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win,test: fix test build for windows and suppress warnings

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This commit is contained in:
Recep Aslantas
2019-10-14 19:08:34 +03:00
parent 7cdeada701
commit 381e66349a
10 changed files with 116 additions and 95 deletions
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8
test/src/test_mat3.h
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@@ -134,11 +134,11 @@ TEST_IMPL(GLM_PREFIX, mat3_quat) {
vec3 axis1;
vec3 axis2 = {1.9f, 2.3f, 4.5f};
GLM(quat)(q1, GLM_PI_4, 1.9f, 2.3f, 4.5f);
GLM(quat)(q1, GLM_PI_4f, 1.9f, 2.3f, 4.5f);
GLM(quat_mat3)(q1, m1);
GLM(mat3_quat)(m1, q2);
GLM(rotate_make)(m2, GLM_PI_4, axis2);
GLM(rotate_make)(m2, GLM_PI_4f, axis2);
GLM(mat3_quat)(m1, q3);
GLM(quat_axis)(q3, axis1);
@@ -148,7 +148,7 @@ TEST_IMPL(GLM_PREFIX, mat3_quat) {
GLM(mat4_pick3)(m2, m3);
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4))
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4f))
ASSERTIFY(test_assert_vec3_eq(axis1, axis2))
ASSERTIFY(test_assert_vec4_eq(q1, q2))
ASSERTIFY(test_assert_mat3_eq(m1, m3))
@@ -187,7 +187,7 @@ TEST_IMPL(GLM_PREFIX, mat3_scale) {
scale = rand() % 100;
GLM(mat3_scale)(m1, scale);
GLM(mat3_scale)(m1, (float)scale);
for (i = 0; i < 3; i++) {
for (j = 0; j < 3; j++) {

10
test/src/test_mat4.h
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@@ -244,11 +244,11 @@ TEST_IMPL(GLM_PREFIX, mat4_quat) {
vec3 axis1;
vec3 axis2 = {1.9f, 2.3f, 4.5f};
GLM(quat)(q1, GLM_PI_4, 1.9f, 2.3f, 4.5f);
GLM(quat)(q1, GLM_PI_4f, 1.9f, 2.3f, 4.5f);
GLM(quat_mat4)(q1, m1);
GLM(mat4_quat)(m1, q2);
GLM(rotate_make)(m2, GLM_PI_4, axis2);
GLM(rotate_make)(m2, GLM_PI_4f, axis2);
GLM(mat4_quat)(m1, q3);
GLM(quat_axis)(q3, axis1);
@@ -256,7 +256,7 @@ TEST_IMPL(GLM_PREFIX, mat4_quat) {
GLM(vec3_normalize)(axis1);
GLM(vec3_normalize)(axis2);
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4))
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4f))
ASSERTIFY(test_assert_vec3_eq(axis1, axis2))
ASSERTIFY(test_assert_vec4_eq(q1, q2))
ASSERTIFY(test_assert_mat4_eq(m1, m2))
@@ -295,7 +295,7 @@ TEST_IMPL(GLM_PREFIX, mat4_scale_p) {
scale = rand() % 100;
GLM(mat4_scale_p)(m1, scale);
GLM(mat4_scale_p)(m1, (float)scale);
for (i = 0; i < 4; i++) {
for (j = 0; j < 4; j++) {
@@ -314,7 +314,7 @@ TEST_IMPL(GLM_PREFIX, mat4_scale) {
scale = rand() % 100;
GLM(mat4_scale)(m1, scale);
GLM(mat4_scale)(m1, (float)scale);
for (i = 0; i < 4; i++) {
for (j = 0; j < 4; j++) {

36
test/src/test_quat.h
View File

@@ -456,11 +456,11 @@ TEST_IMPL(GLM_PREFIX, quat_mat4) {
vec3 axis2 = {1.9f, 2.3f, 4.5f};
int i;
GLM(quat)(q1, GLM_PI_4, 1.9f, 2.3f, 4.5f);
