EPSYLON) {
        return 0;
@ -316,9 +316,9 @@ static inline int fp32_matrix2x2_set_inverted(const fp32_matrix2x2_t* from, fp32
    return 1;
 }
-static inline int fp64_matrix2x2_set_inverted(const fp64_matrix2x2_t* from, fp64_matrix2x2_t* to)
+inline int matrix2x2_fp64_set_inverted(const matrix2x2_fp64_t* from, matrix2x2_fp64_t* to)
 {
-    const double determinant = fp64_matrix2x2_get_determinant(from);
+    const double determinant = matrix2x2_fp64_get_determinant(from);
    if (-FP64_EPSYLON <= determinant && determinant <= FP64_EPSYLON) {
        return 0;
@ -343,13 +343,13 @@ static inline int fp64_matrix2x2_set_inverted(const fp64_matrix2x2_t* from, fp64
 // ================= Set Row 1 ================== //
-static inline void fp32_matrix2x2_set_row1(const float c1, const float c2, fp32_matrix2x2_t* matrix)
+inline void matrix2x2_fp32_set_row1(const float c1, const float c2, matrix2x2_fp32_t* matrix)
 {
    matrix->r1c1 = c1;
    matrix->r1c2 = c2;
 }
-static inline void fp64_matrix2x2_set_row1(const double c1, const double c2, fp64_matrix2x2_t* matrix)
+inline void matrix2x2_fp64_set_row1(const double c1, const double c2, matrix2x2_fp64_t* matrix)
 {
    matrix->r1c1 = c1;
    matrix->r1c2 = c2;
@ -357,13 +357,13 @@ static inline void fp64_matrix2x2_set_row1(const double c1, const double c2, fp6
 // ================= Set Row 2 ================== //
-static inline void fp32_matrix2x2_set_row2(const float c1, const float c2, fp32_matrix2x2_t* matrix)
+inline void matrix2x2_fp32_set_row2(const float c1, const float c2, matrix2x2_fp32_t* matrix)
 {
    matrix->r2c1 = c1;
    matrix->r2c2 = c2;
 }
-static inline void fp64_matrix2x2_set_row2(const double c1, const double c2, fp64_matrix2x2_t* matrix)
+inline void matrix2x2_fp64_set_row2(const double c1, const double c2, matrix2x2_fp64_t* matrix)
 {
    matrix->r2c1 = c1;
    matrix->r2c2 = c2;
@ -371,13 +371,13 @@ static inline void fp64_matrix2x2_set_row2(const double c1, const double c2, fp6
 // ================ Set Column 1 ================ //
-static inline void fp32_matrix2x2_set_column1(const float r1, const float r2, fp32_matrix2x2_t* matrix)
+inline void matrix2x2_fp32_set_column1(const float r1, const float r2, matrix2x2_fp32_t* matrix)
 {
    matrix->r1c1 = r1;
    matrix->r2c1 = r2;
 }
-static inline void fp64_matrix2x2_set_column1(const double r1, const double r2, fp64_matrix2x2_t* matrix)
+inline void matrix2x2_fp64_set_column1(const double r1, const double r2, matrix2x2_fp64_t* matrix)
 {
    matrix->r1c1 = r1;
    matrix->r2c1 = r2;
@ -385,13 +385,13 @@ static inline void fp64_matrix2x2_set_column1(const double r1, const double r2,
 // ================ Set Column 2 ================ //
-static inline void fp32_matrix2x2_set_column2(const float r1, const float r2, fp32_matrix2x2_t* matrix)
+inline void matrix2x2_fp32_set_column2(const float r1, const float r2, matrix2x2_fp32_t* matrix)
 {
    matrix->r1c2 = r1;
    matrix->r2c2 = r2;
 }
-static inline void fp64_matrix2x2_set_column2(const double r1, const double r2, fp64_matrix2x2_t* matrix)
+inline void matrix2x2_fp64_set_column2(const double r1, const double r2, matrix2x2_fp64_t* matrix)
 {
    matrix->r1c2 = r1;
    matrix->r2c2 = r2;
@ -399,7 +399,7 @@ static inline void fp64_matrix2x2_set_column2(const double r1, const double r2,
 // ================ Append scaled =============== //
-static inline void fp32_matrix2x2_append_scaled(fp32_matrix2x2_t* basic_vector, const fp32_matrix2x2_t* scalable_vector, const float scale)
+inline void matrix2x2_fp32_append_scaled(matrix2x2_fp32_t* basic_vector, const matrix2x2_fp32_t* scalable_vector, const float scale)
 {
    basic_vector->r1c1 += scalable_vector->r1c1 * scale;
    basic_vector->r1c2 += scalable_vector->r1c2 * scale;
@ -408,7 +408,7 @@ static inline void fp32_matrix2x2_append_scaled(fp32_matrix2x2_t* basic_vector,
    basic_vector->r2c2 += scalable_vector->r2c2 * scale;
 }
