public static SharpDX.Direct2D1.Bitmap Test(SharpDX.Direct2D1.DeviceContext dc, ImagingFactory factory, System.Windows.Media.Imaging.BitmapSource src)
{
// PixelFormat settings/conversion
if (src.Format != System.Windows.Media.PixelFormats.Bgra32)
{
// Convert BitmapSource
FormatConvertedBitmap fcb = new FormatConvertedBitmap();
fcb.BeginInit();
fcb.Source = src;
fcb.DestinationFormat = PixelFormats.Bgra32;
fcb.EndInit();
src = fcb;
}
SharpDX.Direct2D1.Bitmap retval = null;
try
{
int stride = src.PixelWidth * (src.Format.BitsPerPixel + 7) / 8;
int bufferSize = stride * src.PixelHeight;
byte[] buffer = new byte[bufferSize];
src.CopyPixels(Int32Rect.Empty, buffer, stride, 0);
GCHandle pinnedArray = GCHandle.Alloc(buffer, GCHandleType.Pinned);
IntPtr pointer = pinnedArray.AddrOfPinnedObject();
SharpDX.DataStream datastream = new SharpDX.DataStream(pointer, bufferSize, true, true);
var bmpProps1 = new SharpDX.Direct2D1.BitmapProperties1(dc.PixelFormat, dc.Factory.DesktopDpi.Width, dc.Factory.DesktopDpi.Height);
retval = new SharpDX.Direct2D1.Bitmap1(dc, new SharpDX.Size2(src.PixelWidth, src.PixelHeight), datastream, stride, bmpProps1);
pinnedArray.Free();
}
catch (Exception e)
{
}
return(retval);
}
private void InitializeBackBuffer(D2D.DeviceContext deviceContext, SharpDX.Size2F size)
{
this.backBitmap?.Dispose();
Size2 pixelSize = Helpers.GetPixelSize(size, this.Factory.DesktopDpi);
var p = new D2D.BitmapProperties1(
new D2D.PixelFormat(DXGI.Format.B8G8R8A8_UNorm, D2D.AlphaMode.Premultiplied),
this.Factory.DesktopDpi.Width,
this.Factory.DesktopDpi.Height,
D2D.BitmapOptions.Target);
var desc = new D3D11.Texture2DDescription()
{
ArraySize = 1,
BindFlags = D3D11.BindFlags.RenderTarget | D3D11.BindFlags.ShaderResource,
CpuAccessFlags = D3D11.CpuAccessFlags.None,
Format = DXGI.Format.B8G8R8A8_UNorm,
MipLevels = 1,
OptionFlags = D3D11.ResourceOptionFlags.Shared,
Usage = D3D11.ResourceUsage.Default,
SampleDescription = new DXGI.SampleDescription(1, 0),
Width = pixelSize.Width,
Height = pixelSize.Height,
};
using (var buffer = new D3D11.Texture2D(this.Device, desc))
using (var surface = buffer.QueryInterface <DXGI.Surface>())
{
this.backBitmap = new D2D.Bitmap1(this.DeviceContext, surface, p);
}
this.DeviceContext.Target = this.backBitmap;
}
private void CreateResources()
{
this.backBuffer = D3D11.Texture2D.FromSwapChain <D3D11.Texture2D>(this.swapChain, 0);
this.backBuffer.DebugName = "BackBuffer";
using (var surface = this.backBuffer.QueryInterface <DXGI.Surface>())
{
var properties = new D2D.BitmapProperties(
new D2D.PixelFormat(DXGI.Format.B8G8R8A8_UNorm, D2D.AlphaMode.Premultiplied),
this.factory2d.DesktopDpi.Width,
this.factory2d.DesktopDpi.Height);
this.backBitmap = new D2D.Bitmap(this.deviceContext2D, surface, properties);
if (this.renderBitmap != null)
{
this.backBitmap.CopyFromBitmap(this.renderBitmap);
}
}
if (this.renderBitmap != null)
{
this.renderBitmap.Dispose();
this.renderBuffer.Dispose();
}
var p = new D2D.BitmapProperties1(
new D2D.PixelFormat(DXGI.Format.B8G8R8A8_UNorm, D2D.AlphaMode.Premultiplied),
this.factory2d.DesktopDpi.Width,
this.factory2d.DesktopDpi.Height,
D2D.BitmapOptions.Target);
var pixelSize = Helpers.GetPixelSize(this.backBitmap.Size, this.factory2d.DesktopDpi);
var desc = new D3D11.Texture2DDescription()
{
ArraySize = 1,
BindFlags = D3D11.BindFlags.RenderTarget | D3D11.BindFlags.ShaderResource,
CpuAccessFlags = D3D11.CpuAccessFlags.None,
Format = DXGI.Format.B8G8R8A8_UNorm,
MipLevels = 1,
OptionFlags = D3D11.ResourceOptionFlags.Shared,
Usage = D3D11.ResourceUsage.Default,
SampleDescription = new DXGI.SampleDescription(1, 0),
Width = pixelSize.Width,
Height = pixelSize.Height,
};
this.renderBuffer = new D3D11.Texture2D(this.device, desc);
using (var surface = this.renderBuffer.QueryInterface <DXGI.Surface>())
{
this.renderBitmap = new D2D.Bitmap1(this.deviceContext2D, surface, p);
}
this.renderBitmap.CopyFromBitmap(this.backBitmap);
}
/// <summary>
/// Creates all resources
/// </summary>
private void CreateResources(int viewWidth, int viewHeight, DpiScaling dpiScaling, bool forceInit)
{
// Calculate the screen size in device independent units
Size2F scaledScreenSize = new Size2F(
(float)viewWidth / dpiScaling.ScaleFactorX,
(float)viewHeight / dpiScaling.ScaleFactorY);
// Cancel here if the device does not support 2D rendering
if ((!forceInit) &&
(!m_device.Supports2D))
{
return;
}
if (!m_device.IsUsingFallbackMethodFor2D)
{
// Create the render target
using (DXGI.Surface dxgiSurface = m_renderTarget3D.QueryInterface <DXGI.Surface>())
{
D2D.BitmapProperties1 bitmapProperties = new D2D.BitmapProperties1();
bitmapProperties.DpiX = dpiScaling.DpiX;
bitmapProperties.DpiY = dpiScaling.DpiY;
bitmapProperties.BitmapOptions = D2D.BitmapOptions.Target | D2D.BitmapOptions.CannotDraw;
bitmapProperties.PixelFormat = new D2D.PixelFormat(GraphicsHelper.DEFAULT_TEXTURE_FORMAT, D2D.AlphaMode.Premultiplied);
m_renderTargetBitmap = new SharpDX.Direct2D1.Bitmap1(m_device.DeviceContextD2D, dxgiSurface, bitmapProperties);
m_renderTarget2D = m_device.DeviceContextD2D;
m_graphics2D = new Graphics2D(m_device, m_device.DeviceContextD2D, scaledScreenSize);
}
}
else
{
using (DXGI.Surface dxgiSurface = m_renderTarget3D.QueryInterface <DXGI.Surface>())
{
m_renderTarget2D = new D2D.RenderTarget(
m_device.Core.FactoryD2D,
dxgiSurface,
new D2D.RenderTargetProperties()
{
MinLevel = D2D.FeatureLevel.Level_10,
Type = D2D.RenderTargetType.Default,
Usage = D2D.RenderTargetUsage.ForceBitmapRemoting,
PixelFormat = new D2D.PixelFormat(GraphicsHelper.DEFAULT_TEXTURE_FORMAT, D2D.AlphaMode.Premultiplied),
DpiX = dpiScaling.DpiX,
DpiY = dpiScaling.DpiY
});
m_graphics2D = new Graphics2D(m_device, m_renderTarget2D, scaledScreenSize);
return;
}
}
}
public static void CreateDeviceContextCPUBitmap(
Direct2D1.DeviceContext target, int width, int height)
{
var props = new Direct2D1.BitmapProperties1
{
BitmapOptions = Direct2D1.BitmapOptions.Target | Direct2D1.BitmapOptions.GdiCompatible,
PixelFormat = new Direct2D1.PixelFormat(DXGI.Format.B8G8R8A8_UNorm, Direct2D1.AlphaMode.Premultiplied)
};
using (var bitmap = new Direct2D1.Bitmap1(target, new Size2(width, height), props))
{
target.Target = bitmap;
}
}
public RenderController(IntPtr windowHandle)
{
writeFactory = new SharpDX.DirectWrite.Factory();
SharpDX.Direct3D11.Device defaultDevice = new SharpDX.Direct3D11.Device
(
DriverType.Hardware,
DeviceCreationFlags.Debug | DeviceCreationFlags.BgraSupport
);
device = defaultDevice.QueryInterface <SharpDX.Direct3D11.Device1>();
SharpDX.DXGI.Device2 dxgiDevice2 = device.QueryInterface <SharpDX.DXGI.Device2>();
SharpDX.DXGI.Adapter dxgiAdapter = dxgiDevice2.Adapter;
SharpDX.DXGI.Factory2 dxgiFactory2 = dxgiAdapter.GetParent <SharpDX.DXGI.Factory2>();