GLM(quat)(q1, GLM_PI_4f, 1.9f, 2.3f, 4.5f);
GLM(quat_mat4)(q1, m1);
GLM(mat4_quat)(m1, q2);
GLM(rotate_make)(m2, GLM_PI_4, axis2);
GLM(rotate_make)(m2, GLM_PI_4f, axis2);
GLM(mat4_quat)(m1, q3);
GLM(quat_axis)(q3, axis1);
@@ -468,7 +468,7 @@ TEST_IMPL(GLM_PREFIX, quat_mat4) {
GLM(vec3_normalize)(axis1);
GLM(vec3_normalize)(axis2);
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4))
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4f))
ASSERTIFY(test_assert_vec3_eq(axis1, axis2))
ASSERTIFY(test_assert_vec4_eq(q1, q2))
ASSERTIFY(test_assert_mat4_eq(m1, m2))
@@ -500,14 +500,14 @@ TEST_IMPL(GLM_PREFIX, quat_mat4t) {
vec3 axis2 = {1.9f, 2.3f, 4.5f};
int i;
GLM(quat)(q1, GLM_PI_4, 1.9f, 2.3f, 4.5f);
GLM(quat)(q1, GLM_PI_4f, 1.9f, 2.3f, 4.5f);
GLM(quat_mat4t)(q1, m1);
glm_mat4_transpose(m1);
GLM(mat4_quat)(m1, q2);
GLM(rotate_make)(m2, GLM_PI_4, axis2);
GLM(rotate_make)(m2, GLM_PI_4f, axis2);
GLM(mat4_quat)(m1, q3);
GLM(quat_axis)(q3, axis1);
@@ -515,7 +515,7 @@ TEST_IMPL(GLM_PREFIX, quat_mat4t) {
GLM(vec3_normalize)(axis1);
GLM(vec3_normalize)(axis2);
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4))
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4f))
ASSERTIFY(test_assert_vec3_eq(axis1, axis2))
ASSERTIFY(test_assert_vec4_eq(q1, q2))
ASSERTIFY(test_assert_mat4_eq(m1, m2))
@@ -552,14 +552,14 @@ TEST_IMPL(GLM_PREFIX, quat_mat3) {
vec3 axis2 = {1.9f, 2.3f, 4.5f};
int i;
GLM(quat)(q1, GLM_PI_4, 1.9f, 2.3f, 4.5f);
GLM(quat)(q1, GLM_PI_4f, 1.9f, 2.3f, 4.5f);
GLM(quat_mat3)(q1, m3);
glm_mat4_identity(m1);
glm_mat4_ins3(m3, m1);
GLM(mat4_quat)(m1, q2);
GLM(rotate_make)(m2, GLM_PI_4, axis2);
GLM(rotate_make)(m2, GLM_PI_4f, axis2);
GLM(mat4_quat)(m1, q3);
GLM(quat_axis)(q3, axis1);
@@ -567,7 +567,7 @@ TEST_IMPL(GLM_PREFIX, quat_mat3) {
GLM(vec3_normalize)(axis1);
GLM(vec3_normalize)(axis2);
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4))
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4f))
ASSERTIFY(test_assert_vec3_eq(axis1, axis2))
ASSERTIFY(test_assert_vec4_eq(q1, q2))
ASSERTIFY(test_assert_mat4_eq(m1, m2))
@@ -606,7 +606,7 @@ TEST_IMPL(GLM_PREFIX, quat_mat3t) {
vec3 axis2 = {1.9f, 2.3f, 4.5f};
int i;
GLM(quat)(q1, GLM_PI_4, 1.9f, 2.3f, 4.5f);
GLM(quat)(q1, GLM_PI_4f, 1.9f, 2.3f, 4.5f);
GLM(quat_mat3t)(q1, m3);
glm_mat3_transpose(m3);
@@ -615,7 +615,7 @@ TEST_IMPL(GLM_PREFIX, quat_mat3t) {
GLM(mat4_quat)(m1, q2);
GLM(rotate_make)(m2, GLM_PI_4, axis2);
GLM(rotate_make)(m2, GLM_PI_4f, axis2);
GLM(mat4_quat)(m1, q3);
GLM(quat_axis)(q3, axis1);
@@ -623,7 +623,7 @@ TEST_IMPL(GLM_PREFIX, quat_mat3t) {
GLM(vec3_normalize)(axis1);
GLM(vec3_normalize)(axis2);
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4))
