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https://github.com/ArthurSonzogni/FTXUI.git
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Gauge direction (#326)
Add `gauge` with all the different directions. Co-authored-by: Aleksandar Brakmic <13668697+brakmic-aleksandar@users.noreply.github.com>
This commit is contained in:
parent
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14
CHANGELOG.md
14
CHANGELOG.md
@ -4,6 +4,20 @@ Changelog
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current (development)
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---------------------
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### Features:
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#### DOM:
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- The `inverted` decorator now toggle in the inverted attribute.
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- Add `gauge` for the 4 directions. Expose the following API:
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```cpp
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Element gauge(float ratio);
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Element gaugeLeft(float ratio);
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Element gaugeRight(float ratio);
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Element gaugeUp(float ratio);
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Element gaugeDown(float ratio);
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Element gaugeDirection(float ratio, GaugeDirection);
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```
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2.0.0
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-----
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@ -9,6 +9,7 @@ example(color_truecolor_RGB)
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example(dbox)
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example(canvas)
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example(gauge)
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example(gauge_direction)
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example(graph)
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example(gridbox)
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example(hflow)
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79
examples/dom/gauge_direction.cpp
Normal file
79
examples/dom/gauge_direction.cpp
Normal file
@ -0,0 +1,79 @@
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#include <chrono> // for operator""s, chrono_literals
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#include <ftxui/dom/elements.hpp> // for text, gauge, operator|, flex, hbox, Element
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#include <ftxui/screen/screen.hpp> // for Screen
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#include <iostream> // for cout, endl, ostream
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#include <string> // for allocator, operator+, char_traits, operator<<, string, to_string, basic_string
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#include <thread> // for sleep_for
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#include "ftxui/dom/node.hpp" // for Render
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#include "ftxui/screen/color.hpp" // for ftxui
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int main(int argc, const char* argv[]) {
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using namespace ftxui;
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using namespace std::chrono_literals;
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std::string reset_position;
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for (float percentage = 0.0f; percentage <= 1.0f; percentage += 0.002f) {
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std::string data_downloaded =
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std::to_string(int(percentage * 5000)) + "/5000";
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auto gauge_up = //
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hbox({
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vtext("gauge vertical"),
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separator(),
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gaugeUp(percentage),
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}) |
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border;
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auto gauge_down = //
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hbox({
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vtext("gauge vertical"),
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separator(),
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gaugeDown(percentage),
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}) |
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border;
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auto gauge_right = //
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vbox({
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text("gauge horizontal"),
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separator(),
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gaugeRight(percentage),
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}) |
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border;
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auto gauge_left = //
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vbox({
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text("gauge horizontal"),
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separator(),
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gaugeLeft(percentage),
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}) |
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border;
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auto document = hbox({
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gauge_up,
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filler(),
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vbox({
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gauge_right,
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filler(),
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text(data_downloaded) | border | center,
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filler(),
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gauge_left,
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}),
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filler(),
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gauge_down,
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});
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auto screen = Screen(32, 16);
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Render(screen, document);
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std::cout << reset_position;
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screen.Print();
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reset_position = screen.ResetPosition();
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std::this_thread::sleep_for(0.01s);
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}
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std::cout << std::endl;
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}
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// Copyright 2022 Arthur Sonzogni. All rights reserved.
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// Use of this source code is governed by the MIT license that can be found in
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// the LICENSE file.
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@ -21,6 +21,7 @@ using Decorator = std::function<Element(Element)>;
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using GraphFunction = std::function<std::vector<int>(int, int)>;
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enum BorderStyle { LIGHT, HEAVY, DOUBLE, ROUNDED, EMPTY };
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enum class GaugeDirection { Left, Up, Right, Down };
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// Pipe elements into decorator togethers.
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// For instance the next lines are equivalents:
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@ -42,6 +43,11 @@ Element separatorStyled(BorderStyle);
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Element separator(Pixel);
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Element separatorCharacter(std::string);
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Element gauge(float ratio);
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Element gaugeLeft(float ratio);
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Element gaugeRight(float ratio);
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Element gaugeUp(float ratio);
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Element gaugeDown(float ratio);
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Element gaugeDirection(float ratio, GaugeDirection);
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Element border(Element);
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Element borderLight(Element);
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Element borderHeavy(Element);
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@ -10,7 +10,7 @@
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namespace ftxui {
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static std::string charset[11] = {
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static std::string charset_horizontal[11] = {
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#if defined(FTXUI_MICROSOFT_TERMINAL_FALLBACK)
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// Microsoft's terminals often use fonts not handling the 8 unicode
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// characters for representing the whole gauge. Fallback with less.
