#include <glm/glm.hpp> #if GLM_CONFIG_CONSTEXP == GLM_ENABLE #include <glm/gtc/constants.hpp> #include <glm/gtc/quaternion.hpp> #include <glm/ext/vector_relational.hpp> #include <glm/ext/vector_int1.hpp> #include <glm/ext/vector_bool1.hpp> #include <glm/ext/vector_bool4.hpp> #include <glm/ext/vector_float1.hpp> #include <glm/vector_relational.hpp> static int test_vec1() { int Error = 0; { constexpr glm::bvec1 B(true); constexpr bool A = glm::all(B); static_assert(A, "GLM: Failed constexpr"); constexpr glm::bvec1 D(true); constexpr bool C = glm::any(D); static_assert(C, "GLM: Failed constexpr"); } { constexpr glm::bvec2 C(true); constexpr glm::bvec2 B(true); static_assert(glm::any(glm::equal(C, B)), "GLM: Failed constexpr"); } { constexpr glm::ivec1 O(glm::ivec1(1)); static_assert(glm::ivec1(1) == O, "GLM: Failed constexpr"); constexpr glm::ivec1 P(1); static_assert(glm::ivec1(1) == P, "GLM: Failed constexpr"); } { constexpr glm::ivec1 L(glm::ivec2(1, 2)); static_assert(glm::ivec1(1) == L, "GLM: Failed constexpr"); constexpr glm::ivec1 M(glm::ivec3(1, 2, 3)); static_assert(glm::ivec1(1) == M, "GLM: Failed constexpr"); constexpr glm::ivec1 N(glm::ivec4(1, 2, 3, 4)); static_assert(glm::ivec1(1) == N, "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(1); static_assert(A[0] == 1, "GLM: Failed constexpr"); static_assert(glm::vec1(1.0f).x > 0.0f, "GLM: Failed constexpr"); static_assert(glm::vec1::length() == 1, "GLM: Failed constexpr"); } { constexpr glm::bvec1 A1(true); constexpr glm::bvec1 A2(true); constexpr glm::bvec1 B1(false); constexpr glm::bvec1 B2(false); static_assert(A1 == A2 && B1 == B2, "GLM: Failed constexpr"); static_assert(A1 == A2 || B1 == B2, "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(1); constexpr glm::ivec1 B = A + 1; constexpr glm::ivec1 C(3); static_assert(A + B == C, "GLM: Failed constexpr"); constexpr glm::ivec1 D = +A; static_assert(D == A, "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(3); constexpr glm::ivec1 B = A - 1; constexpr glm::ivec1 C(1); static_assert(A - B == C, "GLM: Failed constexpr"); constexpr glm::ivec1 D = -A; static_assert(-D == A, "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(3); constexpr glm::ivec1 B = A * 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(B * C == A, "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(3); constexpr glm::ivec1 B = A / 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(B / C == A, "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(3); constexpr glm::ivec1 B = A % 2; constexpr glm::ivec1 C(1); static_assert(B == C, "GLM: Failed constexpr"); constexpr glm::ivec1 D(2); static_assert(A % D == C, "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(1); constexpr glm::ivec1 B = A & 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(A == (A & C), "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(1); constexpr glm::ivec1 B = A | 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(A == (A | C), "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(1); constexpr glm::ivec1 B = A ^ 0; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(0); static_assert(A == (A ^ C), "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(1); constexpr glm::ivec1 B = A << 1; static_assert(B == glm::ivec1(2), "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(B == (A << C), "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(2); constexpr glm::ivec1 B = A >> 1; static_assert(B == glm::ivec1(1), "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(B == A >> C, "GLM: Failed constexpr"); } { constexpr glm::ivec1 A(~0); constexpr glm::ivec1 B = ~A; static_assert(A == ~B, "GLM: Failed constexpr"); } return Error; } static int test_vec2() { int Error = 0; { constexpr glm::bvec2 B(true); constexpr bool A = glm::all(B); static_assert(A, "GLM: Failed constexpr"); constexpr glm::bvec2 D(true, false); constexpr bool C = glm::any(D); static_assert(C, "GLM: Failed constexpr"); } { constexpr glm::bvec2 C(true); constexpr glm::bvec2 B(true, false); static_assert(glm::any(glm::equal(C, B)), "GLM: Failed constexpr"); } { constexpr glm::ivec2 O(glm::ivec1(1)); static_assert(glm::ivec2(1) == O, "GLM: Failed constexpr"); constexpr glm::ivec2 A(1); static_assert(glm::ivec2(1) == A, "GLM: Failed constexpr"); } { constexpr glm::ivec2 F(glm::ivec1(1), glm::ivec1(2)); static_assert(glm::ivec2(1, 2) == F, "GLM: Failed constexpr"); constexpr glm::ivec2 G(1, glm::ivec1(2)); static_assert(glm::ivec2(1, 2) == G, "GLM: Failed constexpr"); constexpr glm::ivec2 H(glm::ivec1(1), 2); static_assert(glm::ivec2(1, 2) == H, "GLM: Failed constexpr"); constexpr glm::ivec2 I(1, 2); static_assert(glm::ivec2(1, 2) == I, "GLM: Failed constexpr"); } { constexpr glm::ivec2 L(glm::ivec2(1, 2)); static_assert(glm::ivec2(1, 2) == L, "GLM: Failed constexpr"); constexpr glm::ivec2 M(glm::ivec3(1, 2, 3)); static_assert(glm::ivec2(1, 2) == M, "GLM: Failed constexpr"); constexpr glm::ivec2 N(glm::ivec4(1, 2, 3, 4)); static_assert(glm::ivec2(1, 2) == N, "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(1); static_assert(A[0] == 1, "GLM: Failed constexpr"); static_assert(glm::vec2(1.0f).x > 0.0f, "GLM: Failed constexpr"); static_assert(glm::vec2(1.0f, -1.0f).x > 0.0f, "GLM: Failed constexpr"); static_assert(glm::vec2(1.0f, -1.0f).y < 0.0f, "GLM: Failed constexpr"); static_assert(glm::vec2::length() == 2, "GLM: Failed constexpr"); } { constexpr glm::bvec2 A1(true); constexpr glm::bvec2 A2(true); constexpr glm::bvec2 B1(false); constexpr glm::bvec2 B2(false); static_assert(A1 == A2 && B1 == B2, "GLM: Failed constexpr"); static_assert(A1 == A2 || B1 == B2, "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(1); constexpr glm::ivec2 B = A + 1; constexpr glm::ivec2 C(3); static_assert(A + B == C, "GLM: Failed constexpr"); constexpr glm::ivec2 D = +A; static_assert(D == A, "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(3); constexpr glm::ivec2 B = A - 1; constexpr glm::ivec2 C(1); static_assert(A - B == C, "GLM: Failed constexpr"); constexpr glm::ivec2 D = -A; static_assert(-D == A, "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(3); constexpr glm::ivec2 B = A * 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec2 C(1); static_assert(B * C == A, "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(3); constexpr glm::ivec2 B = A / 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec2 C(1); static_assert(B / C == A, "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(3); constexpr glm::ivec2 B = A % 2; constexpr glm::ivec2 C(1); static_assert(B == C, "GLM: Failed constexpr"); constexpr glm::ivec1 D(2); static_assert(A % D == C, "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(1); constexpr glm::ivec2 B = A & 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(A == (A & C), "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(1); constexpr glm::ivec2 B = A | 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(A == (A | C), "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(1); constexpr