Did a full code review to identify things to fix and either fixed them or noted BUG where I should come back.

main
Zed A. Shaw 1 week ago
parent ae43dad499
commit 9abb39a3bf
  1. 2
      config.hpp
  2. 2
      dinkyecs.hpp
  3. 10
      gui.cpp
  4. 12
      lights.cpp
  5. 4
      lights.hpp
  6. 3
      map.cpp
  7. 6
      pathing.cpp
  8. 12
      render.cpp
  9. 9
      save.cpp
  10. 6
      save.hpp
  11. 9
      status.txt
  12. 14
      systems.cpp
  13. 4
      tests/worldbuilder.cpp
  14. 12
      worldbuilder.cpp

@ -7,7 +7,7 @@ using namespace nlohmann;
struct Config { struct Config {
json $config; json $config;
std::string $src_path = "./config.json"; std::string $src_path;
Config(const std::string src_path); Config(const std::string src_path);

@ -78,7 +78,6 @@ namespace DinkyECS {
template <typename Comp> template <typename Comp>
bool has(Entity ent) { bool has(Entity ent) {
EntityMap &map = entity_map_for<Comp>(); EntityMap &map = entity_map_for<Comp>();
// use .at for bounds checking
return map.contains(ent); return map.contains(ent);
} }
@ -116,7 +115,6 @@ namespace DinkyECS {
EventQueue &queue = queue_map_for<Comp>(); EventQueue &queue = queue_map_for<Comp>();
Event evt = queue.front(); Event evt = queue.front();
queue.pop(); queue.pop();
// I could use tie here to auto extract the any
return evt; return evt;
} }

@ -179,6 +179,7 @@ bool GUI::handle_ui_events() {
while($renderer.poll_event(event)) { while($renderer.poll_event(event)) {
if(event.type == sf::Event::Closed) { if(event.type == sf::Event::Closed) {
// BUG: This should call a GUI::shutdown so I can do saves and stuff.
$renderer.close(); $renderer.close();
} else if(event.type == sf::Event::KeyPressed) { } else if(event.type == sf::Event::KeyPressed) {
@ -209,8 +210,11 @@ bool GUI::handle_ui_events() {
sf::Vector2i pos = MOUSE::getPosition($renderer.$window); sf::Vector2i pos = MOUSE::getPosition($renderer.$window);
Mouse mev; Mouse mev;
mev.button = Mouse::Button::Left, mev.button = Mouse::Button::Left,
mev.x=pos.x / $renderer.$ui_bounds.width; // this needs to be in...panel coordinates? // BUG: renderer should have a function that handles mouse coordinates
// BUG: optionally maybe have it in panel? Seems to work though.
mev.x=pos.x / $renderer.$ui_bounds.width;
mev.y=pos.y / $renderer.$ui_bounds.height; mev.y=pos.y / $renderer.$ui_bounds.height;
// BUG: maybe also handle mouse motion events?
$status_ui.$component->OnEvent(Event::Mouse("", mev)); $status_ui.$component->OnEvent(Event::Mouse("", mev));
} }
} }
@ -230,8 +234,8 @@ void GUI::run_systems() {
void GUI::shake() { void GUI::shake() {
for(int i = 0; i < 10; ++i) { for(int i = 0; i < 10; ++i) {
int x = Random::uniform<int>(-20,20); int x = Random::uniform<int>(-10,10);
int y = Random::uniform<int>(-20,20); int y = Random::uniform<int>(-10,10);
// add x/y back to draw screen // add x/y back to draw screen
$renderer.draw($map_view, x, y); $renderer.draw($map_view, x, y);
$renderer.display(); $renderer.display();

