Beispiel #1
0
 void operator()(const boost::filesystem::path & data)
 {
     not_cmd = true;
     if (exe.empty())
         exe = data.native();
     else
         args.push_back(data.native());
 }
Beispiel #2
0
		void ZipArchiveImpl::AddFolder(const bfs::path& path, const bfs::path& archive_path)
		{
			++m_Info.folderCount;

			zip_fileinfo fileinfo;
			fileinfo.internal_fa = 0;
#ifdef _WIN32
			fileinfo.external_fa = ::GetFileAttributesW(path.native().c_str());
#else
			{
				struct stat path_stat;
				if (::stat(path.native().c_str(), &path_stat) == 0)
				{
					fileinfo.external_fa = path_stat.st_mode;
				}
			}
#endif
			fileinfo.dosDate = 0;
			// Read the time from the filesystem and convert it
			auto fsTime = bfs::last_write_time(path);
			auto posixTime = boost::posix_time::from_time_t(fsTime);
			auto tm = boost::posix_time::to_tm(posixTime);

			/* TODO: this is how to get the time for a physfs file
			boost::posix_time::ptime posixTime;
			auto milisPastEpoc = PHYSFS_getLastModTime(path.generic_string().c_str());
			if (milisPastEpoc >= 0)
			time = boost::posix_time::ptime(boost::gregorian::date(1970, 1, 1), boost::posix_time::milliseconds(milisPastEpoc));
			else
			time = boost::posix_time::second_clock::local_time();
			*/

			fileinfo.tmz_date.tm_hour = tm.tm_hour;
			fileinfo.tmz_date.tm_min = tm.tm_min;
			fileinfo.tmz_date.tm_sec = tm.tm_sec;
			fileinfo.tmz_date.tm_year = tm.tm_year;
			fileinfo.tmz_date.tm_mon = tm.tm_mon;
			fileinfo.tmz_date.tm_mday = tm.tm_mday;

			auto r = zipOpenNewFileInZip(m_File, (archive_path.generic_string() + "/").c_str(),
				&fileinfo,
				nullptr, 0,
				nullptr, 0,
				nullptr,
				Z_DEFLATED,
				Z_BEST_SPEED);

			zipCloseFileInZip(m_File);

			for (bfs::directory_iterator it(path), end = bfs::directory_iterator(); it != end; ++it)
			{
				AddPath(it->path(), archive_path / it->path().filename());
			}
		}
Beispiel #3
0
void
read_slice_channel(
		T view,
		boost::filesystem::path aff_x_file) {

	vigra::ImageImportInfo info(aff_x_file.native().c_str());
	vigra::MultiArray<2, float> data(info.shape());
	vigra::importImage(aff_x_file.native().c_str(), data);

	for (int x = 0; x < info.shape()[0]; x++)
	for (int y = 0; y < info.shape()[1]; y++)
		view[x][y] = data(x, y);
}
Beispiel #4
0
void throwIfExists(const boost::filesystem::path& file) {
    if (boost::filesystem::exists(file)) {
        std::stringstream ss;
        ss << "File exists: " << file.native();
        throw std::runtime_error(ss.str());
    }
}
Beispiel #5
0
			void load_library() {
				if (handle_ != NULL)
					unload_library();
				handle_ = LoadLibrary(module_.native().c_str());
				if (handle_ == NULL)
					throw dll_exception("Could not load library: " + utf8::cvt<std::string>(error::lookup::last_error()) + ": " + module_.filename().string());
			}
Beispiel #6
0
FS::path ConfdUnittestHarness::make_rooted_path(
  FS::path filename)
{
  try {
    // Can handle $RIFT_ROOT
    std::string raw_fullpath = filename.native();
    const char RIFT_ROOT[] = "$RIFT_ROOT";
    if (raw_fullpath.substr(0, sizeof(RIFT_ROOT)-1) == RIFT_ROOT) {
      raw_fullpath.replace(0, sizeof(RIFT_ROOT)-1, rift_root_.c_str());
    }

    FS::path fullpath = raw_fullpath;
    if (!fullpath.is_absolute()) {
      fullpath = cwd_/fullpath;
    }
    return fullpath;

