use integral_geometry::Rect;
use std::{ffi, ffi::CString, mem, ptr, slice};
#[derive(Default)]
pub struct PipelineState {
blending: bool,
}
impl PipelineState {
pub fn new() -> Self {
Self::default()
}
pub fn with_blend(mut self) -> Self {
unsafe {
gl::Enable(gl::BLEND);
gl::BlendFunc(gl::SRC_ALPHA, gl::ONE_MINUS_SRC_ALPHA);
}
self.blending = true;
self
}
}
impl Drop for PipelineState {
fn drop(&mut self) {
if self.blending {
unsafe { gl::Disable(gl::BLEND) }
}
}
}
#[derive(Debug)]
pub struct Texture2D {
pub handle: u32,
}
impl Drop for Texture2D {
fn drop(&mut self) {
if self.handle != 0 {
unsafe {
gl::DeleteTextures(1, &self.handle);
}
}
}
}
impl Texture2D {
pub fn with_data(
data: &[u8],
data_stride: u32,
width: u32,
height: u32,
internal_format: u32,
format: u32,
ty: u32,
filter: u32,
) -> Self {
let mut handle = 0;
unsafe {
gl::GenTextures(1, &mut handle);
gl::BindTexture(gl::TEXTURE_2D, handle);
gl::PixelStorei(gl::UNPACK_ROW_LENGTH, data_stride as i32);
gl::TexImage2D(
gl::TEXTURE_2D,
0,
internal_format as i32,
width as i32,
height as i32,
0,
format as u32,
ty,
data.as_ptr() as *const _,
);
gl::TexParameteri(gl::TEXTURE_2D, gl::TEXTURE_WRAP_S, gl::CLAMP_TO_EDGE as i32);
gl::TexParameteri(gl::TEXTURE_2D, gl::TEXTURE_WRAP_T, gl::CLAMP_TO_EDGE as i32);
gl::TexParameteri(gl::TEXTURE_2D, gl::TEXTURE_MIN_FILTER, filter as i32);
gl::TexParameteri(gl::TEXTURE_2D, gl::TEXTURE_MAG_FILTER, filter as i32);
}
Texture2D { handle }
}
pub fn update(&self, region: Rect, data: &[u8], data_stride: u32, format: u32, ty: u32) {
unsafe {
gl::BindTexture(gl::TEXTURE_2D, self.handle);
gl::PixelStorei(gl::UNPACK_ROW_LENGTH, data_stride as i32);
gl::TexSubImage2D(
gl::TEXTURE_2D,
0, // texture level
region.left(), // texture region
region.top(),
region.width() as i32 - 1,
region.height() as i32 - 1,
format, // data format
ty, // data type
data.as_ptr() as *const _, // data ptr
);
}
}
}
#[derive(Debug)]
pub struct Buffer {
pub handle: u32,
pub ty: u32,
pub usage: u32,
}
impl Buffer {
pub fn empty(
ty: u32,
usage: u32,
//size: isize
) -> Buffer {
let mut buffer = 0;
unsafe {
gl::GenBuffers(1, &mut buffer);
gl::BindBuffer(ty, buffer);
//gl::BufferData(ty, size, ptr::null_mut(), usage);
}
Buffer {
handle: buffer,
ty,
usage,
}
}
fn with_data(ty: u32, usage: u32, data: &[u8]) -> Buffer {
let mut buffer = 0;
unsafe {
gl::GenBuffers(1, &mut buffer);
gl::BindBuffer(ty, buffer);
gl::BufferData(ty, data.len() as isize, data.as_ptr() as _, usage);
}
Buffer {
handle: buffer,
ty,
usage,
}
}
pub fn ty(&self) -> u32 {
self.ty
}
pub fn handle(&self) -> u32 {
self.handle
}
pub fn write_typed<T>(&self, data: &[T]) {
unsafe {
let data =
slice::from_raw_parts(data.as_ptr() as *const u8, data.len() * mem::size_of::<T>());
gl::BindBuffer(self.ty, self.handle);
gl::BufferData(
self.ty,
data.len() as isize,
data.as_ptr() as *const _ as *const _,
self.usage,
);
}
}
pub fn write(&self, data: &[u8]) {
unsafe {
gl::BindBuffer(self.ty, self.handle);
gl::BufferData(
self.ty,
data.len() as isize,
data.as_ptr() as *const _ as *const _,
self.usage,
);
}
}
}
impl Drop for Buffer {
fn drop(&mut self) {
unsafe {
gl::DeleteBuffers(1, &self.handle);
}
}
}
#[derive(Debug)]
pub enum VariableBinding<'a> {
Attribute(&'a str, u32),
Uniform(&'a str, u32),
UniformBlock(&'a str, u32),
Sampler(&'a str, u32),
}
#[derive(Debug)]
pub struct Shader {
pub program: u32,
}
impl Drop for Shader {
fn drop(&mut self) {
unsafe {
gl::DeleteProgram(self.program);
}
}
}
impl Shader {
pub fn new<'a>(
vs: &str,
ps: Option<&str>,
bindings: &[VariableBinding<'a>],
) -> Result<Self, String> {
unsafe fn compile_shader(ty: u32, shdr: &str) -> Result<u32, String> {
let shader = gl::CreateShader(ty);
let len = shdr.len() as i32;
let shdr = shdr.as_ptr() as *const i8;
gl::ShaderSource(shader, 1, &shdr, &len);
gl::CompileShader(shader);
let mut success = 0i32;
gl::GetShaderiv(shader, gl::COMPILE_STATUS, &mut success as _);
if success == gl::FALSE as i32 {
let mut log_size = 0i32;
gl::GetShaderiv(shader, gl::INFO_LOG_LENGTH, &mut log_size as _);
let mut log = vec![0u8; log_size as usize];
