// RUN: %clang_cc1 %s -triple x86_64-linux-gnu -std=c++14 -fsyntax-only -verify // RUN: %clang_cc1 %s -triple x86_64-linux-gnu -fexperimental-new-constant-interpreter -std=c++14 -fsyntax-only -verify using FourCharsVecSize __attribute__((vector_size(4))) = char; using FourIntsVecSize __attribute__((vector_size(16))) = int; using FourLongLongsVecSize __attribute__((vector_size(32))) = long long; using FourFloatsVecSize __attribute__((vector_size(16))) = float; using FourDoublesVecSize __attribute__((vector_size(32))) = double; using FourI128VecSize __attribute__((vector_size(64))) = __int128; using FourCharsExtVec __attribute__((ext_vector_type(4))) = char; using FourIntsExtVec __attribute__((ext_vector_type(4))) = int; using FourLongLongsExtVec __attribute__((ext_vector_type(4))) = long long; using FourFloatsExtVec __attribute__((ext_vector_type(4))) = float; using FourDoublesExtVec __attribute__((ext_vector_type(4))) = double; using FourI128ExtVec __attribute__((ext_vector_type(4))) = __int128; // Next a series of tests to make sure these operations are usable in // constexpr functions. Template instantiations don't emit Winvalid-constexpr, // so we have to do these as macros. #define MathShiftOps(Type) \ constexpr auto MathShiftOps##Type(Type a, Type b) { \ a = a + b; \ a = a - b; \ a = a * b; \ a = a / b; \ b = a + 1; \ b = a - 1; \ b = a * 1; \ b = a / 1; \ a += a; \ a -= a; \ a *= a; \ a /= a; \ b += a; \ b -= a; \ b *= a; \ b /= a; \ b = (a += a); \ b = (a -= a); \ b = (a *= a); \ b = (a /= a); \ b = (b += a); \ b = (b -= a); \ b = (b *= a); \ b = (b /= a); \ a < b; \ a > b; \ a <= b; \ a >= b; \ a == b; \ a != b; \ a &&b; \ a || b; \ auto c = (a, b); \ return c; \ } // Ops specific to Integers. #define MathShiftOpsInts(Type) \ constexpr auto MathShiftopsInts##Type(Type a, Type b) { \ a = a << b; \ a = a >> b; \ a = a << 3; \ a = a >> 3; \ a = 3 << b; \ a = 3 >> b; \ a <<= b; \ a >>= b; \ a <<= 3; \ a >>= 3; \ b = (a <<= b); \ b = (a >>= b); \ b = (a <<= 3); \ b = (a >>= 3); \ a = a % b; \ a &b; \ a | b; \ a ^ b; \ return a; \ } MathShiftOps(FourCharsVecSize); MathShiftOps(FourIntsVecSize); MathShiftOps(FourLongLongsVecSize); MathShiftOps(FourI128VecSize); MathShiftOps(FourFloatsVecSize); MathShiftOps(FourDoublesVecSize); MathShiftOps(FourCharsExtVec); MathShiftOps(FourIntsExtVec); MathShiftOps(FourLongLongsExtVec); MathShiftOps(FourI128ExtVec); MathShiftOps(FourFloatsExtVec); MathShiftOps(FourDoublesExtVec); MathShiftOpsInts(FourCharsVecSize); MathShiftOpsInts(FourIntsVecSize); MathShiftOpsInts(FourLongLongsVecSize); MathShiftOpsInts(FourI128VecSize); MathShiftOpsInts(FourCharsExtVec); MathShiftOpsInts(FourIntsExtVec); MathShiftOpsInts(FourLongLongsExtVec); MathShiftOpsInts(FourI128ExtVec); template constexpr auto CmpMul(T t, U u) { t *= u; return t; } template constexpr auto CmpDiv(T t, U u) { t /= u; return t; } template constexpr auto CmpRem(T t, U u) { t %= u; return t; } template constexpr auto CmpAdd(T t, U u) { t += u; return t; } template constexpr auto CmpSub(T t, U u) { t -= u; return t; } template constexpr auto CmpLSH(T t, U u) { t <<= u; return t; } template constexpr auto CmpRSH(T t, U u) { t >>= u; return t; } template constexpr auto CmpBinAnd(T t, U u) { t &= u; return t; } template constexpr auto CmpBinXOr(T t, U u) { t ^= u; return t; } template constexpr auto CmpBinOr(T t, U u) { t |= u; return t; } constexpr auto CmpF(float t, float u) { return __builtin_fabs(t - u) < 0.0001; } // Only int vs float makes a difference here, so we only need to test 1 of each. // Test Char to make sure the mixed-nature of shifts around char is evident. void CharUsage() { constexpr auto a = FourCharsVecSize{6, 3, 2, 1} + FourCharsVecSize{12, 15, 5, 7}; static_assert(a[0] == 18 && a[1] == 18 && a[2] == 7 && a[3] == 8, ""); constexpr auto b = FourCharsVecSize{19, 15, 13, 12} - FourCharsVecSize{13, 14, 5, 3}; static_assert(b[0] == 6 && b[1] == 1 && b[2] == 8 && b[3] == 9, ""); constexpr auto c = FourCharsVecSize{8, 4, 2, 1} * FourCharsVecSize{3, 4, 5, 6}; static_assert(c[0] == 24 && c[1] == 16 && c[2] == 10 && c[3] == 6, ""); constexpr auto d = FourCharsVecSize{12, 