-static inline void fp64_matrix2x2_append_scaled(fp64_matrix2x2_t* basic_vector, const fp64_matrix2x2_t* scalable_vector, const double scale)
+inline void matrix2x2_fp64_append_scaled(matrix2x2_fp64_t* basic_vector, const matrix2x2_fp64_t* scalable_vector, const double scale)
 {
    basic_vector->r1c1 += scalable_vector->r1c1 * scale;
    basic_vector->r1c2 += scalable_vector->r1c2 * scale;
@ -419,7 +419,7 @@ static inline void fp64_matrix2x2_append_scaled(fp64_matrix2x2_t* basic_vector,
 // ================== Addition ================== //
-static inline void fp32_matrix2x2_add(const fp32_matrix2x2_t* matrix1, const fp32_matrix2x2_t* matrix2, fp32_matrix2x2_t* sum)
+inline void matrix2x2_fp32_add(const matrix2x2_fp32_t* matrix1, const matrix2x2_fp32_t* matrix2, matrix2x2_fp32_t* sum)
 {
    sum->r1c1 = matrix1->r1c1 + matrix2->r1c1;
    sum->r1c2 = matrix1->r1c2 + matrix2->r1c2;
@ -428,7 +428,7 @@ static inline void fp32_matrix2x2_add(const fp32_matrix2x2_t* matrix1, const fp3
    sum->r2c2 = matrix1->r2c2 + matrix2->r2c2;
 }
-static inline void fp64_matrix2x2_add(const fp64_matrix2x2_t* matrix1, const fp64_matrix2x2_t* matrix2, fp64_matrix2x2_t* sum)
+inline void matrix2x2_fp64_add(const matrix2x2_fp64_t* matrix1, const matrix2x2_fp64_t* matrix2, matrix2x2_fp64_t* sum)
 {
    sum->r1c1 = matrix1->r1c1 + matrix2->r1c1;
    sum->r1c2 = matrix1->r1c2 + matrix2->r1c2;
@ -439,7 +439,7 @@ static inline void fp64_matrix2x2_add(const fp64_matrix2x2_t* matrix1, const fp6
 // ================ Subtraction ================= //
-static inline void fp32_matrix2x2_subtract(const fp32_matrix2x2_t* minuend, const fp32_matrix2x2_t* subtrahend, fp32_matrix2x2_t* difference)
+inline void matrix2x2_fp32_subtract(const matrix2x2_fp32_t* minuend, const matrix2x2_fp32_t* subtrahend, matrix2x2_fp32_t* difference)
 {
    difference->r1c1 = minuend->r1c1 - subtrahend->r1c1;
    difference->r1c2 = minuend->r1c2 - subtrahend->r1c2;
@ -448,7 +448,7 @@ static inline void fp32_matrix2x2_subtract(const fp32_matrix2x2_t* minuend, cons
    difference->r2c2 = minuend->r2c2 - subtrahend->r2c2;
 }
-static inline void fp64_matrix2x2_subtract(const fp64_matrix2x2_t* minuend, const fp64_matrix2x2_t* subtrahend, fp64_matrix2x2_t* difference)
+inline void matrix2x2_fp64_subtract(const matrix2x2_fp64_t* minuend, const matrix2x2_fp64_t* subtrahend, matrix2x2_fp64_t* difference)
 {
    difference->r1c1 = minuend->r1c1 - subtrahend->r1c1;
    difference->r1c2 = minuend->r1c2 - subtrahend->r1c2;
@ -459,7 +459,7 @@ static inline void fp64_matrix2x2_subtract(const fp64_matrix2x2_t* minuend, cons
 // =============== Multiplication =============== //
-static inline void fp32_matrix2x2_multiply(const fp32_matrix2x2_t* multiplicand, const float multiplier, fp32_matrix2x2_t* product)
+inline void matrix2x2_fp32_multiply(const matrix2x2_fp32_t* multiplicand, const float multiplier, matrix2x2_fp32_t* product)
 {
    product->r1c1 = multiplicand->r1c1 * multiplier;
    product->r1c2 = multiplicand->r1c2 * multiplier;
@ -468,7 +468,7 @@ static inline void fp32_matrix2x2_multiply(const fp32_matrix2x2_t* multiplicand,
    product->r2c2 = multiplicand->r2c2 * multiplier;
 }
-static inline void fp64_matrix2x2_multiply(const fp64_matrix2x2_t* multiplicand, const double multiplier, fp64_matrix2x2_t* product)
+inline void matrix2x2_fp64_multiply(const matrix2x2_fp64_t* multiplicand, const double multiplier, matrix2x2_fp64_t* product)
 {
    product->r1c1 = multiplicand->r1c1 * multiplier;
    product->r1c2 = multiplicand->r1c2 * multiplier;
@ -479,19 +479,19 @@ static inline void fp64_matrix2x2_multiply(const fp64_matrix2x2_t* multiplicand,
 // ================== Division ================== //
-static inline void fp32_matrix2x2_divide(const fp32_matrix2x2_t* dividend, const float divisor, fp32_matrix2x2_t* quotient)
+inline void matrix2x2_fp32_divide(const matrix2x2_fp32_t* dividend, const float divisor, matrix2x2_fp32_t* quotient)
 {