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@ -22,38 +22,229 @@ static std::string charset[11] = {
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// int(9 * (limit - limit_int) = 9
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"█"};
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static std::string charset_vertical[10] = {
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"█",
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"▇",
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"▆",
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"▅",
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"▄",
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"▃",
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"▂",
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"▁",
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" ",
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// An extra character in case when the fuzzer manage to have:
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// int(8 * (limit - limit_int) = 8
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" ",
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};
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class Gauge : public Node {
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public:
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Gauge(float progress) : progress_(std::min(std::max(progress, 0.f), 1.f)) {}
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Gauge(float progress, GaugeDirection direction)
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: progress_(std::min(std::max(progress, 0.f), 1.f)),
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direction_(direction) {}
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void ComputeRequirement() override {
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requirement_.flex_grow_x = 1;
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requirement_.flex_grow_y = 0;
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requirement_.flex_shrink_x = 1;
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requirement_.flex_shrink_y = 0;
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switch (direction_) {
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case GaugeDirection::Right:
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case GaugeDirection::Left:
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requirement_.flex_grow_x = 1;
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requirement_.flex_grow_y = 0;
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requirement_.flex_shrink_x = 1;
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requirement_.flex_shrink_y = 0;
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break;
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case GaugeDirection::Up:
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case GaugeDirection::Down:
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requirement_.flex_grow_x = 0;
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requirement_.flex_grow_y = 1;
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requirement_.flex_shrink_x = 0;
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requirement_.flex_shrink_y = 1;
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break;
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}
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requirement_.min_x = 1;
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requirement_.min_y = 1;
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}
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void Render(Screen& screen) override {
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switch (direction_) {
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case GaugeDirection::Right:
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RenderHorizontal(screen, /*invert=*/false);
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break;
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case GaugeDirection::Up:
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RenderVertical(screen, /*invert=*/false);
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break;
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case GaugeDirection::Left:
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RenderHorizontal(screen, /*invert=*/true);
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break;
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case GaugeDirection::Down:
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RenderVertical(screen, /*invert=*/true);
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break;
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}
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}
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void RenderHorizontal(Screen& screen, bool invert) {
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int y = box_.y_min;
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if (y > box_.y_max)
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return;
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float limit = box_.x_min + progress_ * (box_.x_max - box_.x_min + 1);
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int limit_int = limit;
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// Draw the progress bar horizontally.
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{
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float progress = invert ? 1.f - progress_ : progress_;
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float limit = box_.x_min + progress * (box_.x_max - box_.x_min + 1);
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int limit_int = limit;
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int x = box_.x_min;
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while (x < limit_int)
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screen.at(x++, y) = charset_horizontal[9];
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screen.at(x++, y) = charset_horizontal[int(9 * (limit - limit_int))];
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while (x <= box_.x_max)
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screen.at(x++, y) = charset_horizontal[0];
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}
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if (invert) {
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for (int x = box_.x_min; x <= box_.x_max; x++)
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screen.PixelAt(x, y).inverted ^= true;
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}
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}
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void RenderVertical(Screen& screen, bool invert) {
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int x = box_.x_min;
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while (x < limit_int)
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screen.at(x++, y) = charset[9];
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screen.at(x++, y) = charset[int(9 * (limit - limit_int))];
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while (x <= box_.x_max)
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screen.at(x++, y) = charset[0];
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if (x > box_.x_max)
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return;
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// Draw the progress bar vertically:
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{
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float progress = invert ? progress_ : 1.f - progress_;
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float limit = box_.y_min + progress * (box_.y_max - box_.y_min + 1);
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int limit_int = limit;
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int y = box_.y_min;
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while (y < limit_int)
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screen.at(x, y++) = charset_vertical[8];
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screen.at(x, y++) = charset_vertical[int(8 * (limit - limit_int))];
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while (y <= box_.y_max)
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screen.at(x, y++) = charset_vertical[0];
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}
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if (invert) {
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for (int y = box_.y_min; y <= box_.y_max; y++)
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screen.PixelAt(x, y).inverted ^= true;
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}
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}
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private:
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float progress_;
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GaugeDirection direction_;
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};
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/// @brief Draw a high definition progress bar progressing in specified
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/// direction.
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/// @param progress The proportion of the area to be filled. Belong to [0,1].
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// @param direction Direction of progress bars progression.
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/// @ingroup dom
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Element gaugeDirection(float progress, GaugeDirection direction) {
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return std::make_shared<Gauge>(progress, direction);
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}
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/// @brief Draw a high definition progress bar progressing from left to right.
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/// @param progress The proportion of the area to be filled. Belong to [0,1].
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/// @ingroup dom
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///
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/// ### Example
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///
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/// A gauge. It can be used to represent a progress bar.
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/// ~~~cpp
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/// border(gaugeRight(0.5))
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/// ~~~
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///
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/// #### Output
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///
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/// ~~~bash
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/// ┌──────────────────────────────────────────────────────────────────────────┐
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/// │█████████████████████████████████████ │
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/// └──────────────────────────────────────────────────────────────────────────┘
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/// ~~~
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Element gaugeRight(float progress) {
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return gaugeDirection(progress, GaugeDirection::Right);
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}
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/// @brief Draw a high definition progress bar progressing from right to left.
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/// @param progress The proportion of the area to be filled. Belong to [0,1].
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/// @ingroup dom
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///
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/// ### Example
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///
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/// A gauge. It can be used to represent a progress bar.
