use std::cell::{RefCell, UnsafeCell}; use std::ffi::CStr; use std::mem; use std::rc::Rc; use std::sync::Arc; use glutin::event::{Event, TouchPhase, WindowEvent, ElementState, VirtualKeyCode}; use glutin::event_loop::{ControlFlow, EventLoop}; use glutin::window::WindowBuilder; use glutin::{Api, ContextBuilder, GlProfile, GlRequest, PossiblyCurrent, WindowedContext}; use imgui::{DrawCmd, DrawCmdParams, DrawData, DrawIdx, DrawVert}; use gl::types::*; use crate::common::{Color, Rect}; use crate::framework::backend::{Backend, BackendEventLoop, BackendRenderer, BackendTexture, SpriteBatchCommand}; use crate::framework::context::Context; use crate::framework::error::GameError::RenderError; use crate::framework::error::GameResult; use crate::framework::gl; use crate::framework::graphics::BlendMode; use crate::input::touch_controls::TouchPoint; use crate::{Game, GAME_SUSPENDED}; use crate::framework::keyboard::ScanCode; pub struct GlutinBackend; impl GlutinBackend { pub fn new() -> GameResult> { Ok(Box::new(GlutinBackend)) } } impl Backend for GlutinBackend { fn create_event_loop(&self) -> GameResult> { #[cfg(target_os = "android")] loop { match ndk_glue::native_window().as_ref() { Some(_) => { log::info!("NativeWindow Found: {:?}", ndk_glue::native_window()); break; } None => (), } } Ok(Box::new(GlutinEventLoop { refs: Rc::new(UnsafeCell::new(None)) })) } } pub struct GlutinEventLoop { refs: Rc>>>, } impl GlutinEventLoop { fn get_context(&self, event_loop: &EventLoop<()>) -> &mut WindowedContext { let mut refs = unsafe { &mut *self.refs.get() }; if refs.is_none() { let window = WindowBuilder::new(); let windowed_context = ContextBuilder::new() .with_gl(GlRequest::Specific(Api::OpenGlEs, (2, 0))) .with_gl_profile(GlProfile::Core) .with_gl_debug_flag(false) .with_pixel_format(24, 8) .with_vsync(true) .build_windowed(window, event_loop) .unwrap(); let windowed_context = unsafe { windowed_context.make_current().unwrap() }; #[cfg(target_os = "android")] if let Some(nwin) = ndk_glue::native_window().as_ref() { unsafe { windowed_context.surface_created(nwin.ptr().as_ptr() as *mut std::ffi::c_void); } } refs.replace(windowed_context); } refs.as_mut().unwrap() } } #[cfg(target_os = "android")] fn request_android_redraw() { match ndk_glue::native_window().as_ref() { Some(native_window) => { let a_native_window: *mut ndk_sys::ANativeWindow = native_window.ptr().as_ptr(); let a_native_activity: *mut ndk_sys::ANativeActivity = ndk_glue::native_activity().ptr().as_ptr(); unsafe { match (*(*a_native_activity).callbacks).onNativeWindowRedrawNeeded { Some(callback) => callback(a_native_activity, a_native_window), None => (), }; }; } None => (), } } #[cfg(target_os = "android")] fn get_insets() -> GameResult<(f32, f32, f32, f32)> { unsafe { let vm_ptr = ndk_glue::native_activity().vm(); let vm = unsafe { jni::JavaVM::from_raw(vm_ptr) }?; let vm_env = vm.attach_current_thread()?; //let class = vm_env.find_class("io/github/doukutsu_rs/MainActivity")?; let class = vm_env.new_global_ref(ndk_glue::native_activity().activity())?; let field = vm_env.get_field(class.as_obj(), "displayInsets", "[I")?.to_jni().l as jni::sys::jintArray; let mut elements = [0; 4]; vm_env.get_int_array_region(field, 0, &mut elements)?; Ok((elements[0] as f32, elements[1] as f32, elements[2] as f32, elements[3] as f32)) } } impl BackendEventLoop for GlutinEventLoop { fn run(&mut self, game: &mut Game, ctx: &mut Context) { let event_loop = EventLoop::new(); let state_ref = unsafe { &mut *game.state.get() }; let window: &'static mut WindowedContext = unsafe { std::mem::transmute(self.get_context(&event_loop)) }; { let size = window.window().inner_size(); ctx.screen_size = (size.width.max(1) as f32, size.height.max(1) as f32); state_ref.handle_resize(ctx).unwrap(); } // it won't ever return let (game, ctx): (&'static mut Game, &'static mut Context) = unsafe { (std::mem::transmute(game), std::mem::transmute(ctx)) }; event_loop.run(move |event, _, control_flow| { *control_flow = ControlFlow::Wait; match event { Event::WindowEvent { event: WindowEvent::CloseRequested, window_id } if window_id == window.window().id() => { state_ref.shutdown(); } Event::Resumed => { println!("resumed!"); { let mut mutex = GAME_SUSPENDED.lock().unwrap(); *mutex = false; } #[cfg(target_os = "android")] if let Some(nwin) = ndk_glue::native_window().as_ref() { state_ref.graphics_reset(); unsafe { window.surface_created(nwin.ptr().as_ptr() as *mut std::ffi::c_void); request_android_redraw(); } } } Event::Suspended => { println!