SwapChainDescription1 description = new SwapChainDescription1()
{
Width = 0,
Height = 0,
Format = Format.B8G8R8A8_UNorm,
Stereo = false,
SampleDescription = new SampleDescription(1, 0),
Usage = Usage.RenderTargetOutput,
BufferCount = 2,
Scaling = Scaling.None,
SwapEffect = SwapEffect.FlipSequential,
};
swapChain = new SwapChain1(dxgiFactory2, device, windowHandle, ref description);
backBuffer = Surface.FromSwapChain(swapChain, 0);
d2dDevice = new SharpDX.Direct2D1.Device(dxgiDevice2);
d2dContext = new SharpDX.Direct2D1.DeviceContext(d2dDevice, SharpDX.Direct2D1.DeviceContextOptions.None);
properties = new BitmapProperties1
(
new SharpDX.Direct2D1.PixelFormat
(
SharpDX.DXGI.Format.B8G8R8A8_UNorm,
SharpDX.Direct2D1.AlphaMode.Premultiplied
),
0, 0, BitmapOptions.Target | BitmapOptions.CannotDraw
);
d2dTarget = new Bitmap1(d2dContext, backBuffer, properties);
d2dContext.Target = d2dTarget;
canDraw = true;
}
public static void CreateDeviceSwapChainBitmap(
DXGI.SwapChain1 swapChain,
Direct2D1.DeviceContext target)
{
using (var surface = swapChain.GetBackBuffer <DXGI.Surface>(0))
{
var props = new Direct2D1.BitmapProperties1
{
BitmapOptions = Direct2D1.BitmapOptions.Target | Direct2D1.BitmapOptions.CannotDraw,
PixelFormat = new Direct2D1.PixelFormat(DXGI.Format.B8G8R8A8_UNorm, Direct2D1.AlphaMode.Ignore)
};
using (var bitmap = new Direct2D1.Bitmap1(target, surface, props))
{
target.Target = bitmap;
}
}
}
public void ReSize(double width, double height)
{
Width = width;
Height = height;
DX_Core.DisposeSwapChain(ref com);
DX_Core.CreateD3DInstance(ref com);
lock (DX_Core.D2D)
{
BitmapBuffer.Dispose();
if (gaussian != null)
{
gaussian.Dispose();
gaussian = null;
}
var bp = new D2D1.BitmapProperties1(
new D2D1.PixelFormat(Dxgi.Format.B8G8R8A8_UNorm, D2D1.AlphaMode.Premultiplied),
com.dpi, com.dpi, D2D1.BitmapOptions.Target);
BitmapBuffer = new D2D1.Bitmap1(DX_Core.D2D.d2dContext, new Size2((int)width, (int)height), bp);
}
}
public DXBitmapExportContext(int width, int height, float displayScale = 1, int dpi = 72, bool disposeBitmap = true)
: base(width, height, dpi)
{
_disposeBitmap = disposeBitmap;
if (_default3DDevice == null)
{
_default3DDevice = new d3d.Device(DriverType.Hardware, d3d.DeviceCreationFlags.VideoSupport | d3d.DeviceCreationFlags.BgraSupport);
// default3DDevice = new d3d.Device(DriverType.Warp, d3d.DeviceCreationFlags.BgraSupport);
_default3DDevice1 = _default3DDevice.QueryInterface <d3d.Device1>();
_dxgiDevice = _default3DDevice1.QueryInterface <dxgi.Device>(); // get a reference to DXGI device
_device2D = new d2.Device(_dxgiDevice);
// initialize the DeviceContext - it will be the D2D render target
_deviceContext = new d2.DeviceContext(_device2D, d2.DeviceContextOptions.None);
}
// specify a pixel format that is supported by both and WIC
_pixelFormat = new d2.PixelFormat(dxgi.Format.B8G8R8A8_UNorm, d2.AlphaMode.Premultiplied);
// create the d2d bitmap description using default flags
var bitmapProps = new d2.BitmapProperties1(_pixelFormat, Dpi, Dpi,
d2.BitmapOptions.Target | d2.BitmapOptions.CannotDraw);
// create our d2d bitmap where all drawing will happen
_bitmap = new d2.Bitmap1(_deviceContext, new Size2(width, height), bitmapProps);
// associate bitmap with the d2d context
_deviceContext.Target = _bitmap;
_deviceContext.BeginDraw();
_deviceContext.Clear(new Color4 {
Alpha = 0, Blue = 0, Green = 0, Red = 0
});
_canvas = new DXCanvas(_deviceContext)
{
DisplayScale = displayScale
};
}
public SharpDX.Direct2D1.Bitmap1 CreateRenderTarget(
float width,
float height,
float dpi = DEFAULT_DPI,
SharpDX.DXGI.Format format = SharpDX.DXGI.Format.B8G8R8A8_UNorm,
SharpDX.Direct2D1.AlphaMode alpha = AlphaMode.Premultiplied)
{
var bitmapProperties = new SharpDX.Direct2D1.BitmapProperties1()
{
BitmapOptions = BitmapOptions.Target,
DpiX = dpi,
DpiY = dpi,
PixelFormat = new SharpDX.Direct2D1.PixelFormat(format, alpha)
};
var pixelWidth = SizeDipsToPixels(width, dpi);
var pixelHeight = SizeDipsToPixels(height, dpi);
var bitmap = new SharpDX.Direct2D1.Bitmap1(d2dResourceCreationDeviceContext,
new Size2(pixelWidth, pixelHeight), bitmapProperties);
return(bitmap);
}
public SwapChain(double width, double height)
{
Width = width;
Height = height;
com = new SwapChainComponent();
com.panel = this;
com.dpi = DisplayInformation.GetForCurrentView().LogicalDpi;
DX_Core.CreateD3DInstance(ref com);
DX_Child = new List <UIElement>();
this.PointerPressed += PointerOperation;
this.PointerMoved += PointerOperation;
this.PointerReleased += PointerOperation;
this.PointerEntered += PointerOperation;
this.PointerExited += PointerOperation;
this.PointerWheelChanged += PointerOperation;
var bp = new D2D1.BitmapProperties1(
new D2D1.PixelFormat(Dxgi.Format.B8G8R8A8_UNorm, D2D1.AlphaMode.Premultiplied),
com.dpi, com.dpi, D2D1.BitmapOptions.Target);
lock (DX_Core.D2D)
BitmapBuffer = new D2D1.Bitmap1(DX_Core.D2D.d2dContext, new Size2((int)width, (int)height), bp);
ThreadManage.StartLoop(this);
}
static void Main()
{
// input and output files are supposed to be in the program folder
var inputPath = "Input.png";
var outputPath = "Output.png";
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// INITIALIZATION ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// initialize the D3D device which will allow to render to image any graphics - 3D or 2D
var defaultDevice = new SharpDX.Direct3D11.Device(SharpDX.Direct3D.DriverType.Hardware,
d3d.DeviceCreationFlags.VideoSupport
| d3d.DeviceCreationFlags.BgraSupport
| d3d.DeviceCreationFlags.Debug); // take out the Debug flag for better performance
var d3dDevice = defaultDevice.QueryInterface <d3d.Device1>(); // get a reference to the Direct3D 11.1 device
var dxgiDevice = d3dDevice.QueryInterface <dxgi.Device>(); // get a reference to DXGI device
var d2dDevice = new d2.Device(dxgiDevice); // initialize the D2D device
var imagingFactory = new wic.ImagingFactory2(); // initialize the WIC factory
// initialize the DeviceContext - it will be the D2D render target and will allow all rendering operations
var d2dContext = new d2.DeviceContext(d2dDevice, d2.DeviceContextOptions.None);
var dwFactory = new dw.Factory();
// specify a pixel format that is supported by both D2D and WIC
var d2PixelFormat = new d2.PixelFormat(dxgi.Format.R8G8B8A8_UNorm, d2.AlphaMode.Premultiplied);
// if in D2D was specified an R-G-B-A format - use the same for wic
var wicPixelFormat = wic.PixelFormat.Format32bppPRGBA;
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// IMAGE LOADING ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
var decoder = new wic.PngBitmapDecoder(imagingFactory); // we will load a PNG image
