use crate::render::{
atlas::{AtlasCollection, SpriteIndex, SpriteLocation},
camera::Camera,
gl::{
Buffer, BufferType, BufferUsage, InputElement, InputFormat, InputLayout, PipelineState,
Shader, Texture2D, TextureDataType, TextureFilter, TextureFormat, TextureInternalFormat,
VariableBinding,
},
};
use integral_geometry::{Rect, Size};
use png::{ColorType, Decoder, DecodingError};
use std::{
collections::HashMap,
ffi::OsString,
fs::{read_dir, File},
io,
io::BufReader,
mem::size_of,
path::{Path, PathBuf},
};
const VERTEX_SHADER: &'static str = r#"
#version 330 core
uniform mat4 projection;
layout(location = 0) in vec2 position;
layout(location = 1) in vec2 texCoords;
out vec2 varTexCoords;
void main() {
varTexCoords = texCoords;
gl_Position = projection * vec4(position, 0.0, 1.0);
}
"#;
const PIXEL_SHADER: &'static str = r#"
#version 330 core
uniform sampler2D texture;
in vec2 varTexCoords;
out vec4 outColor;
void main() {
outColor = texture2D(texture, varTexCoords);
}
"#;
#[repr(C)]
#[derive(Copy, Clone)]
struct Vertex {
position: [f32; 2],
tex_coords: [f32; 2],
}
#[derive(PartialEq, Debug, Clone, Copy)]
pub enum SpriteId {
Mine = 0,
Grenade,
MaxSprite,
}
const SPRITE_LOAD_LIST: &[(SpriteId, &str)] = &[
(
SpriteId::Mine,
"../../share/hedgewars/Data/Graphics/MineOn.png",
),
(
SpriteId::Grenade,
"../../share/hedgewars/Data/Graphics/Bomb.png",
),
];
const MAX_SPRITES: usize = SpriteId::MaxSprite as usize + 1;
pub struct GearEntry {
position: [f32; 2],
size: Size,
}
impl GearEntry {
pub fn new(x: f32, y: f32, size: Size) -> Self {
Self {
position: [x, y],
size,
}
}
}
pub struct GearRenderer {
atlas: AtlasCollection,
texture: Texture2D,
allocation: Box<[SpriteLocation; MAX_SPRITES]>,
shader: Shader,
layout: InputLayout,
vertex_buffer: Buffer,
}
struct SpriteData {
size: Size,
filename: PathBuf,
}
const ATLAS_SIZE: Size = Size::square(2048);
impl GearRenderer {
pub fn new() -> Self {
let mut atlas = AtlasCollection::new(ATLAS_SIZE);
let texture = Texture2D::new(
ATLAS_SIZE,
TextureInternalFormat::Rgba8,
TextureFilter::Linear,
);
let mut allocation = Box::new([(0, Rect::at_origin(Size::EMPTY)); MAX_SPRITES]);
for (sprite, file) in SPRITE_LOAD_LIST {
let path = Path::new(file);
let size = load_sprite_size(path).expect(&format!("Unable to open {}", file));
let index = atlas
.insert_sprite(size)
.expect(&format!("Could not store sprite {:?}", sprite));
let (texture_index, rect) = atlas.get_rect(index).unwrap();
let mut pixels = vec![255u8; size.area() * 4].into_boxed_slice();
load_sprite_pixels(path, &mut pixels).expect("Unable to load Graphics");
texture.update(
rect,
&pixels,
None,
TextureFormat::Rgba,
TextureDataType::UnsignedByte,
);
allocation[*sprite as usize] = (texture_index, rect);
}
let shader = Shader::new(
VERTEX_SHADER,
Some(PIXEL_SHADER),
&[VariableBinding::Sampler("texture", 0)],
)
.unwrap();
let layout = InputLayout::new(vec![
InputElement {
shader_slot: 0,
buffer_slot: 0,
format: InputFormat::Float(gl::FLOAT, false),
components: 2,
stride: size_of::<Vertex>() as u32,
offset: 0,
},
InputElement {
shader_slot: 1,
buffer_slot: 0,
format: InputFormat::Float(gl::FLOAT, false),
components: 2,
stride: size_of::<Vertex>() as u32,
offset: size_of::<[f32; 2]>() as u32,
},
]);
let vertex_buffer = Buffer::empty(BufferType::Array, BufferUsage::DynamicDraw);
Self {
atlas,
texture,
allocation,
shader,
layout,
vertex_buffer,
}
}
pub fn render(&mut self, camera: &Camera, entries: &[GearEntry]) {
let mut data = Vec::with_capacity(entries.len() * 6);
for entry in entries {
let v = [
Vertex {
position: [
entry.position[0] - entry.size.width as f32 / 2.0,
entry.position[1] + entry.size.height as f32 / 2.0,
],
tex_coords: [0.0, 0.015625],
},
Vertex {
position: [
entry.position[0] + entry.size.width as f32 / 2.0,
entry.position[1] + entry.size.height as f32 / 2.0,
],
tex_coords: [0.015625, 0.015625],
},
Vertex {
position: [
entry.position[0] - entry.size.width as f32 / 2.0,
entry.position[1] - entry.size.height as f32 / 2.0,
],
tex_coords: [0.0, 0.0],
},
Vertex {
position: [
entry.position[0] + entry.size.width as f32 / 2.0,
entry.position[1] - entry.size.height as f32 / 2.0,
],
tex_coords: [0.015625, 0.0],
},
];
data.extend_from_slice(&[v[0], v[1], v[2], v[1], v[3], v[2]]);
}
let projection = camera.projection();
self.shader.bind();
self.shader.set_matrix("projection", projection.as_ptr());
self.shader.bind_texture_2d(0, &self.texture);
self.vertex_buffer.write_typed(&data);
let _buffer_bind = self.layout.bind(&[(0, &self.vertex_buffer)], None);
let _state = PipelineState::new().with_blend();
unsafe {
gl::DrawArrays(gl::TRIANGLES, 0, entries.len() as i32 * 6);
}
}
}
fn load_sprite_pixels(path: &Path, buffer: &mut [u8]) -> io::Result<Size> {
let decoder = Decoder::new(BufReader::new(File::open(path)?));
let (info, mut reader) = decoder.read_info()?;
let size = Size::new(info.width as usize, info.height as usize);
reader.next_frame(buffer)?;
Ok(size)
}
fn load_sprite_size(path: &Path) -> io::Result<Size> {
let decoder = Decoder::new(BufReader::new(File::open(path)?));
let (info, mut reader) = decoder.read_info()?;
let size = Size::new(info.width as usize, info.height as usize);
Ok(size)
}
fn load_sprites(path: &Path) -> io::Result<Vec<SpriteData>> {
let mut result = vec![];
for file in read_dir(path)? {
let file = file?;
if let Some(extension) = file.path().extension() {
if extension == "png" {
let path = file.path();
let sprite = load_sprite_size(&path)?;
result.push(SpriteData {
size: sprite,
filename: path,
});
}
}
}
Ok(result)
}