-    fp32_matrix2x2_multiply(dividend, 1.0f / divisor, quotient);
+    matrix2x2_fp32_multiply(dividend, 1.0f / divisor, quotient);
 }
-static inline void fp64_matrix2x2_divide(const fp64_matrix2x2_t* dividend, const double divisor, fp64_matrix2x2_t* quotient)
+inline void matrix2x2_fp64_divide(const matrix2x2_fp64_t* dividend, const double divisor, matrix2x2_fp64_t* quotient)
 {
-    fp64_matrix2x2_multiply(dividend, 1.0 / divisor, quotient);
+    matrix2x2_fp64_multiply(dividend, 1.0 / divisor, quotient);
 }
 // ============ Left Vector Product ============= //
-static inline void fp32_matrix2x2_left_product(const fp32_vector2_t* vector, const fp32_matrix2x2_t* matrix, fp32_vector2_t* result)
+inline void matrix2x2_fp32_left_product(const vector2_fp32_t* vector, const matrix2x2_fp32_t* matrix, vector2_fp32_t* result)
 {
    const float x1 = vector->x1 * matrix->r1c1 + vector->x2 * matrix->r2c1;
    const float x2 = vector->x1 * matrix->r1c2 + vector->x2 * matrix->r2c2;
@ -500,7 +500,7 @@ static inline void fp32_matrix2x2_left_product(const fp32_vector2_t* vector, con
    result->x2 = x2;
 }
-static inline void fp64_matrix2x2_left_product(const fp64_vector2_t* vector, const fp64_matrix2x2_t* matrix, fp64_vector2_t* result)
+inline void matrix2x2_fp64_left_product(const vector2_fp64_t* vector, const matrix2x2_fp64_t* matrix, vector2_fp64_t* result)
 {
    const double x1 = vector->x1 * matrix->r1c1 + vector->x2 * matrix->r2c1;
    const double x2 = vector->x1 * matrix->r1c2 + vector->x2 * matrix->r2c2;
@ -511,7 +511,7 @@ static inline void fp64_matrix2x2_left_product(const fp64_vector2_t* vector, con
 // ============ Right Vector Product ============ //
-static inline void fp32_matrix2x2_right_product(const fp32_matrix2x2_t* matrix, const fp32_vector2_t* vector, fp32_vector2_t* result)
+inline void matrix2x2_fp32_right_product(const matrix2x2_fp32_t* matrix, const vector2_fp32_t* vector, vector2_fp32_t* result)
 {
    const float x1 = matrix->r1c1 * vector->x1 + matrix->r1c2 * vector->x2;
    const float x2 = matrix->r2c1 * vector->x1 + matrix->r2c2 * vector->x2;
@ -520,7 +520,7 @@ static inline void fp32_matrix2x2_right_product(const fp32_matrix2x2_t* matrix,
    result->x2 = x2;
 }
-static inline void fp64_matrix2x2_right_product(const fp64_matrix2x2_t* matrix, const fp64_vector2_t* vector, fp64_vector2_t* result)
+inline void matrix2x2_fp64_right_product(const matrix2x2_fp64_t* matrix, const vector2_fp64_t* vector, vector2_fp64_t* result)
 {
    const double x1 = matrix->r1c1 * vector->x1 + matrix->r1c2 * vector->x2;
    const double x2 = matrix->r2c1 * vector->x1 + matrix->r2c2 * vector->x2;
--- a/basic-geometry/matrix2x3.h
+++ b/basic-geometry/matrix2x3.h
@ -7,7 +7,7 @@
 // =================== Reset ==================== //
-static inline void fp32_matrix2x3_reset(fp32_matrix2x3_t* matrix)
+inline void matrix2x3_reset_fp32(matrix2x3_fp32_t* matrix)
 {
    matrix->r1c1 = 0.0f;
    matrix->r1c2 = 0.0f;
@ -19,7 +19,7 @@ static inline void fp32_matrix2x3_reset(fp32_matrix2x3_t* matrix)
    matrix->r3c2 = 0.0f;
 }
-static inline void fp64_matrix2x3_reset(fp64_matrix2x3_t* matrix)
+inline void matrix2x3_reset_fp64(matrix2x3_fp64_t* matrix)
 {
    matrix->r1c1 = 0.0;
    matrix->r1c2 = 0.0;
@ -33,7 +33,7 @@ static inline void fp64_matrix2x3_reset(fp64_matrix2x3_t* matrix)
 // ==================== Copy ==================== //
-static inline void fp32_matrix2x3_copy(const fp32_matrix2x3_t* from, fp32_matrix2x3_t* to)
+inline void matrix2x3_copy_fp32(const matrix2x3_fp32_t* from, matrix2x3_fp32_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r1c2;
@ -45,7 +45,7 @@ static inline void fp32_matrix2x3_copy(const fp32_matrix2x3_t* from, fp32_matrix
    to->r3c2 = from->r3c2;
 }
-static inline void fp64_matrix2x3_copy(const fp64_matrix2x3_t* from, fp64_matrix2x3_t* to)
+inline void matrix2x3_copy_fp64(const matrix2x3_fp64_t* from, matrix2x3_fp64_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r1c2;