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/// ~~~cpp
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/// border(gaugeLeft(0.5))
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/// ~~~
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///
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/// #### Output
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///
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/// ~~~bash
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/// ┌──────────────────────────────────────────────────────────────────────────┐
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/// │ █████████████████████████████████████│
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/// └──────────────────────────────────────────────────────────────────────────┘
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/// ~~~
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Element gaugeLeft(float progress) {
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return gaugeDirection(progress, GaugeDirection::Left);
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}
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/// @brief Draw a high definition progress bar progressing from bottom to top.
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/// @param progress The proportion of the area to be filled. Belong to [0,1].
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/// @ingroup dom
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///
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/// ### Example
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///
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/// A gauge. It can be used to represent a progress bar.
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/// ~~~cpp
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/// border(gaugeUp(0.5))
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/// ~~~
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///
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/// #### Output
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///
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/// ~~~bash
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/// ┌─┐
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/// │ │
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/// │ │
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/// │ │
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/// │ │
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/// │█│
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/// │█│
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/// │█│
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/// │█│
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/// └─┘
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/// ~~~
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Element gaugeUp(float progress) {
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return gaugeDirection(progress, GaugeDirection::Up);
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}
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/// @brief Draw a high definition progress bar progressing from top to bottom.
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/// @param progress The proportion of the area to be filled. Belong to [0,1].
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/// @ingroup dom
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///
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/// ### Example
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///
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/// A gauge. It can be used to represent a progress bar.
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/// ~~~cpp
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/// border(gaugeDown(0.5))
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/// ~~~
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///
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/// #### Output
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///
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/// ~~~bash
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/// ┌─┐
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/// │█│
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/// │█│
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/// │█│
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/// │█│
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/// │ │
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/// │ │
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/// │ │
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/// │ │
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/// └─┘
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/// ~~~
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Element gaugeDown(float progress) {
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return gaugeDirection(progress, GaugeDirection::Down);
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}
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/// @brief Draw a high definition progress bar.
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/// @param progress The proportion of the area to be filled. Belong to [0,1].
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/// @ingroup dom
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@ -73,7 +264,7 @@ class Gauge : public Node {
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/// └──────────────────────────────────────────────────────────────────────────┘
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/// ~~~
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Element gauge(float progress) {
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return std::make_shared<Gauge>(progress);
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return gaugeRight(progress);
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}
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} // namespace ftxui
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@ -11,7 +11,7 @@
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using namespace ftxui;
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using namespace ftxui;
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TEST(GaugeTest, zero) {
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TEST(GaugeTest, ZeroHorizontal) {
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auto root = gauge(0);
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Screen screen(11, 1);
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Render(screen, root);
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@ -19,16 +19,15 @@ TEST(GaugeTest, zero) {
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EXPECT_EQ(" ", screen.ToString());
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}
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TEST(GaugeTest, half) {
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TEST(GaugeTest, HalfHorizontal) {
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auto root = gauge(0.5);
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Screen screen(11, 1);
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Render(screen, root);
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EXPECT_EQ("█████▍ ", screen.ToString());
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//" ▏▎▍▌▊▉█";
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}
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TEST(GaugeTest, one) {
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TEST(GaugeTest, OneHorizontal) {
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auto root = gauge(1.0);
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Screen screen(11, 1);
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Render(screen, root);
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@ -36,6 +35,66 @@ TEST(GaugeTest, one) {
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EXPECT_EQ("███████████", screen.ToString());
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}
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TEST(GaugeTest, ZeroVertical) {
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auto root = gaugeUp(0);
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Screen screen(1, 11);
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Render(screen, root);
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EXPECT_EQ(
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" \r\n"
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" \r\n"
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" \r\n"
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" \r\n"
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" \r\n"
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" \r\n"
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" \r\n"
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" \r\n"
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" \r\n"
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" \r\n"
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" ",
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screen.ToString());
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}
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TEST(GaugeTest, HalfVertical) {
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auto root = gaugeUp(0.5);
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Screen screen(1, 11);
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Render(screen, root);
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EXPECT_EQ(
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" \r\n"
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" \r\n"
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" \r\n"
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" \r\n"
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" \r\n"
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"▄\r\n"
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"█\r\n"
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"█\r\n"
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"█\r\n"
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"█\r\n"
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"█",
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screen.ToString());
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}
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TEST(GaugeTest, OneVertical) {
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auto root = gaugeUp(1.0);
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Screen screen(1, 11);
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Render(screen, root);
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EXPECT_EQ(
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"█\r\n"
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"█\r\n"
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"█\r\n"
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"█\r\n"
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"█\r\n"
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"█\r\n"
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"█\r\n"
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"█\r\n"
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"█\r\n"
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"█\r\n"
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"█",
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screen.ToString());
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}
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// Copyright 2020 Arthur Sonzogni. All rights reserved.
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// Use of this source code is governed by the MIT license that can be found in
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// the LICENSE file.
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@ -17,7 +17,7 @@ class Inverted : public NodeDecorator {
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Node::Render(screen);
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for (int y = box_.y_min; y <= box_.y_max; ++y) {
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for (int x = box_.x_min; x <= box_.x_max; ++x) {
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screen.PixelAt(x, y).inverted = true;
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screen.PixelAt(x, y).inverted ^= true;
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}
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}
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}
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