var inputStream = new wic.WICStream(imagingFactory, inputPath, NativeFileAccess.Read); // open the image file for reading
decoder.Initialize(inputStream, wic.DecodeOptions.CacheOnLoad);
// decode the loaded image to a format that can be consumed by D2D
var formatConverter = new wic.FormatConverter(imagingFactory);
formatConverter.Initialize(decoder.GetFrame(0), wicPixelFormat);
// load the base image into a D2D Bitmap
//var inputBitmap = d2.Bitmap1.FromWicBitmap(d2dContext, formatConverter, new d2.BitmapProperties1(d2PixelFormat));
// store the image size - output will be of the same size
var inputImageSize = formatConverter.Size;
var pixelWidth = inputImageSize.Width;
var pixelHeight = inputImageSize.Height;
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// EFFECT SETUP ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Effect 1 : BitmapSource - take decoded image data and get a BitmapSource from it
var bitmapSourceEffect = new d2.Effects.BitmapSource(d2dContext);
bitmapSourceEffect.WicBitmapSource = formatConverter;
// Effect 2 : GaussianBlur - give the bitmapsource a gaussian blurred effect
var gaussianBlurEffect = new d2.Effects.GaussianBlur(d2dContext);
gaussianBlurEffect.SetInput(0, bitmapSourceEffect.Output, true);
gaussianBlurEffect.StandardDeviation = 5f;
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// OVERLAY TEXT SETUP ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
var textFormat = new dw.TextFormat(dwFactory, "Arial", 15f); // create the text format of specified font configuration
// draw a long text to show the automatic line wrapping
var textToDraw = "Some long text to show the drawing of preformatted "
+ "glyphs using DirectWrite on the Direct2D surface."
+ " Notice the automatic wrapping of line if it exceeds desired width.";
// create the text layout - this improves the drawing performance for static text
// as the glyph positions are precalculated
var textLayout = new dw.TextLayout(dwFactory, textToDraw, textFormat, 300f, 1000f);
var textBrush = new d2.SolidColorBrush(d2dContext, Color.LightGreen);
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// RENDER TARGET SETUP ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// create the d2d bitmap description using default flags (from SharpDX samples) and 96 DPI
var d2dBitmapProps = new d2.BitmapProperties1(d2PixelFormat, 96, 96, d2.BitmapOptions.Target | d2.BitmapOptions.CannotDraw);
// the render target
var d2dRenderTarget = new d2.Bitmap1(d2dContext, new Size2(pixelWidth, pixelHeight), d2dBitmapProps);
d2dContext.Target = d2dRenderTarget; // associate bitmap with the d2d context
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// DRAWING ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// slow preparations - fast drawing:
d2dContext.BeginDraw();
d2dContext.DrawImage(gaussianBlurEffect);
d2dContext.DrawTextLayout(new Vector2(5f, 5f), textLayout, textBrush);
d2dContext.EndDraw();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// IMAGE SAVING ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// delete the output file if it already exists
if (System.IO.File.Exists(outputPath))
{
System.IO.File.Delete(outputPath);
}
// use the appropiate overload to write either to stream or to a file
var stream = new wic.WICStream(imagingFactory, outputPath, NativeFileAccess.Write);
// select the image encoding format HERE
var encoder = new wic.PngBitmapEncoder(imagingFactory);
encoder.Initialize(stream);
var bitmapFrameEncode = new wic.BitmapFrameEncode(encoder);
bitmapFrameEncode.Initialize();
bitmapFrameEncode.SetSize(pixelWidth, pixelHeight);
bitmapFrameEncode.SetPixelFormat(ref wicPixelFormat);
// this is the trick to write D2D1 bitmap to WIC
var imageEncoder = new wic.ImageEncoder(imagingFactory, d2dDevice);
imageEncoder.WriteFrame(d2dRenderTarget, bitmapFrameEncode, new wic.ImageParameters(d2PixelFormat, 96, 96, 0, 0, pixelWidth, pixelHeight));
bitmapFrameEncode.Commit();
encoder.Commit();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// CLEANUP ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// dispose everything and free used resources
bitmapFrameEncode.Dispose();
encoder.Dispose();
stream.Dispose();
textBrush.Dispose();
textLayout.Dispose();
textFormat.Dispose();
formatConverter.Dispose();
gaussianBlurEffect.Dispose();
bitmapSourceEffect.Dispose();
d2dRenderTarget.Dispose();
inputStream.Dispose();
decoder.Dispose();
d2dContext.Dispose();
dwFactory.Dispose();
imagingFactory.Dispose();
d2dDevice.Dispose();
dxgiDevice.Dispose();
d3dDevice.Dispose();
defaultDevice.Dispose();
// show the result
System.Diagnostics.Process.Start(outputPath);
}
/// <summary>
/// Creates the D2D render target from the associated swap chain.
/// </summary>
private void CreateD2DRenderTarget()
{
var renderTarget = _presenter.BackBuffer;
var dpi = DisplayProperties.LogicalDpi;
// 1. Use same format as the underlying render target with premultiplied alpha mode
// 2. Use correct DPI
// 3. Deny drawing direct calls and specify that this is a render target.
var bitmapProperties = new D2D.BitmapProperties1(new SharpDX.Direct2D1.PixelFormat(renderTarget.Format, D2D.AlphaMode.Premultiplied),
dpi,
dpi,
D2D.BitmapOptions.CannotDraw | D2D.BitmapOptions.Target);
// create the bitmap render target and assign it to the device context
_bitmapTarget = _disposeCollector.Collect(new D2D.Bitmap1(_d2dDeviceContext, renderTarget, bitmapProperties));
_d2dDeviceContext.Target = _bitmapTarget;
}
/// <summary>
/// 使用 DirectX 在該表面上繪圖
/// 只會在 updateRect 參數中指定的更新區域進行繪圖。
/// </summary>
/// <param name="updateRect"></param>
public void BeginDraw(Windows.Foundation.Rect updateRect)
{
// Express target area as a native RECT type.
var updateRectNative = new Rectangle
{
Left = (int)updateRect.Left,
Top = (int)updateRect.Top,
Right = (int)updateRect.Right,
Bottom = (int)updateRect.Bottom
};
// Query for ISurfaceImageSourceNative interface.
using (var sisNative = ComObject.QueryInterface<ISurfaceImageSourceNative>(this))
{
// Begin drawing - returns a target surface and an offset to use as the top left origin when drawing.
try
{
Point offset;
using (var surface = sisNative.BeginDraw(updateRectNative, out offset))
{
var bitmapProperties = new SharpDX.Direct2D1.BitmapProperties1(
new SharpDX.Direct2D1.PixelFormat(SharpDX.DXGI.Format.B8G8R8A8_UNorm, SharpDX.Direct2D1.AlphaMode.Premultiplied),
96,
96,
SharpDX.Direct2D1.BitmapOptions.Target | SharpDX.Direct2D1.BitmapOptions.CannotDraw);
// Create render target.
using (var bitmap = new Bitmap1(d2dContext, surface, bitmapProperties))
{
// Set context's render target.
d2dContext.Target = bitmap;
}
// Begin drawing using D2D context.
d2dContext.BeginDraw();
// Apply a clip and transform to constrain updates to the target update area.
