The next little game in the series where I make a fancy rogue game.
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roguish/map.cpp

333 lines
8.0 KiB

#include "map.hpp"
#include "dbc.hpp"
#include <vector>
#include <array>
#include <fmt/core.h>
#include "rand.hpp"
#include <utility>
using std::vector, std::pair;
using namespace fmt;
void dump_map(const std::string &msg, Matrix &map) {
println("----------------- {}", msg);
for(auto row : map) {
for(auto col : row) {
print("{} ", col);
}
print("\n");
}
}
inline void add_neighbors(PointList &neighbors, Matrix &closed, size_t y, size_t x) {
size_t h = closed.size();
size_t w = closed[0].size();
vector<size_t> rows{y - 1, y, y + 1};
vector<size_t> cols{x - 1, x, x + 1};
for(size_t row : rows) {
for(size_t col : cols) {
if((0 <= row && row < h) &&
(0 <= col && col < w) &&
closed[row][col] == 0)
{
closed[row][col] = 1;
neighbors.push_back({.x=col, .y=row});
}
}
}
}
/**
* This will create an _inverted_ map that you
* can run make_rooms and generate on. It will
* NOT be valid until you actually run generate.
*/
Map::Map(size_t width, size_t height) : $limit(1000) {
$walls = Matrix(height, MatrixRow(width, INV_WALL));
$input_map = Matrix(height, MatrixRow(width, 1));
}
void Map::make_paths() {
size_t h = $input_map.size();
size_t w = $input_map[0].size();
// Initialize the new array with every pixel at limit distance
// NOTE: this is normally ones() * limit
int limit = $limit == 0 ? h * w : $limit;
Matrix new_arr = Matrix(h, MatrixRow(w, limit));
Matrix closed = $walls;
PointList starting_pixels;
PointList open_pixels;
// First pass: Add starting pixels and put them in closed
for(size_t counter = 0; counter < h * w; counter++) {
size_t x = counter % w;
size_t y = counter / w;
if($input_map[y][x] == 0) {
new_arr[y][x] = 0;
closed[y][x] = 1;
starting_pixels.push_back({.x=x,.y=y});
}
}
// Second pass: Add border to open
for(auto sp : starting_pixels) {
add_neighbors(open_pixels, closed, sp.y, sp.x);
}
// Third pass: Iterate filling in the open list
int counter = 1; // leave this here so it's available below
for(; counter < limit && !open_pixels.empty(); ++counter) {
PointList next_open;
for(auto sp : open_pixels) {
new_arr[sp.y][sp.x] = counter;
add_neighbors(next_open, closed, sp.y, sp.x);
}
open_pixels = next_open;
}
// Last pass: flood last pixels
for(auto sp : open_pixels) {
new_arr[sp.y][sp.x] = counter;
}
$paths = new_arr;
}
void Map::make_room(size_t origin_x, size_t origin_y, size_t w, size_t h) {
dbc::pre("x out of bounds", origin_x < width());
dbc::pre("y out of bounds", origin_y < height());
dbc::pre("w out of bounds", w <= width());
dbc::pre("h out of bounds", h <= height());
for(size_t y = origin_y; y < origin_y + h; ++y) {
dbc::check(y < $walls.size(), "y is out of bounds");
for(size_t x = origin_x; x < origin_x + w; ++x) {
dbc::check(x < $walls[y].size(), "x is out of bounds");
$walls[y][x] = INV_SPACE;
}
}
}
inline int make_split(Room &cur, bool horiz) {
size_t dimension = horiz ? cur.height : cur.width;
int min = dimension / 4;
int max = dimension - min;
return Random::uniform<int>(min, max);
}
void Map::partition_map(Room &cur, int depth) {
if(cur.width >= 5 && cur.width <= 10 &&
cur.height >= 5 && cur.height <= 10) {
$rooms.push_back(cur);
return;
}
bool horiz = cur.width > cur.height ? false : true;
int split = make_split(cur, horiz);
Room left = cur;
Room right = cur;
if(horiz) {
dbc::check(split > 0, "split is not > 0");
dbc::check(split < int(cur.height), "split is too big!");
left.height = size_t(split - 1);
right.y = cur.y + split;
right.height = size_t(cur.height - split);
} else {
dbc::check(split > 0, "split is not > 0");
dbc::check(split < int(cur.width), "split is too big!");
left.width = size_t(split-1);
right.x = cur.x + split,