@ -15,7 +15,7 @@ namespace lighting {
for(size_t y = min.y; y <= max.y; ++y) { for(size_t y = min.y; y <= max.y; ++y) {
auto &light_row = $lightmap[y]; auto &light_row = $lightmap[y];
auto &path_row = $light.$paths[y]; auto &path_row = $paths.$paths[y];
for(size_t x = min.x; x <= max.x; ++x) { for(size_t x = min.x; x <= max.x; ++x) {
if(path_row[x] != UNPATH) { if(path_row[x] != UNPATH) {
@ -28,7 +28,7 @@ namespace lighting {
const int wall_light = source.strength + WALL_LIGHT_LEVEL; const int wall_light = source.strength + WALL_LIGHT_LEVEL;
for(auto point : has_light) { for(auto point : has_light) {
for(int j = -1;point.y+j >= 0 && j <= 1 && point.y+j < $height; j++) { for(int j = -1;point.y+j >= 0 && j <= 1 && point.y+j < $height; j++) {
auto &path_row = $light.$paths[point.y+j]; auto &path_row = $paths.$paths[point.y+j];
auto &light_row = $lightmap[point.y+j]; auto &light_row = $lightmap[point.y+j];
for(int i = -1; point.x+i >= 0 && i <= 1 && point.x+i < $width; i++) { for(int i = -1; point.x+i >= 0 && i <= 1 && point.x+i < $width; i++) {
@ -41,7 +41,7 @@ namespace lighting {
} }
int LightRender::light_level(int level, size_t x, size_t y) { int LightRender::light_level(int level, size_t x, size_t y) {
size_t at = level + $light.$paths[y][x]; size_t at = level + $paths.$paths[y][x];
int cur_level = $lightmap[y][x]; int cur_level = $lightmap[y][x];
int new_level = at < lighting::LEVELS.size() ? lighting::LEVELS[at] : lighting::MIN; int new_level = at < lighting::LEVELS.size() ? lighting::LEVELS[at] : lighting::MIN;
return cur_level < new_level ? new_level : cur_level; return cur_level < new_level ? new_level : cur_level;
@ -55,15 +55,15 @@ namespace lighting {
} }
void LightRender::clear_light_target(const Point &at) { void LightRender::clear_light_target(const Point &at) {
$light.clear_target(at); $paths.clear_target(at);
} }
void LightRender::set_light_target(const Point &at, int value) { void LightRender::set_light_target(const Point &at, int value) {
$light.set_target(at, value); $paths.set_target(at, value);
} }
void LightRender::path_light(Matrix &walls) { void LightRender::path_light(Matrix &walls) {
$light.compute_paths(walls); $paths.compute_paths(walls);
} }
void LightRender::light_box(LightSource source, Point from, Point &min_out, Point &max_out) { void LightRender::light_box(LightSource source, Point from, Point &min_out, Point &max_out) {

@ -36,14 +36,14 @@ namespace lighting {
size_t $width; size_t $width;
size_t $height; size_t $height;
Matrix $lightmap; Matrix $lightmap;
Pathing $light; Pathing $paths;
LightRender(size_t width, size_t height, int limit) : LightRender(size_t width, size_t height, int limit) :
$limit(limit), $limit(limit),
$width(width), $width(width),
$height(height), $height(height),
$lightmap(height, MatrixRow(width, 0)), $lightmap(height, MatrixRow(width, 0)),
$light(width, height, limit) $paths(width, height, limit)
{} {}
void reset_light(); void reset_light();