@ -59,7 +59,7 @@ static inline void fp64_matrix2x3_copy(const fp64_matrix2x3_t* from, fp64_matrix
 // ==================== Swap ==================== //
-static inline void fp32_matrix2x3_swap(fp32_matrix2x3_t* matrix1, fp32_matrix2x3_t* matrix2)
+inline void matrix2x3_swap_fp32(matrix2x3_fp32_t* matrix1, matrix2x3_fp32_t* matrix2)
 {
    const float r1c1 = matrix2->r1c1;
    const float r1c2 = matrix2->r1c2;
@ -89,7 +89,7 @@ static inline void fp32_matrix2x3_swap(fp32_matrix2x3_t* matrix1, fp32_matrix2x3
    matrix1->r3c2 = r3c2;
 }
-static inline void fp64_matrix2x3_swap(fp64_matrix2x3_t* matrix1, fp64_matrix2x3_t* matrix2)
+inline void matrix2x3_swap_fp64(matrix2x3_fp64_t* matrix1, matrix2x3_fp64_t* matrix2)
 {
    const double r1c1 = matrix2->r1c1;
    const double r1c2 = matrix2->r1c2;
@ -121,7 +121,7 @@ static inline void fp64_matrix2x3_swap(fp64_matrix2x3_t* matrix1, fp64_matrix2x3
 // ============= Copy to twin type ============== //
-static inline void fp32_matrix2x3_set_from_fp64(const fp64_matrix2x3_t* from, fp32_matrix2x3_t* to)
+inline void matrix2x3_fp32_set_from_fp64(const matrix2x3_fp64_t* from, matrix2x3_fp32_t* to)
 {
    to->r1c1 = (float) from->r1c1;
    to->r1c2 = (float) from->r1c2;
@ -133,7 +133,7 @@ static inline void fp32_matrix2x3_set_from_fp64(const fp64_matrix2x3_t* from, fp
    to->r3c2 = (float) from->r3c2;
 }
-static inline void fp64_matrix2x3_set_from_fp32(const fp32_matrix2x3_t* from, fp64_matrix2x3_t* to)
+inline void matrix2x3_fp64_set_from_fp32(const matrix2x3_fp32_t* from, matrix2x3_fp64_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r1c2;
@ -147,7 +147,7 @@ static inline void fp64_matrix2x3_set_from_fp32(const fp32_matrix2x3_t* from, fp
 // =============== Set transposed =============== //
-static inline void fp32_matrix2x3_set_transposed(const fp32_matrix3x2_t* from, fp32_matrix2x3_t* to)
+inline void matrix2x3_fp32_set_transposed(const matrix3x2_fp32_t* from, matrix2x3_fp32_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r2c1;
@ -159,7 +159,7 @@ static inline void fp32_matrix2x3_set_transposed(const fp32_matrix3x2_t* from, f
    to->r3c2 = from->r2c3;
 }
-static inline void fp64_matrix2x3_set_transposed(const fp64_matrix3x2_t* from, fp64_matrix2x3_t* to)
+inline void matrix2x3_fp64_set_transposed(const matrix3x2_fp64_t* from, matrix2x3_fp64_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r2c1;
@ -173,7 +173,7 @@ static inline void fp64_matrix2x3_set_transposed(const fp64_matrix3x2_t* from, f
 // =============== Set transposed =============== //
-static inline void fp32_matrix2x3_set_transposed_fp64(const fp64_matrix3x2_t* from, fp32_matrix2x3_t* to)
+inline void matrix2x3_fp32_set_transposed_fp64(const matrix3x2_fp64_t* from, matrix2x3_fp32_t* to)
 {
    to->r1c1 = (float) from->r1c1;
    to->r1c2 = (float) from->r2c1;
@ -185,7 +185,7 @@ static inline void fp32_matrix2x3_set_transposed_fp64(const fp64_matrix3x2_t* fr
    to->r3c2 = (float) from->r2c3;
 }
-static inline void fp64_matrix2x3_set_transposed_fp32(const fp32_matrix3x2_t* from, fp64_matrix2x3_t* to)
+inline void matrix2x3_fp64_set_transposed_fp32(const matrix3x2_fp32_t* from, matrix2x3_fp64_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r2c1;
@ -199,13 +199,13 @@ static inline void fp64_matrix2x3_set_transposed_fp32(const fp32_matrix3x2_t* fr
 // ================= Set Row 1 ================== //
-static inline void fp32_matrix2x3_set_row1(const float c1, const float c2, fp32_matrix2x3_t* matrix)
+inline void matrix2x3_fp32_set_row1(const float c1, const float c2, matrix2x3_fp32_t* matrix)
 {
    matrix->r1c1 = c1;
    matrix->r1c2 = c2;
 }
-static inline void fp64_matrix2x3_set_row1(const double c1, const double c2, fp64_matrix2x3_t* matrix)
+inline void matrix2x3_fp64_set_row1(const double c1, const double c2, matrix2x3_fp64_t* matrix)
 {
    matrix->r1c1 = c1;
    matrix->r1c2 = c2;
