qt6windows7/tests/auto/testlib/tostring/tst_tostring.cpp

// Copyright (C) 2023 Intel Corporation.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0

#include <QTest>
#include <memory>

#include <q20chrono.h>

using ToStringFunction = std::function<char *()>;
class tst_toString : public QObject
{
    Q_OBJECT
private:
    void addColumns();
    void testRows();
private slots:
    void chrono_duration_data();
    void chrono_duration() { testRows(); }
};

void tst_toString::addColumns()
{
    QTest::addColumn<ToStringFunction>("fn");
    QTest::addColumn<QByteArrayView>("expected");
    QTest::addColumn<QByteArrayView>("expr");
    QTest::addColumn<QByteArrayView>("file");
    QTest::addColumn<int>("line");
}
void tst_toString::testRows()
{
    QFETCH(ToStringFunction, fn);
    QFETCH(QByteArrayView, expected);
    QFETCH(QByteArrayView, expr);
    QFETCH(QByteArrayView, file);
    QFETCH(int, line);

    std::unique_ptr<char []> ptr{fn()};
    QTest::qCompare(ptr.get(), expected, expr.data(), expected.data(), file.data(), line);
}

template <typename T> void addRow(QByteArrayView name, T &&value, QByteArrayView expression,
                                  QByteArrayView expected, QByteArrayView file, int line)
{
    ToStringFunction fn = [v = std::move(value)]() { return QTest::toString(v); };
    QTest::newRow(name.data()) << fn << expected << expression << file << line;
}

#define ADD_ROW(name, expr, expected)         \
    ::addRow(name, expr, #expr, expected, __FILE__, __LINE__)

void tst_toString::chrono_duration_data()
{
    addColumns();

    using namespace std::chrono;
    using namespace q20::chrono;

    using attoseconds = duration<int64_t, std::atto>;
    using femtoseconds = duration<int64_t, std::femto>;
    using picoseconds = duration<int64_t, std::pico>;
    using centiseconds = duration<int64_t, std::centi>;
    using deciseconds = duration<int64_t, std::deci>;
    using kiloseconds = duration<int64_t, std::kilo>;
    using decades = duration<int, std::ratio_multiply<years::period, std::deca>>; // decayears
    using centuries = duration<int16_t, std::ratio_multiply<years::period, std::hecto>>; // hectoyears
    using millennia = duration<int16_t, std::ratio_multiply<years::period, std::kilo>>; // kiloyears
    using gigayears = duration<int8_t, std::ratio_multiply<years::period, std::giga>>;
    using fortnights = duration<int, std::ratio_multiply<days::period, std::ratio<14>>>;
    using microfortnights = duration<int64_t, std::ratio_multiply<fortnights::period, std::micro>>;
    using meter_per_light = duration<int64_t, std::ratio<1, 299'792'458>>;
    using kilometer_per_light = duration<int64_t, std::ratio<1000, 299'792'458>>;
    using AU_per_light = duration<int64_t, std::ratio<149'597'871'800, 299'792'458>>;
    using pstn_rate = duration<int64_t, std::ratio<1, 8000>>; // PSTN sampling rate (8 kHz)
    using hyperfine = duration<int64_t, std::ratio<1, 9'192'631'770>>;  // definition of second

    ADD_ROW("1as", attoseconds{1}, "1as (1e-18s)");   // from Norwegian "atten" (18)
    ADD_ROW("1fs", femtoseconds{1}, "1fs (1e-15s)");  // from Norwegian "femten" (15)
    ADD_ROW("1ps", picoseconds{1}, "1ps (1e-12s)");   // from Italian piccolo?
    ADD_ROW("0ns", 0ns, "0ns (0s)");
    ADD_ROW("1000ns", 1000ns, "1000ns (1e-06s)");
    ADD_ROW("1us", 1us, "1us (1e-06s)");
    ADD_ROW("125us", 125us, "125us (0.000125s)");
    ADD_ROW("0ms", 0ms, "0ms (0s)");
    ADD_ROW("-1s", -1s, "-1s");
    ADD_ROW("0s", 0s, "0s");
    ADD_ROW("1cs", centiseconds{1}, "1cs (0.01s)");
    ADD_ROW("2ds", deciseconds{2}, "2ds (0.2s)");
    ADD_ROW("1s", 1s, "1s");
    ADD_ROW("60s", 60s, "60s");
    ADD_ROW("1min", 1min, "1min (60s)");
    ADD_ROW("1h", 1h, "1h (3600s)");
    ADD_ROW("1days", days{1}, "1d (86400s)");
    ADD_ROW("7days", days{7}, "7d (604800s)");
    ADD_ROW("1weeks", weeks{1}, "1wk (604800s)");
    ADD_ROW("365days", days{365}, "365d (31536000s)");
    ADD_ROW("1years", years{1}, "1yr (31556952s)"); // 365.2425 days