// This is required to ensure coordinates within the target surface remain
// consistent by taking into account the offset returned by BeginDraw, and
// can also improve performance by optimizing the area that is drawn by D2D.
// Apps should always account for the offset output parameter returned by
// BeginDraw, since it may not match the passed updateRect input parameter's location.
d2dContext.PushAxisAlignedClip(
new RectangleF(
(offset.X),
(offset.Y),
(offset.X + (float)updateRect.Width),
(offset.Y + (float)updateRect.Height)
),
AntialiasMode.Aliased
);
d2dContext.Transform = Matrix3x2.Translation(offset.X, offset.Y);
}
}
catch (SharpDXException ex)
{
if (ex.ResultCode == SharpDX.DXGI.ResultCode.DeviceRemoved ||
ex.ResultCode == SharpDX.DXGI.ResultCode.DeviceReset)
{
// If the device has been removed or reset, attempt to recreate it and continue drawing.
CreateDeviceResources();
BeginDraw(updateRect);
}
else
{
throw;
}
}
}
}
/// <summary>
/// main thread
/// </summary>
/// <param name="panel"></param>
/// <param name="dpi"></param>
internal static void CreateD3DInstance(ref SwapChainComponent com)
{
int width = (int)com.panel.Width;
int height = (int)com.panel.Height;
dpi = (int)com.dpi;
com.port = new Viewport(0, 0, width, height, 0, 1);
D2D.d3dContext.Rasterizer.SetViewport(com.port);
var multisampleDesc = new Dxgi.SampleDescription(1, 0);
var desc = new Dxgi.SwapChainDescription1()
{
// Automatic sizing
AlphaMode = Dxgi.AlphaMode.Premultiplied,
Width = width,
Height = height,
Format = Dxgi.Format.B8G8R8A8_UNorm,
Stereo = false,
SampleDescription = multisampleDesc,
Usage = Dxgi.Usage.RenderTargetOutput,
BufferCount = 2,
SwapEffect = Dxgi.SwapEffect.FlipSequential,
Scaling = Dxgi.Scaling.Stretch
};
using (var dxgiDevice2 = D2D.d3dDevice.QueryInterface <Dxgi.Device2>())
using (var dxgiAdapter = dxgiDevice2.Adapter)
using (var dxgiFactory2 = dxgiAdapter.GetParent <Dxgi.Factory2>())
using (com.NativePanel = ComObject.As <Dxgi.ISwapChainPanelNative>(com.panel))
{
com.swapChain = new Dxgi.SwapChain1(dxgiFactory2, dxgiDevice2, ref desc, null);
com.NativePanel.SwapChain = com.swapChain;
dxgiDevice2.MaximumFrameLatency = 1;
}
using (com.backbuffer = D3D11.Texture2D.FromSwapChain <D3D11.Texture2D>(com.swapChain, 0))
com.TargetView = new D3D11.RenderTargetView(D2D.d3dDevice, com.backbuffer);
using (com.depthbuffer = new D3D11.Texture2D(D2D.d3dDevice, new D3D11.Texture2DDescription()
{
Format = Dxgi.Format.D24_UNorm_S8_UInt,
ArraySize = 1,
MipLevels = 1,
Width = width,
Height = height,
SampleDescription = multisampleDesc,
Usage = D3D11.ResourceUsage.Default,
BindFlags = D3D11.BindFlags.DepthStencil,
}))
com.StencilView = new D3D11.DepthStencilView(D2D.d3dDevice, com.depthbuffer);
D2D.d3dContext.OutputMerger.SetTargets(com.StencilView, com.TargetView);
var bitmapProperties = new D2D1.BitmapProperties1(
new D2D1.PixelFormat(Dxgi.Format.B8G8R8A8_UNorm, D2D1.AlphaMode.Premultiplied),
com.dpi, com.dpi,
D2D1.BitmapOptions.Target | D2D1.BitmapOptions.CannotDraw);
using (var dxgiBackBuffer = com.swapChain.GetBackBuffer <Dxgi.Surface>(0))
{
com.Bitmap = new D2D1.Bitmap1(D2D.d2dContext, dxgiBackBuffer, bitmapProperties);
}
D2D.d2dContext.Target = com.Bitmap;
D2D.d2dContext.TextAntialiasMode = D2D1.TextAntialiasMode.Cleartype;
}
/// <summary>
/// Create the swap chain and render targets, which depend on the size of the window.
/// </summary>
/// <param name="window"></param>
private void CreateSizeResources(Tesseract gameEngine)
{
// Get the 2D context reference
var context2D = gameEngine.DeviceManager.Context2D;
// Release all buffers before resizing the swap chain
RemoveAndDispose(ref BackBuffer);
RemoveAndDispose(ref RenderTargetView);
RemoveAndDispose(ref DepthStencilView);
RemoveAndDispose(ref DepthBuffer);
RemoveAndDispose(ref RenderTarget);
context2D.Target = null;
// If a swap chain already exists, resize it instead of creating a new one
int scHeight = (int)(gameEngine.WindowManager.WindowBounds.Height * gameEngine.DeviceManager.DPI / 96);
int scWidth = (int)(gameEngine.WindowManager.WindowBounds.Width * gameEngine.DeviceManager.DPI / 96);
if (SwapChain != null)
{
SwapChain.ResizeBuffers(
SwapChain.Description1.BufferCount,
scWidth,
scHeight,
SwapChain.Description.ModeDescription.Format,
SwapChain.Description.Flags);
}
// Otherwise, create a new swap chain
else { CreateSwapChain(gameEngine.WindowManager.Window.Handle, scWidth, scHeight); }
// Create a back buffer, which will be used as the final 3D render target
BackBuffer = ToDispose(Texture2D.FromSwapChain<Texture2D>(SwapChain, 0));
var bbDescription = BackBuffer.Description;
// Set up render target resources
RenderTargetView = ToDispose(new RenderTargetView(Device3D, BackBuffer));
RenderTargetBounds = new Rectangle(0, 0, bbDescription.Width, bbDescription.Height);
// Create a viewport descriptor of the render size
Viewport = new ViewportF(RenderTargetBounds);
Context3D.Rasterizer.SetViewport(Viewport);
// Create a decription structure for the depth/stencil buffer
DepthBuffer = ToDispose(new Texture2D(Device3D, new Texture2DDescription()
{
ArraySize = 1,
BindFlags = BindFlags.DepthStencil,
Format = Format.D32_Float_S8X24_UInt,
Height = RenderTargetBounds.Height,
MipLevels = 1,
SampleDescription = SwapChain.Description.SampleDescription,
Width = RenderTargetBounds.Width,
}));
// Create a view interface for the depth/stencil buffer
DepthStencilView = ToDispose(new DepthStencilView(
Device3D,
DepthBuffer,
new DepthStencilViewDescription()
{
Dimension = (SwapChain.Description.SampleDescription.Count > 1 || SwapChain.Description.SampleDescription.Quality > 0) ? DepthStencilViewDimension.Texture2DMultisampled : DepthStencilViewDimension.Texture2D
}));
Context3D.OutputMerger.SetTargets(DepthStencilView, RenderTargetView);
// Set up the Direct2D render target, which will render to the swap chain associated with the window
var bitmapProperties = new BitmapProperties1(
new PixelFormat(SwapChain.Description.ModeDescription.Format, SharpDX.Direct2D1.AlphaMode.Premultiplied),
gameEngine.DeviceManager.DPI,
gameEngine.DeviceManager.DPI,
BitmapOptions.Target | BitmapOptions.CannotDraw);
// Get a Direct2D surface from the DXGI back buffer to use as the render target
using (var dxgiBackBuffer = SwapChain.GetBackBuffer<Surface>(0)) { RenderTarget = ToDispose(new Bitmap1(context2D, dxgiBackBuffer, bitmapProperties)); }
// Set the render target
context2D.Target = RenderTarget;
// Set the text anti-aliasing mode to grayscale to ensure proper rendering of text on intermediate surfaces
context2D.TextAntialiasMode = TextAntialiasMode.Grayscale;
}
public SharpDX.Direct2D1.Bitmap1 CreateRenderTarget(
float width,
float height,
float dpi = DEFAULT_DPI,
SharpDX.DXGI.Format format = SharpDX.DXGI.Format.B8G8R8A8_UNorm,
SharpDX.Direct2D1.AlphaMode alpha = AlphaMode.Premultiplied)
{
var bitmapProperties = new SharpDX.Direct2D1.BitmapProperties1()
