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/*
* Copyright 2022 Frederico de Oliveira Linhares
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "model.hpp"
#include <array>
#include <fstream>
#include "../command.hpp"
#include "../core.hpp"
#include "vertex.hpp"
namespace
{
// Data that is only needed for the command chain but not for the Model goes
// here.
struct ModelBuilder
{
std::string model_path;
VK::Model *model;
ModelBuilder(VK::Model *m, std::string mp);
ModelBuilder(VK::Model *m, const char* mp);
};
ModelBuilder::ModelBuilder(VK::Model *m, std::string mp):
model{m},
model_path{mp}
{
}
ModelBuilder::ModelBuilder(VK::Model *m, const char *mp):
ModelBuilder{m, std::string(mp)}
{
}
uint32_t read_uint32_from_file(std::ifstream &input_file)
{
uint32_t data{};
input_file.read((char*)&data, sizeof(uint32_t));
return data;
}
glm::vec2 read_vec2_from_file(std::ifstream &input_file)
{
glm::vec2 data{};
input_file.read((char*)&data.x, sizeof(glm::vec2::value_type));
input_file.read((char*)&data.y, sizeof(glm::vec2::value_type));
return data;
}
glm::vec3 read_vec3_from_file(std::ifstream &input_file)
{
glm::vec3 data{};
input_file.read((char*)&data.x, sizeof(glm::vec3::value_type));
input_file.read((char*)&data.y, sizeof(glm::vec3::value_type));
input_file.read((char*)&data.z, sizeof(glm::vec3::value_type));
return data;
}
void
load_mesh(void *obj)
{
auto self = static_cast<ModelBuilder*>(obj);
std::ifstream input_file{self->model_path};
if(!input_file.is_open()) throw CommandError{"Failed to open file."};
self->model->queue_family =
cg_core.vk_device_with_swapchain->get_queue_family_with_graphics();
VK::Queue transfer_queue{self->model->queue_family->get_queue()};
// Load vertexes.
{
auto vertex_count{read_uint32_from_file(input_file)};
std::vector<VK::Vertex> vertexes{vertex_count};
for(auto i{0}; i < vertex_count; i++)
{
vertexes[i].position = read_vec3_from_file(input_file);
vertexes[i].normal = read_vec3_from_file(input_file);
vertexes[i].texture_coord = read_vec2_from_file(input_file);
}
void *vertexes_data{vertexes.data()};
size_t vertexes_size = sizeof(vertexes[0]) * vertexes.size();
self->model->source_vertex_buffer = new VK::SourceBuffer{
self->model->queue_family->device, vertexes_data, vertexes_size};
self->model->vertex_buffer = new VK::DestinationBuffer{
self->model->queue_family, self->model->source_vertex_buffer,
VK_BUFFER_USAGE_VERTEX_BUFFER_BIT};
}
// Load indexes.
{
self->model->index_count = read_uint32_from_file(input_file);
std::vector<uint32_t> indexes(self->model->index_count);
for(auto i{0}; i < self->model->index_count; i++)
indexes[i] = read_uint32_from_file(input_file);
void *indexes_data{indexes.data()};
size_t indexes_size{sizeof(indexes[0]) * indexes.size()};
VK::SourceBuffer source_index_buffer{
self->model->queue_family->device, indexes_data, indexes_size};
self->model->index_buffer = new VK::DestinationBuffer{
self->model->queue_family, &source_index_buffer,
VK_BUFFER_USAGE_INDEX_BUFFER_BIT};
}
}
void
unload_mesh(void *obj)
{
auto self = static_cast<ModelBuilder*>(obj);
delete self->model->index_buffer;
delete self->model->vertex_buffer;
delete self->model->source_vertex_buffer;
}
auto
load_uniform_buffers(void *obj)
{
auto self = static_cast<ModelBuilder*>(obj);
self->model->ub_model_instance.reserve(cg_core.vk_swapchain->images_count);
for(int i{0}; i < cg_core.vk_swapchain->images_count; i++)
self->model->ub_model_instance.emplace_back(
cg_core.vk_device_with_swapchain, sizeof(VK::UBOModelInstance));
}
void
unload_uniform_buffers(void *obj)
{
auto self = static_cast<ModelBuilder*>(obj);
self->model->ub_model_instance.clear();
}
void
load_descriptor_set_pool(void *obj)
{
auto self = static_cast<ModelBuilder*>(obj);
std::array<VkDescriptorPoolSize, 2> descriptor_pool_sizes{};
descriptor_pool_sizes[0].type = VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER;
descriptor_pool_sizes[0].descriptorCount =
self->model->ub_model_instance.size();
descriptor_pool_sizes[1].type = VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER;
