Barely working stripped down version of ScreenInteractive. Now to bring on the SFML events.

1 week ago · e3cff8142c
parent 7d3605f58b
commit e3cff8142c
9 changed files with 1070 additions and 7 deletions
--- a/gui.cpp
+++ b/gui.cpp
@ -33,7 +33,7 @@ GUI::GUI(DinkyECS::World &world, Map& game_map) :
  $game_map(game_map),
  $log({{"Welcome to the game!"}}),
  $status_ui(SCREEN_X, SCREEN_Y, 0, 0),
-  $map_view(0, 0, GAME_MAP_POS, 0, false),
+  $map_view(30, 10, GAME_MAP_POS, 0, false),
  $view_port{0,0},
  $world(world),
  $sounds("./assets"),
--- a/input_parser.cpp
+++ b/input_parser.cpp
@ -0,0 +1,419 @@
 // Copyright 2020 Arthur Sonzogni. All rights reserved.
 // Use of this source code is governed by the MIT license that can be found in
 // the LICENSE file.
 #include "input_parser.hpp"
 #include <cstdint>                    // for uint32_t
 #include <ftxui/component/mouse.hpp>  // for Mouse, Mouse::Button, Mouse::Motion
 #include <ftxui/component/receiver.hpp>  // for SenderImpl, Sender
 #include <map>
 #include <memory>   // for unique_ptr, allocator
 #include <utility>  // for move
 #include "ftxui/component/event.hpp"  // for Event
 #include "ftxui/component/task.hpp"   // for Task
 namespace ftxui {
 // NOLINTNEXTLINE
 const std::map<std::string, std::string> g_uniformize = {
    // Microsoft's terminal uses a different new line character for the return
    // key. This also happens with linux with the `bind` command:
    // See https://github.com/ArthurSonzogni/FTXUI/issues/337
    // Here, we uniformize the new line character to `\n`.
    {"\r", "\n"},
    // See: https://github.com/ArthurSonzogni/FTXUI/issues/508
    {std::string({8}), std::string({127})},
    // See: https://github.com/ArthurSonzogni/FTXUI/issues/626
    //
    // Depending on the Cursor Key Mode (DECCKM), the terminal sends different
    // escape sequences:
    //
    //   Key     Normal    Application
    //   -----   --------  -----------
    //   Up      ESC [ A   ESC O A
    //   Down    ESC [ B   ESC O B
    //   Right   ESC [ C   ESC O C
    //   Left    ESC [ D   ESC O D
    //   Home    ESC [ H   ESC O H
    //   End     ESC [ F   ESC O F
    //
    {"\x1BOA", "\x1B[A"},  // UP
    {"\x1BOB", "\x1B[B"},  // DOWN
    {"\x1BOC", "\x1B[C"},  // RIGHT
    {"\x1BOD", "\x1B[D"},  // LEFT
    {"\x1BOH", "\x1B[H"},  // HOME
    {"\x1BOF", "\x1B[F"},  // END
    // Variations around the FN keys.
    // Internally, we are using:
    // vt220, xterm-vt200, xterm-xf86-v44, xterm-new, mgt, screen
    // See: https://invisible-island.net/xterm/xterm-function-keys.html
    // For linux OS console (CTRL+ALT+FN), who do not belong to any
    // real standard.