12, 10, 10} / FourCharsVecSize{6, 4, 5, 2}; static_assert(d[0] == 2 && d[1] == 3 && d[2] == 2 && d[3] == 5, ""); constexpr auto e = FourCharsVecSize{12, 12, 10, 10} % FourCharsVecSize{6, 4, 4, 3}; static_assert(e[0] == 0 && e[1] == 0 && e[2] == 2 && e[3] == 1, ""); constexpr auto f = FourCharsVecSize{6, 3, 2, 1} + 3; static_assert(f[0] == 9 && f[1] == 6 && f[2] == 5 && f[3] == 4, ""); constexpr auto g = FourCharsVecSize{19, 15, 12, 10} - 3; static_assert(g[0] == 16 && g[1] == 12 && g[2] == 9 && g[3] == 7, ""); constexpr auto h = FourCharsVecSize{8, 4, 2, 1} * 3; static_assert(h[0] == 24 && h[1] == 12 && h[2] == 6 && h[3] == 3, ""); constexpr auto j = FourCharsVecSize{12, 15, 18, 21} / 3; static_assert(j[0] == 4 && j[1] == 5 && j[2] == 6 && j[3] == 7, ""); constexpr auto k = FourCharsVecSize{12, 17, 19, 22} % 3; static_assert(k[0] == 0 && k[1] == 2 && k[2] == 1 && k[3] == 1, ""); constexpr auto l = 3 + FourCharsVecSize{6, 3, 2, 1}; static_assert(l[0] == 9 && l[1] == 6 && l[2] == 5 && l[3] == 4, ""); constexpr auto m = 20 - FourCharsVecSize{19, 15, 12, 10}; static_assert(m[0] == 1 && m[1] == 5 && m[2] == 8 && m[3] == 10, ""); constexpr auto n = 3 * FourCharsVecSize{8, 4, 2, 1}; static_assert(n[0] == 24 && n[1] == 12 && n[2] == 6 && n[3] == 3, ""); constexpr auto o = 100 / FourCharsVecSize{12, 15, 18, 21}; static_assert(o[0] == 8 && o[1] == 6 && o[2] == 5 && o[3] == 4, ""); constexpr auto p = 100 % FourCharsVecSize{12, 15, 18, 21}; static_assert(p[0] == 4 && p[1] == 10 && p[2] == 10 && p[3] == 16, ""); constexpr auto q = FourCharsVecSize{6, 3, 2, 1} << FourCharsVecSize{1, 1, 2, 2}; static_assert(q[0] == 12 && q[1] == 6 && q[2] == 8 && q[3] == 4, ""); constexpr auto r = FourCharsVecSize{19, 15, 12, 10} >> FourCharsVecSize{1, 1, 2, 2}; static_assert(r[0] == 9 && r[1] == 7 && r[2] == 3 && r[3] == 2, ""); constexpr auto s = FourCharsVecSize{6, 3, 5, 10} << 1; static_assert(s[0] == 12 && s[1] == 6 && s[2] == 10 && s[3] == 20, ""); constexpr auto t = FourCharsVecSize{19, 15, 10, 20} >> 1; static_assert(t[0] == 9 && t[1] == 7 && t[2] == 5 && t[3] == 10, ""); constexpr auto u = 12 << FourCharsVecSize{1, 2, 3, 3}; static_assert(u[0] == 24 && u[1] == 48 && u[2] == 96 && u[3] == 96, ""); constexpr auto v = 12 >> FourCharsVecSize{1, 2, 2, 1}; static_assert(v[0] == 6 && v[1] == 3 && v[2] == 3 && v[3] == 6, ""); constexpr auto w = FourCharsVecSize{1, 2, 3, 4} < FourCharsVecSize{4, 3, 2, 1}; static_assert(w[0] == -1 && w[1] == -1 && w[2] == 0 && w[3] == 0, ""); constexpr auto x = FourCharsVecSize{1, 2, 3, 4} > FourCharsVecSize{4, 3, 2, 1}; static_assert(x[0] == 0 && x[1] == 0 && x[2] == -1 && x[3] == -1, ""); constexpr auto y = FourCharsVecSize{1, 2, 3, 4} <= FourCharsVecSize{4, 3, 3, 1}; static_assert(y[0] == -1 && y[1] == -1 && y[2] == -1 && y[3] == 0, ""); constexpr auto z = FourCharsVecSize{1, 2, 3, 4} >= FourCharsVecSize{4, 3, 3, 1}; static_assert(z[0] == 0 && z[1] == 0 && z[2] == -1 && z[3] == -1, ""); constexpr auto A = FourCharsVecSize{1, 2, 3, 4} == FourCharsVecSize{4, 3, 3, 1}; static_assert(A[0] == 0 && A[1] == 0 && A[2] == -1 && A[3] == 0, ""); constexpr auto B = FourCharsVecSize{1, 2, 3, 4} != FourCharsVecSize{4, 3, 3, 1}; static_assert(B[0] == -1 && B[1] == -1 && B[2] == 0 && B[3] == -1, ""); constexpr auto C = FourCharsVecSize{1, 2, 3, 4} < 3; static_assert(C[0] == -1 && C[1] == -1 && C[2] == 0 && C[3] == 0, ""); constexpr auto D = FourCharsVecSize{1, 2, 3, 4} > 3; static_assert(D[0] == 0 && D[1] == 0 && D[2] == 0 && D[3] == -1, ""); constexpr auto E = FourCharsVecSize{1, 2, 3, 4} <= 3; static_assert(E[0] == -1 && E[1] == -1 && E[2] == -1 && E[3] == 0, ""); constexpr auto F = FourCharsVecSize{1, 2, 3, 4} >= 3; static_assert(F[0] == 0 && F[1] == 0 && F[2] == -1 && F[3] == -1, ""); constexpr auto G = FourCharsVecSize{1, 2, 3, 4} == 3; static_assert(G[0] == 0 && G[1] == 0 && G[2] == -1 && G[3] == 0, ""); constexpr auto H = FourCharsVecSize{1, 2, 3, 4} != 3; static_assert(H[0] == -1 && H[1] == -1 && H[2] == 0 && H[3] == -1, ""); constexpr auto I = FourCharsVecSize{1, 2, 3, 4} & FourCharsVecSize{4, 3, 2, 1}; static_assert(I[0] == 0 && I[1] == 2 && I[2] == 2 && I[3] == 