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Replace the use of deprecated CGLM_PI* constants

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This commit is contained in:
Carsten Hartenfels
2018-09-21 07:34:05 +02:00
parent 3fd12032e6
commit b9021978cb
6 changed files with 31 additions and 31 deletions
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2
include/cglm/cam.h
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@@ -293,7 +293,7 @@ CGLM_INLINE
void void
glm_perspective_default(float aspect, glm_perspective_default(float aspect,
mat4 dest) { mat4 dest) {
glm_perspective((float)CGLM_PI_4, glm_perspective(GLM_PI_4f,
aspect, aspect,
0.01f, 0.01f,
100.0f, 100.0f,

14
include/cglm/ease.h
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@@ -19,19 +19,19 @@ glm_ease_linear(float t) {
CGLM_INLINE CGLM_INLINE
float float
glm_ease_sine_in(float t) { glm_ease_sine_in(float t) {
return sinf((t - 1.0f) * CGLM_PI_2) + 1.0f; return sinf((t - 1.0f) * GLM_PI_2f) + 1.0f;
} }
CGLM_INLINE CGLM_INLINE
float float
glm_ease_sine_out(float t) { glm_ease_sine_out(float t) {
return sinf(t * CGLM_PI_2); return sinf(t * GLM_PI_2f);
} }
CGLM_INLINE CGLM_INLINE
float float
glm_ease_sine_inout(float t) { glm_ease_sine_inout(float t) {
return 0.5f * (1.0f - cosf(t * CGLM_PI)); return 0.5f * (1.0f - cosf(t * GLM_PIf));
} }
CGLM_INLINE CGLM_INLINE
@@ -254,13 +254,13 @@ glm_ease_back_inout(float t) {
CGLM_INLINE CGLM_INLINE
float float
glm_ease_elast_in(float t) { glm_ease_elast_in(float t) {
return sinf(13.0f * CGLM_PI_2 * t) * powf(2.0f, 10.0f * (t - 1.0f)); return sinf(13.0f * GLM_PI_2f * t) * powf(2.0f, 10.0f * (t - 1.0f));
} }
CGLM_INLINE CGLM_INLINE
float float
glm_ease_elast_out(float t) { glm_ease_elast_out(float t) {
return sinf(-13.0f * CGLM_PI_2 * (t + 1.0f)) * powf(2.0f, -10.0f * t) + 1.0f; return sinf(-13.0f * GLM_PI_2f * (t + 1.0f)) * powf(2.0f, -10.0f * t) + 1.0f;
} }
CGLM_INLINE CGLM_INLINE
@@ -271,10 +271,10 @@ glm_ease_elast_inout(float t) {
a = 2.0f * t; a = 2.0f * t;
if (t < 0.5f) if (t < 0.5f)
return 0.5f * sinf(13.0f * CGLM_PI_2 * a) return 0.5f * sinf(13.0f * GLM_PI_2f * a)
* powf(2.0f, 10.0f * (a - 1.0f)); * powf(2.0f, 10.0f * (a - 1.0f));
return 0.5f * (sinf(-13.0f * CGLM_PI_2 * a) return 0.5f * (sinf(-13.0f * GLM_PI_2f * a)
* powf(2.0f, -10.0f * (a - 1.0f)) + 2.0f); * powf(2.0f, -10.0f * (a - 1.0f)) + 2.0f);
} }

4
include/cglm/euler.h
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@@ -84,12 +84,12 @@ glm_euler_angles(mat4 m, vec3 dest) {
thetaZ = atan2f(-m10, m00); thetaZ = atan2f(-m10, m00);
} else { /* m20 == -1 */ } else { /* m20 == -1 */
/* Not a unique solution */ /* Not a unique solution */
thetaY = -CGLM_PI_2; thetaY = -GLM_PI_2f;
thetaX = -atan2f(m01, m11); thetaX = -atan2f(m01, m11);
thetaZ = 0.0f; thetaZ = 0.0f;
} }
} else { /* m20 == +1 */ } else { /* m20 == +1 */
thetaY = CGLM_PI_2; thetaY = GLM_PI_2f;
thetaX = atan2f(m01, m11); thetaX = atan2f(m01, m11);
thetaZ = 0.0f; thetaZ = 0.0f;
} }

2
include/cglm/quat.h
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@@ -689,7 +689,7 @@ glm_quat_for(vec3 dir, vec3 fwd, vec3 up, versor dest) {
dot = glm_vec_dot(dir, fwd); dot = glm_vec_dot(dir, fwd);
if (fabsf(dot + 1.0f) < 0.000001f) { if (fabsf(dot + 1.0f) < 0.000001f) {
glm_quat_init(dest, up[0], up[1], up[2], CGLM_PI); glm_quat_init(dest, up[0], up[1], up[2], GLM_PIf);
return; return;
} }

