#include "app.hpp" #include "src/world.hpp" #include "src/tile-atlas.hpp" #include "src/anim-atlas.hpp" #include "main/clickable.hpp" #include "floormat/events.hpp" #include "floormat/main.hpp" #include "character.hpp" namespace floormat { //#define FM_NO_BINDINGS void app::maybe_initialize_chunk_(const chunk_coords& pos, chunk& c) { (void)pos; (void)c; [[maybe_unused]] constexpr auto N = TILE_MAX_DIM; for (auto [x, k, pt] : c) { #if 1 const auto& atlas = _floor1; #else const auto& atlas = pt.x == N/2 || pt.y == N/2 ? _floor2 : _floor1; #endif x.ground() = { atlas, variant_t(k % atlas->num_tiles()) }; } #if 0 constexpr auto K = N/2; c[{K, K }].wall_north() = { _wall1, 0 }; c[{K, K }].wall_west() = { _wall2, 0 }; c[{K, K+1}].wall_north() = { _wall1, 0 }; c[{K+1, K }].wall_west() = { _wall2, 0 }; c[{K+3, K+1}].scenery() = { scenery::door, _door, rotation::N, }; c[{ 3, 4 }].scenery() = { scenery::generic, _table, rotation::W, }; c[{K, K+1}].scenery() = { scenery::generic, _control_panel, rotation::N, scenery::frame_t{0}, pass_mode::pass }; #endif c.mark_modified(); } void app::maybe_initialize_chunk([[maybe_unused]] const chunk_coords& pos, [[maybe_unused]] chunk& c) { //maybe_initialize_chunk_(pos, c); } void app::do_mouse_move(int mods) { if (cursor.tile && !cursor.in_imgui) _editor.on_mouse_move(M->world(), *cursor.tile, mods); } void app::do_mouse_up_down(std::uint8_t button, bool is_down, int mods) { auto& w = M->world(); update_cursor_tile(cursor.pixel); if (is_down && !cursor.in_imgui) _popup_target = {}; if (is_down && cursor.tile && !cursor.in_imgui) { switch (_editor.mode()) { default: break; case editor_mode::none: if (button == mouse_button_left) { if (auto* cl = find_clickable_scenery(*cursor.pixel)) return (void)cl->e->activate(cl->e->index()); } // TODO it should open on mouseup if still on the same item as on mousedown else if (button == mouse_button_right) if (auto* cl = find_clickable_scenery(*cursor.pixel)) { _pending_popup = true; _popup_target = { .e = cl->e, .target = popup_target_type::scenery, }; } break; case editor_mode::floor: case editor_mode::walls: case editor_mode::scenery: auto pos = *cursor.tile; switch (button) { case mouse_button_left: return _editor.on_click(w, pos, mods, editor::button::place); case mouse_button_middle: return _editor.on_click(w, pos, mods, editor::button::remove); case mouse_button_right: return _editor.clear_selection(); default: break; } break; } } _editor.on_release(); } void app::do_rotate(bool backward) { if (auto* ed = _editor.current_tile_editor()) ed->toggle_rotation(); else if (auto* ed = _editor.current_scenery_editor()) { if (ed->is_anything_selected()) backward ? ed->prev_rotation() : ed->next_rotation(); else if (auto* cl = find_clickable_scenery(*cursor.pixel)) { auto& e = *cl->e; auto r = backward ? e.atlas->prev_rotation_from(e.r) : e.atlas->next_rotation_from(e.r); e.rotate(e.index(), r); } } } void app::do_set_mode(editor_mode mode) { if (mode != _editor.mode()) kill_popups(true); _editor.set_mode(mode); } void app::do_escape() { if (auto* ed = _editor.current_scenery_editor()) ed->clear_selection(); if (auto* ed = _editor.current_tile_editor()) ed->clear_selection(); kill_popups(false); } void app::do_key(key k, int mods) { (void)mods; switch (k) { default: if (k >= key_NO_REPEAT) fm_warn("unhandled key: '%zu'", std::size_t(k)); return; case key_rotate_tile: return do_rotate(false); case key_mode_none: return do_set_mode(editor_mode::none); case key_mode_floor: return do_set_mode(editor_mode::floor); case key_mode_walls: return do_set_mode(editor_mode::walls); case key_mode_scenery: return do_set_mode(editor_mode::scenery); case key_render_collision_boxes: return void(_render_bboxes = !_render_bboxes); case key_render_clickables: return void(_render_clickables = !_render_clickables); case key_quicksave: return do_quicksave(); case key_quickload: return do_quickload(); case key_new_file: return do_new_file(); case key_escape: return do_escape(); case key_quit: return M->quit(0); } } void app::apply_commands(const key_set& keys) { using value_type = key_set::value_type; for (value_type i = key_MIN; i < key_NO_REPEAT; i++) if (const auto k = key(i); keys[k]) do_key(k, key_modifiers[i]); } void app::update_world(float dt) { auto& world = M->world(); auto [minx, maxx, miny, maxy] = M->get_draw_bounds(); minx--; miny--; maxx++; maxy++; for (std::int16_t y = miny; y <= maxy; y++) for (std::int16_t x = minx; x <= maxx; x++) { auto& c = world[chunk_coords{x, y}]; const auto& es = c.entities(); const auto size = es.size(); for (auto i = size-1; i != (std::size_t)-1; i--) { auto& e = *es[i]; e.update(i, dt); } } } void app::update_character([[maybe_unused]] float dt) { if (_character_id) { auto& w = M->world(); auto c = w.find_entity(_character_id); if (c) c->set_keys(keys[key_left], keys[key_right], keys[key_up], keys[key_down]); } } void app::set_cursor() { if (!cursor.in_imgui) { if ([[maybe_unused]] auto* cl = find_clickable_scenery(cursor.pixel)) M->set_cursor(std::uint32_t(Cursor::Hand)); else M->set_cursor(std::uint32_t(Cursor::Arrow)); } else set_cursor_from_imgui(); } void app::update(float dt) { apply_commands(keys); update_world(dt); do_camera(dt, keys, get_key_modifiers()); clear_non_repeated_keys(); update_character(dt); set_cursor(); M->world().maybe_collect(); } } // namespace floormat