void CArchiveScanner::Scan(const string& curPath, bool checksum)
{
	InitCrcTable();
	isDirty = true;

	const int flags = (FileSystem::INCLUDE_DIRS | FileSystem::RECURSE);
	std::vector<std::string> found = filesystem.FindFiles(curPath, "*", flags);

	for (std::vector<std::string>::iterator it = found.begin(); it != found.end(); ++it) {
		string fullName = *it;

		// Strip
		const char lastFullChar = fullName[fullName.size() - 1];
		if ((lastFullChar == '/') || (lastFullChar == '\\')) {
			fullName = fullName.substr(0, fullName.size() - 1);
		}

		const string fn    = filesystem.GetFilename(fullName);
		const string fpath = filesystem.GetDirectory(fullName);
		const string lcfn    = StringToLower(fn);
		const string lcfpath = StringToLower(fpath);

		// Exclude archivefiles found inside directory archives (.sdd)
		if (lcfpath.find(".sdd") != string::npos) {
			continue;
		}

		// Exclude archivefiles found inside hidden directories
		if ((lcfpath.find("/hidden/")   != string::npos) ||
		    (lcfpath.find("\\hidden\\") != string::npos)) {
			continue;
		}

		// Is this an archive we should look into?
		if (CArchiveFactory::IsArchive(fullName)) {
			struct stat info;

			stat(fullName.c_str(), &info);

			// Determine whether to rely on the cached info or not
			bool cached = false;

			map<string, ArchiveInfo>::iterator aii = archiveInfo.find(lcfn);
			if (aii != archiveInfo.end()) {

				// This archive may have been obsoleted, do not process it if so
				if (aii->second.replaced.length() > 0)
					continue;

				/*
					For truely correct updating of .sdd archives, this code should
					be enabled. Unfortunately it has as side effect that all files
					in all .sdd's always need to be stat()'ed, which really slows
					down program startup.

					An update can be forced anyway by removing ArchiveCacheV*.txt
					or renaming the archive.
				*/

				/*if (S_ISDIR(info.st_mode)) {
					struct stat info2;
					std::vector<std::string> sddfiles = filesystem.FindFiles(fpath, "*", FileSystem::RECURSE | FileSystem::INCLUDE_DIRS);
					for (std::vector<std::string>::iterator sddit = found.begin(); sddit != found.end(); ++sddit) {
						stat(sddit->c_str(), &info2);
						if (info.st_mtime < info2.st_mtime) {
							info.st_mtime = info2.st_mtime;
						}
					}
				}*/

				if ((unsigned)info.st_mtime == aii->second.modified && fpath == aii->second.path) {
					cached = true;
					aii->second.updated = true;
				}

				// If we are here, we could have invalid info in the cache
				// Force a reread if it's a directory archive, as st_mtime only
				// reflects changes to the directory itself, not the contents.
				if (!cached) {
					archiveInfo.erase(aii);
				}
			}

			// Time to parse the info we are interested in
			if (!cached) {

				//printf("scanning archive: %s\n", fullName.c_str());

				CArchiveBase* ar = CArchiveFactory::OpenArchive(fullName);
				if (ar) {
					int cur;
					string name;
					int size;
					ArchiveInfo ai;

					cur = ar->FindFiles(0, &name, &size);
					while (cur != 0) {
						//printf("found %s %d\n", name.c_str(), size);

						string ext = StringToLower(name.substr(name.find_last_of('.') + 1));

						// only accept new format maps
						if (ext == "smf" || ext == "sm3") {
							MapData md;
							if (name.find_last_of('\\') == string::npos && name.find_last_of('/') == string::npos) {
								md.name = name;
								md.virtualPath = "/";
							}
							else {
								if (name.find_last_of('\\') == string::npos) {
									md.name = name.substr(name.find_last_of('/') + 1);
									md.virtualPath = name.substr(0, name.find_last_of('/') + 1);	// include the backslash
								} else {
									md.name = name.substr(name.find_last_of('\\') + 1);
									md.virtualPath = name.substr(0, name.find_last_of('\\') + 1);	// include the backslash
								}
								//md.name = md.name.substr(0, md.name.find_last_of('.'));
							}
							ai.mapData.push_back(md);
						}

						if (name == "modinfo.tdf") {
							int fh = ar->OpenFile(name);
							if (fh) {
								int fsize = ar->FileSize(fh);

								char* buf = SAFE_NEW char[fsize];
								ar->ReadFile(fh, buf, fsize);
								ar->CloseFile(fh);
								try {
									TdfParser p( buf, fsize );
									ai.modData = GetModData(&p, "mod");
								} catch (const TdfParser::parse_error&) {
									// Silently ignore mods with parse errors
								}
								delete [] buf;
							}

						}

						cur = ar->FindFiles(cur, &name, &size);
					}

					ai.path = fpath;
					ai.modified = info.st_mtime;
					ai.origName = fn;
					ai.updated = true;

					delete ar;

					// Optionally calculate a checksum for the file
					// To prevent reading all files in all directory (.sdd) archives every time this function
					// is called, directory archive checksums are calculated on the fly.
					if (checksum) {
						ai.checksum = GetCRC(fullName);
					}
					else {
						ai.checksum = 0;
					}

					archiveInfo[lcfn] = ai;
				}
			}
			else {
				// If cached is true, aii will point to the archive
				if ((checksum) && (aii->second.checksum == 0)) {
void CArchiveScanner::Scan(const string& curPath, bool checksum)
{
	isDirty = true;

	std::vector<std::string> found = filesystem.FindFiles(curPath, "*", FileSystem::RECURSE | FileSystem::INCLUDE_DIRS);
	struct stat info;
	for (std::vector<std::string>::iterator it = found.begin(); it != found.end(); ++it) {
		stat(it->c_str(),&info);

		string fullName = *it;
		string fn = filesystem.GetFilename(fullName);
		string fpath = filesystem.GetDirectory(fullName);
		string lcfn = StringToLower(fn);
		string lcfpath = StringToLower(fpath);