  } catch (const FS::filesystem_error& fe) {
    cerr << "Filesystem error: " << fe.what()
         << ": " << fe.path1()
         << ", " << fe.path2()
         << std::endl;
    throw std::exception(); // don't rethrow, to prevent being recaught by harness
  }
}
Beispiel #7
0
void try_run_file(const boost::filesystem::path & cur)
{
	if(cur.extension().native().compare(".py"))
	{
		return;
	}

	script_file_parser script_file(cur.native());

	if(script_file.is_valid())
	{
		boost::filesystem::path work, out;
		create_directories(cur, work, out);

		auto parent = cur.parent_path();
		auto start  = parent.begin();

		for(auto p = config::tests.begin(); p != config::tests.end() && *p == *start; ++p, ++start) ;

		for(; start != parent.end(); ++start)
		{
			script_file.add_keyword((*start).native());
		}

		script_file.add_title(cur.stem().native());

		if(config::query->evaluate(script_file))
		{
			script_scheduler()->schedule_file(cur, work, out);
		}
	}
}
/**
 * Creates a new log_writer instance which will emit output to the specified file.
 * @param output_file Path identifying file to write XML to.
 * @param create If output_file doesn't exist, indicates whether to create it on the fly. Defaults to true.
 * @param write_header indicates if the XML preamble should be written on startup
 * @param write_footer indicates if the XML closure tags should be written on shutdown.
 * @param specific_pid specify the PID to create log for
 * @param specific_application_name specify the application name to create log for
 * @returns shared pointer to newly instanced log_writer.
 */
std::shared_ptr<log_writer> log_writer::create_from_file_path(
        const boost::filesystem::path& output_file, const bool& create,
        const bool& write_header, const bool& write_footer,
        const pid_type& specific_pid, const std::string& specific_application_name)
{
    try
    {
        using namespace boost::filesystem;

        // determine if the file exists
        if (!exists(output_file))
        {
            // the file doesn't exist.
            // check to see if we should create it...
            if (create)
            {
                //
                // ideally - I would like to check the validity of the requested file here but
                // boost::filesystem::native() is having some problems with relative paths such
                // as "./log.xml" (incl. the leading ./); which is apparently not a valid file path.
                // instead we'll have to push on and rely on the resulting exception to indicate bad files.
                //

                // determine the parent directory path (required for relative paths)
                auto parent_directory = absolute(output_file).branch_path();
                boost::system::error_code filesystem_error;

                // ensure parent directory exists, or create it
                if (!exists(parent_directory) && !create_directories(
                        parent_directory, filesystem_error))
                {
                    using namespace inglenook::core::exceptions;
                    // the parent path doesn't exist and we failed to create it.
                    BOOST_THROW_EXCEPTION(failed_to_create_log_exception()
                            << boost_filesystem_error(filesystem_error)
                            << inglenook_error_number(log_exception_bad_file_path));
                }
            }
            else // the file does not exist, and we were not instructed to create it.
            {
                using namespace inglenook::core::exceptions;
                BOOST_THROW_EXCEPTION(log_not_found_exception()
                    << inglenook_error_number(log_exception_bad_file_path));
            }
        }

        // at this point either the log exists, or we are good to create it
        // so attempt to open the specified file path for appending data.
        return std::shared_ptr<log_writer>(new log_writer(std::shared_ptr<std::ofstream>(
                                new std::ofstream(output_file.native(), std::ios::app)),
                                write_header, write_footer, specific_pid,
                                specific_application_name));
    }
    catch(boost::exception& ex)
    {
        // if anything goes wrong augment exception with the file path we were working with.
        ex << log_file_name(output_file);
        throw;
    }
}
Beispiel #9
0
void read_image( boost::filesystem::path const& pathname, DiskImage<PixelType>& output_image ){

    // make sure the file exists
    if( boost::filesystem::exists( pathname ) == false ){
        throw std::runtime_error(std::string(std::string("error: File \"") + pathname.native() + std::string("\" does not exist.")).c_str());
    }