@ -213,13 +213,13 @@ static inline void fp64_matrix2x3_set_row1(const double c1, const double c2, fp6
 // ================= Set Row 2 ================== //
-static inline void fp32_matrix2x3_set_row2(const float c1, const float c2, fp32_matrix2x3_t* matrix)
+inline void matrix2x3_fp32_set_row2(const float c1, const float c2, matrix2x3_fp32_t* matrix)
 {
    matrix->r2c1 = c1;
    matrix->r2c2 = c2;
 }
-static inline void fp64_matrix2x3_set_row2(const double c1, const double c2, fp64_matrix2x3_t* matrix)
+inline void matrix2x3_fp64_set_row2(const double c1, const double c2, matrix2x3_fp64_t* matrix)
 {
    matrix->r2c1 = c1;
    matrix->r2c2 = c2;
@ -227,13 +227,13 @@ static inline void fp64_matrix2x3_set_row2(const double c1, const double c2, fp6
 // ================= Set Row 3 ================== //
-static inline void fp32_matrix2x3_set_row3(const float c1, const float c2, fp32_matrix2x3_t* matrix)
+inline void matrix2x3_fp32_set_row3(const float c1, const float c2, matrix2x3_fp32_t* matrix)
 {
    matrix->r3c1 = c1;
    matrix->r3c2 = c2;
 }
-static inline void fp64_matrix2x3_set_row3(const double c1, const double c2, fp64_matrix2x3_t* matrix)
+inline void matrix2x3_fp64_set_row3(const double c1, const double c2, matrix2x3_fp64_t* matrix)
 {
    matrix->r3c1 = c1;
    matrix->r3c2 = c2;
@ -241,14 +241,14 @@ static inline void fp64_matrix2x3_set_row3(const double c1, const double c2, fp6
 // ================ Set Column 1 ================ //
-static inline void fp32_matrix2x3_set_column1(const float r1, const float r2, const float r3, fp32_matrix2x3_t* matrix)
+inline void matrix2x3_fp32_set_column1(const float r1, const float r2, const float r3, matrix2x3_fp32_t* matrix)
 {
    matrix->r1c1 = r1;
    matrix->r2c1 = r2;
    matrix->r3c1 = r3;
 }
-static inline void fp64_matrix2x3_set_column1(const double r1, const double r2, const double r3, fp64_matrix2x3_t* matrix)
+inline void matrix2x3_fp64_set_column1(const double r1, const double r2, const double r3, matrix2x3_fp64_t* matrix)
 {
    matrix->r1c1 = r1;
    matrix->r2c1 = r2;
@ -257,14 +257,14 @@ static inline void fp64_matrix2x3_set_column1(const double r1, const double r2,
 // ================ Set Column 2 ================ //
-static inline void fp32_matrix2x3_set_column2(const float r1, const float r2, const float r3, fp32_matrix2x3_t* matrix)
+inline void matrix2x3_fp32_set_column2(const float r1, const float r2, const float r3, matrix2x3_fp32_t* matrix)
 {
    matrix->r1c2 = r1;
    matrix->r2c2 = r2;
    matrix->r3c2 = r3;
 }
-static inline void fp64_matrix2x3_set_column2(const double r1, const double r2, const double r3, fp64_matrix2x3_t* matrix)
+inline void matrix2x3_fp64_set_column2(const double r1, const double r2, const double r3, matrix2x3_fp64_t* matrix)
 {
    matrix->r1c2 = r1;
    matrix->r2c2 = r2;
@ -273,7 +273,7 @@ static inline void fp64_matrix2x3_set_column2(const double r1, const double r2,
 // ================ Append scaled =============== //
-static inline void fp32_matrix2x3_append_scaled(fp32_matrix2x3_t* basic_vector, const fp32_matrix2x3_t* scalable_vector, const float scale)
+inline void matrix2x3_fp32_append_scaled(matrix2x3_fp32_t* basic_vector, const matrix2x3_fp32_t* scalable_vector, const float scale)
 {
    basic_vector->r1c1 += scalable_vector->r1c1 * scale;
    basic_vector->r1c2 += scalable_vector->r1c2 * scale;
@ -285,7 +285,7 @@ static inline void fp32_matrix2x3_append_scaled(fp32_matrix2x3_t* basic_vector,
    basic_vector->r3c2 += scalable_vector->r3c2 * scale;
 }
-static inline void fp64_matrix2x3_append_scaled(fp64_matrix2x3_t* basic_vector, const fp64_matrix2x3_t* scalable_vector, const double scale)
+inline void matrix2x3_fp64_append_scaled(matrix2x3_fp64_t* basic_vector, const matrix2x3_fp64_t* scalable_vector, const double scale)
 {
    basic_vector->r1c1 += scalable_vector->r1c1 * scale;
    basic_vector->r1c2 += scalable_vector->r1c2 * scale;
@ -299,7 +299,7 @@ static inline void fp64_matrix2x3_append_scaled(fp64_matrix2x3_t* basic_vector,
