共用方式為


MapTileBitmapRequest.PixelData 屬性

定義

取得 CustomMapTileDataSource的點陣圖資料。

public:
 property IRandomAccessStreamReference ^ PixelData { IRandomAccessStreamReference ^ get(); void set(IRandomAccessStreamReference ^ value); };
IRandomAccessStreamReference PixelData();

void PixelData(IRandomAccessStreamReference value);
public IRandomAccessStreamReference PixelData { get; set; }
var iRandomAccessStreamReference = mapTileBitmapRequest.pixelData;
mapTileBitmapRequest.pixelData = iRandomAccessStreamReference;
Public Property PixelData As IRandomAccessStreamReference

屬性值

點陣圖資料。

備註

CustomMapTileDataSource 支援在記憶體中繪製磚,並將其傳回為圖元資料流程。 下列程式碼範例示範在記憶體中繪製磚的一種方法。

// Create new custom tile source
CustomMapTileDataSource customDataSource = new CustomMapTileDataSource();
customDataSource.BitmapRequested += customDataSource_BitmapRequestedAsync;
customTileSource = new MapTileSource(customDataSource);

/// <summary>
/// BitmapRequested event handler for CustomMapTileDataSource.BitmapRequested event
/// </summary>
/// <param name="sender">sender</param>
/// <param name="args">args for ZoomLevel, X, Y and the PixelData</param>
private async void customDataSource_BitmapRequestedAsync(CustomMapTileDataSource sender, MapTileBitmapRequestedEventArgs args)
{
    var deferral = args.Request.GetDeferral();
    args.Request.PixelData = await CreateBitmapAsStreamAsync();
    deferral.Complete();
}

/// <summary>
/// Create memory buffer with length of 256 * 256 * 4.  
/// This memory buffer is holding 256 * 256 pixels
/// </summary>
/// <returns>memory buffer that fills with red opaque pixels.</returns>
private async Task<Windows.Storage.Streams.RandomAccessStreamReference> CreateBitmapAsStreamAsync()
{
    int pixelHeight = 256;
    int pixelWidth = 256;
    int bpp = 4;

    byte[] bytes = new byte[pixelHeight * pixelWidth * bpp];

    for (int y = 0; y < pixelHeight; y++)
    {
        for (int x = 0; x < pixelWidth; x++)
        {
            int pixelIndex = y * pixelWidth + x;
            int byteIndex = pixelIndex * bpp;

            bytes[byteIndex] = 0xff;        // Red
            bytes[byteIndex + 1] = 0x00;    // Green
            bytes[byteIndex + 2] = 0x00;    // Blue
            bytes[byteIndex + 3] = 0x80;    // Alpha (0xff = fully opaque)
        }
    }

    // Create RandomAccessStream from byte array
    InMemoryRandomAccessStream randomAccessStream = new InMemoryRandomAccessStream();
    IOutputStream outputStream = randomAccessStream.GetOutputStreamAt(0);
    DataWriter writer = new DataWriter(outputStream);
    writer.WriteBytes(bytes);
    await writer.StoreAsync();
    await writer.FlushAsync();
    return RandomAccessStreamReference.CreateFromStream(randomAccessStream);
}
Windows::Foundation::IAsyncOperation<Windows::Storage::Streams::InMemoryRandomAccessStream> TileSources::CustomRandomAccessStreamAsync()
{
    const int pixelHeight{ 256 };
    const int pixelWidth{ 256 };
    const int bpp{ 4 };

    std::array<byte, pixelHeight * pixelWidth * bpp> bytes;

    for (int y = 0; y < pixelHeight; ++y)
    {
        for (int x = 0; x < pixelWidth; ++x)
        {
            int pixelIndex = y * pixelWidth + x;
            int byteIndex = pixelIndex * bpp;

            // Set current pixel bytes
            bytes[byteIndex] = (byte)(std::rand() % 256);        // Red
            bytes[byteIndex + 1] = (byte)(std::rand() % 256);    // Green
            bytes[byteIndex + 2] = (byte)(std::rand() % 256);    // Blue
            bytes[byteIndex + 3] = (byte)((std::rand() % 56) + 200);    // Alpha (0xff = fully opaque)
        }
    }

    // Create RandomAccessStream from byte array
    Windows::Storage::Streams::InMemoryRandomAccessStream randomAccessStream;
    Windows::Storage::Streams::IOutputStream outputStream{ randomAccessStream.GetOutputStreamAt(0) };
    Windows::Storage::Streams::DataWriter writer{ outputStream };
    writer.WriteBytes(bytes);

    co_await writer.StoreAsync();
    co_await writer.FlushAsync();

    co_return randomAccessStream;
}
InMemoryRandomAccessStream^ TileSources::CustomRandomAccessStream::get()
{
       int pixelHeight = 256;
       int pixelWidth = 256;
       int bpp = 4;

       Array<byte>^ bytes = ref new Array<byte>(pixelHeight * pixelWidth * bpp);

       for (int y = 0; y < pixelHeight; y++)
       {
              for (int x = 0; x < pixelWidth; x++)
              {
                     int pixelIndex = y * pixelWidth + x;
                     int byteIndex = pixelIndex * bpp;

                     // Set current pixel bytes
                     bytes[byteIndex] = (byte)(std::rand() % 256);        // Red
                     bytes[byteIndex + 1] = (byte)(std::rand() % 256);    // Green
                     bytes[byteIndex + 2] = (byte)(std::rand() % 256);    // Blue
                     bytes[byteIndex + 3] = (byte)((std::rand() % 56) + 200);    // Alpha (0xff = fully opaque)
              }
       }

       // Create RandomAccessStream from byte array
       InMemoryRandomAccessStream^ randomAccessStream = ref new InMemoryRandomAccessStream();
       IOutputStream^ outputStream = randomAccessStream->GetOutputStreamAt(0);
       DataWriter^ writer = ref new DataWriter(outputStream);
       writer->WriteBytes(bytes);

       create_task(writer->StoreAsync()).then([writer](unsigned int)
       {
              create_task(writer->FlushAsync());
       });

       return randomAccessStream;
}

適用於

另請參閱