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#include "../include/AsyncImageLoader.hpp"
#include "../include/base64_url.hpp"
#include "../include/Storage.hpp"
#include "../include/DownloadUtils.hpp"
#include "../include/ImageUtils.hpp"
#include "../include/Scale.hpp"
#include <assert.h>
namespace QuickMedia {
static sf::Vector2f to_vec2f(const sf::Vector2u &vec) {
return sf::Vector2f(vec.x, vec.y);
}
static sf::Vector2f to_vec2f(const sf::Vector2i &vec) {
return sf::Vector2f(vec.x, vec.y);
}
static sf::Vector2u to_vec2u(const sf::Vector2f &vec) {
return sf::Vector2u(vec.x, vec.y);
}
static void copy_resize(const sf::Image &source, sf::Image &destination, sf::Vector2u destination_size) {
const sf::Vector2u source_size = source.getSize();
if(source_size.x == 0 || source_size.y == 0 || destination_size.x == 0 || destination_size.y == 0)
return;
//float width_ratio = (float)source_size.x / (float)destination_size.x;
//float height_ratio = (float)source_size.y / (float)destination_size.y;
const sf::Uint8 *source_pixels = source.getPixelsPtr();
// TODO: Remove this somehow. Right now we need to allocate this and also allocate the same array in the destination image
sf::Uint32 *destination_pixels = new sf::Uint32[destination_size.x * destination_size.y];
sf::Uint32 *destination_pixel = destination_pixels;
for(unsigned int y = 0; y < destination_size.y; ++y) {
for(unsigned int x = 0; x < destination_size.x; ++x) {
int scaled_x = ((float)x / (float)destination_size.x) * source_size.x;
int scaled_y = ((float)y / (float)destination_size.y) * source_size.y;
//float scaled_x = x * width_ratio;
//float scaled_y = y * height_ratio;
//sf::Uint32 *source_pixel = (sf::Uint32*)(source_pixels + (int)(scaled_x + scaled_y * source_size.x) * 4);
sf::Uint32 *source_pixel = (sf::Uint32*)(source_pixels + (scaled_x + scaled_y * source_size.x) * 4);
*destination_pixel = *source_pixel;
++destination_pixel;
}
}
destination.create(destination_size.x, destination_size.y, (sf::Uint8*)destination_pixels);
delete []destination_pixels;
}
static bool save_image_as_thumbnail_atomic(const sf::Image &image, const Path &thumbnail_path, const char *ext) {
Path tmp_path = thumbnail_path;
tmp_path.append(".tmp");
const char *thumbnail_path_ext = thumbnail_path.ext();
if(is_image_ext(ext))
tmp_path.append(ext);
else if(is_image_ext(thumbnail_path_ext))
tmp_path.append(thumbnail_path_ext);
else
tmp_path.append(".png");
return image.saveToFile(tmp_path.data) && (rename(tmp_path.data.c_str(), thumbnail_path.data.c_str()) == 0);
}
// Returns empty string if no extension
static const char* get_ext(const std::string &path) {
size_t slash_index = path.rfind('/');
size_t index = path.rfind('.');
if(index != std::string::npos && (slash_index == std::string::npos || index > slash_index))
return path.c_str() + index;
return "";
}
bool AsyncImageLoader::load_thumbnail(const std::string &url, bool local, sf::Vector2i resize_target_size, bool use_tor, std::shared_ptr<ThumbnailData> thumbnail_data) {
update();
if(loading_image)
return false;
loading_image = true;
assert(thumbnail_data->loading_state == LoadingState::NOT_LOADED);
thumbnail_data->loading_state = LoadingState::LOADING;
if(url.empty()) {
thumbnail_data->image = std::make_unique<sf::Image>();
thumbnail_data->loading_state = LoadingState::FINISHED_LOADING;
loading_image = false;
return true;
}
load_image_future = std::async(std::launch::async, [url, local, resize_target_size, thumbnail_data, use_tor]() mutable {
// TODO: Use sha256 instead of base64_url encoding
Path thumbnail_path = get_cache_dir().join("thumbnails").join(base64_url::encode(url));
thumbnail_data->image = std::make_unique<sf::Image>();
if(thumbnail_data->image->loadFromFile(thumbnail_path.data)) {
fprintf(stderr, "Loaded %s from thumbnail cache\n", url.c_str());
thumbnail_data->loading_state = LoadingState::FINISHED_LOADING;
return;
} else {
if(local) {
if(!thumbnail_data->image->loadFromFile(url)) {
thumbnail_data->loading_state = LoadingState::FINISHED_LOADING;
return;
}
} else {
std::string texture_data;
if(download_to_string_cache(url, texture_data, {}, use_tor, true) != DownloadResult::OK || !thumbnail_data->image->loadFromMemory(texture_data.data(), texture_data.size())) {
thumbnail_data->loading_state = LoadingState::FINISHED_LOADING;
return;
}
}
}
if(resize_target_size.x != 0 && resize_target_size.y != 0) {
sf::Vector2u new_image_size = to_vec2u(clamp_to_size(to_vec2f(thumbnail_data->image->getSize()), to_vec2f(resize_target_size)));
if(new_image_size.x < thumbnail_data->image->getSize().x || new_image_size.y < thumbnail_data->image->getSize().y) {
auto destination_image = std::make_unique<sf::Image>();
copy_resize(*thumbnail_data->image, *destination_image, new_image_size);
thumbnail_data->image = std::move(destination_image);
save_image_as_thumbnail_atomic(*thumbnail_data->image, thumbnail_path, get_ext(url));
thumbnail_data->loading_state = LoadingState::FINISHED_LOADING;
return;
}
}
thumbnail_data->loading_state = LoadingState::FINISHED_LOADING;
return;
});
return true;
}
void AsyncImageLoader::update() {
if(loading_image && load_image_future.valid() && load_image_future.wait_for(std::chrono::seconds(0)) == std::future_status::ready) {
load_image_future.get();
loading_image = false;
}
}
}
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