@ -66,6 +66,7 @@ Point Map::place_entity(size_t room_index) {
dbc::check(room_index < $rooms.size(), "room_index is out of bounds, not enough rooms"); dbc::check(room_index < $rooms.size(), "room_index is out of bounds, not enough rooms");
Room &start = $rooms[room_index]; Room &start = $rooms[room_index];
// BUG: this can place someone in a wall on accident, move them if they're stuck
return {start.x+1, start.y+1}; return {start.x+1, start.y+1};
} }
@ -142,12 +143,14 @@ bool Map::neighbors(Point &out, bool random) {
int cur = paths[out.y][out.x]; int cur = paths[out.y][out.x];
// pick a random start of directions // pick a random start of directions
// BUG: is uniform inclusive of the dir.size()?
int rand_start = Random::uniform<int>(0, dirs.size()); int rand_start = Random::uniform<int>(0, dirs.size());
// go through all possible directions // go through all possible directions
for(size_t i = 0; i < dirs.size(); i++) { for(size_t i = 0; i < dirs.size(); i++) {
// but start at the random start, effectively randomizing // but start at the random start, effectively randomizing
// which valid direction to go // which valid direction to go
// BUG: this might be wrong given the above ranom from 0-size
Point dir = dirs[(i + rand_start) % dirs.size()]; Point dir = dirs[(i + rand_start) % dirs.size()];
if(!inmap(dir.x, dir.y)) continue; //skip unpathable stuff if(!inmap(dir.x, dir.y)) continue; //skip unpathable stuff
int weight = cur - paths[dir.y][dir.x]; int weight = cur - paths[dir.y][dir.x];

@ -16,6 +16,7 @@ inline void add_neighbors(PointList &neighbors, Matrix &closed, size_t y, size_t
(0 <= col && col < w) && (0 <= col && col < w) &&
closed[row][col] == 0) closed[row][col] == 0)
{ {
// BUG: maybe value here?
closed[row][col] = 1; closed[row][col] = 1;
neighbors.push_back({.x=col, .y=row}); neighbors.push_back({.x=col, .y=row});
} }
@ -43,8 +44,8 @@ void Pathing::compute_paths(Matrix &walls) {
size_t y = counter / $width; size_t y = counter / $width;
if($input[y][x] == 0) { if($input[y][x] == 0) {
$paths[y][x] = 0; $paths[y][x] = 0;
closed[y][x] = 1; closed[y][x] = 1; // BUG: value here?
starting_pixels.push_back({.x=x,.y=y}); starting_pixels.push_back({x,y});
} }
} }
@ -71,6 +72,7 @@ void Pathing::compute_paths(Matrix &walls) {
} }
void Pathing::set_target(const Point &at, int value) { void Pathing::set_target(const Point &at, int value) {
// BUG: not using value here but it can be < 0 for deeper slopes
$input[at.y][at.x] = 0; $input[at.y][at.x] = 0;
} }

