WriteableBitmap.PixelBuffer 属性
定义
重要
一些信息与预发行产品相关,相应产品在发行之前可能会进行重大修改。 对于此处提供的信息,Microsoft 不作任何明示或暗示的担保。
获取对 WriteableBitmap 的每个像素写入到的直接缓冲区的访问。
public:
property IBuffer ^ PixelBuffer { IBuffer ^ get(); };IBuffer PixelBuffer();public IBuffer PixelBuffer { get; }var iBuffer = writeableBitmap.pixelBuffer;Public ReadOnly Property PixelBuffer As IBuffer属性值
对像素缓冲区的引用。
示例
此代码示例使用 WriteableBitmap 的 PixelBuffer 属性写入其像素内容。
C# 示例来自一个更大的代码示例- SDK XAML 图像示例。 显示的 C# 代码是转码方案的一部分,该方案最终使用 WriteableBitmap 作为 Image.Source 值并显示图像。
其他语言中的示例的范围和/或自包含性略有一些。
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;
注解
无法将 PixelBuffer 返回的 IBuffer 直接写入。 但可以使用特定于语言的技术写入缓冲区中的基础像素内容。
- 若要从 C# 或 Microsoft Visual Basic 访问像素内容,可以使用 WindowsRuntimeBufferExtensions.AsStream 方法 以流的形式访问基础缓冲区。 C# 代码示例中显示了这一点。
- 若要从 C++/WinRT 访问像素内容,有三种替代方法。 只要不是
using namespace winrt;,就可以包含 SDK 头文件robuffer.h,以引入 IBufferByteAccess COM 接口的定义。 但是,由于using namespace winrt;很常见,因此还可以在项目中的一个位置定义 IBufferByteAccess 接口 (请参阅 C++/WinRT 代码示例,了解) 方式。 定义 IBufferByteAccess 后,可以使用这两种技术之一查询 PixelBuffer 以获取 IBufferByteAccess 实例。 然后调用 IBufferByteAccess::Buffer 方法 以检索指向表示像素内容的字节缓冲区的指针。 这在 C++/WinRT 代码示例中显示。 C++/WinRT 代码示例) 中显示的第三个替代 (是,通过检索uint8_t*可从可使用 调用WriteableBitmap.PixelBuffer().data()的帮助程序函数返回的 ,从而避免使用 IBufferByteAccess。 - 若要从 C++/CX 访问像素内容,可以查询 PixelBuffer 以获取 IBufferByteAccess 接口,该接口是 COM 接口。 添加
robuffer.h。 然后,可以调用 IBufferByteAccess::Buffer 方法来 检索指向表示像素内容的字节缓冲区的指针。 C++/CX 代码示例中显示了这一点。