 // ================== Addition ================== //
-static inline void fp32_matrix2x3_add(const fp32_matrix2x3_t* matrix1, const fp32_matrix2x3_t* matrix2, fp32_matrix2x3_t* sum)
+inline void matrix2x3_fp32_add(const matrix2x3_fp32_t* matrix1, const matrix2x3_fp32_t* matrix2, matrix2x3_fp32_t* sum)
 {
    sum->r1c1 = matrix1->r1c1 + matrix2->r1c1;
    sum->r1c2 = matrix1->r1c2 + matrix2->r1c2;
@ -311,7 +311,7 @@ static inline void fp32_matrix2x3_add(const fp32_matrix2x3_t* matrix1, const fp3
    sum->r3c2 = matrix1->r3c2 + matrix2->r3c2;
 }
-static inline void fp64_matrix2x3_add(const fp64_matrix2x3_t* matrix1, const fp64_matrix2x3_t* matrix2, fp64_matrix2x3_t* sum)
+inline void matrix2x3_fp64_add(const matrix2x3_fp64_t* matrix1, const matrix2x3_fp64_t* matrix2, matrix2x3_fp64_t* sum)
 {
    sum->r1c1 = matrix1->r1c1 + matrix2->r1c1;
    sum->r1c2 = matrix1->r1c2 + matrix2->r1c2;
@ -325,7 +325,7 @@ static inline void fp64_matrix2x3_add(const fp64_matrix2x3_t* matrix1, const fp6
 // ================ Subtraction ================= //
-static inline void fp32_matrix2x3_subtract(const fp32_matrix2x3_t* minuend, const fp32_matrix2x3_t* subtrahend, fp32_matrix2x3_t* difference)
+inline void matrix2x3_fp32_subtract(const matrix2x3_fp32_t* minuend, const matrix2x3_fp32_t* subtrahend, matrix2x3_fp32_t* difference)
 {
    difference->r1c1 = minuend->r1c1 - subtrahend->r1c1;
    difference->r1c2 = minuend->r1c2 - subtrahend->r1c2;
@ -337,7 +337,7 @@ static inline void fp32_matrix2x3_subtract(const fp32_matrix2x3_t* minuend, cons
    difference->r3c2 = minuend->r3c2 - subtrahend->r3c2;
 }
-static inline void fp64_matrix2x3_subtract(const fp64_matrix2x3_t* minuend, const fp64_matrix2x3_t* subtrahend, fp64_matrix2x3_t* difference)
+inline void matrix2x3_fp64_subtract(const matrix2x3_fp64_t* minuend, const matrix2x3_fp64_t* subtrahend, matrix2x3_fp64_t* difference)
 {
    difference->r1c1 = minuend->r1c1 - subtrahend->r1c1;
    difference->r1c2 = minuend->r1c2 - subtrahend->r1c2;
@ -351,7 +351,7 @@ static inline void fp64_matrix2x3_subtract(const fp64_matrix2x3_t* minuend, cons
 // =============== Multiplication =============== //
-static inline void fp32_matrix2x3_multiply(const fp32_matrix2x3_t* multiplicand, const float multiplier, fp32_matrix2x3_t* product)
+inline void matrix2x3_fp32_multiply(const matrix2x3_fp32_t* multiplicand, const float multiplier, matrix2x3_fp32_t* product)
 {
    product->r1c1 = multiplicand->r1c1 * multiplier;
    product->r1c2 = multiplicand->r1c2 * multiplier;
@ -363,7 +363,7 @@ static inline void fp32_matrix2x3_multiply(const fp32_matrix2x3_t* multiplicand,
    product->r3c2 = multiplicand->r3c2 * multiplier;
 }
-static inline void fp64_matrix2x3_multiply(const fp64_matrix2x3_t* multiplicand, const double multiplier, fp64_matrix2x3_t* product)
+inline void matrix2x3_fp64_multiply(const matrix2x3_fp64_t* multiplicand, const double multiplier, matrix2x3_fp64_t* product)
 {
    product->r1c1 = multiplicand->r1c1 * multiplier;
    product->r1c2 = multiplicand->r1c2 * multiplier;
@ -377,25 +377,25 @@ static inline void fp64_matrix2x3_multiply(const fp64_matrix2x3_t* multiplicand,
 // ================== Division ================== //
-static inline void fp32_matrix2x3_divide(const fp32_matrix2x3_t* dividend, const float divisor, fp32_matrix2x3_t* quotient)
+inline void matrix2x3_fp32_divide(const matrix2x3_fp32_t* dividend, const float divisor, matrix2x3_fp32_t* quotient)
 {
-    fp32_matrix2x3_multiply(dividend, 1.0f / divisor, quotient);
+    matrix2x3_fp32_multiply(dividend, 1.0f / divisor, quotient);
 }
-static inline void fp64_matrix2x3_divide(const fp64_matrix2x3_t* dividend, const double divisor, fp64_matrix2x3_t* quotient)
+inline void matrix2x3_fp64_divide(const matrix2x3_fp64_t* dividend, const double divisor, matrix2x3_fp64_t* quotient)
 {
-    fp64_matrix2x3_multiply(dividend, 1.0 / divisor, quotient);