    // See: https://github.com/ArthurSonzogni/FTXUI/issues/685
    {"\x1B[[A", "\x1BOP"},    // F1
    {"\x1B[[B", "\x1BOQ"},    // F2
    {"\x1B[[C", "\x1BOR"},    // F3
    {"\x1B[[D", "\x1BOS"},    // F4
    {"\x1B[[E", "\x1B[15~"},  // F5
    // xterm-r5, xterm-r6, rxvt
    {"\x1B[11~", "\x1BOP"},  // F1
    {"\x1B[12~", "\x1BOQ"},  // F2
    {"\x1B[13~", "\x1BOR"},  // F3
    {"\x1B[14~", "\x1BOS"},  // F4
    // vt100
    {"\x1BOt", "\x1B[15~"},  // F5
    {"\x1BOu", "\x1B[17~"},  // F6
    {"\x1BOv", "\x1B[18~"},  // F7
    {"\x1BOl", "\x1B[19~"},  // F8
    {"\x1BOw", "\x1B[20~"},  // F9
    {"\x1BOx", "\x1B[21~"},  // F10
    // scoansi
    {"\x1B[M", "\x1BOP"},    // F1
    {"\x1B[N", "\x1BOQ"},    // F2
    {"\x1B[O", "\x1BOR"},    // F3
    {"\x1B[P", "\x1BOS"},    // F4
    {"\x1B[Q", "\x1B[15~"},  // F5
    {"\x1B[R", "\x1B[17~"},  // F6
    {"\x1B[S", "\x1B[18~"},  // F7
    {"\x1B[T", "\x1B[19~"},  // F8
    {"\x1B[U", "\x1B[20~"},  // F9
    {"\x1B[V", "\x1B[21~"},  // F10
    {"\x1B[W", "\x1B[23~"},  // F11
    {"\x1B[X", "\x1B[24~"},  // F12
 };
 TerminalInputParser::TerminalInputParser(Sender<Task> out)
    : out_(std::move(out)) {}
 void TerminalInputParser::Timeout(int time) {
  timeout_ += time;
  const int timeout_threshold = 50;
  if (timeout_ < timeout_threshold) {
    return;
  }
  timeout_ = 0;
  if (!pending_.empty()) {
    Send(SPECIAL);
  }
 }
 void TerminalInputParser::Add(char c) {
  pending_ += c;
  timeout_ = 0;
  position_ = -1;
  Send(Parse());
 }
 unsigned char TerminalInputParser::Current() {
  return pending_[position_];
 }
 bool TerminalInputParser::Eat() {
  position_++;
  return position_ < static_cast<int>(pending_.size());
 }
 void TerminalInputParser::Send(TerminalInputParser::Output output) {
  switch (output.type) {
    case UNCOMPLETED:
      return;
    case DROP:
      pending_.clear();
      return;
    case CHARACTER:
      out_->Send(Event::Character(std::move(pending_)));
      pending_.clear();
      return;
    case SPECIAL: {
      auto it = g_uniformize.find(pending_);
      if (it != g_uniformize.end()) {
        pending_ = it->second;
      }
      out_->Send(Event::Special(std::move(pending_)));
      pending_.clear();
    }
      return;
    case MOUSE:
      out_->Send(Event::Mouse(std::move(pending_), output.mouse));  // NOLINT
      pending_.clear();
      return;
    case CURSOR_REPORTING:
      out_->Send(Event::CursorReporting(std::move(pending_),  // NOLINT
                                        output.cursor.x,      // NOLINT
                                        output.cursor.y));    // NOLINT
      pending_.clear();
      return;
  }
  // NOT_REACHED().
 }
 TerminalInputParser::Output TerminalInputParser::Parse() {
  if (!Eat()) {
    return UNCOMPLETED;
  }
  switch (Current()) {
    case 24:  // CAN NOLINT
    case 26:  // SUB NOLINT
      return DROP;
    case '\x1B':
      return ParseESC();
    default:
      break;
  }
  if (Current() < 32) {  // C0 NOLINT
    return SPECIAL;
  }
  if (Current() == 127) {  // Delete // NOLINT
    return SPECIAL;
  }
  return ParseUTF8();
 }
 // Code point <-> UTF-8 conversion
 //
 // ┏━━━━━━━━┳━━━━━━━━┳━━━━━━━━┳━━━━━━━━┓
 // ┃Byte 1  ┃Byte 2  ┃Byte 3  ┃Byte 4  ┃
 // ┡━━━━━━━━╇━━━━━━━━╇━━━━━━━━╇━━━━━━━━┩
 // │0xxxxxxx│        │        │        │
 // ├────────┼────────┼────────┼────────┤
 // │110xxxxx│10xxxxxx│        │        │
 // ├────────┼────────┼────────┼────────┤
 // │1110xxxx│10xxxxxx│10xxxxxx│        │
 // ├────────┼────────┼────────┼────────┤
 // │11110xxx│10xxxxxx│10xxxxxx│10xxxxxx│
 // └────────┴────────┴────────┴────────┘
 //
 // Then some sequences are illegal if it exist a shorter representation of the
 // same codepoint.
 TerminalInputParser::Output TerminalInputParser::ParseUTF8() {
  auto head = Current();
  unsigned char selector = 0b1000'0000;  // NOLINT
  // The non code-point part of the first byte.
  unsigned char mask = selector;
  // Find the first zero in the first byte.
  unsigned int first_zero = 8;            // NOLINT
  for (unsigned int i = 0; i < 8; ++i) {  // NOLINT
    mask |= selector;
    if (!(head & selector)) {
      first_zero = i;
      break;
    }
    selector >>= 1U;
  }
  // Accumulate the value of the first byte.
  auto value = uint32_t(head & ~mask);  // NOLINT
  // Invalid UTF8, with more than 5 bytes.