@ -6,6 +6,7 @@
#include "map.hpp" #include "map.hpp"
#include <iostream> #include <iostream>
#include "color.hpp" #include "color.hpp"
#if defined(_WIN64) || defined(_WIN32) #if defined(_WIN64) || defined(_WIN32)
#include <stdio.h> #include <stdio.h>
#include <fcntl.h> #include <fcntl.h>
@ -66,6 +67,7 @@ void SFMLRender::resize_grid(int new_size, Panel &panel_out) {
} }
inline void configure_tile(const sf::Sprite &sprite, sf::FloatRect &sp_bounds, sf::FloatRect bg_bounds, float &width_delta, float &height_delta) { inline void configure_tile(const sf::Sprite &sprite, sf::FloatRect &sp_bounds, sf::FloatRect bg_bounds, float &width_delta, float &height_delta) {
// BUG: I think I could create a struct that kept this info for all sprites loaded
// should look into caching all this instead of calcing it each time // should look into caching all this instead of calcing it each time
sp_bounds = sprite.getLocalBounds(); sp_bounds = sprite.getLocalBounds();
@ -75,7 +77,7 @@ inline void configure_tile(const sf::Sprite &sprite, sf::FloatRect &sp_bounds,
} }
void SFMLRender::render_grid(const std::wstring &text, sf::Color default_fg, sf::Color default_bg, float x, float y) { void SFMLRender::render_grid(const std::wstring &text, sf::Color default_fg, sf::Color default_bg, float x, float y) {
wchar_t last_tile = '#'; wchar_t last_tile = $config.bg_tile;
sf::FloatRect sp_bounds; sf::FloatRect sp_bounds;
float width_delta = 0; float width_delta = 0;
float height_delta = 0; float height_delta = 0;
@ -86,7 +88,7 @@ void SFMLRender::render_grid(const std::wstring &text, sf::Color default_fg, sf:
sf::Color cur_bg = default_bg; sf::Color cur_bg = default_bg;
// make a copy so we don't modify the cached one // make a copy so we don't modify the cached one
$ansi.parse(text, [&](sf::Color fg, sf::Color bg) { $ansi.parse(text, [&](auto fg, auto bg) {
cur_fg = fg; cur_fg = fg;
cur_bg = bg; cur_bg = bg;
}, },
@ -104,9 +106,9 @@ void SFMLRender::render_grid(const std::wstring &text, sf::Color default_fg, sf:
// only get a new sprite if the tile changed // only get a new sprite if the tile changed
if(last_tile != tile) { if(last_tile != tile) {
last_tile = tile; // update last tile seen
sprite = get_text_sprite(tile); sprite = get_text_sprite(tile);
configure_tile(sprite, sp_bounds, $bg_bounds, width_delta, height_delta); configure_tile(sprite, sp_bounds, $bg_bounds, width_delta, height_delta);
last_tile = tile; // update last tile seen
} }
sprite.setPosition({x+width_delta, y+height_delta}); sprite.setPosition({x+width_delta, y+height_delta});
@ -135,6 +137,7 @@ inline sf::FloatRect draw_chunk(sf::RenderWindow& window,
text.setPosition({x, y}); text.setPosition({x, y});
// get a base character for the cell size // get a base character for the cell size
sf::FloatRect bounds(x, y, ui_bounds.width * out.size(), ui_bounds.height); sf::FloatRect bounds(x, y, ui_bounds.width * out.size(), ui_bounds.height);
if(default_bg != bgcolor) { if(default_bg != bgcolor) {
sf::RectangleShape backing({bounds.width, bounds.height}); sf::RectangleShape backing({bounds.width, bounds.height});
backing.setFillColor(bgcolor); backing.setFillColor(bgcolor);
@ -157,7 +160,7 @@ void SFMLRender::render_text(const std::wstring &text, sf::Color default_fg, sf:
$ui_text.setFillColor(default_fg); $ui_text.setFillColor(default_fg);
$ansi.parse(text, $ansi.parse(text,
[&](sf::Color fg, sf::Color bg) { [&](auto fg, auto bg) {
if(out.size() > 0 ) { if(out.size() > 0 ) {
auto bounds = draw_chunk($window, auto bounds = draw_chunk($window,
$ui_bounds, $ui_text, $ui_bounds, $ui_text,
@ -232,6 +235,5 @@ void SFMLRender::init_terminal() {
_setmode(_fileno(stdout), _O_U16TEXT); _setmode(_fileno(stdout), _O_U16TEXT);
#endif #endif
// the parser only handles full color so force it
ftxui::Terminal::SetColorSupport(ftxui::Terminal::Color::TrueColor); ftxui::Terminal::SetColorSupport(ftxui::Terminal::Color::TrueColor);
} }

@ -21,8 +21,11 @@ void save::to_file(fs::path path, DinkyECS::World &world, Map &map) {
tser::BinaryArchive archive; tser::BinaryArchive archive;
save_data.facts.player = world.get_the<Player>(); save_data.facts.player = world.get_the<Player>();
save_data.map = MapData{map.$rooms, map.$walls, map.$limit}; save_data.map = MapData{
map.$limit, map.$width, map.$height,
map.$rooms, map.$walls};
// BUG: lights aren't saved/restored
extract<Position>(world, save_data.position); extract<Position>(world, save_data.position);
extract<Combat>(world, save_data.combat); extract<Combat>(world, save_data.combat);
extract<Motion>(world, save_data.motion); extract<Motion>(world, save_data.motion);
@ -71,8 +74,8 @@ void save::from_file(fs::path path, DinkyECS::World &world_out, Map &map_out) {
inject<Tile>(world_out, save_data.tile); inject<Tile>(world_out, save_data.tile);
inject<Inventory>(world_out, save_data.inventory); inject<Inventory>(world_out, save_data.inventory);
size_t width = save_data.map.walls[0].size(); size_t width = save_data.map.width;
size_t height = save_data.map.walls.size(); size_t height = save_data.map.height;
int limit = save_data.map.limit; int limit = save_data.map.limit;
Pathing paths(width, height, limit); Pathing paths(width, height, limit);