{
BitmapOptions = BitmapOptions.Target,
DpiX = dpi,
DpiY = dpi,
PixelFormat = new SharpDX.Direct2D1.PixelFormat(format, alpha)
};
var pixelWidth = SizeDipsToPixels(width, dpi);
var pixelHeight = SizeDipsToPixels(height, dpi);
var bitmap = new SharpDX.Direct2D1.Bitmap1(d2dResourceCreationDeviceContext,
new Size2(pixelWidth, pixelHeight), bitmapProperties);
return bitmap;
}
public DeviceManager()
{
try
{
// 创建 Dierect3D 设备。
this.d3DDevice = new D3D11Device(DriverType.Hardware, DeviceCreationFlags.BgraSupport);
this.dxgiDevice = d3DDevice.QueryInterface<D3D11Device1>().QueryInterface<DXGIDevice>();
// 创建 Direct2D 设备和工厂。
this.d2DDevice = new D2D1Device(dxgiDevice);
this.d2DContext = new DeviceContext(d2DDevice, DeviceContextOptions.None);
this.d2DFactory = this.d2DContext.Factory;
this.wicFactory = new ImagingFactory2();
}
catch
{
this.ClearResources();
try
{
// 创建 D3D 设备异常,则尝试 Direct2D 单线程工厂。
this.d2DFactory = new Factory(FactoryType.SingleThreaded);
this.wicFactory = new ImagingFactory();
}
catch
{
this.ClearResources();
}
}
if (this.d2DFactory != null)
{
Dpi = d2DFactory.DesktopDpi;
BitmapProps1 = new BitmapProperties1(D2PixelFormat, Dpi.Width, Dpi.Height, BitmapOptions.Target);
}
}
public static MemoryStream Resize(System.IO.Stream source, int maxwidth, int maxheight, Action beforeDrawImage, Action afterDrawImage)
{
// initialize the D3D device which will allow to render to image any graphics - 3D or 2D
var defaultDevice = new SharpDX.Direct3D11.Device(SharpDX.Direct3D.DriverType.Warp,
d3d.DeviceCreationFlags.BgraSupport | d3d.DeviceCreationFlags.SingleThreaded | d3d.DeviceCreationFlags.PreventThreadingOptimizations);
var d3dDevice = defaultDevice.QueryInterface<d3d.Device1>(); // get a reference to the Direct3D 11.1 device
var dxgiDevice = d3dDevice.QueryInterface<dxgi.Device>(); // get a reference to DXGI device
var d2dDevice = new d2.Device(dxgiDevice); // initialize the D2D device
var imagingFactory = new wic.ImagingFactory2(); // initialize the WIC factory
// initialize the DeviceContext - it will be the D2D render target and will allow all rendering operations
var d2dContext = new d2.DeviceContext(d2dDevice, d2.DeviceContextOptions.None);
var dwFactory = new dw.Factory();
// specify a pixel format that is supported by both D2D and WIC
var d2PixelFormat = new d2.PixelFormat(dxgi.Format.R8G8B8A8_UNorm, d2.AlphaMode.Premultiplied);
// if in D2D was specified an R-G-B-A format - use the same for wic
var wicPixelFormat = wic.PixelFormat.Format32bppPRGBA;
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// IMAGE LOADING ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
var decoder = new wic.BitmapDecoder(imagingFactory,source, wic.DecodeOptions.CacheOnLoad);
// decode the loaded image to a format that can be consumed by D2D
var formatConverter = new wic.FormatConverter(imagingFactory);
formatConverter.Initialize(decoder.GetFrame(0), wicPixelFormat);
// store the image size - output will be of the same size
var inputImageSize = formatConverter.Size;
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// RENDER TARGET SETUP ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// create the d2d bitmap description using default flags (from SharpDX samples) and 96 DPI
var d2dBitmapProps = new d2.BitmapProperties1(d2PixelFormat, 96, 96, d2.BitmapOptions.Target | d2.BitmapOptions.CannotDraw);
//Calculate size
var resultSize = MathUtil.ScaleWithin(inputImageSize.Width,inputImageSize.Height,maxwidth,maxheight);
var newWidth = resultSize.Item1;
var newHeight = resultSize.Item2;
// the render target
var d2dRenderTarget = new d2.Bitmap1(d2dContext, new Size2(newWidth, newHeight), d2dBitmapProps);
d2dContext.Target = d2dRenderTarget; // associate bitmap with the d2d context
var bitmapSourceEffect = new d2.Effects.BitmapSourceEffect(d2dContext);
bitmapSourceEffect.WicBitmapSource = formatConverter;
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// DRAWING ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
beforeDrawImage();
// slow preparations - fast drawing:
d2dContext.BeginDraw();
d2dContext.Transform = Matrix3x2.Scaling(new Vector2((float)(newWidth / (float)inputImageSize.Width), (float)(newHeight / (float)inputImageSize.Height)));
d2dContext.DrawImage(bitmapSourceEffect, d2.InterpolationMode.HighQualityCubic);
d2dContext.EndDraw();
afterDrawImage();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// IMAGE SAVING ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
var ms = new MemoryStream();
// use the appropiate overload to write either to stream or to a file
var stream = new wic.WICStream(imagingFactory,ms);
// select the image encoding format HERE
var encoder = new wic.JpegBitmapEncoder(imagingFactory);
encoder.Initialize(stream);
var bitmapFrameEncode = new wic.BitmapFrameEncode(encoder);
bitmapFrameEncode.Initialize();
bitmapFrameEncode.SetSize(newWidth, newHeight);
bitmapFrameEncode.SetPixelFormat(ref wicPixelFormat);
// this is the trick to write D2D1 bitmap to WIC
var imageEncoder = new wic.ImageEncoder(imagingFactory, d2dDevice);
imageEncoder.WriteFrame(d2dRenderTarget, bitmapFrameEncode, new wic.ImageParameters(d2PixelFormat, 96, 96, 0, 0, newWidth, newHeight));
bitmapFrameEncode.Commit();
encoder.Commit();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// CLEANUP ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// dispose everything and free used resources
bitmapFrameEncode.Dispose();
encoder.Dispose();
stream.Dispose();
formatConverter.Dispose();
bitmapSourceEffect.Dispose();
d2dRenderTarget.Dispose();
decoder.Dispose();
d2dContext.Dispose();
dwFactory.Dispose();
imagingFactory.Dispose();
d2dDevice.Dispose();
dxgiDevice.Dispose();
d3dDevice.Dispose();
defaultDevice.Dispose();
return ms;
}
/// <summary>
/// Now that we have a CoreWindow object, the DirectX device/context can be created.
/// </summary>
/// <param name="entryPoint"></param>
public async void Load(string entryPoint)
{
// Get the default hardware device and enable debugging. Don't care about the available feature level.
// DeviceCreationFlags.BgraSupport must be enabled to allow Direct2D interop.
SharpDX.Direct3D11.Device defaultDevice = new SharpDX.Direct3D11.Device(DriverType.Hardware, DeviceCreationFlags.Debug | DeviceCreationFlags.BgraSupport);
// Query the default device for the supported device and context interfaces.
device = defaultDevice.QueryInterface<SharpDX.Direct3D11.Device1>();
d3dContext = device.ImmediateContext.QueryInterface<SharpDX.Direct3D11.DeviceContext1>();
// Query for the adapter and more advanced DXGI objects.
SharpDX.DXGI.Device2 dxgiDevice2 = device.QueryInterface<SharpDX.DXGI.Device2>();
SharpDX.DXGI.Adapter dxgiAdapter = dxgiDevice2.Adapter;
SharpDX.DXGI.Factory2 dxgiFactory2 = dxgiAdapter.GetParent<SharpDX.DXGI.Factory2>();
// Description for our swap chain settings.