    ADD_ROW("2ks", kiloseconds{2}, "2[1000]s (2000s)");
    ADD_ROW("1fortnights", fortnights{1}, "1[2]wk (1209600s)");
    ADD_ROW("1decades", decades{1}, "1[10]yr (315569520s)");
    ADD_ROW("1centuries", centuries{1}, "1[100]yr (3.1556952e+09s)");
    ADD_ROW("1millennia", millennia{1}, "1[1000]yr (3.1556952e+10s)");
#if defined(Q_OS_LINUX) || defined(Q_OS_DARWIN)
    // some OSes print the exponent differently
    ADD_ROW("13gigayears", gigayears{13}, "13[1e+09]yr (4.10240376e+17s)");
#endif

    // months are one twelfth of a Gregorian year, not 30 days
    ADD_ROW("1months", months{1}, "1[2629746]s (2629746s)");
    ADD_ROW("12months", months{12}, "12[2629746]s (31556952s)");

    // weird units
    ADD_ROW("2microfortnights", microfortnights{2}, "2[756/625]s (2.4192s)");
    ADD_ROW("1pstn_rate", pstn_rate{1}, "1[1/8000]s (0.000125s)");   // 125µs
    ADD_ROW("10m/c", meter_per_light{10}, "10[1/299792458]s (3.33564095e-08s)");
    ADD_ROW("10km/c", kilometer_per_light{10}, "10[500/149896229]s (3.33564095e-05s)");
    ADD_ROW("1AU/c", AU_per_light{1}, "1[74798935900/149896229]s (499.004788s)");
    ADD_ROW("Cs133-hyperfine", hyperfine{1}, "1[1/9192631770]s (1.08782776e-10s)");
    ADD_ROW("1sec-definition", hyperfine{9'192'631'770}, "9192631770[1/9192631770]s (1s)");
    ADD_ROW("8000pstn_rate", pstn_rate{8000}, "8000[1/8000]s (1s)");

    // real floting point
    // current (2023) best estimate is 13.813 ± 0.038 billion years (Plank Collaboration)
    using universe = duration<double, std::ratio_multiply<std::ratio<13'813'000'000>, years::period>>;
    using fpksec = duration<double, std::kilo>;
    using fpsec = duration<double>;
    using fpmsec = duration<double, std::milli>;
    using fpnsec = duration<double, std::nano>;
    using fpGyr = duration<double, std::ratio_multiply<years::period, std::giga>>;

    ADD_ROW("1.0s", fpsec{1}, "1s");
    ADD_ROW("1.5s", fpsec{1.5}, "1.5s");
    ADD_ROW("-1.0ms", fpmsec{-1}, "-1ms (-0.001s)");
    ADD_ROW("1.5ms", fpmsec{1.5}, "1.5ms (0.0015s)");
    ADD_ROW("1.0ns", fpnsec{1}, "1ns (1e-09s)");
    ADD_ROW("-1.5ns", fpnsec{-1.5}, "-1.5ns (-1.5e-09s)");
    ADD_ROW("1.0ks", fpksec{1}, "1[1000]s (1000s)");
    ADD_ROW("-1.5ks", fpksec{-1.5}, "-1.5[1000]s (-1500s)");
    ADD_ROW("1.0zs", fpsec{1e-21}, "1e-21s");  // zeptosecond
    ADD_ROW("1.0ys", fpsec{1e-24}, "1e-24s");  // yoctosecond
    ADD_ROW("planck-time", fpsec(5.39124760e-44), "5.3912476e-44s");
#if defined(Q_OS_LINUX) || defined(Q_OS_DARWIN)
    // some OSes print the exponent differently
    ADD_ROW("13.813Gyr", fpGyr(13.813), "13.813[1e+09]yr (4.35896178e+17s)");
    ADD_ROW("1universe", universe{1}, "1[1.3813e+10]yr (4.35896178e+17s)");
#endif
}

QTEST_APPLESS_MAIN(tst_toString)
#include "tst_tostring.moc"
qt 6.6.0 clean 2023-11-02 05:23:55 +08:00			`// Copyright (C) 2023 Intel Corporation.`
			`// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0`

			`#include <QTest>`
			`#include <memory>`

			`#include <q20chrono.h>`

			`using ToStringFunction = std::function<char *()>;`
			`class tst_toString : public QObject`
			`{`
			`Q_OBJECT`
			`private:`
			`void addColumns();`
			`void testRows();`
			`private slots:`
			`void chrono_duration_data();`
			`void chrono_duration() { testRows(); }`
			`};`