8
include/cglm/util.h
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@@ -58,7 +58,7 @@ glm_signf(float val) {
CGLM_INLINE CGLM_INLINE
float float
glm_rad(float deg) { glm_rad(float deg) {
return deg * CGLM_PI / 180.0f; return deg * GLM_PIf / 180.0f;
} }
/*! /*!
@@ -69,7 +69,7 @@ glm_rad(float deg) {
CGLM_INLINE CGLM_INLINE
float float
glm_deg(float rad) { glm_deg(float rad) {
return rad * 180.0f / CGLM_PI; return rad * 180.0f / GLM_PIf;
} }
/*! /*!
@@ -80,7 +80,7 @@ glm_deg(float rad) {
CGLM_INLINE CGLM_INLINE
void void
glm_make_rad(float *deg) { glm_make_rad(float *deg) {
*deg = *deg * CGLM_PI / 180.0f; *deg = *deg * GLM_PIf / 180.0f;
} }
/*! /*!
@@ -91,7 +91,7 @@ glm_make_rad(float *deg) {
CGLM_INLINE CGLM_INLINE
void void
glm_make_deg(float *rad) { glm_make_deg(float *rad) {
*rad = *rad * 180.0f / CGLM_PI; *rad = *rad * 180.0f / GLM_PIf;
} }
/*! /*!

