// Copyright 2011 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/i18n/time_formatting.h" #include #include #include #include #include "base/i18n/unicodestring.h" #include "base/logging.h" #include "base/notreached.h" #include "base/numerics/safe_conversions.h" #include "base/strings/utf_string_conversions.h" #include "base/time/time.h" #include "build/chromeos_buildflags.h" #include "third_party/icu/source/common/unicode/locid.h" #include "third_party/icu/source/common/unicode/utypes.h" #include "third_party/icu/source/i18n/unicode/datefmt.h" #include "third_party/icu/source/i18n/unicode/dtitvfmt.h" #include "third_party/icu/source/i18n/unicode/dtptngen.h" #include "third_party/icu/source/i18n/unicode/fmtable.h" #include "third_party/icu/source/i18n/unicode/measfmt.h" #include "third_party/icu/source/i18n/unicode/smpdtfmt.h" #include "third_party/icu/source/i18n/unicode/timezone.h" namespace base { namespace { UDate ToUDate(const Time& time) { // TODO(crbug.com/1392437): Consider using the `...IgnoringNull` variant and // adding a `CHECK(!time.is_null())`; trying to format a null Time as a string // is almost certainly an indication that the caller has made a mistake. return time.InMillisecondsFSinceUnixEpoch(); } std::u16string TimeFormat(const icu::DateFormat& formatter, const Time& time) { icu::UnicodeString date_string; formatter.format(ToUDate(time), date_string); return i18n::UnicodeStringToString16(date_string); } std::u16string TimeFormatWithoutAmPm(const icu::DateFormat* formatter, const Time& time) { DCHECK(formatter); icu::UnicodeString time_string; icu::FieldPosition ampm_field(icu::DateFormat::kAmPmField); formatter->format(ToUDate(time), time_string, ampm_field); int ampm_length = ampm_field.getEndIndex() - ampm_field.getBeginIndex(); if (ampm_length) { int begin = ampm_field.getBeginIndex(); // Doesn't include any spacing before the field. if (begin) begin--; time_string.removeBetween(begin, ampm_field.getEndIndex()); } return i18n::UnicodeStringToString16(time_string); } icu::SimpleDateFormat CreateSimpleDateFormatter( std::string_view pattern, bool generate_pattern = true, const icu::Locale& locale = icu::Locale::getDefault()) { UErrorCode status = U_ZERO_ERROR; icu::UnicodeString generated_pattern(pattern.data(), pattern.length()); if (generate_pattern) { // Generate a locale-dependent format pattern. The generator will take // care of locale-dependent formatting issues like which separator to // use (some locales use '.' instead of ':'), and where to put the am/pm // marker. std::unique_ptr generator( icu::DateTimePatternGenerator::createInstance(status)); DCHECK(U_SUCCESS(status)); generated_pattern = generator->getBestPattern(generated_pattern, status); DCHECK(U_SUCCESS(status)); } // Then, format the time using the desired pattern. icu::SimpleDateFormat formatter(generated_pattern, locale, status); DCHECK(U_SUCCESS(status)); return formatter; } UMeasureFormatWidth DurationWidthToMeasureWidth(DurationFormatWidth width) { switch (width) { case DURATION_WIDTH_WIDE: return UMEASFMT_WIDTH_WIDE; case DURATION_WIDTH_SHORT: return UMEASFMT_WIDTH_SHORT; case DURATION_WIDTH_NARROW: return UMEASFMT_WIDTH_NARROW; case DURATION_WIDTH_NUMERIC: return UMEASFMT_WIDTH_NUMERIC; } NOTREACHED(); return UMEASFMT_WIDTH_COUNT; } const char* DateFormatToString(DateFormat format) { switch (format) { case DATE_FORMAT_YEAR_MONTH: return UDAT_YEAR_MONTH; case DATE_FORMAT_MONTH_WEEKDAY_DAY: return UDAT_MONTH_WEEKDAY_DAY; } NOTREACHED(); return UDAT_YEAR_MONTH_DAY; } } // namespace std::u16string TimeFormatTimeOfDay(const Time& time) { // We can omit the locale parameter because the default should match // Chrome's application locale. std::unique_ptr formatter( icu::DateFormat::createTimeInstance(icu::DateFormat::kShort)); return TimeFormat(*formatter, time); } std::u16string TimeFormatTimeOfDayWithMilliseconds(const Time& time) { icu::SimpleDateFormat formatter = CreateSimpleDateFormatter("HmsSSS"); return TimeFormatWithoutAmPm(&formatter, time); } std::u16string TimeFormatTimeOfDayWithHourClockType(const Time& time, HourClockType type, AmPmClockType ampm) { // Just redirect to the normal function if the default type matches the // given type. HourClockType default_type = GetHourClockType(); if (default_type == type && (type == k24HourClock || ampm == kKeepAmPm)) { return TimeFormatTimeOfDay(time); } const char* base_pattern = (type == k12HourClock ? "ahm" : "Hm"); icu::SimpleDateFormat formatter = CreateSimpleDateFormatter(base_pattern); return (ampm == kKeepAmPm) ? TimeFormat(formatter, time) : TimeFormatWithoutAmPm(&formatter, time); } std::u16string TimeFormatShortDate(const Time& time) { std::unique_ptr formatter( icu::DateFormat::createDateInstance(icu::DateFormat::kMedium)); return TimeFormat(*formatter, time); } std::u16string TimeFormatShortDateNumeric(const Time& time) { std::unique_ptr formatter( icu::DateFormat::createDateInstance(icu::DateFormat::kShort)); return TimeFormat(*formatter, time); } std::u16string TimeFormatShortDateAndTime(const Time& time) { std::unique_ptr formatter( icu::DateFormat::createDateTimeInstance(icu::DateFormat::kShort)); return TimeFormat(*formatter, time); } std::u16string TimeFormatShortDateAndTimeWithTimeZone(const Time& time) { std::unique_ptr formatter( icu::DateFormat::createDateTimeInstance(icu::DateFormat::kShort, icu::DateFormat::kLong)); return TimeFormat(*formatter, time); } #if BUILDFLAG(IS_CHROMEOS_ASH) std::u16string TimeFormatMonthAndYearForTimeZone( const Time& time, const icu::TimeZone* time_zone) { icu::SimpleDateFormat formatter = CreateSimpleDateFormatter(DateFormatToString(DATE_FORMAT_YEAR_MONTH)); formatter.setTimeZone(*time_zone); return TimeFormat(formatter, time); } #endif std::u16string TimeFormatMonthAndYear(const Time& time) { return TimeFormat( CreateSimpleDateFormatter(DateFormatToString(DATE_FORMAT_YEAR_MONTH)), time); } std::u16string TimeFormatFriendlyDateAndTime(const Time& time) { std::unique_ptr formatter( icu::DateFormat::createDateTimeInstance(icu::DateFormat::kFull)); return TimeFormat(*formatter, time); } std::u16string TimeFormatFriendlyDate(const Time& time) { std::unique_ptr formatter( icu::DateFormat::createDateInstance(icu::DateFormat::kFull)); return TimeFormat(*formatter, time); } std::u16string LocalizedTimeFormatWithPattern(const Time& time, std::string_view pattern) { return TimeFormat(CreateSimpleDateFormatter(std::move(pattern)), time); } std::string UnlocalizedTimeFormatWithPattern(const Time& time, std::string_view pattern, const icu::TimeZone* time_zone) { icu::SimpleDateFormat formatter = CreateSimpleDateFormatter({}, false, icu::Locale("en_US")); if (time_zone) { formatter.setTimeZone(*time_zone); } // Formats `time` according to `pattern`. const auto format_time = [&formatter](const Time& time, std::string_view pattern) { formatter.applyPattern( icu::UnicodeString(pattern.data(), pattern.length())); return base::UTF16ToUTF8(TimeFormat(formatter, time)); }; // If `time` has nonzero microseconds, check if the caller requested // microsecond-precision output; this must be handled internally since // `SimpleDateFormat` won't do it. std::string output; if (const int64_t microseconds = time.ToDeltaSinceWindowsEpoch().InMicroseconds() % Time::kMicrosecondsPerMillisecond) { // Adds digits to `output` for each 'S' at the start of `pattern`. const auto format_microseconds = [&output](int64_t mutable_micros, std::string_view pattern) { size_t i = 0; for (; i < pattern.length() && pattern[i] == 'S'; ++i) { output += static_cast('0' + mutable_micros / 100); mutable_micros = (mutable_micros % 100) * 10; } return i; }; // Look for fractional seconds patterns with greater-than-millisecond // precision. bool in_quotes = false; for (size_t i = 0; i < pattern.length();) { if (pattern[i] == '\'') { in_quotes = !in_quotes; } else if (!in_quotes && !pattern.compare(i, 4, "SSSS")) { // Let ICU format everything up through milliseconds. const size_t fourth_s = i + 3; if (i != 0) { output += format_time(time, pattern.substr(0, fourth_s)); } // Add microseconds digits, then truncate to the remaining pattern. pattern = pattern.substr( fourth_s + format_microseconds(microseconds, pattern.substr(fourth_s))); i = 0; continue; } ++i; } } // Format any remaining pattern. if (!pattern.empty()) { output += format_time(time, std::move(pattern)); } return output; } std::string TimeFormatAsIso8601(const Time& time) { return UnlocalizedTimeFormatWithPattern(time, "yyyy-MM-dd'T'HH:mm:ss.SSSX", icu::TimeZone::getGMT()); } std::string TimeFormatHTTP(const