frillrun/include/cglm/call/affine.h
2024-08-24 00:47:58 -04:00

168 lines
2.4 KiB
C

/*
* Copyright (c), Recep Aslantas.
*
* MIT License (MIT), http://opensource.org/licenses/MIT
* Full license can be found in the LICENSE file
*/
#ifndef cglmc_affine_h
#define cglmc_affine_h
#ifdef __cplusplus
extern "C" {
#endif
#include "../cglm.h"
CGLM_EXPORT
void
glmc_translate_make(mat4 m, vec3 v);
CGLM_EXPORT
void
glmc_translate_to(mat4 m, vec3 v, mat4 dest);
CGLM_EXPORT
void
glmc_translate(mat4 m, vec3 v);
CGLM_EXPORT
void
glmc_translate_x(mat4 m, float to);
CGLM_EXPORT
void
glmc_translate_y(mat4 m, float to);
CGLM_EXPORT
void
glmc_translate_z(mat4 m, float to);
CGLM_EXPORT
void
glmc_scale_make(mat4 m, vec3 v);
CGLM_EXPORT
void
glmc_scale_to(mat4 m, vec3 v, mat4 dest);
CGLM_EXPORT
void
glmc_scale(mat4 m, vec3 v);
CGLM_EXPORT
void
glmc_scale_uni(mat4 m, float s);
CGLM_EXPORT
void
glmc_rotate_x(mat4 m, float rad, mat4 dest);
CGLM_EXPORT
void
glmc_rotate_y(mat4 m, float rad, mat4 dest);
CGLM_EXPORT
void
glmc_rotate_z(mat4 m, float rad, mat4 dest);
CGLM_EXPORT
void
glmc_rotate_make(mat4 m, float angle, vec3 axis);
CGLM_EXPORT
void
glmc_rotate(mat4 m, float angle, vec3 axis);
CGLM_EXPORT
void
glmc_rotate_at(mat4 m, vec3 pivot, float angle, vec3 axis);
CGLM_EXPORT
void
glmc_rotate_atm(mat4 m, vec3 pivot, float angle, vec3 axis);
CGLM_EXPORT
void
glmc_spin(mat4 m, float angle, vec3 axis);
CGLM_EXPORT
void
glmc_decompose_scalev(mat4 m, vec3 s);
CGLM_EXPORT
bool
glmc_uniscaled(mat4 m);
CGLM_EXPORT
void
glmc_decompose_rs(mat4 m, mat4 r, vec3 s);
CGLM_EXPORT
void
glmc_decompose(mat4 m, vec4 t, mat4 r, vec3 s);
/* affine-post */
CGLM_EXPORT
void
glmc_translated(mat4 m, vec3 v);
CGLM_EXPORT
void
glmc_translated_to(mat4 m, vec3 v, mat4 dest);
CGLM_EXPORT
void
glmc_translated_x(mat4 m, float x);
CGLM_EXPORT
void
glmc_translated_y(mat4 m, float y);
CGLM_EXPORT
void
glmc_translated_z(mat4 m, float z);
CGLM_EXPORT
void
glmc_rotated_x(mat4 m, float angle, mat4 dest);
CGLM_EXPORT
void
glmc_rotated_y(mat4 m, float angle, mat4 dest);
CGLM_EXPORT
void
glmc_rotated_z(mat4 m, float angle, mat4 dest);
CGLM_EXPORT
void
glmc_rotated(mat4 m, float angle, vec3 axis);
CGLM_EXPORT
void
glmc_rotated_at(mat4 m, vec3 pivot, float angle, vec3 axis);
CGLM_EXPORT
void
glmc_spinned(mat4 m, float angle, vec3 axis);
/* affine-mat */
CGLM_EXPORT
void
glmc_mul(mat4 m1, mat4 m2, mat4 dest);
CGLM_EXPORT
void
glmc_mul_rot(mat4 m1, mat4 m2, mat4 dest);
CGLM_EXPORT
void
glmc_inv_tr(mat4 mat);
#ifdef __cplusplus
}
#endif
#endif /* cglmc_affine_h */