    // compute the required driver
    GEO::ImageDriverType driver = compute_driver( pathname, DriverOptions::READ_ONLY );
    
    // create the resource
    DiskResource<PixelType> resource;
    
    boost::shared_ptr<GEO::IO::ImageDriverBase> image_driver(nullptr);

    /**
     * Iterate through potential drivers
     */
    if( driver == ImageDriverType::GDAL ){
        image_driver = boost::shared_ptr<GEO::IO::ImageDriverBase>(new GEO::IO::GDAL::ImageDriverGDAL(pathname));
        image_driver->open();
    }
    else{
        throw std::runtime_error("Unknown driver type.");
    }
    

    // set the resource
    resource.setDriver( image_driver );

    // set the driver
    output_image.setResource(resource);
}
Beispiel #10
0
	bool IsPluginMaster(boost::filesystem::path filename) {
		char		buffer[MAXLENGTH];
		char*		bufptr = buffer;
		ModHeader	modHeader;

		if (filename.empty())
			return false;

		ifstream	file(filename.native().c_str(), ios_base::binary | ios_base::in);

		if (file.bad())
			//throw boss_error(BOSS_ERROR_FILE_READ_FAIL, filename.string());
			return false;

		// Reads the first MAXLENGTH bytes into the buffer
		file.read(&buffer[0], sizeof(buffer));

		// Check for the 'magic' marker at start
		if (Read<uint>(bufptr) != Record::TES4){
			return false;
		}

		// Next field is the total header size
		/*uint headerSize =*/ Read<uint>(bufptr);

		// Next comes the header record Flags
		uint flags = Read<uint>(bufptr);

		// LSb of this record's flags is used to indicate if the 
		//	mod is a master or a plugin
		return ((flags & 0x1) != 0);
	}
Beispiel #11
0
void
mack::options::configuration_file::parse(
    boost::filesystem::path const& file_path,
    mack::options::program_options* options)
{
  if (options == NULL)
  {
    BOOST_THROW_EXCEPTION(mack::core::null_pointer_error());
  }
  try
  {
    parse(mack::core::files::read_file(file_path), options);
  }
  catch (mack::options::no_such_option_error e)
  {
    if (boost::get_error_info<mack::core::files::errinfo_file>(e) == NULL)
    {
      // this is the configuration file with the erroneous line
      e << mack::core::files::errinfo_file(file_path.native());
    } // else error from within a further configuration file
    throw;
  }
  catch (mack::options::no_such_namespace_error e)
  {
    if (boost::get_error_info<mack::core::files::errinfo_file>(e) == NULL)
    {
      e << mack::core::files::errinfo_file(file_path.native());
    }
    throw;
  }
  catch (mack::options::invalid_value_error e)
  {
    if (boost::get_error_info<mack::core::files::errinfo_file>(e) == NULL)
    {
      e << mack::core::files::errinfo_file(file_path.native());
    }
    throw;
  }
  catch (mack::options::no_value_error e)
  {
    if (boost::get_error_info<mack::core::files::errinfo_file>(e) == NULL)
    {
      e << mack::core::files::errinfo_file(file_path.native());
    }
    throw;
  }
}
Beispiel #12
0
inline std::string
pathstr(const filesystem::path& p)
{
#ifdef _WIN32
    return Strutil::utf16_to_utf8(p.native());
#else
    return p.string();
#endif
}
Beispiel #13
0
std::string PathString(const fs::path& path) {
#ifndef FREEORION_WIN32
    return path.string();
#else
    fs::path::string_type native_string = path.native();
    std::string retval;
    utf8::utf16to8(native_string.begin(), native_string.end(), std::back_inserter(retval));
    return retval;
#endif
}
Beispiel #14
0
size_t IOFactory::loadFile( std::list<Chunk> &ret, const boost::filesystem::path &filename, util::istring suffix_override, util::istring dialect )
{
	FileFormatList formatReader;
	formatReader = getFileFormatList( filename.string(), suffix_override, dialect );
	const util::istring with_dialect = dialect.empty() ?
									   util::istring( "" ) : util::istring( " with dialect \"" ) + dialect + "\"";

