/* * The Mana World * Copyright 2004 The Mana World Development Team * * This file is part of The Mana World. * * The Mana World is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * any later version. * * The Mana World is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with The Mana World; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "mapreader.h" #include #include #include #include "resourcemanager.h" #include "image.h" #include "../log.h" #include "../map.h" #include "../tileset.h" #include "../utils/base64.h" #include "../utils/tostring.h" #include "../utils/xml.h" const unsigned int DEFAULT_TILE_WIDTH = 32; const unsigned int DEFAULT_TILE_HEIGHT = 32; /** * Inflates either zlib or gzip deflated memory. The inflated memory is * expected to be freed by the caller. */ int inflateMemory(unsigned char *in, unsigned int inLength, unsigned char *&out, unsigned int &outLength) { int bufferSize = 256 * 1024; int ret; z_stream strm; out = (unsigned char*) malloc(bufferSize); strm.zalloc = Z_NULL; strm.zfree = Z_NULL; strm.opaque = Z_NULL; strm.next_in = in; strm.avail_in = inLength; strm.next_out = out; strm.avail_out = bufferSize; ret = inflateInit2(&strm, 15 + 32); if (ret != Z_OK) return ret; do { if (strm.next_out == NULL) { inflateEnd(&strm); return Z_MEM_ERROR; } ret = inflate(&strm, Z_NO_FLUSH); assert(ret != Z_STREAM_ERROR); switch (ret) { case Z_NEED_DICT: ret = Z_DATA_ERROR; case Z_DATA_ERROR: case Z_MEM_ERROR: (void) inflateEnd(&strm); return ret; } if (ret != Z_STREAM_END) { out = (unsigned char*) realloc(out, bufferSize * 2); if (out == NULL) { inflateEnd(&strm); return Z_MEM_ERROR; } strm.next_out = out + bufferSize; strm.avail_out = bufferSize; bufferSize *= 2; } } while (ret != Z_STREAM_END); assert(strm.avail_in == 0); outLength = bufferSize - strm.avail_out; (void) inflateEnd(&strm); return ret == Z_STREAM_END ? Z_OK : Z_DATA_ERROR; } int inflateMemory(unsigned char *in, unsigned int inLength, unsigned char *&out) { unsigned int outLength = 0; int ret = inflateMemory(in, inLength, out, outLength); if (ret != Z_OK || out == NULL) { if (ret == Z_MEM_ERROR) { logger->log("Error: Out of memory while decompressing map data!"); } else if (ret == Z_VERSION_ERROR) { logger->log("Error: Incompatible zlib version!"); } else if (ret == Z_DATA_ERROR) { logger->log("Error: Incorrect zlib compressed data!"); } else { logger->log("Error: Unknown error while decompressing map data!"); } free(out); out = NULL; outLength = 0; } return outLength; } Map *MapReader::readMap(const std::string &filename) { // Load the file through resource manager ResourceManager *resman = ResourceManager::getInstance(); int fileSize; void *buffer = resman->loadFile(filename, fileSize); Map *map = NULL; if (buffer == NULL) { logger->log("Map file not found (%s)", filename.c_str()); return NULL; } unsigned char *inflated; unsigned int inflatedSize; if (filename.find(".gz", filename.length() - 3) != std::string::npos) { // Inflate the gzipped map data inflatedSize = inflateMemory((unsigned char*) buffer, fileSize, inflated); free(buffer); if (inflated == NULL) { logger->log("Could not decompress map file (%s)", filename.c_str()); return NULL; } } else { inflated = (unsigned char*) buffer; inflatedSize = fileSize; } XML::Document doc((char*) inflated, inflatedSize); free(inflated); xmlNodePtr node = doc.rootNode(); // Parse the inflated map data if (node) { if (!xmlStrEqual(node->name, BAD_CAST "map")) { logger->log("Error: Not a map file (%s)!", filename.c_str()); } else { map = readMap(node, filename); } } else { logger->log("Error while parsing map file (%s)!", filename.c_str()); } return map; } Map *MapReader::readMap(xmlNodePtr node, const std::string &path) { // Take the filename off the path const std::string pathDir = path.substr(0, path.rfind("/") + 1); //xmlChar *prop = xmlGetProp(node, BAD_CAST "version"); //xmlFree(prop); const int w = XML::getProperty(node, "width", 0); const int h = XML::getProperty(node, "height", 0); const int tw = XML::getProperty(node, "tilewidth", DEFAULT_TILE_WIDTH); const int th = XML::getProperty(node, "tileheight", DEFAULT_TILE_HEIGHT); Map *map = new Map(w, h, tw, th); for_each_xml_child_node(childNode, node) { if (xmlStrEqual(childNode->name, BAD_CAST "tileset")) { Tileset *tileset = readTileset(childNode, pathDir, map); if (tileset) { map->addTileset(tileset); } } else if (xmlStrEqual(childNode->name, BAD_CAST "layer")) { readLayer(childNode, map); } else if (xmlStrEqual(childNode->name, BAD_CAST "properties")) { readProperties(childNode, map); } else if (xmlStrEqual(childNode->name, BAD_CAST "objectgroup")) { // The object group offset is applied to each object individually const int tileOffsetX = XML::getProperty(childNode, "x", 0); const int tileOffsetY = XML::getProperty(childNode, "y", 0); const int offsetX = tileOffsetX * tw; const int offsetY = tileOffsetY * th; for_each_xml_child_node(objectNode, childNode) { if (xmlStrEqual(objectNode->name, BAD_CAST "object")) { const std::string objType = XML::getProperty(objectNode, "type", ""); if (objType == "WARP" || objType == "NPC" || objType == "SCRIPT" || objType == "SPAWN") { // Silently skip server-side objects. continue; } const std::string objName = XML::getProperty(objectNode, "name", ""); const int objX = XML::getProperty(objectNode, "x", 0); const int objY = XML::getProperty(objectNode, "y", 0); logger->log("- Loading object name: %s type: %s at %d:%d", objName.c_str(), objType.c_str(), objX, objY); if (objType == "PARTICLE_EFFECT") { if (objName.empty()) { logger->log(" Warning: No particle file given"); continue; } map->addParticleEffect(objName, objX + offsetX, objY + offsetY); } else { logger->log(" Warning: Unknown object type"); } } } } } map->initializeOverlays(); return map; } void MapReader::readProperties(xmlNodePtr node, Properties *props) { for_each_xml_child_node(childNode, node) { if (!xmlStrEqual(childNode->name, BAD_CAST "property")) continue; // Example: const std::string name = XML::getProperty(childNode, "name", ""); const std::string value = XML::getProperty(childNode, "value", ""); if (!name.empty() && !value.empty()) props->setProperty(name, value); } } static void setTile(Map *map, MapLayer *layer, int x, int y, int gid) { const Tileset * const set = map->getTilesetWithGid(gid); if (layer) { // Set regular tile on a layer Image * const img = set ? set->get(gid - set->getFirstGid()) : 0; layer->setTile(x, y, img); } else { // Set collision tile map->setWalk(x, y, (!set || (gid - set->getFirstGid() == 0))); } } void MapReader::readLayer(xmlNodePtr node, Map *map) { // Layers are not necessarily the same size as the map const int w = XML::getProperty(node, "width", map->getWidth()); const int h = XML::getProperty(node, "height", map->getHeight()); const int offsetX = XML::getProperty(node, "x", 0); const int offsetY = XML::getProperty(node, "y", 0); const std::string name = XML::getProperty(node, "name", ""); const bool isFringeLayer = (name == "Fringe"); const bool isCollisionLayer = (name == "Collision"); MapLayer *layer = 0; if (!isCollisionLayer) { layer = new MapLayer(offsetX, offsetY, w, h, isFringeLayer); map->addLayer(layer); } logger->log("- Loading layer \"%s\"", name.c_str()); int x = 0; int y = 0; // Load the tile data for_each_xml_child_node(childNode, node) { if (!xmlStrEqual(childNode->name, BAD_CAST "data")) continue; const std::string encoding = XML::getProperty(childNode, "encoding", ""); const std::string compression = XML::getProperty(childNode, "compression", ""); if (encoding == "base64") { if (!compression.empty() && compression != "gzip") { logger->log("Warning: only gzip layer compression supported!"); return; } // Read base64 encoded map file xmlNodePtr