/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ // https://www.khronos.org/registry/webgl/specs/latest/1.0/webgl.idl use dom::bindings::codegen::Bindings::WebGLProgramBinding; use dom::bindings::global::GlobalRef; use dom::bindings::js::{JS, MutNullableHeap, Root}; use dom::bindings::utils::reflect_dom_object; use dom::webglobject::WebGLObject; use dom::webglrenderingcontext::MAX_UNIFORM_AND_ATTRIBUTE_LEN; use dom::webglshader::WebGLShader; use dom::bindings::codegen::Bindings::WebGLRenderingContextBinding::WebGLRenderingContextConstants as constants; use canvas_traits::{CanvasMsg, CanvasWebGLMsg, WebGLResult, WebGLError}; use ipc_channel::ipc::{self, IpcSender}; use std::cell::Cell; #[dom_struct] pub struct WebGLProgram { webgl_object: WebGLObject, id: u32, is_deleted: Cell, fragment_shader: MutNullableHeap>, vertex_shader: MutNullableHeap>, #[ignore_heap_size_of = "Defined in ipc-channel"] renderer: IpcSender, } impl WebGLProgram { fn new_inherited(renderer: IpcSender, id: u32) -> WebGLProgram { WebGLProgram { webgl_object: WebGLObject::new_inherited(), id: id, is_deleted: Cell::new(false), fragment_shader: Default::default(), vertex_shader: Default::default(), renderer: renderer, } } pub fn maybe_new(global: GlobalRef, renderer: IpcSender) -> Option> { let (sender, receiver) = ipc::channel().unwrap(); renderer.send(CanvasMsg::WebGL(CanvasWebGLMsg::CreateProgram(sender))).unwrap(); let result = receiver.recv().unwrap(); result.map(|program_id| WebGLProgram::new(global, renderer, *program_id)) } pub fn new(global: GlobalRef, renderer: IpcSender, id: u32) -> Root { reflect_dom_object(box WebGLProgram::new_inherited(renderer, id), global, WebGLProgramBinding::Wrap) } } impl WebGLProgram { /// glDeleteProgram pub fn delete(&self) { if !self.is_deleted.get() { self.is_deleted.set(true); self.renderer.send(CanvasMsg::WebGL(CanvasWebGLMsg::DeleteProgram(self.id))).unwrap(); } } /// glLinkProgram pub fn link(&self) { self.renderer.send(CanvasMsg::WebGL(CanvasWebGLMsg::LinkProgram(self.id))).unwrap(); } /// glUseProgram pub fn use_program(&self) { self.renderer.send(CanvasMsg::WebGL(CanvasWebGLMsg::UseProgram(self.id))).unwrap(); } /// glAttachShader pub fn attach_shader(&self, shader: &WebGLShader) -> WebGLResult<()> { let shader_slot = match shader.gl_type() { constants::FRAGMENT_SHADER => &self.fragment_shader, constants::VERTEX_SHADER => &self.vertex_shader, _ => return Err(WebGLError::InvalidOperation), }; // TODO(ecoal95): Differentiate between same shader already assigned and other previous // shader. if shader_slot.get().is_some() { return Err(WebGLError::InvalidOperation); } shader_slot.set(Some(JS::from_ref(shader))); self.renderer.send(CanvasMsg::WebGL(CanvasWebGLMsg::AttachShader(self.id, shader.id()))).unwrap(); Ok(()) } /// glGetAttribLocation pub fn get_attrib_location(&self, name: String) -> WebGLResult> { if name.len() > MAX_UNIFORM_AND_ATTRIBUTE_LEN { return Err(WebGLError::InvalidValue); } // Check if the name is reserved if name.starts_with("webgl") || name.starts_with("_webgl_") { return Ok(None); } let (sender, receiver) = ipc::channel().unwrap(); self.renderer.send(CanvasMsg::WebGL(CanvasWebGLMsg::GetAttribLocation(self.id, name, sender))).unwrap(); Ok(receiver.recv().unwrap()) } /// glGetUniformLocation pub fn get_uniform_location(&self, name: String) -> WebGLResult> { if name.len() > MAX_UNIFORM_AND_ATTRIBUTE_LEN { return Err(WebGLError::InvalidValue); } // Check if the name is reserved if name.starts_with("webgl") || name.starts_with("_webgl_") { return Ok(None); } let (sender, receiver) = ipc::channel().unwrap(); self.renderer.send(CanvasMsg::WebGL(CanvasWebGLMsg::GetUniformLocation(self.id, name, sender))).unwrap(); Ok(receiver.recv().unwrap()) } }