nucleo_f446re_playground/components/etl/test/test_chrono_time_point.cpp

/******************************************************************************
The MIT License(MIT)

Embedded Template Library.
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https://www.etlcpp.com

Documentation: 

Copyright(c) 2025 John Wellbelove

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#include "etl/platform.h"

#include "unit_test_framework.h"

#include "etl/chrono.h"

#include <vector>
#include <algorithm>

// Set to 0 to reference against std::chrono
#define ETL_USING_ETL_CHRONO 1

#if ETL_USING_ETL_CHRONO
  #define Chrono etl::chrono
#else
  #if ETL_USING_CPP20
    #include <chrono>
    #define Chrono std::chrono
  #else
    #error std::chrono not supported
  #endif
#endif

namespace
{
  struct test_clock
  {
    using duration = Chrono::hours;
  };

  using TimePoint = Chrono::time_point<test_clock>;

  SUITE(test_chrono_time_point)
  {
    //*************************************************************************
    TEST(test_default_constructor)
    {
      TimePoint tp;

      CHECK_EQUAL(0, tp.time_since_epoch().count());
    }

    //*************************************************************************
    TEST(test_constructor_with_duration)
    {
      auto num_days  = Chrono::days::period::num;
      auto num_hours = Chrono::hours::period::num;

      for (int d = 1; d < 100; ++d)
      {
        TimePoint tp{ Chrono::days(d) };

        auto hours                = tp.time_since_epoch().count();
        auto hours_scaled_to_days = (hours * num_hours) / num_days;

        CHECK_EQUAL(d, hours_scaled_to_days);
      }
    }

    //*************************************************************************
    TEST(test_copy_constructor)
    {
      auto num_days  = Chrono::days::period::num;
      auto num_hours = Chrono::hours::period::num;

      for (int d = 1; d < 100; ++d)
      {
        TimePoint tp{ Chrono::days(d) };
        TimePoint tp2{ tp };

        auto hours                = tp2.time_since_epoch().count();
        auto hours_scaled_to_days = (hours * num_hours) / num_days;

        CHECK_EQUAL(d, hours_scaled_to_days);
      }
    }

    //*************************************************************************
    TEST(test_plus_equal_days)
    {
      auto num_days  = Chrono::days::period::num;
      auto num_hours = Chrono::hours::period::num;

      Chrono::days ds(2);
      TimePoint tp{ Chrono::days(0) };

      for (int d = 1; d < 100; ++d)
      {
        tp += ds;

        auto hours                = tp.time_since_epoch().count();
        auto hours_scaled_to_days = (hours * num_hours) / num_days;

        CHECK_EQUAL(d * 2, hours_scaled_to_days);
      }
    }

    //*************************************************************************
    TEST(test_plus_equal_hours)
    {
      auto num_days  = Chrono::days::period::num;
      auto num_hours = Chrono::hours::period::num;
      
      Chrono::hours hs(48);
      TimePoint tp{ Chrono::days(0) };

      for (int d = 1; d < 100; ++d)
      {
        tp += hs;

        auto hours                = tp.time_since_epoch().count();
        auto hours_scaled_to_days = (hours * num_hours) / num_days;

        CHECK_EQUAL(d * 2, hours_scaled_to_days);
      }
    }

    //*************************************************************************
    TEST(test_minus_equal_days)
    {
      auto num_days  = Chrono::days::period::num;
      auto num_hours = Chrono::hours::period::num;

      Chrono::days ds(2);
      TimePoint tp{ Chrono::days(100) };

      for (int d = 1; d < 100; ++d)
      {
        tp -= ds;

        auto hours                = tp.time_since_epoch().count();
        auto hours_scaled_to_days = (hours * num_hours) / num_days;

        CHECK_EQUAL(100 - (d * 2), hours_scaled_to_days);
      }
    }

    //*************************************************************************
    TEST(test_minus_equal_hours)
    {
      auto num_days  = Chrono::days::period::num;
      auto num_hours = Chrono::hours::period::num;

