diff options
| author | Aaditya Dhruv <[email protected]> | 2026-01-25 15:10:37 -0600 |
|---|---|---|
| committer | Aaditya Dhruv <[email protected]> | 2026-01-25 15:10:37 -0600 |
| commit | 118980e02e59ff31871df59dce257075394f3533 (patch) | |
| tree | 26fba4492bb4b561d21bf49b35d892a821d54fab /include/cglm/affine2d.h | |
| parent | 0e6e1245b70df4dfcba135d50e1b53d1a8ef7eb8 (diff) | |
wip
Diffstat (limited to 'include/cglm/affine2d.h')
| -rw-r--r-- | include/cglm/affine2d.h | 268 |
1 files changed, 268 insertions, 0 deletions
diff --git a/include/cglm/affine2d.h b/include/cglm/affine2d.h new file mode 100644 index 0000000..0dcf50a --- /dev/null +++ b/include/cglm/affine2d.h @@ -0,0 +1,268 @@ +/* + * Copyright (c), Recep Aslantas. + * + * MIT License (MIT), http://opensource.org/licenses/MIT + * Full license can be found in the LICENSE file + */ + +/* + Functions: + CGLM_INLINE void glm_translate2d(mat3 m, vec2 v) + CGLM_INLINE void glm_translate2d_to(mat3 m, vec2 v, mat3 dest) + CGLM_INLINE void glm_translate2d_x(mat3 m, float x) + CGLM_INLINE void glm_translate2d_y(mat3 m, float y) + CGLM_INLINE void glm_translate2d_make(mat3 m, vec2 v) + CGLM_INLINE void glm_scale2d_to(mat3 m, vec2 v, mat3 dest) + CGLM_INLINE void glm_scale2d_make(mat3 m, vec2 v) + CGLM_INLINE void glm_scale2d(mat3 m, vec2 v) + CGLM_INLINE void glm_scale2d_uni(mat3 m, float s) + CGLM_INLINE void glm_rotate2d_make(mat3 m, float angle) + CGLM_INLINE void glm_rotate2d(mat3 m, float angle) + CGLM_INLINE void glm_rotate2d_to(mat3 m, float angle, mat3 dest) + */ + +#ifndef cglm_affine2d_h +#define cglm_affine2d_h + +#include "common.h" +#include "util.h" +#include "vec2.h" +#include "mat3.h" + +/*! + * @brief translate existing 2d transform matrix by v vector + * and stores result in same matrix + * + * @param[in, out] m affine transform + * @param[in] v translate vector [x, y] + */ +CGLM_INLINE +void +glm_translate2d(mat3 m, vec2 v) { + m[2][0] = m[0][0] * v[0] + m[1][0] * v[1] + m[2][0]; + m[2][1] = m[0][1] * v[0] + m[1][1] * v[1] + m[2][1]; + m[2][2] = m[0][2] * v[0] + m[1][2] * v[1] + m[2][2]; +} + +/*! + * @brief translate existing 2d transform matrix by v vector + * and store result in dest + * + * source matrix will remain same + * + * @param[in] m affine transform + * @param[in] v translate vector [x, y] + * @param[out] dest translated matrix + */ +CGLM_INLINE +void +glm_translate2d_to(mat3 m, vec2 v, mat3 dest) { + glm_mat3_copy(m, dest); + glm_translate2d(dest, v); +} + +/*! + * @brief translate existing 2d transform matrix by x factor + * + * @param[in, out] m affine transform + * @param[in] x x factor + */ +CGLM_INLINE +void +glm_translate2d_x(mat3 m, float x) { + m[2][0] = m[0][0] * x + m[2][0]; + m[2][1] = m[0][1] * x + m[2][1]; + m[2][2] = m[0][2] * x + m[2][2]; +} + +/*! + * @brief translate existing 2d transform matrix by y factor + * + * @param[in, out] m affine transform + * @param[in] y y factor + */ +CGLM_INLINE +void +glm_translate2d_y(mat3 m, float y) { + m[2][0] = m[1][0] * y + m[2][0]; + m[2][1] = m[1][1] * y + m[2][1]; + m[2][2] = m[1][2] * y + m[2][2]; +} + +/*! + * @brief creates NEW translate 2d transform matrix by v vector + * + * @param[out] m affine transform + * @param[in] v translate vector [x, y] + */ +CGLM_INLINE +void +glm_translate2d_make(mat3 m, vec2 v) { + glm_mat3_identity(m); + m[2][0] = v[0]; + m[2][1] = v[1]; +} + +/*! + * @brief