SwapChainDescription1 description = new SwapChainDescription1()
{
// 0 means to use automatic buffer sizing.
Width = 0,
Height = 0,
// 32 bit RGBA color.
Format = Format.B8G8R8A8_UNorm,
// No stereo (3D) display.
Stereo = false,
// No multisampling.
SampleDescription = new SampleDescription(1, 0),
// Use the swap chain as a render target.
Usage = Usage.RenderTargetOutput,
// Enable double buffering to prevent flickering.
BufferCount = 2,
// No scaling.
Scaling = Scaling.None,
// Flip between both buffers.
SwapEffect = SwapEffect.FlipSequential,
};
// Generate a swap chain for our window based on the specified description.
swapChain = dxgiFactory2.CreateSwapChainForCoreWindow(device, new ComObject(window), ref description, null);
// Get the default Direct2D device and create a context.
SharpDX.Direct2D1.Device d2dDevice = new SharpDX.Direct2D1.Device(dxgiDevice2);
d2dContext = new SharpDX.Direct2D1.DeviceContext(d2dDevice, SharpDX.Direct2D1.DeviceContextOptions.None);
// Specify the properties for the bitmap that we will use as the target of our Direct2D operations.
// We want a 32-bit BGRA surface with premultiplied alpha.
BitmapProperties1 properties = new BitmapProperties1(new PixelFormat(SharpDX.DXGI.Format.B8G8R8A8_UNorm, SharpDX.Direct2D1.AlphaMode.Premultiplied),
DisplayProperties.LogicalDpi, DisplayProperties.LogicalDpi, BitmapOptions.Target | BitmapOptions.CannotDraw);
// Get the default surface as a backbuffer and create the Bitmap1 that will hold the Direct2D drawing target.
Surface backBuffer = swapChain.GetBackBuffer<Surface>(0);
d2dTarget = new Bitmap1(d2dContext, backBuffer, properties);
// Create the DirectWrite factory objet.
SharpDX.DirectWrite.Factory fontFactory = new SharpDX.DirectWrite.Factory();
// Create a TextFormat object that will use the Segoe UI font with a size of 24 DIPs.
textFormat = new TextFormat(fontFactory, "Segoe UI", 24.0f);
// Create two TextLayout objects for rendering the moving text.
textLayout1 = new TextLayout(fontFactory, "This is an example of a moving TextLayout object with snapped pixel boundaries.", textFormat, 400.0f, 200.0f);
textLayout2 = new TextLayout(fontFactory, "This is an example of a moving TextLayout object with no snapped pixel boundaries.", textFormat, 400.0f, 200.0f);
// Vertical offset for the moving text.
layoutY = 0.0f;
// Create the brushes for the text background and text color.
backgroundBrush = new SolidColorBrush(d2dContext, Color.White);
textBrush = new SolidColorBrush(d2dContext, Color.Black);
}
void Resize()
{
d2dDeviceContext.Target = null;
d2dSurface.Dispose();
swapChain.ResizeBuffers(0, 0, 0, Format.Unknown, SwapChainFlags.None);
Surface1 dxgiSurface = swapChain.GetBackBuffer<Surface1>(0);
var props = new BitmapProperties1(new PixelFormat(Format.B8G8R8A8_UNorm, D2D.AlphaMode.Ignore),
d2dDeviceContext.DotsPerInch.Width,
d2dDeviceContext.DotsPerInch.Height,
BitmapOptions.Target | BitmapOptions.CannotDraw);
d2dSurface = new Bitmap1(d2dDeviceContext, dxgiSurface, props);
dxgiSurface.Dispose();
d2dDeviceContext.Target = d2dSurface;
}
/// <summary>
/// Now that we have a CoreWindow object, the DirectX device/context can be created.
/// </summary>
/// <param name="entryPoint"></param>
public void Load(string entryPoint)
{
// Get the default hardware device and enable debugging. Don't care about the available feature level.
// DeviceCreationFlags.BgraSupport must be enabled to allow Direct2D interop.
SharpDX.Direct3D11.Device defaultDevice = new SharpDX.Direct3D11.Device(DriverType.Hardware, DeviceCreationFlags.Debug | DeviceCreationFlags.BgraSupport);
// Query the default device for the supported device and context interfaces.
device = defaultDevice.QueryInterface<SharpDX.Direct3D11.Device1>();
d3dContext = device.ImmediateContext.QueryInterface<SharpDX.Direct3D11.DeviceContext1>();
// Query for the adapter and more advanced DXGI objects.
SharpDX.DXGI.Device2 dxgiDevice2 = device.QueryInterface<SharpDX.DXGI.Device2>();
SharpDX.DXGI.Adapter dxgiAdapter = dxgiDevice2.Adapter;
SharpDX.DXGI.Factory2 dxgiFactory2 = dxgiAdapter.GetParent<SharpDX.DXGI.Factory2>();
// Description for our swap chain settings.
SwapChainDescription1 description = new SwapChainDescription1()
{
// 0 means to use automatic buffer sizing.
Width = 0,
Height = 0,
// 32 bit RGBA color.
Format = Format.B8G8R8A8_UNorm,
// No stereo (3D) display.
Stereo = false,
// No multisampling.
SampleDescription = new SampleDescription(1, 0),
// Use the swap chain as a render target.
Usage = Usage.RenderTargetOutput,
// Enable double buffering to prevent flickering.
BufferCount = 2,
// No scaling.
Scaling = Scaling.None,
// Flip between both buffers.
SwapEffect = SwapEffect.FlipSequential,
};
// Generate a swap chain for our window based on the specified description.
swapChain = new SwapChain1(dxgiFactory2, device, new ComObject(window), ref description);
// Get the default Direct2D device and create a context.
SharpDX.Direct2D1.Device d2dDevice = new SharpDX.Direct2D1.Device(dxgiDevice2);
d2dContext = new SharpDX.Direct2D1.DeviceContext(d2dDevice, SharpDX.Direct2D1.DeviceContextOptions.None);
// Specify the properties for the bitmap that we will use as the target of our Direct2D operations.
// We want a 32-bit BGRA surface with premultiplied alpha.
BitmapProperties1 properties = new BitmapProperties1(new SharpDX.Direct2D1.PixelFormat(SharpDX.DXGI.Format.B8G8R8A8_UNorm, SharpDX.Direct2D1.AlphaMode.Premultiplied),
DisplayProperties.LogicalDpi, DisplayProperties.LogicalDpi, BitmapOptions.Target | BitmapOptions.CannotDraw);
// Get the default surface as a backbuffer and create the Bitmap1 that will hold the Direct2D drawing target.