32
test/src/test_affine.c
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@@ -12,7 +12,7 @@ test_affine(void **state) {
mat4 t1, t2, t3, t4, t5; mat4 t1, t2, t3, t4, t5;
/* test translate is postmultiplied */ /* test translate is postmultiplied */
glmc_rotate_make(t1, CGLM_PI_4, GLM_YUP); glmc_rotate_make(t1, GLM_PI_4f, GLM_YUP);
glm_translate_make(t2, (vec3){34, 57, 36}); glm_translate_make(t2, (vec3){34, 57, 36});
glmc_mat4_mul(t1, t2, t3); /* R * T */ glmc_mat4_mul(t1, t2, t3); /* R * T */
@@ -21,16 +21,16 @@ test_affine(void **state) {
test_assert_mat4_eq(t1, t3); test_assert_mat4_eq(t1, t3);
/* test rotate is postmultiplied */ /* test rotate is postmultiplied */
glmc_rotate_make(t1, CGLM_PI_4, GLM_YUP); glmc_rotate_make(t1, GLM_PI_4f, GLM_YUP);
glm_translate_make(t2, (vec3){34, 57, 36}); glm_translate_make(t2, (vec3){34, 57, 36});
glmc_mat4_mul(t2, t1, t3); /* T * R */ glmc_mat4_mul(t2, t1, t3); /* T * R */
glm_rotate(t2, CGLM_PI_4, GLM_YUP); glm_rotate(t2, GLM_PI_4f, GLM_YUP);
test_assert_mat4_eq(t2, t3); test_assert_mat4_eq(t2, t3);
/* test scale is postmultiplied */ /* test scale is postmultiplied */
glmc_rotate_make(t1, CGLM_PI_4, GLM_YUP); glmc_rotate_make(t1, GLM_PI_4f, GLM_YUP);
glm_translate_make(t2, (vec3){34, 57, 36}); glm_translate_make(t2, (vec3){34, 57, 36});
glm_scale_make(t4, (vec3){3, 5, 6}); glm_scale_make(t4, (vec3){3, 5, 6});
@@ -41,7 +41,7 @@ test_affine(void **state) {
test_assert_mat4_eq(t3, t5); test_assert_mat4_eq(t3, t5);
/* test translate_x */ /* test translate_x */
glmc_rotate_make(t1, CGLM_PI_4, GLM_YUP); glmc_rotate_make(t1, GLM_PI_4f, GLM_YUP);
glm_translate_make(t2, (vec3){34, 0, 0}); glm_translate_make(t2, (vec3){34, 0, 0});
glmc_mat4_mul(t1, t2, t3); /* R * T */ glmc_mat4_mul(t1, t2, t3); /* R * T */
@@ -49,7 +49,7 @@ test_affine(void **state) {
test_assert_mat4_eq(t1, t3); test_assert_mat4_eq(t1, t3);
/* test translate_y */ /* test translate_y */
glmc_rotate_make(t1, CGLM_PI_4, GLM_YUP); glmc_rotate_make(t1, GLM_PI_4f, GLM_YUP);
glm_translate_make(t2, (vec3){0, 57, 0}); glm_translate_make(t2, (vec3){0, 57, 0});
glmc_mat4_mul(t1, t2, t3); /* R * T */ glmc_mat4_mul(t1, t2, t3); /* R * T */
@@ -57,7 +57,7 @@ test_affine(void **state) {
test_assert_mat4_eq(t1, t3); test_assert_mat4_eq(t1, t3);
/* test translate_z */ /* test translate_z */
glmc_rotate_make(t1, CGLM_PI_4, GLM_YUP); glmc_rotate_make(t1, GLM_PI_4f, GLM_YUP);
glm_translate_make(t2, (vec3){0, 0, 36}); glm_translate_make(t2, (vec3){0, 0, 36});
glmc_mat4_mul(t1, t2, t3); /* R * T */ glmc_mat4_mul(t1, t2, t3); /* R * T */
@@ -65,43 +65,43 @@ test_affine(void **state) {
test_assert_mat4_eq(t1, t3); test_assert_mat4_eq(t1, t3);
/* test rotate_x */ /* test rotate_x */
glmc_rotate_make(t1, CGLM_PI_4, (vec3){1, 0, 0}); glmc_rotate_make(t1, GLM_PI_4f, (vec3){1, 0, 0});
glm_translate_make(t2, (vec3){34, 57, 36}); glm_translate_make(t2, (vec3){34, 57, 36});
glmc_mat4_mul(t2, t1, t3); /* T * R */ glmc_mat4_mul(t2, t1, t3); /* T * R */
glm_rotate_x(t2, CGLM_PI_4, t2); glm_rotate_x(t2, GLM_PI_4f, t2);
test_assert_mat4_eq(t2, t3); test_assert_mat4_eq(t2, t3);
/* test rotate_y */ /* test rotate_y */
glmc_rotate_make(t1, CGLM_PI_4, (vec3){0, 1, 0}); glmc_rotate_make(t1, GLM_PI_4f, (vec3){0, 1, 0});
glm_translate_make(t2, (vec3){34, 57, 36}); glm_translate_make(t2, (vec3){34, 57, 36});
glmc_mat4_mul(t2, t1, t3); /* T * R */ glmc_mat4_mul(t2, t1, t3); /* T * R */
glm_rotate_y(t2, CGLM_PI_4, t2); glm_rotate_y(t2, GLM_PI_4f, t2);
test_assert_mat4_eq(t2, t3); test_assert_mat4_eq(t2, t3);
/* test rotate_z */ /* test rotate_z */
glmc_rotate_make(t1, CGLM_PI_4, (vec3){0, 0, 1}); glmc_rotate_make(t1, GLM_PI_4f, (vec3){0, 0, 1});
glm_translate_make(t2, (vec3){34, 57, 36}); glm_translate_make(t2, (vec3){34, 57, 36});
glmc_mat4_mul(t2, t1, t3); /* T * R */ glmc_mat4_mul(t2, t1, t3); /* T * R */
glm_rotate_z(t2, CGLM_PI_4, t2); glm_rotate_z(t2, GLM_PI_4f, t2);
test_assert_mat4_eq(t2, t3); test_assert_mat4_eq(t2, t3);
/* test rotate */ /* test rotate */
glmc_rotate_make(t1, CGLM_PI_4, (vec3){0, 0, 1}); glmc_rotate_make(t1, GLM_PI_4f, (vec3){0, 0, 1});
glm_translate_make(t2, (vec3){34, 57, 36}); glm_translate_make(t2, (vec3){34, 57, 36});
glmc_mat4_mul(t2, t1, t3); /* T * R */ glmc_mat4_mul(t2, t1, t3); /* T * R */
glmc_rotate(t2, CGLM_PI_4, (vec3){0, 0, 1}); glmc_rotate(t2, GLM_PI_4f, (vec3){0, 0, 1});
test_assert_mat4_eq(t3, t2); test_assert_mat4_eq(t3, t2);
/* test scale_uni */ /* test scale_uni */
glmc_rotate_make(t1, CGLM_PI_4, GLM_YUP); glmc_rotate_make(t1, GLM_PI_4f, GLM_YUP);
glm_translate_make(t2, (vec3){34, 57, 36}); glm_translate_make(t2, (vec3){34, 57, 36});
glm_scale_make(t4, (vec3){3, 3, 3}); glm_scale_make(t4, (vec3){3, 3, 3});