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Add precision modifier for seconds in chrono format (#3148)

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Co-authored-by: Stepan Ponomarev <stepan.ponomarev@itiviti.com>
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Stepan Ponomaryov 2022-11-02 21:58:51 +03:00 committed by GitHub
parent 66d71a1b35
commit 795ed8abf5
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2 changed files with 83 additions and 45 deletions
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109
include/fmt/chrono.h
View File

@ -1027,8 +1027,7 @@ struct count_fractional_digits<Num, Den, N, false> {
// Format subseconds which are given as an integer type with an appropriate
// number of digits.
template <typename Char, typename OutputIt, typename Duration>
void write_fractional_seconds(OutputIt& out, Duration d) {
FMT_ASSERT(!std::is_floating_point<typename Duration::rep>::value, "");
void write_fractional_seconds(OutputIt& out, Duration d, int precision = -1) {
constexpr auto num_fractional_digits =
count_fractional_digits<Duration::period::num,
Duration::period::den>::value;
@ -1037,23 +1036,39 @@ void write_fractional_seconds(OutputIt& out, Duration d) {
typename std::common_type<typename Duration::rep,
std::chrono::seconds::rep>::type,
std::ratio<1, detail::pow10(num_fractional_digits)>>;
if (std::ratio_less<typename subsecond_precision::period,
std::chrono::seconds::period>::value) {
const auto fractional =
detail::abs(d) - std::chrono::duration_cast<std::chrono::seconds>(d);
const auto subseconds =
std::chrono::treat_as_floating_point<
typename subsecond_precision::rep>::value
? fractional.count()
: std::chrono::duration_cast<subsecond_precision>(fractional).count();
auto n = static_cast<uint32_or_64_or_128_t<long long>>(subseconds);
const int num_digits = detail::count_digits(n);
int leading_zeroes = std::max(0, num_fractional_digits - num_digits);
if (precision < 0) {
FMT_ASSERT(!std::is_floating_point<typename Duration::rep>::value, "");
if (std::ratio_less<typename subsecond_precision::period,
std::chrono::seconds::period>::value) {
*out++ = '.';
out = std::fill_n(out, leading_zeroes, '0');
out = format_decimal<Char>(out, n, num_digits).end;
}
} else {
*out++ = '.';
auto fractional =
detail::abs(d) - std::chrono::duration_cast<std::chrono::seconds>(d);
auto subseconds =
std::chrono::treat_as_floating_point<
typename subsecond_precision::rep>::value
? fractional.count()
: std::chrono::duration_cast<subsecond_precision>(fractional)
.count();
uint32_or_64_or_128_t<long long> n =
to_unsigned(to_nonnegative_int(subseconds, max_value<long long>()));
int num_digits = detail::count_digits(n);
if (num_fractional_digits > num_digits)
out = std::fill_n(out, num_fractional_digits - num_digits, '0');
leading_zeroes = std::min(leading_zeroes, precision);
out = std::fill_n(out, leading_zeroes, '0');
int remaining = precision - leading_zeroes;
if (remaining < num_digits) {
n /= to_unsigned(detail::pow10(to_unsigned(num_digits - remaining)));
out = format_decimal<Char>(out, n, remaining).end;
return;
}
out = format_decimal<Char>(out, n, num_digits).end;
remaining -= num_digits;
out = std::fill_n(out, remaining, '0');
}
}
@ -1061,25 +1076,26 @@ void write_fractional_seconds(OutputIt& out, Duration d) {
// number of digits. We cannot pass the Duration here, as we explicitly need to
// pass the Rep value in the chrono_formatter.
template <typename Duration>
void write_floating_seconds(memory_buffer& buf, Duration duration) {
FMT_ASSERT(std::is_floating_point<typename Duration::rep>::value, "");
auto num_fractional_digits =
count_fractional_digits<Duration::period::num,
Duration::period::den>::value;
// For non-integer values, we ensure at least 6 digits to get microsecond
// precision.
auto val = duration.count();
if (num_fractional_digits < 6 &&
static_cast<typename Duration::rep>(std::round(val)) != val)
num_fractional_digits = 6;
void write_floating_seconds(memory_buffer& buf, Duration duration,
int num_fractional_digits = -1) {
using rep = typename Duration::rep;
FMT_ASSERT(std::is_floating_point<rep>::value, "");
format_to(
std::back_inserter(buf), runtime("{:.{}f}"),
std::fmod(val *
static_cast<typename Duration::rep>(Duration::period::num) /
static_cast<typename Duration::rep>(Duration::period::den),
static_cast<typename Duration::rep>(60)),
num_fractional_digits);
auto val = duration.count();
if (num_fractional_digits < 0) {
num_fractional_digits =
count_fractional_digits<Duration::period::num,
Duration::period::den>::value;
if (num_fractional_digits < 6 && static_cast<rep>(std::round(val)) != val)
num_fractional_digits = 6;
}
format_to(std::back_inserter(buf), runtime("{:.{}f}"),
std::fmod(val * static_cast<rep>(Duration::period::num) /
static_cast<rep>(Duration::period::den),
static_cast<rep>(60)),
num_fractional_digits);
}
template <typename OutputIt, typename Char,
@ -1521,6 +1537,8 @@ class tm_writer {
};
struct chrono_format_checker : null_chrono_spec_handler<chrono_format_checker> {
bool has_precision_integral = false;
FMT_NORETURN void unsupported() { FMT_THROW(format_error("no date")); }
template <typename Char>
@ -1533,7 +1551,11 @@ struct chrono_format_checker : null_chrono_spec_handler<chrono_format_checker> {
FMT_CONSTEXPR void on_24_hour_time() {}
FMT_CONSTEXPR void on_iso_time() {}
FMT_CONSTEXPR void on_am_pm() {}
FMT_CONSTEXPR void on_duration_value() {}
FMT_CONSTEXPR void on_duration_value() const {
if (has_precision_integral) {
FMT_THROW(format_error("precision not allowed for this argument type"));
}
}
FMT_CONSTEXPR void on_duration_unit() {}
};
@ -1834,14 +1856,15 @@ struct chrono_formatter {
if (ns == numeric_system::standard) {
if (std::is_floating_point<rep>::value) {
auto buf = memory_buffer();
write_floating_seconds(buf, std::chrono::duration<rep, Period>(val));
write_floating_seconds(buf, std::chrono::duration<rep, Period>(val),
precision);
if (negative) *out++ = '-';
if (buf.size() < 2 || buf[1] == '.') *out++ = '0';
out = std::copy(buf.begin(), buf.end(), out);
} else {
write(second(), 2);
write_fractional_seconds<char_type>(
out, std::chrono::duration<rep, Period>(val));
out, std::chrono::duration<rep, Period>(val), precision);
}
return;
}
@ -2002,18 +2025,16 @@ struct formatter<std::chrono::duration<Rep, Period>, Char> {
if (begin == end) return {begin, begin};
begin = detail::parse_width(begin, end, handler);
if (begin == end) return {begin, begin};
auto checker = detail::chrono_format_checker();
if (*begin == '.') {
if (std::is_floating_point<Rep>::value)
begin = detail::parse_precision(begin, end, handler);
else
handler.on_error("precision not allowed for this argument type");
checker.has_precision_integral = !std::is_floating_point<Rep>::value;
begin = detail::parse_precision(begin, end, handler);
}
if (begin != end && *begin == 'L') {
++begin;
localized = true;
}
end = detail::parse_chrono_format(begin, end,
detail::chrono_format_checker());
end = detail::parse_chrono_format(begin, end, checker);
return {begin, end};
}