right.width = size_t(cur.width - split);
}
if(depth > 0 && left.width > 5 && left.height > 5) {
partition_map(left, depth-1);
}
if(depth > 0 && right.width > 5 && right.height > 5) {
partition_map(right, depth-1);
}
}
void Map::place_rooms(Room &cur) {
for(auto &cur : $rooms) {
cur.x += 2;
cur.y += 2;
cur.width -= 4;
cur.height -= 4;
add_door(cur);
set_door(cur, INV_SPACE);
make_room(cur.x, cur.y, cur.width, cur.height);
}
}
bool Map::neighbors(Point &out, bool greater) {
std::array<Point, 4> dirs{{
{out.x,out.y-1},
{out.x+1,out.y},
{out.x,out.y+1},
{out.x-1,out.y}
}};
int zero_i = -1;
int cur = $paths[out.y][out.x];
// BUG: sometimes cur is in a wall so finding neighbors fails
for(int i = 0; i < 4; ++i) {
Point dir = dirs[i];
int diff = inmap(dir.x, dir.y) ? cur - $paths[dir.y][dir.x] : -1000;
if(diff == 1) {
out = {.x=dir.x, .y=dir.y};
return true;
} else if(diff == 0) {
zero_i = i;
}
}
if(zero_i != -1) {
out = {.x=dirs[zero_i].x, .y=dirs[zero_i].y};
return true;
} else {
return false;
}
}
bool Map::inmap(size_t x, size_t y) {
return x < width() && y < height();
}
void Map::set_door(Room &room, int value) {
$walls[room.entry.y][room.entry.x] = value;
$walls[room.exit.y][room.exit.x] = value;
}
void rand_side(Room &room, Point &door) {
int rand_x = Random::uniform<int>(0, room.width - 1);
int rand_y = Random::uniform<int>(0, room.height - 1);
switch(Random::uniform<int>(0,3)) {
case 0: // north
door.x = room.x + rand_x;
door.y = room.y-1;
break;
case 1: // south
door.x = room.x + rand_x;
door.y = room.y + room.height;
break;
case 2: // east
door.x = room.x + room.width;
door.y = room.y + rand_y;
break;
case 3: // west
door.x = room.x - 1;
door.y = room.y + rand_y;
break;
default:
dbc::sentinel("impossible side");
}
}
void Map::add_door(Room &room) {
rand_side(room, room.entry);
rand_side(room, room.exit);
}
bool Map::walk(Point &src, Point &target) {
// this sets the target for the path
dbc::check($input_map[target.y][target.x] == 0, "target point not set to 0");
$walls[src.y][src.x] = INV_WALL;
$walls[target.y][target.x] = INV_WALL;
// for the walk this needs to be walls since it's inverted?
dbc::check($walls[src.y][src.x] == INV_WALL,
"src room has a wall at exit door");
dbc::check($walls[target.y][target.x] == INV_WALL,
"target room has a wall at entry door");
make_paths();
bool found = false;
Point out{src.x, src.y};
int count = 0;
do {
$walls[out.y][out.x] = INV_SPACE;
found = neighbors(out, true);
if($paths[out.y][out.x] == 0) {
$walls[out.y][out.x] = INV_SPACE;
return true;
}
} while(found && out.x > 0 && out.y > 0 && ++count < 100);
return false;
}
void Map::set_target(const Point &at, int value) {
$input_map[at.y][at.x] = 0;
}
void Map::clear_target(const Point &at) {
$input_map[at.y][at.x] = 1;
}
Point Map::place_entity(size_t room_index) {
dbc::check(room_index < $rooms.size(), "room_index is out of bounds, not enough rooms");
Room &start = $rooms[room_index];
return {start.x+1, start.y+1};
}
void Map::generate() {
Room root{
.x = 0,
.y = 0,
.width = width(),
.height = height()
};
partition_map(root, 10);
place_rooms(root);
for(size_t i = 0; i < $rooms.size() - 1; i++) {
Room &src = $rooms[i];
Room &target = $rooms[i+1];
set_target(target.entry);
bool found = walk(src.exit, target.entry);
if(!found) {
println("ROOM NOT FOUND!");
}
clear_target(target.entry);
}
Room &src = $rooms.back();
Room &target = $rooms.front();
set_target(target.entry);
walk(src.exit, target.entry);
clear_target(target.entry);
for(size_t y = 0; y < height(); ++y) {
for(size_t x = 0; x < width(); ++x) {
$walls[y][x] = !$walls[y][x];
}
}
}
bool Map::iswall(size_t x, size_t y) {
return $walls[y][x] == WALL_VALUE;
}
void Map::dump() {
dump_map("PATHS", $paths);
dump_map("WALLS", $walls);
dump_map("INPUT", $input_map);
}