scale existing 2d transform matrix by v vector + * and store result in dest + * + * @param[in] m affine transform + * @param[in] v scale vector [x, y] + * @param[out] dest scaled matrix + */ +CGLM_INLINE +void +glm_scale2d_to(mat3 m, vec2 v, mat3 dest) { + dest[0][0] = m[0][0] * v[0]; + dest[0][1] = m[0][1] * v[0]; + dest[0][2] = m[0][2] * v[0]; + + dest[1][0] = m[1][0] * v[1]; + dest[1][1] = m[1][1] * v[1]; + dest[1][2] = m[1][2] * v[1]; + + dest[2][0] = m[2][0]; + dest[2][1] = m[2][1]; + dest[2][2] = m[2][2]; +} + +/*! + * @brief creates NEW 2d scale matrix by v vector + * + * @param[out] m affine transform + * @param[in] v scale vector [x, y] + */ +CGLM_INLINE +void +glm_scale2d_make(mat3 m, vec2 v) { + glm_mat3_identity(m); + m[0][0] = v[0]; + m[1][1] = v[1]; +} + +/*! + * @brief scales existing 2d transform matrix by v vector + * and stores result in same matrix + * + * @param[in, out] m affine transform + * @param[in] v scale vector [x, y] + */ +CGLM_INLINE +void +glm_scale2d(mat3 m, vec2 v) { + m[0][0] = m[0][0] * v[0]; + m[0][1] = m[0][1] * v[0]; + m[0][2] = m[0][2] * v[0]; + + m[1][0] = m[1][0] * v[1]; + m[1][1] = m[1][1] * v[1]; + m[1][2] = m[1][2] * v[1]; +} + +/*! + * @brief applies uniform scale to existing 2d transform matrix v = [s, s] + * and stores result in same matrix + * + * @param[in, out] m affine transform + * @param[in] s scale factor + */ +CGLM_INLINE +void +glm_scale2d_uni(mat3 m, float s) { + m[0][0] = m[0][0] * s; + m[0][1] = m[0][1] * s; + m[0][2] = m[0][2] * s; + + m[1][0] = m[1][0] * s; + m[1][1] = m[1][1] * s; + m[1][2] = m[1][2] * s; +} + +/*! + * @brief creates NEW rotation matrix by angle around Z axis + * + * @param[out] m affine transform + * @param[in] angle angle (radians) + */ +CGLM_INLINE +void +glm_rotate2d_make(mat3 m, float angle) { + float c, s; + + s = sinf(angle); + c = cosf(angle); + + m[0][0] = c; + m[0][1] = s; + m[0][2] = 0; + + m[1][0] = -s; + m[1][1] = c; + m[1][2] = 0; + + m[2][0] = 0.0f; + m[2][1] = 0.0f; + m[2][2] = 1.0f; +} + +/*! + * @brief rotate existing 2d transform matrix around Z axis by angle + * and store result in same matrix + * + * @param[in, out] m affine transform + * @param[in] angle angle (radians) + */ +CGLM_INLINE +void +glm_rotate2d(mat3 m, float angle) { + float m00 = m[0][0], m10 = m[1][0], + m01 = m[0][1], m11 = m[1][1], + m02 = m[0][2], m12 = m[1][2]; + float c, s; + + s = sinf(angle); + c = cosf(angle); + + m[0][0] = m00 * c + m10 * s; + m[0][1] = m01 * c + m11 * s; + m[0][2] = m02 * c + m12 * s; + + m[1][0] = m00 * -s + m10 * c; + m[1][1] = m01 * -s + m11 * c; + m[1][2] = m02 * -s + m12 * c; +} + +/*! + * @brief rotate existing 2d transform matrix around Z axis by angle + * and store result in dest + * + * @param[in] m affine transform + * @param[in] angle angle (radians) + * @param[out] dest destination + */ +CGLM_INLINE +void +glm_rotate2d_to(mat3 m, float angle, mat3 dest) { + float m00 = m[0][0], m10 = m[1][0], + m01 = m[0][1], m11 = m[1][1], + m02 = m[0][2], m12 = m[1][2]; + float c, s; + + s = sinf(angle); + c = cosf(angle); + + dest[0][0] = m00 * c + m10 * s; + dest[0][1] = m01 * c + m11 * s; + dest[0][2] = m02 * c + m12 * s; + + dest[1][0] = m00 * -s + m10 * c; + dest[1][1] = m01 * -s + m11 * c; + dest[1][2] = m02 * -s + m12 * c; + + dest[2][0] = m[2][0]; + dest[2][1] = m[2][1]; + dest[2][2] = m[2][2]; +} + +#endif /* cglm_affine2d_h */ |