Surface backBuffer = swapChain.GetBackBuffer<Surface>(0);
d2dTarget = new Bitmap1(d2dContext, backBuffer, properties);
// Load bitmap images
playerBitmap = this.LoadBitmapFromContentFile("/Assets/Bitmaps/player.png");
terrainBitmap = this.LoadBitmapFromContentFile("/Assets/Bitmaps/terrain.png");
// Create hue rotation effect
hueRotationEffect = new SharpDX.Direct2D1.Effects.HueRotation(d2dContext);
// Create image shadow effect
shadowEffect = new SharpDX.Direct2D1.Effects.Shadow(d2dContext);
// Create image transform effect
affineTransformEffect = new SharpDX.Direct2D1.Effects.AffineTransform2D(d2dContext);
affineTransformEffect.SetInputEffect(0, shadowEffect);
affineTransformEffect.TransformMatrix = Matrix3x2.Translation(terrainBitmap.PixelSize.Width * 0.25f, terrainBitmap.PixelSize.Height * 0.25f);
// Create composite effect
compositeEffect = new SharpDX.Direct2D1.Effects.Composite(d2dContext);
compositeEffect.InputCount = 2;
compositeEffect.SetInputEffect(0, affineTransformEffect);
// Create tiling brush for terrain bitmap
terrainBrush = new ImageBrush(d2dContext, terrainBitmap, new ImageBrushProperties()
{
ExtendModeX = ExtendMode.Wrap,
ExtendModeY = ExtendMode.Wrap,
SourceRectangle = new RectangleF(0, 0, terrainBitmap.Size.Width, terrainBitmap.Size.Height),
});
// Create rendertarget for drawing the tiling brush
brushTarget = new Bitmap1(d2dContext, new Size2((int)(terrainBitmap.Size.Width * 10), (int)terrainBitmap.Size.Height), new BitmapProperties1()
{
PixelFormat = new SharpDX.Direct2D1.PixelFormat(SharpDX.DXGI.Format.B8G8R8A8_UNorm, SharpDX.Direct2D1.AlphaMode.Premultiplied),
BitmapOptions = BitmapOptions.Target
});
}
static void Main()
{
// input and output files are supposed to be in the program folder
var inputPath = "Input.png";
var outputPath = "Output.png";
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// INITIALIZATION ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// initialize the D3D device which will allow to render to image any graphics - 3D or 2D
var defaultDevice = new SharpDX.Direct3D11.Device(SharpDX.Direct3D.DriverType.Hardware,
d3d.DeviceCreationFlags.VideoSupport
| d3d.DeviceCreationFlags.BgraSupport
| d3d.DeviceCreationFlags.Debug); // take out the Debug flag for better performance
var d3dDevice = defaultDevice.QueryInterface<d3d.Device1>(); // get a reference to the Direct3D 11.1 device
var dxgiDevice = d3dDevice.QueryInterface<dxgi.Device>(); // get a reference to DXGI device
var d2dDevice = new d2.Device(dxgiDevice); // initialize the D2D device
var imagingFactory = new wic.ImagingFactory2(); // initialize the WIC factory
// initialize the DeviceContext - it will be the D2D render target and will allow all rendering operations
var d2dContext = new d2.DeviceContext(d2dDevice, d2.DeviceContextOptions.None);
var dwFactory = new dw.Factory();
// specify a pixel format that is supported by both D2D and WIC
var d2PixelFormat = new d2.PixelFormat(dxgi.Format.R8G8B8A8_UNorm, d2.AlphaMode.Premultiplied);
// if in D2D was specified an R-G-B-A format - use the same for wic
var wicPixelFormat = wic.PixelFormat.Format32bppPRGBA;
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// IMAGE LOADING ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
var decoder = new wic.PngBitmapDecoder(imagingFactory); // we will load a PNG image
var inputStream = new wic.WICStream(imagingFactory, inputPath, NativeFileAccess.Read); // open the image file for reading
decoder.Initialize(inputStream, wic.DecodeOptions.CacheOnLoad);
// decode the loaded image to a format that can be consumed by D2D
var formatConverter = new wic.FormatConverter(imagingFactory);
formatConverter.Initialize(decoder.GetFrame(0), wicPixelFormat);
// load the base image into a D2D Bitmap
//var inputBitmap = d2.Bitmap1.FromWicBitmap(d2dContext, formatConverter, new d2.BitmapProperties1(d2PixelFormat));
// store the image size - output will be of the same size
var inputImageSize = formatConverter.Size;
var pixelWidth = inputImageSize.Width;
var pixelHeight = inputImageSize.Height;
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// EFFECT SETUP ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// Effect 1 : BitmapSource - take decoded image data and get a BitmapSource from it
var bitmapSourceEffect = new d2.Effects.BitmapSource(d2dContext);
bitmapSourceEffect.WicBitmapSource = formatConverter;
// Effect 2 : GaussianBlur - give the bitmapsource a gaussian blurred effect
var gaussianBlurEffect = new d2.Effects.GaussianBlur(d2dContext);
gaussianBlurEffect.SetInput(0, bitmapSourceEffect.Output, true);
gaussianBlurEffect.StandardDeviation = 5f;
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// OVERLAY TEXT SETUP ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
var textFormat = new dw.TextFormat(dwFactory, "Arial", 15f); // create the text format of specified font configuration
// draw a long text to show the automatic line wrapping
var textToDraw = "Some long text to show the drawing of preformatted "
+ "glyphs using DirectWrite on the Direct2D surface."
+ " Notice the automatic wrapping of line if it exceeds desired width.";
// create the text layout - this improves the drawing performance for static text
// as the glyph positions are precalculated
var textLayout = new dw.TextLayout(dwFactory, textToDraw, textFormat, 300f, 1000f);
var textBrush = new d2.SolidColorBrush(d2dContext, Color.LightGreen);
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// RENDER TARGET SETUP ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// create the d2d bitmap description using default flags (from SharpDX samples) and 96 DPI
var d2dBitmapProps = new d2.BitmapProperties1(d2PixelFormat, 96, 96, d2.BitmapOptions.Target | d2.BitmapOptions.CannotDraw);
// the render target
var d2dRenderTarget = new d2.Bitmap1(d2dContext, new Size2(pixelWidth, pixelHeight), d2dBitmapProps);
d2dContext.Target = d2dRenderTarget; // associate bitmap with the d2d context
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// DRAWING ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// slow preparations - fast drawing:
d2dContext.BeginDraw();
d2dContext.DrawImage(gaussianBlurEffect);
d2dContext.DrawTextLayout(new Vector2(5f, 5f), textLayout, textBrush);
d2dContext.EndDraw();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// IMAGE SAVING ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// delete the output file if it already exists
if (System.IO.File.Exists(outputPath)) System.IO.File.Delete(outputPath);
// use the appropiate overload to write either to stream or to a file
var stream = new wic.WICStream(imagingFactory, outputPath, NativeFileAccess.Write);
// select the image encoding format HERE
var encoder = new wic.PngBitmapEncoder(imagingFactory);
encoder.Initialize(stream);
var bitmapFrameEncode = new wic.BitmapFrameEncode(encoder);
bitmapFrameEncode.Initialize();
bitmapFrameEncode.SetSize(pixelWidth, pixelHeight);
bitmapFrameEncode.SetPixelFormat(ref wicPixelFormat);
// this is the trick to write D2D1 bitmap to WIC
var imageEncoder = new wic.ImageEncoder(imagingFactory, d2dDevice);
imageEncoder.WriteFrame(d2dRenderTarget, bitmapFrameEncode, new wic.ImageParameters(d2PixelFormat, 96, 96, 0, 0, pixelWidth, pixelHeight));
bitmapFrameEncode.Commit();
encoder.Commit();
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// CLEANUP ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// dispose everything and free used resources
bitmapFrameEncode.Dispose();
encoder.Dispose();
stream.Dispose();
textBrush.Dispose();
textLayout.Dispose();
textFormat.Dispose();
formatConverter.Dispose();
gaussianBlurEffect.Dispose();
bitmapSourceEffect.Dispose();
d2dRenderTarget.Dispose();
inputStream.Dispose();
decoder.Dispose();
d2dContext.Dispose();
dwFactory.Dispose();
imagingFactory.Dispose();
d2dDevice.Dispose();
dxgiDevice.Dispose();
d3dDevice.Dispose();
defaultDevice.Dispose();
// show the result
System.Diagnostics.Process.Start(outputPath);
}
/// <summary>
/// Now that we have a CoreWindow object, the DirectX device/context can be created.
/// </summary>
/// <param name="entryPoint"></param>
public void Load(string entryPoint)
{
// Get the default hardware device and enable debugging. Don't care about the available feature level.
// DeviceCreationFlags.BgraSupport must be enabled to allow Direct2D interop.
SharpDX.Direct3D11.Device defaultDevice = new SharpDX.Direct3D11.Device(DriverType.Hardware, DeviceCreationFlags.Debug | DeviceCreationFlags.BgraSupport);
// Query the default device for the supported device and context interfaces.
device = defaultDevice.QueryInterface<SharpDX.Direct3D11.Device1>();
d3dContext = device.ImmediateContext.QueryInterface<SharpDX.Direct3D11.DeviceContext1>();
// Query for the adapter and more advanced DXGI objects.
SharpDX.DXGI.Device2 dxgiDevice2 = device.QueryInterface<SharpDX.DXGI.Device2>();
SharpDX.DXGI.Adapter dxgiAdapter = dxgiDevice2.Adapter;
SharpDX.DXGI.Factory2 dxgiFactory2 = dxgiAdapter.GetParent<SharpDX.DXGI.Factory2>();
// Description for our swap chain settings.
