266 lines
8.7 KiB
C++
266 lines
8.7 KiB
C++
// SPDX-License-Identifier: LGPL-3.0-or-later
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#include <algorithm>
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#include <catch2/catch_test_macros.hpp>
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#include <catch2/generators/catch_generators.hpp>
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#include <catch2/generators/catch_generators_adapters.hpp>
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#include <catch2/generators/catch_generators_random.hpp>
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#include "bresenham_line_tool.h"
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#include "canvas_buffer.h"
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#include "dda_line_tool.h"
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#include "non_recursive_fill_tool.h"
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#include "recursive_fill_tool.h"
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#include "util.h"
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TEST_CASE("Transform Mirror") {
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// elementary operations
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REQUIRE(transform(TRANSFORM_MIRROR_X, 10, 20) == std::make_pair(10, -20));
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REQUIRE(transform(TRANSFORM_MIRROR_Y, 10, 20) == std::make_pair(-10, 20));
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// composite operations
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REQUIRE(transform(TRANSFORM_MIRROR_X | TRANSFORM_MIRROR_Y, 10, 20) ==
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std::make_pair(-10, -20));
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}
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TEST_CASE("Transform Rotate") {
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REQUIRE(transform(TRANSFORM_ROTATE_CW, 10, 20) ==
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std::make_pair(-20, 10)); // 4th quadrant
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REQUIRE(transform(TRANSFORM_ROTATE_CW, -20, 10) ==
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std::make_pair(-10, -20)); // 3rd quadrant
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REQUIRE(transform(TRANSFORM_ROTATE_CW, -10, -20) ==
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std::make_pair(20, -10)); // 2nd quadrant
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REQUIRE(transform(TRANSFORM_ROTATE_CW, 20, -10) ==
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std::make_pair(10, 20)); // 1st quadrant
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REQUIRE(transform(TRANSFORM_ROTATE_CCW, 20, -10) ==
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std::make_pair(-10, -20)); // 1nd quadrant
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REQUIRE(transform(TRANSFORM_ROTATE_CCW, -10, -20) ==
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std::make_pair(-20, 10)); // 2rd quadrant
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REQUIRE(transform(TRANSFORM_ROTATE_CCW, -20, 10) ==
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std::make_pair(10, 20)); // 3th quadrant
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REQUIRE(transform(TRANSFORM_ROTATE_CCW, 10, 20) ==
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std::make_pair(20, -10)); // 4st quadrant
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}
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TEST_CASE("Transform Rotate + Mirror") {
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REQUIRE(transform(TRANSFORM_ROTATE_CW | TRANSFORM_MIRROR_X, 10, 20) ==
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std::make_pair(-20, -10));
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REQUIRE(transform(TRANSFORM_ROTATE_CW | TRANSFORM_MIRROR_Y, 10, 20) ==
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std::make_pair(20, 10));
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REQUIRE(
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transform(TRANSFORM_ROTATE_CW | TRANSFORM_MIRROR_X | TRANSFORM_MIRROR_Y,
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10, 20) == std::make_pair(20, -10));
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REQUIRE(transform(TRANSFORM_ROTATE_CCW | TRANSFORM_MIRROR_X, 10, 20) ==
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std::make_pair(20, 10));
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REQUIRE(transform(TRANSFORM_ROTATE_CCW | TRANSFORM_MIRROR_Y, 10, 20) ==
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std::make_pair(-20, -10));
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REQUIRE(
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transform(TRANSFORM_ROTATE_CCW | TRANSFORM_MIRROR_X | TRANSFORM_MIRROR_Y,
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10, 20) == std::make_pair(-20, 10));
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}
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TEST_CASE("Transform = Inverse Transform ○ Transform") {
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int x = GENERATE(take(10, random(-100, 100)));
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int y = GENERATE(take(10, random(-100, 100)));
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// this iterates over all possible transformations,
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// even bogus ones (like rotating cw and ccw)