("suspended!"); { let mut mutex = GAME_SUSPENDED.lock().unwrap(); *mutex = true; } #[cfg(target_os = "android")] unsafe { window.surface_destroyed(); } } Event::WindowEvent { event: WindowEvent::Resized(size), window_id } if window_id == window.window().id() => { if let Some(renderer) = ctx.renderer.as_ref() { if let Ok(imgui) = renderer.imgui() { imgui.io_mut().display_size = [size.width as f32, size.height as f32]; } ctx.screen_size = (size.width as f32, size.height as f32); state_ref.handle_resize(ctx).unwrap(); } } Event::WindowEvent { event: WindowEvent::Touch(touch), window_id } if window_id == window.window().id() => { let mut controls = &mut state_ref.touch_controls; let scale = state_ref.scale as f64; match touch.phase { TouchPhase::Started | TouchPhase::Moved => { if let Some(point) = controls.points.iter_mut().find(|p| p.id == touch.id) { point.last_position = point.position; point.position = (touch.location.x / scale, touch.location.y / scale); } else { controls.touch_id_counter = controls.touch_id_counter.wrapping_add(1); let point = TouchPoint { id: touch.id, touch_id: controls.touch_id_counter, position: (touch.location.x / scale, touch.location.y / scale), last_position: (0.0, 0.0), }; controls.points.push(point); if touch.phase == TouchPhase::Started { controls.clicks.push(point); } } } TouchPhase::Ended | TouchPhase::Cancelled => { controls.points.retain(|p| p.id != touch.id); controls.clicks.retain(|p| p.id != touch.id); } } } Event::WindowEvent { event: WindowEvent::KeyboardInput { input, .. }, window_id } if window_id == window.window().id() => { if let Some(keycode) = input.virtual_keycode { if let Some(drs_scan) = conv_keycode(keycode) { let key_state = match input.state { ElementState::Pressed => true, ElementState::Released => false, }; ctx.keyboard_context.set_key(drs_scan, key_state); } } } Event::RedrawRequested(id) if id == window.window().id() => { { let mutex = GAME_SUSPENDED.lock().unwrap(); if *mutex { return; } } #[cfg(not(target_os = "android"))] { if let Err(err) = game.draw(ctx) { log::error!("Failed to draw frame: {}", err); } window.window().request_redraw(); } #[cfg(target_os = "android")] request_android_redraw(); } Event::MainEventsCleared => { if state_ref.shutdown { log::info!("Shutting down..."); *control_flow = ControlFlow::Exit; return; } { let mutex = GAME_SUSPENDED.lock().unwrap(); if *mutex { return; } } game.update(ctx).unwrap(); #[cfg(target_os = "android")] { match get_insets() { Ok(insets) => { ctx.screen_insets = insets; } Err(e) => { log::error!("Failed to update insets: {}", e); } } if let Err(err) = game.draw(ctx) { log::error!("Failed to draw frame: {}", err); } } if state_ref.next_scene.is_some() { mem::swap(&mut game.scene, &mut state_ref.next_scene); state_ref.next_scene = None; game.scene.as_mut().unwrap().init(state_ref, ctx).unwrap(); game.loops = 0; state_ref.frame_time = 0.0; } } _ => (), } }); } fn new_renderer(&self) -> GameResult> { let mut imgui = imgui::Context::create(); imgui.io_mut().display_size = [640.0, 480.0]; Ok(Box::new(GlutinRenderer { refs: self.refs.clone(), imgui: UnsafeCell::new(imgui), imgui_data: ImguiData::new(), context_active: Arc::new(RefCell::new(true)), def_matrix: [[0.0; 4]; 4], })) } } pub struct GlutinTexture { width: u16, height: u16, texture_id: u32, framebuffer_id: u32, locs: Locs, vbo: GLuint, vertices: Vec, context_active: Arc>, } #[repr(C)] #[derive(Copy, Clone)] struct VertexData { position: (f32, f32), uv: (f32, f32), color: (u8, u8, u8, u8), } impl BackendTexture for GlutinTexture { fn dimensions(&self) -> (u16, u16) { (self.width, self.height) } fn add(&mut self, command: SpriteBatchCommand) { let (tex_scale_x, tex_scale_y) = (1.0 / self.width as f32, 1.0 / self.height as f32); match command { SpriteBatchCommand::DrawRect(src, dest) => { let vertices = [ VertexData { position: (dest.left, dest.bottom), uv: (src.left * tex_scale_x, src.bottom * tex_scale_y), color: (255, 255, 255, 255), }, VertexData { position: (dest.left, dest.top), uv: (src.left * tex_scale_x, src.top * tex_scale_y), color: (255, 255, 255, 255), }, VertexData { position: (dest.right, dest.top), uv: (src.right * tex_scale_x, src.top * tex_scale_y), color: (255, 255, 255, 255), }, VertexData { position: (dest.left, dest.bottom), uv: (src.left * tex_scale_x, src.bottom * tex_scale_y), color: (255, 255, 255, 255), }, VertexData { position: (dest.right, dest.top), uv: (src.right * tex_scale_x, src.top * tex_scale_y), color: (255, 255, 255, 255), }, VertexData { position: (dest.right, dest.bottom), uv: (src.right * tex_scale_x, src.bottom * tex_scale_y), color: (255, 255, 255, 255), }, ]; self.vertices.extend_from_slice(&vertices); } SpriteBatchCommand::DrawRectFlip(mut src, dest, flip_x, flip_y) => { if flip_x { std::mem::swap(&mut src.left, &mut src.right); } if flip_y { std::mem::swap(&mut src.top, &mut src.bottom); } let vertices = [ VertexData { position: (dest.left, dest.bottom), uv: (src.left * tex_scale_x, src.bottom * tex_scale_y), color: (255, 255, 255, 255), }, VertexData { position: (dest.left, dest.top), uv: (src.left * tex_scale_x, src.top * tex_scale_y), color: (255, 255, 255, 255), }, VertexData { position: (dest.right, dest.top), uv: (src.right * tex_scale_x, src.top * tex_scale_y), color: (255, 255, 255, 255), }, VertexData { position: (dest.left, dest.bottom), uv: (src.left * tex_scale_x, src.bottom * tex_scale_y), color: (255, 255, 255, 255), }, VertexData { position: (dest.right, dest.top), uv: (src.right * tex_scale_x, src.top * tex_scale_y), color: (255, 255, 255, 255), }, VertexData { position: (dest.right, dest.bottom), uv: (src.right * tex_scale_x, src.bottom * tex_scale_y), color: (255, 255, 255, 255), }, ]; self.vertices.extend_from_slice(&vertices); } SpriteBatchCommand::DrawRectTinted(src, dest, color) => { let color = color.to_rgba(); let vertices = [ VertexData { position: (dest.left, dest.bottom), uv: (src.left * tex_scale_x, src.bottom * tex_scale_y), color, }, VertexData { position: (dest.left, dest.top), uv: (src.left * tex_scale_x, src.top * tex_scale_y), color, }, VertexData { position: (dest.right, dest.top), uv: (src.right * tex_scale_x, src.top * tex_scale_y), color, }, VertexData { position: (dest.left, dest.bottom), uv: (src.left * tex_scale_x, src.bottom * tex_scale_y), color, }, VertexData { position: (dest.right, dest.top), uv: (src.right * tex_scale_x, src.top * tex_scale_y), color, }, VertexData { position: (dest.right, dest.bottom), uv: (src.right * tex_scale_x, src.bottom * tex_scale_y), color, }, ]; self.vertices.extend_from_slice(&vertices); } } } fn clear(&mut self) { self.vertices.clear(); } fn draw(&mut self) -> GameResult { unsafe { if let Some(gl) = GL_PROC.as_ref() { if self.texture_id == 0 { return Ok(()); } if gl.gl.BindSampler.is_loaded() { gl.gl.BindSampler(0, 0); } gl.gl.Enable(gl::TEXTURE_2D); gl.gl.Enable(gl::BLEND); gl.gl.Disable(gl::DEPTH_TEST); gl.gl.BindTexture(gl::TEXTURE_2D, self.texture_id); gl.gl.BindBuffer(gl::ARRAY_BUFFER, self.vbo); gl.gl.EnableVertexAttribArray(self.locs.position); gl.gl.EnableVertexAttribArray(self.locs.uv); gl.gl.EnableVertexAttribArray(self.locs.color); gl.gl.VertexAttribPointer( self.locs.position, 2, gl::FLOAT, gl::FALSE, mem::size_of::() as _, field_offset::(|v| &v.position) as _, ); gl.gl.VertexAttribPointer( self.locs.uv, 2, gl::FLOAT, gl::FALSE, mem::size_of::() as _, field_offset::(|v| &v.uv) as _, ); gl.gl.VertexAttribPointer( self.locs.color, 4, gl::UNSIGNED_BYTE, gl::TRUE, mem::size_of::() as _, field_offset::(|v| &v.color) as _, ); gl.gl.BindBuffer(gl::ARRAY_BUFFER, self.vbo); gl.gl.BufferData( gl::ARRAY_BUFFER, (self.vertices.len() * mem::size_of::()) as _, self.vertices.as_ptr() as _, gl::STREAM_DRAW, ); gl.gl.DrawArrays(gl::TRIANGLES, 0, self.vertices.len() as _); gl.gl.BindTexture(gl::TEXTURE_2D, 0); gl.gl.BindBuffer(gl::ARRAY_BUFFER, 0); Ok(()) } else { Err(RenderError("No OpenGL context available!".to_string())) } } } } impl Drop for GlutinTexture { fn drop(&mut self) { if *self.context_active.as_ref().borrow() { unsafe { if let Some(gl) = GL_PROC.as_ref() { if self.texture_id != 0 { let texture_id = &self.texture_id; gl.gl.DeleteTextures(1, texture_id as *const _); } if self.framebuffer_id != 0 {} } } } } } fn check_shader_compile_status(shader: u32, gl: &Gl) -> bool { unsafe { let mut status: GLint = 0; gl.gl.GetShaderiv(shader, gl::COMPILE_STATUS, (&mut status) as *mut _); if status == (gl::FALSE as GLint) { let mut max_length: GLint = 0; let mut msg_length: GLsizei = 0; gl.gl.GetShaderiv(shader, gl::INFO_LOG_LENGTH, (&mut max_length) as *mut _); let mut data: Vec = vec![0; max_length as usize]; gl.gl.GetShaderInfoLog( shader, max_length as GLsizei, (&mut msg_length) as *mut _, data.as_mut_ptr() as *mut _, ); let data = String::from_utf8_lossy(&data); log::error!