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#include "common.hpp"
#include <sstream>
namespace world {
sector_index_t sector_index_at(v2f_t x)
{
return sector_index_t((x / SECTOR_SIZE).floor());
}
tile_index_t tile_index_at(v2f_t x)
{
return sector_index_t(x.floor());
}
world_t::world_t(void)
{
prng.seed(125);
perlin.generate(&prng, 32);
}
// FIXME: rename
static cflags_t tiles[256] = {0};
void register_tile(uint8_t type, cflags_t cflags)
{
tiles[type] = cflags;
}
void world_t::generate(sector_t *sector, sector_index_t index, bool partial)
{
sector->index = index;
sector->bounds.v[0] = (v2f_t)index * SECTOR_SIZE;
sector->bounds.v[1] = sector->bounds.v[0] + v2f_t(SECTOR_SIZE, SECTOR_SIZE);
for (coord_t ly = 0; ly < SECTOR_SIZE; ly++)
for (coord_t lx = 0; lx < SECTOR_SIZE; lx++) {
tile_t *tile = sector->tiles + ly * SECTOR_SIZE + lx;
tile_index_t tile_index(index[0] * SECTOR_SIZE + lx,
index[1] * SECTOR_SIZE + ly);
generator(tile, tile_index, &perlin);
}
sector->empty = false;
if (partial)
return;
for (coord_t ly = 0; ly < SECTOR_SIZE; ly++)
for (coord_t lx = 0; lx < SECTOR_SIZE; lx++) {
tile_t *tile;
tile = sector->tiles + ly * SECTOR_SIZE + lx;
tile->neighbors = 0;
for (size_t i = 0; i < 8; i++) {
tile_index_t neighbor_index;
tile_t *neighbor;
neighbor_index = index * SECTOR_SIZE + tile_index_t(lx, ly) + neighbor_offsets[i];
neighbor = get_tile(neighbor_index, true);
if (neighbor->type == tile->type)
tile->neighbors |= (1 << i);
}
}
}
bool world_t::find_path(v2f_t src, v2f_t dst, cmodel_t *cmodel, entity_t *ignore,
std::list<v2f_t> *path)
{
path_finder_t finder;
rectf_t bounds;
v2f_t cmodel_dims;
finder.setup_nodes(src, dst, cmodel->cflags);
cmodel_dims = cmodel->bounds.dims();
for (size_t y = 0; y < finder.height; y++)
for (size_t x = 0; x < finder.width; x++) {
tile_index_t index;
rectf_t combined;
index = finder.base + tile_index_t(x, y);
if (!(tiles[get_tile(index)->type] & cmodel->cflags))
continue;
combined[0] = v2f_t(index) - cmodel_dims / 2;
combined[1] = v2f_t(index) + v2f_t(1.0f, 1.0f) + cmodel_dims / 2;
finder.eliminate_nodes(combined);
}
bounds = finder.bounds;
bounds[0] -= cmodel_dims / 2;
bounds[1] += cmodel_dims / 2;
for (entity_t *ent : get_entities(bounds, cmodel->cflags)) {
v2f_t center;
v2f_t combined_dims;
rectf_t combined;
if (ent == ignore)
continue;
center = ent->cmodel.bounds.center();
combined_dims = ent->cmodel.bounds.dims() + cmodel_dims;
combined[0] = center - combined_dims / 2;
combined[1] = center + combined_dims / 2;
finder.eliminate_nodes(combined);
}
if (!finder.find())
return false;
finder.export_path(path);
return true;
}
sector_t *world_t::get_sector(sector_index_t index, bool partial)
{
sector_t *sector;
sector = §ors[index];
if (sector->empty)
generate(sector, index, partial);
return sector;
}
tile_t *world_t::get_tile(tile_index_t index, bool partial)
{
sector_index_t sector_index;
