fsfw/contrib/fsfw_contrib/etl-20.39.4/test/test_multi_range.cpp

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

Embedded Template Library.
https://github.com/ETLCPP/etl
https://www.etlcpp.com

Copyright(c) 2020 John Wellbelove

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#include "unit_test_framework.h"

#include "etl/multi_range.h"
#include "etl/functional.h"

#include <iterator>
#include <string>
#include <forward_list>
#include <array>
#include <functional>

namespace
{
  class Index
  {
  public:

    Index()
      : index(0)
    {
    }

    Index(int i)
      : index(i)
    {
    }

    Index(const Index& other)
      : index(other.index)
    {
    }

    Index& operator ++()
    {
      ++index;
      return *this;
    }

    Index& operator --()
    {
      --index;
      return *this;
    }

    Index& operator = (int i)
    {
      index = i;
      return *this;
    }

    Index& operator = (const Index& other)
    {
      index = other.index;

      return *this;
    }

    bool operator < (const Index& other) const
    {
      return index < other.index;
    }

    operator int() const
    {
      return index;
    }

    friend bool operator == (const Index& lhs, const Index& rhs)
    {
      return lhs.index == rhs.index;
    }

    friend bool operator != (const Index& lhs, const Index& rhs)
    {
      return !(lhs == rhs);
    }

    int index;
  };

  std::ostream& operator << (std::ostream& os, const Index& index)
  {
    os << int(index);
    return os;
  }

  using Iterator = std::forward_list<std::string>::const_iterator;

  //*************************************************************************
  using StepperOuter = etl::multi_range<int>::forward_step_by;

  //*************************************************************************
  using StepperMiddle = etl::multi_range<Index>::reverse_step;

  //*************************************************************************
  using CompareMiddle = etl::multi_range<Index>::greater_than_compare;

  // Declare the loops.
  using Outer  = etl::multi_range<int>;
  using Middle = etl::multi_range<Index>;
  using Inner  = etl::multi_range<Iterator>;

  // A list of strings.
  std::forward_list<std::string> strings =
  {
    "zero", "one", "two", "three"
  };

  // Outer loop : Iterate from 0 to 6 in steps of 2.
  // Keep looping while the value is not equal to 8.
  StepperOuter stepperOuter(2);
  Outer outer(0, 8, stepperOuter);

  // Middle loop : Iterate from Index(2) to Index(-1).
  // Keep looping while the value is greater than Index(-2).
  StepperMiddle stepperMiddle;
  CompareMiddle compareMiddle;
  Middle middle(Index(2), Index(-2), stepperMiddle, compareMiddle);

  // Inner loop : Iterate from the first to the last string in the forward_list of strings.
  // Keep looping while the iterator is not equal to strings.end().
  Inner inner(strings.begin(), strings.end());

  SUITE(test_multi_range)
  {
    //*************************************************************************
    TEST(create_three_loops)
    {
      outer.append(middle);
      middle.insert(inner);

      CHECK(outer.completed());
      CHECK(middle.completed());
      CHECK(inner.completed());

      CHECK_EQUAL(3U, outer.number_of_ranges());
      CHECK_EQUAL(2U, middle.number_of_ranges());
      CHECK_EQUAL(1U, inner.number_of_ranges());

      CHECK_EQUAL(64U, outer.number_of_iterations());
      CHECK_EQUAL(16U, middle.number_of_iterations());
      CHECK_EQUAL(4U,  inner.number_of_iterations());

      CHECK_EQUAL(0,             outer.begin());
      CHECK_EQUAL(8,             outer.end());
      CHECK_EQUAL(outer.begin(), outer.value());

      CHECK_EQUAL(Index(2),       middle.begin());
      CHECK_EQUAL(Index(-2),      middle.end());
      CHECK_EQUAL(middle.begin(), middle.value());

      CHECK(strings.begin() == inner.begin());
      CHECK(strings.end()   == inner.end());
      CHECK(inner.begin()   == inner.value());

      outer.detach_all();
    }

    //*************************************************************************
    TEST(create_three_loops_different_order)
    {
      middle.append(inner);
      outer.insert(middle);

      CHECK(outer.completed());
      CHECK(middle.completed());
      CHECK(inner.completed());

      CHECK_EQUAL(3U, outer.number_of_ranges());
      CHECK_EQUAL(2U, middle.number_of_ranges());
      CHECK_EQUAL(1U, inner.number_of_ranges());