gl::GetShaderInfoLog(shader, log_size, ptr::null_mut(), log.as_mut_ptr() as _);
gl::DeleteShader(shader);
Err(String::from_utf8_unchecked(log))
} else {
Ok(shader)
}
}
let vs = unsafe { compile_shader(gl::VERTEX_SHADER, vs)? };
let ps = if let Some(ps) = ps {
Some(unsafe { compile_shader(gl::FRAGMENT_SHADER, ps)? })
} else {
None
};
unsafe {
let program = gl::CreateProgram();
gl::AttachShader(program, vs);
if let Some(ps) = ps {
gl::AttachShader(program, ps);
}
for bind in bindings {
match bind {
&VariableBinding::Attribute(ref name, id) => {
let c_str = CString::new(name.as_bytes()).unwrap();
gl::BindAttribLocation(
program,
id,
c_str.to_bytes_with_nul().as_ptr() as *const _,
);
}
_ => {}
}
}
gl::LinkProgram(program);
let mut success = 0i32;
gl::GetProgramiv(program, gl::LINK_STATUS, &mut success);
if success == gl::FALSE as i32 {
let mut log_size = 0i32;
gl::GetProgramiv(program, gl::INFO_LOG_LENGTH, &mut log_size as _);
let mut log = vec![0u8; log_size as usize];
gl::GetProgramInfoLog(program, log_size, ptr::null_mut(), log.as_mut_ptr() as _);
gl::DeleteProgram(program);
return Err(String::from_utf8_unchecked(log));
}
//gl::DetachShader(program, vs);
if let Some(ps) = ps {
//gl::DetachShader(program, ps);
}
gl::UseProgram(program);
// after linking we setup sampler bindings as specified in the shader
for bind in bindings {
match bind {
VariableBinding::Uniform(name, id) => {
let c_str = CString::new(name.as_bytes()).unwrap();
let index = gl::GetUniformLocation(
program,
c_str.to_bytes_with_nul().as_ptr() as *const _,
);
// TODO: impl for block?
}
VariableBinding::UniformBlock(name, id) => {
let c_str = CString::new(name.as_bytes()).unwrap();
let index = gl::GetUniformBlockIndex(
program,
c_str.to_bytes_with_nul().as_ptr() as *const _,
);
gl::UniformBlockBinding(program, index, *id);
}
VariableBinding::Sampler(name, id) => {
let c_str = CString::new(name.as_bytes()).unwrap();
let index = gl::GetUniformLocation(
program,
c_str.to_bytes_with_nul().as_ptr() as *const _,
);
gl::Uniform1i(index, *id as i32);
}
_ => {}
}
}
Ok(Shader { program })
}
}
pub fn bind(&self) {
unsafe {
gl::UseProgram(self.program);
}
}
pub fn set_matrix(&self, name: &str, matrix: *const f32) {
unsafe {
let c_str = CString::new(name).unwrap();
let index = gl::GetUniformLocation(
self.program,
c_str.to_bytes_with_nul().as_ptr() as *const _,
);
gl::UniformMatrix4fv(index, 1, gl::FALSE, matrix);
}
}
pub fn bind_texture_2d(&self, index: u32, texture: &Texture2D) {
self.bind();
unsafe {
gl::ActiveTexture(gl::TEXTURE0 + index);
gl::BindTexture(gl::TEXTURE_2D, texture.handle);
}
}
}
pub enum InputFormat {
Float(u32, bool),
Integer(u32),
}
pub struct InputElement {
pub shader_slot: u32,
pub buffer_slot: u32,
pub format: InputFormat,
pub components: u32,
pub stride: u32,
pub offset: u32,
}
// TODO:
pub struct InputLayout {
pub elements: Vec<InputElement>,
}
pub struct LayoutGuard {
vao: u32,
}
impl Drop for LayoutGuard {
fn drop(&mut self) {
unsafe {
gl::DeleteVertexArrays(1, [self.vao].as_ptr());
gl::BindVertexArray(0);
}
}
}
impl InputLayout {
pub fn new(elements: Vec<InputElement>) -> Self {
InputLayout { elements }
}
pub fn bind(
&mut self,
buffers: &[(u32, &Buffer)],
index_buffer: Option<&Buffer>,
) -> LayoutGuard {
let mut vao = 0;
unsafe {
gl::GenVertexArrays(1, &mut vao);
gl::BindVertexArray(vao);
}
for &(slot, ref buffer) in buffers {
unsafe {
gl::BindBuffer(buffer.ty(), buffer.handle());
}
for attr in self.elements.iter().filter(|a| a.buffer_slot == slot) {
unsafe {
gl::EnableVertexAttribArray(attr.shader_slot);
match attr.format {
InputFormat::Float(fmt, normalized) => {
gl::VertexAttribPointer(
attr.shader_slot,
attr.components as i32,
fmt,
if normalized { gl::TRUE } else { gl::FALSE },
attr.stride as i32,
attr.offset as *const _,
);
}
InputFormat::Integer(fmt) => {
gl::VertexAttribIPointer(
attr.shader_slot,
attr.components as i32,
fmt,
attr.stride as i32,
attr.offset as *const _,
);
}
}
}
}
}
if let Some(buf) = index_buffer {
unsafe {
gl::BindBuffer(gl::ELEMENT_ARRAY_BUFFER, buf.handle());
}
}
LayoutGuard { vao }
}
}