Brought over a bunch of stuff to get started, but only lel.cpp compiles.

5 days ago · 103793204d
parent 26685279ce
commit 103793204d
33 changed files with 2746 additions and 0 deletions
--- a/.gitignore
+++ b/.gitignore
@ -19,3 +19,13 @@ tags
 # Persistent undo
 [._]*.un~
 subprojects
 builddir
 ttassets
 backup
 *.exe
 *.dll
 *.world
 coverage
 coverage/*
 .venv
--- a/.vimrc_proj
+++ b/.vimrc_proj
@ -0,0 +1 @@
 set makeprg=meson\ compile\ -C\ .
--- a/58
+++ b/58
@ -0,0 +1,58 @@
 all: build test
 reset:
 ifeq '$(OS)' 'Windows_NT'
 	powershell -executionpolicy bypass .\scripts\reset_build.ps1
 else
 	sh -x ./scripts/reset_build.sh
 endif
 %.cpp : %.rl
 	ragel -o $@ $<
 build: lel_parser.cpp
 	meson compile -j 10 -C builddir
 release_build:
 	meson --wipe builddir -Db_ndebug=true --buildtype release
 	meson compile -j 10 -C builddir
 debug_build:
 	meson setup --wipe builddir -Db_ndebug=true --buildtype debugoptimized
 	meson compile -j 10 -C builddir
 tracy_build:
 	meson setup --wipe builddir --buildtype debugoptimized -Dtracy_enable=true -Dtracy:on_demand=true
 	meson compile -j 10 -C builddir
 test: build
 	./builddir/runtests
 run: build test
 ifeq '$(OS)' 'Windows_NT'
 	powershell "cp ./builddir/calculator.exe ."
 	./calculator
 else
 	./builddir/calculator
 endif
 debug: build
 	gdb --nx -x .gdbinit --ex run --args builddir/calculator
 debug_run: build
 	gdb --nx -x .gdbinit --batch --ex run --ex bt --ex q --args builddir/calculator
 debug_walk: build test
 	gdb --nx -x .gdbinit --batch --ex run --ex bt --ex q --args builddir/calculator t
 clean:
 	meson compile --clean -C builddir
 debug_test: build
 	gdb --nx -x .gdbinit --ex run --args builddir/runtests -e
 win_installer:
 	powershell 'start "C:\Program Files (x86)\solicus\InstallForge\bin\ifbuilderenvx86.exe" scripts\win_installer.ifp'
 coverage_report:
 	powershell 'scripts/coverage_report.ps1'
--- a/dbc.cpp
+++ b/dbc.cpp
@ -0,0 +1,47 @@
 #include "dbc.hpp"
 #include <iostream>
 void dbc::log(const string &message, const std::source_location location) {
  std::cout << '[' << location.file_name() << ':'
     << location.line() << "|"
     << location.function_name() << "] "
     << message << std::endl;
 }
 void dbc::sentinel(const string &message, const std::source_location location) {
  string err = fmt::format("[SENTINEL!] {}", message);
  dbc::log(err, location);
  throw dbc::SentinelError{err};
 }
 void dbc::pre(const string &message, bool test, const std::source_location location) {
  if(!test) {
    string err = fmt::format("[PRE!] {}", message);
    dbc::log(err, location);
    throw dbc::PreCondError{err};
  }
 }
 void dbc::pre(const string &message, std::function<bool()> tester, const std::source_location location) {
  dbc::pre(message, tester(), location);
 }
 void dbc::post(const string &message, bool test, const std::source_location location) {
  if(!test) {
    string err = fmt::format("[POST!] {}", message);
    dbc::log(err, location);
    throw dbc::PostCondError{err};
  }
 }
 void dbc::post(const string &message, std::function<bool()> tester, const std::source_location location) {
  dbc::post(message, tester(), location);
 }
 void dbc::check(bool test, const string &message, const std::source_location location) {
  if(!test) {
    string err = fmt::format("[CHECK!] {}\n", message);
    dbc::log(err, location);
    throw dbc::CheckError{err};
  }
 }
--- a/dbc.hpp
+++ b/dbc.hpp
@ -0,0 +1,50 @@
 #pragma once
 #include <string>
 #include <fmt/core.h>
 #include <functional>
 #include <source_location>
 using std::string;
 namespace dbc {
  class Error {
    public:
      const string message;
      Error(string m) : message{m} {}
      Error(const char *m) : message{m} {}
  };
  class CheckError : public Error {};
  class SentinelError : public Error {};
  class PreCondError : public Error {};
  class PostCondError : public Error {};
  void log(const string &message,
      const std::source_location location =
      std::source_location::current());
  [[noreturn]] void sentinel(const string &message,
      const std::source_location location =
      std::source_location::current());
  void pre(const string &message, bool test,
      const std::source_location location =
      std::source_location::current());
  void pre(const string &message, std::function<bool()> tester,
      const std::source_location location =
      std::source_location::current());
  void post(const string &message, bool test,
      const std::source_location location =
      std::source_location::current());
  void post(const string &message, std::function<bool()> tester,
      const std::source_location location =
      std::source_location::current());
  void check(bool test, const string &message,
      const std::source_location location =
      std::source_location::current());
 }
--- a/guecs.cpp
+++ b/guecs.cpp
@ -0,0 +1,354 @@
 #include "guecs.hpp"
 #include "shaders.hpp"
 #include "sound.hpp"
 #include "textures.hpp"
 #include <typeinfo>
 namespace guecs {
  using std::make_shared;
  void Textual::init(lel::Cell &cell, shared_ptr<sf::Font> font_ptr) {
    dbc::check(font_ptr != nullptr, "you failed to initialize this WideText");
    if(font == nullptr) font = font_ptr;
    if(text == nullptr) text = make_shared<sf::Text>(*font, content, size);
    text->setFillColor(color);
    if(centered) {
      auto bounds = text->getLocalBounds();
      auto text_cell = lel::center(bounds.size.x, bounds.size.y, cell);
      // this stupid / 2 is because SFML renders from baseline rather than from the claimed bounding box
      text->setPosition({float(text_cell.x), float(text_cell.y) - text_cell.h / 2});
    } else {
      text->setPosition({float(cell.x + padding * 2), float(cell.y + padding * 2)});
    }
    text->setCharacterSize(size);
  }
  void Textual::update(const wstring& new_content) {
    content = new_content;
    text->setString(content);
  }
  void Sprite::update(const string& new_name) {
    if(new_name != name) {
      name = new_name;
      auto sprite_texture = textures::get(name);
      sprite->setTexture(*sprite_texture.texture);
      sprite->setTextureRect(sprite_texture.sprite->getTextureRect());
    }
  }
  void Sprite::init(lel::Cell &cell) {
    auto sprite_texture = textures::get(name);
    sprite = make_shared<sf::Sprite>(
        *sprite_texture.texture,
        sprite_texture.sprite->getTextureRect());
    sprite->setPosition({
        float(cell.x + padding),