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for (Transformation transformation = 0; transformation < 0b10000;
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transformation++) {
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int xt, yt;
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std::tie(xt, yt) = transform(transformation, x, y);
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int xti, yti;
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std::tie(xti, yti) = transform_inv(transformation, xt, yt);
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REQUIRE(x == xti);
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REQUIRE(y == yti);
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}
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}
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TEST_CASE("Transformation to standard case") {
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REQUIRE(transformation_to_standard_case(5, 20, 20, 10) == 0);
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REQUIRE(transformation_to_standard_case(5, 5, 20, 15) == TRANSFORM_MIRROR_X);
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REQUIRE(transformation_to_standard_case(20, 15, 5, 5) == TRANSFORM_MIRROR_Y);
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REQUIRE(transformation_to_standard_case(20, 10, 5, 20) ==
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(TRANSFORM_MIRROR_X | TRANSFORM_MIRROR_Y));
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REQUIRE(transformation_to_standard_case(5, 20, 15, 5) ==
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(TRANSFORM_ROTATE_CW | TRANSFORM_MIRROR_X));
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REQUIRE(transformation_to_standard_case(5, 5, 15, 20) ==
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TRANSFORM_ROTATE_CCW);
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REQUIRE(transformation_to_standard_case(15, 5, 5, 20) ==
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(TRANSFORM_ROTATE_CCW | TRANSFORM_MIRROR_X));
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REQUIRE(transformation_to_standard_case(15, 20, 5, 5) == TRANSFORM_ROTATE_CW);
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}
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TEST_CASE("Transformation to standard case (prop)") {
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int x0 = GENERATE(take(10, random(-100, 100)));
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int y0 = GENERATE(take(10, random(-100, 100)));
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int x1 = GENERATE(take(10, random(-100, 100)));
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int y1 = GENERATE(take(10, random(-100, 100)));
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Transformation transformation =
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transformation_to_standard_case(x0, y0, x1, y1);
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transform_mut(transformation, x0, y0);
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transform_mut(transformation, x1, y1);
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REQUIRE(x0 <= x1);
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REQUIRE(y0 >= y1);
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}
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TEST_CASE("Bresenham/DDA line tool (prop: for every row/column, only one pixel "
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"is set)") {
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const int size = 100;
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canvas_buffer *canvas = new canvas_buffer(size, size);
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bresenham_line_tool *tool_bresenham = new bresenham_line_tool(*canvas);
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dda_line_tool *tool_dda = new dda_line_tool(*canvas);
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tool_base *tool;
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int tool_idx = GENERATE(0, 1);
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switch (tool_idx) {
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case 0:
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tool = tool_bresenham;
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break;
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case 1:
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tool = tool_dda;
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break;
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}
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int x0 = GENERATE(take(10, random(0, size - 1)));
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int y0 = GENERATE(take(10, random(0, size - 1)));
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int x1 = GENERATE(take(10, random(0, size - 1)));
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int y1 = GENERATE(take(10, random(0, size - 1)));
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tool->draw(x0, y0, x1, y1);
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int x_min = std::min(x0, x1);
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int x_max = std::max(x0, x1);
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int y_min = std::min(y0, y1);
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int y_max = std::max(y0, y1);
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// Depending on what the direction of the line (rounded to the next 90°) is,
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// either every row or column has only one pixel set.
