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

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

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

Copyright(c) 2020 John Wellbelove

Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files(the "Software"), to deal
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The above copyright notice and this permission notice shall be included in all
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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******************************************************************************/

#include "unit_test_framework.h"

#include "etl/bresenham_line.h"

#include <vector>

namespace etl
{
  template <typename T>
  std::ostream& operator << (std::ostream& os, const etl::coordinate_2d<T>& point)
  {
    os << "(" << int(point.x) << "," << int(point.y) << ")";
    return os;
  }
}

namespace
{
  using Value = char;

  using Point = etl::coordinate_2d<Value>;

#include "etl/private/diagnostic_unused_function_push.h"

  std::ostream& operator << (std::ostream& os, const Point& point)
  {
    os << "(" << int(point.x) << "," << int(point.y) << ")";
    return os;
  }

#include "etl/private/diagnostic_pop.h"

  using BresenhamLine = etl::bresenham_line<Value>;

  SUITE(test_bresenham_line)
  {
    //*************************************************************************
    TEST(horizontal_line_left_right)
    {
      Point first = { -5, 5 };
      Point last  = {  5, 5 };

      BresenhamLine bl(first.x, first.y, last.x, last.y);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{-5, 5 }, Point{-4, 5 }, Point{-3, 5 }, Point{-2, 5 }, Point{-1, 5 }, Point{ 0, 5 },
                                   Point{ 1, 5 }, Point{ 2, 5 }, Point{ 3, 5 }, Point{ 4, 5 }, Point{ 5, 5} };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(horizontal_line_right_left)
    {
      Point first = {  5, 5 };
      Point last  = { -5, 5 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{ 5, 5 }, Point{ 4, 5 }, Point{ 3, 5 }, Point{ 2, 5 }, Point{ 1, 5 }, Point{ 0, 5 },
                                   Point{-1, 5 }, Point{-2, 5 }, Point{-3, 5 }, Point{-4, 5 }, Point{-5, 5} };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(vertical_line_bottom_top)
    {
      Point first = { 5, -5 };
      Point last  = { 5,  5 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{ 5, -5 }, Point{ 5, -4 }, Point{ 5, -3 }, Point{ 5, -2 }, Point{ 5, -1 }, Point{ 5,  0 },
                                   Point{ 5,  1 }, Point{ 5,  2 }, Point{ 5,  3 }, Point{ 5,  4 }, Point{ 5,  5} };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(vertical_line_top_bottom)
    {
      Point first = { 5,  5 };
      Point last  = { 5, -5 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{ 5,  5 }, Point{ 5,  4 }, Point{ 5,  3 }, Point{ 5,  2 }, Point{ 5,  1 }, Point{ 5,  0 },
                                   Point{ 5, -1 }, Point{ 5, -2 }, Point{ 5, -3 }, Point{ 5, -4 }, Point{ 5, -5} };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(low_slope_diagonal_line_bottom_left_top_right)
    {
      Point first = { -5, -3 };
      Point last  = {  5,  3};

