WriteableBitmap.PixelBuffer Property
Definition
Important
Some information relates to prerelease product that may be substantially modified before it’s released. Microsoft makes no warranties, express or implied, with respect to the information provided here.
Gets an access for the direct buffer where each pixel of the WriteableBitmap is written to.
public:
property IBuffer ^ PixelBuffer { IBuffer ^ get(); };
IBuffer PixelBuffer();
public IBuffer PixelBuffer { get; }
var iBuffer = writeableBitmap.pixelBuffer;
Public ReadOnly Property PixelBuffer As IBuffer
Property Value
A reference to the pixel buffer.
Examples
This code example uses the PixelBuffer property of WriteableBitmap to write to its pixel content.
The C# example comes from a larger code sample—the SDK XAML images sample. The C# code shown is part of a transcoding scenario that eventually uses the WriteableBitmap as an Image.Source value, and displays the image.
The examples in the other languages are a little more scoped and/or self-contained.
using (IRandomAccessStream fileStream = await file.OpenAsync(Windows.Storage.FileAccessMode.Read))
{
BitmapDecoder decoder = await BitmapDecoder.CreateAsync(fileStream);
// Scale image to appropriate size
BitmapTransform transform = new BitmapTransform() {
ScaledWidth = Convert.ToUInt32(Scenario4WriteableBitmap.PixelWidth),
ScaledHeight = Convert.ToUInt32(Scenario4WriteableBitmap.PixelHeight)
};
PixelDataProvider pixelData = await decoder.GetPixelDataAsync(
BitmapPixelFormat.Bgra8, // WriteableBitmap uses BGRA format
BitmapAlphaMode.Straight,
transform,
ExifOrientationMode.IgnoreExifOrientation, // This sample ignores Exif orientation
ColorManagementMode.DoNotColorManage
);
// An array containing the decoded image data, which could be modified before being displayed
byte[] sourcePixels = pixelData.DetachPixelData();
// Open a stream to copy the image contents to the WriteableBitmap's pixel buffer
using (Stream stream = Scenario4WriteableBitmap.PixelBuffer.AsStream())
{
await stream.WriteAsync(sourcePixels, 0, sourcePixels.Length);
}
}
// You'll need to add the Pictures Library capability to your Package.appxmanifest file.
// MainPage.xaml
...
<Image x:Name="anyExampleImage" Width="100" Height="100"/>
...
// pch.h
...
#include <winrt/Windows.Graphics.Imaging.h>
#include <winrt/Windows.Storage.Streams.h>
#include <winrt/Windows.UI.Xaml.Media.Imaging.h>
struct __declspec(uuid("905a0fef-bc53-11df-8c49-001e4fc686da")) IBufferByteAccess : ::IUnknown
{
virtual HRESULT __stdcall Buffer(uint8_t** value) = 0;
};
...
// MainPage.h
...
struct MainPage : MainPageT<MainPage>
{
...
Windows::Foundation::IAsyncAction ClickHandler(Windows::Foundation::IInspectable const&, Windows::UI::Xaml::RoutedEventArgs const&);
private:
Windows::UI::Xaml::Media::Imaging::WriteableBitmap m_writeableBitmap{ nullptr };
};
...
// MainPage.cpp
...
Windows::Foundation::IAsyncAction MainPage::ClickHandler(IInspectable const&, RoutedEventArgs const&)
{
uint32_t scaledSize = 100;
m_writeableBitmap = Windows::UI::Xaml::Media::Imaging::WriteableBitmap(scaledSize, scaledSize);
Windows::Storage::StorageFolder picturesFolder{ Windows::Storage::KnownFolders::PicturesLibrary() };
auto anyExampleImageFile{ co_await picturesFolder.GetFileAsync(L"anyexampleimage.png") };
Windows::Storage::Streams::IRandomAccessStream fileStream{ co_await anyExampleImageFile.OpenAsync(Windows::Storage::FileAccessMode::Read) };
auto decoder{ co_await Windows::Graphics::Imaging::BitmapDecoder::CreateAsync(fileStream) };
// Scale the image to the appropriate size.