	if ( formatReader.empty() ) {
		if( !boost::filesystem::exists( filename ) ) {
			LOG( Runtime, error ) << util::MSubject( filename )
								  << " does not exist as file, and no suitable plugin was found to generate data from "
								  << ( suffix_override.empty() ? util::istring( "that name" ) : util::istring( "the suffix \"" ) + suffix_override + "\"" );
		} else if( suffix_override.empty() ) {
			LOG( Runtime, error ) << "No plugin found to read " << filename << with_dialect;
		} else {
			LOG( Runtime, error ) << "No plugin supporting the requested suffix " << suffix_override << with_dialect << " was found";
		}
	} else {
		BOOST_FOREACH( FileFormatList::const_reference it, formatReader ) {
			LOG( ImageIoDebug, info )
					<< "plugin to load file" << with_dialect << " " << util::MSubject( filename ) << ": " << it->getName();

			try {
				int loaded=it->load( ret, filename.native(), dialect, m_feedback );
				BOOST_FOREACH( Chunk & ref, ret ) {
					if ( ! ref.hasProperty( "source" ) )
						ref.setPropertyAs( "source", filename.native() );
				}
				return loaded;
			} catch ( std::runtime_error &e ) {
				if( suffix_override.empty() ) {
					LOG( Runtime, formatReader.size() > 1 ? warning : error )
							<< "Failed to load " <<  filename << " using " <<  it->getName() << with_dialect << " ( " << e.what() << " )";
				} else {
					LOG( Runtime, warning )
							<< "The enforced format " << it->getName()  << " failed to read " << filename << with_dialect
							<< " ( " << e.what() << " ), maybe it just wasn't the right format";
				}
			}
		}
		LOG_IF( boost::filesystem::exists( filename ) && formatReader.size() > 1, Runtime, error ) << "No plugin was able to load: "   << util::MSubject( filename ) << with_dialect;
	}
Beispiel #15
0
inline void png_read_and_convert_image(const boost::filesystem::path& path,Image& im) {
#if defined (_WIN32)
    boost::filesystem::path::string_type path_native = path.native();
    FILE* file = _wfopen(path_native.c_str(), L"rb");
    gil::png_read_and_convert_image(file,im);
    fclose(file);
#else
    std::string filename = path.generic_string();
    png_read_and_convert_image(filename.c_str(),im);
#endif
}
void EnOpenNLPChunker::Process(std::istream &in, std::ostream &out, const vector<string> &filterList)
{
    const boost::filesystem::path
    inPath = boost::filesystem::unique_path(),
    outPath = boost::filesystem::unique_path();
    // read all input to a temp file
    ofstream inFile(inPath.c_str());

    string line;
    while (getline(in, line)) {
        Unescape(line);
        inFile << line << endl;
    }
    inFile.close();

    // execute chunker
    string cmd = "cat " + inPath.native() + " | "
                 + m_openNLPPath + "/bin/opennlp POSTagger "
                 + m_openNLPPath + "/models/en-pos-maxent.bin | "
                 + m_openNLPPath + "/bin/opennlp ChunkerME "
                 + m_openNLPPath + "/models/en-chunker.bin > "
                 + outPath.native();
    //g << "Executing:" << cmd << endl;
    int ret = system(cmd.c_str());

    // read result of chunker and output as Moses xml trees
    ifstream outFile(outPath.c_str());

    size_t lineNum = 0;
    while (getline(outFile, line)) {
        //cerr << line << endl;
        MosesReformat(line, out, filterList);
        out << endl;
        ++lineNum;
    }
    outFile.close();