  const unsigned int max_utf8_bytes = 5;
  if (first_zero == 1 || first_zero >= max_utf8_bytes) {
    return DROP;
  }
  // Multi byte UTF-8.
  for (unsigned int i = 2; i <= first_zero; ++i) {
    if (!Eat()) {
      return UNCOMPLETED;
    }
    // Invalid continuation byte.
    head = Current();
    if ((head & 0b1100'0000) != 0b1000'0000) {  // NOLINT
      return DROP;
    }
    value <<= 6;                  // NOLINT
    value += head & 0b0011'1111;  // NOLINT
  }
  // Check for overlong UTF8 encoding.
  int extra_byte = 0;
  if (value <= 0b000'0000'0111'1111) {                 // NOLINT
    extra_byte = 0;                                    // NOLINT
  } else if (value <= 0b000'0111'1111'1111) {          // NOLINT
    extra_byte = 1;                                    // NOLINT
  } else if (value <= 0b1111'1111'1111'1111) {         // NOLINT
    extra_byte = 2;                                    // NOLINT
  } else if (value <= 0b1'0000'1111'1111'1111'1111) {  // NOLINT
    extra_byte = 3;                                    // NOLINT
  } else {                                             // NOLINT
    return DROP;
  }
  if (extra_byte != position_) {
    return DROP;
  }
  return CHARACTER;
 }
 TerminalInputParser::Output TerminalInputParser::ParseESC() {
  if (!Eat()) {
    return UNCOMPLETED;
  }
  switch (Current()) {
    case 'P':
      return ParseDCS();
    case '[':
      return ParseCSI();
    case ']':
      return ParseOSC();
    default:
      if (!Eat()) {
        return UNCOMPLETED;
      } else {
        return SPECIAL;
      }
  }
 }
 TerminalInputParser::Output TerminalInputParser::ParseDCS() {
  // Parse until the string terminator ST.
  while (true) {
    if (!Eat()) {
      return UNCOMPLETED;
    }
    if (Current() != '\x1B') {
      continue;
    }
    if (!Eat()) {
      return UNCOMPLETED;
    }
    if (Current() != '\\') {
      continue;
    }
    return SPECIAL;
  }
 }
 TerminalInputParser::Output TerminalInputParser::ParseCSI() {
  bool altered = false;
  int argument = 0;
  std::vector<int> arguments;
  while (true) {
    if (!Eat()) {
      return UNCOMPLETED;
    }
    if (Current() == '<') {
      altered = true;
      continue;
    }
    if (Current() >= '0' && Current() <= '9') {
      argument *= 10;  // NOLINT
      argument += Current() - '0';
      continue;
    }
    if (Current() == ';') {
      arguments.push_back(argument);
      argument = 0;
      continue;
    }
    // CSI is terminated by a character in the range 0x40–0x7E
    // (ASCII @A–Z[\]^_`a–z{|}~),
    if (Current() >= '@' && Current() <= '~' &&
        // Note: I don't remember why we exclude '<'
        Current() != '<' &&
        // To handle F1-F4, we exclude '['.
        Current() != '[') {
      arguments.push_back(argument);
      argument = 0;  // NOLINT
      switch (Current()) {
        case 'M':
          return ParseMouse(altered, true, std::move(arguments));
        case 'm':
          return ParseMouse(altered, false, std::move(arguments));
        case 'R':
          return ParseCursorReporting(std::move(arguments));
        default:
          return SPECIAL;
      }
    }
    // Invalid ESC in CSI.
    if (Current() == '\x1B') {
      return SPECIAL;
    }
  }
 }
 TerminalInputParser::Output TerminalInputParser::ParseOSC() {
  // Parse until the string terminator ST.