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{ -5, -3 }, Point{ -4, -3 }, Point{ -3, -2 }, Point{ -2, -1 }, Point{ -1, -1 }, Point{ 0, 0 },
                                   Point{ 1,   1 }, Point{  2,  1 }, Point{  3,  2 }, Point{  4,  2 }, Point{  5,  3 } };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(low_slope_diagonal_line_top_right_bottom_left)
    {
      Point first = {  5,  3 };
      Point last  = { -5, -3 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{  5,  3 }, Point{ 4,   3 }, Point{  3,  2 }, Point{  2,  1 }, Point{  1,  1 }, Point{ 0, 0 },
                                   Point{ -1, -1 }, Point{ -2, -1 }, Point{ -3, -2 }, Point{ -4, -2 }, Point{ -5, -3 } };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(low_slope_diagonal_line_bottom_right_top_left)
    {
      Point first = {  5, -3 };
      Point last  = { -5,  3 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{  5, -3 }, Point{  4, -3 }, Point{  3, -2 }, Point{  2, -1 }, Point{ 1,  -1 }, Point{ 0, 0 },
                                   Point{ -1,  1 }, Point{ -2,  1 }, Point{ -3,  2 }, Point{ -4,  2 }, Point{ -5,  3 } };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(low_slope_diagonal_line_top_left_bottom_right)
    {
      Point first = { -5,  3 };
      Point last  = {  5, -3 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{ -5,  3 }, Point{ -4,  3 }, Point{ -3,  2 }, Point{ -2,  1 }, Point{ -1,  1 }, Point{ 0, 0 },
                                   Point{  1, -1 }, Point{  2, -1 }, Point{  3, -2 }, Point{  4, -2 }, Point{  5, -3 } };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(high_slope_diagonal_line_bottom_left_top_right)
    {
      Point first = { -3, -5 };
      Point last   = { 3,  5 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{ -3, -5 }, Point{ -3, -4 }, Point{ -2, -3 }, Point{ -1, -2 }, Point{ -1, -1 }, Point{ 0, 0 },
                                   Point{ 1,   1 }, Point{  1,  2 }, Point{  2,  3 }, Point{  2,  4 }, Point{  3,  5 } };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(high_slope_diagonal_line_top_right_bottom_left)
    {
      Point first = {  3,  5 };
      Point last  = { -3, -5 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{  3,  5 }, Point{  3,  4 }, Point{  2,  3 }, Point{  1,  2 }, Point{  1,  1 }, Point{ 0, 0 },
                                   Point{ -1, -1 }, Point{ -1, -2 }, Point{ -2, -3 }, Point{ -2, -4 }, Point{ -3, -5 } };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(high_slope_diagonal_line_bottom_right_top_left)
    {
      Point first = {  3, -5 };
      Point last  = { -3,  5 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{  3, -5 }, Point{  3, -4 }, Point{  2, -3 }, Point{  1, -2 }, Point{  1, -1 }, Point{ 0, 0 },
                                   Point{ -1,  1 }, Point{ -1,  2 }, Point{ -2,  3 }, Point{ -2,  4 }, Point{ -3,  5 } };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(high_slope_diagonal_line_top_left_bottom_right)
    {
      Point first = { -3,  5 };
      Point last  = {  3, -5 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      std::vector<Point> expected{ Point{ -3,  5 }, Point{ -3,  4 }, Point{ -2,  3 }, Point{ -1,  2 }, Point{ -1,  1 }, Point{ 0, 0 },
                                   Point{  1, -1 }, Point{  1, -2 }, Point{  2, -3 }, Point{  2, -4 }, Point{  3, -5 } };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(reset_the_line_from_coordinate_2d)
    {
      Point first = { 3,  -5 };
      Point last  = { -3,  5 };

      BresenhamLine bl(first, last);

      CHECK_EQUAL(first, bl.front());
      CHECK_EQUAL(last,  bl.back());

      Point new_first = { -3,  5 };
      Point new_last  = {  3, -5 };

      bl.reset(new_first, new_last);

      std::vector<Point> expected{ Point{ -3,  5 }, Point{ -3,  4 }, Point{ -2,  3 }, Point{ -1,  2 }, Point{ -1,  1 }, Point{ 0, 0 },
                                   Point{  1, -1 }, Point{  1, -2 }, Point{  2, -3 }, Point{  2, -4 }, Point{  3, -5 } };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(reset_the_line_from_individual_coordinates)
    {
      Point first = { 3,  -5 };
      Point last = { -3,  5 };

      BresenhamLine bl(first, last);

      Point new_first = { -3,  5 };
      Point new_last = { 3, -5 };

      bl.reset(new_first.x, new_first.y, new_last.x, new_last.y);

      std::vector<Point> expected{ Point{ -3,  5 }, Point{ -3,  4 }, Point{ -2,  3 }, Point{ -1,  2 }, Point{ -1,  1 }, Point{ 0, 0 },
                                   Point{  1, -1 }, Point{  1, -2 }, Point{  2, -3 }, Point{  2, -4 }, Point{  3, -5 } };
      std::vector<Point> actual;

      for (BresenhamLine::const_iterator itr = bl.begin(); itr != bl.end(); ++itr)
      {
        actual.push_back(*itr);
      }

      CHECK_EQUAL(expected.size(), bl.size());
      CHECK_EQUAL(expected.size(), actual.size());
      CHECK_ARRAY_EQUAL(expected.data(), actual.data(), (std::max(expected.size(), actual.size())));
    }

    //*************************************************************************
    TEST(test_equality)
    {
      BresenhamLine bl1(0, 1, 2, 3);
      BresenhamLine bl2(0, 1, 2, 3);
      BresenhamLine bl3(0, 1, 2, 4);
      BresenhamLine bl4(0, 2, 2, 3);

      CHECK(bl1 == bl2);
      CHECK(!(bl1 != bl2));

      CHECK(bl1 != bl3);
      CHECK(!(bl1 == bl3));

      CHECK(bl1 != bl4);
      CHECK(!(bl1 == bl4));
    }
  };
}