glm::ivec2 B = A ^ 0; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(0); static_assert(A == (A ^ C), "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(1); constexpr glm::ivec2 B = A << 1; static_assert(B == glm::ivec2(2), "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(B == (A << C), "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(2); constexpr glm::ivec2 B = A >> 1; static_assert(B == glm::ivec2(1), "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(B == A >> C, "GLM: Failed constexpr"); } { constexpr glm::ivec2 A(~0); constexpr glm::ivec2 B = ~A; static_assert(A == ~B, "GLM: Failed constexpr"); } return Error; } static int test_vec3() { int Error = 0; { constexpr glm::bvec3 B(true); constexpr bool A = glm::all(B); static_assert(A, "GLM: Failed constexpr"); constexpr glm::bvec3 D(true, false, true); constexpr bool C = glm::any(D); static_assert(C, "GLM: Failed constexpr"); } { constexpr glm::bvec3 C(true); constexpr glm::bvec3 B(true, false, true); static_assert(glm::any(glm::equal(C, B)), "GLM: Failed constexpr"); } { constexpr glm::ivec3 O(glm::ivec1(1)); static_assert(glm::ivec3(1) == O, "GLM: Failed constexpr"); constexpr glm::ivec3 A(1); static_assert(glm::ivec3(1) == A, "GLM: Failed constexpr"); } { constexpr glm::ivec3 B(glm::ivec2(1, 2), 3); static_assert(glm::ivec3(1, 2, 3) == B, "GLM: Failed constexpr"); constexpr glm::ivec3 C(1, glm::ivec2(2, 3)); static_assert(glm::ivec3(1, 2, 3) == C, "GLM: Failed constexpr"); constexpr glm::ivec3 D(glm::ivec1(1), glm::ivec2(2, 3)); static_assert(glm::ivec3(1, 2, 3) == D, "GLM: Failed constexpr"); constexpr glm::ivec3 E(glm::ivec2(1, 2), glm::ivec1(3)); static_assert(glm::ivec3(1, 2, 3) == E, "GLM: Failed constexpr"); } { constexpr glm::ivec3 F(glm::ivec1(1), glm::ivec1(2), glm::ivec1(3)); static_assert(glm::ivec3(1, 2, 3) == F, "GLM: Failed constexpr"); constexpr glm::ivec3 G(1, glm::ivec1(2), glm::ivec1(3)); static_assert(glm::ivec3(1, 2, 3) == G, "GLM: Failed constexpr"); constexpr glm::ivec3 H(glm::ivec1(1), 2, glm::ivec1(3)); static_assert(glm::ivec3(1, 2, 3) == H, "GLM: Failed constexpr"); constexpr glm::ivec3 I(1, 2, glm::ivec1(3)); static_assert(glm::ivec3(1, 2, 3) == I, "GLM: Failed constexpr"); constexpr glm::ivec3 J(glm::ivec1(1), glm::ivec1(2), 3); static_assert(glm::ivec3(1, 2, 3) == J, "GLM: Failed constexpr"); constexpr glm::ivec3 K(1, glm::ivec1(2), 3); static_assert(glm::ivec3(1, 2, 3) == K, "GLM: Failed constexpr"); constexpr glm::ivec3 L(glm::ivec1(1), 2, 3); static_assert(glm::ivec3(1, 2, 3) == L, "GLM: Failed constexpr"); constexpr glm::ivec3 M(1, 2, 3); static_assert(glm::ivec3(1, 2, 3) == M, "GLM: Failed constexpr"); } { constexpr glm::ivec3 N(glm::ivec4(1, 2, 3, 4)); static_assert(glm::ivec3(1, 2, 3) == N, "GLM: Failed constexpr"); } { constexpr glm::ivec3 const A(1); static_assert(A[0] == 1, "GLM: Failed constexpr"); static_assert(glm::vec3(1.0f).x > 0.0f, "GLM: Failed constexpr"); static_assert(glm::vec3(1.0f, -1.0f, -1.0f).x > 0.0f, "GLM: Failed constexpr"); static_assert(glm::vec3(1.0f, -1.0f, -1.0f).y < 0.0f, "GLM: Failed constexpr"); static_assert(glm::vec3::length() == 3, "GLM: Failed constexpr"); } { constexpr glm::bvec3 A1(true); constexpr glm::bvec3 A2(true); constexpr glm::bvec3 B1(false); constexpr glm::bvec3 B2(false); static_assert(A1 == A2 && B1 == B2, "GLM: Failed constexpr"); static_assert(A1 == A2 || B1 == B2, "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(1); constexpr glm::ivec3 B = A + 1; constexpr glm::ivec3 