  while (true) {
    if (!Eat()) {
      return UNCOMPLETED;
    }
    if (Current() != '\x1B') {
      continue;
    }
    if (!Eat()) {
      return UNCOMPLETED;
    }
    if (Current() != '\\') {
      continue;
    }
    return SPECIAL;
  }
 }
 TerminalInputParser::Output TerminalInputParser::ParseMouse(  // NOLINT
    bool altered,
    bool pressed,
    std::vector<int> arguments) {
  if (arguments.size() != 3) {
    return SPECIAL;
  }
  (void)altered;
  Output output(MOUSE);
  output.mouse.button = Mouse::Button((arguments[0] & 3) +          // NOLINT
                                      ((arguments[0] & 64) >> 4));  // NOLINT
  output.mouse.motion = Mouse::Motion(pressed);                     // NOLINT
  output.mouse.shift = bool(arguments[0] & 4);                      // NOLINT
  output.mouse.meta = bool(arguments[0] & 8);                       // NOLINT
  output.mouse.x = arguments[1];                                    // NOLINT
  output.mouse.y = arguments[2];                                    // NOLINT
  return output;
 }
 // NOLINTNEXTLINE
 TerminalInputParser::Output TerminalInputParser::ParseCursorReporting(
    std::vector<int> arguments) {
  if (arguments.size() != 2) {
    return SPECIAL;
  }
  Output output(CURSOR_REPORTING);
  output.cursor.y = arguments[0];  // NOLINT
  output.cursor.x = arguments[1];  // NOLINT
  return output;
 }
 }  // namespace ftxui
--- a/input_parser.hpp
+++ b/input_parser.hpp
@ -0,0 +1,72 @@
 // Copyright 2020 Arthur Sonzogni. All rights reserved.
 // Use of this source code is governed by the MIT license that can be found in
 // the LICENSE file.
 #ifndef FTXUI_COMPONENT_TERMINAL_INPUT_PARSER
 #define FTXUI_COMPONENT_TERMINAL_INPUT_PARSER
 #include <memory>  // for unique_ptr
 #include <string>  // for string
 #include <vector>  // for vector
 #include "ftxui/component/event.hpp"     // for Event (ptr only)
 #include "ftxui/component/mouse.hpp"     // for Mouse
 #include "ftxui/component/receiver.hpp"  // for Sender
 #include "ftxui/component/task.hpp"      // for Task
 namespace ftxui {
 struct Event;
 // Parse a sequence of |char| accross |time|. Produces |Event|.
 class TerminalInputParser {
 public:
  TerminalInputParser(Sender<Task> out);
  void Timeout(int time);
  void Add(char c);
 private:
  unsigned char Current();
  bool Eat();
  enum Type {
    UNCOMPLETED,
    DROP,
    CHARACTER,
    SPECIAL,
    MOUSE,
    CURSOR_REPORTING,
  };
  struct CursorReporting {
    int x;
    int y;
  };
  struct Output {
    Type type;
    union {
      Mouse mouse;
      CursorReporting cursor;
    };
    Output(Type t) : type(t) {}
  };
  void Send(Output output);
  Output Parse();
  Output ParseUTF8();
  Output ParseESC();
  Output ParseDCS();
  Output ParseCSI();
  Output ParseOSC();
  Output ParseMouse(bool altered, bool pressed, std::vector<int> arguments);
  Output ParseCursorReporting(std::vector<int> arguments);
  Sender<Task> out_;
  int position_ = -1;
  int timeout_ = 0;
  std::string pending_;
 };
 }  // namespace ftxui
 #endif /* end of include guard: FTXUI_COMPONENT_TERMINAL_INPUT_PARSER */
--- a/meson.build
+++ b/meson.build
@ -49,6 +49,7 @@ roguish = executable('roguish', [
  'render.cpp',
  'config.cpp',
  'save.cpp',
  'sfml_screen.cpp',
  'panel.cpp',
  ],
  dependencies: dependencies)
--- a/panel.cpp
+++ b/panel.cpp
@ -2,7 +2,7 @@
 void Panel::resize(int width, int height) {
  $dirty = true;
-  $screen = Screen(width, height);
+  // $screen = ScreenInteractive::FixedSize(width, height);
 }
 void Panel::set_renderer(std::function< Element()> render) {
--- a/panel.hpp
+++ b/panel.hpp
@ -1,12 +1,12 @@
 #pragma once
 #include <ftxui/dom/node.hpp>      // for Render
 #include <ftxui/component/component.hpp>
 #include <ftxui/screen/screen.hpp>
 #include <ftxui/dom/canvas.hpp>
 #include <ftxui/screen/screen.hpp>
 #include <ftxui/dom/canvas.hpp>
 #include <ftxui/screen/screen.hpp>
 #include <ftxui/dom/canvas.hpp>
 #include "sfml_screen.hpp"  // for SFMLScreen
 #include <locale>
 #include <codecvt>
@ -20,7 +20,7 @@ struct Panel {
  std::wstring $screenout;
  bool $dirty = true;
  Component $component;
-  Screen $screen;
+  SFMLScreen $screen;
  bool $must_clear = true;
  std::wstring_convert<std::codecvt_utf8_utf16<wchar_t>> $converter;
@ -29,7 +29,7 @@ struct Panel {
    y(y),
    width(width),
    height(height),
-    $screen(width, height),
+    $screen(SFMLScreen::FixedSize(width, height)),
    $must_clear(must_clear)
  {};
--- a/sfml_screen.cpp
+++ b/sfml_screen.cpp
@ -0,0 +1,460 @@
 // Copyright 2020 Arthur Sonzogni. All rights reserved.
