/* * Copyright (c), Recep Aslantas. * * MIT License (MIT), http://opensource.org/licenses/MIT * Full license can be found in the LICENSE file */ #include "test_common.h" TEST_IMPL(GLM_PREFIX, ivec2) { ivec4 v4 = {2, 3, 5, 7}; ivec3 v3 = {11, 13, 17}; ivec2 v2; GLM(ivec2)(v4, v2); ASSERT(v2[0] == 2) ASSERT(v2[1] == 3) GLM(ivec2)(v3, v2); ASSERT(v2[0] == 11) ASSERT(v2[1] == 13) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_copy) { ivec2 src = {7, 5}; ivec2 dst = {99, 99}; GLM(ivec2_copy)(src, dst); ASSERT(dst[0] == 7) ASSERT(dst[1] == 5) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_zero) { ivec2 v = {2, 3}; GLM(ivec2_zero)(v); ASSERT(v[0] == 0) ASSERT(v[1] == 0) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_one) { ivec2 v = {-2, 9}; GLM(ivec2_one)(v); ASSERT(v[0] == 1) ASSERT(v[1] == 1) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_add) { ivec2 a = {14, 3}; ivec2 b = {-3, 2}; ivec2 v = {99, 99}; GLM(ivec2_add)(a, b, v); ASSERT(v[0] == 11) ASSERT(v[1] == 5) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_adds) { ivec2 a = {-3, 1}; ivec2 v = {99, 99}; int s = 2; GLM(ivec2_adds)(a, s, v); ASSERT(v[0] == -1) ASSERT(v[1] == 3) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_sub) { ivec2 a = {-2, 9}; ivec2 b = {3, 2}; ivec2 v = {99, 99}; GLM(ivec2_sub)(a, b, v); ASSERT(v[0] == -5) ASSERT(v[1] == 7) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_subs) { ivec2 a = {5, -2}; ivec2 v = {99, 99}; int s = -3; GLM(ivec2_subs)(a, s, v); ASSERT(v[0] == 8) ASSERT(v[1] == 1) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_mul) { ivec2 a = {3, 4}; ivec2 b = {-2, 3}; ivec2 v = {99, 99}; GLM(ivec2_mul)(a, b, v); ASSERT(v[0] == -6) ASSERT(v[1] == 12) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_scale) { ivec2 a = {-9, 2}; ivec2 v = {99, 99}; int s = -2; GLM(ivec2_scale)(a, s, v); ASSERT(v[0] == 18) ASSERT(v[1] == -4) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_distance2) { ivec2 a = {-1, 3}; ivec2 b = {5, 4}; int v; v = GLM(ivec2_distance2)(a, b); ASSERT(v == 37) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_distance) { ivec2 a = {3, 2}; ivec2 b = {-2, 5}; float v; v = GLM(ivec2_distance)(a, b); ASSERT(test_eq(v, 5.8309518948)) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_maxv) { ivec2 a = {9, -20}; ivec2 b = {8, -1}; ivec2 v = {99, 99}; GLM(ivec2_maxv)(a, b, v); ASSERT(v[0] == 9) ASSERT(v[1] == -1) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_minv) { ivec2 a = {16, 0}; ivec2 b = {-15, 10}; ivec2 v = {99, 99}; GLM(ivec2_minv)(a, b, v); ASSERT(v[0] == -15) ASSERT(v[1] == 0) TEST_SUCCESS } TEST_IMPL(GLM_PREFIX, ivec2_clamp) { ivec2 v = {3, -1}; GLM(ivec2_clamp)(v, -2, 4); ASSERT(v[0] == 3) ASSERT(v[1] == -1) v[0] = -15; v[1] = 4; GLM(ivec2_clamp)(v, -9, 3); ASSERT(v[0] == -9) ASSERT(v[1] == 3) TEST_SUCCESS }