("Failed to compile shader {}: {}", shader, data); return false; } } true } const IMGUI_SHADER_VERT: &str = r" #version 100 precision mediump float; uniform mat4 ProjMtx; attribute vec2 Position; attribute vec2 UV; attribute vec4 Color; varying vec2 Frag_UV; varying vec4 Frag_Color; void main() { Frag_UV = UV; Frag_Color = Color; gl_Position = ProjMtx * vec4(Position.xy, 0.0, 1.0); } "; const IMGUI_SHADER_FRAG: &str = r" #version 100 precision mediump float; uniform sampler2D Texture; varying vec2 Frag_UV; varying vec4 Frag_Color; void main() { gl_FragColor = Frag_Color * texture2D(Texture, Frag_UV.st); } "; #[derive(Copy, Clone)] struct Locs { texture: GLint, proj_mtx: GLint, position: GLuint, uv: GLuint, color: GLuint, } struct ImguiData { initialized: bool, program: GLuint, locs: Locs, vbo: GLuint, ebo: GLuint, font_texture: GLuint, font_tex_size: (f32, f32), } impl ImguiData { fn new() -> Self { ImguiData { initialized: false, program: 0, locs: Locs { texture: 0, proj_mtx: 0, position: 0, uv: 0, color: 0 }, vbo: 0, ebo: 0, font_texture: 0, font_tex_size: (1.0, 1.0), } } fn init(&mut self, imgui: &mut imgui::Context, gl: &Gl) { self.initialized = true; let vert_sources = [IMGUI_SHADER_VERT.as_ptr() as *const GLchar]; let frag_sources = [IMGUI_SHADER_FRAG.as_ptr() as *const GLchar]; let vert_sources_len = [IMGUI_SHADER_VERT.len() as GLint - 1]; let frag_sources_len = [IMGUI_SHADER_FRAG.len() as GLint - 1]; unsafe { self.program = gl.gl.CreateProgram(); let vert_shader = gl.gl.CreateShader(gl::VERTEX_SHADER); let frag_shader = gl.gl.CreateShader(gl::FRAGMENT_SHADER); gl.gl.ShaderSource(vert_shader, 1, vert_sources.as_ptr(), vert_sources_len.as_ptr()); gl.gl.ShaderSource(frag_shader, 1, frag_sources.as_ptr(), frag_sources_len.as_ptr()); gl.gl.CompileShader(vert_shader); gl.gl.CompileShader(frag_shader); gl.gl.AttachShader(self.program, vert_shader); gl.gl.AttachShader(self.program, frag_shader); gl.gl.LinkProgram(self.program); if !check_shader_compile_status(vert_shader, gl) { gl.gl.DeleteShader(vert_shader); } if !check_shader_compile_status(frag_shader, gl) { gl.gl.DeleteShader(frag_shader); } self.locs = Locs { texture: gl.gl.GetUniformLocation(self.program, b"Texture\0".as_ptr() as _), proj_mtx: gl.gl.GetUniformLocation(self.program, b"ProjMtx\0".as_ptr() as _), position: gl.gl.GetAttribLocation(self.program, b"Position\0".as_ptr() as _) as _, uv: gl.gl.GetAttribLocation(self.program, b"UV\0".as_ptr() as _) as _, color: gl.gl.GetAttribLocation(self.program, b"Color\0".as_ptr() as _) as _, }; self.vbo = return_param(|x| gl.gl.GenBuffers(1, x)); self.ebo = return_param(|x| gl.gl.GenBuffers(1, x)); let mut current_texture = 0; gl.gl.GetIntegerv(gl::TEXTURE_BINDING_2D, &mut current_texture); self.font_texture = return_param(|x| gl.gl.GenTextures(1, x)); gl.gl.BindTexture(gl::TEXTURE_2D, self.font_texture); gl.gl.TexParameteri(gl::TEXTURE_2D, gl::TEXTURE_MIN_FILTER, gl::LINEAR as _); gl.gl.TexParameteri(gl::TEXTURE_2D, gl::TEXTURE_MAG_FILTER, gl::LINEAR as _); //gl.gl.PixelStorei(gl::UNPACK_ROW_LENGTH, 0); { let mut atlas = imgui.fonts(); let texture = atlas.build_rgba32_texture(); self.font_tex_size = (texture.width as _, texture.height as _); gl.gl.TexImage2D( gl::TEXTURE_2D, 0, gl::RGBA as _, texture.width as _, texture.height as _, 0, gl::RGBA, gl::UNSIGNED_BYTE, texture.data.as_ptr() as _, ); atlas.tex_id = (self.font_texture as usize).into(); } gl.gl.BindTexture(gl::TEXTURE_2D, current_texture as _); } } } pub struct GlutinRenderer { refs: Rc>>>, imgui: UnsafeCell, imgui_data: ImguiData, context_active: Arc>, def_matrix: [[f32; 4]; 4], } pub struct Gl { pub gl: gl::Gles2, } static mut GL_PROC: Option = None; pub fn load_gl(gl_context: &glutin::Context) -> &'static Gl { unsafe { if let Some(gl) = GL_PROC.as_ref() { return gl; } let gl = gl::Gles2::load_with(|ptr| gl_context.get_proc_address(ptr) as *const _); let version = unsafe { let data = CStr::from_ptr(gl.GetString(gl::VERSION) as *const _).to_bytes().to_vec(); String::from_utf8(data).unwrap() }; log::info!("OpenGL version {}", version); GL_PROC = Some(Gl { gl }); GL_PROC.as_ref().unwrap() } } impl GlutinRenderer { fn get_context(&mut self) -> Option<(&mut WindowedContext, &'static Gl)> { let (refs, imgui) = unsafe { ((&mut *self.refs.get()).as_mut(), &mut *self.imgui.get()) }; refs.map(|context| { let gl = load_gl(context); if !self.imgui_data.initialized { self.imgui_data.init(imgui, gl); } (context, gl) }) } } fn field_offset FnOnce(&'a T) -> &'a U>(f: F) -> usize { unsafe { let instance = mem::zeroed::(); let offset = { let field: &U = f(&instance); field as *const U as usize - &instance as *const T as usize }; mem::forget(instance); offset } } fn return_param(f: F) -> T where F: FnOnce(&mut T), { let mut val = unsafe { mem::zeroed() }; f(&mut val); val } impl