 // Use of this source code is governed by the MIT license that can be found in
 // the LICENSE file.
 #include <cassert>
 #include <algorithm>  // for copy, max, min
 #include <array>      // for array
 #include <chrono>  // for operator-, milliseconds, operator>=, duration, common_type<>::type, time_point
 #include <cstdio>   // for fileno, stdin
 #include <ftxui/component/task.hpp>  // for Task, Closure, AnimationTask
 #include <ftxui/screen/screen.hpp>  // for Pixel, Screen::Cursor, Screen, Screen::Cursor::Hidden
 #include <functional>        // for function
 #include <initializer_list>  // for initializer_list
 #include <iostream>  // for cout, ostream, operator<<, basic_ostream, endl, flush
 #include <stack>     // for stack
 #include <thread>    // for thread, sleep_for
 #include <tuple>     // for _Swallow_assign, ignore
 #include <type_traits>  // for decay_t
 #include <utility>      // for move, swap
 #include <variant>      // for visit, variant
 #include <vector>       // for vector
 #include <ftxui/component/animation.hpp>  // for TimePoint, Clock, Duration, Params, RequestAnimationFrame
 #include <ftxui/component/captured_mouse.hpp>  // for CapturedMouse, CapturedMouseInterface
 #include <ftxui/component/component_base.hpp>  // for ComponentBase
 #include <ftxui/component/event.hpp>           // for Event
 #include <ftxui/component/loop.hpp>            // for Loop
 #include <ftxui/component/receiver.hpp>  // for ReceiverImpl, Sender, MakeReceiver, SenderImpl, Receiver
 #include <ftxui/dom/node.hpp>                         // for Node, Render
 #include <ftxui/dom/requirement.hpp>                  // for Requirement
 #include <ftxui/screen/terminal.hpp>                  // for Dimensions, Size
 #include <fmt/core.h>
 #include "sfml_screen.hpp"
 // Quick exit is missing in standard CLang headers
 #if defined(__clang__) && defined(__APPLE__)
 #define quick_exit(a) exit(a)
 #endif
 /*
 namespace ftxui {
  namespace animation {
    void RequestAnimationFrame() {
      auto* screen = SFMLScreen::Active();
      if (screen) {
        screen->RequestAnimationFrame();
      }
    }
  }  // namespace animation
 }
 */
 namespace {
  SFMLScreen* g_active_screen = nullptr;  // NOLINT
  void Flush() {
    // Emscripten doesn't implement flush. We interpret zero as flush.
    std::cout << '\0' << std::flush;
  }
  constexpr int timeout_milliseconds = 20;
  [[maybe_unused]] constexpr int timeout_microseconds =
    timeout_milliseconds * 1000;
  std::stack<Closure> on_exit_functions;  // NOLINT
  void OnExit() {
    while (!on_exit_functions.empty()) {
      on_exit_functions.top()();
      on_exit_functions.pop();
    }
  }
 }  // namespace
 /*
 * bruxisma:  std::thread has some special magic built in so that if you pass in a std::reference_wrapper it'll unpack it and treat it as a reference. So you can pass it as a reference with `std::ref` for mutable references, and `st***ref` for constant references
 *
 * ZED: This is al Windows specific code that needs to be replaced
 * with SFML's events system, so the quit here will die.
 */
 void EventListener(Sender<Task> out) {
  using namespace std::chrono_literals;
  while (true) {
    // get the sfml window inputs
    fmt::println("WAITING FOR EVENT");
    std::this_thread::sleep_for(1000ms);
  }
 }
 /*
 * ZED: This can stay but it doesn't need to be a thread, make it a function
 * that is called in the event loop.
