246 lines
6.9 KiB
Rust
246 lines
6.9 KiB
Rust
use crate::program::{self, Shader};
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use crate::Transformation;
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use glow::HasContext;
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use iced_graphics::layer;
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use iced_native::Rectangle;
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const MAX_INSTANCES: usize = 100_000;
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#[derive(Debug)]
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pub struct Pipeline {
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program: <glow::Context as HasContext>::Program,
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vertex_array: <glow::Context as HasContext>::VertexArray,
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instances: <glow::Context as HasContext>::Buffer,
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transform_location: <glow::Context as HasContext>::UniformLocation,
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scale_location: <glow::Context as HasContext>::UniformLocation,
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screen_height_location: <glow::Context as HasContext>::UniformLocation,
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current_transform: Transformation,
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current_scale: f32,
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current_target_height: u32,
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}
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impl Pipeline {
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pub fn new(
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gl: &glow::Context,
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shader_version: &program::Version,
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) -> Pipeline {
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let program = unsafe {
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let vertex_shader = Shader::vertex(
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gl,
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shader_version,
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include_str!("../shader/core/quad.vert"),
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);
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let fragment_shader = Shader::fragment(
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gl,
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shader_version,
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include_str!("../shader/core/quad.frag"),
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);
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program::create(
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gl,
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&[vertex_shader, fragment_shader],
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&[
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(0, "i_Pos"),
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(1, "i_Scale"),
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(2, "i_Color"),
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(3, "i_BorderColor"),
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(4, "i_BorderRadius"),
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(5, "i_BorderWidth"),
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],
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)
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};
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let transform_location =
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unsafe { gl.get_uniform_location(program, "u_Transform") }
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.expect("Get transform location");
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let scale_location =
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unsafe { gl.get_uniform_location(program, "u_Scale") }
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.expect("Get scale location");
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let screen_height_location =
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unsafe { gl.get_uniform_location(program, "u_ScreenHeight") }
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.expect("Get target height location");
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unsafe {
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gl.use_program(Some(program));
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let matrix: [f32; 16] = Transformation::identity().into();
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gl.uniform_matrix_4_f32_slice(
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Some(&transform_location),
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false,
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&matrix,
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);
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gl.uniform_1_f32(Some(&scale_location), 1.0);
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gl.uniform_1_f32(Some(&screen_height_location), 0.0);
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gl.use_program(None);
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}
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let (vertex_array, instances) =
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unsafe { create_instance_buffer(gl, MAX_INSTANCES) };
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Pipeline {
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program,
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vertex_array,
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instances,
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transform_location,
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scale_location,
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screen_height_location,
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current_transform: Transformation::identity(),
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current_scale: 1.0,
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current_target_height: 0,
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}
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}
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pub fn draw(
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&mut self,
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gl: &glow::Context,
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target_height: u32,
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instances: &[layer::Quad],
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transformation: Transformation,
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scale: f32,
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bounds: Rectangle<u32>,
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) {
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unsafe {
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gl.enable(glow::SCISSOR_TEST);
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gl.scissor(
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bounds.x as i32,
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(target_height - (bounds.y + bounds.height)) as i32,
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bounds.width as i32,
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bounds.height as i32,
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);
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gl.use_program(Some(self.program));
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gl.bind_vertex_array(Some(self.vertex_array));
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gl.bind_buffer(glow::ARRAY_BUFFER, Some(self.instances));
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}
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if transformation != self.current_transform {
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unsafe {
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let matrix: [f32; 16] = transformation.into();
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gl.uniform_matrix_4_f32_slice(
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Some(&self.transform_location),
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false,
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&matrix,
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);
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self.current_transform = transformation;
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}
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}
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if scale != self.current_scale {
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unsafe {
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gl.uniform_1_f32(Some(&self.scale_location), scale);
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}
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self.current_scale = scale;
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}
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if target_height != self.current_target_height {
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unsafe {
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gl.uniform_1_f32(
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Some(&self.screen_height_location),
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target_height as f32,
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);
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}
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self.current_target_height = target_height;
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}
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for instances in instances.chunks(MAX_INSTANCES) {
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unsafe {
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gl.buffer_sub_data_u8_slice(
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glow::ARRAY_BUFFER,
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0,
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bytemuck::cast_slice(instances),
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);
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gl.draw_arrays_instanced(
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glow::TRIANGLE_STRIP,
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0,
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4,
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instances.len() as i32,
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);
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}
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}
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unsafe {
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gl.bind_vertex_array(None);
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gl.use_program(None);
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gl.disable(glow::SCISSOR_TEST);
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}
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}
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}
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unsafe fn create_instance_buffer(
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gl: &glow::Context,
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size: usize,
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) -> (
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<glow::Context as HasContext>::VertexArray,
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<glow::Context as HasContext>::Buffer,
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) {
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let vertex_array = gl.create_vertex_array().expect("Create vertex array");
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let buffer = gl.create_buffer().expect("Create instance buffer");
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gl.bind_vertex_array(Some(vertex_array));
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gl.bind_buffer(glow::ARRAY_BUFFER, Some(buffer));
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gl.buffer_data_size(
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glow::ARRAY_BUFFER,
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(size * std::mem::size_of::<layer::Quad>()) as i32,
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glow::DYNAMIC_DRAW,
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);
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let stride = std::mem::size_of::<layer::Quad>() as i32;
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gl.enable_vertex_attrib_array(0);
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gl.vertex_attrib_pointer_f32(0, 2, glow::FLOAT, false, stride, 0);
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gl.vertex_attrib_divisor(0, 1);
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gl.enable_vertex_attrib_array(1);
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gl.vertex_attrib_pointer_f32(1, 2, glow::FLOAT, false, stride, 4 * 2);
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gl.vertex_attrib_divisor(1, 1);
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gl.enable_vertex_attrib_array(2);
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gl.vertex_attrib_pointer_f32(2, 4, glow::FLOAT, false, stride, 4 * (2 + 2));
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gl.vertex_attrib_divisor(2, 1);
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gl.enable_vertex_attrib_array(3);
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gl.vertex_attrib_pointer_f32(
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3,
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4,
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glow::FLOAT,
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false,
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stride,
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4 * (2 + 2 + 4),
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);
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gl.vertex_attrib_divisor(3, 1);
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gl.enable_vertex_attrib_array(4);
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gl.vertex_attrib_pointer_f32(
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4,
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1,
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glow::FLOAT,
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false,
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stride,
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4 * (2 + 2 + 4 + 4),
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);
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gl.vertex_attrib_divisor(4, 1);
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gl.enable_vertex_attrib_array(5);
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gl.vertex_attrib_pointer_f32(
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5,
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1,
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glow::FLOAT,
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false,
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stride,
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4 * (2 + 2 + 4 + 4 + 1),
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);
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gl.vertex_attrib_divisor(5, 1);
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gl.bind_vertex_array(None);
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gl.bind_buffer(glow::ARRAY_BUFFER, None);
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(vertex_array, buffer)
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}
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