		// Exclude archivefiles found inside directory (.sdd) archives.
		string::size_type sdd = lcfpath.find(".sdd");
		if (sdd != string::npos)
			continue;

		// Is this an archive we should look into?
		if (CArchiveFactory::IsArchive(fullName)) {

			// Determine whether to rely on the cached info or not
			bool cached = false;

			map<string, ArchiveInfo>::iterator aii = archiveInfo.find(lcfn);
			if (aii != archiveInfo.end()) {

				// This archive may have been obsoleted, do not process it if so
				if (aii->second.replaced.length() > 0)
					continue;

				if (S_ISDIR(info.st_mode)) {
					struct stat info2;
					std::vector<std::string> sddfiles = filesystem.FindFiles(fpath, "*", FileSystem::RECURSE | FileSystem::INCLUDE_DIRS);
					for (std::vector<std::string>::iterator sddit = found.begin(); sddit != found.end(); ++sddit) {
						stat(sddit->c_str(), &info2);
						if (info.st_mtime < info2.st_mtime) {
							info.st_mtime = info2.st_mtime;
						}
					}
				}

				if (info.st_mtime == aii->second.modified && fpath == aii->second.path) {
					cached = true;
					aii->second.updated = true;
				}

				// If we are here, we could have invalid info in the cache
				// Force a reread if it's a directory archive, as st_mtime only
				// reflects changes to the directory itself, not the contents.
				if (!cached) {
					archiveInfo.erase(aii);
				}
			}

			// Time to parse the info we are interested in
			if (!cached) {
				CArchiveBase* ar = CArchiveFactory::OpenArchive(fullName);
				if (ar) {
					int cur;
					string name;
					int size;
					ArchiveInfo ai;

					cur = ar->FindFiles(0, &name, &size);
					while (cur != 0) {
						//printf("found %s %d\n", name.c_str(), size);

						string ext = StringToLower(name.substr(name.find_last_of('.') + 1));

						// only accept new format maps
						if (ext == "smf" || ext == "sm3") {
							MapData md;
							if (name.find_last_of('\\') == string::npos && name.find_last_of('/') == string::npos) {
								md.name = name;
								md.virtualPath = "/";
							}
							else {
								if (name.find_last_of('\\') == string::npos) {
									md.name = name.substr(name.find_last_of('/') + 1);
									md.virtualPath = name.substr(0, name.find_last_of('/') + 1);	// include the backslash
								} else {
									md.name = name.substr(name.find_last_of('\\') + 1);
									md.virtualPath = name.substr(0, name.find_last_of('\\') + 1);	// include the backslash
								}
								//md.name = md.name.substr(0, md.name.find_last_of('.'));
							}
							ai.mapData.push_back(md);
						}

						if (name == "modinfo.tdf") {
							int fh = ar->OpenFile(name);
							if (fh) {
								int fsize = ar->FileSize(fh);

								void* buf = malloc(fsize);
								ar->ReadFile(fh, buf, fsize);
								ar->CloseFile(fh);
								try {
									TdfParser p( reinterpret_cast<char*>(buf), fsize );
									ai.modData = GetModData(&p, "mod");
								} catch (const TdfParser::parse_error& e) {
									// Silently ignore mods with parse errors
								}
								free(buf);
							}

						}

						cur = ar->FindFiles(cur, &name, &size);
					}

					ai.path = fpath;
					ai.modified = info.st_mtime;
					ai.origName = fn;
					ai.updated = true;

					delete ar;

					// Optionally calculate a checksum for the file
					// To prevent reading all files in all directory (.sdd) archives every time this function
					// is called, directory archive checksums are calculated on the fly.
					if (checksum) {
						ai.checksum = GetCRC(fullName);
					}
					else {
						ai.checksum = 0;
					}

					archiveInfo[lcfn] = ai;
				}
			}
			else {
				// If cached is true, aii will point to the archive
				if ((checksum) && (aii->second.checksum == 0)) {
					aii->second.checksum = GetCRC(fullName);
				}
			}
		}
	}

	// Now we'll have to parse the replaces-stuff found in the mods
	for (map<string, ArchiveInfo>::iterator aii = archiveInfo.begin(); aii != archiveInfo.end(); ++aii) {
		for (vector<string>::iterator i = aii->second.modData.replaces.begin(); i != aii->second.modData.replaces.end(); ++i) {

			string lcname = StringToLower(*i);

			map<string, ArchiveInfo>::iterator ar = archiveInfo.find(lcname);

			// If it's not there, we will create a new entry
			if (ar == archiveInfo.end()) {
				ArchiveInfo tmp;
				archiveInfo[lcname] = tmp;
				ar = archiveInfo.find(lcname);
			}

			// Overwrite the info for this archive with a replaced pointer
			ar->second.path = "";
			ar->second.origName = lcname;
			ar->second.modified = 1;
			ar->second.mapData.clear();
			ar->second.modData.name = "";
			ar->second.modData.replaces.clear();
			ar->second.updated = true;
			ar->second.replaced = aii->first;
		}
	}
}