Time& time) { return UnlocalizedTimeFormatWithPattern(time, "E, dd MMM yyyy HH:mm:ss O", icu::TimeZone::getGMT()); } bool TimeDurationFormat(TimeDelta time, DurationFormatWidth width, std::u16string* out) { DCHECK(out); UErrorCode status = U_ZERO_ERROR; const int total_minutes = ClampRound(time / base::Minutes(1)); const int hours = total_minutes / 60; const int minutes = total_minutes % 60; UMeasureFormatWidth u_width = DurationWidthToMeasureWidth(width); // TODO(derat): Delete the |status| checks and LOG(ERROR) calls throughout // this function once the cause of http://crbug.com/677043 is tracked down. const icu::Measure measures[] = { icu::Measure(hours, icu::MeasureUnit::createHour(status), status), icu::Measure(minutes, icu::MeasureUnit::createMinute(status), status)}; if (U_FAILURE(status)) { LOG(ERROR) << "Creating MeasureUnit or Measure for " << hours << "h" << minutes << "m failed: " << u_errorName(status); return false; } icu::MeasureFormat measure_format(icu::Locale::getDefault(), u_width, status); if (U_FAILURE(status)) { LOG(ERROR) << "Creating MeasureFormat for " << icu::Locale::getDefault().getName() << " failed: " << u_errorName(status); return false; } icu::UnicodeString formatted; icu::FieldPosition ignore(icu::FieldPosition::DONT_CARE); measure_format.formatMeasures(measures, 2, formatted, ignore, status); if (U_FAILURE(status)) { LOG(ERROR) << "formatMeasures failed: " << u_errorName(status); return false; } *out = i18n::UnicodeStringToString16(formatted); return true; } bool TimeDurationFormatWithSeconds(TimeDelta time, DurationFormatWidth width, std::u16string* out) { DCHECK(out); UErrorCode status = U_ZERO_ERROR; const int64_t total_seconds = ClampRound(time.InSecondsF()); const int64_t hours = total_seconds / base::Time::kSecondsPerHour; const int64_t minutes = (total_seconds - hours * base::Time::kSecondsPerHour) / base::Time::kSecondsPerMinute; const int64_t seconds = total_seconds % base::Time::kSecondsPerMinute; UMeasureFormatWidth u_width = DurationWidthToMeasureWidth(width); const icu::Measure measures[] = { icu::Measure(hours, icu::MeasureUnit::createHour(status), status), icu::Measure(minutes, icu::MeasureUnit::createMinute(status), status), icu::Measure(seconds, icu::MeasureUnit::createSecond(status), status)}; icu::MeasureFormat measure_format(icu::Locale::getDefault(), u_width, status); icu::UnicodeString formatted; icu::FieldPosition ignore(icu::FieldPosition::DONT_CARE); measure_format.formatMeasures(measures, 3, formatted, ignore, status); *out = i18n::UnicodeStringToString16(formatted); return U_SUCCESS(status); } std::u16string DateIntervalFormat(const Time& begin_time, const Time& end_time, DateFormat format) { UErrorCode status = U_ZERO_ERROR; std::unique_ptr formatter( icu::DateIntervalFormat::createInstance(DateFormatToString(format), status)); icu::FieldPosition pos = 0; UDate start_date = ToUDate(begin_time); UDate end_date = ToUDate(end_time); icu::DateInterval interval(start_date, end_date); icu::UnicodeString formatted; formatter->format(&interval, formatted, pos, status); return i18n::UnicodeStringToString16(formatted); } HourClockType GetHourClockType() { // TODO(satorux,jshin): Rework this with ures_getByKeyWithFallback() // once it becomes public. The short time format can be found at // "calendar/gregorian/DateTimePatterns/3" in the resources. std::unique_ptr formatter( static_cast( icu::DateFormat::createTimeInstance(icu::DateFormat::kShort))); // Retrieve the short time format. icu::UnicodeString pattern_unicode; formatter->toPattern(pattern_unicode); // Determine what hour clock type the current locale uses, by checking // "a" (am/pm marker) in the short time format. This is reliable as "a" // is used by all of 12-hour clock formats, but not any of 24-hour clock // formats, as shown below. // // % grep -A4 DateTimePatterns third_party/icu/source/data/locales/*.txt | // grep -B1 -- -- |grep -v -- '--' | // perl -nle 'print $1 if /^\S+\s+"(.*)"/' |sort -u // // H.mm // H:mm // HH.mm // HH:mm // a h:mm // ah:mm // ahh:mm // h-mm a // h:mm a // hh:mm a // // See http://userguide.icu-project.org/formatparse/datetime for details // about the date/time format syntax. return pattern_unicode.indexOf('a') == -1 ? k24HourClock : k12HourClock; } } // namespace base