Example #1
0
        /// <summary>
        /// This is the click handler for the 'Copy Strings' button.  Here we will parse the
        /// strings contained in the ElementsToWrite text block, write them to a stream using
        /// DataWriter, retrieve them using DataReader, and output the results in the
        /// ElementsRead text block.
        /// </summary>
        /// <param name="sender">Contains information about the button that fired the event.</param>
        /// <param name="e">Contains state information and event data associated with a routed event.</param>
        private async void TransferData(object sender, RoutedEventArgs e)
        {
            // Initialize the in-memory stream where data will be stored.
            using (var stream = new Windows.Storage.Streams.InMemoryRandomAccessStream())
            {
                // Create the data writer object backed by the in-memory stream.
                using (var dataWriter = new Windows.Storage.Streams.DataWriter(stream))
                {
                    dataWriter.UnicodeEncoding = Windows.Storage.Streams.UnicodeEncoding.Utf8;
                    dataWriter.ByteOrder       = Windows.Storage.Streams.ByteOrder.LittleEndian;

                    // Write each element separately.
                    foreach (string inputElement in inputElements)
                    {
                        uint inputElementSize = dataWriter.MeasureString(inputElement);
                        dataWriter.WriteUInt32(inputElementSize);
                        dataWriter.WriteString(inputElement);
                    }

                    // Send the contents of the writer to the backing stream.
                    await dataWriter.StoreAsync();

                    // For the in-memory stream implementation we are using, the flushAsync call is superfluous,
                    // but other types of streams may require it.
                    await dataWriter.FlushAsync();

                    // In order to prolong the lifetime of the stream, detach it from the DataWriter so that it
                    // will not be closed when Dispose() is called on dataWriter. Were we to fail to detach the
                    // stream, the call to dataWriter.Dispose() would close the underlying stream, preventing
                    // its subsequent use by the DataReader below.
                    dataWriter.DetachStream();
                }

                // Create the input stream at position 0 so that the stream can be read from the beginning.
                stream.Seek(0);
                using (var dataReader = new Windows.Storage.Streams.DataReader(stream))
                {
                    // The encoding and byte order need to match the settings of the writer we previously used.
                    dataReader.UnicodeEncoding = Windows.Storage.Streams.UnicodeEncoding.Utf8;
                    dataReader.ByteOrder       = Windows.Storage.Streams.ByteOrder.LittleEndian;

                    // Once we have written the contents successfully we load the stream.
                    await dataReader.LoadAsync((uint)stream.Size);

                    var receivedStrings = "";

                    // Keep reading until we consume the complete stream.
                    while (dataReader.UnconsumedBufferLength > 0)
                    {
                        // Note that the call to readString requires a length of "code units" to read. This
                        // is the reason each string is preceded by its length when "on the wire".
                        uint bytesToRead = dataReader.ReadUInt32();
                        receivedStrings += dataReader.ReadString(bytesToRead) + "\n";
                    }

                    // Populate the ElementsRead text block with the items we read from the stream.
                    ElementsRead.Text = receivedStrings;
                }
            }
        }
        /// <summary>
        /// This is the click handler for the 'Copy Strings' button.  Here we will parse the
        /// strings contained in the ElementsToWrite text block, write them to a stream using
        /// DataWriter, retrieve them using DataReader, and output the results in the
        /// ElementsRead text block.
        /// </summary>
        /// <param name="sender">Contains information about the button that fired the event.</param>
        /// <param name="e">Contains state information and event data associated with a routed event.</param>
        private async void TransferData(object sender, RoutedEventArgs e)
        {
            // Initialize the in-memory stream where data will be stored.
            using (var stream = new Windows.Storage.Streams.InMemoryRandomAccessStream())
            {
                // Create the data writer object backed by the in-memory stream.
                using (var dataWriter = new Windows.Storage.Streams.DataWriter(stream))
                {
                    dataWriter.UnicodeEncoding = Windows.Storage.Streams.UnicodeEncoding.Utf8;
                    dataWriter.ByteOrder = Windows.Storage.Streams.ByteOrder.LittleEndian;

                    // Write each element separately.
                    foreach (string inputElement in inputElements)
                    {
                        uint inputElementSize = dataWriter.MeasureString(inputElement);
                        dataWriter.WriteUInt32(inputElementSize);
                        dataWriter.WriteString(inputElement);
                    }

                    // Send the contents of the writer to the backing stream.
                    await dataWriter.StoreAsync();

                    // For the in-memory stream implementation we are using, the flushAsync call is superfluous,
                    // but other types of streams may require it.
                    await dataWriter.FlushAsync();

                    // In order to prolong the lifetime of the stream, detach it from the DataWriter so that it 
                    // will not be closed when Dispose() is called on dataWriter. Were we to fail to detach the 
                    // stream, the call to dataWriter.Dispose() would close the underlying stream, preventing 
                    // its subsequent use by the DataReader below.
                    dataWriter.DetachStream();
                }

                // Create the input stream at position 0 so that the stream can be read from the beginning.
                stream.Seek(0);
                using (var dataReader = new Windows.Storage.Streams.DataReader(stream))
                {
                    // The encoding and byte order need to match the settings of the writer we previously used.
                    dataReader.UnicodeEncoding = Windows.Storage.Streams.UnicodeEncoding.Utf8;
                    dataReader.ByteOrder = Windows.Storage.Streams.ByteOrder.LittleEndian;

                    // Once we have written the contents successfully we load the stream.
                    await dataReader.LoadAsync((uint)stream.Size);

                    var receivedStrings = "";

                    // Keep reading until we consume the complete stream.
                    while (dataReader.UnconsumedBufferLength > 0)
                    {
                        // Note that the call to readString requires a length of "code units" to read. This
                        // is the reason each string is preceded by its length when "on the wire".
                        uint bytesToRead = dataReader.ReadUInt32();
                        receivedStrings += dataReader.ReadString(bytesToRead) + "\n";
                    }

                    // Populate the ElementsRead text block with the items we read from the stream.
                    ElementsRead.Text = receivedStrings;
                }
            }
        }
Example #3
0
        /// <summary>
        ///  動作ログを出力する.
        /// </summary>
        /// <param name="taskInstance"></param>
        /// <returns></returns>
        async Task WriteLogAsync(IBackgroundTaskInstance taskInstance, SetLockscreenResult result)
        {
            var log = String.Format("{0}: {1} / {2}, {3}{4}",
                                    DateTimeOffset.Now,
                                    taskInstance.Task.Name,
                                    taskInstance.Task.TaskId,
                                    result,
                                    Environment.NewLine);

            System.Diagnostics.Debug.WriteLine(log);

            var logfile = await Windows.Storage.ApplicationData.Current.LocalFolder.CreateFileAsync("bgtask.log", Windows.Storage.CreationCollisionOption.OpenIfExists);

            if (logfile != null)
            {
                System.Diagnostics.Debug.WriteLine(logfile.Path);
                using (var strm = await logfile.OpenAsync(Windows.Storage.FileAccessMode.ReadWrite))
                {
                    strm.Seek(strm.Size);
                    using (var dw = new Windows.Storage.Streams.DataWriter(strm))
                    {
                        dw.UnicodeEncoding = Windows.Storage.Streams.UnicodeEncoding.Utf16LE;
                        dw.WriteString(log);
                        await dw.StoreAsync();

                        await dw.FlushAsync();
                    }
                }
            }
        }