dataChild = childNode->xmlChildrenNode; if (!dataChild) continue; int len = strlen((const char*)dataChild->content) + 1; unsigned char *charData = new unsigned char[len + 1]; const char *charStart = (const char*)dataChild->content; unsigned char *charIndex = charData; while (*charStart) { if (*charStart != ' ' && *charStart != '\t' && *charStart != '\n') { *charIndex = *charStart; charIndex++; } charStart++; } *charIndex = '\0'; int binLen; unsigned char *binData = php3_base64_decode(charData, strlen((char*)charData), &binLen); delete[] charData; if (binData) { if (compression == "gzip") { // Inflate the gzipped layer data unsigned char *inflated; unsigned int inflatedSize = inflateMemory(binData, binLen, inflated); free(binData); binData = inflated; binLen = inflatedSize; if (!inflated) { logger->log("Error: Could not decompress layer!"); return; } } for (int i = 0; i < binLen - 3; i += 4) { const int gid = binData[i] | binData[i + 1] << 8 | binData[i + 2] << 16 | binData[i + 3] << 24; setTile(map, layer, x, y, gid); TileAnimation* ani = map->getAnimationForGid(gid); if (ani) { ani->addAffectedTile(layer, x + y * w); } x++; if (x == w) { x = 0; y++; // When we're done, don't crash on too much data if (y == h) break; } } free(binData); } } else { // Read plain XML map file for_each_xml_child_node(childNode2, childNode) { if (!xmlStrEqual(childNode2->name, BAD_CAST "tile")) continue; const int gid = XML::getProperty(childNode2, "gid", -1); setTile(map, layer, x, y, gid); x++; if (x == w) { x = 0; y++; if (y >= h) break; } } } if (y < h) std::cerr << "TOO SMALL!\n"; if (x) std::cerr << "TOO SMALL!\n"; // There can be only one data element break; } } Tileset *MapReader::readTileset(xmlNodePtr node, const std::string &path, Map *map) { Tileset *set = NULL; if (xmlHasProp(node, BAD_CAST "source")) { logger->log("Warning: External tilesets not supported yet."); return set; } const int firstGid = XML::getProperty(node, "firstgid", 0); const int tw = XML::getProperty(node, "tilewidth", map->getTileWidth()); const int th = XML::getProperty(node, "tileheight", map->getTileHeight()); for_each_xml_child_node(childNode, node) { if (xmlStrEqual(childNode->name, BAD_CAST "image")) { const std::string source = XML::getProperty(childNode, "source", ""); if (!source.empty()) { std::string sourceStr = source; sourceStr.erase(0, 3); // Remove "../" ResourceManager *resman = ResourceManager::getInstance(); Image* tilebmp = resman->getImage(sourceStr); if (tilebmp) { set = new Tileset(tilebmp, tw, th, firstGid); tilebmp->decRef(); } else { logger->log("Warning: Failed to load tileset (%s)", source.c_str()); } } } else if (xmlStrEqual(childNode->name, BAD_CAST "tile")) { for_each_xml_child_node(tileNode, childNode) { if (!xmlStrEqual(tileNode->name, BAD_CAST "properties")) continue; int tileGID = firstGid + XML::getProperty(childNode, "id", 0); // read tile properties to a map for simpler handling std::map tileProperties; for_each_xml_child_node(propertyNode, tileNode) { if (!xmlStrEqual(propertyNode->name, BAD_CAST "property")) continue; std::string name = XML::getProperty(propertyNode, "name", ""); int value = XML::getProperty(propertyNode, "value", 0); tileProperties[name] = value; logger->log("Tile Prop of %d \"%s\" = \"%d\"", tileGID, name.c_str(), value); } // create animation if (!set) continue; Animation *ani = new Animation(); for (int i = 0; ;i++) { std::map::iterator iFrame, iDelay; iFrame = tileProperties.find("animation-frame" + toString(i)); iDelay = tileProperties.find("animation-delay" + toString(i)); if (iFrame != tileProperties.end() && iDelay != tileProperties.end()) { ani->addFrame(set->get(iFrame->second), iDelay->second, 0, 0); } else { break; } } if (ani->getLength() > 0) { map->addAnimation(tileGID, new TileAnimation(ani)); logger->log("Animation length: %d", ani->getLength()); } } } } return set; }