@ -11,11 +11,13 @@ namespace save {
namespace fs = std::filesystem; namespace fs = std::filesystem;
struct MapData { struct MapData {
int limit;
size_t width;
size_t height;
std::vector<Room> rooms; std::vector<Room> rooms;
Matrix walls; Matrix walls;
int limit;
DEFINE_SERIALIZABLE(MapData, rooms, walls); DEFINE_SERIALIZABLE(MapData, limit, width, height, rooms, walls);
}; };
struct Facts { struct Facts {

@ -6,6 +6,15 @@ TODAY'S GOAL:
* Lua integration * Lua integration
TODO: TODO:
* $limit is pointless, just use a constant.
* Pathing::compute_paths can take a starting level to implement lower directions, or possibly setting a value lower?
* Pathing::set_target isn't using value, but that implements the above.
https://www.roguebasin.com/index.php/Dijkstra_Maps_Visualized
* When fighting two enemies with lots of attacks it crashes because one dies and isn't there. Test by making enemies immortal.
* LightRender can just use the Dijkstra map paths to calculate light strenght from the point rather than doing the box thing.
* $paths.$paths is annoying.
* Format of pre/post in dbc isn't consistent with the rest of the lib but I also maybe don't need the function version?
* I can do headless windows in renderer for testing. * I can do headless windows in renderer for testing.
- renderer.$window.setVisible(false); - renderer.$window.setVisible(false);
* Think up an enemy system. * Think up an enemy system.

