/* * Animation.cpp, part of VCMI engine * * Authors: listed in file AUTHORS in main folder * * License: GNU General Public License v2.0 or later * Full text of license available in license.txt file, in main folder * */ //code is copied from vcmiclient/CAnimation.cpp with minimal changes #include "StdInc.h" #include "Animation.h" #include "BitmapHandler.h" #include "../lib/filesystem/Filesystem.h" #include "../lib/filesystem/ISimpleResourceLoader.h" #include "../lib/JsonNode.h" #include "../lib/CRandomGenerator.h" #include "../lib/VCMIDirs.h" typedef std::map> source_map; /// Class for def loading /// After loading will store general info (palette and frame offsets) and pointer to file itself class DefFile { private: struct SSpriteDef { ui32 size; ui32 format; /// format in which pixel data is stored ui32 fullWidth; /// full width and height of frame, including borders ui32 fullHeight; ui32 width; /// width and height of pixel data, borders excluded ui32 height; si32 leftMargin; si32 topMargin; }; //offset[group][frame] - offset of frame data in file std::map > offset; std::unique_ptr data; std::unique_ptr> palette; public: DefFile(std::string Name); ~DefFile(); std::shared_ptr loadFrame(size_t frame, size_t group) const; const std::map getEntries() const; }; class ImageLoader { QImage * image; ui8 * lineStart; ui8 * position; QPoint spriteSize, margins, fullSize; public: //load size raw pixels from data inline void Load(size_t size, const ui8 * data); //set size pixels to color inline void Load(size_t size, ui8 color=0); inline void EndLine(); //init image with these sizes and palette inline void init(QPoint SpriteSize, QPoint Margins, QPoint FullSize); ImageLoader(QImage * Img); ~ImageLoader(); }; // Extremely simple file cache. TODO: smarter, more general solution class FileCache { static const int cacheSize = 50; //Max number of cached files struct FileData { ResourceID name; size_t size; std::unique_ptr data; std::unique_ptr getCopy() { auto ret = std::unique_ptr(new ui8[size]); std::copy(data.get(), data.get() + size, ret.get()); return ret; } FileData(ResourceID name_, size_t size_, std::unique_ptr data_): name{std::move(name_)}, size{size_}, data{std::move(data_)} {} }; std::deque cache; public: std::unique_ptr getCachedFile(ResourceID rid) { for(auto & file : cache) { if(file.name == rid) return file.getCopy(); } // Still here? Cache miss if(cache.size() > cacheSize) cache.pop_front(); auto data = CResourceHandler::get()->load(rid)->readAll(); cache.emplace_back(std::move(rid), data.second, std::move(data.first)); return cache.back().getCopy(); } }; enum class DefType : uint32_t { SPELL = 0x40, SPRITE = 0x41, CREATURE = 0x42, MAP = 0x43, MAP_HERO = 0x44, TERRAIN = 0x45, CURSOR = 0x46, INTERFACE = 0x47, SPRITE_FRAME = 0x48, BATTLE_HERO = 0x49 }; static FileCache animationCache; /************************************************************************* * DefFile, class used for def loading * *************************************************************************/ DefFile::DefFile(std::string Name): data(nullptr) { #if 0 static QRgba H3_ORIG_PALETTE[8] = { { 0, 255, 255, SDL_ALPHA_OPAQUE}, {255, 150, 255, SDL_ALPHA_OPAQUE}, {255, 100, 255, SDL_ALPHA_OPAQUE}, {255, 50, 255, SDL_ALPHA_OPAQUE}, {255, 0, 255, SDL_ALPHA_OPAQUE}, {255, 255, 0, SDL_ALPHA_OPAQUE}, {180, 0, 255, SDL_ALPHA_OPAQUE}, { 0, 255, 0, SDL_ALPHA_OPAQUE} }; #endif // 0 //First 8 colors in def palette used for transparency static QRgb H3Palette[8] = { qRgba(0, 0, 0, 0), // 100% - transparency qRgba(0, 0, 0, 32), // 75% - shadow border, qRgba(0, 0, 0, 64), // TODO: find exact value qRgba(0, 0, 0, 128), // TODO: for transparency qRgba(0, 0, 0, 128), // 50% - shadow body qRgba(0, 0, 0, 0), // 100% - selection highlight qRgba(0, 0, 0, 128), // 50% - shadow body below selection qRgba(0, 0, 0, 64) // 75% - shadow border below selection }; data = animationCache.getCachedFile(ResourceID(std::string("SPRITES/") + Name, EResType::ANIMATION)); palette = std::make_unique>(256); int it = 0; ui32 type = read_le_u32(data.get() + it); it += 4; //int width = read_le_u32(data + it); it+=4;//not used //int height = read_le_u32(data + it); it+=4; it += 8; ui32 totalBlocks = read_le_u32(data.get() + it); it += 4; for (ui32 i= 0; i<256; i++) { ui8 c[3]; c[0] = data[it++]; c[1] = data[it++]; c[2] = data[it++]; (*palette)[i] = qRgba(c[0], c[1], c[2], 255); } switch(static_cast(type)) { case DefType::SPELL: (*palette)[0] = H3Palette[0]; break; case DefType::SPRITE: case DefType::SPRITE_FRAME: for(ui32 i= 0; i<8; i++) (*palette)[i] = H3Palette[i]; break; case DefType::CREATURE: (*palette)[0] = H3Palette[0]; (*palette)[1] = H3Palette[1]; (*palette)[4] = H3Palette[4]; (*palette)[5] = H3Palette[5]; (*palette)[6] = H3Palette[6]; (*palette)[7] = H3Palette[7]; break; case DefType::MAP: case DefType::MAP_HERO: (*palette)[0] = H3Palette[0]; (*palette)[1] = H3Palette[1]; (*palette)[4] = H3Palette[4]; //5 = owner flag, handled separately break; case DefType::TERRAIN: (*palette)[0] = H3Palette[0]; (*palette)[1] = H3Palette[1]; (*palette)[2] = H3Palette[2]; (*palette)[3] = H3Palette[3]; (*palette)[4] = H3Palette[4]; break; case DefType::CURSOR: (*palette)[0] = H3Palette[0]; break; case DefType::INTERFACE: (*palette)[0] = H3Palette[0]; (*palette)[1] = H3Palette[1]; (*palette)[4] = H3Palette[4]; //player colors handled separately //TODO: disallow colorizing other def types break; case DefType::BATTLE_HERO: (*palette)[0] = H3Palette[0]; (*palette)[1] = H3Palette[1]; (*palette)[4] = H3Palette[4]; break; default: logAnim->error("Unknown def type %d in %s", type, Name); break; } for (ui32 i=0; i DefFile::loadFrame(size_t frame, size_t group) const { std::map >::const_iterator it; it = offset.find(group); assert (it != offset.end()); const ui8 * FDef = data.get()+it->second[frame]; const SSpriteDef sd = * reinterpret_cast(FDef); SSpriteDef sprite; sprite.format = read_le_u32(&sd.format); sprite.fullWidth = read_le_u32(&sd.fullWidth); sprite.fullHeight = read_le_u32(&sd.fullHeight); sprite.width = read_le_u32(&sd.width); sprite.height = read_le_u32(&sd.height); sprite.leftMargin = read_le_u32(&sd.leftMargin); sprite.topMargin = read_le_u32(&sd.topMargin); ui32 currentOffset = sizeof(SSpriteDef); //special case for some "old" format defs (SGTWMTA.DEF and SGTWMTB.DEF) if(sprite.format == 1 && sprite.width > sprite.fullWidth && sprite.height > sprite.fullHeight) { sprite.leftMargin = 0; sprite.topMargin = 0; sprite.width = sprite.fullWidth; sprite.height = sprite.fullHeight; currentOffset -= 16; } const ui32 BaseOffset = currentOffset; std::shared_ptr img = std::make_shared(sprite.fullWidth, sprite.fullHeight, QImage::Format_Indexed8); if(!img) throw std::runtime_error("Image memory cannot be allocated"); ImageLoader loader(img.get()); loader.init(QPoint(sprite.width, sprite.height), QPoint(sprite.leftMargin, sprite.topMargin), QPoint(sprite.fullWidth, sprite.fullHeight)); switch(sprite.format) { case 0: { //pixel data is not compressed, copy data to surface for(ui32 i=0; i(FDef+currentOffset); currentOffset += sizeof(ui32) * sprite.height; for(ui32 i=0; ierror("Error: unsupported format of def file: %d", sprite.format); break; } img->setColorTable(*palette); return img; } DefFile::~DefFile() = default; const std::map DefFile::getEntries() const { std::map ret; for (auto & elem : offset) ret[elem.first] = elem.second.size(); return ret; } /************************************************************************* * Classes for image loaders - helpers for loading from def files * *************************************************************************/ ImageLoader::ImageLoader(QImage * Img): image(Img), lineStart(Img->bits()), position(Img->bits()) { } void ImageLoader::init(QPoint SpriteSize, QPoint Margins, QPoint FullSize) { spriteSize = SpriteSize; margins = Margins; fullSize = FullSize; memset((void *)image->bits(), 0, fullSize.y() * image->bytesPerLine()); lineStart = image->bits(); lineStart += margins.y() * image->bytesPerLine() + margins.x(); position = lineStart; } inline void ImageLoader::Load(size_t size, const ui8 * data) { if(size) { memcpy((void *)position, data, size); position += size; } } inline void ImageLoader::Load(size_t size, ui8 color) { if(size) { memset((void *)position, color, size); position += size; } } inline void ImageLoader::EndLine() { lineStart += image->bytesPerLine(); position = lineStart; } ImageLoader::~ImageLoader() { } /************************************************************************* * Classes for images, support loading from file and drawing on surface * *************************************************************************/ std::shared_ptr Animation::getFromExtraDef(std::string filename) { size_t pos = filename.find(':'); if(pos == -1) return nullptr; Animation anim(filename.substr(0, pos)); pos++; size_t frame = atoi(filename.c_str()+pos); size_t group = 0; pos = filename.find(':', pos); if(pos != -1) { pos++; group = frame; frame = atoi(filename.c_str()+pos); } anim.load(frame ,group); auto ret = anim.images[group][frame]; anim.images.clear(); return ret; } bool Animation::loadFrame(size_t frame, size_t group) { if(size(group) <= frame) { printError(frame, group, "LoadFrame"); return false; } auto image = getImage(frame, group, false); if(image) { return true; } //try to get image from def if(source[group][frame].getType() == JsonNode::JsonType::DATA_NULL) { if(defFile) { auto frameList = defFile->getEntries(); if(vstd::contains(frameList, group) && frameList.at(group) > frame) // frame is present { images[group][frame] = defFile->loadFrame(frame, group); return true; } } return false; // still here? image is missing printError(frame, group, "LoadFrame"); images[group][frame] = std::make_shared("DEFAULT"); } else //load from separate file { images[group][frame] = getFromExtraDef(source[group][frame]["file"].String());; return true; } return false; } bool Animation::unloadFrame(size_t frame, size_t group) { auto image = getImage(frame, group, false); if(image) { images[group].erase(frame); if(images[group].empty()) images.erase(group); return true; } return false; } void Animation::init() { if(defFile) { const std::map defEntries = defFile->getEntries(); for (auto & defEntry : defEntries) source[defEntry.first].resize(defEntry.second); } #if 0 //this code is not used but maybe requred if there will be configurable sprites ResourceID resID(std::string("SPRITES/") + name, EResType::TEXT); //if(vstd::contains(graphics->imageLists, resID.getName())) //initFromJson(graphics->imageLists[resID.getName()]); auto configList = CResourceHandler::get()->getResourcesWithName(resID); for(auto & loader : configList) { auto stream = loader->load(resID); std::unique_ptr textData(new ui8[stream->getSize()]); stream->read(textData.get(), stream->getSize()); const JsonNode config((char*)textData.get(), stream->getSize()); //initFromJson(config); } #endif } void Animation::printError(size_t frame, size_t group, std::string type) const { logGlobal->error("%s error: Request for frame not present in CAnimation! File name: %s, Group: %d, Frame: %d", type, name, group, frame); } Animation::Animation(std::string Name): name(Name), preloaded(false), defFile() { size_t dotPos = name.find_last_of('.'); if( dotPos!