    // clean up temporary files
    remove(inPath.c_str());
    remove(outPath.c_str());
}
Beispiel #17
0
SerialPort::SerialPort(const boost::filesystem::path &devPath, const int dir):
  fd_( open(devPath.native().c_str(), dirMode(dir)|O_NOCTTY|O_NDELAY) )
{
  if(fd_.get()==-1)
    throw ExceptionDevice{devPath};
  configure();
  // this is a little trick - it appears that when RS-232 is started
  // it needs a little while to warm up. so we wait 10 20ms cycles
  // and cleanup any trashes that may have arrived.
  usleep(10*20*1000);
  if(dir&READ)
    discardContent();
}
Beispiel #18
0
int main(int argc, char** argv)
{
    if (argc != 4)
    {
        std::cerr << "Usage: pp_unlock CHUNKFILE BLOCK_HASH PUBKEY"
            << std::endl;
        return -1;
    }
    const std::string chunk_filename = argv[1];
    const data_chunk hash = decode_hex(argv[2]);
    if (hash.empty() || hash.size() != hash_size)
    {
        std::cerr << "pp_unlock: not a valid BLOCK_HASH." << std::endl;
        return -1;
    }
    const ec_point pubkey = decode_hex(argv[3]);
    if (pubkey.empty() || pubkey.size() != ec_compressed_size)
    {
        std::cerr << "pp_unlock: not a valid PUBKEY." << std::endl;
        return -1;
    }
    std::ifstream infile(chunk_filename, std::ifstream::binary);
    infile.seekg(0, std::ifstream::end);
    size_t file_size = infile.tellg();
    BITCOIN_ASSERT(file_size % 16 == 0);
    infile.seekg(0, std::ifstream::beg);
    // Read entire file in.
    data_chunk cipher(file_size);
    // Copy chunk to public chunk file.
    char* data = reinterpret_cast<char*>(cipher.data());
    infile.read(data, file_size);
    infile.close();
    // Get seed.
    payment_address bid_addr = bidding_address(pubkey);
    hash_digest seed = derive_seed(pubkey);
    // Decrypt chunk.
    aes256_context ctx; 
    BITCOIN_ASSERT(seed.size() == 32);
    aes256_init(&ctx, seed.data());
    BITCOIN_ASSERT(cipher.size() % 16 == 0);
    for (size_t i = 0; i < cipher.size(); i += 16)
        aes256_decrypt_ecb(&ctx, cipher.data() + i);
    aes256_done(&ctx);
    // Write out.
    const fs::path new_chunk_filename = (chunk_filename + ".decrypted");
    std::ofstream outfile(new_chunk_filename.native(), std::ifstream::binary);
    char* dec_data = reinterpret_cast<char*>(cipher.data());
    outfile.write(dec_data, cipher.size());
    return 0;
}
bool PatchExtractor::createPathsAndWriteFile(const boost::filesystem::path & subdirectory, const std::string & fileName, const cv::Mat & patch)
{
    const std::string patchFileName = fileName + ".pgm";

    for (;currentOutputDir != endOutputDir; ++currentOutputDir)
    {
        const boost::filesystem::path dir = (*currentOutputDir) / subdirectory;

        if ( !boost::filesystem::exists(dir) )
        {
            try
            {
                boost::filesystem::create_directories(dir);
            }
            catch (boost::filesystem::filesystem_error & e)
            {
                std::cerr << "Failed to create directories " << dir.native() << ". Will try another.\n";
                continue;
            }
        }

        const boost::filesystem::path patchPath = dir / patchFileName;

        if ( cv::imwrite(patchPath.native(), patch) )
        {
            return true;
        }
        else
        {
            std::cerr << "Failed to write patch at path " << patchPath.native() << ". Will try another.\n";
            continue;
        }
    }

    std::cerr << "No more output directories to try to write the patch.\n";
    return false;
}
Beispiel #20
0
uint64_t AssetStore::assetDiskUsage(const boost::filesystem::path& path) const
{
	uint64_t res=0;
	struct stat res_stat;
	if (stat(path.c_str(), &res_stat) != 0) {
		BOOST_LOG_SEV(bithorded::storeLog, warning) << "failed stat:ing asset " << path.native();
		return 0;
	}
	if (S_ISREG(res_stat.st_mode)) {
		res += res_stat.st_blocks * 512;
	} else if (S_ISDIR(res_stat.st_mode)) {
		fs::directory_iterator end;
		for (fs::directory_iterator iter(path); iter != end; iter++) {
			if (stat(iter->path().c_str(), &res_stat) == 0) {
				res += res_stat.st_blocks * 512;
			} else {
				BOOST_LOG_SEV(bithorded::storeLog, warning) << "failed stat:ing asset-part " << iter->path().native();
			}
		}
	} else {
		BOOST_LOG_SEV(bithorded::storeLog, warning) << "unknown type for asset " << path.native();
	}
	return res;
}
Beispiel #21
0
void CPlaylist::Read(const boost::filesystem::path& playlistPath)
{
	Clear();