+    matrix2x3_fp64_multiply(dividend, 1.0 / divisor, quotient);
 }
 // ============ Left Vector Product ============= //
-static inline void fp32_matrix2x3_left_product(const fp32_vector3_t* vector, const fp32_matrix2x3_t* matrix, fp32_vector2_t* result)
+inline void matrix2x3_fp32_left_product(const vector3_fp32_t* vector, const matrix2x3_fp32_t* matrix, vector2_fp32_t* result)
 {
    result->x1 = vector->x1 * matrix->r1c1 + vector->x2 * matrix->r2c1 + vector->x3 * matrix->r3c1;
    result->x2 = vector->x1 * matrix->r1c2 + vector->x2 * matrix->r2c2 + vector->x3 * matrix->r3c2;
 }
-static inline void fp64_matrix2x3_left_product(const fp64_vector3_t* vector, const fp64_matrix2x3_t* matrix, fp64_vector2_t* result)
+inline void matrix2x3_fp64_left_product(const vector3_fp64_t* vector, const matrix2x3_fp64_t* matrix, vector2_fp64_t* result)
 {
    result->x1 = vector->x1 * matrix->r1c1 + vector->x2 * matrix->r2c1 + vector->x3 * matrix->r3c1;
    result->x2 = vector->x1 * matrix->r1c2 + vector->x2 * matrix->r2c2 + vector->x3 * matrix->r3c2;
@ -403,14 +403,14 @@ static inline void fp64_matrix2x3_left_product(const fp64_vector3_t* vector, con
 // ============ Right Vector Product ============ //
-static inline void fp32_matrix2x3_right_product(const fp32_matrix2x3_t* matrix, const fp32_vector2_t* vector, fp32_vector3_t* result)
+inline void matrix2x3_fp32_right_product(const matrix2x3_fp32_t* matrix, const vector2_fp32_t* vector, vector3_fp32_t* result)
 {
    result->x1 = matrix->r1c1 * vector->x1 + matrix->r1c2 * vector->x2;
    result->x2 = matrix->r2c1 * vector->x1 + matrix->r2c2 * vector->x2;
    result->x3 = matrix->r3c1 * vector->x1 + matrix->r3c2 * vector->x2;
 }
-static inline void fp64_matrix2x3_right_product(const fp64_matrix2x3_t* matrix, const fp64_vector2_t* vector, fp64_vector3_t* result)
+inline void matrix2x3_fp64_right_product(const matrix2x3_fp64_t* matrix, const vector2_fp64_t* vector, vector3_fp64_t* result)
 {
    result->x1 = matrix->r1c1 * vector->x1 + matrix->r1c2 * vector->x2;
    result->x2 = matrix->r2c1 * vector->x1 + matrix->r2c2 * vector->x2;
--- a/basic-geometry/matrix3x2.h
+++ b/basic-geometry/matrix3x2.h
@ -7,7 +7,7 @@
 // =================== Reset ==================== //
-static inline void fp32_matrix3x2_reset(fp32_matrix3x2_t* matrix)
+inline void matrix3x2_reset_fp32(matrix3x2_fp32_t* matrix)
 {
    matrix->r1c1 = 0.0f;
    matrix->r1c2 = 0.0f;
@ -18,7 +18,7 @@ static inline void fp32_matrix3x2_reset(fp32_matrix3x2_t* matrix)
    matrix->r2c3 = 0.0f;
 }
-static inline void fp64_matrix3x2_reset(fp64_matrix3x2_t* matrix)
+inline void matrix3x2_reset_fp64(matrix3x2_fp64_t* matrix)
 {
    matrix->r1c1 = 0.0;
    matrix->r1c2 = 0.0;
@ -31,7 +31,7 @@ static inline void fp64_matrix3x2_reset(fp64_matrix3x2_t* matrix)
 // ==================== Copy ==================== //
-static inline void fp32_matrix3x2_copy(const fp32_matrix3x2_t* from, fp32_matrix3x2_t* to)
+inline void matrix3x2_copy_fp32(const matrix3x2_fp32_t* from, matrix3x2_fp32_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r1c2;
@ -42,7 +42,7 @@ static inline void fp32_matrix3x2_copy(const fp32_matrix3x2_t* from, fp32_matrix
    to->r2c3 = from->r2c3;
 }
-static inline void fp64_matrix3x2_copy(const fp64_matrix3x2_t* from, fp64_matrix3x2_t* to)
+inline void matrix3x2_copy_fp64(const matrix3x2_fp64_t* from, matrix3x2_fp64_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r1c2;
@ -55,7 +55,7 @@ static inline void fp64_matrix3x2_copy(const fp64_matrix3x2_t* from, fp64_matrix
 // ==================== Swap ==================== //
-static inline void fp32_matrix3x2_swap(fp32_matrix3x2_t* matrix1, fp32_matrix3x2_t* matrix2)
+inline void matrix3x2_swap_fp32(matrix3x2_fp32_t* matrix1, matrix3x2_fp32_t* matrix2)
 {
    const float r1c1 = matrix2->r1c1;
    const float r1c2 = matrix2->r1c2;
@ -82,7 +82,7 @@ static inline void fp32_matrix3x2_swap(fp32_matrix3x2_t* matrix1, fp32_matrix3x2