ASSERT(test_eq(glm_quat_angle(q3), GLM_PI_4f))
ASSERTIFY(test_assert_vec3_eq(axis1, axis2))
ASSERTIFY(test_assert_vec4_eq(q1, q2))
ASSERTIFY(test_assert_mat4_eq(m1, m2))
@@ -719,8 +719,8 @@ TEST_IMPL(GLM_PREFIX, quat_slerp) {
GLM(quat_slerp)(q1, q2, 1.0f, q3);
ASSERTIFY(test_assert_quat_eq(q1, q3));
glm_quatv(q1, glm_rad(30.001), v1);
glm_quatv(q2, glm_rad(30.002), v1);
glm_quatv(q1, glm_rad(30.001f), v1);
glm_quatv(q2, glm_rad(30.002f), v1);
GLM(quat_slerp)(q1, q2, 0.7f, q3);
glm_quat_lerp(q1, q2, 0.7f, q4);
ASSERTIFY(test_assert_quat_eq(q3, q4));
@@ -751,14 +751,12 @@ TEST_IMPL(GLM_PREFIX, quat_look) {
glm_look(v1, (vec3){-1.0f, 0.0f, 0.0f}, GLM_YUP, m2);
ASSERTIFY(test_assert_mat4_eq(m1, m2));
glm_quat(q1, glm_rad(180.0f), 0.0f, 1.0f, 0.0f);
glm_quat(q1, glm_rad(180.0f), 1.0f, 0.0f, 0.0f);
GLM(quat_look)(v1, q1, m1);
glm_look(v1, (vec3){0.0f, 0.0f, 1.0f}, GLM_YUP, m2);
glm_mat4_print(m1, stderr);
glm_mat4_print(m2, stderr);
ASSERTIFY(test_assert_mat4_eq(m1, m2));
TEST_SUCCESS
}

70
test/src/test_vec3.h
View File

@@ -781,12 +781,12 @@ TEST_IMPL(GLM_PREFIX, vec3_angle) {
a = GLM(vec3_angle)(v1, v2);
ASSERT(!isinf(a))
ASSERT(!isnan(a))
ASSERT(test_eq(a, GLM_PI_4))
ASSERT(test_eq(a, GLM_PI_4f))
a = GLM(vec3_angle)(v1, v3);
ASSERT(!isinf(a))
ASSERT(!isnan(a))
ASSERT(test_eq(a, GLM_PI_2))
ASSERT(test_eq(a, GLM_PI_2f))
TEST_SUCCESS
}
@@ -795,56 +795,56 @@ TEST_IMPL(GLM_PREFIX, vec3_rotate) {
vec3 v1 = {1.0f, 0.0f, 0.0f}, v2 = {1.0f, 1.0f, 1.0f};
/* rotate X around Y = -Z */
GLM(vec3_rotate)(v1, GLM_PI_2, GLM_YUP);
GLM(vec3_rotate)(v1, GLM_PI_2f, GLM_YUP);
ASSERT(test_eq(v1[0], 0.0f))
ASSERT(test_eq(v1[1], 0.0f))
ASSERT(test_eq(v1[2], -1.0f))
/* rotate -Z around X = Y */
GLM(vec3_rotate)(v1, GLM_PI_2, GLM_XUP);
GLM(vec3_rotate)(v1, GLM_PI_2f, GLM_XUP);
ASSERT(test_eq(v1[0], 0.0f))
ASSERT(test_eq(v1[1], 1.0f))
ASSERT(test_eq(v1[2], 0.0f))
/* rotate Y around Z = -X */
GLM(vec3_rotate)(v1, GLM_PI_2, GLM_ZUP);
GLM(vec3_rotate)(v1, GLM_PI_2f, GLM_ZUP);
ASSERT(test_eq(v1[0], -1.0f))
ASSERT(test_eq(v1[1], 0.0f))
ASSERT(test_eq(v1[2], 0.0f))
/* rotate v2 around Y by 90deg */
GLM(vec3_rotate)(v2, GLM_PI_2, GLM_YUP);
GLM(vec3_rotate)(v2, GLM_PI_2f, GLM_YUP);
ASSERT(test_eq(v2[0], 1.0f))
ASSERT(test_eq(v2[1], 1.0f))
ASSERT(test_eq(v2[2], -1.0f))
/* rotate v2 around Y by 90deg */
GLM(vec3_rotate)(v2, GLM_PI_2, GLM_YUP);
GLM(vec3_rotate)(v2, GLM_PI_2f, GLM_YUP);
ASSERT(test_eq(v2[0], -1.0f))
ASSERT(test_eq(v2[1], 1.0f))
ASSERT(test_eq(v2[2], -1.0f))
/* rotate v2 around Y by 90deg */
GLM(vec3_rotate)(v2, GLM_PI_2, GLM_YUP);
GLM(vec3_rotate)(v2, GLM_PI_2f, GLM_YUP);
ASSERT(test_eq(v2[0], -1.0f))
ASSERT(test_eq(v2[1], 1.0f))
ASSERT(test_eq(v2[2], 1.0f))
/* rotate v2 around X by 90deg */