        float(cell.y + padding)});
    auto bounds = sprite->getLocalBounds();
    sprite->setScale({
        float(cell.w - padding * 2) / bounds.size.x,
        float(cell.h - padding * 2) / bounds.size.y});
  }
  void Rectangle::init(lel::Cell& cell) {
    sf::Vector2f size{float(cell.w) - padding * 2, float(cell.h) - padding * 2};
    if(shape == nullptr) shape = make_shared<sf::RectangleShape>(size);
    shape->setPosition({float(cell.x + padding), float(cell.y + padding)});
    shape->setFillColor(color);
    shape->setOutlineColor(border_color);
    shape->setOutlineThickness(border_px);
  }
  void Meter::init(lel::Cell& cell) {
    bar.init(cell);
  }
  void Meter::render(lel::Cell& cell) {
    float level = std::clamp(percent, 0.0f, 1.0f) * float(cell.w);
    // ZED: this 6 is a border width, make it a thing
    bar.shape->setSize({std::max(level, 0.0f), float(cell.h - 6)});
  }
  void Sound::play(bool hover) {
    if(!hover) {
      sound::play(on_click);
    }
  }
  void Sound::stop(bool hover) {
    if(!hover) {
      sound::stop(on_click);
    }
  }
  void Background::init() {
    sf::Vector2f size{float(w), float(h)};
    if(shape == nullptr) shape = make_shared<sf::RectangleShape>(size);
    shape->setPosition({float(x), float(y)});
    shape->setFillColor(color);
  }
  void Effect::init(lel::Cell &cell) {
    $shader_version = shaders::version();
    $shader = shaders::get(name);
    $shader->setUniform("u_resolution", sf::Vector2f({float(cell.w), float(cell.h)}));
    $clock = std::make_shared<sf::Clock>();
  }
  void Effect::step() {
    sf::Time cur_time = $clock->getElapsedTime();
    float u_time = cur_time.asSeconds();
    if(u_time < $u_time_end) {
      $shader->setUniform("u_duration", duration);
      $shader->setUniform("u_time_end", $u_time_end);
      $shader->setUniform("u_time", u_time);
    } else {
      $active = false;
    }
  }
  void Effect::run() {
    $active = true;
    sf::Time u_time = $clock->getElapsedTime();
    $u_time_end = u_time.asSeconds() + duration;
  }
  shared_ptr<sf::Shader> Effect::checkout_ptr() {
    if(shaders::updated($shader_version)) {
      $shader = shaders::get(name);
      $shader_version = shaders::version();
    }
    return $shader;
  }
  void Effect::stop() {
    $active = false;
  }
  UI::UI() {
    $font = make_shared<sf::Font>(FONT_FILE_NAME);
  }
  void UI::position(int x, int y, int width, int height) {
    $parser.position(x, y, width, height);
  }
  sf::Vector2f UI::get_position() {
    return {float($parser.grid_x), float($parser.grid_y)};
  }
  sf::Vector2f UI::get_size() {
    return {float($parser.grid_w), float($parser.grid_h)};
  }
  void UI::layout(const string& grid) {
    $grid = grid;
    bool good = $parser.parse($grid);
    dbc::check(good, "LEL parsing failed.");
    for(auto& [name, cell] : $parser.cells) {
      auto ent = init_entity(name);
      set<lel::Cell>(ent, cell);
    }
  }
  Entity UI::init_entity(const string& name) {
    auto ent = entity();
    // this lets you look up an entity by name
    $name_ents.insert_or_assign(name, ent);
    // this makes it easier to get the name during querying
    set<CellName>(ent, {name});
    return ent;
  }
  Entity UI::entity(const string& name) {
    dbc::check($name_ents.contains(name),
        fmt::format("GUECS entity {} does not exist. Mispelled cell name?", name));
    return $name_ents.at(name);
  }
  Entity UI::entity(const string& name, int id) {
    return entity(fmt::format("{}{}", name, id));
  }
  void UI::init() {
    query<Background>([](auto, auto& bg) {
        bg.init();
    });
    query<lel::Cell, Rectangle>([](auto, auto& cell, auto& rect) {
      rect.init(cell);
    });
    query<lel::Cell, Effect>([](auto, auto& cell, auto& shader) {
      shader.init(cell);
    });
    query<Rectangle, Meter>([](auto, auto& bg, auto &meter) {
      bg.shape->setFillColor(meter.color);
    });
    query<lel::Cell, Meter>([](auto, auto &cell, auto& meter) {
      meter.init(cell);
    });
    query<lel::Cell, Textual>([this](auto, auto& cell, auto& text) {
      text.init(cell, $font);
    });
    query<lel::Cell, Label>([this](auto, auto& cell, auto& text) {
      text.init(cell, $font);
    });
    query<lel::Cell, Sprite>([&](auto, auto &cell, auto &sprite) {
      sprite.init(cell);
    });
  }
  void UI::debug_layout(sf::RenderWindow& window) {
    query<lel::Cell>([&](const auto, auto &cell) {
      sf::RectangleShape rect{{float(cell.w), float(cell.h)}};
      rect.setPosition({float(cell.x), float(cell.y)});
      rect.setFillColor(sf::Color::Transparent);
      rect.setOutlineColor(sf::Color::Red);
      rect.setOutlineThickness(2.0f);
      window.draw(rect);
    });
  }
  void UI::render(sf::RenderWindow& window) {
    if(auto bg = get_if<Background>(MAIN)) {
      window.draw(*(bg->shape));
    }
    query<Effect>([&](auto, auto& shader) {
      if(shader.$active) shader.step();
    });
    query<Rectangle>([&](auto ent, auto& rect) {
        render_helper(window, ent, true, rect.shape);
    });
    query<lel::Cell, Meter>([&](auto ent, auto& cell, auto &meter) {
      meter.render(cell);
      render_helper(window, ent, true, meter.bar.shape);
    });
    query<Sprite>([&](auto ent, auto& sprite) {
        render_helper(window, ent, false, sprite.sprite);
    });
    query<Label>([&](auto ent, auto& text) {
        render_helper(window, ent, false, text.text);
    });
    query<Textual>([&](auto ent, auto& text) {
        render_helper(window, ent, true, text.text);
    });
  }
  bool UI::mouse(float x, float y, bool hover) {
    int action_count = 0;
    query<lel::Cell>([&](auto ent, auto& cell) {
      if((x >= cell.x && x <= cell.x + cell.w) &&
          (y >= cell.y && y <= cell.y + cell.h))
      {
        do_if<Effect>(ent, [hover](auto& effect) {
          effect.$shader->setUniform("hover", hover);
          effect.run();
        });
        do_if<Sound>(ent, [hover](auto& sound) {
            // here set that it played then only play once
            sound.play(hover);
        });
        if(hover) return;
        click_on(ent);
        action_count++;
      } else {
        do_if<Effect>(ent, [hover](auto& effect) {
          effect.stop();
        });
        do_if<Sound>(ent, [hover](auto& sound) {
            // here set that it played then only play once
            sound.stop(hover);
        });
      }
    });
    return action_count > 0;