 */
 void AnimationListener(Sender<Task> out) {
  // Animation at around 60fps.
  const auto time_delta = std::chrono::milliseconds(15);
  while (true) {
    out->Send(ftxui::AnimationTask());
    std::this_thread::sleep_for(time_delta);
  }
 }
 SFMLScreen::SFMLScreen(int dimx,
                                     int dimy,
                                     Dimension dimension,
                                     bool use_alternative_screen)
    : Screen(dimx, dimy),
      dimension_(dimension),
      use_alternative_screen_(use_alternative_screen) {
  task_receiver_ = ftxui::MakeReceiver<Task>();
 }
 // static
 SFMLScreen SFMLScreen::FixedSize(int dimx, int dimy) {
  return {
      dimx,
      dimy,
      Dimension::Fixed,
      false,
  };
 }
 // static
 SFMLScreen SFMLScreen::Fullscreen() {
  return {
      0,
      0,
      Dimension::Fullscreen,
      true,
  };
 }
 // static
 SFMLScreen SFMLScreen::TerminalOutput() {
  return {
      0,
      0,
      Dimension::TerminalOutput,
      false,
  };
 }
 // static
 SFMLScreen SFMLScreen::FitComponent() {
  return {
      0,
      0,
      Dimension::FitComponent,
      false,
  };
 }
 /// @ingroup component
 /// @brief Set whether mouse is tracked and events reported.
 /// called outside of the main loop. E.g `SFMLScreen::Loop(...)`.
 /// @param enable Whether to enable mouse event tracking.
 /// @note This muse be called outside of the main loop. E.g. before calling
 /// `SFMLScreen::Loop`.
 /// @note Mouse tracking is enabled by default.
 /// @note Mouse tracking is only supported on terminals that supports it.
 ///
 /// ### Example
 ///
 /// ```cpp
 /// auto screen = SFMLScreen::TerminalOutput();
 /// screen.TrackMouse(false);
 /// screen.Loop(component);
 /// ```
 void SFMLScreen::TrackMouse(bool enable) {
  track_mouse_ = enable;
 }
 /// @brief Add a task to the main loop.
 /// It will be executed later, after every other scheduled tasks.
 /// @ingroup component
 void SFMLScreen::Post(Task task) {
  // Task/Events sent toward inactive screen or screen waiting to become
  // inactive are dropped.
  if (!task_sender_) {
    return;
  }
  task_sender_->Send(std::move(task));
 }
 /// @brief Add an event to the main loop.
 /// It will be executed later, after every other scheduled events.
 /// @ingroup component
 void SFMLScreen::PostEvent(Event event) {
  Post(event);
 }
 /// @brief Add a task to draw the screen one more time, until all the animations
 /// are done.
 void SFMLScreen::RequestAnimationFrame() {
  if (animation_requested_) {
    return;
  }
  animation_requested_ = true;
  auto now = ftxui::animation::Clock::now();
  const auto time_histeresis = std::chrono::milliseconds(33);
  if (now - previous_animation_time_ >= time_histeresis) {
    previous_animation_time_ = now;
  }
 }
 /// @brief Return whether the main loop has been quit.
 /// @ingroup component
 bool SFMLScreen::HasQuitted() {
  return task_receiver_->HasQuitted();
 }
 // private
 void SFMLScreen::PreMain() {
  // Suspend previously active screen:
  if (g_active_screen) {
    std::swap(suspended_screen_, g_active_screen);
    // Reset cursor position to the top of the screen and clear the screen.
    suspended_screen_->ResetCursorPosition();
    std::cout << suspended_screen_->ResetPosition(/*clear=*/true);
    suspended_screen_->dimx_ = 0;
    suspended_screen_->dimy_ = 0;
    // Reset dimensions to force drawing the screen again next time:
    suspended_screen_->Uninstall();
  }
  // This screen is now active:
  g_active_screen = this;
  g_active_screen->Install();
  previous_animation_time_ = ftxui::animation::Clock::now();
 }
 // private
 void SFMLScreen::PostMain() {
  // Put cursor position at the end of the drawing.
  ResetCursorPosition();
  g_active_screen = nullptr;
  // Restore suspended screen.
  if (suspended_screen_) {
    // Clear screen, and put the cursor at the beginning of the drawing.
    std::cout << ResetPosition(/*clear=*/true);
    dimx_ = 0;
    dimy_ = 0;
    Uninstall();
    std::swap(g_active_screen, suspended_screen_);
    g_active_screen->Install();
  } else {
    Uninstall();
    std::cout << '\r';
    // On final exit, keep the current drawing and reset cursor position one
    // line after it.
    if (!use_alternative_screen_) {
      std::cout << std::endl;
    }
  }
 }
 /// @brief Decorate a function. It executes the same way, but with the currently
 /// active screen terminal hooks temporarilly uninstalled during its execution.
 /// @param fn The function to decorate.
 Closure SFMLScreen::WithRestoredIO(Closure fn) {  // NOLINT
  return [this, fn] {
    Uninstall();
    fn();
    Install();
  };
 }
 /// @brief Return the currently active screen, or null if none.