	std::unique_ptr<Framework::Xml::CNode> document;
	{
		auto stream(Framework::CreateInputStdStream(playlistPath.native()));
		document = std::unique_ptr<Framework::Xml::CNode>(Framework::Xml::CParser::ParseDocument(stream));
	}
	if(!document)
	{
		throw std::runtime_error("Couldn't parse document.");
	}
	auto parentPath = playlistPath.parent_path();

	auto items = document->SelectNodes(PLAYLIST_NODE_TAG "/" PLAYLIST_ITEM_NODE_TAG);
	for(auto nodeIterator(std::begin(items));
	    nodeIterator != std::end(items); nodeIterator++)
	{
		auto itemNode = (*nodeIterator);
		boost::filesystem::path itemPath = Framework::Utf8::ConvertFrom(itemNode->GetAttribute(PLAYLIST_ITEM_PATH_ATTRIBUTE));
		const char* title = itemNode->GetAttribute(PLAYLIST_ITEM_TITLE_ATTRIBUTE);
		const char* length = itemNode->GetAttribute(PLAYLIST_ITEM_LENGTH_ATTRIBUTE);

		if(!itemPath.is_complete())
		{
			itemPath = parentPath / itemPath;
		}

		ITEM item;
		item.path = itemPath.wstring();
		if(title != NULL)
		{
			item.title = Framework::Utf8::ConvertFrom(title);
		}

		if(length != NULL)
		{
			item.length = atoi(length);
		}
		else
		{
			item.length = 0;
		}

		InsertItem(item);
	}
}
Beispiel #22
0
void run_file(const boost::filesystem::path & cur)
{
	if(cur.extension().native().compare(".py"))
	{
		return;
	}

	script_file_parser script_file(cur.native());

	if(script_file.is_valid())
	{
		boost::filesystem::path work, out;
		create_directories(cur, work, out);
		script_scheduler()->schedule_file(cur, work, out);
	}
}
void CPsfZipArchive::Open(const boost::filesystem::path& filePath)
{
	assert(m_inputFile.IsEmpty());
	assert(!m_archive);
	m_inputFile = Framework::CreateInputStdStream(filePath.native());
	m_archive = std::make_unique<Framework::CZipArchiveReader>(m_inputFile);
	for(const auto& fileHeaderPair : m_archive->GetFileHeaders())
	{
		const auto& fileHeader(fileHeaderPair.second);
		if(fileHeader.uncompressedSize == 0) continue;
		FILEINFO fileInfo;
		fileInfo.name = fileHeaderPair.first;
		fileInfo.length = fileHeader.uncompressedSize;
		m_files.push_back(fileInfo);
	}
}
Beispiel #24
0
uint64_t remove_file_recursive(const fs::path& path) {
	uint64_t size_freed = 0;
	boost::system::error_code err;

