#include "./tox_avatar_loader.hpp" #include "./image_loader_sdl_bmp.hpp" #include "./image_loader_qoi.hpp" #include "./image_loader_webp.hpp" #include "./image_loader_sdl_image.hpp" #include #include #include #include #include #include #include // fwd namespace Message { uint64_t getTimeMS(void); } ToxAvatarLoader::ToxAvatarLoader(Contact3Registry& cr) : _cr(cr) { _image_loaders.push_back(std::make_unique()); _image_loaders.push_back(std::make_unique()); _image_loaders.push_back(std::make_unique()); _image_loaders.push_back(std::make_unique()); } static float getHue_6bytes(const uint8_t* data) { uint64_t hue_uint = 0x00; for (size_t i = 0; i < 6; i++) { hue_uint = hue_uint << 8; hue_uint += data[i]; } // 48bit max (6bytes) return float(hue_uint / 281474976710655.); } static float hue2Rgb(float p, float q, float t) { while (t < 0.f) { t += 1.f; } while (t > 1.f) { t -= 1.f; } if (t < 1.f/6.f) { return p + (q - p) * 6.f * t; } if (t < 1.f/2.f) { return q; } if (t < 2.f/3.f) { return p + (q - p) * (4.f - 6.f * t); } return p; } //https://github.com/Tox/Tox-Client-Standard/blob/master/appendix/ToxIdenticons.md // creates a 5x5 pix texture RGBA8888 static std::vector generateToxIdenticon(const ToxKey& key) { // first hash key std::array hashed_key; assert(hashed_key.size() == key.data.size()); crypto_hash_sha256(hashed_key.data(), key.data.data(), key.data.size()); const float hue_color1 = getHue_6bytes(hashed_key.data()+26); const float hue_color2 = getHue_6bytes(hashed_key.data()+20); const float sat_color1 = 0.5f; const float lig_color1 = 0.3f; const float sat_color2 = 0.5f; const float lig_color2 = 0.8f; // TODO: refactor this mess #define Q(LIG, SAT) (LIG) < 0.5f ? (LIG) * (1 + (SAT)) : (LIG) + (SAT) - (LIG) * (SAT) const float q_color1 = Q(lig_color1, sat_color1); const float q_color2 = Q(lig_color2, sat_color2); #undef Q #define P(LIG, Q) 2.f * (LIG) - (Q) const float p_color1 = P(lig_color1, q_color1); const float p_color2 = P(lig_color2, q_color2); #undef P const uint8_t color_1_r = hue2Rgb(p_color1, q_color1, hue_color1 + 1.f/3.f) * 255.f + 0.499f; const uint8_t color_1_g = hue2Rgb(p_color1, q_color1, hue_color1) * 255.f + 0.499f; const uint8_t color_1_b = hue2Rgb(p_color1, q_color1, hue_color1 - 1.f/3.f) * 255.f + 0.499f; const uint8_t color_2_r = hue2Rgb(p_color2, q_color2, hue_color2 + 1.f/3.f) * 255.f + 0.499f; const uint8_t color_2_g = hue2Rgb(p_color2, q_color2, hue_color2) * 255.f + 0.499f; const uint8_t color_2_b = hue2Rgb(p_color2, q_color2, hue_color2 - 1.f/3.f) * 255.f + 0.499f; // start drawing std::vector pixels(5*5*4, 0xff); // fill with white #define R(x,y) pixels[(y*4*5) + (4*x+0)] #define G(x,y) pixels[(y*4*5) + (4*x+1)] #define B(x,y) pixels[(y*4*5) + (4*x+2)] #define COLOR1(x,y) R(x, y) = color_1_r; G(x, y) = color_1_g; B(x, y) = color_1_b; #define COLOR2(x,y) R(x, y) = color_2_r; G(x, y) = color_2_g; B(x, y) = color_2_b; for (int64_t y = 0; y < 5; y++) { for (int64_t x = 0; x < 5; x++) { // mirrored index //int64_t m_x = x <= 3 ? 3 : x - (x-2)*2; int64_t m_x = ((x*2)-4)/2; m_x = m_x < 0 ? -m_x : m_x; int64_t pos = y * 3 + m_x; const uint8_t byte = hashed_key[pos]; const uint8_t color = byte % 2; if (color == 0) { COLOR1(x, y) } else { COLOR2(x, y) } } } #undef COLOR1 #undef COLOR2 #undef R #undef G #undef B return pixels; } std::optional ToxAvatarLoader::load(TextureUploaderI& tu, Contact3 c) { if (!_cr.valid(c)) { return std::nullopt; } if (_cr.all_of(c)) { const auto& a_m = _cr.get(c); TextureEntry new_entry; new_entry.timestamp_last_rendered = Message::getTimeMS(); new_entry.current_texture = 0; new_entry.width = a_m.width; new_entry.height = a_m.height; const auto n_t = tu.uploadRGBA(a_m.data.data(), a_m.width, a_m.height); new_entry.textures.push_back(n_t); new_entry.frame_duration.push_back(250); std::cout << "TAL: loaded memory buffer\n"; return new_entry; } if (_cr.all_of(c)) { const auto& a_f = _cr.get(c); std::ifstream file(a_f.file_path, std::ios::binary); if (file.is_open()) { std::vector tmp_buffer; while (file.good()) { auto ch = file.get(); if (ch == EOF) { break; } else { tmp_buffer.push_back(ch); } } // try all loaders after another for (auto& il : _image_loaders) { auto res = il->loadFromMemoryRGBA(tmp_buffer.data(), tmp_buffer.size()); if (res.frames.empty() || res.height == 0 || res.width == 0) { continue; } TextureEntry new_entry; new_entry.timestamp_last_rendered = Message::getTimeMS(); new_entry.current_texture = 0; for (const auto& [ms, data] : res.frames) { const auto n_t = tu.uploadRGBA(data.data(), res.width, res.height); new_entry.textures.push_back(n_t); new_entry.frame_duration.push_back(ms); } new_entry.width = res.width; new_entry.height = res.height; std::cout << "TAL: loaded image file " << a_f.file_path << "\n"; return new_entry; } } } // continues if loading img fails if (!_cr.any_of< Contact::Components::ToxFriendPersistent, Contact::Components::ToxGroupPersistent, Contact::Components::ToxGroupPeerPersistent >(c)) { return std::nullopt; } std::vector pixels; if (_cr.all_of(c)) { pixels = generateToxIdenticon(_cr.get(c).key); } else if (_cr.all_of(c)) { pixels = generateToxIdenticon(_cr.get(c).chat_id); } else if (_cr.all_of(c)) { pixels = generateToxIdenticon(_cr.get(c).peer_key); } TextureEntry new_entry; new_entry.timestamp_last_rendered = Message::getTimeMS(); new_entry.current_texture = 0; const auto n_t = tu.uploadRGBA(pixels.data(), 5, 5, TextureUploaderI::NEAREST); new_entry.textures.push_back(n_t); new_entry.frame_duration.push_back(250); new_entry.width = 5; new_entry.height = 5; std::cout << "TAL: generated ToxIdenticon\n"; return new_entry; }