  }
  void UI::show_sprite(const string& region, const string& sprite_name) {
    auto ent = entity(region);
    if(auto sprite = get_if<Sprite>(ent)) {
      sprite->update(sprite_name);
    } else {
      set_init<Sprite>(ent, {sprite_name});
    }
  }
  void UI::show_text(const string& region, const wstring& content) {
    auto ent = entity(region);
    if(auto tc = get_if<Textual>(ent)) {
      tc->text->setString(content);
    } else {
      auto &cell = cell_for(ent);
      Textual to_set{content, TEXT_SIZE};
      to_set.init(cell, $font);
      set<Textual>(ent, to_set);
    }
  }
  void UI::click_on(const string& name, bool required) {
    auto ent = entity(name);
    if(required) {
      dbc::check(has<Clickable>(ent),
          fmt::format("click_on required '{}' to exist but it doesn't", name));
    }
    click_on(ent);
  }
  void UI::click_on(Entity ent) {
    if(auto clicked = get_if<Clickable>(ent)) {
      if(auto action_data = get_if<ActionData>(ent)) {
        clicked->action(ent, action_data->data);
      } else {
        clicked->action(ent, {});
      }
    }
  }
  void UI::show_label(const string& region, const wstring& content) {
    auto ent = entity(region);
    if(auto tc = get_if<Label>(ent)) {
      tc->text->setString(content);
    } else {
      auto &cell = cell_for(ent);
      Label to_set{content, LABEL_SIZE};
      to_set.init(cell, $font);
      to_set.text->setFillColor(TEXT_COLOR);
      set<Label>(ent, to_set);
    }
  }
 }
--- a/guecs.hpp
+++ b/guecs.hpp
@ -0,0 +1,340 @@
 #pragma once
 #include "dbc.hpp"
 #include "color.hpp"
 #include "lel.hpp"
 #include <string>
 #include <memory>
 #include <SFML/Graphics.hpp>
 #include <functional>
 #include "events.hpp"
 #include <any>
 #include <queue>
 #include <typeindex>
 #include <unordered_map>
 namespace guecs {
  constexpr const int PADDING = 3;
  constexpr const int BORDER_PX = 1;
  constexpr const int TEXT_SIZE = 30;
  constexpr const int LABEL_SIZE = 20;
  constexpr const sf::Color FILL_COLOR = ColorValue::DARK_MID;
  constexpr const sf::Color TEXT_COLOR = ColorValue::LIGHT_LIGHT;
  constexpr const sf::Color BG_COLOR = ColorValue::MID;
  constexpr const sf::Color BORDER_COLOR = ColorValue::MID;
  constexpr const char *FONT_FILE_NAME="assets/text.otf";
  using std::shared_ptr, std::wstring, std::string;
  using Entity = unsigned long;
  using EntityMap = std::unordered_map<Entity, size_t>;
  template <typename T>
    struct ComponentStorage {
      std::vector<T> data;
      std::queue<size_t> free_indices;
    };
  struct Textual {
    std::wstring content;
    unsigned int size = TEXT_SIZE;
    sf::Color color = TEXT_COLOR;
    int padding = PADDING;
    bool centered = false;
    shared_ptr<sf::Font> font = nullptr;
    shared_ptr<sf::Text> text = nullptr;
    void init(lel::Cell &cell, shared_ptr<sf::Font> font_ptr);
    void update(const std::wstring& new_content);
  };
  struct Label : public Textual {
    template<typename... Args>
      Label(Args... args) : Textual(args...)
    {
      centered = true;
      size = LABEL_SIZE;
    }
    Label() {
      centered = true;
    };
  };
  struct Clickable {
    /* This is actually called by UI::mouse and passed the entity ID of the
     * button pressed so you can interact with it in the event handler.
     */
    std::function<void(Entity ent, std::any data)> action;
  };
  struct Sprite {
    string name;
    int padding = PADDING;
    std::shared_ptr<sf::Sprite> sprite = nullptr;
    void init(lel::Cell &cell);
    void update(const string& new_name);
  };
  struct Rectangle {
    int padding = PADDING;
    sf::Color color = FILL_COLOR;
    sf::Color border_color = BORDER_COLOR;
    int border_px = BORDER_PX;
    shared_ptr<sf::RectangleShape> shape = nullptr;
    void init(lel::Cell& cell);
  };
  struct Meter {
    float percent = 1.0f;
    sf::Color color = ColorValue::BLACK;
    Rectangle bar;
    void init(lel::Cell& cell);
    void render(lel::Cell& cell);
  };
  struct ActionData {
    std::any data;
  };
  struct CellName {
    string name;
  };
  struct Effect {
    float duration = 0.1f;
    string name{"ui_shader"};
    float $u_time_end = 0.0;
    bool $active = false;
    std::shared_ptr<sf::Clock> $clock = nullptr;
    std::shared_ptr<sf::Shader> $shader = nullptr;
    int $shader_version = 0;
    void init(lel::Cell &cell);
    void run();
    void stop();
    void step();
    shared_ptr<sf::Shader> checkout_ptr();
  };
  struct Sound {
    string on_click{"ui_click"};
    void play(bool hover);
    void stop(bool hover);
  };
  struct Background {
    float x = 0.0f;
    float y = 0.0f;
    float w = 0.0f;
    float h = 0.0f;
    sf::Color color = BG_COLOR;
    shared_ptr<sf::RectangleShape> shape = nullptr;
    Background(lel::Parser& parser, sf::Color bg_color=BG_COLOR) :
      x(parser.grid_x),
      y(parser.grid_y),
      w(parser.grid_w),
      h(parser.grid_h),
      color(bg_color)
    {}
    Background() {}
    void init();
  };
  class UI {
    public:
      Entity MAIN = 0;
      unsigned long entity_count = 1;
      std::unordered_map<std::type_index, EntityMap> $components;
      std::unordered_map<std::type_index, std::any> $component_storages;
      std::unordered_map<string, Entity> $name_ents;
      shared_ptr<sf::Font> $font = nullptr;
      lel::Parser $parser;
      string $grid = "";
      UI();
      void position(int x, int y, int width, int height);
      sf::Vector2f get_position();
      sf::Vector2f get_size();
      void layout(const string& grid);
      Entity init_entity(const string& name);
      Entity entity(const string& name);
      Entity entity(const string& name, int id);
      inline lel::CellMap& cells() {
        return $parser.cells;
      }
      void init();
      void render(sf::RenderWindow& window);
      bool mouse(float x, float y, bool hover);
      void click_on(const string& name, bool required=false);
      void click_on(Entity slot_id);
      void debug_layout(sf::RenderWindow& window);
      Entity entity() { return ++entity_count; }
      template <typename Comp>
        size_t make_component() {
          auto &storage = component_storage_for<Comp>();
          size_t index;
          if(!storage.free_indices.empty()) {
            index = storage.free_indices.front();
            storage.free_indices.pop();
          } else {
            storage.data.emplace_back();
            index = storage.data.size() - 1;