	struct stat res_stat;
	if (lstat(path.c_str(), &res_stat) == 0) {
		size_freed += res_stat.st_blocks * 512;
		if (S_ISDIR(res_stat.st_mode)) {
			for (fs::directory_iterator itr(path); itr != end_dir_itr; ++itr)
				size_freed += remove_file_recursive(itr->path());
		}
		fs::remove(path, err);
		if (err) {
			BOOST_LOG_SEV(bithorded::storeLog, warning) << "error removing file " << path << "; " << err;
		}
	} else {
		BOOST_LOG_SEV(bithorded::storeLog, warning) << "failed stat:ing file " << path.native();
	}
	return size_freed;
}
Beispiel #25
0
uint32 Utils::ComputeFileCrc32(const boost::filesystem::path& filePath)
{
	auto inputStream = Framework::CreateInputStdStream(filePath.native());
	auto crc = crc32(0, Z_NULL, 0);
	while(1)
	{
		const uint32 bufferSize = 0x4000;
		uint8 buffer[bufferSize];
		auto actualRead = inputStream.Read(buffer, bufferSize);
		if(actualRead == 0)
		{
			break;
		}
		crc = crc32(crc, buffer, static_cast<uInt>(actualRead));
		if(inputStream.IsEOF())
		{
			break;
		}
	}
	return crc;
}
Beispiel #26
0
Framework::CStdStream CPatchFile::CreateOutputStdStreamWithRetry(const boost::filesystem::path& filePath)
{
	int retryCount = 0;
	while(1)
	{
		try
		{
			auto result = Framework::CreateOutputStdStream(filePath.native());
			return result;
		}
		catch(...)
		{
			if(retryCount == 5)
			{
				throw;
			}
			std::this_thread::sleep_for(std::chrono::seconds(1));
			retryCount++;
		}
	}
}
Beispiel #27
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void
mack::options::doc_parser::file_handler::check_update_file(
    std::string const& file_name,
    std::string const& content)
{
  const boost::filesystem::path file_path =
    boost::filesystem::absolute(_types_directory_path / file_name);

  const std::set<std::string>::iterator found =
    _old_type_files.find(file_path.native());
  if (found == _old_type_files.end())
  {
    // new file
    mack::core::files::write_file(content, file_path);
  }
  else
  {
    // already exists
    update_file(file_path, content);
    _old_type_files.erase(found);
  }
}
Beispiel #28
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void read_image( boost::filesystem::path const& pathname, Image<PixelType>& output_image ){

    /// make sure the file exists
    if( boost::filesystem::exists( pathname ) == false ){
        throw std::runtime_error(std::string(std::string("error: File \"") + pathname.native() + std::string("\" does not exist.")).c_str());
    }

    /// decide which driver to use depending on the filename
    GEO::ImageDriverType driver = compute_driver(pathname);

    
    /**
     * Since we are just loading pixel data, call the appropriate load_image_data function
     */
    if( driver == GEO::ImageDriverType::GDAL ){
        int rowSize;
        output_image.setResource( GEO::IO::GDAL::load_image<PixelType>(pathname));
    }
    else{
        throw std::runtime_error("Unknown driver.");
    }
    
}
Beispiel #29
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void CPlaylist::Write(const boost::filesystem::path& playlistPath)
{
	std::unique_ptr<Framework::Xml::CNode> document(new Framework::Xml::CNode());
	auto playlistNode = document->InsertNode(new Framework::Xml::CNode(PLAYLIST_NODE_TAG, true));

	auto parentPath = playlistPath.parent_path();

	for(auto itemIterator(std::begin(m_items));
	    itemIterator != std::end(m_items); itemIterator++)
	{
		const auto& item(*itemIterator);

		boost::filesystem::path itemPath(item.path);
		auto itemRelativePath(naive_uncomplete(itemPath, parentPath));

		auto itemNode = playlistNode->InsertNode(new Framework::Xml::CNode(PLAYLIST_ITEM_NODE_TAG, true));
		itemNode->InsertAttribute(PLAYLIST_ITEM_PATH_ATTRIBUTE, Framework::Utf8::ConvertTo(itemRelativePath.wstring()).c_str());
		itemNode->InsertAttribute(PLAYLIST_ITEM_TITLE_ATTRIBUTE, Framework::Utf8::ConvertTo(item.title).c_str());
		itemNode->InsertAttribute(Framework::Xml::CreateAttributeIntValue(PLAYLIST_ITEM_LENGTH_ATTRIBUTE, item.length));
	}

	auto stream(Framework::CreateOutputStdStream(playlistPath.native()));
	Framework::Xml::CWriter::WriteDocument(stream, document.get());
}
Beispiel #30
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 /** \brief create error message.
  *  \param devPath path to device, that caused an error.
  */
 explicit ExceptionDevice(const boost::filesystem::path &devPath):
   Exception{ Strm{}<<"error while opening device: "<<devPath.native() }
 {
 }