GLM(vec3_rotate)(v2, GLM_PI_2, GLM_XUP);
GLM(vec3_rotate)(v2, GLM_PI_2f, GLM_XUP);
ASSERT(test_eq(v2[0], -1.0f))
ASSERT(test_eq(v2[1], -1.0f))
ASSERT(test_eq(v2[2], 1.0f))
/* rotate v2 around Z by 90deg */
GLM(vec3_rotate)(v2, GLM_PI_2, GLM_ZUP);
GLM(vec3_rotate)(v2, GLM_PI_2f, GLM_ZUP);
ASSERT(test_eq(v2[0], 1.0f))
ASSERT(test_eq(v2[1], -1.0f))
@@ -857,9 +857,9 @@ TEST_IMPL(GLM_PREFIX, vec3_rotate_m4) {
vec3 v1 = {1.0f, 0.0f, 0.0f}, v2 = {1.0f, 1.0f, 1.0f};
mat4 x, y, z;
glm_rotate_make(x, GLM_PI_2, GLM_XUP);
glm_rotate_make(y, GLM_PI_2, GLM_YUP);
glm_rotate_make(z, GLM_PI_2, GLM_ZUP);
glm_rotate_make(x, GLM_PI_2f, GLM_XUP);
glm_rotate_make(y, GLM_PI_2f, GLM_YUP);
glm_rotate_make(z, GLM_PI_2f, GLM_ZUP);
/* rotate X around Y = -Z */
GLM(vec3_rotate_m4)(y, v1, v1);
@@ -926,9 +926,9 @@ TEST_IMPL(GLM_PREFIX, vec3_rotate_m3) {
mat4 x0, y0, z0;
mat3 x, y, z;
glm_rotate_make(x0, GLM_PI_2, GLM_XUP);
glm_rotate_make(y0, GLM_PI_2, GLM_YUP);
glm_rotate_make(z0, GLM_PI_2, GLM_ZUP);
glm_rotate_make(x0, GLM_PI_2f, GLM_XUP);
glm_rotate_make(y0, GLM_PI_2f, GLM_YUP);
glm_rotate_make(z0, GLM_PI_2f, GLM_ZUP);
glm_mat4_pick3(x0, x);
glm_mat4_pick3(y0, y);
@@ -1131,17 +1131,17 @@ TEST_IMPL(GLM_PREFIX, vec3_ortho) {
a = glm_vec3_angle(v1, v5);
ASSERT(!isinf(a))
ASSERT(!isnan(a))
ASSERT(test_eq(a, GLM_PI_2))
ASSERT(test_eq(a, GLM_PI_2f))
a = glm_vec3_angle(v2, v6);
ASSERT(!isinf(a))
ASSERT(!isnan(a))
ASSERT(test_eq(a, GLM_PI_2))
ASSERT(test_eq(a, GLM_PI_2f))
a = glm_vec3_angle(v3, v7);
ASSERT(!isinf(a))
ASSERT(!isnan(a))
ASSERT(test_eq(a, GLM_PI_2))
ASSERT(test_eq(a, GLM_PI_2f))
TEST_SUCCESS
}
@@ -1314,14 +1314,14 @@ TEST_IMPL(GLM_PREFIX, vec3_smoothstep_uni) {
vec3 v2;
GLM(vec3_smoothstep_uni)(-200.0f, -100.0f, v1, v2);
ASSERT(test_eq_th(v2[0], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[0], 1.0f, 1e-5f))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5f))
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5f))
GLM(vec3_smoothstep_uni)(-250.0f, -200.0f, v1, v2);
ASSERT(test_eq_th(v2[0], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[1], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[0], 1.0f, 1e-5f))
ASSERT(test_eq_th(v2[1], 1.0f, 1e-5f))
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5f))
GLM(vec3_smoothstep_uni)(-200.0f, 200, v1, v2);
ASSERT(v2[0] > 0.0f && v2[0] < 0.25f)
@@ -1342,19 +1342,19 @@ TEST_IMPL(GLM_PREFIX, vec3_smoothstep) {
vec3 v2;
GLM(vec3_smoothstep)(e1_0, e1_1, v1, v2);
ASSERT(test_eq_th(v2[0], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[0], 0.0f, 1e-5f))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5f))
ASSERT(v2[2] > 0.0f && v2[2] < 0.1f)
GLM(vec3_smoothstep)(e2_0, e2_1, v1, v2);