          }
          return index;
        }
      template <typename Comp>
        ComponentStorage<Comp> &component_storage_for() {
          auto type_index = std::type_index(typeid(Comp));
          $component_storages.try_emplace(type_index, ComponentStorage<Comp>{});
          return std::any_cast<ComponentStorage<Comp> &>(
              $component_storages.at(type_index));
        }
      template <typename Comp>
        EntityMap &entity_map_for() {
          return $components[std::type_index(typeid(Comp))];
        }
      template <typename Comp>
        void set(Entity ent, Comp val) {
          EntityMap &map = entity_map_for<Comp>();
          if(has<Comp>(ent)) {
            get<Comp>(ent) = val;
            return;
          }
          map.insert_or_assign(ent, make_component<Comp>());
          get<Comp>(ent) = val;
        }
      template <typename Comp>
        Comp& get(Entity ent) {
          EntityMap &map = entity_map_for<Comp>();
          auto &storage = component_storage_for<Comp>();
          auto index = map.at(ent);
          return storage.data[index];
        }
      template <typename Comp>
        Comp* get_if(Entity entity) {
          EntityMap &map = entity_map_for<Comp>();
          auto &storage = component_storage_for<Comp>();
          if(map.contains(entity)) {
            auto index = map.at(entity);
            return &storage.data[index];
          } else {
            return nullptr;
          }
        }
      template <typename Comp>
        bool has(Entity ent) {
          EntityMap &map = entity_map_for<Comp>();
          return map.contains(ent);
        }
      template <typename Comp>
        void remove(Entity ent) {
          EntityMap &map = entity_map_for<Comp>();
          if(map.contains(ent)) {
            size_t index = map.at(ent);
            component_storage_for<Comp>().free_indices.push(index);
          }
          map.erase(ent);
        }
      template <typename Comp>
        void query(std::function<void(Entity, Comp &)> cb) {
          EntityMap &map = entity_map_for<Comp>();
          for(auto &[entity, index] : map) {
            cb(entity, get<Comp>(entity));
          }
        }
      template <typename CompA, typename CompB>
        void query(std::function<void(Entity, CompA &, CompB &)> cb) {
          EntityMap &map_a = entity_map_for<CompA>();
          EntityMap &map_b = entity_map_for<CompB>();
          for(auto &[entity, index_a] : map_a) {
            if(map_b.contains(entity)) {
              cb(entity, get<CompA>(entity), get<CompB>(entity));
            }
          }
        }
      template <typename Comp>
        void set_init(Entity ent, Comp val) {
          dbc::check(has<lel::Cell>(ent),"WRONG! slot is missing its cell?!");
          auto& cell = get<lel::Cell>(ent);
          val.init(cell);
          set<Comp>(ent, val);
        }
      template <typename Comp>
        void do_if(Entity ent, std::function<void(Comp &)> cb) {
          if(has<Comp>(ent)) {
            cb(get<Comp>(ent));
          }
        }
      lel::Cell& cell_for(Entity ent) {
        return get<lel::Cell>(ent);
      }
      lel::Cell& cell_for(const string& name) {
        Entity ent = entity(name);
        return get<lel::Cell>(ent);
      }
      // BUG: close could just be remove with overload
      template <typename Comp>
        void close(string region) {
          auto ent = entity(region);
          if(has<Comp>(ent)) {
            remove<Comp>(ent);
          }
        }
      template<typename T>
        void render_helper(sf::RenderWindow& window, Entity ent, bool is_shape, T& target) {
          sf::Shader *shader_ptr = nullptr;
          if(auto shader = get_if<Effect>(ent)) {
            if(shader->$active && !is_shape) {
              auto ptr = shader->checkout_ptr();
              ptr->setUniform("is_shape", is_shape);
              // NOTE: this is needed because SFML doesn't handle shared_ptr
              shader_ptr = ptr.get();
            }
          }
          window.draw(*target, shader_ptr);
        }
      void show_sprite(const string& region, const string& sprite_name);
      void show_text(const string& region, const wstring& content);
      void show_label(const string& region, const wstring& content);
  };
 }
--- a/guecstra.cpp
+++ b/guecstra.cpp
@ -0,0 +1,18 @@
 #include "guecstra.hpp"
 namespace guecs {
  Clickable make_action(DinkyECS::World& target, Events::GUI event) {
    return {[&, event](auto ent, auto data){
      // remember that ent is passed in from the UI::mouse handler
      target.send<Events::GUI>(event, ent, data);
    }};
  }
  Clickable make_action(DinkyECS::World& target, Events::GUI event, std::any data) {
    return {[&, event, data](auto ent, auto){
      // remember that ent is passed in from the UI::mouse handler
      target.send<Events::GUI>(event, ent, data);
    }};
  }
 }
--- a/guecstra.hpp
+++ b/guecstra.hpp
@ -0,0 +1,7 @@
 #include "components.hpp"
 #include "guecs.hpp"
 namespace guecs {
  Clickable make_action(DinkyECS::World& target, Events::GUI event);
  Clickable make_action(DinkyECS::World& target, Events::GUI event, std::any data);
 }
--- a/lel.cpp
+++ b/lel.cpp
@ -0,0 +1,117 @@
 #include "lel.hpp"
 #include <fmt/core.h>
 #include "dbc.hpp"
 #include <numeric>
 #include "lel_parser.cpp"
 namespace lel {
  Parser::Parser(int x, int y, int width, int height) :
    grid_x(x),
    grid_y(y),
    grid_w(width),
    grid_h(height),
    cur(0, 0)
  {
  }
  Parser::Parser() : cur(0, 0) { }
  void Parser::position(int x, int y, int width, int height) {
    grid_x = x;
    grid_y = y;
    grid_w = width;
    grid_h = height;
  }
  void Parser::id(std::string name) {
    if(name != "_") {
      dbc::check(!cells.contains(name),
          fmt::format("duplicate cell name {}", name));
      cells.insert_or_assign(name, cur);
    }
    cur = {cur.col + 1, cur.row};
    auto& row = grid.back();
    row.push_back(name);
  }
  void Parser::finalize() {
    size_t rows = grid.size();
    int cell_height = grid_h / rows;
    for(auto& row : grid) {
      size_t columns = row.size();
      int cell_width = grid_w / columns;
      dbc::check(cell_width > 0, "invalid cell width calc");
      dbc::check(cell_height > 0, "invalid cell height calc");
      for(auto& name : row) {
        if(name == "_") continue;
        auto& cell = cells.at(name);
        // ZED: getting a bit hairy but this should work
