bool TextureController::_ReloadImagesToSheet(TexSheet* sheet) { // Delete images std::map<string, pair<ImageMemory, ImageMemory> > multi_image_info; bool success = true; for (map<string, ImageTexture*>::iterator i = _images.begin(); i != _images.end(); i++) { // Only operate on images which belong to the requested TexSheet if (i->second->texture_sheet != sheet) { continue; } ImageTexture* img = i->second; ImageMemory load_info; bool is_multi_image = (img->tags.find("<X", 0) != img->filename.npos); // Multi Images require a different reloading process if (is_multi_image) { ImageMemory image; if (multi_image_info.find(img->filename) == multi_image_info.end()) { // Load the image if (load_info.LoadImage(img->filename) == false) { IF_PRINT_WARNING(VIDEO_DEBUG) << "call to _LoadRawImage() failed" << endl; success = false; continue; } // Copy the part of the image in a buffer image.height = img->height; image.width = img->width; image.pixels = malloc(image.height * image.width * 4); if (image.pixels == NULL) { IF_PRINT_WARNING(VIDEO_DEBUG) << "call to malloc returned NULL" << endl; success = false; continue; } multi_image_info[img->filename] = make_pair(load_info, image); } else { load_info = multi_image_info[img->filename].first; image = multi_image_info[img->filename].second; } uint16 pos0, pos1; // Used to find the start and end positions of a sub-string uint32 x, y; // uint32 rows, cols; pos0 = img->tags.find("<X", 0); pos1 = img->tags.find('_', pos0); x = atoi(img->tags.substr(pos0 + 2, pos1).c_str()); pos0 = img->tags.find("<Y", 0); pos1 = img->tags.find('_', pos0); y = atoi(img->tags.substr(pos0 + 2, pos1).c_str()); rows = load_info.height / image.height; cols = load_info.width / image.width; for (int32 row = 0; row < image.height; row++) { memcpy((uint8*)image.pixels + 4 * image.width * row, (uint8*)load_info.pixels + (((x * load_info.height / rows) + row) * load_info.width + y * load_info.width / cols) * 4, 4 * image.width); } // Convert to grayscale if needed if (img->tags.find("<G>", 0) != img->filename.npos) image.ConvertToGrayscale(); // Copy the image into the texture sheet if (sheet->CopyRect(img->x, img->y, image) == false) { IF_PRINT_WARNING(VIDEO_DEBUG) << "call to TexSheet::CopyRect() failed" << endl; success = false; } } // if (is_multi_image) // Reload a normal image file else { std::string fname = img->filename; IF_PRINT_DEBUG(VIDEO_DEBUG) << " Reloading image " << fname << endl; // Check if it is a temporary image, and if so retrieve it from the img/temp directory if (img->tags.find("<T>", 0) != img->tags.npos) { fname = "img/temp/" + fname + ".png"; } if (load_info.LoadImage(fname) == false) { IF_PRINT_WARNING(VIDEO_DEBUG) << "call to _LoadRawImage() failed" << endl; success = false; } // Convert to grayscale if needed if (img->tags.find("<G>", 0) != img->filename.npos) load_info.ConvertToGrayscale(); if (sheet->CopyRect(img->x, img->y, load_info) == false) { IF_PRINT_WARNING(VIDEO_DEBUG) << "call to TexSheet::CopyRect() failed" << endl; success = false; } if (load_info.pixels) { free(load_info.pixels); load_info.pixels = NULL; } } } // for (map<string, ImageTexture*>::iterator i = _images.begin(); i != _images.end(); i++) for (map<string, pair<ImageMemory, ImageMemory> >::iterator i = multi_image_info.begin(); i != multi_image_info.end(); ++i) { free(i->second.first.pixels); i->second.first.pixels = NULL; free(i->second.second.pixels); i->second.second.pixels = NULL; } // Regenerate all font textures for (set<TextTexture*>::iterator i = _text_images.begin(); i != _text_images.end(); i++) { if ((*i)->texture_sheet == sheet) { if ((*i)->Reload() == false) { IF_PRINT_WARNING(VIDEO_DEBUG) << "failed to reload a TextTexture" << endl; success = false; } } } return success; } // bool TextureController::_ReloadImagesToSheet(TexSheet* sheet)