@ -25,6 +25,7 @@ void System::lighting(DinkyECS::World &world, Map &game_map, LightRender &light,
light.set_light_target(position.location); light.set_light_target(position.location);
}); });
// BUG: some light doesn't move, can I not path those?
light.path_light(game_map.walls()); light.path_light(game_map.walls());
world.query<Position, LightSource>([&](const auto &ent, auto &position, auto &lightsource) { world.query<Position, LightSource>([&](const auto &ent, auto &position, auto &lightsource) {
@ -44,6 +45,7 @@ void System::enemy_pathing(DinkyECS::World &world, Map &game_map, Player &player
if(ent != player.entity) { if(ent != player.entity) {
Point out = position.location; // copy Point out = position.location; // copy
if(game_map.distance(out) < config.HEARING_DISTANCE) { if(game_map.distance(out) < config.HEARING_DISTANCE) {
// BUG: is neighbors really the best name for this?
game_map.neighbors(out); game_map.neighbors(out);
motion = { int(out.x - position.location.x), int(out.y - position.location.y)}; motion = { int(out.x - position.location.x), int(out.y - position.location.y)};
} }
@ -55,6 +57,8 @@ void System::enemy_pathing(DinkyECS::World &world, Map &game_map, Player &player
void System::init_positions(DinkyECS::World &world) { void System::init_positions(DinkyECS::World &world) {
auto &collider = world.get_the<spatial_map>(); auto &collider = world.get_the<spatial_map>();
// BUG: instead of separate things maybe just one
// BUG: Collision component that references what is collide
world.query<Position, Combat>([&](const auto &ent, auto &pos, auto &combat) { world.query<Position, Combat>([&](const auto &ent, auto &pos, auto &combat) {
if(!combat.dead) { if(!combat.dead) {
collider.insert(pos.location, ent); collider.insert(pos.location, ent);
@ -95,6 +99,10 @@ void System::motion(DinkyECS::World &world, Map &game_map) {
} }
void System::death(DinkyECS::World &world) { void System::death(DinkyECS::World &world) {
// BUG: this is where entities can die on top of
// BUG: eachother and overlap their corpse
// BUG: maybe that can be allowed and looting just shows
// BUG: all dead things there?
auto &collider = world.get_the<spatial_map>(); auto &collider = world.get_the<spatial_map>();
world.query<Position, Combat>([&](const auto &ent, auto &position, auto &combat) { world.query<Position, Combat>([&](const auto &ent, auto &position, auto &combat) {
@ -119,7 +127,6 @@ void System::collision(DinkyECS::World &world, Player &player) {
auto [found, nearby] = collider.neighbors(player_position.location); auto [found, nearby] = collider.neighbors(player_position.location);
if(found) { if(found) {
for(auto entity : nearby) { for(auto entity : nearby) {
if(world.has<Combat>(entity)) { if(world.has<Combat>(entity)) {
auto& enemy_combat = world.get<Combat>(entity); auto& enemy_combat = world.get<Combat>(entity);
@ -134,6 +141,7 @@ void System::collision(DinkyECS::World &world, Player &player) {
auto loot = world.get<Loot>(entity); auto loot = world.get<Loot>(entity);
auto &loot_pos = world.get<Position>(entity); auto &loot_pos = world.get<Position>(entity);
auto &inventory = world.get<Inventory>(player.entity); auto &inventory = world.get<Inventory>(player.entity);
// BUG: this should go away and be a part of inventory
auto &light = world.get<LightSource>(player.entity); auto &light = world.get<LightSource>(player.entity);
world.send<Events::GUI>(Events::GUI::LOOT, entity, loot); world.send<Events::GUI>(Events::GUI::LOOT, entity, loot);
@ -148,7 +156,9 @@ void System::collision(DinkyECS::World &world, Player &player) {
} }
} }
// BUG: this is kind of massive, need to maybe rethink how systems are designed. I mean...can each system be a callable class instead?
void System::draw_entities(DinkyECS::World &world, Map &game_map, const Matrix &lighting, ftxui::Canvas &canvas, const Point &cam_orig, size_t view_x, size_t view_y) { void System::draw_entities(DinkyECS::World &world, Map &game_map, const Matrix &lighting, ftxui::Canvas &canvas, const Point &cam_orig, size_t view_x, size_t view_y) {
world.query<Position, Tile>([&](const auto &ent, auto &pos, auto &tile) { world.query<Position, Tile>([&](const auto &ent, auto &pos, auto &tile) {
if(pos.location.x >= cam_orig.x && pos.location.x <= cam_orig.x + view_x if(pos.location.x >= cam_orig.x && pos.location.x <= cam_orig.x + view_x
&& pos.location.y >= cam_orig.y && pos.location.y <= cam_orig.y + view_y) { && pos.location.y >= cam_orig.y && pos.location.y <= cam_orig.y + view_y) {
@ -156,6 +166,8 @@ void System::draw_entities(DinkyECS::World &world, Map &game_map, const Matrix &
int light_value = lighting[pos.location.y][pos.location.x]; int light_value = lighting[pos.location.y][pos.location.x];
// BUG: foreground color needs to come from entity and background color from the surface they're on
// the 2 and 4 are from ftxui::Canvas since it does a kind of "subpixel" drawing // the 2 and 4 are from ftxui::Canvas since it does a kind of "subpixel" drawing
canvas.DrawText(loc.x*2, loc.y*4, tile.chr, [light_value](auto &pixel) { canvas.DrawText(loc.x*2, loc.y*4, tile.chr, [light_value](auto &pixel) {
pixel.foreground_color = Color::HSV(255, 200, light_value + 20); pixel.foreground_color = Color::HSV(255, 200, light_value + 20);