0, ""); constexpr auto J = FourCharsVecSize{1, 2, 3, 4} ^ FourCharsVecSize { 4, 3, 2, 1 }; static_assert(J[0] == 5 && J[1] == 1 && J[2] == 1 && J[3] == 5, ""); constexpr auto K = FourCharsVecSize{1, 2, 3, 4} | FourCharsVecSize{4, 3, 2, 1}; static_assert(K[0] == 5 && K[1] == 3 && K[2] == 3 && K[3] == 5, ""); constexpr auto L = FourCharsVecSize{1, 2, 3, 4} & 3; static_assert(L[0] == 1 && L[1] == 2 && L[2] == 3 && L[3] == 0, ""); constexpr auto M = FourCharsVecSize{1, 2, 3, 4} ^ 3; static_assert(M[0] == 2 && M[1] == 1 && M[2] == 0 && M[3] == 7, ""); constexpr auto N = FourCharsVecSize{1, 2, 3, 4} | 3; static_assert(N[0] == 3 && N[1] == 3 && N[2] == 3 && N[3] == 7, ""); constexpr auto O = FourCharsVecSize{5, 0, 6, 0} && FourCharsVecSize{5, 5, 0, 0}; static_assert(O[0] == 1 && O[1] == 0 && O[2] == 0 && O[3] == 0, ""); constexpr auto P = FourCharsVecSize{5, 0, 6, 0} || FourCharsVecSize{5, 5, 0, 0}; static_assert(P[0] == 1 && P[1] == 1 && P[2] == 1 && P[3] == 0, ""); constexpr auto Q = FourCharsVecSize{5, 0, 6, 0} && 3; static_assert(Q[0] == 1 && Q[1] == 0 && Q[2] == 1 && Q[3] == 0, ""); constexpr auto R = FourCharsVecSize{5, 0, 6, 0} || 3; static_assert(R[0] == 1 && R[1] == 1 && R[2] == 1 && R[3] == 1, ""); constexpr auto T = CmpMul(a, b); static_assert(T[0] == 108 && T[1] == 18 && T[2] == 56 && T[3] == 72, ""); constexpr auto U = CmpDiv(a, b); static_assert(U[0] == 3 && U[1] == 18 && U[2] == 0 && U[3] == 0, ""); constexpr auto V = CmpRem(a, b); static_assert(V[0] == 0 && V[1] == 0 && V[2] == 7 && V[3] == 8, ""); constexpr auto X = CmpAdd(a, b); static_assert(X[0] == 24 && X[1] == 19 && X[2] == 15 && X[3] == 17, ""); constexpr auto Y = CmpSub(a, b); static_assert(Y[0] == 12 && Y[1] == 17 && Y[2] == -1 && Y[3] == -1, ""); constexpr auto InvH = -H; static_assert(InvH[0] == 1 && InvH[1] == 1 && InvH[2] == 0 && InvH[3] == 1, ""); constexpr auto Z = CmpLSH(a, InvH); static_assert(Z[0] == 36 && Z[1] == 36 && Z[2] == 7 && Z[3] == 16, ""); constexpr auto aa = CmpRSH(a, InvH); static_assert(aa[0] == 9 && aa[1] == 9 && aa[2] == 7 && aa[3] == 4, ""); constexpr auto ab = CmpBinAnd(a, b); static_assert(ab[0] == 2 && ab[1] == 0 && ab[2] == 0 && ab[3] == 8, ""); constexpr auto ac = CmpBinXOr(a, b); static_assert(ac[0] == 20 && ac[1] == 19 && ac[2] == 15 && ac[3] == 1, ""); constexpr auto ad = CmpBinOr(a, b); static_assert(ad[0] == 22 && ad[1] == 19 && ad[2] == 15 && ad[3] == 9, ""); constexpr auto ae = ~FourCharsVecSize{1, 2, 10, 20}; static_assert(ae[0] == -2 && ae[1] == -3 && ae[2] == -11 && ae[3] == -21, ""); constexpr auto af = !FourCharsVecSize{0, 1, 8, -1}; static_assert(af[0] == -1 && af[1] == 0 && af[2] == 0 && af[3] == 0, ""); } void CharExtVecUsage() { constexpr auto a = FourCharsExtVec{6, 3, 2, 1} + FourCharsExtVec{12, 15, 5, 7}; static_assert(a[0] == 18 && a[1] == 18 && a[2] == 7 && a[3] == 8, ""); constexpr auto b = FourCharsExtVec{19, 15, 13, 12} - FourCharsExtVec{13, 14, 5, 3}; static_assert(b[0] == 6 && b[1] == 1 && b[2] == 8 && b[3] == 9, ""); constexpr auto c = FourCharsExtVec{8, 4, 2, 1} * FourCharsExtVec{3, 4, 5, 6}; static_assert(c[0] == 24 && c[1] == 16 && c[2] == 10 && c[3] == 6, ""); constexpr auto d = FourCharsExtVec{12, 12, 10, 10} / FourCharsExtVec{6, 4, 5, 2}; static_assert(d[0] == 2 && d[1] == 3 && d[2] == 2 && d[3] == 5, ""); constexpr auto e = FourCharsExtVec{12, 12, 10, 10} % FourCharsExtVec{6, 4, 4, 3}; static_assert(e[0] == 0 && e[1] == 0 && e[2] == 2 && e[3] == 1, ""); constexpr auto f = FourCharsExtVec{6, 3, 2, 1} + 3; static_assert(f[0] == 9 && f[1] == 6 && f[2] == 5 && f[3] == 4, ""); constexpr auto g = FourCharsExtVec{19, 15, 12, 10} - 3; static_assert(g[0] == 16 && g[1] == 12 && g[2] == 9 && g[3] == 7, ""); constexpr auto h = FourCharsExtVec{8, 4, 2, 1} * 3; static_assert(h[0] == 24 && h[1] == 12 && h[2] == 6 && h[3] == 3, ""); constexpr auto j = FourCharsExtVec{12, 15, 18, 21} / 3; static_assert(j[0] == 4 && j[1] == 5 && j[2] == 6 && j[3] == 7, ""); constexpr auto k = FourCharsExtVec{12, 17, 19, 22} % 3; static_assert(k[0] == 0 && k[1] == 2 && k[2] == 1 && k[3] == 1, ""); constexpr auto l = 3 + FourCharsExtVec{6, 3, 2, 1}; static_assert(l[0] == 9 && l[1] == 