        if(cell.percent) {
          // when percent mode we have to take unset to 100%
          if(cell.max_w == 0) cell.max_w = 100;
          if(cell.max_h == 0) cell.max_h = 100;
          cell.max_w *= cell_width * 0.01;
          cell.max_h *= cell_height * 0.01;
        } else {
          if(cell.max_w == 0) cell.max_w = cell_width;
          if(cell.max_h == 0) cell.max_h = cell_height;
        }
        cell.w = cell.expand ? std::min(cell.max_w, grid_w) : std::min(cell_width, cell.max_w);
        cell.h = cell.expand ? std::min(cell.max_h, grid_h) : std::min(cell_height, cell.max_h);
        dbc::check(cell.h > 0, fmt::format("invalid height cell {}", name));
        dbc::check(cell.w > 0, fmt::format("invalid width cell {}", name));
        cell.x = grid_x + (cell.col * cell_width);
        cell.y = grid_y + (cell.row * cell_height);
        // keep the midpoint since it is used a lot
        cell.mid_x = std::midpoint(cell.x, cell.x + cell.w);
        cell.mid_y = std::midpoint(cell.y, cell.y + cell.h);
        // perform alignments
        if(cell.right) cell.x += cell_width - cell.w;
        if(cell.bottom) cell.y += cell_height - cell.h;
        if(cell.center) {
          cell.x = cell.mid_x - cell.w / 2;
          cell.y = cell.mid_y - cell.h / 2;
        }
      }
    }
  }
  void Parser::reset() {
    cur = {0, 0};
    grid.clear();
    cells.clear();
  }
  std::optional<std::string> Parser::hit(int x, int y) {
    for(auto& [name, cell] : cells) {
      if((x >= cell.x && x <= cell.x + cell.w) &&
          (y >= cell.y && y <= cell.y + cell.h)) {
        return name;
      }
    }
    return std::nullopt;
  }
  Cell center(int width, int height, Cell &parent) {
    Cell copy = parent;
    copy.x = parent.mid_x - width / 2;
    copy.y = parent.mid_y - height / 2;
    copy.w = width;
    copy.h = height;
    return copy;
  }
 }
--- a/lel.hpp
+++ b/lel.hpp
@ -0,0 +1,54 @@
 #pragma once
 #include <string>
 #include <unordered_map>
 #include <optional>
 #include <vector>
 namespace lel {
  struct Cell {
    int x = 0;
    int y = 0;
    int w = 0;
    int h = 0;
    int mid_x = 0;
    int mid_y = 0;
    int max_w = 0;
    int max_h = 0;
    int col = 0;
    int row = 0;
    bool right = false;
    bool bottom = false;
    bool expand = false;
    bool center = false;
    bool percent = false;
    Cell(int col, int row) : col(col), row(row) {}
    Cell() {}
  };
  using Row = std::vector<std::string>;
  using CellMap = std::unordered_map<std::string, Cell>;
  struct Parser {
    int grid_x = 0;
    int grid_y = 0;
    int grid_w = 0;
    int grid_h = 0;
    Cell cur;
    std::vector<Row> grid;
    CellMap cells;
    Parser(int x, int y, int width, int height);
    Parser();
    void position(int x, int y, int width, int height);
    void id(std::string name);
    void reset();
    bool parse(std::string input);
    void finalize();
    std::optional<std::string> hit(int x, int y);
  };
  Cell center(int width, int height, Cell &parent);
 }
--- a/lel_parser.cpp
+++ b/lel_parser.cpp
@ -0,0 +1,261 @@
 #line 1 "lel_parser.rl"
 #include "lel.hpp"
 #include <fmt/core.h>
 #include <iostream>
 namespace lel {
 #line 40 "lel_parser.rl"
 #line 10 "lel_parser.cpp"
 static const char _Parser_actions[] = {
 	0, 1, 1, 1, 2, 1, 3, 1, 
 	4, 1, 5, 1, 6, 1, 9, 1, 
 	10, 1, 11, 1, 12, 1, 13, 2, 
 	0, 7, 2, 0, 8, 2, 4, 1, 
 	2, 4, 5
 };
 static const char _Parser_key_offsets[] = {
 	0, 0, 4, 20, 33, 35, 39, 41, 
 	44, 56, 61
 };
 static const char _Parser_trans_keys[] = {
 	32, 91, 9, 13, 32, 37, 40, 42, 
 	46, 61, 94, 95, 9, 13, 60, 62, 
 	65, 90, 97, 122, 37, 40, 42, 46, 
 	61, 94, 95, 60, 62, 65, 90, 97, 
 	122, 48, 57, 41, 44, 48, 57, 48, 
 	57, 41, 48, 57, 32, 93, 95, 124, 
 	9, 13, 48, 57, 65, 90, 97, 122, 
 	32, 93, 124, 9, 13, 32, 91, 9, 
 	13, 0
 };
 static const char _Parser_single_lengths[] = {
 	0, 2, 8, 7, 0, 2, 0, 1, 
 	4, 3, 2
 };
 static const char _Parser_range_lengths[] = {
 	0, 1, 4, 3, 1, 1, 1, 1, 
 	4, 1, 1
 };
 static const char _Parser_index_offsets[] = {
 	0, 0, 4, 17, 28, 30, 34, 36, 
 	39, 48, 53
 };
 static const char _Parser_indicies[] = {
 	0, 2, 0, 1, 3, 4, 5, 6, 
 	7, 9, 7, 10, 3, 8, 10, 10, 
 	1, 4, 5, 6, 7, 9, 7, 10, 
 	8, 10, 10, 1, 11, 1, 12, 13, 
 	14, 1, 15, 1, 16, 17, 1, 18, 
 	20, 19, 21, 18, 19, 19, 19, 1, 
 	22, 23, 24, 22, 1, 25, 2, 25, 
 	1, 0
 };
 static const char _Parser_trans_targs[] = {
 	1, 0, 2, 2, 3, 4, 3, 3, 
 	3, 3, 8, 5, 3, 6, 5, 7, 
 	3, 7, 9, 8, 10, 2, 9, 10, 
 	2, 10
 };
 static const char _Parser_trans_actions[] = {
 	0, 0, 3, 0, 17, 0, 13, 5, 
 	11, 15, 21, 19, 23, 23, 0, 19, 
 	26, 0, 7, 0, 32, 29, 0, 9, 
 	1, 0
 };
 static const int Parser_start = 1;
 static const int Parser_first_final = 10;
 static const int Parser_error = 0;
 static const int Parser_en_main = 1;
 #line 43 "lel_parser.rl"
 bool Parser::parse(std::string input) {
  reset();
  int cs = 0;
  const char *start = nullptr;
  const char *begin = input.data();
  const char *p = input.data();
  const char *pe = p + input.size();
  std::string tk;
 #line 91 "lel_parser.cpp"
 	{
 	cs = Parser_start;
 	}
 #line 54 "lel_parser.rl"
 #line 94 "lel_parser.cpp"
 	{
 	int _klen;
 	unsigned int _trans;
 	const char *_acts;
 	unsigned int _nacts;
 	const char *_keys;
 	if ( p == pe )
 		goto _test_eof;
 	if ( cs == 0 )
 		goto _out;
 _resume:
 	_keys = _Parser_trans_keys + _Parser_key_offsets[cs];
 	_trans = _Parser_index_offsets[cs];
 	_klen = _Parser_single_lengths[cs];
 	if ( _klen > 0 ) {
 		const char *_lower = _keys;
 		const char *_mid;
 		const char *_upper = _keys + _klen - 1;
 		while (1) {
 			if ( _upper < _lower )
 				break;
 			_mid = _lower + ((_upper-_lower) >> 1);
 			if ( (*p) < *_mid )
 				_upper = _mid - 1;
 			else if ( (*p) > *_mid )
 				_lower = _mid + 1;
 			else {
 				_trans += (unsigned int)(_mid - _keys);
 				goto _match;
 			}
 		}
 		_keys += _klen;
 		_trans += _klen;
 	}
 	_klen = _Parser_range_lengths[cs];
 	if ( _klen > 0 ) {
 		const char *_lower = _keys;
 		const char *_mid;
 		const char *_upper = _keys + (_klen<<1) - 2;
 		while (1) {
 			if ( _upper < _lower )
 				break;
 			_mid = _lower + (((_upper-_lower) >> 1) & ~1);
 			if ( (*p) < _mid[0] )
 				_upper = _mid - 2;
 			else if ( (*p) > _mid[1] )
 				_lower = _mid + 2;
 			else {
 				_trans += (unsigned int)((_mid - _keys)>>1);
 				goto _match;
 			}
 		}
 		_trans += _klen;
 	}
 _match:
 	_trans = _Parser_indicies[_trans];
 	cs = _Parser_trans_targs[_trans];
 	if ( _Parser_trans_actions[_trans] == 0 )
 		goto _again;
 	_acts = _Parser_actions + _Parser_trans_actions[_trans];
 	_nacts = (unsigned int) *_acts++;
 	while ( _nacts-- > 0 )
 	{
 		switch ( *_acts++ )
 		{
 	case 0:
 #line 11 "lel_parser.rl"
 	{tk = input.substr(start - begin, p - start); }
 	break;
 	case 1:
 #line 13 "lel_parser.rl"
 	{}
 	break;
 	case 2:
 #line 14 "lel_parser.rl"
 	{ grid.push_back(Row()); }
 	break;
 	case 3:
 #line 15 "lel_parser.rl"
 	{ cur.bottom = (*p) == '.'; }
 	break;
 	case 4:
 #line 16 "lel_parser.rl"
 	{ id(input.substr(start - begin, p - start)); }
 	break;
 	case 5:
 #line 17 "lel_parser.rl"
 	{ cur.col = 0; cur.row++; }
 	break;
 	case 6:
 #line 18 "lel_parser.rl"
 	{ cur.right = (*p) == '>'; }
 	break;
 	case 7:
 #line 19 "lel_parser.rl"
 	{cur.max_w = std::stoi(tk); }
 	break;
 	case 8:
 #line 20 "lel_parser.rl"
 	{ cur.max_h = std::stoi(tk); }
 	break;
 	case 9:
 #line 21 "lel_parser.rl"
 	{ cur.expand = true; }
 	break;
 	case 10:
 #line 22 "lel_parser.rl"
 	{ cur.center = true; }
 	break;
 	case 11:
 #line 23 "lel_parser.rl"
 	{ cur.percent = true; }
 	break;
 	case 12:
 #line 33 "lel_parser.rl"
 	{ start = p; }
 	break;
 	case 13:
 #line 36 "lel_parser.rl"
 	{start = p;}
 	break;
 #line 209 "lel_parser.cpp"
 		}
 	}
 _again:
 	if ( cs == 0 )
 		goto _out;
 	if ( ++p != pe )
 		goto _resume;
 	_test_eof: {}
 	_out: {}
 	}
 #line 55 "lel_parser.rl"
  bool good = pe - p == 0;
  if(good) {
    finalize();
  } else {
    dbc::log("error at:");
    std::cout << p;
  }
  return good;
 }
 }
--- a/lel_parser.rl
+++ b/lel_parser.rl
@ -0,0 +1,66 @@
 #include "lel.hpp"
 #include <fmt/core.h>
 #include <iostream>
 namespace lel {
 %%{
  machine Parser;
  alphtype char;
  action token {tk = input.substr(start - begin, fpc - start); }
  action col {}
  action ltab { grid.push_back(Row()); }
  action valign { cur.bottom = fc == '.'; }
  action id { id(input.substr(start - begin, fpc - start)); }
  action row { cur.col = 0; cur.row++; }
  action align { cur.right = fc == '>'; }
  action setwidth {cur.max_w = std::stoi(tk); }
  action setheight { cur.max_h = std::stoi(tk); }
  action expand { cur.expand = true; }
  action center { cur.center = true; }
  action percent { cur.percent = true; }
  col = "|" $col;
  ltab = "[" $ltab;
  rtab = "]" $row;
  valign = ("^" | ".") $valign;
  expand = "*" $expand;
  center = "=" $center;
  percent = "%" $percent;
  halign = ("<" | ">") $align;
  number =  digit+ >{ start = fpc; } %token;
  setw = ("(" number %setwidth ("," number %setheight)? ")") ;
  modifiers = (percent | center | expand | valign | halign | setw);
  id = modifiers* ((alpha | '_')+ :>> (alnum | '_')*) >{start = fpc;} %id;
  row = space* ltab space* id space* (col space* id space*)* space* rtab space*;
  main := row+;
 }%%
 %% write data;
 bool Parser::parse(std::string input) {
  reset();
  int cs = 0;
  const char *start = nullptr;
  const char *begin = input.data();
  const char *p = input.data();
  const char *pe = p + input.size();
  std::string tk;
  %% write init;
  %% write exec;
  bool good = pe - p == 0;
  if(good) {
    finalize();
  } else {
    dbc::log("error at:");
    std::cout << p;
  }
  return good;
 }
 }
--- a/meson.build
+++ b/meson.build
@ -0,0 +1,91 @@
 # clang might need _LIBCPP_ENABLE_CXX26_REMOVED_CODECVT
 project('lel-guecs', 'cpp',
  version: '0.1.0',
  default_options: [
    'cpp_std=c++20',
    'cpp_args=-D_GLIBCXX_DEBUG=1 -D_GLIBCXX_DEBUG_PEDANTIC=1',
  ])
 # use this for common options only for our executables
 cpp_args=[]
 link_args=[]
 # these are passed as override_defaults
 exe_defaults = [ 'warning_level=2' ]
 cc = meson.get_compiler('cpp')
 dependencies = []
 if build_machine.system() == 'windows'
  add_global_link_arguments(
    '-static-libgcc',
    '-static-libstdc++',
    '-static',
    language: 'cpp',
  )
  sfml_main = dependency('sfml_main')
  opengl32 = cc.find_library('opengl32', required: true)
  winmm = cc.find_library('winmm', required: true)
  gdi32 = cc.find_library('gdi32', required: true)
  dependencies += [
      opengl32, winmm, gdi32, sfml_main
  ]
  exe_defaults += ['werror=true']
 elif build_machine.system() == 'darwin'
  add_global_link_arguments(
    language: 'cpp',
  )
  opengl = dependency('OpenGL')
  corefoundation = dependency('CoreFoundation')
  carbon = dependency('Carbon')
  cocoa = dependency('Cocoa')
  iokit = dependency('IOKit')
  corevideo = dependency('CoreVideo')
  link_args += ['-ObjC']
  exe_defaults += ['werror=false']
  dependencies += [
    opengl, corefoundation, carbon, cocoa, iokit, corevideo
  ]
 endif
 catch2 = subproject('catch2').get_variable('catch2_with_main_dep')
 fmt = subproject('fmt').get_variable('fmt_dep')
 json = subproject('nlohmann_json').get_variable('nlohmann_json_dep')
 freetype2 = subproject('freetype2').get_variable('freetype_dep')
 flac = subproject('flac').get_variable('flac_dep')
 ogg = subproject('ogg').get_variable('libogg_dep')
 vorbis = subproject('vorbis').get_variable('vorbis_dep')
 vorbisfile = subproject('vorbis').get_variable('vorbisfile_dep')
 vorbisenc = subproject('vorbis').get_variable('vorbisenc_dep')
 sfml_audio = subproject('sfml').get_variable('sfml_audio_dep')
 sfml_graphics = subproject('sfml').get_variable('sfml_graphics_dep')
 sfml_network = subproject('sfml').get_variable('sfml_network_dep')
 sfml_system = subproject('sfml').get_variable('sfml_system_dep')
 sfml_window = subproject('sfml').get_variable('sfml_window_dep')
 dependencies += [
  fmt, json, freetype2,
  flac, ogg, vorbis, vorbisfile, vorbisenc,
  sfml_audio, sfml_graphics,
  sfml_network, sfml_system,
  sfml_window
 ]
 sources = [
  'dbc.cpp',
  'lel.cpp'
 ]
 executable('runtests', sources + [
  'tests/lel.cpp',
  ],
  cpp_args: cpp_args,
  link_args: link_args,
  override_options: exe_defaults,
  dependencies: dependencies + [catch2])
--- a/scripts/coverage_report.ps1
+++ b/scripts/coverage_report.ps1
@ -0,0 +1,13 @@
 rm -recurse -force coverage/*
 cp *.cpp,*.hpp,*.rl builddir
 . .venv/Scripts/activate
 rm -recurse -force coverage
 cp scripts\gcovr_patched_coverage.py .venv\Lib\site-packages\gcovr\coverage.py
 gcovr -o coverage/ --html --html-details  --html-theme github.dark-blue --gcov-ignore-errors all --gcov-ignore-parse-errors negative_hits.warn_once_per_file -e builddir/subprojects -e builddir -e subprojects -j 10 .
