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#include "chunk.hpp"
#include "tile-atlas.hpp"
#include "shaders/shader.hpp"
#include "compat/defs.hpp"
#include <algorithm>
#include <Corrade/Containers/ArrayViewStl.h>
#include <Magnum/GL/Buffer.h>
namespace floormat {
template<size_t N = 1>
static auto make_index_array(size_t max)
{
std::array<std::array<UnsignedShort, 6>, N*TILE_COUNT> array; // NOLINT(cppcoreguidelines-pro-type-member-init)
for (auto i = 0uz; i < max; i++)
array[i] = tile_atlas::indices(i);
return array;
}
void chunk::ensure_alloc_ground()
{
if (!_ground) [[unlikely]]
_ground = Pointer<ground_stuff>{InPlaceInit};
}
void chunk::ensure_alloc_walls()
{
if (!_walls) [[unlikely]]
_walls = Pointer<wall_stuff>{InPlaceInit};
}
auto chunk::ensure_ground_mesh() noexcept -> ground_mesh_tuple
{
if (!_ground)
return { ground_mesh, {}, 0 };
if (!_ground_modified)
return { ground_mesh, _ground->ground_indexes, size_t(ground_mesh.count()/6) };
_ground_modified = false;
size_t count = 0;
for (auto i = 0uz; i < TILE_COUNT; i++)
if (_ground->_ground_atlases[i])
_ground->ground_indexes[count++] = uint8_t(i);
std::sort(_ground->ground_indexes.begin(), _ground->ground_indexes.begin() + count,
[this](uint8_t a, uint8_t b) {
return _ground->_ground_atlases[a] < _ground->_ground_atlases[b];
});
float hack_offset = _coord.z <= 0 ? -16 : 0;
std::array<std::array<vertex, 4>, TILE_COUNT> vertexes;
for (auto k = 0uz; k < count; k++)
{
const uint8_t i = _ground->ground_indexes[k];
const auto& atlas = _ground->_ground_atlases[i];
const local_coords pos{i};
const auto quad = atlas->floor_quad(Vector3(pos) * TILE_SIZE, TILE_SIZE2);
const auto texcoords = atlas->texcoords_for_id(_ground->_ground_variants[i]);
const float depth = tile_shader::depth_value(pos, tile_shader::ground_depth_offset + hack_offset);
auto& v = vertexes[k];
for (auto j = 0uz; j < 4; j++)
v[j] = { quad[j], texcoords[j], depth };
}
const auto indexes = make_index_array(count);
const auto vertex_view = ArrayView{vertexes.data(), count};
const auto vert_index_view = ArrayView{indexes.data(), count};
GL::Mesh mesh{GL::MeshPrimitive::Triangles};
mesh.addVertexBuffer(GL::Buffer{vertex_view}, 0, tile_shader::Position{}, tile_shader::TextureCoordinates{}, tile_shader::Depth{})
.setIndexBuffer(GL::Buffer{vert_index_view}, 0, GL::MeshIndexType::UnsignedShort)
.setCount(int32_t(6 * count));
ground_mesh = Utility::move(mesh);
return { ground_mesh, _ground->ground_indexes, count };
}
fm_noinline
GL::Mesh chunk::make_wall_mesh(size_t count)
{
fm_debug_assert(_walls);
//std::array<std::array<vertex, 4>, TILE_COUNT*2> vertexes;
vertex vertexes[TILE_COUNT*2][4];
for (auto k = 0uz; k < count; k++)
{
const uint16_t i = _walls->wall_indexes[k];
const auto& atlas = _walls->_wall_atlases[i];
const auto& variant = _walls->_wall_variants[i];
const local_coords pos{i / 2u};
const auto center = Vector3(pos) * TILE_SIZE;
const auto quad = i & 1 ? atlas->wall_quad_W(center, TILE_SIZE) : atlas->wall_quad_N(center, TILE_SIZE);
const float depth = tile_shader::depth_value(pos, tile_shader::wall_depth_offset);
const auto texcoords = atlas->texcoords_for_id(variant);
auto& v = vertexes[k];
for (auto j = 0uz; j < 4; j++)
v[j] = { quad[j], texcoords[j], depth, };
}
auto indexes = make_index_array<2>(count);
const auto vertex_view = ArrayView{&vertexes[0], count};
const auto vert_index_view = ArrayView{indexes.data(), count};
GL::Mesh mesh{GL::MeshPrimitive::Triangles};
mesh.addVertexBuffer(GL::Buffer{vertex_view}, 0, tile_shader::Position{}, tile_shader::TextureCoordinates{}, tile_shader::Depth{})
.setIndexBuffer(GL::Buffer{vert_index_view}, 0, GL::MeshIndexType::UnsignedShort)
.setCount(int32_t(6 * count));
return mesh;
}
auto chunk::ensure_wall_mesh() noexcept -> wall_mesh_tuple
{
if (!_walls)
return {wall_mesh, {}, 0};
if (!_walls_modified)
return { wall_mesh, _walls->wall_indexes, size_t(wall_mesh.count()/6) };
_walls_modified = false;
size_t count = 0;
for (auto i = 0uz; i < TILE_COUNT*2; i++)
if (_walls->_wall_atlases[i])
_walls->wall_indexes[count++] = uint16_t(i);
std::sort(_walls->wall_indexes.data(), _walls->wall_indexes.data() + (ptrdiff_t)count,
[this](uint16_t a, uint16_t b) {
return _walls->_wall_atlases[a] < _walls->_wall_atlases[b];
});
wall_mesh = make_wall_mesh(count);
return { wall_mesh, _walls->wall_indexes, count };
}
} // namespace floormat
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