6 && l[2] == 5 && l[3] == 4, ""); constexpr auto m = 20 - FourCharsExtVec{19, 15, 12, 10}; static_assert(m[0] == 1 && m[1] == 5 && m[2] == 8 && m[3] == 10, ""); constexpr auto n = 3 * FourCharsExtVec{8, 4, 2, 1}; static_assert(n[0] == 24 && n[1] == 12 && n[2] == 6 && n[3] == 3, ""); constexpr auto o = 100 / FourCharsExtVec{12, 15, 18, 21}; static_assert(o[0] == 8 && o[1] == 6 && o[2] == 5 && o[3] == 4, ""); constexpr auto p = 100 % FourCharsExtVec{12, 15, 18, 21}; static_assert(p[0] == 4 && p[1] == 10 && p[2] == 10 && p[3] == 16, ""); constexpr auto q = FourCharsExtVec{6, 3, 2, 1} << FourCharsVecSize{1, 1, 2, 2}; static_assert(q[0] == 12 && q[1] == 6 && q[2] == 8 && q[3] == 4, ""); constexpr auto r = FourCharsExtVec{19, 15, 12, 10} >> FourCharsExtVec{1, 1, 2, 2}; static_assert(r[0] == 9 && r[1] == 7 && r[2] == 3 && r[3] == 2, ""); constexpr auto s = FourCharsExtVec{6, 3, 5, 10} << 1; static_assert(s[0] == 12 && s[1] == 6 && s[2] == 10 && s[3] == 20, ""); constexpr auto t = FourCharsExtVec{19, 15, 10, 20} >> 1; static_assert(t[0] == 9 && t[1] == 7 && t[2] == 5 && t[3] == 10, ""); constexpr auto u = 12 << FourCharsExtVec{1, 2, 3, 3}; static_assert(u[0] == 24 && u[1] == 48 && u[2] == 96 && u[3] == 96, ""); constexpr auto v = 12 >> FourCharsExtVec{1, 2, 2, 1}; static_assert(v[0] == 6 && v[1] == 3 && v[2] == 3 && v[3] == 6, ""); constexpr auto w = FourCharsExtVec{1, 2, 3, 4} < FourCharsExtVec{4, 3, 2, 1}; static_assert(w[0] == -1 && w[1] == -1 && w[2] == 0 && w[3] == 0, ""); constexpr auto x = FourCharsExtVec{1, 2, 3, 4} > FourCharsExtVec{4, 3, 2, 1}; static_assert(x[0] == 0 && x[1] == 0 && x[2] == -1 && x[3] == -1, ""); constexpr auto y = FourCharsExtVec{1, 2, 3, 4} <= FourCharsExtVec{4, 3, 3, 1}; static_assert(y[0] == -1 && y[1] == -1 && y[2] == -1 && y[3] == 0, ""); constexpr auto z = FourCharsExtVec{1, 2, 3, 4} >= FourCharsExtVec{4, 3, 3, 1}; static_assert(z[0] == 0 && z[1] == 0 && z[2] == -1 && z[3] == -1, ""); constexpr auto A = FourCharsExtVec{1, 2, 3, 4} == FourCharsExtVec{4, 3, 3, 1}; static_assert(A[0] == 0 && A[1] == 0 && A[2] == -1 && A[3] == 0, ""); constexpr auto B = FourCharsExtVec{1, 2, 3, 4} != FourCharsExtVec{4, 3, 3, 1}; static_assert(B[0] == -1 && B[1] == -1 && B[2] == 0 && B[3] == -1, ""); constexpr auto C = FourCharsExtVec{1, 2, 3, 4} < 3; static_assert(C[0] == -1 && C[1] == -1 && C[2] == 0 && C[3] == 0, ""); constexpr auto D = FourCharsExtVec{1, 2, 3, 4} > 3; static_assert(D[0] == 0 && D[1] == 0 && D[2] == 0 && D[3] == -1, ""); constexpr auto E = FourCharsExtVec{1, 2, 3, 4} <= 3; static_assert(E[0] == -1 && E[1] == -1 && E[2] == -1 && E[3] == 0, ""); constexpr auto F = FourCharsExtVec{1, 2, 3, 4} >= 3; static_assert(F[0] == 0 && F[1] == 0 && F[2] == -1 && F[3] == -1, ""); constexpr auto G = FourCharsExtVec{1, 2, 3, 4} == 3; static_assert(G[0] == 0 && G[1] == 0 && G[2] == -1 && G[3] == 0, ""); constexpr auto H = FourCharsExtVec{1, 2, 3, 4} != 3; static_assert(H[0] == -1 && H[1] == -1 && H[2] == 0 && H[3] == -1, ""); constexpr auto I = FourCharsExtVec{1, 2, 3, 4} & FourCharsExtVec{4, 3, 2, 1}; static_assert(I[0] == 0 && I[1] == 2 && I[2] == 2 && I[3] == 0, ""); constexpr auto J = FourCharsExtVec{1, 2, 3, 4} ^ FourCharsExtVec { 4, 3, 2, 1 }; static_assert(J[0] == 5 && J[1] == 1 && J[2] == 1 && J[3] == 5, ""); constexpr auto K = FourCharsExtVec{1, 2, 3, 4} | FourCharsExtVec{4, 3, 2, 1}; static_assert(K[0] == 5 && K[1] == 3 && K[2] == 3 && K[3] == 5, ""); constexpr auto L = FourCharsExtVec{1, 2, 3, 4} & 3; static_assert(L[0] == 1 && L[1] == 2 && L[2] == 3 && L[3] == 0, ""); constexpr auto M = FourCharsExtVec{1, 2, 3, 4} ^ 3; static_assert(M[0] == 2 && M[1] == 1 && M[2] == 0 && M[3] == 7, ""); constexpr auto N = FourCharsExtVec{1, 2, 3, 4} | 3; static_assert(N[0] == 3 && N[1] == 3 && N[2] == 3 && N[3] == 7, ""); constexpr auto O = FourCharsExtVec{5, 0, 6, 0} && FourCharsExtVec{5, 5, 0, 0}; static_assert(O[0] == 1 && O[1] == 0 && O[2] == 0 && O[3] == 0, ""); constexpr auto P = FourCharsExtVec{5, 0, 6, 0} || FourCharsExtVec{5, 5, 0, 0}; static_assert(P[0] == 1 && P[1] == 1 && P[2] == 1 && P[3] == 0, ""); constexpr auto Q = FourCharsExtVec{5, 0, 6, 0} && 