C(3); static_assert(A + B == C, "GLM: Failed constexpr"); constexpr glm::ivec3 D = +A; static_assert(D == A, "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(3); constexpr glm::ivec3 B = A - 1; constexpr glm::ivec3 C(1); static_assert(A - B == C, "GLM: Failed constexpr"); constexpr glm::ivec3 D = -A; static_assert(-D == A, "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(3); constexpr glm::ivec3 B = A * 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec3 C(1); static_assert(B * C == A, "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(3); constexpr glm::ivec3 B = A / 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec3 C(1); static_assert(B / C == A, "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(3); constexpr glm::ivec3 B = A % 2; constexpr glm::ivec3 C(1); static_assert(B == C, "GLM: Failed constexpr"); constexpr glm::ivec1 D(2); static_assert(A % D == C, "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(1); constexpr glm::ivec3 B = A & 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(A == (A & C), "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(1); constexpr glm::ivec3 B = A | 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(A == (A | C), "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(1); constexpr glm::ivec3 B = A ^ 0; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(0); static_assert(A == (A ^ C), "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(1); constexpr glm::ivec3 B = A << 1; static_assert(B == glm::ivec3(2), "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(B == (A << C), "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(2); constexpr glm::ivec3 B = A >> 1; static_assert(B == glm::ivec3(1), "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(B == A >> C, "GLM: Failed constexpr"); } { constexpr glm::ivec3 A(~0); constexpr glm::ivec3 B = ~A; static_assert(A == ~B, "GLM: Failed constexpr"); } return Error; } static int test_vec4() { int Error = 0; { constexpr glm::bvec4 B(true); constexpr bool A = glm::all(B); static_assert(A, "GLM: Failed constexpr"); constexpr glm::bvec4 D(true, false, true, false); constexpr bool C = glm::any(D); static_assert(C, "GLM: Failed constexpr"); } { constexpr glm::bvec4 C(true); constexpr glm::bvec4 B(true, false, true, false); static_assert(glm::any(glm::equal(C, B)), "GLM: Failed constexpr"); } { constexpr glm::ivec4 O(glm::ivec4(1)); static_assert(glm::ivec4(1) == O, "GLM: Failed constexpr"); constexpr glm::ivec4 A(1); static_assert(glm::ivec4(1) == A, "GLM: Failed constexpr"); constexpr glm::ivec4 N(glm::ivec4(1, 2, 3, 4)); static_assert(glm::ivec4(1, 2, 3, 4) == N, "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(glm::ivec3(1, 2, 3), 4); static_assert(glm::ivec4(1, 2, 3, 4) == A, "GLM: Failed constexpr"); constexpr glm::ivec4 B(glm::ivec2(1, 2), glm::ivec2(3, 4)); static_assert(glm::ivec4(1, 2, 3, 4) == B, "GLM: Failed constexpr"); constexpr glm::ivec4 C(1, glm::ivec3(2, 3, 4)); static_assert(glm::ivec4(1, 2, 3, 4) == C, "GLM: Failed constexpr"); constexpr glm::ivec4 D(glm::ivec1(1), glm::ivec2(2, 3), glm::ivec1(4)); static_assert(glm::ivec4(1, 2, 3, 4) == D, "GLM: Failed constexpr"); constexpr glm::ivec4 E(glm::ivec2(1, 2), glm::ivec1(3), glm::ivec1(4)); static_assert(glm::ivec4(1, 2, 3, 4) == E, "GLM: Failed constexpr"); constexpr glm::ivec4 F(glm::ivec1(1), glm::ivec1(2), glm::ivec2(3, 4)); static_assert(glm::ivec4(1, 2, 3, 4) == F, "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(1); static_assert(A[0] == 