			`void tst_toString::addColumns()`
			`{`
			`QTest::addColumn<ToStringFunction>("fn");`
			`QTest::addColumn<QByteArrayView>("expected");`
			`QTest::addColumn<QByteArrayView>("expr");`
			`QTest::addColumn<QByteArrayView>("file");`
			`QTest::addColumn<int>("line");`
			`}`
			`void tst_toString::testRows()`
			`{`
			`QFETCH(ToStringFunction, fn);`
			`QFETCH(QByteArrayView, expected);`
			`QFETCH(QByteArrayView, expr);`
			`QFETCH(QByteArrayView, file);`
			`QFETCH(int, line);`

			`std::unique_ptr<char []> ptr{fn()};`
			`QTest::qCompare(ptr.get(), expected, expr.data(), expected.data(), file.data(), line);`
			`}`

			`template <typename T> void addRow(QByteArrayView name, T &&value, QByteArrayView expression,`
			`QByteArrayView expected, QByteArrayView file, int line)`
			`{`
			`ToStringFunction fn = [v = std::move(value)]() { return QTest::toString(v); };`
			`QTest::newRow(name.data()) << fn << expected << expression << file << line;`
			`}`

			`#define ADD_ROW(name, expr, expected) \`
			`::addRow(name, expr, #expr, expected, __FILE__, __LINE__)`

			`void tst_toString::chrono_duration_data()`
			`{`
			`addColumns();`

			`using namespace std::chrono;`
			`using namespace q20::chrono;`

			`using attoseconds = duration<int64_t, std::atto>;`
			`using femtoseconds = duration<int64_t, std::femto>;`
			`using picoseconds = duration<int64_t, std::pico>;`
			`using centiseconds = duration<int64_t, std::centi>;`
			`using deciseconds = duration<int64_t, std::deci>;`
			`using kiloseconds = duration<int64_t, std::kilo>;`
			`using decades = duration<int, std::ratio_multiply<years::period, std::deca>>; // decayears`
			`using centuries = duration<int16_t, std::ratio_multiply<years::period, std::hecto>>; // hectoyears`
			`using millennia = duration<int16_t, std::ratio_multiply<years::period, std::kilo>>; // kiloyears`
			`using gigayears = duration<int8_t, std::ratio_multiply<years::period, std::giga>>;`
			`using fortnights = duration<int, std::ratio_multiply<days::period, std::ratio<14>>>;`
			`using microfortnights = duration<int64_t, std::ratio_multiply<fortnights::period, std::micro>>;`
			`using meter_per_light = duration<int64_t, std::ratio<1, 299'792'458>>;`
			`using kilometer_per_light = duration<int64_t, std::ratio<1000, 299'792'458>>;`
			`using AU_per_light = duration<int64_t, std::ratio<149'597'871'800, 299'792'458>>;`
			`using pstn_rate = duration<int64_t, std::ratio<1, 8000>>; // PSTN sampling rate (8 kHz)`
			`using hyperfine = duration<int64_t, std::ratio<1, 9'192'631'770>>; // definition of second`

			`ADD_ROW("1as", attoseconds{1}, "1as (1e-18s)"); // from Norwegian "atten" (18)`
			`ADD_ROW("1fs", femtoseconds{1}, "1fs (1e-15s)"); // from Norwegian "femten" (15)`
			`ADD_ROW("1ps", picoseconds{1}, "1ps (1e-12s)"); // from Italian piccolo?`
			`ADD_ROW("0ns", 0ns, "0ns (0s)");`
			`ADD_ROW("1000ns", 1000ns, "1000ns (1e-06s)");`
			`ADD_ROW("1us", 1us, "1us (1e-06s)");`
			`ADD_ROW("125us", 125us, "125us (0.000125s)");`
			`ADD_ROW("0ms", 0ms, "0ms (0s)");`
			`ADD_ROW("-1s", -1s, "-1s");`
			`ADD_ROW("0s", 0s, "0s");`
			`ADD_ROW("1cs", centiseconds{1}, "1cs (0.01s)");`
			`ADD_ROW("2ds", deciseconds{2}, "2ds (0.2s)");`
			`ADD_ROW("1s", 1s, "1s");`
			`ADD_ROW("60s", 60s, "60s");`
			`ADD_ROW("1min", 1min, "1min (60s)");`
			`ADD_ROW("1h", 1h, "1h (3600s)");`
			`ADD_ROW("1days", days{1}, "1d (86400s)");`
			`ADD_ROW("7days", days{7}, "7d (604800s)");`
			`ADD_ROW("1weeks", weeks{1}, "1wk (604800s)");`
			`ADD_ROW("365days", days{365}, "365d (31536000s)");`
			`ADD_ROW("1years", years{1}, "1yr (31556952s)"); // 365.2425 days`