      Chrono::hours hs(48);
      TimePoint tp{ Chrono::days(100) };

      for (int d = 1; d < 100; ++d)
      {
        tp -= hs;

        auto hours                = tp.time_since_epoch().count();
        auto hours_scaled_to_days = (hours * num_hours) / num_days;

        CHECK_EQUAL(100 - (d * 2), hours_scaled_to_days);
      }
    }

#if ETL_USING_ETL_CHRONO
    //*************************************************************************
    TEST(test_min_max_time_point)
    {
      using Rep = TimePoint::duration::rep;

      CHECK_EQUAL(etl::integral_limits<Rep>::min, TimePoint::min().time_since_epoch().count());
      CHECK_EQUAL(etl::integral_limits<Rep>::max, TimePoint::max().time_since_epoch().count());
    }
#endif

    //*************************************************************************
    TEST(test_time_point_comparison_operators)
    {
      // 10 days
      TimePoint tp10h{ Chrono::hours(240) };
      TimePoint tp10d{ Chrono::days(10) };

      // 20 days
      TimePoint tp20h{ Chrono::hours(480) };
      TimePoint tp20d{ Chrono::days(20) };

      // ==
      CHECK_TRUE(tp10h == tp10h);
      CHECK_TRUE(tp10d == tp10h);
      CHECK_TRUE(tp10h == tp10d);

      CHECK_FALSE(tp10h == tp20h);
      CHECK_FALSE(tp20h == tp10h);
      CHECK_FALSE(tp10h == tp20d);

      CHECK_FALSE(tp10d == tp20h);
      CHECK_FALSE(tp20h == tp10d);
      CHECK_FALSE(tp20d == tp10h);

      // <
      CHECK_TRUE(tp10h < tp20h);
      CHECK_TRUE(tp10d < tp20h);
      CHECK_TRUE(tp10h < tp20d);

      CHECK_FALSE(tp10h < tp10h);
      CHECK_FALSE(tp10d < tp10h);
      CHECK_FALSE(tp10h < tp10d);

      CHECK_FALSE(tp20h < tp10h);
      CHECK_FALSE(tp20d < tp10h);
      CHECK_FALSE(tp20h < tp10d);

      // <=
      CHECK_TRUE(tp10h <= tp20h);
      CHECK_TRUE(tp10d <= tp20h);
      CHECK_TRUE(tp10h <= tp20d);

      CHECK_TRUE(tp10h <= tp10h);
      CHECK_TRUE(tp10d <= tp10h);
      CHECK_TRUE(tp10h <= tp10d);

      CHECK_FALSE(tp20h <= tp10h);
      CHECK_FALSE(tp20d <= tp10h);
      CHECK_FALSE(tp20h <= tp10d);

      // >
      CHECK_TRUE(tp20h > tp10h);
      CHECK_TRUE(tp20d > tp10h);
      CHECK_TRUE(tp20h > tp10d);

      CHECK_FALSE(tp10h > tp10h);
      CHECK_FALSE(tp10d > tp10h);
      CHECK_FALSE(tp10h > tp10d);

      CHECK_FALSE(tp10h > tp20h);
      CHECK_FALSE(tp10d > tp20h);
      CHECK_FALSE(tp10h > tp20d);

      // >=
      CHECK_TRUE(tp20h >= tp10h);
      CHECK_TRUE(tp20d >= tp10h);
      CHECK_TRUE(tp20h >= tp10d);

      CHECK_TRUE(tp10h >= tp10h);
      CHECK_TRUE(tp10d >= tp10h);
      CHECK_TRUE(tp10h >= tp10d);

      CHECK_FALSE(tp10h >= tp20h);
      CHECK_FALSE(tp10d >= tp20h);
      CHECK_FALSE(tp10h >= tp20d);

#if ETL_USING_CPP20
        CHECK_TRUE((tp10h <=> tp10h) == 0);
        CHECK_TRUE((tp10h <=> tp20h)  < 0);
        CHECK_TRUE((tp20h <=> tp10h)  > 0);