BackendRenderer for GlutinRenderer { fn clear(&mut self, color: Color) { if let Some((_, gl)) = self.get_context() { unsafe { gl.gl.ClearColor(color.r, color.g, color.b, color.a); gl.gl.Clear(gl::COLOR_BUFFER_BIT); } } } fn present(&mut self) -> GameResult { { let mutex = GAME_SUSPENDED.lock().unwrap(); if *mutex { return Ok(()); } } if let Some((context, gl)) = self.get_context() { unsafe { gl.gl.Finish(); } context.swap_buffers().map_err(|e| RenderError(e.to_string()))?; } Ok(()) } fn prepare_draw(&mut self, width: f32, height: f32) -> GameResult { if let Some((_, gl)) = self.get_context() { unsafe { gl.gl.ActiveTexture(gl::TEXTURE0); gl.gl.BlendEquation(gl::FUNC_ADD); gl.gl.BlendFunc(gl::SRC_ALPHA, gl::ONE_MINUS_SRC_ALPHA); gl.gl.Viewport(0, 0, width as _, height as _); self.def_matrix = [ [2.0 / width, 0.0, 0.0, 0.0], [0.0, 2.0 / -height, 0.0, 0.0], [0.0, 0.0, -1.0, 0.0], [-1.0, 1.0, 0.0, 1.0], ]; gl.gl.BindBuffer(gl::ARRAY_BUFFER, 0); gl.gl.BindBuffer(gl::ELEMENT_ARRAY_BUFFER, 0); gl.gl.UseProgram(self.imgui_data.program); gl.gl.Uniform1i(self.imgui_data.locs.texture, 0); gl.gl.UniformMatrix4fv(self.imgui_data.locs.proj_mtx, 1, gl::FALSE, self.def_matrix.as_ptr() as _); } Ok(()) } else { Err(RenderError("No OpenGL context available!".to_string())) } } fn create_texture_mutable(&mut self, width: u16, height: u16) -> GameResult> { if let Some((_, gl)) = self.get_context() { unsafe { let data = vec![0u8; width as usize * height as usize * 4]; let current_texture_id = return_param(|x| gl.gl.GetIntegerv(gl::TEXTURE_BINDING_2D, x)) as u32; let texture_id = return_param(|x| gl.gl.GenTextures(1, x)); gl.gl.BindTexture(gl::TEXTURE_2D, texture_id); gl.gl.TexParameteri(gl::TEXTURE_2D, gl::TEXTURE_MIN_FILTER, gl::NEAREST as _); gl.gl.TexParameteri(gl::TEXTURE_2D, gl::TEXTURE_MAG_FILTER, gl::NEAREST as _); gl.gl.TexImage2D( gl::TEXTURE_2D, 0, gl::RGBA as _, width as _, height as _, 0, gl::RGBA, gl::UNSIGNED_BYTE, data.as_ptr() as _, ); gl.gl.BindTexture(gl::TEXTURE_2D, current_texture_id); let framebuffer_id = return_param(|x| gl.gl.GenFramebuffers(1, x)); gl.gl.BindFramebuffer(gl::FRAMEBUFFER, framebuffer_id); gl.gl.FramebufferTexture2D(gl::FRAMEBUFFER, gl::COLOR_ATTACHMENT0, gl::TEXTURE_2D, texture_id, 0); let draw_buffers = [gl::COLOR_ATTACHMENT0]; gl.gl.DrawBuffers(1, draw_buffers.as_ptr() as _); gl.gl.Viewport(0, 0, width as _, height as _); gl.gl.BindFramebuffer(gl::FRAMEBUFFER, 0); // todo error checking: glCheckFramebufferStatus() Ok(Box::new(GlutinTexture { texture_id, framebuffer_id, width, height, vertices: Vec::new(), locs: self.imgui_data.locs, vbo: self.imgui_data.vbo, context_active: self.context_active.clone(), })) } } else { Err(RenderError("No OpenGL context available!".to_string())) } } fn create_texture(&mut self, width: u16, height: u16, data: &[u8]) -> GameResult> { if let Some((_, gl)) = self.get_context() { unsafe { let current_texture_id = return_param(|x| gl.gl.GetIntegerv(gl::TEXTURE_BINDING_2D, x)) as u32; let texture_id = return_param(|x| gl.gl.GenTextures(1, x)); gl.gl.BindTexture(gl::TEXTURE_2D, texture_id); gl.gl.TexParameteri(gl::TEXTURE_2D, gl::TEXTURE_MIN_FILTER, gl::NEAREST as _); gl.gl.TexParameteri(gl::TEXTURE_2D, gl::TEXTURE_MAG_FILTER, gl::NEAREST as _); gl.gl.TexImage2D( gl::TEXTURE_2D, 0, gl::RGBA as _, width as _, height as _, 0, gl::RGBA, gl::UNSIGNED_BYTE, data.as_ptr() as _, ); gl.gl.BindTexture(gl::TEXTURE_2D, current_texture_id); Ok(Box::new(GlutinTexture { texture_id, framebuffer_id: 0, width, height, vertices: Vec::new(), locs: self.imgui_data.locs, vbo: self.imgui_data.vbo, context_active: self.context_active.clone(), })) } } else { Err(RenderError("No OpenGL context available!".to_string())) } } fn set_blend_mode(&mut self, blend: BlendMode) -> GameResult { if let Some((_, gl)) = self.get_context() { match blend { BlendMode::Add => unsafe { gl.gl.BlendEquation(gl::FUNC_ADD); gl.gl.BlendFunc(gl::ONE, gl::ONE); }, BlendMode::Alpha => unsafe { gl.gl.BlendEquation(gl::FUNC_ADD); gl.gl.BlendFunc(gl::SRC_ALPHA, gl::ONE_MINUS_SRC_ALPHA); }, BlendMode::Multiply => unsafe { gl.gl.BlendEquation(gl::FUNC_ADD); gl.gl.BlendFuncSeparate(gl::ZERO, gl::SRC_COLOR, gl::ZERO, gl::SRC_ALPHA); }, } Ok(()) } else { Err(RenderError("No OpenGL context available!".to_string())) } } fn set_render_target(&mut self, texture: Option<&Box>) -> GameResult { if let Some((_, gl)) = self.get_context() { unsafe { if let Some(texture) = texture { let gl_texture: &Box = std::mem::transmute(texture); let matrix = [ [2.0 / (gl_texture.width as f32), 