bool TextureController::_ReloadImagesToSheet(TexSheet *sheet) { // Delete images std::map<std::string, std::pair<ImageMemory, ImageMemory> > multi_image_info; bool success = true; for(std::map<std::string, ImageTexture *>::iterator i = _images.begin(); i != _images.end(); ++i) { // Only operate on images which belong to the requested TexSheet if(i->second->texture_sheet != sheet) { continue; } ImageTexture *img = i->second; ImageMemory load_info; bool is_multi_image = (img->tags.find("<X", 0) != img->filename.npos); // Multi Images require a different reloading process if(is_multi_image) { ImageMemory image; if(multi_image_info.find(img->filename) == multi_image_info.end()) { // Load the image if(load_info.LoadImage(img->filename) == false) { IF_PRINT_WARNING(VIDEO_DEBUG) << "call to _LoadRawImage() failed" << std::endl; success = false; continue; } // Copy the part of the image in a buffer try { image.Resize(img->width, img->height, false); } catch( std::exception &e ) { IF_PRINT_WARNING(VIDEO_DEBUG) << "Resize failed." << std::endl; success = false; continue; } multi_image_info[img->filename] = std::make_pair(load_info, image); } else { load_info = multi_image_info[img->filename].first; image = multi_image_info[img->filename].second; } uint16_t pos0, pos1; // Used to find the start and end positions of a sub-string uint32_t x, y; // uint32_t rows, cols; pos0 = img->tags.find("<X", 0); pos1 = img->tags.find('_', pos0); x = std::stoi(img->tags.substr(pos0 + 2, pos1)); pos0 = img->tags.find("<Y", 0); pos1 = img->tags.find('_', pos0); y = std::stoi(img->tags.substr(pos0 + 2, pos1)); rows = load_info.GetHeight() / image.GetHeight(); cols = load_info.GetWidth() / image.GetWidth(); image.CopyFrom(load_info, load_info.GetWidth() * (x * load_info.GetHeight() / rows) + load_info.GetWidth() * y / cols); // Convert to grayscale if needed if(img->tags.find("<G>", 0) != img->filename.npos) image.ConvertToGrayscale(); // Copy the image into the texture sheet if(sheet->CopyRect(img->x, img->y, image) == false) { IF_PRINT_WARNING(VIDEO_DEBUG) << "call to TexSheet::CopyRect() failed" << std::endl; success = false; } } // if (is_multi_image) // Reload a normal image file else { std::string fname = img->filename; IF_PRINT_DEBUG(VIDEO_DEBUG) << " Reloading image " << fname << std::endl; if(load_info.LoadImage(fname) == false) { IF_PRINT_WARNING(VIDEO_DEBUG) << "call to _LoadRawImage() failed" << std::endl; success = false; } // Convert to grayscale if needed if(img->tags.find("<G>", 0) != img->filename.npos) load_info.ConvertToGrayscale(); if(sheet->CopyRect(img->x, img->y, load_info) == false) { IF_PRINT_WARNING(VIDEO_DEBUG) << "call to TexSheet::CopyRect() failed" << std::endl; success = false; } } } // for (std::map<string, ImageTexture*>::iterator i = _images.begin(); i != _images.end(); i++) // Regenerate all font textures for(std::set<TextTexture *>::iterator i = _text_images.begin(); i != _text_images.end(); ++i) { if((*i)->texture_sheet == sheet) { if((*i)->Reload() == false) { IF_PRINT_WARNING(VIDEO_DEBUG) << "failed to reload a TextTexture" << std::endl; success = false; } } } return success; } // bool TextureController::_ReloadImagesToSheet(TexSheet* sheet)