19
test/chrono-test.cc
View File

@ -466,7 +466,7 @@ TEST(chrono_test, format_default_fp) {
TEST(chrono_test, format_precision) {
EXPECT_THROW_MSG(
(void)fmt::format(runtime("{:.2}"), std::chrono::seconds(42)),
(void)fmt::format(runtime("{:.2%Q}"), std::chrono::seconds(42)),
fmt::format_error, "precision not allowed for this argument type");
EXPECT_EQ("1ms", fmt::format("{:.0}", dms(1.234)));
EXPECT_EQ("1.2ms", fmt::format("{:.1}", dms(1.234)));
@ -611,12 +611,28 @@ TEST(chrono_test, cpp20_duration_subsecond_support) {
EXPECT_EQ(fmt::format("{:%S}", std::chrono::nanoseconds{-13420148734}),
"-13.420148734");
EXPECT_EQ(fmt::format("{:%S}", std::chrono::milliseconds{1234}), "01.234");
// Check subsecond presision modifier.
EXPECT_EQ(fmt::format("{:.6%S}", std::chrono::nanoseconds{1234}),
"00.000001");
EXPECT_EQ(fmt::format("{:.18%S}", std::chrono::nanoseconds{1234}),
"00.000001234000000000");
EXPECT_EQ(fmt::format("{:.{}%S}", std::chrono::nanoseconds{1234}, 6),
"00.000001");
EXPECT_EQ(fmt::format("{:.6%S}", std::chrono::milliseconds{1234}),
"01.234000");
EXPECT_EQ(fmt::format("{:.6%S}", std::chrono::milliseconds{-1234}),
"-01.234000");
EXPECT_EQ(fmt::format("{:.3%S}", std::chrono::seconds{1234}), "34.000");
EXPECT_EQ(fmt::format("{:.3%S}", std::chrono::hours{1234}), "00.000");
EXPECT_EQ(fmt::format("{:.5%S}", dms(1.234)), "00.00123");
EXPECT_EQ(fmt::format("{:.8%S}", dms(1.234)), "00.00123400");
{
// Check that {:%H:%M:%S} is equivalent to {:%T}.
auto dur = std::chrono::milliseconds{3601234};
auto formatted_dur = fmt::format("{:%T}", dur);
EXPECT_EQ(formatted_dur, "01:00:01.234");
EXPECT_EQ(fmt::format("{:%H:%M:%S}", dur), formatted_dur);
EXPECT_EQ(fmt::format("{:.6%H:%M:%S}", dur), "01:00:01.234000");
}
using nanoseconds_dbl = std::chrono::duration<double, std::nano>;
EXPECT_EQ(fmt::format("{:%S}", nanoseconds_dbl{-123456789}), "-00.123456789");
@ -630,6 +646,7 @@ TEST(chrono_test, cpp20_duration_subsecond_support) {
auto formatted_dur = fmt::format("{:%T}", dur);
EXPECT_EQ(formatted_dur, "-00:01:39.123456789");
EXPECT_EQ(fmt::format("{:%H:%M:%S}", dur), formatted_dur);
EXPECT_EQ(fmt::format("{:.3%H:%M:%S}", dur), "-00:01:39.123");
}
// Check that durations with precision greater than std::chrono::seconds have
// fixed precision, and print zeros even if there is no fractional part.