3; static_assert(Q[0] == 1 && Q[1] == 0 && Q[2] == 1 && Q[3] == 0, ""); constexpr auto R = FourCharsExtVec{5, 0, 6, 0} || 3; static_assert(R[0] == 1 && R[1] == 1 && R[2] == 1 && R[3] == 1, ""); constexpr auto T = CmpMul(a, b); static_assert(T[0] == 108 && T[1] == 18 && T[2] == 56 && T[3] == 72, ""); constexpr auto U = CmpDiv(a, b); static_assert(U[0] == 3 && U[1] == 18 && U[2] == 0 && U[3] == 0, ""); constexpr auto V = CmpRem(a, b); static_assert(V[0] == 0 && V[1] == 0 && V[2] == 7 && V[3] == 8, ""); constexpr auto X = CmpAdd(a, b); static_assert(X[0] == 24 && X[1] == 19 && X[2] == 15 && X[3] == 17, ""); constexpr auto Y = CmpSub(a, b); static_assert(Y[0] == 12 && Y[1] == 17 && Y[2] == -1 && Y[3] == -1, ""); constexpr auto InvH = -H; static_assert(InvH[0] == 1 && InvH[1] == 1 && InvH[2] == 0 && InvH[3] == 1, ""); constexpr auto Z = CmpLSH(a, InvH); static_assert(Z[0] == 36 && Z[1] == 36 && Z[2] == 7 && Z[3] == 16, ""); constexpr auto aa = CmpRSH(a, InvH); static_assert(aa[0] == 9 && aa[1] == 9 && aa[2] == 7 && aa[3] == 4, ""); constexpr auto ab = CmpBinAnd(a, b); static_assert(ab[0] == 2 && ab[1] == 0 && ab[2] == 0 && ab[3] == 8, ""); constexpr auto ac = CmpBinXOr(a, b); static_assert(ac[0] == 20 && ac[1] == 19 && ac[2] == 15 && ac[3] == 1, ""); constexpr auto ad = CmpBinOr(a, b); static_assert(ad[0] == 22 && ad[1] == 19 && ad[2] == 15 && ad[3] == 9, ""); constexpr auto ae = ~FourCharsExtVec{1, 2, 10, 20}; static_assert(ae[0] == -2 && ae[1] == -3 && ae[2] == -11 && ae[3] == -21, ""); constexpr auto af = !FourCharsExtVec{0, 1, 8, -1}; static_assert(af[0] == -1 && af[1] == 0 && af[2] == 0 && af[3] == 0, ""); } void FloatUsage() { constexpr auto a = FourFloatsVecSize{6, 3, 2, 1} + FourFloatsVecSize{12, 15, 5, 7}; static_assert(a[0] == 1.800000e+01 && a[1] == 1.800000e+01 && a[2] == 7.000000e+00 && a[3] == 8.000000e+00, ""); constexpr auto b = FourFloatsVecSize{19, 15, 13, 12} - FourFloatsVecSize{13, 14, 5, 3}; static_assert(b[0] == 6.000000e+00 && b[1] == 1.000000e+00 && b[2] == 8.000000e+00 && b[3] == 9.000000e+00, ""); constexpr auto c = FourFloatsVecSize{8, 4, 2, 1} * FourFloatsVecSize{3, 4, 5, 6}; static_assert(c[0] == 2.400000e+01 && c[1] == 1.600000e+01 && c[2] == 1.000000e+01 && c[3] == 6.000000e+00, ""); constexpr auto d = FourFloatsVecSize{12, 12, 10, 10} / FourFloatsVecSize{6, 4, 5, 2}; static_assert(d[0] == 2.000000e+00 && d[1] == 3.000000e+00 && d[2] == 2.000000e+00 && d[3] == 5.000000e+00, ""); constexpr auto f = FourFloatsVecSize{6, 3, 2, 1} + 3; static_assert(f[0] == 9.000000e+00 && f[1] == 6.000000e+00 && f[2] == 5.000000e+00 && f[3] == 4.000000e+00, ""); constexpr auto g = FourFloatsVecSize{19, 15, 12, 10} - 3; static_assert(g[0] == 1.600000e+01 && g[1] == 1.200000e+01 && g[2] == 9.000000e+00 && g[3] == 7.000000e+00, ""); constexpr auto h = FourFloatsVecSize{8, 4, 2, 1} * 3; static_assert(h[0] == 2.400000e+01 && h[1] == 1.200000e+01 && h[2] == 6.000000e+00 && h[3] == 3.000000e+00, ""); constexpr auto j = FourFloatsVecSize{12, 15, 18, 21} / 3; static_assert(j[0] == 4.000000e+00 && j[1] == 5.000000e+00 && j[2] == 6.000000e+00 && j[3] == 7.000000e+00, ""); constexpr auto l = 3 + FourFloatsVecSize{6, 3, 2, 1}; static_assert(l[0] == 9.000000e+00 && l[1] == 6.000000e+00 && l[2] == 5.000000e+00 && l[3] == 4.000000e+00, ""); constexpr auto m = 20 - FourFloatsVecSize{19, 15, 12, 10}; static_assert(m[0] == 1.000000e+00 && m[1] == 5.000000e+00 && m[2] == 8.000000e+00 && m[3] == 1.000000e+01, ""); constexpr auto n = 3 * FourFloatsVecSize{8, 4, 2, 1}; static_assert(n[0] == 2.400000e+01 && n[1] == 1.200000e+01 && n[2] == 6.000000e+00 && n[3] == 3.000000e+00, ""); constexpr auto o = 100 / FourFloatsVecSize{12, 15, 18, 21}; static_assert(CmpF(o[0], 100.0 / 12) && CmpF(o[1], 100.0 / 15) && CmpF(o[2], 100.0 / 18) && CmpF(o[3], 100.0 / 21), ""); constexpr auto w = FourFloatsVecSize{1, 2, 3, 4} < FourFloatsVecSize{4, 3, 2, 1}; static_assert(w[0] == -1 && w[1] == -1 && w[2] == 0 && w[3] == 0, ""); constexpr auto x = FourFloatsVecSize{1, 2, 3, 4} > FourFloatsVecSize{4, 3, 2, 1}; static_assert(x[0] == 0 && x[1] == 0 && x[2] == -1 && x[3] == -1, ""); constexpr auto y = FourFloatsVecSize{1, 