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bool vertical = false;
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int draw_direction_min;
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int draw_direction_max;
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int unique_direction_min;
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int unique_direction_max;
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if (abs(y1 - y0) > abs(x1 - x0)) {
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vertical = true;
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draw_direction_min = y_min;
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draw_direction_max = y_max;
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unique_direction_min = x_min;
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unique_direction_max = x_max;
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} else {
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draw_direction_min = x_min;
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draw_direction_max = x_max;
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unique_direction_min = y_min;
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unique_direction_max = y_max;
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}
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bool all_sums_are_one = true;
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int sum;
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for (int dd = draw_direction_min; dd <= draw_direction_max; dd++) {
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sum = 0;
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for (int ud = unique_direction_min; ud <= unique_direction_max; ud++) {
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int x, y;
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if (vertical) {
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x = ud;
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y = dd;
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} else {
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x = dd;
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y = ud;
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}
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if (canvas->get_pixel(x, y))
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sum++;
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}
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if (sum != 1)
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all_sums_are_one = false;
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}
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REQUIRE(all_sums_are_one);
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}
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TEST_CASE("Fill (recursive and non recursive) test shape") {
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canvas_buffer *canvas = new canvas_buffer(100, 100);
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bresenham_line_tool *tool_line = new bresenham_line_tool(*canvas);
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recursive_fill_tool *tool_fill_recursive = new recursive_fill_tool(*canvas);
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non_recursive_fill_tool *tool_fill_non_recursive =
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new non_recursive_fill_tool(*canvas);
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tool_base *tool_fill;
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int tool_fill_idx = GENERATE(0, 1);
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switch (tool_fill_idx) {
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case 0:
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tool_fill = tool_fill_recursive;
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break;
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case 1:
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tool_fill = tool_fill_non_recursive;
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break;
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}
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canvas->draw_test_shape();
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REQUIRE_FALSE(canvas->get_pixel(50, 49));
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REQUIRE_FALSE(canvas->get_pixel(50, 25));
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REQUIRE_FALSE(canvas->get_pixel(50, 75));
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tool_fill->draw(50, 25);
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REQUIRE(canvas->get_pixel(50, 49));
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REQUIRE(canvas->get_pixel(50, 25));
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REQUIRE(canvas->get_pixel(50, 75));
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REQUIRE_FALSE(canvas->get_pixel(75, 40));
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REQUIRE_FALSE(canvas->get_pixel(75, 60));
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tool_fill->draw(75, 50);
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REQUIRE(canvas->get_pixel(75, 40));
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REQUIRE(canvas->get_pixel(75, 60));
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REQUIRE_FALSE(canvas->get_pixel(0, 0));
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REQUIRE_FALSE(canvas->get_pixel(99, 99));
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tool_fill->draw(25, 50);
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REQUIRE(canvas->get_pixel(0, 0));
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REQUIRE(canvas->get_pixel(99, 99));
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}
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TEST_CASE("Fill recursive == Fill non recursive (prop, 5 random lines)") {
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const int size = 100;
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canvas_buffer *canvas_recursive = new canvas_buffer(size, size);
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canvas_buffer *canvas_non_recursive = new canvas_buffer(size, size);
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bresenham_line_tool *tool_line_recursive =
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new bresenham_line_tool(*canvas_recursive);
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bresenham_line_tool *tool_line_non_recursive =
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new bresenham_line_tool(*canvas_non_recursive);
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recursive_fill_tool *tool_fill_recursive =
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new recursive_fill_tool(*canvas_recursive);
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non_recursive_fill_tool *tool_fill_non_recursive =
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new non_recursive_fill_tool(*canvas_non_recursive);
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for (int i = 0; i < 5; i++) {
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int x0 = GENERATE(take(1, random(0, size - 1)));
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int y0 = GENERATE(take(1, random(0, size - 1)));
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int x1 = GENERATE(take(1, random(0, size - 1)));
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int y1 = GENERATE(take(1, random(0, size - 1)));
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tool_line_recursive->draw(x0, y0, x1, y1);
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tool_line_non_recursive->draw(x0, y0, x1, y1);
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}
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int x = GENERATE(take(3, random(0, size - 1)));
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int y = GENERATE(take(3, random(0, size - 1)));
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tool_fill_recursive->draw(x, y);
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tool_fill_non_recursive->draw(x, y);
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bool equal = true;
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for (int x = 0; x < size; x++) {
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for (int y = 0; y < size; y++) {
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if (canvas_recursive->get_pixel(x, y) !=
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canvas_non_recursive->get_pixel(x, y))
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equal = false;
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}
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}
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REQUIRE(equal);
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}
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