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authorGravatar Abseil Team <absl-team@google.com>2021-02-07 17:35:10 -0800
committerGravatar Derek Mauro <dmauro@google.com>2021-02-08 13:24:45 -0500
commitc36d825d9a5443f81d2656685ae021d6326da90c (patch)
treeda1bc21f837193a9a763132d219afa84aa74cead /absl/strings
parent9c6a50fdd80bb39fabd95faeda84f04062685ff3 (diff)
Export of internal Abseil changes
-- 756156bf03da050e8b27539a8247d9af7e44c6a2 by Abseil Team <absl-team@google.com>: Fix a typo in cord.h: "accomodate" => "accommodate" PiperOrigin-RevId: 356168875 -- 638befdb342b608ec28910ee931ee200fdbe1fef by Samuel Benzaquen <sbenza@google.com>: Fix float conversion for PPC. In PPC `long double` is a double-double representation which behaves weirdly wrt numeric_limits. Don't take `long double` into account when we are not handling `long double` natively anyway. Fix the convert test to always run the conversion even if we are not going to compare against libc's printf result. This allows exercising the code itself to make sure we don't trigger assertions or UB found by sanitizers. PiperOrigin-RevId: 355857729 -- ff5f893319fa76b273c7785b76ef6c95b1791076 by Abseil Team <absl-team@google.com>: Example usage tweak PiperOrigin-RevId: 355695750 -- 0efc454f90023fa651b226e5e3ba7395a3b60c6d by Benjamin Barenblat <bbaren@google.com>: Remove endian-sensitivity from Abseil’s RNG Ensure that the Abseil random number generator produces identical output on both big- and little-endian platforms by byte-swapping appropriately on big-endian systems. PiperOrigin-RevId: 355635051 GitOrigin-RevId: 756156bf03da050e8b27539a8247d9af7e44c6a2 Change-Id: Iaaa69767b8e85d626742b9ba56fefb75f07c69ee
Diffstat (limited to 'absl/strings')
-rw-r--r--absl/strings/cord.h2
-rw-r--r--absl/strings/internal/str_format/convert_test.cc88
-rw-r--r--absl/strings/internal/str_format/float_conversion.cc33
3 files changed, 64 insertions, 59 deletions
diff --git a/absl/strings/cord.h b/absl/strings/cord.h
index 320226d..fa9cb91 100644
--- a/absl/strings/cord.h
+++ b/absl/strings/cord.h
@@ -25,7 +25,7 @@
//
// Because a Cord consists of these chunks, data can be added to or removed from
// a Cord during its lifetime. Chunks may also be shared between Cords. Unlike a
-// `std::string`, a Cord can therefore accomodate data that changes over its
+// `std::string`, a Cord can therefore accommodate data that changes over its
// lifetime, though it's not quite "mutable"; it can change only in the
// attachment, detachment, or rearrangement of chunks of its constituent data.
//
diff --git a/absl/strings/internal/str_format/convert_test.cc b/absl/strings/internal/str_format/convert_test.cc
index 375db0a..926283c 100644
--- a/absl/strings/internal/str_format/convert_test.cc
+++ b/absl/strings/internal/str_format/convert_test.cc
@@ -554,7 +554,8 @@ TEST_F(FormatConvertTest, Uint128) {
}
template <typename Floating>
-void TestWithMultipleFormatsHelper(const std::vector<Floating> &floats) {
+void TestWithMultipleFormatsHelper(const std::vector<Floating> &floats,
+ const std::set<Floating> &skip_verify) {
const NativePrintfTraits &native_traits = VerifyNativeImplementation();
// Reserve the space to ensure we don't allocate memory in the output itself.
std::string str_format_result;
@@ -602,7 +603,16 @@ void TestWithMultipleFormatsHelper(const std::vector<Floating> &floats) {
AppendPack(&str_format_result, format, absl::MakeSpan(args));
}
- if (string_printf_result != str_format_result) {
+#ifdef _MSC_VER
+ // MSVC has a different rounding policy than us so we can't test our
+ // implementation against the native one there.
+ continue;
+#elif defined(__APPLE__)
+ // Apple formats NaN differently (+nan) vs. (nan)
+ if (std::isnan(d)) continue;
+#endif
+ if (string_printf_result != str_format_result &&
+ skip_verify.find(d) == skip_verify.end()) {
// We use ASSERT_EQ here because failures are usually correlated and a
// bug would print way too many failed expectations causing the test
// to time out.
@@ -616,12 +626,6 @@ void TestWithMultipleFormatsHelper(const std::vector<Floating> &floats) {
}
TEST_F(FormatConvertTest, Float) {
-#ifdef _MSC_VER
- // MSVC has a different rounding policy than us so we can't test our
- // implementation against the native one there.