2, 3, 4} <= FourFloatsVecSize{4, 3, 3, 1}; static_assert(y[0] == -1 && y[1] == -1 && y[2] == -1 && y[3] == 0, ""); constexpr auto z = FourFloatsVecSize{1, 2, 3, 4} >= FourFloatsVecSize{4, 3, 3, 1}; static_assert(z[0] == 0 && z[1] == 0 && z[2] == -1 && z[3] == -1, ""); constexpr auto A = FourFloatsVecSize{1, 2, 3, 4} == FourFloatsVecSize{4, 3, 3, 1}; static_assert(A[0] == 0 && A[1] == 0 && A[2] == -1 && A[3] == 0, ""); constexpr auto B = FourFloatsVecSize{1, 2, 3, 4} != FourFloatsVecSize{4, 3, 3, 1}; static_assert(B[0] == -1 && B[1] == -1 && B[2] == 0 && B[3] == -1, ""); constexpr auto C = FourFloatsVecSize{1, 2, 3, 4} < 3; static_assert(C[0] == -1 && C[1] == -1 && C[2] == 0 && C[3] == 0, ""); constexpr auto D = FourFloatsVecSize{1, 2, 3, 4} > 3; static_assert(D[0] == 0 && D[1] == 0 && D[2] == 0 && D[3] == -1, ""); constexpr auto E = FourFloatsVecSize{1, 2, 3, 4} <= 3; static_assert(E[0] == -1 && E[1] == -1 && E[2] == -1 && E[3] == 0, ""); constexpr auto F = FourFloatsVecSize{1, 2, 3, 4} >= 3; static_assert(F[0] == 0 && F[1] == 0 && F[2] == -1 && F[3] == -1, ""); constexpr auto G = FourFloatsVecSize{1, 2, 3, 4} == 3; static_assert(G[0] == 0 && G[1] == 0 && G[2] == -1 && G[3] == 0, ""); constexpr auto H = FourFloatsVecSize{1, 2, 3, 4} != 3; static_assert(H[0] == -1 && H[1] == -1 && H[2] == 0 && H[3] == -1, ""); constexpr auto O = FourFloatsVecSize{5, 0, 6, 0} && FourFloatsVecSize{5, 5, 0, 0}; static_assert(O[0] == 1 && O[1] == 0 && O[2] == 0 && O[3] == 0, ""); constexpr auto P = FourFloatsVecSize{5, 0, 6, 0} || FourFloatsVecSize{5, 5, 0, 0}; static_assert(P[0] == 1 && P[1] == 1 && P[2] == 1 && P[3] == 0, ""); constexpr auto Q = FourFloatsVecSize{5, 0, 6, 0} && 3; static_assert(Q[0] == 1 && Q[1] == 0 && Q[2] == 1 && Q[3] == 0, ""); constexpr auto R = FourFloatsVecSize{5, 0, 6, 0} || 3; static_assert(R[0] == 1 && R[1] == 1 && R[2] == 1 && R[3] == 1, ""); constexpr auto T = CmpMul(a, b); static_assert(T[0] == 1.080000e+02 && T[1] == 1.800000e+01 && T[2] == 5.600000e+01 && T[3] == 7.200000e+01, ""); constexpr auto U = CmpDiv(a, b); static_assert(CmpF(U[0], a[0] / b[0]) && CmpF(U[1], a[1] / b[1]) && CmpF(U[2], a[2] / b[2]) && CmpF(U[3], a[3] / b[3]), ""); constexpr auto X = CmpAdd(a, b); static_assert(X[0] == 2.400000e+01 && X[1] == 1.900000e+01 && X[2] == 1.500000e+01 && X[3] == 1.700000e+01, ""); constexpr auto Y = CmpSub(a, b); static_assert(Y[0] == 1.200000e+01 && Y[1] == 1.700000e+01 && Y[2] == -1.000000e+00 && Y[3] == -1.000000e+00, ""); constexpr auto Z = -Y; static_assert(Z[0] == -1.200000e+01 && Z[1] == -1.700000e+01 && Z[2] == 1.000000e+00 && Z[3] == 1.000000e+00, ""); // Operator ~ is illegal on floats. constexpr auto ae = ~FourFloatsVecSize{0, 1, 8, -1}; // expected-error {{invalid argument type}} constexpr auto af = !FourFloatsVecSize{0, 1, 8, -1}; static_assert(af[0] == -1 && af[1] == 0 && af[2] == 0 && af[3] == 0, ""); } void FloatVecUsage() { constexpr auto a = FourFloatsVecSize{6, 3, 2, 1} + FourFloatsVecSize{12, 15, 5, 7}; static_assert(a[0] == 1.800000e+01 && a[1] == 1.800000e+01 && a[2] == 7.000000e+00 && a[3] == 8.000000e+00, ""); constexpr auto b = FourFloatsVecSize{19, 15, 13, 12} - FourFloatsVecSize{13, 14, 5, 3}; static_assert(b[0] == 6.000000e+00 && b[1] == 1.000000e+00 && b[2] == 8.000000e+00 && b[3] == 9.000000e+00, ""); constexpr auto c = FourFloatsVecSize{8, 4, 2, 1} * FourFloatsVecSize{3, 4, 5, 6}; static_assert(c[0] == 2.400000e+01 && c[1] == 1.600000e+01 && c[2] == 1.000000e+01 && c[3] == 6.000000e+00, ""); constexpr auto d = FourFloatsVecSize{12, 12, 10, 10} / FourFloatsVecSize{6, 4, 5, 2}; static_assert(d[0] == 2.000000e+00 && d[1] == 3.000000e+00 && d[2] == 2.000000e+00 && d[3] == 5.000000e+00, ""); constexpr auto f = FourFloatsVecSize{6, 3, 2, 1} + 3; static_assert(f[0] == 9.000000e+00 && f[1] == 6.000000e+00 && f[2] == 5.000000e+00 && f[3] == 4.000000e+00, ""); constexpr auto g = FourFloatsVecSize{19, 15, 12, 10} - 3; static_assert(g[0] == 1.600000e+01 && g[1] == 1.200000e+01 && g[2] == 9.000000e+00 && g[3] == 7.000000e+00, ""); constexpr auto h = FourFloatsVecSize{8, 4, 2, 1} * 3; static_assert(h[0] == 2.400000e+01 && h[1] == 