			`ADD_ROW("2ks", kiloseconds{2}, "2[1000]s (2000s)");`
			`ADD_ROW("1fortnights", fortnights{1}, "1[2]wk (1209600s)");`
			`ADD_ROW("1decades", decades{1}, "1[10]yr (315569520s)");`
			`ADD_ROW("1centuries", centuries{1}, "1[100]yr (3.1556952e+09s)");`
			`ADD_ROW("1millennia", millennia{1}, "1[1000]yr (3.1556952e+10s)");`
			`#if defined(Q_OS_LINUX) \|\| defined(Q_OS_DARWIN)`
			`// some OSes print the exponent differently`
			`ADD_ROW("13gigayears", gigayears{13}, "13[1e+09]yr (4.10240376e+17s)");`
			`#endif`

			`// months are one twelfth of a Gregorian year, not 30 days`
			`ADD_ROW("1months", months{1}, "1[2629746]s (2629746s)");`
			`ADD_ROW("12months", months{12}, "12[2629746]s (31556952s)");`

			`// weird units`
			`ADD_ROW("2microfortnights", microfortnights{2}, "2[756/625]s (2.4192s)");`
			`ADD_ROW("1pstn_rate", pstn_rate{1}, "1[1/8000]s (0.000125s)"); // 125µs`
			`ADD_ROW("10m/c", meter_per_light{10}, "10[1/299792458]s (3.33564095e-08s)");`
			`ADD_ROW("10km/c", kilometer_per_light{10}, "10[500/149896229]s (3.33564095e-05s)");`
			`ADD_ROW("1AU/c", AU_per_light{1}, "1[74798935900/149896229]s (499.004788s)");`
			`ADD_ROW("Cs133-hyperfine", hyperfine{1}, "1[1/9192631770]s (1.08782776e-10s)");`
			`ADD_ROW("1sec-definition", hyperfine{9'192'631'770}, "9192631770[1/9192631770]s (1s)");`
			`ADD_ROW("8000pstn_rate", pstn_rate{8000}, "8000[1/8000]s (1s)");`

			`// real floting point`
			`// current (2023) best estimate is 13.813 ± 0.038 billion years (Plank Collaboration)`
			`using universe = duration<double, std::ratio_multiply<std::ratio<13'813'000'000>, years::period>>;`
			`using fpksec = duration<double, std::kilo>;`
			`using fpsec = duration<double>;`
			`using fpmsec = duration<double, std::milli>;`
			`using fpnsec = duration<double, std::nano>;`
			`using fpGyr = duration<double, std::ratio_multiply<years::period, std::giga>>;`

			`ADD_ROW("1.0s", fpsec{1}, "1s");`
			`ADD_ROW("1.5s", fpsec{1.5}, "1.5s");`
			`ADD_ROW("-1.0ms", fpmsec{-1}, "-1ms (-0.001s)");`
			`ADD_ROW("1.5ms", fpmsec{1.5}, "1.5ms (0.0015s)");`
			`ADD_ROW("1.0ns", fpnsec{1}, "1ns (1e-09s)");`
			`ADD_ROW("-1.5ns", fpnsec{-1.5}, "-1.5ns (-1.5e-09s)");`
			`ADD_ROW("1.0ks", fpksec{1}, "1[1000]s (1000s)");`
			`ADD_ROW("-1.5ks", fpksec{-1.5}, "-1.5[1000]s (-1500s)");`
			`ADD_ROW("1.0zs", fpsec{1e-21}, "1e-21s"); // zeptosecond`
			`ADD_ROW("1.0ys", fpsec{1e-24}, "1e-24s"); // yoctosecond`
			`ADD_ROW("planck-time", fpsec(5.39124760e-44), "5.3912476e-44s");`
			`#if defined(Q_OS_LINUX) \|\| defined(Q_OS_DARWIN)`
			`// some OSes print the exponent differently`
			`ADD_ROW("13.813Gyr", fpGyr(13.813), "13.813[1e+09]yr (4.35896178e+17s)");`
			`ADD_ROW("1universe", universe{1}, "1[1.3813e+10]yr (4.35896178e+17s)");`
			`#endif`
			`}`

			`QTEST_APPLESS_MAIN(tst_toString)`
			`#include "tst_tostring.moc"`