=-1 ) name.erase(dotPos); std::transform(name.begin(), name.end(), name.begin(), toupper); ResourceID resource(std::string("SPRITES/") + name, EResType::ANIMATION); if(CResourceHandler::get()->existsResource(resource)) defFile = std::make_shared(name); init(); if(source.empty()) logAnim->error("Animation %s failed to load", Name); } Animation::Animation(): name(""), preloaded(false), defFile() { init(); } Animation::~Animation() = default; void Animation::duplicateImage(const size_t sourceGroup, const size_t sourceFrame, const size_t targetGroup) { if(!source.count(sourceGroup)) { logAnim->error("Group %d missing in %s", sourceGroup, name); return; } if(source[sourceGroup].size() <= sourceFrame) { logAnim->error("Frame [%d %d] missing in %s", sourceGroup, sourceFrame, name); return; } //todo: clone actual loaded Image object JsonNode clone(source[sourceGroup][sourceFrame]); if(clone.getType() == JsonNode::JsonType::DATA_NULL) { std::string temp = name+":"+boost::lexical_cast(sourceGroup)+":"+boost::lexical_cast(sourceFrame); clone["file"].String() = temp; } source[targetGroup].push_back(clone); size_t index = source[targetGroup].size() - 1; if(preloaded) load(index, targetGroup); } void Animation::setCustom(std::string filename, size_t frame, size_t group) { if(source[group].size() <= frame) source[group].resize(frame+1); source[group][frame]["file"].String() = filename; //FIXME: update image if already loaded } std::shared_ptr Animation::getImage(size_t frame, size_t group, bool verbose) const { auto groupIter = images.find(group); if(groupIter != images.end()) { auto imageIter = groupIter->second.find(frame); if(imageIter != groupIter->second.end()) return imageIter->second; } if(verbose) printError(frame, group, "GetImage"); return nullptr; } void Animation::exportBitmaps(const QDir & path) const { if(images.empty()) { logGlobal->error("Nothing to export, animation is empty"); return; } QString actualPath = path.absolutePath() + "/" + QString::fromStdString(name); QDir().mkdir(actualPath); size_t counter = 0; for(const auto& groupPair : images) { size_t group = groupPair.first; for(const auto& imagePair : groupPair.second) { size_t frame = imagePair.first; const auto img = imagePair.second; QString filename = QString("%1_%2_%3.png").arg(QString::fromStdString(name)).arg(group).arg(frame); QString filePath = actualPath + "/" + filename; img->save(filePath, "PNG"); counter++; } } logGlobal->info("Exported %d frames to %s", counter, actualPath.toStdString()); } void Animation::load() { for (auto & elem : source) for (size_t image=0; image < elem.second.size(); image++) loadFrame(image, elem.first); } void Animation::unload() { for (auto & elem : source) for (size_t image=0; image < elem.second.size(); image++) unloadFrame(image, elem.first); } void Animation::preload() { if(!preloaded) { preloaded = true; load(); } } void Animation::loadGroup(size_t group) { if(vstd::contains(source, group)) for (size_t image=0; image < source[group].size(); image++) loadFrame(image, group); } void Animation::unloadGroup(size_t group) { if(vstd::contains(source, group)) for (size_t image=0; image < source[group].size(); image++) unloadFrame(image, group); } void Animation::load(size_t frame, size_t group) { loadFrame(frame, group); } void Animation::unload(size_t frame, size_t group) { unloadFrame(frame, group); } size_t Animation::size(size_t group) const { auto iter = source.find(group); if(iter != source.end()) return iter->second.size(); return 0; } void Animation::horizontalFlip() { for(auto & group : images) for(auto & image : group.second) *image.second = image.second->transformed(QTransform::fromScale(-1, 1)); } void Animation::verticalFlip() { for(auto & group : images) for(auto & image : group.second) *image.second = image.second->transformed(QTransform::fromScale(1, -1)); } void Animation::playerColored(PlayerColor player) { #if 0 //can be required in image preview? for(auto & group : images) for(auto & image : group.second) image.second->playerColored(player); #endif } void Animation::createFlippedGroup(const size_t sourceGroup, const size_t targetGroup) { for(size_t frame = 0; frame < size(sourceGroup); ++frame) { duplicateImage(sourceGroup, frame, targetGroup); auto image = getImage(frame, targetGroup); *image = image->transformed(QTransform::fromScale(1, -1)); } }