 // static
 SFMLScreen* SFMLScreen::Active() {
  return g_active_screen;
 }
 // private
 void SFMLScreen::Install() {
  frame_valid_ = false;
  // After uninstalling the new configuration, flush it to the terminal to
  // ensure it is fully applied:
  on_exit_functions.push([] { Flush(); });
  on_exit_functions.push([this] { ExitLoopClosure()(); });
  // After installing the new configuration, flush it to the terminal to
  // ensure it is fully applied:
  Flush();
  task_sender_ = task_receiver_->MakeSender();
  event_listener_ =
      std::thread(&EventListener, task_receiver_->MakeSender());
  animation_listener_ =
      std::thread(&AnimationListener, task_receiver_->MakeSender());
 }
 // private
 void SFMLScreen::Uninstall() {
  ExitNow();
  event_listener_.join();
  animation_listener_.join();
  OnExit();
 }
 // private
 // NOLINTNEXTLINE
 void SFMLScreen::RunOnceBlocking(Component component) {
  Task task;
  if (task_receiver_->Receive(&task)) {
    HandleTask(component, task);
  }
  RunOnce(component);
 }
 // private
 void SFMLScreen::RunOnce(Component component) {
  Task task;
  while (task_receiver_->ReceiveNonBlocking(&task)) {
    HandleTask(component, task);
  }
  Draw(std::move(component));
 }
 // private
 void SFMLScreen::HandleTask(Component component, Task& task) {
  // clang-format off
  std::visit([&](auto&& arg) {
    using T = std::decay_t<decltype(arg)>;
    // Handle Event.
    if constexpr (std::is_same_v<T, Event>) {
      if (arg.is_cursor_reporting()) {
        cursor_x_ = arg.cursor_x();
        cursor_y_ = arg.cursor_y();
        return;
      }
      if (arg.is_mouse()) {
        arg.mouse().x -= cursor_x_;
        arg.mouse().y -= cursor_y_;
      }
      // ZED: arg.screen_ = this;
      component->OnEvent(arg);
      frame_valid_ = false;
      return;
    }
    // Handle callback
    if constexpr (std::is_same_v<T, Closure>) {
      arg();
      return;
    }
    // Handle Animation
    if constexpr (std::is_same_v<T, ftxui::AnimationTask>) {
      if (!animation_requested_) {
        return;
      }
      animation_requested_ = false;
      const ftxui::animation::TimePoint now = ftxui::animation::Clock::now();
      const ftxui::animation::Duration delta = now - previous_animation_time_;
      previous_animation_time_ = now;
      ftxui::animation::Params params(delta);
      component->OnAnimation(params);
      frame_valid_ = false;
      return;
    }
  },
  task);
  // clang-format on
 }
 // private
 // NOLINTNEXTLINE
 void SFMLScreen::Draw(Component component) {
  if (frame_valid_) {
    return;
  }
  auto document = component->Render();
  int dimx = 0;
  int dimy = 0;
  // ZED: replace this
  // auto terminal = Terminal::Size();
  document->ComputeRequirement();
  switch (dimension_) {
    case Dimension::Fixed:
      dimx = dimx_;
      dimy = dimy_;
      break;
    case Dimension::TerminalOutput:
      assert(false && "NOT IMPLEMENTED!");
      // dimx = terminal.dimx;
      // dimy = document->requirement().min_y;
      break;
    case Dimension::Fullscreen:
      assert(false && "NOT IMPLEMENTED!");
      // dimx = terminal.dimx;
      // dimy = terminal.dimy;
      break;
    case Dimension::FitComponent:
      assert(false && "NOT IMPLEMENTED!");
      // dimx = std::min(document->requirement().min_x, terminal.dimx);
      // dimy = std::min(document->requirement().min_y, terminal.dimy);
      break;
  }
  const bool resized = (dimx != dimx_) || (dimy != dimy_);
  ResetCursorPosition();
  std::cout << ResetPosition(/*clear=*/resized);
  // Resize the screen if needed.
  if (resized) {
    dimx_ = dimx;
    dimy_ = dimy;
    pixels_ = std::vector<std::vector<ftxui::Pixel>>(dimy, std::vector<ftxui::Pixel>(dimx));
    cursor_.x = dimx_ - 1;
    cursor_.y = dimy_ - 1;
  }
  // ZED: I removed a bunch of terminal stuff but probably need to bring back
  // resizing?
  //
  previous_frame_resized_ = resized;
  Render(*this, document);
  std::cout << ToString() << set_cursor_position;
  Flush();
  Clear();
  frame_valid_ = true;
 }
 // private
 void SFMLScreen::ResetCursorPosition() {
  std::cout << reset_cursor_position;
  reset_cursor_position = "";
 }
 /// @brief Return a function to exit the main loop.