1, "GLM: Failed constexpr"); static_assert(glm::ivec4(1).x > 0, "GLM: Failed constexpr"); static_assert(glm::ivec4(1.0f, -1.0f, -1.0f, 1.0f).x > 0, "GLM: Failed constexpr"); static_assert(glm::ivec4(1.0f, -1.0f, -1.0f, 1.0f).y < 0, "GLM: Failed constexpr"); static_assert(glm::ivec4::length() == 4, "GLM: Failed constexpr"); } { constexpr glm::bvec4 A1(true); constexpr glm::bvec4 A2(true); constexpr glm::bvec4 B1(false); constexpr glm::bvec4 B2(false); static_assert(A1 == A2 && B1 == B2, "GLM: Failed constexpr"); static_assert(A1 == A2 || B1 == B2, "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(1); constexpr glm::ivec4 B = A + 1; constexpr glm::ivec4 C(3); static_assert(A + B == C, "GLM: Failed constexpr"); constexpr glm::ivec4 D = +A; static_assert(D == A, "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(3); constexpr glm::ivec4 B = A - 1; constexpr glm::ivec4 C(1); static_assert(A - B == C, "GLM: Failed constexpr"); constexpr glm::ivec4 D = -A; static_assert(-D == A, "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(3); constexpr glm::ivec4 B = A * 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec4 C(1); static_assert(B * C == A, "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(3); constexpr glm::ivec4 B = A / 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec4 C(1); static_assert(B / C == A, "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(3); constexpr glm::ivec4 B = A % 2; constexpr glm::ivec4 C(1); static_assert(B == C, "GLM: Failed constexpr"); constexpr glm::ivec1 D(2); static_assert(A % D == C, "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(1); constexpr glm::ivec4 B = A & 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(A == (A & C), "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(1); constexpr glm::ivec4 B = A | 1; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(A == (A | C), "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(1); constexpr glm::ivec4 B = A ^ 0; static_assert(A == B, "GLM: Failed constexpr"); constexpr glm::ivec1 C(0); static_assert(A == (A ^ C), "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(1); constexpr glm::ivec4 B = A << 1; static_assert(B == glm::ivec4(2), "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(B == (A << C), "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(2); constexpr glm::ivec4 B = A >> 1; static_assert(B == glm::ivec4(1), "GLM: Failed constexpr"); constexpr glm::ivec1 C(1); static_assert(B == A >> C, "GLM: Failed constexpr"); } { constexpr glm::ivec4 A(~0); constexpr glm::ivec4 B = ~A; static_assert(A == ~B, "GLM: Failed constexpr"); } return Error; } static int test_quat() { int Error = 0; { static_assert(glm::quat::length() == 4, "GLM: Failed constexpr"); static_assert(glm::quat(1.0f, glm::vec3(0.0f)).w > 0.0f, "GLM: Failed constexpr"); static_assert(glm::quat(1.0f, 0.0f, 0.0f, 0.0f).w > 0.0f, "GLM: Failed constexpr"); glm::quat constexpr Q = glm::identity<glm::quat>(); static_assert(Q.x - glm::quat(1.0f, glm::vec3(0.0f)).x <= glm::epsilon<float>(), "GLM: Failed constexpr"); } return Error; } static int test_mat2x2() { int Error = 0; static_assert(glm::mat2x2::length() == 2, "GLM: Failed constexpr"); return Error; } #endif//GLM_CONFIG_CONSTEXP == GLM_ENABLE int main() { int Error = 0; # if GLM_CONFIG_CONSTEXP == GLM_ENABLE Error += test_vec1(); Error += test_vec2(); Error += test_vec3(); Error += test_vec4(); Error += test_quat(); Error += test_mat2x2(); # endif//GLM_CONFIG_CONSTEXP == GLM_ENABLE return Error; }