Rust bindings and safe wrappers for citro3d
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#![feature(allocator_api)]
use citro3d::render::{ClearFlags, Target};
use citro3d::{include_aligned_bytes, shader};
use citro3d_sys::C3D_Mtx;
use ctru::gfx::{Gfx, RawFrameBuffer, Screen};
use ctru::services::apt::Apt;
use ctru::services::hid::{Hid, KeyPad};
use ctru::services::soc::Soc;
use std::ffi::CStr;
use std::mem::MaybeUninit;
#[repr(C)]
#[derive(Copy, Clone)]
struct Vec3 {
x: f32,
y: f32,
z: f32,
}
impl Vec3 {
const fn new(x: f32, y: f32, z: f32) -> Self {
Self { x, y, z }
}
}
#[repr(C)]
#[derive(Copy, Clone)]
struct Vertex {
pos: Vec3,
color: Vec3,
}
static VERTICES: &[Vertex] = &[
Vertex {
pos: Vec3::new(0.0, 0.5, 0.5),
color: Vec3::new(1.0, 0.0, 0.0),
},
Vertex {
pos: Vec3::new(-0.5, -0.5, 0.5),
color: Vec3::new(0.0, 1.0, 0.0),
},
Vertex {
pos: Vec3::new(0.5, -0.5, 0.5),
color: Vec3::new(0.0, 0.0, 1.0),
},
];
static SHADER_BYTES: &[u8] =
include_aligned_bytes!(concat!(env!("OUT_DIR"), "/examples/assets/vshader.shbin"));
fn main() {
ctru::init();
let mut soc = Soc::init().expect("failed to get SOC");
drop(soc.redirect_to_3dslink(true, true));
let gfx = Gfx::init().expect("Couldn't obtain GFX controller");
let hid = Hid::init().expect("Couldn't obtain HID controller");
let apt = Apt::init().expect("Couldn't obtain APT controller");
let mut top_screen = gfx.top_screen.borrow_mut();
let RawFrameBuffer { width, height, .. } = top_screen.get_raw_framebuffer();
let mut instance = citro3d::Instance::new().expect("failed to initialize Citro3D");
let mut top_target = citro3d::render::Target::new(width, height, top_screen, None)
.expect("failed to create render target");
let mut bottom_screen = gfx.bottom_screen.borrow_mut();
let RawFrameBuffer { width, height, .. } = bottom_screen.get_raw_framebuffer();
let mut bottom_target = citro3d::render::Target::new(width, height, bottom_screen, None)
.expect("failed to create bottom screen render target");
let shader = shader::Library::from_bytes(SHADER_BYTES).unwrap();
let vertex_shader = shader.get(0).unwrap();
let mut program = shader::Program::new(vertex_shader).unwrap();
let mut vbo_data = Vec::with_capacity_in(VERTICES.len(), ctru::linear::LinearAllocator);
vbo_data.extend(VERTICES);
let (uloc_projection, projection) = scene_init(&mut program, &vbo_data);
while apt.main_loop() {
hid.scan_input();
if hid.keys_down().contains(KeyPad::KEY_START) {
break;
}
let mut render_to = |target: &mut Target| {
instance.render_frame_with(|instance| {
instance
.select_render_target(target)
.expect("failed to set render target");
let clear_color: u32 = 0x7F_7F_7F_FF;
target.clear(ClearFlags::ALL, clear_color, 0);
scene_render(uloc_projection.into(), &projection);
});
};
render_to(&mut top_target);
render_to(&mut bottom_target);
}
// explicit drop to ensure the vbo_data lives long enough for the render code
// to reference it. This hopefully won't be necessary anymore if we can use
// lifetimes to manage the buffers instead of passing raw ptrs
drop(vbo_data);
}
fn scene_init(program: &mut shader::Program, vbo_data: &[Vertex]) -> (i8, C3D_Mtx) {
// Load the vertex shader, create a shader program and bind it
unsafe {
citro3d_sys::C3D_BindProgram(program.as_raw());
// Get the location of the uniforms
let projection_name = CStr::from_bytes_with_nul(b"projection\0").unwrap();
let uloc_projection = ctru_sys::shaderInstanceGetUniformLocation(
(*program.as_raw()).vertexShader,
projection_name.as_ptr(),
);
// Configure attributes for use with the vertex shader
let attr_info = citro3d_sys::C3D_GetAttrInfo();
citro3d_sys::AttrInfo_Init(attr_info);
citro3d_sys::AttrInfo_AddLoader(attr_info, 0, ctru_sys::GPU_FLOAT, 3); // v0=position
citro3d_sys::AttrInfo_AddLoader(attr_info, 1, ctru_sys::GPU_FLOAT, 3); // v1=color
// Compute the projection matrix
let projection = {
let mut projection = MaybeUninit::uninit();
citro3d_sys::Mtx_OrthoTilt(
projection.as_mut_ptr(),
// The 3ds top screen is a 5:3 ratio
-1.66,
1.66,
-1.0,
1.0,
0.0,
1.0,
true,
);
projection.assume_init()
};
// Configure buffers
let buf_info = citro3d_sys::C3D_GetBufInfo();
citro3d_sys::BufInfo_Init(buf_info);
citro3d_sys::BufInfo_Add(
buf_info,
vbo_data.as_ptr().cast(),
std::mem::size_of::<Vertex>()
.try_into()
.expect("size of vec3 fits in u32"),
2, // Each vertex has two attributes
0x10, // v0 = position, v1 = color, in LSB->MSB nibble order
);
// Configure the first fragment shading substage to just pass through the vertex color
// See https://www.opengl.org/sdk/docs/man2/xhtml/glTexEnv.xml for more insight
let env = citro3d_sys::C3D_GetTexEnv(0);
citro3d_sys::C3D_TexEnvInit(env);
citro3d_sys::C3D_TexEnvSrc(
env,
citro3d_sys::C3D_Both,
ctru_sys::GPU_PRIMARY_COLOR,
0,
0,
);
citro3d_sys::C3D_TexEnvFunc(env, citro3d_sys::C3D_Both, ctru_sys::GPU_REPLACE);
(uloc_projection, projection)
}
}
fn scene_render(uloc_projection: i32, projection: &C3D_Mtx) {
unsafe {
// Update the uniforms
citro3d_sys::C3D_FVUnifMtx4x4(ctru_sys::GPU_VERTEX_SHADER, uloc_projection, projection);
// Draw the VBO
citro3d_sys::C3D_DrawArrays(
ctru_sys::GPU_TRIANGLES,
0,
VERTICES
.len()
.try_into()
.expect("VERTICES.len() fits in i32"),
);
}
}