ASSERT(v2[0] > 0.0f && v2[0] < 0.25f)
ASSERT(v2[1] > 0.0f && v2[1] < 0.15f)
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5f))
GLM(vec3_smoothstep)(e3_0, e3_1, v1, v2);
ASSERT(test_eq_th(v2[0], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[2], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[0], 0.0f, 1e-5f))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5f))
ASSERT(test_eq_th(v2[2], 0.0f, 1e-5f))
TEST_SUCCESS
}
@@ -1368,7 +1368,7 @@ TEST_IMPL(GLM_PREFIX, vec3_smoothinterp) {
vec3 e3_1 = {100.0f, 200.0f, 10.0f};
vec3 v2;
GLM(vec3_smoothinterp)(e1_0, e1_1, 0.5, v2);
GLM(vec3_smoothinterp)(e1_0, e1_1, 0.5f, v2);
ASSERT(v2[0] >= e1_0[0] && v2[0] <= e1_1[0])
ASSERT(v2[1] >= e1_0[1] && v2[1] <= e1_1[1])
ASSERT(v2[2] >= e1_0[2] && v2[2] <= e1_1[2])
@@ -1395,17 +1395,17 @@ TEST_IMPL(GLM_PREFIX, vec3_smoothinterpc) {
vec3 e3_1 = {100.0f, 200.0f, 10.0f};
vec3 v2;
GLM(vec3_smoothinterpc)(e1_0, e1_1, -0.5, v2);
GLM(vec3_smoothinterpc)(e1_0, e1_1, -0.5f, v2);
ASSERT(v2[0] >= e1_0[0] && v2[0] <= e1_1[0])
ASSERT(v2[1] >= e1_0[1] && v2[1] <= e1_1[1])
ASSERT(v2[2] >= e1_0[2] && v2[2] <= e1_1[2])
GLM(vec3_smoothinterpc)(e2_0, e2_1, 0.5, v2);
GLM(vec3_smoothinterpc)(e2_0, e2_1, 0.5f, v2);
ASSERT(v2[0] >= e2_0[0] && v2[0] <= e2_1[0])
ASSERT(v2[1] >= e2_0[1] && v2[1] <= e2_1[1])
ASSERT(v2[2] >= e2_0[2] && v2[2] <= e2_1[2])
GLM(vec3_smoothinterpc)(e3_0, e3_1, 2.0, v2);
GLM(vec3_smoothinterpc)(e3_0, e3_1, 2.0f, v2);
ASSERT(v2[0] >= e3_0[0] && v2[0] <= e3_1[0])
ASSERT(v2[1] >= e3_0[1] && v2[1] <= e3_1[1])
ASSERT(v2[2] >= e3_0[2] && v2[2] <= e3_1[2])

46
test/src/test_vec4.h
View File

@@ -942,18 +942,18 @@ TEST_IMPL(GLM_PREFIX, vec4_smoothstep_uni) {
vec4 v2;
GLM(vec4_smoothstep_uni)(-200.0f, -100.0f, v1, v2);
ASSERT(test_eq_th(v2[0], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[3], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[0], 1.0f, 1e-5f))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5f))
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5f))
ASSERT(test_eq_th(v2[3], 1.0f, 1e-5f))
GLM(vec4_smoothstep_uni)(-250.0f, -200.0f, v1, v2);
ASSERT(test_eq_th(v2[0], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[1], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[3], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[0], 1.0f, 1e-5f))
ASSERT(test_eq_th(v2[1], 1.0f, 1e-5f))
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5f))
ASSERT(test_eq_th(v2[3], 1.0f, 1e-5f))
GLM(vec4_smoothstep_uni)(-200.0f, 200, v1, v2);
GLM(vec4_smoothstep_uni)(-200.0f, 200.0f, v1, v2);
ASSERT(v2[0] > 0.0f && v2[0] < 0.25f)
ASSERT(test_eq(v2[1], 0.0f))
ASSERT(v2[2] > 0.0f && v2[2] < 0.5f)
@@ -973,22 +973,22 @@ TEST_IMPL(GLM_PREFIX, vec4_smoothstep) {