descriptor_pool_sizes[1].descriptorCount =
self->model->ub_model_instance.size();
VkDescriptorPoolCreateInfo pool_info{};
pool_info.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_POOL_CREATE_INFO;
pool_info.pNext = nullptr;
pool_info.flags = 0;
pool_info.maxSets = self->model->ub_model_instance.size();
pool_info.poolSizeCount = descriptor_pool_sizes.size();
pool_info.pPoolSizes = descriptor_pool_sizes.data();
if(vkCreateDescriptorPool(
self->model->queue_family->device->device, &pool_info, nullptr,
&self->model->descriptor_pool) != VK_SUCCESS)
throw CommandError{"Failed to create a Vulkan descriptor pool."};
}
void
unload_descriptor_set_pool(void *obj)
{
auto self = static_cast<ModelBuilder*>(obj);
vkDestroyDescriptorPool(
self->model->queue_family->device->device, self->model->descriptor_pool,
nullptr);
}
void
load_descriptor_sets(void *obj)
{
auto self = static_cast<ModelBuilder*>(obj);
std::vector<VkDescriptorSetLayout> layouts(
cg_core.vk_swapchain->images_count,
cg_core.vk_graphics_pipeline->descriptor_set_layout_model_instance);
VkDescriptorSetAllocateInfo alloc_info{};
alloc_info.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_ALLOCATE_INFO;
alloc_info.descriptorPool = self->model->descriptor_pool;
alloc_info.descriptorSetCount = layouts.size();
alloc_info.pSetLayouts = layouts.data();
self->model->descriptor_sets.resize(layouts.size());
if(vkAllocateDescriptorSets(
self->model->queue_family->device->device, &alloc_info,
self->model->descriptor_sets.data()) != VK_SUCCESS)
CommandError{"Failed to create Vulkan descriptor set."};
}
void
load_buffers_to_descriptor_sets(void *obj)
{
auto self = static_cast<ModelBuilder*>(obj);
for(auto i{0}; i < self->model->ub_model_instance.size(); i++)
{
VkDescriptorBufferInfo buffer_info{};
buffer_info.buffer = self->model->ub_model_instance[i].buffer;
buffer_info.offset = 0;
buffer_info.range = sizeof(VK::UBOModelInstance);
VkDescriptorImageInfo image_info{};
image_info.imageLayout = VK_IMAGE_LAYOUT_SHADER_READ_ONLY_OPTIMAL;
image_info.imageView = self->model->texture->view;
image_info.sampler = self->model->texture->sampler;
std::array<VkWriteDescriptorSet, 2> write_descriptors{};
write_descriptors[0].sType = VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET;
write_descriptors[0].dstSet = self->model->descriptor_sets[i];
write_descriptors[0].dstBinding = 0;
write_descriptors[0].dstArrayElement = 0;
write_descriptors[0].descriptorCount = 1;
write_descriptors[0].descriptorType = VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER;
write_descriptors[0].pBufferInfo = &buffer_info;
write_descriptors[0].pImageInfo = nullptr;
write_descriptors[0].pTexelBufferView = nullptr;
write_descriptors[1].sType = VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET;
write_descriptors[1].dstSet = self->model->descriptor_sets[i];
write_descriptors[1].dstBinding = 1;
write_descriptors[1].dstArrayElement = 0;
write_descriptors[1].descriptorCount = 1;
write_descriptors[1].descriptorType =
VK_DESCRIPTOR_TYPE_COMBINED_IMAGE_SAMPLER;
write_descriptors[1].pBufferInfo = nullptr;
write_descriptors[1].pImageInfo = &image_info;
write_descriptors[1].pTexelBufferView = nullptr;
vkUpdateDescriptorSets(
cg_core.vk_device_with_swapchain->device, write_descriptors.size(),
write_descriptors.data(), 0, nullptr);
}
}
static const CommandChain loader{
{&load_mesh, &unload_mesh},
{&load_uniform_buffers, &unload_uniform_buffers},
{&load_descriptor_set_pool, &unload_descriptor_set_pool},
{&load_descriptor_sets, nullptr},
{&load_buffers_to_descriptor_sets, nullptr},
};
}
namespace VK
{
Model::Model(std::string model_path, std::shared_ptr<Texture> texture):
texture{texture}
{
ModelBuilder model_builder(this, model_path);
loader.execute(&model_builder);
}
Model::Model(const char* model_path, std::shared_ptr<Texture> texture):
Model{std::string(model_path), texture}
{
}
Model::~Model()
{
ModelBuilder model_builder(this, "");
loader.revert(&model_builder);
}
}
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