1.200000e+01 && h[2] == 6.000000e+00 && h[3] == 3.000000e+00, ""); constexpr auto j = FourFloatsVecSize{12, 15, 18, 21} / 3; static_assert(j[0] == 4.000000e+00 && j[1] == 5.000000e+00 && j[2] == 6.000000e+00 && j[3] == 7.000000e+00, ""); constexpr auto l = 3 + FourFloatsVecSize{6, 3, 2, 1}; static_assert(l[0] == 9.000000e+00 && l[1] == 6.000000e+00 && l[2] == 5.000000e+00 && l[3] == 4.000000e+00, ""); constexpr auto m = 20 - FourFloatsVecSize{19, 15, 12, 10}; static_assert(m[0] == 1.000000e+00 && m[1] == 5.000000e+00 && m[2] == 8.000000e+00 && m[3] == 1.000000e+01, ""); constexpr auto n = 3 * FourFloatsVecSize{8, 4, 2, 1}; static_assert(n[0] == 2.400000e+01 && n[1] == 1.200000e+01 && n[2] == 6.000000e+00 && n[3] == 3.000000e+00, ""); constexpr auto o = 100 / FourFloatsVecSize{12, 15, 18, 21}; static_assert(CmpF(o[0], 100.0 / 12) && CmpF(o[1], 100.0 / 15) && CmpF(o[2], 100.0 / 18) && CmpF(o[3], 100.0 / 21), ""); constexpr auto w = FourFloatsVecSize{1, 2, 3, 4} < FourFloatsVecSize{4, 3, 2, 1}; static_assert(w[0] == -1 && w[1] == -1 && w[2] == 0 && w[3] == 0, ""); constexpr auto x = FourFloatsVecSize{1, 2, 3, 4} > FourFloatsVecSize{4, 3, 2, 1}; static_assert(x[0] == 0 && x[1] == 0 && x[2] == -1 && x[2] == -1, ""); constexpr auto y = FourFloatsVecSize{1, 2, 3, 4} <= FourFloatsVecSize{4, 3, 3, 1}; static_assert(y[0] == -1 && y[1] == -1 && y[2] == -1 && y[3] == 0, ""); constexpr auto z = FourFloatsVecSize{1, 2, 3, 4} >= FourFloatsVecSize{4, 3, 3, 1}; static_assert(z[0] == 0 && z[1] == 0 && z[2] == -1 && z[3] == -1, ""); constexpr auto A = FourFloatsVecSize{1, 2, 3, 4} == FourFloatsVecSize{4, 3, 3, 1}; static_assert(A[0] == 0 && A[1] == 0 && A[2] == -1 && A[3] == 0, ""); constexpr auto B = FourFloatsVecSize{1, 2, 3, 4} != FourFloatsVecSize{4, 3, 3, 1}; static_assert(B[0] == -1 && B[1] == -1 && B[2] == 0 && B[3] == -1, ""); constexpr auto C = FourFloatsVecSize{1, 2, 3, 4} < 3; static_assert(C[0] == -1 && C[1] == -1 && C[2] == 0 && C[3] == 0, ""); constexpr auto D = FourFloatsVecSize{1, 2, 3, 4} > 3; static_assert(D[0] == 0 && D[1] == 0 && D[2] == 0 && D[3] == -1, ""); constexpr auto E = FourFloatsVecSize{1, 2, 3, 4} <= 3; static_assert(E[0] == -1 && E[1] == -1 && E[2] == -1 && E[3] == 0, ""); constexpr auto F = FourFloatsVecSize{1, 2, 3, 4} >= 3; static_assert(F[0] == 0 && F[1] == 0 && F[2] == -1 && F[3] == -1, ""); constexpr auto G = FourFloatsVecSize{1, 2, 3, 4} == 3; static_assert(G[0] == 0 && G[1] == 0 && G[2] == -1 && G[3] == 0, ""); constexpr auto H = FourFloatsVecSize{1, 2, 3, 4} != 3; static_assert(H[0] == -1 && H[1] == -1 && H[2] == 0 && H[3] == -1, ""); constexpr auto O = FourFloatsVecSize{5, 0, 6, 0} && FourFloatsVecSize{5, 5, 0, 0}; static_assert(O[0] == 1 && O[1] == 0 && O[2] == 0 && O[3] == 0, ""); constexpr auto P = FourFloatsVecSize{5, 0, 6, 0} || FourFloatsVecSize{5, 5, 0, 0}; static_assert(P[0] == 1 && P[1] == 1 && P[2] == 1 && P[3] == 0, ""); constexpr auto Q = FourFloatsVecSize{5, 0, 6, 0} && 3; static_assert(Q[0] == 1 && Q[1] == 0 && Q[2] == 1 && Q[3] == 0, ""); constexpr auto R = FourFloatsVecSize{5, 0, 6, 0} || 3; static_assert(R[0] == 1 && R[1] == 1 && R[2] == 1 && R[3] == 1, ""); constexpr auto T = CmpMul(a, b); static_assert(T[0] == 1.080000e+02 && T[1] == 1.800000e+01 && T[2] == 5.600000e+01 && T[3] == 7.200000e+01, ""); constexpr auto U = CmpDiv(a, b); static_assert(CmpF(U[0], a[0] / b[0]) && CmpF(U[1], a[1] / b[1]) && CmpF(U[2], a[2] / b[2]) && CmpF(U[3], a[3] / b[3]), ""); constexpr auto X = CmpAdd(a, b); static_assert(X[0] == 2.400000e+01 && X[1] == 1.900000e+01 && X[2] == 1.500000e+01 && X[3] == 1.700000e+01, ""); constexpr auto Y = CmpSub(a, b); static_assert(Y[0] == 1.200000e+01 && Y[1] == 1.700000e+01 && Y[2] == -1.000000e+00 && Y[3] == -1.000000e+00, ""); constexpr auto Z = -Y; static_assert(Z[0] == -1.200000e+01 && Z[1] == -1.700000e+01 && Z[2] == 1.000000e+00 && Z[3] == 1.000000e+00, ""); // Operator ~ is illegal on floats. constexpr auto ae = ~FourFloatsVecSize{0, 1, 8, -1}; // expected-error {{invalid argument type}} constexpr auto af = !FourFloatsVecSize{0, 1, 8, -1}; static_assert(af[0] == -1 && af[1] == 0 && af[2] == 0 && af[3] == 0, ""); } void