 rm *.gcov.json.gz
 start .\coverage\coverage_details.html
--- a/scripts/coverage_reset.ps1
+++ b/scripts/coverage_reset.ps1
@ -0,0 +1,7 @@
 mv .\subprojects\packagecache .
 rm -recurse -force .\subprojects\,.\builddir\
 mkdir subprojects
 mv .\packagecache .\subprojects\
 mkdir builddir
 cp wraps\*.wrap subprojects\
 meson setup --default-library=static --prefer-static -Db_coverage=true builddir
--- a/scripts/coverage_reset.sh
+++ b/scripts/coverage_reset.sh
@ -0,0 +1,11 @@
 #!/usr/bin/env bash
 set -e
 mv -f ./subprojects/packagecache .
 rm -rf subprojects builddir
 mkdir subprojects
 mv packagecache ./subprojects/
 mkdir builddir
 cp wraps/*.wrap subprojects/
 # on OSX you can't do this with static
 meson setup -Db_coverage=true builddir
--- a/scripts/gcovr_patched_coverage.py
+++ b/scripts/gcovr_patched_coverage.py
--- a/scripts/reset_build.ps1
+++ b/scripts/reset_build.ps1
@ -0,0 +1,7 @@
 mv .\subprojects\packagecache .
 rm -recurse -force .\subprojects\,.\builddir\
 mkdir subprojects
 mv .\packagecache .\subprojects\
 mkdir builddir
 cp wraps\*.wrap subprojects\
 meson setup --default-library=static --prefer-static  builddir
--- a/scripts/reset_build.sh
+++ b/scripts/reset_build.sh
@ -0,0 +1,10 @@
 #!/usr/bin/env bash
 mv -f ./subprojects/packagecache .
 rm -rf subprojects builddir
 mkdir subprojects
 mv -f packagecache ./subprojects/ && true
 mkdir builddir
 cp wraps/*.wrap subprojects/
 # on OSX you can't do this with static
 meson setup --default-library=static --prefer-static  builddir
--- a/scripts/win_installer.ifp
+++ b/scripts/win_installer.ifp
--- a/tests/guecs.cpp
+++ b/tests/guecs.cpp
@ -0,0 +1,32 @@
 #include <catch2/catch_test_macros.hpp>
 #include <fmt/core.h>
 #include "constants.hpp"
 #include "guecs.hpp"
 #include "textures.hpp"
 #include <fmt/xchar.h>
 using namespace guecs;
 TEST_CASE("prototype one gui", "[ecs-gui]") {
  guecs::UI gui;
  textures::init();
  gui.position(0, 0, 1000, 500);
  gui.layout("[test1|test2|test3][test4|_|test5]");
  for(auto& [name, cell] : gui.cells()) {
    auto button = gui.entity(name);
    gui.set<lel::Cell>(button, cell);
    gui.set<Rectangle>(button, {});
    gui.set<Clickable>(button, {});
    gui.set<Textual>(button, {L"whatever"});
  }
  gui.init();
  // at this point it's mostly ready but I'd need to render it to a window real quick
  sf::RenderWindow window;
  window.setSize({SCREEN_WIDTH, SCREEN_HEIGHT});
  gui.render(window);
  window.display();
 }
--- a/tests/lel.cpp
+++ b/tests/lel.cpp
@ -0,0 +1,52 @@
 #include "lel.hpp"
 #include <catch2/catch_test_macros.hpp>
 #include <fmt/core.h>
 #include <string>
 TEST_CASE("test basic ops", "[lel]") {
  lel::Parser parser(0, 0, 500, 500);
  bool good = parser.parse(
     "[ label_1         | label3      | test1]"
     "[ *(300,300)text1 | %(150)people | ^test2]"
     "[ >label2         | _           | .test3]"
     "[ =message        | buttons     | test4]");
  REQUIRE(good);
  for(size_t rowcount = 0; rowcount < parser.grid.size(); rowcount++) {
    auto& row = parser.grid[rowcount];
    for(size_t colcount = 0; colcount < row.size(); colcount++) {
      auto &name = row[colcount];
      if(name == "_") {
        REQUIRE(!parser.cells.contains(name));
      } else {
        auto &cell = parser.cells.at(name);
        REQUIRE(cell.row == int(rowcount));
        REQUIRE(cell.col == int(colcount));
      }
    }
  }
  REQUIRE(parser.cells.size() == 11);
  REQUIRE(parser.cells.at("label2").right == true);
  REQUIRE(parser.cells.at("text1").expand == true);
  REQUIRE(parser.cells.at("text1").w == 300);
  REQUIRE(parser.cells.at("text1").h == 300);
  REQUIRE(parser.cells.at("people").expand == false);
  REQUIRE(parser.cells.at("message").expand == false);
  REQUIRE(parser.cells.at("message").center == true);
  for(auto& [name, cell] : parser.cells) {
    REQUIRE(cell.w > 0);
    REQUIRE(cell.h > 0);
  }
  auto hit = parser.hit(10, 10);
  REQUIRE(*hit == "label_1");
  auto nohit = parser.hit(1000, 1000);
  REQUIRE(!nohit);
  REQUIRE(nohit == std::nullopt);
 }
--- a/wraps/catch2.wrap
+++ b/wraps/catch2.wrap
@ -0,0 +1,11 @@
 [wrap-file]
 directory = Catch2-3.7.1
 source_url = https://github.com/catchorg/Catch2/archive/v3.7.1.tar.gz
 source_filename = Catch2-3.7.1.tar.gz
 source_hash = c991b247a1a0d7bb9c39aa35faf0fe9e19764213f28ffba3109388e62ee0269c
 source_fallback_url = https://github.com/mesonbuild/wrapdb/releases/download/catch2_3.7.1-1/Catch2-3.7.1.tar.gz
 wrapdb_version = 3.7.1-1
 [provide]
 catch2 = catch2_dep
 catch2-with-main = catch2_with_main_dep
--- a/wraps/flac.wrap
+++ b/wraps/flac.wrap
@ -0,0 +1,13 @@
 [wrap-file]
 directory = flac-1.4.3
 source_url = https://github.com/xiph/flac/releases/download/1.4.3/flac-1.4.3.tar.xz