      CHECK_EQUAL(64U, outer.number_of_iterations());
      CHECK_EQUAL(16U, middle.number_of_iterations());
      CHECK_EQUAL(4U, inner.number_of_iterations());

      CHECK_EQUAL(0, outer.begin());
      CHECK_EQUAL(8, outer.end());
      CHECK_EQUAL(outer.begin(), outer.value());

      CHECK_EQUAL(Index(2), middle.begin());
      CHECK_EQUAL(Index(-2), middle.end());
      CHECK_EQUAL(middle.begin(), middle.value());

      CHECK(strings.begin() == inner.begin());
      CHECK(strings.end()   == inner.end());
      CHECK(inner.begin()   == inner.value());

      outer.detach_all();
    }

    //*************************************************************************
    TEST(create_three_loops_functional_style)
    {
      outer.append(inner).insert(middle);

      CHECK(outer.completed());
      CHECK(middle.completed());
      CHECK(inner.completed());

      CHECK_EQUAL(3U, outer.number_of_ranges());
      CHECK_EQUAL(2U, middle.number_of_ranges());
      CHECK_EQUAL(1U, inner.number_of_ranges());

      CHECK_EQUAL(64U, outer.number_of_iterations());
      CHECK_EQUAL(16U, middle.number_of_iterations());
      CHECK_EQUAL(4U, inner.number_of_iterations());

      CHECK_EQUAL(0, outer.begin());
      CHECK_EQUAL(8, outer.end());
      CHECK_EQUAL(outer.begin(), outer.value());

      CHECK_EQUAL(Index(2), middle.begin());
      CHECK_EQUAL(Index(-2), middle.end());
      CHECK_EQUAL(middle.begin(), middle.value());

      CHECK(strings.begin() == inner.begin());
      CHECK(strings.end()   == inner.end());
      CHECK(inner.begin()   == inner.value());

      outer.detach_all();
    }

    //*************************************************************************
    TEST(create_three_loops_circular_links)
    {
      middle.append(outer);

      CHECK_THROW(outer.append(middle), etl::multi_range_circular_reference);
      CHECK_THROW(inner.append(inner),  etl::multi_range_circular_reference);

      outer.detach();
      middle.detach();
      inner.detach();
    }

    //*************************************************************************
    TEST(null_loop)
    {
      Outer null_loop(2, 2);

      CHECK(null_loop.completed());

      CHECK_EQUAL(1U, null_loop.number_of_ranges());

      CHECK_EQUAL(0U, null_loop.number_of_iterations());

      CHECK_EQUAL(2, null_loop.begin());
      CHECK_EQUAL(2, null_loop.end());
      CHECK_EQUAL(null_loop.begin(), null_loop.value());
    }

    //*************************************************************************
    TEST(run_three_loops)
    {
      outer.append(middle).append(inner);

      struct result
      {
        int outer;
        Index middle;
        std::string inner;
      };

      std::array<result, 64U> results
      {
          result{ 0,  2, "zero" }, result{ 0,  2, "one" }, result{ 0,  2, "two" }, result{ 0,  2, "three" },
          result{ 0,  1, "zero" }, result{ 0,  1, "one" }, result{ 0,  1, "two" }, result{ 0,  1, "three" },
          result{ 0,  0, "zero" }, result{ 0,  0, "one" }, result{ 0,  0, "two" }, result{ 0,  0, "three" },
          result{ 0, -1, "zero" }, result{ 0, -1, "one" }, result{ 0, -1, "two" }, result{ 0, -1, "three" },
          result{ 2,  2, "zero" }, result{ 2,  2, "one" }, result{ 2,  2, "two" }, result{ 2,  2, "three" },
          result{ 2,  1, "zero" }, result{ 2,  1, "one" }, result{ 2,  1, "two" }, result{ 2,  1, "three" },
          result{ 2,  0, "zero" }, result{ 2,  0, "one" }, result{ 2,  0, "two" }, result{ 2,  0, "three" },
          result{ 2, -1, "zero" }, result{ 2, -1, "one" }, result{ 2, -1, "two" }, result{ 2, -1, "three" },
          result{ 4,  2, "zero" }, result{ 4,  2, "one" }, result{ 4,  2, "two" }, result{ 4,  2, "three" },
          result{ 4,  1, "zero" }, result{ 4,  1, "one" }, result{ 4,  1, "two" }, result{ 4,  1, "three" },
          result{ 4,  0, "zero" }, result{ 4,  0, "one" }, result{ 4,  0, "two" }, result{ 4,  0, "three" },
          result{ 4, -1, "zero" }, result{ 4, -1, "one" }, result{ 4, -1, "two" }, result{ 4, -1, "three" },
          result{ 6,  2, "zero" }, result{ 6,  2, "one" }, result{ 6,  2, "two" }, result{ 6,  2, "three" },
          result{ 6,  1, "zero" }, result{ 6,  1, "one" }, result{ 6,  1, "two" }, result{ 6,  1, "three" },
          result{ 6,  0, "zero" }, result{ 6,  0, "one" }, result{ 6,  0, "two" }, result{ 6,  0, "three" },
          result{ 6, -1, "zero" }, result{ 6, -1, "one" }, result{ 6, -1, "two" }, result{ 6, -1, "three" }
      };

