163 lines
6.6 KiB
Rust
163 lines
6.6 KiB
Rust
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use glow::*;
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use std::fs;
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use std::sync::Arc;
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use std::str;
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/// Shader Struct for creating and using shaders in the Context of engine
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///
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pub struct shader {
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pub ID: NativeProgram,
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pub gl: Arc<glow::Context>
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}
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impl shader
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{
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/// Shader Constructor, will read, Compile and Create GLSL Program for use
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///
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/// # Example
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/// `new(String::from("Example"))`
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/// if the String given was "Example" the Program expects both shaders to be in the directory "resources/shaders/Example/"
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/// with the vertex shader being called "shader.vert" and fragment "shader.frag"
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pub fn new(path: &str, gl: Arc<glow::Context>) -> shader
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{
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//read file contents
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let VERT_SHADER = fs::read_to_string(format!("resources/shaders/{path}/shader.vert")).unwrap();
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let FRAG_SHADER = fs::read_to_string(format!("resources/shaders/{path}/shader.frag")).unwrap();
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//create vertex shader
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let vertex_shader = unsafe {gl.create_shader(glow::VERTEX_SHADER).unwrap() };
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unsafe {
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gl.shader_source(vertex_shader, &VERT_SHADER);
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gl.compile_shader(vertex_shader);
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}
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// create fragment shader
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let fragment_shader = unsafe{gl.create_shader(glow::FRAGMENT_SHADER).unwrap()};
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unsafe {
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gl.shader_source(fragment_shader, &FRAG_SHADER);
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gl.compile_shader(fragment_shader);
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if !gl.get_shader_compile_status(fragment_shader) {
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panic!("Error, Compiling Fragment Shader: {}", gl.get_shader_info_log(fragment_shader));
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}
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let shader_program = gl.create_program().unwrap();
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gl.attach_shader(shader_program, vertex_shader);
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gl.attach_shader(shader_program, fragment_shader);
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gl.link_program(shader_program);
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if !gl.get_program_link_status(shader_program) {
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panic!("Error, Linking Shader Program {}", gl.get_program_info_log(shader_program));
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}
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gl.detach_shader(shader_program, vertex_shader);
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gl.detach_shader(shader_program, fragment_shader);
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gl.delete_shader(vertex_shader);
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gl.delete_shader(fragment_shader);
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shader {
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ID: shader_program,
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gl: Arc::clone(&gl),
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}
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}
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}
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// return program
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/// uses Shader
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pub fn Use(&self)
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{
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unsafe {self.gl.use_program(Some(self.ID));}
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}
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// BOILERPLATE JUMPSCARE
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/*
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pub fn setBool(&self, name: &str, value: bool )
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{unsafe {self.gl.uniform_1_bool(self.gl.get_uniform_location(self.ID, name).as_ref(), value);}}
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*/
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pub fn setInt(&self, name: &str, value: i32 )
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{unsafe {self.gl.uniform_1_i32(self.gl.get_uniform_location(self.ID, name).as_ref(), value);}}
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pub fn setFloat(&self, name: &str, value: f32 )
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{unsafe {self.gl.uniform_1_f32(self.gl.get_uniform_location(self.ID, name).as_ref(), value);}}
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pub fn setVector2(&self, name: &str, value: cgmath::Vector2<f32> )
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{unsafe {self.gl.uniform_2_f32(self.gl.get_uniform_location(self.ID, name).as_ref(), value[0], value[1]);}}
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pub fn setVector2d(&self, name: &str, x: f32, y: f32)
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{unsafe {self.gl.uniform_2_f32(self.gl.get_uniform_location(self.ID, name).as_ref(), x, y);}}
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pub fn setVector3(&self, name: &str, value: cgmath::Vector3<f32> )
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{unsafe {self.gl.uniform_3_f32(self.gl.get_uniform_location(self.ID, name).as_ref(), value[0], value[1], value[2]);}}
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pub fn setVector3d(&self, name: &str, x: f32, y: f32, z: f32 )
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{unsafe {self.gl.uniform_3_f32(self.gl.get_uniform_location(self.ID, name).as_ref(), x, y, z);}}
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pub fn setVector4(&self, name: &str, value: &cgmath::Vector4<f32> )
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{unsafe {self.gl.uniform_4_f32(self.gl.get_uniform_location(self.ID, name).as_ref(), value[0], value[1], value[2], value[3]);}}
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pub fn setVector4d(&self, name: &str, x: f32, y: f32, z: f32, w: f32)
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{unsafe {self.gl.uniform_4_f32(self.gl.get_uniform_location(self.ID, name).as_ref(), x, y, z, w);}}
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//pub fn setMat2(&self, name: &str, value: cgmath::Matrix2<f32>)
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pub fn setMat3(&self, name: &str, value: cgmath::Matrix3<f32>)
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{
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let nums = vec![value.x.x, value.x.y, value.x.z,
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value.y.x, value.y.y, value.y.z,
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value.z.x, value.z.y, value.z.z];
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unsafe
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{
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self.gl.uniform_matrix_3_f32_slice(self.gl.get_uniform_location(self.ID, name).as_ref(), false, nums.as_ref());
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}
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}
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pub fn setMat4(&self, name: &str, value: &cgmath::Matrix4<f32>)
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{
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let nums = vec![value.x.x, value.x.y, value.x.z, value.x.w,
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value.y.x, value.y.y, value.y.z, value.y.w,
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value.z.x, value.z.y, value.z.z, value.z.w,
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value.w.x, value.w.y, value.w.z, value.w.w];
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unsafe
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{
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self.gl.uniform_matrix_4_f32_slice(self.gl.get_uniform_location(self.ID, name).as_ref(), false, nums.as_ref());
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}
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}
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}
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#[cfg(test)]
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mod tests {
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use glfw;
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use glfw::Context;
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use gl;
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use super::*;
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#[test]
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fn ShaderLoading() {
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// initialize GLFW
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let mut glfw = glfw::init(glfw::FAIL_ON_ERRORS).unwrap();
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// set window hints
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glfw.window_hint(glfw::WindowHint::ContextVersion(3, 3));
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glfw.window_hint(glfw::WindowHint::OpenGlProfile(glfw::OpenGlProfileHint::Core));
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glfw.window_hint(glfw::WindowHint::OpenGlForwardCompat(true));
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glfw.window_hint(glfw::WindowHint::Resizable(false));
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//create Window
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let (mut window, events) = glfw.create_window(480, 320, "Shader Test", glfw::WindowMode::Windowed).unwrap();
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let (screen_width, screen_height) = window.get_framebuffer_size();
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// setup window
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window.make_current();
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window.set_key_polling(true);
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// initialize gl
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gl::load_with(|ptr| window.get_proc_address(ptr) as *const _);
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let Shader = shader::new("basic");
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Shader.Use();
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}
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}
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