#include "tile-atlas.hpp" #include "compat/assert.hpp" #include "tile-image.hpp" #include #include #include #include #include namespace floormat { tile_atlas::tile_atlas(StringView name, const ImageView2D& image, Vector2ub tile_count) : texcoords_{make_texcoords_array(Vector2ui(image.size()), tile_count)}, name_{name}, size_{image.size()}, dims_{tile_count} { constexpr auto variant_max = std::numeric_limits::max(); fm_assert(num_tiles() <= variant_max); fm_assert(dims_[0] > 0 && dims_[1] > 0); fm_assert(size_ % Vector2ui{tile_count} == Vector2ui()); tex_.setWrapping(GL::SamplerWrapping::ClampToEdge) .setMagnificationFilter(GL::SamplerFilter::Linear) .setMinificationFilter(GL::SamplerFilter::Linear) .setMaxAnisotropy(1) .setBorderColor(Color4{1, 0, 0, 1}) .setStorage(1, GL::textureFormat(image.format()), image.size()) .setSubImage(0, {}, image); } std::array tile_atlas::texcoords_for_id(std::size_t i) const { fm_assert(i < num_tiles()); return texcoords_[i]; } auto tile_atlas::make_texcoords(Vector2ui pixel_size, Vector2ub tile_count, std::size_t i) -> texcoords { const auto sz = pixel_size/Vector2ui{tile_count}; const Vector2ui id = { std::uint32_t(i % tile_count[0]), std::uint32_t(i / tile_count[0]) }; const Vector2 p0(id * sz), p1(sz); const auto x0 = p0.x(), x1 = p1.x()-1, y0 = p0.y(), y1 = p1.y()-1; return {{ { (x0+x1) / pixel_size[0], (y0+y1) / pixel_size[1] }, // bottom right { (x0+x1) / pixel_size[0], y0 / pixel_size[1] }, // top right { x0 / pixel_size[0], (y0+y1) / pixel_size[1] }, // bottom left { x0 / pixel_size[0], y0 / pixel_size[1] } // top left }}; } auto tile_atlas::make_texcoords_array(Vector2ui pixel_size, Vector2ub tile_count) -> std::unique_ptr { const std::size_t N = Vector2ui{tile_count}.product(); auto ptr = std::make_unique[]>(N); for (std::size_t i = 0; i < N; i++) ptr[i] = make_texcoords(pixel_size, tile_count, i); return ptr; } } // namespace floormat