bevy/crates/bevy_sprite/src/dynamic_texture_atlas_builder.rs

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use crate::{Rect, TextureAtlas};
use bevy_asset::Assets;
use bevy_math::Vec2;
2020-07-17 00:23:50 +00:00
use bevy_render::texture::Texture;
use guillotiere::{size2, Allocation, AtlasAllocator};
pub struct DynamicTextureAtlasBuilder {
pub atlas_allocator: AtlasAllocator,
pub padding: i32,
}
impl DynamicTextureAtlasBuilder {
pub fn new(size: Vec2, padding: i32) -> Self {
Self {
atlas_allocator: AtlasAllocator::new(to_size2(size)),
padding,
}
}
pub fn add_texture(
&mut self,
texture_atlas: &mut TextureAtlas,
textures: &mut Assets<Texture>,
texture: &Texture,
) -> Option<u32> {
let allocation = self.atlas_allocator.allocate(size2(
texture.size.x as i32 + self.padding,
texture.size.y as i32 + self.padding,
));
if let Some(allocation) = allocation {
let atlas_texture = textures.get_mut(&texture_atlas.texture).unwrap();
self.place_texture(atlas_texture, allocation, texture);
let mut rect: Rect = allocation.rectangle.into();
rect.max.x -= self.padding as f32;
rect.max.y -= self.padding as f32;
texture_atlas.add_texture(rect);
Some((texture_atlas.len() - 1) as u32)
} else {
None
}
}
// fn resize(
// &mut self,
// texture_atlas: &mut TextureAtlas,
// textures: &mut Assets<Texture>,
// size: Vec2,
// ) {
// let new_size2 = to_size2(new_size);
// self.atlas_texture = Texture::new_fill(new_size, &[0,0,0,0]);
// let change_list = self.atlas_allocator.resize_and_rearrange(new_size2);
// for change in change_list.changes {
// if let Some(changed_texture_handle) = self.allocation_textures.remove(&change.old.id) {
// let changed_texture = textures.get(&changed_texture_handle).unwrap();
// self.place_texture(change.new, changed_texture_handle, changed_texture);
// }
// }
// for failure in change_list.failures {
// let failed_texture = self.allocation_textures.remove(&failure.id).unwrap();
// queued_textures.push(failed_texture);
// }
// }
fn place_texture(
&mut self,
atlas_texture: &mut Texture,
allocation: Allocation,
texture: &Texture,
) {
let mut rect = allocation.rectangle;
rect.max.x -= self.padding;
rect.max.y -= self.padding;
let atlas_width = atlas_texture.size.x as usize;
let rect_width = rect.width() as usize;
let format_size = atlas_texture.format.pixel_size();
for (texture_y, bound_y) in (rect.min.y..rect.max.y).map(|i| i as usize).enumerate() {
let begin = (bound_y * atlas_width + rect.min.x as usize) * format_size;
let end = begin + rect_width * format_size;
let texture_begin = texture_y * rect_width * format_size;
let texture_end = texture_begin + rect_width * format_size;
atlas_texture.data[begin..end]
.copy_from_slice(&texture.data[texture_begin..texture_end]);
}
}
}
impl From<guillotiere::Rectangle> for Rect {
fn from(rectangle: guillotiere::Rectangle) -> Self {
Rect {
min: Vec2::new(rectangle.min.x as f32, rectangle.min.y as f32),
max: Vec2::new(rectangle.max.x as f32, rectangle.max.y as f32),
}
}
}
fn to_size2(vec2: Vec2) -> guillotiere::Size {
guillotiere::Size::new(vec2.x as i32, vec2.y as i32)
}