/* * Copyright (C) Oscar Shrimpton 2020 * * This program is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the Free * Software Foundation, either version 3 of the License, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . */ //! A chunk of textures is an array of textures, the size of which is known at compile time. //! This reduces the number of times we need to re-bind our descriptor sets use hal::prelude::*; use image::{Rgba, RgbaImage}; use core::mem::replace; use std::ops::Deref; use crate::{error, types::*}; use super::image::SampledImage; use super::resolver::TextureResolver; use log::debug; use std::iter::Iterator; use stockton_levels::traits::textures::Texture; /// The size of a chunk. Needs to match up with the fragment shader pub const CHUNK_SIZE: usize = 8; /// An array of textures pub struct TextureChunk { pub(crate) descriptor_set: DescriptorSet, sampled_images: Vec, } impl TextureChunk { /// Create a new texture chunk and load in the textures specified by `range` from `file` using `resolver` /// Can error if the descriptor pool is too small or if a texture isn't found pub fn new<'a, I, R: TextureResolver>( device: &mut Device, adapter: &mut Adapter, command_queue: &mut CommandQueue, command_pool: &mut CommandPool, descriptor_set: DescriptorSet, textures: I, resolver: &mut R, ) -> Result where I: 'a + Iterator, { let mut store = TextureChunk { descriptor_set, sampled_images: Vec::with_capacity(CHUNK_SIZE), }; let mut local_idx = 0; debug!("Created descriptor set"); for tex in textures { if let Some(img) = resolver.resolve(tex) { store .put_texture(img, local_idx, device, adapter, command_queue, command_pool) .unwrap(); } else { // Texture not found. For now, tear everything down. store.deactivate(device); return Err(error::CreationError::BadDataError); } local_idx += 1; } // Pad out the end if needed while local_idx < CHUNK_SIZE { debug!("Putting a placeholder in slot {}", local_idx); store .put_texture( RgbaImage::from_pixel(1, 1, Rgba([0, 0, 0, 1])), local_idx, device, adapter, command_queue, command_pool, ) .unwrap(); local_idx += 1; } Ok(store) } pub fn put_texture( &mut self, image: RgbaImage, idx: usize, device: &mut Device, adapter: &mut Adapter, command_queue: &mut CommandQueue, command_pool: &mut CommandPool, ) -> Result<(), &'static str> { // Load the image let texture = SampledImage::load_into_new( image, device, adapter, command_queue, command_pool, hal::format::Format::Rgba8Srgb, // TODO hal::image::Usage::empty(), )?; // Write it to the descriptor set unsafe { use hal::image::Layout; use hal::pso::{Descriptor, DescriptorSetWrite}; device.write_descriptor_sets(vec![ DescriptorSetWrite { set: &self.descriptor_set, binding: 0, array_offset: idx, descriptors: Some(Descriptor::Image( texture.image.image_view.deref(), Layout::ShaderReadOnlyOptimal, )), }, DescriptorSetWrite { set: &self.descriptor_set, binding: 1, array_offset: idx, descriptors: Some(Descriptor::Sampler(texture.sampler.deref())), }, ]); }; // Store it so we can safely deactivate it when we need to // Deactivate the old image if we need to if idx < self.sampled_images.len() { replace(&mut self.sampled_images[idx], texture).deactivate(device); } else { self.sampled_images.push(texture); } Ok(()) } pub fn deactivate(mut self, device: &mut Device) { for img in self.sampled_images.drain(..) { img.deactivate(device); } } }