Windows::Graphics::Imaging::BitmapTransform transform;
transform.ScaledWidth(scaledSize);
transform.ScaledHeight(scaledSize);
Windows::Graphics::Imaging::PixelDataProvider pixelData{ co_await decoder.GetPixelDataAsync(
Windows::Graphics::Imaging::BitmapPixelFormat::Bgra8, // WriteableBitmap uses BGRA format
Windows::Graphics::Imaging::BitmapAlphaMode::Straight,
transform,
Windows::Graphics::Imaging::ExifOrientationMode::IgnoreExifOrientation, // This sample ignores Exif orientation
Windows::Graphics::Imaging::ColorManagementMode::DoNotColorManage
) };
// An array containing the decoded image data, which could be modified before being displayed
winrt::com_array<uint8_t> sourcePixels{ pixelData.DetachPixelData() };
// COMMENT OUT EXACTLY ONE OF TECHNIQUE 1/2
// TECHNIQUE 1; QI for IBufferByteAccess.
auto bufferByteAccess{ m_writeableBitmap.PixelBuffer().as<::IBufferByteAccess>() };
uint8_t * pTargetBytes{ nullptr };
bufferByteAccess->Buffer(&pTargetBytes);
// TECHNIQUE 2; use a C++/WinRT helper function (and delete the definition of IBufferByteAccess in pch.h).
//uint8_t * pTargetBytes{ m_writeableBitmap.PixelBuffer().data() };
for (auto & element : sourcePixels)
{
*(pTargetBytes++) = element;
}
anyExampleImage().Source(m_writeableBitmap);
}
...
// pch.h
...
#include <robuffer.h>
...
// MainPage.xaml.cpp
auto writeableBitmap{ ref new Windows::UI::Xaml::Media::Imaging::WriteableBitmap(100, 100) };
::IUnknown* pUnk{ reinterpret_cast<IUnknown*>(writeableBitmap->PixelBuffer) };
Microsoft::WRL::ComPtr<Windows::Storage::Streams::IBufferByteAccess> bufferByteAccess;
HRESULT hr{ pUnk->QueryInterface(IID_PPV_ARGS(&bufferByteAccess)) };
byte *pBuffer{ nullptr };
bufferByteAccess->Buffer(&pBuffer);
// Now, write into the WriteableBitmap by using pBuffer. For example, make the first pixel red.
*pBuffer = 0xFF; ++pBuffer;
*pBuffer = 0xFF; ++pBuffer;
*pBuffer = 0x0; ++pBuffer;
*pBuffer = 0x0;
Remarks
Note
Use the Language picker (near the title) to choose a programming language for the code example.
The IBuffer returned by PixelBuffer can't be written to directly. But you can use language-specific techniques to write to the underlying pixel content in the buffer.
- To access the pixel content from C# or Microsoft Visual Basic, you can use the WindowsRuntimeBufferExtensions.AsStream method to access the underlying buffer as a stream. This is shown in the C# code example.
- To access the pixel content from C++/WinRT, you have three alternatives. As long as you're not
using namespace winrt;
, then you can include the SDK header filerobuffer.h
to bring in the definition of the IBufferByteAccess COM interface. However, sinceusing namespace winrt;
is very common, you can alternatively define the IBufferByteAccess interface in one place in your project (see the C++/WinRT code example to see how). Once IBufferByteAccess is defined, using either of those two techniques, you can query PixelBuffer for an instance of IBufferByteAccess. You then call the IBufferByteAccess::Buffer method to retrieve a pointer to the buffer of bytes that represents the pixel content. This is shown in the C++/WinRT code example. The third alternative (also shown in the C++/WinRT code example) is to avoid using IBufferByteAccess altogether by retrieving theuint8_t*
that's returned from a helper function that you can call withWriteableBitmap.PixelBuffer().data()
. - To access the pixel content from C++/CX, you can query PixelBuffer for the IBufferByteAccess interface, which is a COM interface. Include
robuffer.h
. You can then call the the IBufferByteAccess::Buffer method to retrieve a pointer to the buffer of bytes that represents the pixel content. This is shown in the C++/CX code example.