vec4 v2;
GLM(vec4_smoothstep)(e1_0, e1_1, v1, v2);
ASSERT(test_eq_th(v2[0], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[0], 0.0f, 1e-5f))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5f))
ASSERT(v2[2] > 0.0f && v2[2] < 0.1f)
ASSERT(v2[3] > 0.0f && v2[3] < 0.1f)
GLM(vec4_smoothstep)(e2_0, e2_1, v1, v2);
ASSERT(v2[0] > 0.0f && v2[0] < 0.25f)
ASSERT(v2[1] > 0.0f && v2[1] < 0.15f)
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[3], 1.0f, 1e-5))
ASSERT(test_eq_th(v2[2], 1.0f, 1e-5f))
ASSERT(test_eq_th(v2[3], 1.0f, 1e-5f))
GLM(vec4_smoothstep)(e3_0, e3_1, v1, v2);
ASSERT(test_eq_th(v2[0], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[2], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[3], 0.0f, 1e-5))
ASSERT(test_eq_th(v2[0], 0.0f, 1e-5f))
ASSERT(test_eq_th(v2[1], 0.0f, 1e-5f))
ASSERT(test_eq_th(v2[2], 0.0f, 1e-5f))
ASSERT(test_eq_th(v2[3], 0.0f, 1e-5f))
TEST_SUCCESS
}
@@ -1002,19 +1002,19 @@ TEST_IMPL(GLM_PREFIX, vec4_smoothinterp) {
vec4 e3_1 = {100.0f, 200.0f, 10.0f, 10.0f};
vec4 v2;
GLM(vec4_smoothinterp)(e1_0, e1_1, 0.5, v2);
GLM(vec4_smoothinterp)(e1_0, e1_1, 0.5f, v2);
ASSERT(v2[0] >= e1_0[0] && v2[0] <= e1_1[0])
ASSERT(v2[1] >= e1_0[1] && v2[1] <= e1_1[1])
ASSERT(v2[2] >= e1_0[2] && v2[2] <= e1_1[2])
ASSERT(v2[3] >= e1_0[3] && v2[3] <= e1_1[3])
GLM(vec4_smoothinterp)(e2_0, e2_1, 0.5, v2);
GLM(vec4_smoothinterp)(e2_0, e2_1, 0.5f, v2);
ASSERT(v2[0] >= e2_0[0] && v2[0] <= e2_1[0])
ASSERT(v2[1] >= e2_0[1] && v2[1] <= e2_1[1])
ASSERT(v2[2] >= e2_0[2] && v2[2] <= e2_1[2])
ASSERT(v2[3] >= e2_0[3] && v2[3] <= e2_1[3])
GLM(vec4_smoothinterp)(e3_0, e3_1, 1.0, v2);
GLM(vec4_smoothinterp)(e3_0, e3_1, 1.0f, v2);
ASSERT(v2[0] >= e3_0[0] && v2[0] <= e3_1[0])
ASSERT(v2[1] >= e3_0[1] && v2[1] <= e3_1[1])
ASSERT(v2[2] >= e3_0[2] && v2[2] <= e3_1[2])
@@ -1032,19 +1032,19 @@ TEST_IMPL(GLM_PREFIX, vec4_smoothinterpc) {
vec4 e3_1 = {100.0f, 200.0f, 10.0f, 10.0f};
vec4 v2;
GLM(vec4_smoothinterpc)(e1_0, e1_1, -0.5, v2);
GLM(vec4_smoothinterpc)(e1_0, e1_1, -0.5f, v2);
ASSERT(v2[0] >= e1_0[0] && v2[0] <= e1_1[0])
ASSERT(v2[1] >= e1_0[1] && v2[1] <= e1_1[1])
ASSERT(v2[2] >= e1_0[2] && v2[2] <= e1_1[2])
ASSERT(v2[3] >= e1_0[3] && v2[3] <= e1_1[3])
GLM(vec4_smoothinterpc)(e2_0, e2_1, 0.5, v2);
GLM(vec4_smoothinterpc)(e2_0, e2_1, 0.5f, v2);
ASSERT(v2[0] >= e2_0[0] && v2[0] <= e2_1[0])
ASSERT(v2[1] >= e2_0[1] && v2[1] <= e2_1[1])
ASSERT(v2[2] >= e2_0[2] && v2[2] <= e2_1[2])
ASSERT(v2[3] >= e2_0[3] && v2[3] <= e2_1[3])
GLM(vec4_smoothinterpc)(e3_0, e3_1, 2.0, v2);
GLM(vec4_smoothinterpc)(e3_0, e3_1, 2.0f, v2);
ASSERT(v2[0] >= e3_0[0] && v2[0] <= e3_1[0])
ASSERT(v2[1] >= e3_0[1] && v2[1] <= e3_1[1])
ASSERT(v2[2] >= e3_0[2] && v2[2] <= e3_1[2])