@ -13,7 +13,6 @@ TEST_CASE("bsp algo test", "[builder]") {
Map map(20, 20); Map map(20, 20);
WorldBuilder builder(map); WorldBuilder builder(map);
builder.generate(); builder.generate();
REQUIRE(map.$rooms.size() >= 2);
} }
TEST_CASE("dumping and debugging", "[builder]") { TEST_CASE("dumping and debugging", "[builder]") {
@ -21,8 +20,6 @@ TEST_CASE("dumping and debugging", "[builder]") {
WorldBuilder builder(map); WorldBuilder builder(map);
builder.generate(); builder.generate();
REQUIRE(map.$rooms.size() >= 2);
dump_map("GENERATED", map.paths()); dump_map("GENERATED", map.paths());
map.dump(); map.dump();
} }
@ -31,7 +28,6 @@ TEST_CASE("pathing", "[builder]") {
Map map(20, 20); Map map(20, 20);
WorldBuilder builder(map); WorldBuilder builder(map);
builder.generate(); builder.generate();
REQUIRE(map.$rooms.size() >= 2);
REQUIRE(map.can_move({0,0}) == false); REQUIRE(map.can_move({0,0}) == false);
REQUIRE(map.iswall(0,0) == true); REQUIRE(map.iswall(0,0) == true);

@ -6,6 +6,7 @@ using namespace fmt;
inline int make_split(Room &cur, bool horiz) { inline int make_split(Room &cur, bool horiz) {
size_t dimension = horiz ? cur.height : cur.width; size_t dimension = horiz ? cur.height : cur.width;
// BUG: this might be better as a configurable 4 number
int min = dimension / 4; int min = dimension / 4;
int max = dimension - min; int max = dimension - min;
@ -77,11 +78,13 @@ void WorldBuilder::partition_map(Room &cur, int depth) {
right.width = size_t(cur.width - split); right.width = size_t(cur.width - split);
} }
// BUG: min room size should be configurable
if(depth > 0 && left.width > 2 && left.height > 2) { if(depth > 0 && left.width > 2 && left.height > 2) {
left.depth = depth - 1; left.depth = depth - 1;
partition_map(left, depth-1); partition_map(left, depth-1);
} }
// BUG: min room size should be configurable
if(depth > 0 && right.width > 2 && right.height > 2) { if(depth > 0 && right.width > 2 && right.height > 2) {
right.depth = depth - 1; right.depth = depth - 1;
partition_map(right, depth-1); partition_map(right, depth-1);
@ -104,6 +107,7 @@ void WorldBuilder::tunnel_doors(PointList &holes, Room &src, Room &target) {
} }
void WorldBuilder::generate() { void WorldBuilder::generate() {
PointList holes;
Room root{ Room root{
.x = 0, .x = 0,
.y = 0, .y = 0,
@ -111,13 +115,11 @@ void WorldBuilder::generate() {
.height = $map.$height .height = $map.$height
}; };
// BUG: depth should be configurable
partition_map(root, 10); partition_map(root, 10);
$map.INVARIANT();
place_rooms(); place_rooms();
PointList holes;
for(size_t i = 0; i < $map.$rooms.size() - 1; i++) { for(size_t i = 0; i < $map.$rooms.size() - 1; i++) {
tunnel_doors(holes, $map.$rooms[i], $map.$rooms[i+1]); tunnel_doors(holes, $map.$rooms[i], $map.$rooms[i+1]);
} }
@ -159,6 +161,8 @@ void WorldBuilder::place_rooms() {
cur.width -= 4; cur.width -= 4;
cur.height -= 4; cur.height -= 4;
// BUG: should I do this each time I connect rooms
// BUG: rather than once when the room is created?
add_door(cur); add_door(cur);
make_room(cur.x, cur.y, cur.width, cur.height); make_room(cur.x, cur.y, cur.width, cur.height);
} }
@ -166,6 +170,8 @@ void WorldBuilder::place_rooms() {
bool WorldBuilder::dig_tunnel(PointList &holes, Point &src, Point &target) { bool WorldBuilder::dig_tunnel(PointList &holes, Point &src, Point &target) {
Matrix &paths = $map.paths(); Matrix &paths = $map.paths();
// BUG: limit should be a constant since it never changes
int limit = $map.limit(); int limit = $map.limit();
dbc::check(paths[src.y][src.x] != limit, dbc::check(paths[src.y][src.x] != limit,

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