sector_t *sector;
int64_t tx, ty;
sector_index[0] = divide_rmi(index[0], (int64_t)SECTOR_SIZE, &tx);
sector_index[1] = divide_rmi(index[1], (int64_t)SECTOR_SIZE, &ty);
sector = get_sector(sector_index, partial);
return sector->tiles + ty * SECTOR_SIZE + tx;
}
std::list<sector_t*> world_t::get_sectors(rectf_t rect)
{
sector_index_t base, upper;
std::list<sector_t*> list;
base = sector_index_at(rect.v[0]);
upper = sector_index_at(rect.v[1]);
for (int64_t y = base[1]; y <= upper[1]; y++)
for (int64_t x = base[0]; x <= upper[0]; x++) {
sector_index_t index(x, y);
list.push_back(get_sector(index));
}
return list;
}
std::list<entity_t*> world_t::get_entities(rectf_t rect, cflags_t cflags)
{
static size_t cookie = 0;
std::list<entity_t*> list;
cookie++;
for (sector_t *sector : get_sectors(rect))
for (entity_t *ent : sector->ents) {
if (ent->cookie == cookie)
continue;
ent->cookie = cookie;
if (!(ent->cmodel.cflags & cflags))
continue;
if (!(rect && ent->cmodel.bounds))
continue;
list.push_back(ent);
}
return list;
}
std::list<entity_t*> world_t::get_render_entities(rectf_t rect)
{
static size_t cookie = 0;
std::list<entity_t*> list;
cookie++;
for (sector_t *sector : get_sectors(rect))
for (entity_t *ent : sector->ents) {
if (ent->cookie == cookie)
continue;
if (!(rect && ent->render_bounds))
continue;
ent->cookie = cookie;
list.push_back(ent);
}
return list;
}
bool world_t::test_rect(const cmodel_t *cmodel, const entity_t *ignore)
{
static size_t cookie = 0;
cookie++;
for (sector_t *sector : get_sectors(cmodel->bounds)) {
rect_t<coord_t, 2> bounds;
tile_index_t index;
bounds[0] = (cmodel->bounds[0] - sector->bounds[0]).floor();
bounds[1] = (cmodel->bounds[1] - sector->bounds[0]).floor();
if (bounds[0][0] < 0)
bounds[0][0] = 0;
if (bounds[0][1] < 0)
bounds[0][1] = 0;
if (bounds[1][0] >= (coord_t)SECTOR_SIZE)
bounds[1][0] = SECTOR_SIZE - 1;
if (bounds[1][1] >= (coord_t)SECTOR_SIZE)
bounds[1][1] = SECTOR_SIZE - 1;
for (index[1] = bounds[0][1]; index[1] <= bounds[1][1]; index[1]++)
for (index[0] = bounds[0][0]; index[0] <= bounds[1][0]; index[0]++) {
tile_t *tile;
tile = sector->tiles + index[1] * SECTOR_SIZE + index[0];
if (tiles[tile->type] & cmodel->cflags)
return true;
}
for (entity_t *ent : sector->ents) {
if (ent == ignore)
continue;
if (ent->cookie == cookie)
continue;
ent->cookie = cookie;
if (!(ent->cmodel.cflags & cmodel->cflags))
continue;
if (!(cmodel->bounds && ent->cmodel.bounds))
continue;
return true;
}
}
return false;
}
static const v2f_t transforms[4] = {
{+1, +1}, {-1, +1}, {-1, -1}, {+1, -1}
};
static const tile_index_t transforms_index[4] = {
{+1, +1}, {-1, +1}, {-1, -1}, {+1, -1}
};
static const tile_index_t offsets_index[4] = {
{0, 0}, {-1, 0}, {-1, -1}, {0, -1}
};
static inline size_t quadrant(v2f_t dx)
{
if (dx[0] == 0.0f && dx[1] == 0.0f)
return 4;
if (dx[1] >= 0.0f) {
if (dx[0] >= 0.0f)
return 0;
