//===- llvm/unittest/Support/Chrono.cpp - Time utilities tests ------------===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "llvm/Support/Chrono.h" #include "llvm/ADT/SmallVector.h" #include "llvm/Support/FormatVariadic.h" #include "gtest/gtest.h" using namespace llvm; using namespace llvm::sys; using namespace std::chrono; namespace { TEST(Chrono, TimeTConversion) { EXPECT_EQ(time_t(0), toTimeT(toTimePoint(time_t(0)))); EXPECT_EQ(time_t(1), toTimeT(toTimePoint(time_t(1)))); EXPECT_EQ(time_t(47), toTimeT(toTimePoint(time_t(47)))); TimePoint<> TP; EXPECT_EQ(TP, toTimePoint(toTimeT(TP))); TP += seconds(1); EXPECT_EQ(TP, toTimePoint(toTimeT(TP))); TP += hours(47); EXPECT_EQ(TP, toTimePoint(toTimeT(TP))); } TEST(Chrono, TimePointFormat) { using namespace std::chrono; struct tm TM {}; TM.tm_year = 106; TM.tm_mon = 0; TM.tm_mday = 2; TM.tm_hour = 15; TM.tm_min = 4; TM.tm_sec = 5; TM.tm_isdst = -1; TimePoint<> T = system_clock::from_time_t(mktime(&TM)) + nanoseconds(123456789); // operator<< uses the format YYYY-MM-DD HH:MM:SS.NNNNNNNNN std::string S; raw_string_ostream OS(S); OS << T; EXPECT_EQ("2006-01-02 15:04:05.123456789", OS.str()); // formatv default style matches operator<<. EXPECT_EQ("2006-01-02 15:04:05.123456789", formatv("{0}", T).str()); // formatv supports strftime-style format strings. EXPECT_EQ("15:04:05", formatv("{0:%H:%M:%S}", T).str()); // formatv supports our strftime extensions for sub-second precision. EXPECT_EQ("123", formatv("{0:%L}", T).str()); EXPECT_EQ("123456", formatv("{0:%f}", T).str()); EXPECT_EQ("123456789", formatv("{0:%N}", T).str()); // our extensions don't interfere with %% escaping. EXPECT_EQ("%foo", formatv("{0:%%foo}", T).str()); } // Test that toTimePoint and toTimeT can be called with a arguments with varying // precisions. TEST(Chrono, ImplicitConversions) { std::time_t TimeT = 47; TimePoint<seconds> Sec = toTimePoint(TimeT); TimePoint<milliseconds> Milli = toTimePoint(TimeT); TimePoint<microseconds> Micro = toTimePoint(TimeT); TimePoint<nanoseconds> Nano = toTimePoint(TimeT); EXPECT_EQ(Sec, Milli); EXPECT_EQ(Sec, Micro); EXPECT_EQ(Sec, Nano); EXPECT_EQ(TimeT, toTimeT(Sec)); EXPECT_EQ(TimeT, toTimeT(Milli)); EXPECT_EQ(TimeT, toTimeT(Micro)); EXPECT_EQ(TimeT, toTimeT(Nano)); } TEST(Chrono, DurationFormat) { EXPECT_EQ("1 h", formatv("{0}", hours(1)).str()); EXPECT_EQ("1 m", formatv("{0}", minutes(1)).str()); EXPECT_EQ("1 s", formatv("{0}", seconds(1)).str()); EXPECT_EQ("1 ms", formatv("{0}", milliseconds(1)).str()); EXPECT_EQ("1 us", formatv("{0}", microseconds(1)).str()); EXPECT_EQ("1 ns", formatv("{0}", nanoseconds(1)).str()); EXPECT_EQ("1 s", formatv("{0:+}", seconds(1)).str()); EXPECT_EQ("1", formatv("{0:-}", seconds(1)).str()); EXPECT_EQ("1000 ms", formatv("{0:ms}", seconds(1)).str()); EXPECT_EQ("1000000 us", formatv("{0:us}", seconds(1)).str()); EXPECT_EQ("1000", formatv("{0:ms-}", seconds(1)).str()); EXPECT_EQ("1,000 ms", formatv("{0:+n}", milliseconds(1000)).str()); EXPECT_EQ("0x3e8", formatv("{0:-x}", milliseconds(1000)).str()); EXPECT_EQ("010", formatv("{0:-3}", milliseconds(10)).str()); EXPECT_EQ("10,000", formatv("{0:ms-n}", seconds(10)).str()); EXPECT_EQ("1.00 s", formatv("{0}", duration<float>(1)).str()); EXPECT_EQ("0.123 s", formatv("{0:+3}", duration<float>(0.123f)).str()); EXPECT_EQ("1.230e-01 s", formatv("{0:+e3}", duration<float>(0.123f)).str()); typedef duration<float, std::ratio<60 * 60 * 24 * 14, 1000000>> microfortnights; EXPECT_EQ("1.00", formatv("{0:-}", microfortnights(1)).str()); EXPECT_EQ("1209.60 ms", formatv("{0:ms}", microfortnights(1)).str()); } } // anonymous namespace