 /// @ingroup component
 Closure SFMLScreen::ExitLoopClosure() {
  return [this] { Exit(); };
 }
 /// @brief Exit the main loop.
 /// @ingroup component
 void SFMLScreen::Exit() {
  Post([this] { ExitNow(); });
 }
 // private:
 void SFMLScreen::ExitNow() {
  task_sender_.reset();
 }
--- a/sfml_screen.hpp
+++ b/sfml_screen.hpp
@ -0,0 +1,113 @@
 // Copyright 2020 Arthur Sonzogni. All rights reserved.
 // Use of this source code is governed by the MIT license that can be found in
 // the LICENSE file.
 #ifndef FTXUI_COMPONENT_SCREEN_INTERACTIVE_HPP
 #define FTXUI_COMPONENT_SCREEN_INTERACTIVE_HPP
 #include <atomic>                        // for atomic
 #include <ftxui/component/receiver.hpp>  // for Receiver, Sender
 #include <functional>                    // for function
 #include <memory>                        // for shared_ptr
 #include <string>                        // for string
 #include <thread>                        // for thread
 #include <variant>                       // for variant
 #include <ftxui/component/animation.hpp>       // for TimePoint
 #include <ftxui/component/captured_mouse.hpp>  // for CapturedMouse
 #include <ftxui/component/event.hpp>           // for Event
 #include <ftxui/component/task.hpp>            // for Task, Closure
 #include <ftxui/screen/screen.hpp>             // for Screen
 using ftxui::Component, ftxui::Task, ftxui::Closure, ftxui::Event, ftxui::Sender, ftxui::Receiver;
 namespace ftxui {
  class ComponentBase;
  struct Event;
  using Component = std::shared_ptr<ComponentBase>;
  class SFMLScreenPrivate;
 }
 class SFMLScreen : public ftxui::Screen {
 public:
  // Constructors:
  static SFMLScreen FixedSize(int dimx, int dimy);
  static SFMLScreen Fullscreen();
  static SFMLScreen FitComponent();
  static SFMLScreen TerminalOutput();
  // Options. Must be called before Loop().
  void TrackMouse(bool enable = true);
  // Return the currently active screen, nullptr if none.
  static SFMLScreen* Active();
  // Start/Stop the main loop.
  void Exit();
  Closure ExitLoopClosure();
  // Post tasks to be executed by the loop.
  void Post(Task task);
  void PostEvent(Event event);
  void RequestAnimationFrame();
  // Decorate a function. The outputted one will execute similarly to the
  // inputted one, but with the currently active screen terminal hooks
  // temporarily uninstalled.
  ftxui::Closure WithRestoredIO(ftxui::Closure);
  void ExitNow();
  void Install();
  void Uninstall();
  void PreMain();
  void PostMain();
  bool HasQuitted();
  void RunOnce(Component component);
  void RunOnceBlocking(Component component);
  void HandleTask(Component component, Task& task);
  void Draw(Component component);
  void ResetCursorPosition();
  SFMLScreen* suspended_screen_ = nullptr;
  enum class Dimension {
    FitComponent,
    Fixed,
    Fullscreen,
    TerminalOutput,
  };
  Dimension dimension_ = Dimension::Fixed;
  bool use_alternative_screen_ = false;
  SFMLScreen(int dimx,
                    int dimy,
                    Dimension dimension,
                    bool use_alternative_screen);
  bool track_mouse_ = true;
  Sender<Task> task_sender_;
  Receiver<Task> task_receiver_;
  std::string set_cursor_position;
  std::string reset_cursor_position;
  std::thread event_listener_;
  std::thread animation_listener_;
  bool animation_requested_ = false;
  ftxui::animation::TimePoint previous_animation_time_;
  int cursor_x_ = 1;
  int cursor_y_ = 1;
  bool mouse_captured = false;
  bool previous_frame_resized_ = false;
  bool frame_valid_ = false;
 };
 #endif /* end of include guard: FTXUI_COMPONENT_SCREEN_INTERACTIVE_HPP */
--- a/status.txt
+++ b/status.txt
@ -3,8 +3,6 @@ NOTES:
 TODO:
 * panels and everything except renderer should use character coodinates
 * camera shake broken
 * draw_screen doesn't do x axis offset render
 * Can std::any be defaulted to a noop in the events?
 * Save file isn't saving gold.
 * Inventory needs to be better, but need some kinds of "weapons" or other loot to get and not just gold.