else
return 1;
} else {
if (dx[0] >= 0.0f)
return 3;
else
return 2;
}
}
trace_t world_t::trace(v2f_t start, v2f_t end, cflags_t cflags)
{
v2f_t x, dx;
size_t quad;
trace_t res;
dx = end - start;
quad = quadrant(dx);
if (quad == 4) {
res.hit = false;
res.end = end;
res.frac = 1.0f;
return res;
}
start ^= transforms[quad];
dx ^= transforms[quad];
end ^= transforms[quad];
x = start;
while (1) {
v2f_t mod, P;
tile_index_t index;
if (x[0] >= end[0] && x[1] >= end[1]) {
res.hit = false;
res.end = end ^ transforms[quad];
res.frac = 1.0f;
return res;
}
index = (tile_index_t(x.floor()) ^ transforms_index[quad]) +
offsets_index[quad];
//rectf_t tile(index, (v2f_t)index + v2f_t(1, 1));
if (get_tile(index, false)->type > cflags) { // FIXME
//debug_render->render_hlrect(tile, sf::Color::Red);
res.hit = true;
res.end = x ^ transforms[quad];
res.frac = (x - start).len() / (end - start).len();
return res;
}
mod = x - x.floor();
//debug_render->render_hlrect(tile, sf::Color::Green);
// Project onto x = const.
P[0] = 1.0f - mod[0];
P[1] = P[0] / dx[0] * dx[1];
if (mod[1] + P[1] >= 0.0f && mod[1] + P[1] <= 1.0f)
{
x += P;
x[0] = std::round(x[0]);
continue;
}
// Project onto y = const.
P[1] = 1.0f - mod[1];
P[0] = P[1] / dx[1] * dx[0];
x += P;
x[1] = std::round(x[1]);
}
}
trace_t trace_cmodel(v2f_t start, v2f_t end, const cmodel_t *cmodel)
{
// TODO
return {0};
}
void world_t::debug_point(sf::Vector2f point)
{
sector_index_t index = sector_index_at(point);
printf("sector (%zd, %zd)\n", index[0], index[1]);
}
entity_t::entity_t(int type_)
{
type = type_;
}
void entity_t::link_to_sector(sector_t *sector)
{
parents.push_back(sector);
sector->ents.insert(this);
}
void entity_t::link(world_t *world)
{
rectf_t total_bounds;
float fx, fy;
sector_index_t base;
float xlip, ylip;
size_t xsecs, ysecs;
total_bounds = cmodel.bounds | render_bounds;
fx = floor(total_bounds[0][0]);
fy = floor(total_bounds[0][1]);
base = sector_index_at(v2f_t(fx, fy));
xlip = total_bounds[1][0] - (base[0] + 1) * SECTOR_SIZE;
ylip = total_bounds[1][1] - (base[1] + 1) * SECTOR_SIZE;
if (xlip > 0.0f)
xsecs = ceil(xlip / SECTOR_SIZE) + 1;
else
xsecs = 1;
if (ylip > 0.0f)
ysecs = ceil(ylip / SECTOR_SIZE) + 1;
else
ysecs = 1;
for (int64_t y = 0; y < (int64_t)ysecs; y++)
for (int64_t x = 0; x < (int64_t)xsecs; x++) {
sector_index_t index = base + sector_index_t(x, y);
sector_t *sector;
sector = world->get_sector(index);
link_to_sector(sector);
}
}
void entity_t::unlink(void)
{
for (sector_t *sector : parents) {
if (sector->ents.find(this) == sector->ents.end()) {
printf("entity_t::unlink: %p should belong to %p (%" PRIi64", %" PRIi64") but it doesn't\n",
this, sector, sector->index[0], sector->index[1]);
continue;
}
sector->ents.erase(sector->ents.find(this));
}
parents.clear();
parent_world = nullptr;
}
} // namespace world
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