diff options
Diffstat (limited to 'test/packetmath.cpp')
| -rw-r--r-- | test/packetmath.cpp | 64 |
1 files changed, 32 insertions, 32 deletions
diff --git a/test/packetmath.cpp b/test/packetmath.cpp index f5cce6436..67d329a67 100644 --- a/test/packetmath.cpp +++ b/test/packetmath.cpp @@ -273,7 +273,7 @@ void packetmath_boolean_mask_ops() { //Test NaN for (int i = 0; i < PacketSize; ++i) { - data1[i] = std::numeric_limits<Scalar>::quiet_NaN(); + data1[i] = NumTraits<Scalar>::quiet_NaN(); data1[i + PacketSize] = internal::random<bool>() ? data1[i] : Scalar(0); } CHECK_CWISE2_IF(true, internal::pcmp_eq, internal::pcmp_eq); @@ -634,7 +634,7 @@ void packetmath_real() { if (PacketTraits::HasExp) { // Check denormals: for (int j=0; j<3; ++j) { - data1[0] = Scalar(std::ldexp(1, std::numeric_limits<Scalar>::min_exponent-j)); + data1[0] = Scalar(std::ldexp(1, NumTraits<Scalar>::min_exponent()-j)); CHECK_CWISE1_BYREF1_IF(PacketTraits::HasExp, REF_FREXP, internal::pfrexp); data1[0] = -data1[0]; CHECK_CWISE1_BYREF1_IF(PacketTraits::HasExp, REF_FREXP, internal::pfrexp); @@ -671,10 +671,10 @@ void packetmath_real() { if (PacketTraits::HasExp) { data1[0] = Scalar(-1); // underflow to zero - data1[PacketSize] = Scalar(std::numeric_limits<Scalar>::min_exponent-55); + data1[PacketSize] = Scalar(NumTraits<Scalar>::min_exponent()-55); CHECK_CWISE2_IF(PacketTraits::HasExp, REF_LDEXP, internal::pldexp); // overflow to inf - data1[PacketSize] = Scalar(std::numeric_limits<Scalar>::max_exponent+10); + data1[PacketSize] = Scalar(NumTraits<Scalar>::max_exponent()+10); CHECK_CWISE2_IF(PacketTraits::HasExp, REF_LDEXP, internal::pldexp); // NaN stays NaN data1[0] = NumTraits<Scalar>::quiet_NaN(); @@ -682,21 +682,21 @@ void packetmath_real() { VERIFY((numext::isnan)(data2[0])); // inf stays inf data1[0] = NumTraits<Scalar>::infinity(); - data1[PacketSize] = Scalar(std::numeric_limits<Scalar>::min_exponent-10); + data1[PacketSize] = Scalar(NumTraits<Scalar>::min_exponent()-10); CHECK_CWISE2_IF(PacketTraits::HasExp, REF_LDEXP, internal::pldexp); // zero stays zero data1[0] = Scalar(0); - data1[PacketSize] = Scalar(std::numeric_limits<Scalar>::max_exponent+10); + data1[PacketSize] = Scalar(NumTraits<Scalar>::max_exponent()+10); CHECK_CWISE2_IF(PacketTraits::HasExp, REF_LDEXP, internal::pldexp); // Small number big exponent. - data1[0] = Scalar(std::ldexp(Scalar(1.0), std::numeric_limits<Scalar>::min_exponent-1)); - data1[PacketSize] = Scalar(-std::numeric_limits<Scalar>::min_exponent - +std::numeric_limits<Scalar>::max_exponent); + data1[0] = Scalar(std::ldexp(Scalar(1.0), NumTraits<Scalar>::min_exponent()-1)); + data1[PacketSize] = Scalar(-NumTraits<Scalar>::min_exponent() + +NumTraits<Scalar>::max_exponent()); CHECK_CWISE2_IF(PacketTraits::HasExp, REF_LDEXP, internal::pldexp); // Big number small exponent. - data1[0] = Scalar(std::ldexp(Scalar(1.0), std::numeric_limits<Scalar>::max_exponent-1)); - data1[PacketSize] = Scalar(+std::numeric_limits<Scalar>::min_exponent - -std::numeric_limits<Scalar>::max_exponent); + data1[0] = Scalar(std::ldexp(Scalar(1.0), NumTraits<Scalar>::max_exponent()-1)); + data1[PacketSize] = Scalar(+NumTraits<Scalar>::min_exponent() + -NumTraits<Scalar>::max_exponent()); CHECK_CWISE2_IF(PacketTraits::HasExp, REF_LDEXP, internal::pldexp); } @@ -707,8 +707,8 @@ void packetmath_real() { data1[0] = Scalar(1e-20); CHECK_CWISE1_IF(PacketTraits::HasTanh, std::tanh, internal::ptanh); if (PacketTraits::HasExp && PacketSize >= 2) { - const Scalar small = std::numeric_limits<Scalar>::epsilon(); - data1[0] = std::numeric_limits<Scalar>::quiet_NaN(); + const Scalar small = NumTraits<Scalar>::epsilon(); + data1[0] = NumTraits<Scalar>::quiet_NaN(); data1[1] = small; test::packet_helper<PacketTraits::HasExp, Packet> h; h.store(data2, internal::pexp(h.load(data1))); @@ -742,7 +742,7 @@ void packetmath_real() { if (PacketTraits::HasTanh) { // NOTE this test migh fail with GCC prior to 6.3, see MathFunctionsImpl.h for details. - data1[0] = std::numeric_limits<Scalar>::quiet_NaN(); + data1[0] = NumTraits<Scalar>::quiet_NaN(); test::packet_helper<internal::packet_traits<Scalar>::HasTanh, Packet> h; h.store(data2, internal::ptanh(h.load(data1))); VERIFY((numext::isnan)(data2[0])); @@ -762,17 +762,17 @@ void packetmath_real() { } #if EIGEN_HAS_C99_MATH && (EIGEN_COMP_CXXVER >= 11) - data1[0] = std::numeric_limits<Scalar>::infinity(); + data1[0] = NumTraits<Scalar>::infinity(); data1[1] = Scalar(-1); CHECK_CWISE1_IF(PacketTraits::HasLog1p, std::log1p, internal::plog1p); - data1[0] = std::numeric_limits<Scalar>::infinity(); - data1[1] = -std::numeric_limits<Scalar>::infinity(); + data1[0] = NumTraits<Scalar>::infinity(); + data1[1] = -NumTraits<Scalar>::infinity(); CHECK_CWISE1_IF(PacketTraits::HasExpm1, std::expm1, internal::pexpm1); #endif if (PacketSize >= 2) { - data1[0] = std::numeric_limits<Scalar>::quiet_NaN(); - data1[1] = std::numeric_limits<Scalar>::epsilon(); + data1[0] = NumTraits<Scalar>::quiet_NaN(); + data1[1] = NumTraits<Scalar>::epsilon(); if (PacketTraits::HasLog) { test::packet_helper<PacketTraits::HasLog, Packet> h; h.store(data2, internal::plog(h.load(data1))); @@ -782,7 +782,7 @@ void packetmath_real() { VERIFY_IS_APPROX(std::log(data1[1]), data2[1]); } - data1[0] = -std::numeric_limits<Scalar>::epsilon(); + data1[0] = -NumTraits<Scalar>::epsilon(); data1[1] = Scalar(0); h.store(data2, internal::plog(h.load(data1))); VERIFY((numext::isnan)(data2[0])); @@ -813,14 +813,14 @@ void packetmath_real() { h.store(data2, internal::plog(h.load(data1))); VERIFY((numext::isnan)(data2[0])); - data1[0] = std::numeric_limits<Scalar>::infinity(); + data1[0] = NumTraits<Scalar>::infinity(); h.store(data2, internal::plog(h.load(data1))); VERIFY((numext::isinf)(data2[0])); } if (PacketTraits::HasLog1p) { test::packet_helper<PacketTraits::HasLog1p, Packet> h; data1[0] = Scalar(-2); - data1[1] = -std::numeric_limits<Scalar>::infinity(); + data1[1] = -NumTraits<Scalar>::infinity(); h.store(data2, internal::plog1p(h.load(data1))); VERIFY((numext::isnan)(data2[0])); VERIFY((numext::isnan)(data2[1])); @@ -831,7 +831,7 @@ void packetmath_real() { if (std::numeric_limits<Scalar>::has_denorm == std::denorm_present) { data1[1] = -std::numeric_limits<Scalar>::denorm_min(); } else { - data1[1] = -std::numeric_limits<Scalar>::epsilon(); + data1[1] = -NumTraits<Scalar>::epsilon(); } h.store(data2, internal::psqrt(h.load(data1))); VERIFY((numext::isnan)(data2[0])); @@ -842,7 +842,7 @@ void packetmath_real() { && !internal::is_same<Scalar, half>::value && !internal::is_same<Scalar, bfloat16>::value) { test::packet_helper<PacketTraits::HasCos, Packet> h; - for (Scalar k = Scalar(1); k < Scalar(10000) / std::numeric_limits<Scalar>::epsilon(); k *= Scalar(2)) { + for (Scalar k = Scalar(1); k < Scalar(10000) / NumTraits<Scalar>::epsilon(); k *= Scalar(2)) { for (int k1 = 0; k1 <= 1; ++k1) { data1[0] = Scalar((2 * double(k) + k1) * double(EIGEN_PI) / 2 * internal::random<double>(0.8, 1.2)); data1[1] = Scalar((2 * double(k) + 2 + k1) * double(EIGEN_PI) / 2 * internal::random<double>(0.8, 1.2)); @@ -863,8 +863,8 @@ void packetmath_real() { } } - data1[0] = std::numeric_limits<Scalar>::infinity(); - data1[1] = -std::numeric_limits<Scalar>::infinity(); + data1[0] = NumTraits<Scalar>::infinity(); + data1[1] = -NumTraits<Scalar>::infinity(); h.store(data2, internal::psin(h.load(data1))); VERIFY((numext::isnan)(data2[0])); VERIFY((numext::isnan)(data2[1])); @@ -873,7 +873,7 @@ void packetmath_real() { VERIFY((numext::isnan)(data2[0])); VERIFY((numext::isnan)(data2[1])); - data1[0] = std::numeric_limits<Scalar>::quiet_NaN(); + data1[0] = NumTraits<Scalar>::quiet_NaN(); h.store(data2, internal::psin(h.load(data1))); VERIFY((numext::isnan)(data2[0])); h.store(data2, internal::pcos(h.load(data1))); @@ -997,13 +997,13 @@ void packetmath_notcomplex() { VERIFY(internal::isApprox(ref[0], internal::predux_max<PropagateNaN>(internal::pload<Packet>(data1))) && "internal::predux_max<PropagateNumbers>"); // A single NaN. const size_t index = std::numeric_limits<size_t>::quiet_NaN() % PacketSize; - data1[index] = std::numeric_limits<Scalar>::quiet_NaN(); + data1[index] = NumTraits<Scalar>::quiet_NaN(); VERIFY(PacketSize==1 || !(numext::isnan)(internal::predux_min<PropagateNumbers>(internal::pload<Packet>(data1)))); VERIFY((numext::isnan)(internal::predux_min<PropagateNaN>(internal::pload<Packet>(data1)))); VERIFY(PacketSize==1 || !(numext::isnan)(internal::predux_max<PropagateNumbers>(internal::pload<Packet>(data1)))); VERIFY((numext::isnan)(internal::predux_max<PropagateNaN>(internal::pload<Packet>(data1)))); // All NaNs. - for (int i = 0; i < 4 * PacketSize; ++i) data1[i] = std::numeric_limits<Scalar>::quiet_NaN(); + for (int i = 0; i < 4 * PacketSize; ++i) data1[i] = NumTraits<Scalar>::quiet_NaN(); VERIFY((numext::isnan)(internal::predux_min<PropagateNumbers>(internal::pload<Packet>(data1)))); VERIFY((numext::isnan)(internal::predux_min<PropagateNaN>(internal::pload<Packet>(data1)))); VERIFY((numext::isnan)(internal::predux_max<PropagateNumbers>(internal::pload<Packet>(data1)))); @@ -1011,8 +1011,8 @@ void packetmath_notcomplex() { // Test NaN propagation for coefficient-wise min and max. for (int i = 0; i < PacketSize; ++i) { - data1[i] = internal::random<bool>() ? std::numeric_limits<Scalar>::quiet_NaN() : Scalar(0); - data1[i + PacketSize] = internal::random<bool>() ? std::numeric_limits<Scalar>::quiet_NaN() : Scalar(0); + data1[i] = internal::random<bool>() ? NumTraits<Scalar>::quiet_NaN() : Scalar(0); + data1[i + PacketSize] = internal::random<bool>() ? NumTraits<Scalar>::quiet_NaN() : Scalar(0); } // Note: NaN propagation is implementation defined for pmin/pmax, so we do not test it here. CHECK_CWISE2_IF(PacketTraits::HasMin, propagate_number_min, (internal::pmin<PropagateNumbers>)); |