    matrix1->r2c3 = r2c3;
 }
-static inline void fp64_matrix3x2_swap(fp64_matrix3x2_t* matrix1, fp64_matrix3x2_t* matrix2)
+inline void matrix3x2_swap_fp64(matrix3x2_fp64_t* matrix1, matrix3x2_fp64_t* matrix2)
 {
    const double r1c1 = matrix2->r1c1;
    const double r1c2 = matrix2->r1c2;
@ -111,7 +111,7 @@ static inline void fp64_matrix3x2_swap(fp64_matrix3x2_t* matrix1, fp64_matrix3x2
 // ============= Set from twin type ============= //
-static inline void fp32_matrix3x2_set_from_fp64(const fp64_matrix3x2_t* from, fp32_matrix3x2_t* to)
+inline void matrix3x2_fp32_set_from_fp64(const matrix3x2_fp64_t* from, matrix3x2_fp32_t* to)
 {
    to->r1c1 = (float) from->r1c1;
    to->r1c2 = (float) from->r1c2;
@ -122,7 +122,7 @@ static inline void fp32_matrix3x2_set_from_fp64(const fp64_matrix3x2_t* from, fp
    to->r2c3 = (float) from->r2c3;
 }
-static inline void fp64_matrix3x2_set_from_fp32(const fp32_matrix3x2_t* from, fp64_matrix3x2_t* to)
+inline void matrix3x2_fp64_set_from_fp32(const matrix3x2_fp32_t* from, matrix3x2_fp64_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r1c2;
@ -135,7 +135,7 @@ static inline void fp64_matrix3x2_set_from_fp32(const fp32_matrix3x2_t* from, fp
 // =============== Set transposed =============== //
-static inline void fp32_matrix3x2_set_transposed(const fp32_matrix2x3_t* from, fp32_matrix3x2_t* to)
+inline void matrix3x2_fp32_set_transposed(const matrix2x3_fp32_t* from, matrix3x2_fp32_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r2c1;
@ -146,7 +146,7 @@ static inline void fp32_matrix3x2_set_transposed(const fp32_matrix2x3_t* from, f
    to->r2c3 = from->r3c2;
 }
-static inline void fp64_matrix3x2_set_transposed(const fp64_matrix2x3_t* from, fp64_matrix3x2_t* to)
+inline void matrix3x2_fp64_set_transposed(const matrix2x3_fp64_t* from, matrix3x2_fp64_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r2c1;
@ -159,7 +159,7 @@ static inline void fp64_matrix3x2_set_transposed(const fp64_matrix2x3_t* from, f
 // =============== Set transposed =============== //
-static inline void fp32_matrix3x2_set_transposed_fp64(const fp64_matrix2x3_t* from, fp32_matrix3x2_t* to)
+inline void matrix3x2_fp32_set_transposed_fp64(const matrix2x3_fp64_t* from, matrix3x2_fp32_t* to)
 {
    to->r1c1 = (float) from->r1c1;
    to->r1c2 = (float) from->r2c1;
@ -170,7 +170,7 @@ static inline void fp32_matrix3x2_set_transposed_fp64(const fp64_matrix2x3_t* fr
    to->r2c3 = (float) from->r3c2;
 }
-static inline void fp64_matrix3x2_set_transposed_fp32(const fp32_matrix2x3_t* from, fp64_matrix3x2_t* to)
+inline void matrix3x2_fp64_set_transposed_fp32(const matrix2x3_fp32_t* from, matrix3x2_fp64_t* to)
 {
    to->r1c1 = from->r1c1;
    to->r1c2 = from->r2c1;
@ -183,14 +183,14 @@ static inline void fp64_matrix3x2_set_transposed_fp32(const fp32_matrix2x3_t* fr
 // ================= Set Row 1 ================== //
-static inline void fp32_matrix3x2_set_row1(const float c1, const float c2, const float c3, fp32_matrix3x2_t* matrix)
+inline void matrix3x2_fp32_set_row1(const float c1, const float c2, const float c3, matrix3x2_fp32_t* matrix)
 {
    matrix->r1c1 = c1;
    matrix->r1c2 = c2;
    matrix->r1c3 = c3;
 }
-static inline void fp64_matrix3x2_set_row1(const double c1, const double c2, const double c3, fp64_matrix3x2_t* matrix)
+inline void matrix3x2_fp64_set_row1(const double c1, const double c2, const double c3, matrix3x2_fp64_t* matrix)
 {
    matrix->r1c1 = c1;
    matrix->r1c2 = c2;
@ -199,14 +199,14 @@ static inline void fp64_matrix3x2_set_row1(const double c1, const double c2, con
 // ================= Set Row 2 ================== //
-static inline void fp32_matrix3x2_set_row2(const float c1, const float c2, const float c3, fp32_matrix3x2_t* matrix)
+inline void matrix3x2_fp32_set_row2(const float c1, const float c2, const float c3, matrix3x2_fp32_t* matrix)
 {
    matrix->r2c1 = c1;
    matrix->r2c2 = c2;
    matrix->r2c3 = c3;
 }