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//! This example demonstrates the most basic usage of `citro3d`: rendering a simple
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//! RGB triangle (sometimes called a "Hello triangle") to the 3DS screen.
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#![feature(allocator_api)]
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use citro3d::macros::include_shader;
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use citro3d::math::{AspectRatio, ClipPlanes, Matrix4, Projection, StereoDisplacement};
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use citro3d::render::ClearFlags;
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use citro3d::texenv;
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use citro3d::{attrib, buffer, render, shader};
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use ctru::prelude::*;
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use ctru::services::gfx::{RawFrameBuffer, Screen, TopScreen3D};
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#[repr(C)]
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#[derive(Copy, Clone)]
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struct Vec3 {
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x: f32,
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y: f32,
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z: f32,
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}
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impl Vec3 {
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const fn new(x: f32, y: f32, z: f32) -> Self {
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Self { x, y, z }
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}
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}
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#[repr(C)]
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#[derive(Copy, Clone)]
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struct Vertex {
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pos: Vec3,
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color: Vec3,
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}
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static VERTICES: &[Vertex] = &[
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Vertex {
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pos: Vec3::new(0.0, 0.5, -3.0),
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color: Vec3::new(1.0, 0.0, 0.0),
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},
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Vertex {
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pos: Vec3::new(-0.5, -0.5, -3.0),
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color: Vec3::new(0.0, 1.0, 0.0),
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},
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Vertex {
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pos: Vec3::new(0.5, -0.5, -3.0),
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color: Vec3::new(0.0, 0.0, 1.0),
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},
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];
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static SHADER_BYTES: &[u8] = include_shader!("assets/vshader.pica");
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const CLEAR_COLOR: u32 = 0x68_B0_D8_FF;
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fn main() {
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let mut soc = Soc::new().expect("failed to get SOC");
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drop(soc.redirect_to_3dslink(true, true));
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let gfx = Gfx::new().expect("Couldn't obtain GFX controller");
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let mut hid = Hid::new().expect("Couldn't obtain HID controller");
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let apt = Apt::new().expect("Couldn't obtain APT controller");
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let mut instance = citro3d::Instance::new().expect("failed to initialize Citro3D");
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let top_screen = TopScreen3D::from(&gfx.top_screen);
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let (mut top_left, mut top_right) = top_screen.split_mut();
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let RawFrameBuffer { width, height, .. } = top_left.raw_framebuffer();
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let mut top_left_target =
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render::Target::new(width, height, top_left, None).expect("failed to create render target");
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let RawFrameBuffer { width, height, .. } = top_right.raw_framebuffer();
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let mut top_right_target = render::Target::new(width, height, top_right, None)
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.expect("failed to create render target");
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let mut bottom_screen = gfx.bottom_screen.borrow_mut();
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let RawFrameBuffer { width, height, .. } = bottom_screen.raw_framebuffer();
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let mut bottom_target = render::Target::new(width, height, bottom_screen, None)
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.expect("failed to create bottom screen render target");
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let shader = shader::Library::from_bytes(SHADER_BYTES).unwrap();
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let vertex_shader = shader.get(0).unwrap();
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let program = shader::Program::new(vertex_shader).unwrap();
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instance.bind_program(&program);
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let mut vbo_data = Vec::with_capacity_in(VERTICES.len(), ctru::linear::LinearAllocator);
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vbo_data.extend_from_slice(VERTICES);
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let mut buf_info = buffer::Info::new();
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let (attr_info, vbo_data) = prepare_vbos(&mut buf_info, &vbo_data);
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// Configure the first fragment shading substage to just pass through the vertex color
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// See https://www.opengl.org/sdk/docs/man2/xhtml/glTexEnv.xml for more insight
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let stage0 = texenv::Stage::new(0).unwrap();
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instance
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.texenv(stage0)
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.src(texenv::Mode::BOTH, texenv::Source::PrimaryColor, None, None)
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.func(texenv::Mode::BOTH, texenv::CombineFunc::Replace);
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let projection_uniform_idx = program.get_uniform("projection").unwrap();
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while apt.main_loop() {
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hid.scan_input();
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if hid.keys_down().contains(KeyPad::START) {
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break;
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}
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instance.render_frame_with(|instance| {
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let mut render_to = |target: &mut render::Target, projection| {
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target.clear(ClearFlags::ALL, CLEAR_COLOR, 0);
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instance
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.select_render_target(target)
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.expect("failed to set render target");
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instance.bind_vertex_uniform(projection_uniform_idx, projection);
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instance.set_attr_info(&attr_info);
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instance.draw_arrays(buffer::Primitive::Triangles, vbo_data);
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};
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let Projections {
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left_eye,
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right_eye,
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center,
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} = calculate_projections();
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render_to(&mut top_left_target, &left_eye);
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render_to(&mut top_right_target, &right_eye);
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render_to(&mut bottom_target, ¢er);
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});
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}
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}
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fn prepare_vbos<'a>(
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buf_info: &'a mut buffer::Info,
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vbo_data: &'a [Vertex],
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) -> (attrib::Info, buffer::Slice<'a>) {
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// Configure attributes for use with the vertex shader
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let mut attr_info = attrib::Info::new();
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let reg0 = attrib::Register::new(0).unwrap();
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let reg1 = attrib::Register::new(1).unwrap();
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attr_info
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.add_loader(reg0, attrib::Format::Float, 3)
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.unwrap();
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attr_info
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.add_loader(reg1, attrib::Format::Float, 3)
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.unwrap();
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let buf_idx = buf_info.add(vbo_data, &attr_info).unwrap();
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(attr_info, buf_idx)
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}
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struct Projections {
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left_eye: Matrix4,
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right_eye: Matrix4,
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center: Matrix4,
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}
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fn calculate_projections() -> Projections {
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// TODO: it would be cool to allow playing around with these parameters on
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// the fly with D-pad, etc.
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let slider_val = ctru::os::current_3d_slider_state();
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let interocular_distance = slider_val / 2.0;
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let vertical_fov = 40.0_f32.to_radians();
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let screen_depth = 2.0;
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let clip_planes = ClipPlanes {
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near: 0.01,
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far: 100.0,
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};
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let (left, right) = StereoDisplacement::new(interocular_distance, screen_depth);
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let (left_eye, right_eye) =
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Projection::perspective(vertical_fov, AspectRatio::TopScreen, clip_planes)
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.stereo_matrices(left, right);
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let center =
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Projection::perspective(vertical_fov, AspectRatio::BottomScreen, clip_planes).into();
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Projections {
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left_eye,
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right_eye,
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center,
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}
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}
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