- return;
-#endif // _MSC_VER
-
std::vector<float> floats = {0.0f,
-0.0f,
.9999999f,
@@ -635,7 +639,8 @@ TEST_F(FormatConvertTest, Float) {
std::numeric_limits<float>::epsilon(),
std::numeric_limits<float>::epsilon() + 1.0f,
std::numeric_limits<float>::infinity(),
- -std::numeric_limits<float>::infinity()};
+ -std::numeric_limits<float>::infinity(),
+ std::nanf("")};
// Some regression tests.
floats.push_back(0.999999989f);
@@ -664,21 +669,14 @@ TEST_F(FormatConvertTest, Float) {
std::sort(floats.begin(), floats.end());
floats.erase(std::unique(floats.begin(), floats.end()), floats.end());
-#ifndef __APPLE__
- // Apple formats NaN differently (+nan) vs. (nan)
- floats.push_back(std::nan(""));
-#endif
-
- TestWithMultipleFormatsHelper(floats);
+ TestWithMultipleFormatsHelper(floats, {});
}
TEST_F(FormatConvertTest, Double) {
-#ifdef _MSC_VER
- // MSVC has a different rounding policy than us so we can't test our
- // implementation against the native one there.
- return;
-#endif // _MSC_VER
-
+ // For values that we know won't match the standard library implementation we
+ // skip verification, but still run the algorithm to catch asserts/sanitizer
+ // bugs.
+ std::set<double> skip_verify;
std::vector<double> doubles = {0.0,
-0.0,
.99999999999999,
@@ -692,7 +690,8 @@ TEST_F(FormatConvertTest, Double) {
std::numeric_limits<double>::epsilon(),
std::numeric_limits<double>::epsilon() + 1,
std::numeric_limits<double>::infinity(),
- -std::numeric_limits<double>::infinity()};
+ -std::numeric_limits<double>::infinity(),
+ std::nan("")};
// Some regression tests.
doubles.push_back(0.99999999999999989);
@@ -722,33 +721,29 @@ TEST_F(FormatConvertTest, Double) {
"5084551339423045832369032229481658085593321233482747978262041447231"
"68738177180919299881250404026184124858368.000000";
- if (!gcc_bug_22142) {
- for (int exp = -300; exp <= 300; ++exp) {
- const double all_ones_mantissa = 0x1fffffffffffff;
- doubles.push_back(std::ldexp(all_ones_mantissa, exp));
+ for (int exp = -300; exp <= 300; ++exp) {
+ const double all_ones_mantissa = 0x1fffffffffffff;
+ doubles.push_back(std::ldexp(all_ones_mantissa, exp));
+ if (gcc_bug_22142) {
+ skip_verify.insert(doubles.back());
}
}
if (gcc_bug_22142) {
- for (auto &d : doubles) {
- using L = std::numeric_limits<double>;
- double d2 = std::abs(d);
- if (d2 == L::max() || d2 == L::min() || d2 == L::denorm_min()) {
- d = 0;
- }
- }
+ using L = std::numeric_limits<double>;
+ skip_verify.insert(L::max());
+ skip_verify.insert(L::min()); // NOLINT
+ skip_verify.insert(L::denorm_min());
+ skip_verify.insert(-L::max());
+ skip_verify.insert(-L::min()); // NOLINT
+ skip_verify.insert(-L::denorm_min());
}
// Remove duplicates to speed up the logic below.
std::sort(doubles.begin(), doubles.end());
doubles.erase(std::unique(doubles.begin(), doubles.end()), doubles.end());
-#ifndef __APPLE__
- // Apple formats NaN differently (+nan) vs. (nan)
- doubles.push_back(std::nan(""));
-#endif
-
- TestWithMultipleFormatsHelper(doubles);
+ TestWithMultipleFormatsHelper(doubles, skip_verify);
}
TEST_F(FormatConvertTest, DoubleRound) {
@@ -1069,11 +1064,6 @@ TEST_F(FormatConvertTest, ExtremeWidthPrecision) {
}
TEST_F(FormatConvertTest, LongDouble) {
-#ifdef _MSC_VER
- // MSVC has a different rounding policy than us so we can't test our
- // implementation against the native one there.
- return;
-#endif // _MSC_VER
const NativePrintfTraits &native_traits = VerifyNativeImplementation();
const char *const kFormats[] = {"%", "%.3", "%8.5", "%9", "%.5000",
"%.60", "%+", "% ", "%-10"};
@@ -1134,10 +1124,18 @@ TEST_F(FormatConvertTest, LongDouble) {
for (auto d : doubles) {
FormatArgImpl arg(d);
UntypedFormatSpecImpl format(fmt_str);
+ std::string result = FormatPack(format, {&arg, 1});
+
+#ifdef _MSC_VER
+ // MSVC has a different rounding policy than us so we can't test our
+ // implementation against the native one there.