0.0, 0.0, 0.0], [0.0, 2.0 / (gl_texture.height as f32), 0.0, 0.0], [0.0, 0.0, -1.0, 0.0], [-1.0, -1.0, 0.0, 1.0], ]; gl.gl.UniformMatrix4fv(self.imgui_data.locs.proj_mtx, 1, gl::FALSE, matrix.as_ptr() as _); gl.gl.BindFramebuffer(gl::FRAMEBUFFER, gl_texture.framebuffer_id); } else { gl.gl.UniformMatrix4fv(self.imgui_data.locs.proj_mtx, 1, gl::FALSE, self.def_matrix.as_ptr() as _); gl.gl.BindFramebuffer(gl::FRAMEBUFFER, 0); } } Ok(()) } else { Err(RenderError("No OpenGL context available!".to_string())) } } fn draw_rect(&mut self, rect: Rect, color: Color) -> GameResult { unsafe { if let Some(gl) = GL_PROC.as_ref() { let color = color.to_rgba(); let mut uv = self.imgui_data.font_tex_size; uv.0 = 0.0 / uv.0; uv.1 = 0.0 / uv.1; let vertices = [ VertexData { position: (rect.left as _, rect.bottom as _), uv, color }, VertexData { position: (rect.left as _, rect.top as _), uv, color }, VertexData { position: (rect.right as _, rect.top as _), uv, color }, VertexData { position: (rect.left as _, rect.bottom as _), uv, color }, VertexData { position: (rect.right as _, rect.top as _), uv, color }, VertexData { position: (rect.right as _, rect.bottom as _), uv, color }, ]; if gl.gl.BindSampler.is_loaded() { gl.gl.BindSampler(0, 0); } gl.gl.BindBuffer(gl::ARRAY_BUFFER, self.imgui_data.vbo); gl.gl.EnableVertexAttribArray(self.imgui_data.locs.position); gl.gl.EnableVertexAttribArray(self.imgui_data.locs.uv); gl.gl.EnableVertexAttribArray(self.imgui_data.locs.color); gl.gl.VertexAttribPointer( self.imgui_data.locs.position, 2, gl::FLOAT, gl::FALSE, mem::size_of::() as _, field_offset::(|v| &v.position) as _, ); gl.gl.VertexAttribPointer( self.imgui_data.locs.uv, 2, gl::FLOAT, gl::FALSE, mem::size_of::() as _, field_offset::(|v| &v.uv) as _, ); gl.gl.VertexAttribPointer( self.imgui_data.locs.color, 4, gl::UNSIGNED_BYTE, gl::TRUE, mem::size_of::() as _, field_offset::(|v| &v.color) as _, ); gl.gl.BindTexture(gl::TEXTURE_2D, self.imgui_data.font_texture); gl.gl.BindBuffer(gl::ARRAY_BUFFER, self.imgui_data.vbo); gl.gl.BufferData( gl::ARRAY_BUFFER, (vertices.len() * mem::size_of::()) as _, vertices.as_ptr() as _, gl::STREAM_DRAW, ); gl.gl.DrawArrays(gl::TRIANGLES, 0, vertices.len() as _); gl.gl.BindTexture(gl::TEXTURE_2D, 0); gl.gl.BindBuffer(gl::ARRAY_BUFFER, 0); Ok(()) } else { Err(RenderError("No OpenGL context available!".to_string())) } } } fn draw_outline_rect(&mut self, rect: Rect, line_width: usize, color: Color) -> GameResult { Ok(()) } fn imgui(&self) -> GameResult<&mut imgui::Context> { unsafe { Ok(&mut *self.imgui.get()) } } fn render_imgui(&mut self, draw_data: &DrawData) -> GameResult { // https://github.com/michaelfairley/rust-imgui-opengl-renderer if let Some((_, gl)) = self.get_context() { unsafe { gl.gl.ActiveTexture(gl::TEXTURE0); gl.gl.Enable(gl::BLEND); gl.gl.BlendEquation(gl::FUNC_ADD); gl.gl.BlendFunc(gl::SRC_ALPHA, gl::ONE_MINUS_SRC_ALPHA); gl.gl.Disable(gl::CULL_FACE); gl.gl.Disable(gl::DEPTH_TEST); gl.gl.Enable(gl::SCISSOR_TEST); let imgui = self.imgui()?; let [width, height] = imgui.io().display_size; let [scale_w, scale_h] = imgui.io().display_framebuffer_scale; let fb_width = width * scale_w; let fb_height = height * scale_h; gl.gl.Viewport(0, 0, fb_width as _, fb_height as _); let matrix = [ [2.0 / width as f32, 0.0, 0.0, 0.0], [0.0, 2.0 / -(height as f32), 0.0, 0.0], [0.0, 0.0, -1.0, 0.0], [-1.0, 1.0, 0.0, 1.0], ]; gl.gl.UseProgram(self.imgui_data.program); gl.gl.Uniform1i(self.imgui_data.locs.texture, 0); gl.gl.UniformMatrix4fv(self.imgui_data.locs.proj_mtx, 1, gl::FALSE, matrix.as_ptr() as _); if gl.gl.BindSampler.is_loaded() { gl.gl.BindSampler(0, 0); } // let vao = return_param(|x| gl.gl.GenVertexArrays(1, x)); //gl.gl.BindVertexArray(vao); gl.gl.BindBuffer(gl::ARRAY_BUFFER, self.imgui_data.vbo); gl.gl.EnableVertexAttribArray(self.imgui_data.locs.position); gl.gl.EnableVertexAttribArray(self.imgui_data.locs.uv); gl.gl.EnableVertexAttribArray(self.imgui_data.locs.color); gl.gl.VertexAttribPointer( self.imgui_data.locs.position, 2, gl::FLOAT, gl::FALSE, mem::size_of::() as _, field_offset::(|v| &v.pos) as _, ); gl.gl.VertexAttribPointer( self.imgui_data.locs.uv, 2, gl::FLOAT, gl::FALSE, mem::size_of::() as _, field_offset::(|v| &v.uv) as _, ); gl.gl.VertexAttribPointer( self.imgui_data.locs.color, 4, gl::UNSIGNED_BYTE, gl::TRUE, mem::size_of::() as _, field_offset::(|v| &v.col) as _, ); for draw_list in draw_data.draw_lists() { let vtx_buffer = draw_list.vtx_buffer(); let idx_buffer = draw_list.idx_buffer(); gl.gl.BindBuffer(gl::ARRAY_BUFFER, self.imgui_data.vbo); gl.gl.BufferData( gl::ARRAY_BUFFER, (vtx_buffer.len() * mem::size_of::()) as _, vtx_buffer.as_ptr() as _, gl::STREAM_DRAW, ); gl.gl.BindBuffer(gl::ELEMENT_ARRAY_BUFFER, self.imgui_data.ebo); gl.gl.BufferData( gl::ELEMENT_ARRAY_BUFFER, (idx_buffer.len() * mem::size_of::()) as _, idx_buffer.as_ptr() as _, gl::STREAM_DRAW, ); for cmd in draw_list.commands() { match cmd { DrawCmd::Elements { count, cmd_params: DrawCmdParams { clip_rect: [x, y, z, w], texture_id, idx_offset, .. }, } => { gl.gl.BindTexture(gl::TEXTURE_2D, texture_id.id() as _); gl.gl.Scissor( (x * scale_w) as GLint, (fb_height - w * scale_h) as GLint, ((z - x) * scale_w) as GLint, ((w - y) * scale_h) as GLint, ); let idx_size = if mem::size_of::() == 2 { gl::UNSIGNED_SHORT } else { gl::UNSIGNED_INT }; gl.gl.DrawElements( gl::TRIANGLES, count as _, idx_size, (idx_offset * mem::size_of::()) as _, ); } DrawCmd::ResetRenderState => {} DrawCmd::RawCallback { .. } => {} } } } //gl.gl.DeleteVertexArrays(1, &vao); } } Ok(()) } } impl Drop for GlutinRenderer { fn drop(&mut self) { *self.context_active.as_ref().borrow_mut() = false; } } fn conv_keycode(code: VirtualKeyCode) -> Option { match code { VirtualKeyCode::Key1 => Some(ScanCode::Key1), VirtualKeyCode::Key2 => Some(ScanCode::Key2), VirtualKeyCode::Key3 => Some(ScanCode::Key3), VirtualKeyCode::Key4 => Some(ScanCode::Key4), VirtualKeyCode::Key5 => Some(ScanCode::Key5), VirtualKeyCode::Key6 => Some(ScanCode::Key6), VirtualKeyCode::Key7 => Some(ScanCode::Key7), VirtualKeyCode::Key8 => Some(ScanCode::Key8), VirtualKeyCode::Key9 => Some(ScanCode::Key9), VirtualKeyCode::Key0 => Some(ScanCode::Key0), VirtualKeyCode::A => Some(ScanCode::A), VirtualKeyCode::B => Some(ScanCode::B), VirtualKeyCode::C => Some(ScanCode::C), VirtualKeyCode::D => Some(ScanCode::D), VirtualKeyCode::E => Some(ScanCode::E), VirtualKeyCode::F => Some(ScanCode::F), VirtualKeyCode::G => Some(ScanCode::G), VirtualKeyCode::H => Some(ScanCode::H), VirtualKeyCode::I => Some(ScanCode::I), VirtualKeyCode::J => Some(ScanCode::J), VirtualKeyCode::K => Some(ScanCode::K), VirtualKeyCode::L => Some(ScanCode::L), VirtualKeyCode::M => Some(ScanCode::M), VirtualKeyCode::N => Some(ScanCode::N), VirtualKeyCode::O => Some(ScanCode::O), VirtualKeyCode::P => Some(ScanCode::P), VirtualKeyCode::Q => Some(ScanCode::Q), VirtualKeyCode::R => Some(ScanCode::R), VirtualKeyCode::S => Some(ScanCode::S), VirtualKeyCode::T => Some(ScanCode::T), VirtualKeyCode::U => Some(ScanCode::U), VirtualKeyCode::V => Some(ScanCode::V), VirtualKeyCode::W => Some(ScanCode::W), VirtualKeyCode::X => Some(ScanCode::X), VirtualKeyCode::Y => Some(ScanCode::Y), VirtualKeyCode::Z => Some(ScanCode::Z), VirtualKeyCode::Escape => Some(ScanCode::Escape), VirtualKeyCode::F1 => Some(ScanCode::F1), VirtualKeyCode::F2 => Some(ScanCode::F2), VirtualKeyCode::F3 => Some(ScanCode::F3), VirtualKeyCode::F4 => Some(ScanCode::F4), VirtualKeyCode::F5 => Some(ScanCode::F5), VirtualKeyCode::F6 => Some(ScanCode::F6), VirtualKeyCode::F7 => Some(ScanCode::F7), VirtualKeyCode::F8 => Some(ScanCode::F8), VirtualKeyCode::F9 => Some(ScanCode::F9), VirtualKeyCode::F10 => Some(ScanCode::F10), VirtualKeyCode::F11 => Some(ScanCode::F11), VirtualKeyCode::F12 => Some(ScanCode::F12), VirtualKeyCode::F13 => Some(ScanCode::F13), VirtualKeyCode::F14 => Some(ScanCode::F14), VirtualKeyCode::F15 => Some(ScanCode::F15), VirtualKeyCode::F16 => Some(ScanCode::F16), VirtualKeyCode::F17 => Some(ScanCode::F17), VirtualKeyCode::F18 => Some(ScanCode::F18), VirtualKeyCode::F19 => Some(ScanCode::F19), VirtualKeyCode::F20 => Some(ScanCode::F20), VirtualKeyCode::F21 => Some(ScanCode::F21), VirtualKeyCode::F22 => Some(ScanCode::F22), VirtualKeyCode::F23 => Some(ScanCode::F23), VirtualKeyCode::F24 => Some(ScanCode::F24), VirtualKeyCode::Snapshot => Some(ScanCode::Snapshot), VirtualKeyCode::Scroll => Some(ScanCode::Scroll), VirtualKeyCode::Pause => Some(ScanCode::Pause), VirtualKeyCode::Insert => Some(ScanCode::Insert), VirtualKeyCode::Home => Some(ScanCode::Home), VirtualKeyCode::Delete => Some(ScanCode::Delete), VirtualKeyCode::End => Some(ScanCode::End), VirtualKeyCode::PageDown => Some(ScanCode::PageDown), VirtualKeyCode::PageUp => Some(ScanCode::PageUp), VirtualKeyCode::Left => Some(ScanCode::Left), VirtualKeyCode::Up => Some(ScanCode::Up), VirtualKeyCode::Right => Some(ScanCode::Right), VirtualKeyCode::Down => Some(ScanCode::Down), VirtualKeyCode::Back => Some(ScanCode::Back), VirtualKeyCode::Return => Some(ScanCode::Return), VirtualKeyCode::Space => Some(ScanCode::Space), VirtualKeyCode::Compose => Some(ScanCode::Compose), VirtualKeyCode::Caret => Some(ScanCode::Caret), VirtualKeyCode::Numlock => Some(ScanCode::Numlock), VirtualKeyCode::Numpad0 => Some(ScanCode::Numpad0), VirtualKeyCode::Numpad1 => Some(ScanCode::Numpad1), VirtualKeyCode::Numpad2 => Some(ScanCode::Numpad2), VirtualKeyCode::Numpad3 => Some(ScanCode::Numpad3), VirtualKeyCode::Numpad4 => Some(ScanCode::Numpad4), VirtualKeyCode::Numpad5 => Some(ScanCode::Numpad5), VirtualKeyCode::Numpad6 => Some(ScanCode::Numpad6), VirtualKeyCode::Numpad7 => Some(ScanCode::Numpad7), VirtualKeyCode::Numpad8 => Some(ScanCode::Numpad8), VirtualKeyCode::Numpad9 => Some(ScanCode::Numpad9), VirtualKeyCode::NumpadAdd => Some(ScanCode::NumpadAdd), VirtualKeyCode::NumpadDivide => Some(ScanCode::NumpadDivide), VirtualKeyCode::NumpadDecimal => Some(ScanCode::NumpadDecimal), VirtualKeyCode::NumpadComma => Some(ScanCode::NumpadComma), VirtualKeyCode::NumpadEnter => Some(ScanCode::NumpadEnter), VirtualKeyCode::NumpadEquals => Some(ScanCode::NumpadEquals), VirtualKeyCode::NumpadMultiply => Some(ScanCode::NumpadMultiply), VirtualKeyCode::NumpadSubtract => Some(ScanCode::NumpadSubtract), VirtualKeyCode::AbntC1 => Some(ScanCode::AbntC1), VirtualKeyCode::AbntC2 => Some(ScanCode::AbntC2), VirtualKeyCode::Apostrophe => Some(ScanCode::Apostrophe), VirtualKeyCode::Apps => Some(ScanCode::Apps), VirtualKeyCode::Asterisk => Some(ScanCode::Asterisk), VirtualKeyCode::At => Some(ScanCode::At), VirtualKeyCode::Ax => Some(ScanCode::Ax), VirtualKeyCode::Backslash => Some(ScanCode::Backslash), VirtualKeyCode::Calculator => Some(ScanCode::Calculator), VirtualKeyCode::Capital => Some(ScanCode::Capital), VirtualKeyCode::Colon => Some(ScanCode::Colon), VirtualKeyCode::Comma => Some(ScanCode::Comma), VirtualKeyCode::Convert => Some(ScanCode::Convert), VirtualKeyCode::Equals => Some(ScanCode::Equals), VirtualKeyCode::Grave => Some(ScanCode::Grave), VirtualKeyCode::Kana => Some(ScanCode::Kana), VirtualKeyCode::Kanji => Some(ScanCode::Kanji), VirtualKeyCode::LAlt => Some(ScanCode::LAlt), VirtualKeyCode::LBracket => Some(ScanCode::LBracket), VirtualKeyCode::LControl => Some(ScanCode::LControl), VirtualKeyCode::LShift => Some(ScanCode::LShift), VirtualKeyCode::LWin => Some(ScanCode::LWin), VirtualKeyCode::Mail => Some(ScanCode::Mail), VirtualKeyCode::MediaSelect => Some(ScanCode::MediaSelect), VirtualKeyCode::MediaStop => Some(ScanCode::MediaStop), VirtualKeyCode::Minus => Some(ScanCode::Minus), VirtualKeyCode::Mute => Some(ScanCode::Mute), VirtualKeyCode::MyComputer => Some(ScanCode::MyComputer), VirtualKeyCode::NavigateForward => Some(ScanCode::NavigateForward), VirtualKeyCode::NavigateBackward => Some(ScanCode::NavigateBackward), VirtualKeyCode::NextTrack => Some(ScanCode::NextTrack), VirtualKeyCode::NoConvert => Some(ScanCode::NoConvert), VirtualKeyCode::OEM102 => Some(ScanCode::OEM102), VirtualKeyCode::Period => Some(ScanCode::Period), VirtualKeyCode::PlayPause => Some(ScanCode::PlayPause), VirtualKeyCode::Plus => Some(ScanCode::Plus), VirtualKeyCode::Power => Some(ScanCode::Power), VirtualKeyCode::PrevTrack => Some(ScanCode::PrevTrack), VirtualKeyCode::RAlt => Some(ScanCode::RAlt), VirtualKeyCode::RBracket => Some(ScanCode::RBracket), VirtualKeyCode::RControl => Some(ScanCode::RControl), VirtualKeyCode::RShift => Some(ScanCode::RShift), VirtualKeyCode::RWin => Some(ScanCode::RWin), VirtualKeyCode::Semicolon => Some(ScanCode::Semicolon), VirtualKeyCode::Slash => Some(ScanCode::Slash), VirtualKeyCode::Sleep => Some(ScanCode::Sleep), VirtualKeyCode::Stop => Some(ScanCode::Stop), VirtualKeyCode::Sysrq => Some(ScanCode::Sysrq), VirtualKeyCode::Tab => Some(ScanCode::Tab), VirtualKeyCode::Underline => Some(ScanCode::Underline), VirtualKeyCode::Unlabeled => Some(ScanCode::Unlabeled), VirtualKeyCode::VolumeDown => Some(ScanCode::VolumeDown), VirtualKeyCode::VolumeUp => Some(ScanCode::VolumeUp), VirtualKeyCode::Wake => Some(ScanCode::Wake), VirtualKeyCode::WebBack => Some(ScanCode::WebBack), VirtualKeyCode::WebFavorites => Some(ScanCode::WebFavorites), VirtualKeyCode::WebForward => Some(ScanCode::WebForward), VirtualKeyCode::WebHome => Some(ScanCode::WebHome), VirtualKeyCode::WebRefresh => Some(ScanCode::WebRefresh), VirtualKeyCode::WebSearch => Some(ScanCode::WebSearch), VirtualKeyCode::WebStop => Some(ScanCode::WebStop), VirtualKeyCode::Yen => Some(ScanCode::Yen), VirtualKeyCode::Copy => Some(ScanCode::Copy), VirtualKeyCode::Paste => Some(ScanCode::Paste), VirtualKeyCode::Cut => Some(ScanCode::Cut), } }