        CHECK_TRUE((tp10h <=> tp10d) == 0);
        CHECK_TRUE((tp10d <=> tp20h)  < 0);
        CHECK_TRUE((tp20h <=> tp10d)  > 0);
        
        CHECK_TRUE((tp10d <=> tp10h) == 0);
        CHECK_TRUE((tp10h <=> tp20d)  < 0);
        CHECK_TRUE((tp20d <=> tp10h)  > 0);
#endif
    }

    //*************************************************************************
    TEST(test_time_point_common_type)
    {
      using TimePointHours = Chrono::time_point<test_clock, Chrono::hours>;
      using TimePointDays  = Chrono::time_point<test_clock, Chrono::days>;
      using CommonType     = etl::common_type_t<TimePointHours, TimePointDays>;

      CHECK_TRUE((std::is_same<TimePointHours::duration, CommonType::duration>::value));
      CHECK_FALSE((std::is_same<TimePointDays::duration, CommonType::duration>::value));
    }

    //*************************************************************************
    TEST(test_floor)
    {
      using TimePoint = Chrono::time_point<test_clock, Chrono::milliseconds>;

      TimePoint tp(Chrono::milliseconds(1234)); // 1234 milliseconds
      auto floored_tp = floor<Chrono::seconds>(tp);
      CHECK_EQUAL(1, floored_tp.time_since_epoch().count());

      TimePoint negative_tp(Chrono::milliseconds(-1234)); // -1234 milliseconds
      auto floored_negative_tp = floor<Chrono::seconds>(negative_tp);
      CHECK_EQUAL(-2, floored_negative_tp.time_since_epoch().count());
    }

    //*************************************************************************
    TEST(test_ceil)
    {
      using TimePoint = Chrono::time_point<test_clock, Chrono::milliseconds>;

      TimePoint tp(Chrono::milliseconds(1234)); // 1234 milliseconds
      auto ceil_tp = ceil<Chrono::seconds>(tp);
      CHECK_EQUAL(2, ceil_tp.time_since_epoch().count());

      TimePoint negative_tp(Chrono::milliseconds(-1234)); // -1234 milliseconds
      auto ceil_negative_tp = ceil<Chrono::seconds>(negative_tp);
      CHECK_EQUAL(-1, ceil_negative_tp.time_since_epoch().count());
    }

    //*************************************************************************
    TEST(test_round)
    {
      using TimePoint = Chrono::time_point<test_clock, Chrono::milliseconds>;

      TimePoint tp1(Chrono::milliseconds(1500)); // 1500 milliseconds
      auto round1 = round<Chrono::seconds>(tp1); // Round to seconds
      CHECK_EQUAL(2, round1.time_since_epoch().count());

      TimePoint tp2(Chrono::milliseconds(2500)); // 2500 milliseconds
      auto round2 = round<Chrono::seconds>(tp2); // Round to seconds
      CHECK_EQUAL(2, round2.time_since_epoch().count());

      TimePoint tp3(Chrono::milliseconds(-1500)); // -1500 milliseconds
      auto round3 = round<Chrono::seconds>(tp3);  // Round to seconds
      CHECK_EQUAL(-2, round3.time_since_epoch().count());
    }

    //*************************************************************************
    TEST(test_time_point_cast)
    {
      using TimePointFrom = Chrono::time_point<test_clock, Chrono::seconds>;
      using TimePointTo   = Chrono::time_point<test_clock, Chrono::milliseconds>;

      TimePointFrom from(Chrono::seconds(2));
      TimePointTo   to = Chrono::time_point_cast<TimePointTo::duration>(from);

      auto expected = from.time_since_epoch().count() * (TimePointTo::period::den / TimePointFrom::period::den);
      auto actual   = to.time_since_epoch().count();

      CHECK_EQUAL(expected, actual);
    }
  };
}