I128Usage() { constexpr auto a = FourI128VecSize{1, 2, 3, 4}; static_assert(a[0] == 1 && a[1] == 2 && a[2] == 3 && a[3] == 4, ""); constexpr auto a1 = FourI128VecSize{5, 0, 6, 0} && FourI128VecSize{5, 5, 0, 0}; static_assert(a1[0] == 1 && a1[1] == 0 && a1[2] == 0 && a1[3] == 0, ""); constexpr auto a2 = FourI128VecSize{5, 0, 6, 0} || FourI128VecSize{5, 5, 0, 0}; static_assert(a2[0] == 1 && a2[1] == 1 && a2[2] == 1 && a2[3] == 0, ""); constexpr auto Q = FourI128VecSize{5, 0, 6, 0} && 3; static_assert(Q[0] == 1 && Q[1] == 0 && Q[2] == 1 && Q[3] == 0, ""); constexpr auto R = FourI128VecSize{5, 0, 6, 0} || 3; static_assert(R[0] == 1 && R[1] == 1 && R[2] == 1 && R[3] == 1, ""); constexpr auto b = a < 3; static_assert(b[0] == -1 && b[1] == -1 && b[2] == 0 && b[3] == 0, ""); constexpr auto c = ~FourI128VecSize{1, 2, 10, 20}; static_assert(c[0] == -2 && c[1] == -3 && c[2] == -11 && c[3] == -21, ""); constexpr auto d = !FourI128VecSize{0, 1, 8, -1}; static_assert(d[0] == -1 && d[1] == 0 && d[2] == 0 && d[3] == 0, ""); } void I128VecUsage() { constexpr auto a = FourI128ExtVec{1, 2, 3, 4}; static_assert(a[0] == 1 && a[1] == 2 && a[2] == 3 && a[3] == 4, ""); constexpr auto a1 = FourI128ExtVec{5, 0, 6, 0} && FourI128ExtVec{5, 5, 0, 0}; static_assert(a1[0] == 1 && a1[1] == 0 && a1[2] == 0 && a1[3] == 0, ""); constexpr auto a2 = FourI128ExtVec{5, 0, 6, 0} || FourI128ExtVec{5, 5, 0, 0}; static_assert(a2[0] == 1 && a2[1] == 1 && a2[2] == 1 && a2[3] == 0, ""); constexpr auto Q = FourI128ExtVec{5, 0, 6, 0} && 3; static_assert(Q[0] == 1 && Q[1] == 0 && Q[2] == 1 && Q[3] == 0, ""); constexpr auto R = FourI128ExtVec{5, 0, 6, 0} || 3; static_assert(R[0] == 1 && R[1] == 1 && R[2] == 1 && R[3] == 1, ""); constexpr auto b = a < 3; static_assert(b[0] == -1 && b[1] == -1 && b[2] == 0 && b[3] == 0, ""); constexpr auto c = ~FourI128ExtVec{1, 2, 10, 20}; static_assert(c[0] == -2 && c[1] == -3 && c[2] == -11 && c[3] == -21, ""); constexpr auto d = !FourI128ExtVec{0, 1, 8, -1}; static_assert(d[0] == -1 && d[1] == 0 && d[2] == 0 && d[3] == 0, ""); } using FourBoolsExtVec __attribute__((ext_vector_type(4))) = bool; void BoolVecUsage() { constexpr auto a = FourBoolsExtVec{true, false, true, false} < FourBoolsExtVec{false, false, true, true}; static_assert(a[0] == false && a[1] == false && a[2] == false && a[3] == true, ""); constexpr auto b = FourBoolsExtVec{true, false, true, false} <= FourBoolsExtVec{false, false, true, true}; static_assert(b[0] == false && b[1] == true && b[2] == true && b[3] == true, ""); constexpr auto c = FourBoolsExtVec{true, false, true, false} == FourBoolsExtVec{false, false, true, true}; static_assert(c[0] == false && c[1] == true && c[2] == true && c[3] == false, ""); constexpr auto d = FourBoolsExtVec{true, false, true, false} != FourBoolsExtVec{false, false, true, true}; static_assert(d[0] == true && d[1] == false && d[2] == false && d[3] == true, ""); constexpr auto e = FourBoolsExtVec{true, false, true, false} >= FourBoolsExtVec{false, false, true, true}; static_assert(e[0] == true && e[1] == true && e[2] == true && e[3] == false, ""); constexpr auto f = FourBoolsExtVec{true, false, true, false} > FourBoolsExtVec{false, false, true, true}; static_assert(f[0] == true && f[1] == false && f[2] == false && f[3] == false, ""); constexpr auto g = FourBoolsExtVec{true, false, true, false} & FourBoolsExtVec{false, false, true, true}; static_assert(g[0] == false && g[1] == false && g[2] == true && g[3] == false, ""); constexpr auto h = FourBoolsExtVec{true, false, true, false} | FourBoolsExtVec{false, false, true, true}; static_assert(h[0] == true && h[1] == false && h[2] == true && h[3] == true, ""); constexpr auto i = FourBoolsExtVec{true, false, true, false} ^ FourBoolsExtVec { false, false, true, true }; static_assert(i[0] == true && i[1] == false && i[2] == false && i[3] == true, ""); constexpr auto j = !FourBoolsExtVec{true, false, true, false}; static_assert(j[0] == false && j[1] == true && j[2] == false && j[3] == true, ""); constexpr auto k = ~FourBoolsExtVec{true, false, true, false}; static_assert(k[0] == false && k[1] == true && k[2] == false && k[3] == true, ""); }