+ continue;
+#endif // _MSC_VER
+
// We use ASSERT_EQ here because failures are usually correlated and a
// bug would print way too many failed expectations causing the test to
// time out.
- ASSERT_EQ(StrPrint(fmt_str.c_str(), d), FormatPack(format, {&arg, 1}))
+ ASSERT_EQ(StrPrint(fmt_str.c_str(), d), result)
<< fmt_str << " " << StrPrint("%.18Lg", d) << " "
<< StrPrint("%La", d) << " " << StrPrint("%.1080Lf", d);
}
diff --git a/absl/strings/internal/str_format/float_conversion.cc b/absl/strings/internal/str_format/float_conversion.cc
index 2aa41aa..2b1fd8c 100644
--- a/absl/strings/internal/str_format/float_conversion.cc
+++ b/absl/strings/internal/str_format/float_conversion.cc
@@ -112,12 +112,22 @@ inline uint64_t DivideBy10WithCarry(uint64_t *v, uint64_t carry) {
return next_carry % divisor;
}
+constexpr bool IsDoubleDouble() {
+ // This is the `double-double` representation of `long double`.
+ // We do not handle it natively. Fallback to snprintf.
+ return std::numeric_limits<long double>::digits ==
+ 2 * std::numeric_limits<double>::digits;
+}
+
+using MaxFloatType =
+ typename std::conditional<IsDoubleDouble(), double, long double>::type;
+
// Generates the decimal representation for an integer of the form `v * 2^exp`,
// where `v` and `exp` are both positive integers.
// It generates the digits from the left (ie the most significant digit first)
// to allow for direct printing into the sink.
//
-// Requires `0 <= exp` and `exp <= numeric_limits<long double>::max_exponent`.
+// Requires `0 <= exp` and `exp <= numeric_limits<MaxFloatType>::max_exponent`.
class BinaryToDecimal {
static constexpr int ChunksNeeded(int exp) {
// We will left shift a uint128 by `exp` bits, so we need `128+exp` total
@@ -132,10 +142,10 @@ class BinaryToDecimal {
static void RunConversion(uint128 v, int exp,
absl::FunctionRef<void(BinaryToDecimal)> f) {
assert(exp > 0);
- assert(exp <= std::numeric_limits<long double>::max_exponent);
+ assert(exp <= std::numeric_limits<MaxFloatType>::max_exponent);
static_assert(
static_cast<int>(StackArray::kMaxCapacity) >=
- ChunksNeeded(std::numeric_limits<long double>::max_exponent),
+ ChunksNeeded(std::numeric_limits<MaxFloatType>::max_exponent),
"");
StackArray::RunWithCapacity(
@@ -232,14 +242,14 @@ class BinaryToDecimal {
// Converts a value of the form `x * 2^-exp` into a sequence of decimal digits.
// Requires `-exp < 0` and
-// `-exp >= limits<long double>::min_exponent - limits<long double>::digits`.
+// `-exp >= limits<MaxFloatType>::min_exponent - limits<MaxFloatType>::digits`.
class FractionalDigitGenerator {
public:
// Run the conversion for `v * 2^exp` and call `f(generator)`.
// This function will allocate enough stack space to perform the conversion.
static void RunConversion(
uint128 v, int exp, absl::FunctionRef<void(FractionalDigitGenerator)> f) {
- using Limits = std::numeric_limits<long double>;
+ using Limits = std::numeric_limits<MaxFloatType>;
assert(-exp < 0);
assert(-exp >= Limits::min_exponent - 128);
static_assert(StackArray::kMaxCapacity >=
@@ -871,10 +881,10 @@ void FormatA(const HexFloatTypeParams float_traits, Int mantissa, int exp,
// This buffer holds the "0x1.ab1de3" portion of "0x1.ab1de3pe+2". Compute the
// size with long double which is the largest of the floats.
constexpr size_t kBufSizeForHexFloatRepr =
- 2 // 0x
- + std::numeric_limits<long double>::digits / 4 // number of hex digits
- + 1 // round up
- + 1; // "." (dot)
+ 2 // 0x
+ + std::numeric_limits<MaxFloatType>::digits / 4 // number of hex digits
+ + 1 // round up
+ + 1; // "." (dot)
char digits_buffer[kBufSizeForHexFloatRepr];
char *digits_iter = digits_buffer;
const char *const digits =
@@ -1393,10 +1403,7 @@ bool FloatToSink(const Float v, const FormatConversionSpecImpl &conv,
bool ConvertFloatImpl(long double v, const FormatConversionSpecImpl &conv,
FormatSinkImpl *sink) {
- if (std::numeric_limits<long double>::digits ==
- 2 * std::numeric_limits<double>::digits) {
- // This is the `double-double` representation of `long double`.
- // We do not handle it natively. Fallback to snprintf.
+ if (IsDoubleDouble()) {
return FallbackToSnprintf(v, conv, sink);
}