use integral_geometry::{GridIndex, Point, Rect, Size};
use land2d::Land2D;
use vec2d::Vec2D;
use super::{
camera::Camera,
gl::{
Buffer, InputElement, InputFormat, InputLayout, PipelineState, Shader, Texture2D,
TextureDataType, TextureFilter, TextureFormat, TextureInternalFormat, VariableBinding,
},
};
use std::num::NonZeroU32;
// TODO: temp
const VERTEX_SHADER: &'static str = r#"
#version 150
in vec2 Position;
in vec3 Uv;
out vec3 a_Uv;
//uniform Common {
uniform mat4 Projection;
//};
void main()
{
a_Uv = Uv;
gl_Position = Projection * vec4(Position, 0.0, 1.0);
}
"#;
const PIXEL_SHADER: &'static str = r#"
#version 150
in vec3 a_Uv;
uniform sampler2D Texture;
out vec4 Target;
void main()
{
Target = texture2D(Texture, a_Uv.xy);
}
"#;
pub struct MapTile {
// either index into GL texture array or emulated [Texture; N]
texture_index: u32,
width: u32,
height: u32,
}
#[repr(C)]
#[derive(Copy, Clone)]
pub struct TileVertex {
pos: [f32; 2],
// doesn't hurt to include another float, just in case..
uv: [f32; 3],
}
pub struct DrawTile {
texture_index: u32,
index_len: u32,
}
pub struct MapRenderer {
tiles: Vec<MapTile>,
textures: Vec<Texture2D>,
tile_vertex_buffer: Buffer,
tile_index_buffer: Buffer,
tile_vertices: Vec<TileVertex>,
tile_indices: Vec<u16>,
tile_draw_calls: Vec<DrawTile>,
index_offset: u16,
tile_shader: Shader,
tile_layout: InputLayout,
tile_size: Size,
num_tile_x: usize,
}
impl MapRenderer {
pub fn new(tile_size: Size) -> Self {
debug_assert!(tile_size.is_power_of_two());
let tile_shader = Shader::new(
VERTEX_SHADER,
Some(PIXEL_SHADER),
&[
VariableBinding::Attribute("Position", 0),
VariableBinding::Attribute("Uv", 1),
VariableBinding::Sampler("Texture", 0),
],
)
.unwrap();
let vertex_size = std::mem::size_of::<TileVertex>() as u32;
let tile_layout = InputLayout::new(vec![
// position
InputElement {
shader_slot: 0,
buffer_slot: 0,
format: InputFormat::Float(gl::FLOAT, false),
components: 2,
stride: vertex_size,
offset: 0,
},
// uv
InputElement {
shader_slot: 1,
buffer_slot: 0,
format: InputFormat::Float(gl::FLOAT, false),
components: 3,
stride: vertex_size,
offset: 8,
},
]);
MapRenderer {
tiles: Vec::new(),
textures: Vec::new(),
tile_vertex_buffer: Buffer::empty(gl::ARRAY_BUFFER, gl::DYNAMIC_DRAW),
tile_index_buffer: Buffer::empty(gl::ELEMENT_ARRAY_BUFFER, gl::DYNAMIC_DRAW),
tile_vertices: Vec::new(),
tile_indices: Vec::new(),
index_offset: 0,
tile_draw_calls: Vec::new(),
tile_shader,
tile_layout,
tile_size,
num_tile_x: 0,
}
}
pub fn init(&mut self, land: &Vec2D<u32>) {
// clear tiles, but keep our textures for potential re-use
self.tiles.clear();
let tw = self.tile_size.width;
let th = self.tile_size.height;
let lw = land.width();
let lh = land.height();
let num_tile_x = lw / tw;
let num_tile_y = lh / th;
self.num_tile_x = num_tile_x;
for y in 0..num_tile_y {
for x in 0..num_tile_x {
let idx = x + y * num_tile_x;
let (data, stride) = {
let bpp = 4;
let offset = x * tw * bpp + y * th * lw * bpp;
let data = unsafe { &land.as_bytes()[offset..] };
let stride = land.width();
(data, NonZeroU32::new(stride as u32))
};
let texture_index = if idx >= self.textures.len() {
let texture = Texture2D::with_data(
data,
stride,
self.tile_size,
TextureInternalFormat::Rgba8,
TextureFormat::Rgba,
TextureDataType::UnsignedByte,
TextureFilter::Nearest,
);
let texture_index = self.textures.len();
self.textures.push(texture);
texture_index
} else {
let texture_region = Rect::at_origin(self.tile_size);
self.textures[idx].update(
texture_region,
data,
stride,
TextureFormat::Rgba,
TextureDataType::UnsignedByte,
);
idx
};
let tile = MapTile {
texture_index: texture_index as u32,
// TODO: are there ever non-power of two textures?
width: self.tile_size.width as u32,
height: self.tile_size.height as u32,
};
self.tiles.push(tile);
}
}
}
pub fn update(&mut self, land: &Land2D<u32>, region: Rect) {}
pub fn render(&mut self, camera: &Camera) {
let viewport = camera.viewport();
self.tile_vertices.clear();
self.tile_indices.clear();
self.tile_draw_calls.clear();
self.index_offset = 0;
for (idx, tile) in self.tiles.iter().enumerate() {
let tile_x = idx % self.num_tile_x;
let tile_y = idx / self.num_tile_x;
let tile_w = self.tile_size.width;
let tile_h = self.tile_size.width;
let origin = Point::new((tile_x * tile_w) as i32, (tile_y * tile_h) as i32);
let tile_rect = Rect::from_size(origin, self.tile_size);
if viewport.intersects(&tile_rect) {
// lazy
//dbg!(origin);
let tile_x = origin.x as f32;
let tile_y = origin.y as f32;
let tile_w = tile_x + tile_w as f32;
let tile_h = tile_y + tile_h as f32;
let uv_depth = tile.texture_index as f32;
//dbg!(tile_x);
let tl = TileVertex {
pos: [tile_x, tile_y],
uv: [0f32, 0f32, uv_depth],
};
let bl = TileVertex {
pos: [tile_x, tile_h],
uv: [0f32, 1f32, uv_depth],
};
let br = TileVertex {
pos: [tile_w, tile_h],
uv: [1f32, 1f32, uv_depth],
};
let tr = TileVertex {
pos: [tile_w, tile_y],
uv: [1f32, 0f32, uv_depth],
};
self.tile_vertices.extend(&[tl, bl, br, tr]);
let i = self.index_offset;
self.tile_indices
.extend(&[i + 0, i + 1, i + 2, i + 2, i + 3, i + 0]);
self.index_offset += 4;
self.tile_draw_calls.push(DrawTile {
texture_index: tile.texture_index,
index_len: 6,
});
}
}
self.tile_vertex_buffer.write_typed(&self.tile_vertices);
self.tile_index_buffer.write_typed(&self.tile_indices);
let _g = self.tile_layout.bind(
&[(0, &self.tile_vertex_buffer)],
Some(&self.tile_index_buffer),
);
let projection = camera.projection();
self.tile_shader.bind();
self.tile_shader
.set_matrix("Projection", projection.as_ptr());
let _state = PipelineState::new().with_blend();
let mut draw_offset = 0;
for draw_call in &self.tile_draw_calls {
unsafe {
self.tile_shader
.bind_texture_2d(0, &self.textures[draw_call.texture_index as usize]);
gl::DrawElements(
gl::TRIANGLES,
draw_call.index_len as i32,
gl::UNSIGNED_SHORT,
draw_offset as *const _,
);
}
draw_offset += draw_call.index_len * 2;
}
}
}