 source_filename = flac-1.4.3.tar.xz
 source_hash = 6c58e69cd22348f441b861092b825e591d0b822e106de6eb0ee4d05d27205b70
 patch_filename = flac_1.4.3-2_patch.zip
 patch_url = https://wrapdb.mesonbuild.com/v2/flac_1.4.3-2/get_patch
 patch_hash = 3eace1bd0769d3e0d4ff099960160766a5185d391c8f583293b087a1f96c2a9c
 source_fallback_url = https://github.com/mesonbuild/wrapdb/releases/download/flac_1.4.3-2/flac-1.4.3.tar.xz
 wrapdb_version = 1.4.3-2
 [provide]
 flac = flac_dep
--- a/wraps/fmt.wrap
+++ b/wraps/fmt.wrap
@ -0,0 +1,13 @@
 [wrap-file]
 directory = fmt-11.0.2
 source_url = https://github.com/fmtlib/fmt/archive/11.0.2.tar.gz
 source_filename = fmt-11.0.2.tar.gz
 source_hash = 6cb1e6d37bdcb756dbbe59be438790db409cdb4868c66e888d5df9f13f7c027f
 patch_filename = fmt_11.0.2-1_patch.zip
 patch_url = https://wrapdb.mesonbuild.com/v2/fmt_11.0.2-1/get_patch
 patch_hash = 90c9e3b8e8f29713d40ca949f6f93ad115d78d7fb921064112bc6179e6427c5e
 source_fallback_url = https://github.com/mesonbuild/wrapdb/releases/download/fmt_11.0.2-1/fmt-11.0.2.tar.gz
 wrapdb_version = 11.0.2-1
 [provide]
 fmt = fmt_dep
--- a/wraps/freetype2.wrap
+++ b/wraps/freetype2.wrap
@ -0,0 +1,11 @@
 [wrap-file]
 directory = freetype-2.13.3
 source_url = https://download.savannah.gnu.org/releases/freetype/freetype-2.13.3.tar.xz
 source_fallback_url = https://github.com/mesonbuild/wrapdb/releases/download/freetype2_2.13.3-1/freetype-2.13.3.tar.xz
 source_filename = freetype-2.13.3.tar.xz
 source_hash = 0550350666d427c74daeb85d5ac7bb353acba5f76956395995311a9c6f063289
 wrapdb_version = 2.13.3-1
 [provide]
 freetype2 = freetype_dep
 freetype = freetype_dep
--- a/wraps/libpng.wrap
+++ b/wraps/libpng.wrap
@ -0,0 +1,13 @@
 [wrap-file]
 directory = libpng-1.6.44
 source_url = https://github.com/glennrp/libpng/archive/v1.6.44.tar.gz
 source_filename = libpng-1.6.44.tar.gz
 source_hash = 0ef5b633d0c65f780c4fced27ff832998e71478c13b45dfb6e94f23a82f64f7c
 patch_filename = libpng_1.6.44-1_patch.zip
 patch_url = https://wrapdb.mesonbuild.com/v2/libpng_1.6.44-1/get_patch
 patch_hash = 394b07614c45fbd1beac8b660386216a490fe12f841a1a445799b676c9c892fb
 source_fallback_url = https://github.com/mesonbuild/wrapdb/releases/download/libpng_1.6.44-1/libpng-1.6.44.tar.gz
 wrapdb_version = 1.6.44-1
 [provide]
 libpng = libpng_dep
--- a/wraps/nlohmann_json.wrap
+++ b/wraps/nlohmann_json.wrap
@ -0,0 +1,11 @@
 [wrap-file]
 directory = nlohmann_json-3.11.3
 lead_directory_missing = true
 source_url = https://github.com/nlohmann/json/releases/download/v3.11.3/include.zip
 source_filename = nlohmann_json-3.11.3.zip
 source_hash = a22461d13119ac5c78f205d3df1db13403e58ce1bb1794edc9313677313f4a9d
 source_fallback_url = https://github.com/mesonbuild/wrapdb/releases/download/nlohmann_json_3.11.3-1/nlohmann_json-3.11.3.zip
 wrapdb_version = 3.11.3-1
 [provide]
 nlohmann_json = nlohmann_json_dep
--- a/wraps/ogg.wrap
+++ b/wraps/ogg.wrap
@ -0,0 +1,13 @@
 [wrap-file]
 directory = libogg-1.3.5
 source_url = https://downloads.xiph.org/releases/ogg/libogg-1.3.5.tar.xz
 source_filename = libogg-1.3.5.tar.xz
 source_hash = c4d91be36fc8e54deae7575241e03f4211eb102afb3fc0775fbbc1b740016705
 patch_filename = ogg_1.3.5-6_patch.zip
 patch_url = https://wrapdb.mesonbuild.com/v2/ogg_1.3.5-6/get_patch
 patch_hash = 8be6dcd5f93bbf9c0b9c8ec1fa29810226a60f846383074ca05b313a248e78b2
 source_fallback_url = https://github.com/mesonbuild/wrapdb/releases/download/ogg_1.3.5-6/libogg-1.3.5.tar.xz
 wrapdb_version = 1.3.5-6
 [provide]
 ogg = libogg_dep
--- a/wraps/sfml.wrap
+++ b/wraps/sfml.wrap
@ -0,0 +1,14 @@
 [wrap-git]
 directory=SFML-3.0.0
 url=https://github.com/SFML/SFML.git
 revision=3.0.0
 depth=1
 method=cmake
 [provide]
 sfml_audio = sfml_audio_dep
 sfml_graphics = sfml_graphics_dep
 sfml_main = sfml_main_dep
 sfml_network = sfml_network_dep
 sfml_system = sfml_system_dep
 sfml_window = sfml_window_dep
--- a/wraps/tracy.wrap
+++ b/wraps/tracy.wrap
@ -0,0 +1,7 @@
 [wrap-git]
 url=https://github.com/wolfpld/tracy.git
 revision=v0.11.1
 depth=1
 [provide]
 tracy = tracy_dep
--- a/wraps/vorbis.wrap
+++ b/wraps/vorbis.wrap
@ -0,0 +1,14 @@
 [wrap-file]
 directory = libvorbis-1.3.7
 source_url = https://downloads.xiph.org/releases/vorbis/libvorbis-1.3.7.tar.xz
 source_filename = libvorbis-1.3.7.tar.xz
 source_hash = b33cc4934322bcbf6efcbacf49e3ca01aadbea4114ec9589d1b1e9d20f72954b
 patch_filename = vorbis_1.3.7-4_patch.zip
 patch_url = https://wrapdb.mesonbuild.com/v2/vorbis_1.3.7-4/get_patch
 patch_hash = 979e22b24b16c927040700dfd8319cd6ba29bf52a14dbc66b1cb4ea60504f14a
 wrapdb_version = 1.3.7-4
 [provide]
 vorbis = vorbis_dep
 vorbisfile = vorbisfile_dep
 vorbisenc = vorbisenc_dep