      size_t i = 0UL;

      //  Create const references to the loop values.
      const int&      value_outer  = outer.value();
      const Index&    value_middle = middle.value();
      const Iterator& value_inner  = inner.value();

      for (outer.start(); outer.completed() == false; outer.next())
      {
        CHECK_EQUAL(results[i].outer,  value_outer);
        CHECK_EQUAL(results[i].middle, value_middle);
        CHECK_EQUAL(results[i].inner,  *value_inner);

        // Show the iteration index if there is a failure.
        if ((results[i].outer  != value_outer)  ||
            (results[i].middle != value_middle) ||
            (results[i].inner  != *value_inner))
        {
          CHECK_EQUAL(UINT_MAX, i);
        }

        ++i;
      }

      CHECK(outer.completed());

      // Do it again to make sure things have been reset correctly.
      i = 0U;

      for (outer.start(); outer.completed() == false; outer.next())
      {
        CHECK_EQUAL(results[i].outer,  value_outer);
        CHECK_EQUAL(results[i].middle, value_middle);
        CHECK_EQUAL(results[i].inner,  *value_inner);

        // Show the iteration index if there is a failure.
        if ((results[i].outer  != value_outer)  ||
            (results[i].middle != value_middle) ||
            (results[i].inner  != *value_inner))
        {
          CHECK_EQUAL(UINT_MAX, i);
        }

        ++i;
      }

      CHECK(outer.completed());

      outer.detach_all();
    }

    //*************************************************************************
    TEST(create_three_loops_but_just_run_the_inner_two)
    {
      outer.append(middle).append(inner);

      struct result
      {
        int outer;
        Index middle;
        std::string inner;
      };

      std::array<result, 16U> results
      {
          result{ 0,  2, "zero" }, result{ 0,  2, "one" }, result{ 0,  2, "two" }, result{ 0,  2, "three" },
          result{ 0,  1, "zero" }, result{ 0,  1, "one" }, result{ 0,  1, "two" }, result{ 0,  1, "three" },
          result{ 0,  0, "zero" }, result{ 0,  0, "one" }, result{ 0,  0, "two" }, result{ 0,  0, "three" },
          result{ 0, -1, "zero" }, result{ 0, -1, "one" }, result{ 0, -1, "two" }, result{ 0, -1, "three" }
      };

      size_t i = 0UL;

      //  Create const references to the loop values.
      const int&      value_outer  = outer.value();
      const Index&    value_middle = middle.value();
      const Iterator& value_inner  = inner.value();

      for (middle.start(); middle.completed() == false; middle.next())
      {
        CHECK_EQUAL(results[i].outer,  value_outer);
        CHECK_EQUAL(results[i].middle, value_middle);
        CHECK_EQUAL(results[i].inner,  *value_inner);

        // Show the iteration index if there is a failure.
        if ((results[i].outer  != value_outer) ||
            (results[i].middle != value_middle) ||
            (results[i].inner  != *value_inner))
        {
          CHECK_EQUAL(UINT_MAX, i);
        }

        ++i;
      }

      CHECK(middle.completed());

      // Do it again to make sure things have been reset correctly.
      i = 0U;

      for (middle.start(); middle.completed() == false; middle.next())
      {
        CHECK_EQUAL(results[i].outer,  value_outer);
        CHECK_EQUAL(results[i].middle, value_middle);
        CHECK_EQUAL(results[i].inner,  *value_inner);

        // Show the iteration index if there is a failure.
        if ((results[i].outer  != value_outer) ||
            (results[i].middle != value_middle) ||
            (results[i].inner  != *value_inner))
        {
          CHECK_EQUAL(UINT_MAX, i);
        }

        ++i;
      }

      CHECK(middle.completed());

      outer.detach_all();
    }
  };
}