SwapChainDescription1 description = new SwapChainDescription1()
{
// 0 means to use automatic buffer sizing.
Width = 0,
Height = 0,
// 32 bit RGBA color.
Format = Format.B8G8R8A8_UNorm,
// No stereo (3D) display.
Stereo = false,
// No multisampling.
SampleDescription = new SampleDescription(1, 0),
// Use the swap chain as a render target.
Usage = Usage.RenderTargetOutput,
// Enable double buffering to prevent flickering.
BufferCount = 2,
// No scaling.
Scaling = Scaling.None,
// Flip between both buffers.
SwapEffect = SwapEffect.FlipSequential,
};
// Generate a swap chain for our window based on the specified description.
swapChain = dxgiFactory2.CreateSwapChainForCoreWindow(device, new ComObject(window), ref description, null);
// Get the default Direct2D device and create a context.
SharpDX.Direct2D1.Device d2dDevice = new SharpDX.Direct2D1.Device(dxgiDevice2);
d2dContext = new SharpDX.Direct2D1.DeviceContext(d2dDevice, SharpDX.Direct2D1.DeviceContextOptions.None);
// Specify the properties for the bitmap that we will use as the target of our Direct2D operations.
// We want a 32-bit BGRA surface with premultiplied alpha.
BitmapProperties1 properties = new BitmapProperties1(new PixelFormat(SharpDX.DXGI.Format.B8G8R8A8_UNorm, SharpDX.Direct2D1.AlphaMode.Premultiplied),
DisplayProperties.LogicalDpi, DisplayProperties.LogicalDpi, BitmapOptions.Target | BitmapOptions.CannotDraw);
// Get the default surface as a backbuffer and create the Bitmap1 that will hold the Direct2D drawing target.
Surface backBuffer = swapChain.GetBackBuffer<Surface>(0);
d2dTarget = new Bitmap1(d2dContext, backBuffer, properties);
// Create a solid color brush.
solidBrush = new SolidColorBrush(d2dContext, Color.Coral);
// Create a linear gradient brush.
// Note that the StartPoint and EndPoint values are set as absolute coordinates of the surface you are drawing to,
// NOT the geometry we will apply the brush.
linearGradientBrush = new LinearGradientBrush(d2dContext, new LinearGradientBrushProperties()
{
StartPoint = new Vector2(50, 0),
EndPoint = new Vector2(450, 0),
},
new GradientStopCollection(d2dContext, new GradientStop[]
{
new GradientStop()
{
Color = Color.Blue,
Position = 0,
},
new GradientStop()
{
Color = Color.Green,
Position = 1,
}
}));
// Create a radial gradient brush.
// The center is specified in absolute coordinates, too.
radialGradientBrush = new RadialGradientBrush(d2dContext, new RadialGradientBrushProperties()
{
Center = new Vector2(250, 525),
RadiusX = 100,
RadiusY = 100,
},
new GradientStopCollection(d2dContext, new GradientStop[]
{
new GradientStop()
{
Color = Color.Yellow,
Position = 0,
},
new GradientStop()
{
Color = Color.Red,
Position = 1,
}
}));
}
public SharpRender(RenderForm form)
{
this.form = form;
var adapters = new DXGI.Factory1().Adapters;
DXGI.Adapter myadapter = null;
for (int i = 0; i < adapters.Length; ++i)
{
Logger.Log(string.Format("Adapter Found: [{0}] " +
"{1}\tDeviceId={5}" +
"{1}\tLuid={6}" +
"{1}\tVendorId={10}" +
"{1}\tSubsystemId={9}" +
"{1}\tDescription={4}" +
"{1}\tRevision={7}" +
"{1}\tDedicatedSystemMemory={2}" +
"{1}\tDedicatedVideoMemory={3}" +
"{1}\tSharedSystemMemory={8}" +
"",
i, Environment.NewLine,
adapters[i].Description.DedicatedSystemMemory,
adapters[i].Description.DedicatedVideoMemory, adapters[i].Description.Description,
adapters[i].Description.DeviceId, adapters[i].Description.Luid,
adapters[i].Description.Revision, adapters[i].Description.SharedSystemMemory,
adapters[i].Description.SubsystemId, adapters[i].Description.VendorId));
var outputs = adapters[i].Outputs;
for (int j = 0; j < outputs.Length; ++j)
{
Logger.Log(string.Format("Output Found: [{0},{1}]" +
"{2}\tDeviceName={4}" +
"{2}\tIsAttachedToDesktop={5}" +
"{2}\tMonitorHandle={6}" +
"{2}\tDesktopBounds={3}" +
"{2}\tRotation={7}" +
"",
i, j, Environment.NewLine,
(Rectangle)outputs[j].Description.DesktopBounds,
outputs[j].Description.DeviceName,
outputs[j].Description.IsAttachedToDesktop,
outputs[j].Description.MonitorHandle,
outputs[j].Description.Rotation));
}
if (outputs.Length > 0 && myadapter == null)
{
myadapter = adapters[i];
}
}
d3device = new Direct3D11.Device(
myadapter,
Direct3D11.DeviceCreationFlags.BgraSupport);
//SharpDX.Direct3D.DriverType.Hardware,
//Direct3D11.DeviceCreationFlags.BgraSupport |
//Direct3D11.DeviceCreationFlags.Debug);
defDevice = d3device.QueryInterface <Direct3D11.Device1>();
dxgiDevice2 = defDevice.QueryInterface <DXGI.Device2>();
dxgiAdapter = dxgiDevice2.Adapter;
dxgiFactory2 = dxgiAdapter.GetParent <DXGI.Factory2>();
var scDescription = new DXGI.SwapChainDescription1()
{
Width = 0,
Height = 0,
Format = DXGI.Format.B8G8R8A8_UNorm,
Stereo = false,
SampleDescription = new DXGI.SampleDescription(1, 0),
Usage = DXGI.Usage.RenderTargetOutput,
BufferCount = 2,
Scaling = DXGI.Scaling.None,
SwapEffect = DXGI.SwapEffect.FlipSequential
};
swapChain = new DXGI.SwapChain1(dxgiFactory2, defDevice, form.Handle,
ref scDescription, null, null);
d2dDevice = new Direct2D1.Device(dxgiDevice2);
d2dContext = new Direct2D1.DeviceContext(d2dDevice,
Direct2D1.DeviceContextOptions.None);
fac = new Direct2D1.Factory(Direct2D1.FactoryType.SingleThreaded);
var dpi = fac.DesktopDpi;
var bMProperties = new Direct2D1.BitmapProperties1(
new Direct2D1.PixelFormat(DXGI.Format.B8G8R8A8_UNorm,
Direct2D1.AlphaMode.Premultiplied),
dpi.Width, dpi.Height,
Direct2D1.BitmapOptions.CannotDraw | Direct2D1.BitmapOptions.Target);
bb = swapChain.GetBackBuffer <DXGI.Surface>(0);
target = new Direct2D1.Bitmap1(d2dContext, bb, bMProperties);
d2dContext.Target = target;
wrFactory = new DirectWrite.Factory();
brush = new Direct2D1.SolidColorBrush(d2dContext, c(Color.White));
}
static void over()
{
var inputPath = "Input.png";
var outputPath = "output.png";
// 그래픽을 랜더링할 장비를 추가 - 3D or 2D
var defaultDevice = new SharpDX.Direct3D11.Device(SharpDX.Direct3D.DriverType.Hardware,
d3d.DeviceCreationFlags.VideoSupport
| d3d.DeviceCreationFlags.BgraSupport
| d3d.DeviceCreationFlags.None);
var d3dDevice = defaultDevice.QueryInterface <d3d.Device1>(); //get a refer to the D3D 11.1 device
var dxgiDevice = d3dDevice.QueryInterface <dxgi.Device1>(); //get a refer to the DXGI device
var d2dDevice = new d2.Device(dxgiDevice);
// DeviceContext를 초기화. D2D 렌더링 타겟이 될 것이고 모든 렌더링 작업을 허용
var d2dContext = new d2.DeviceContext(d2dDevice, d2.DeviceContextOptions.None);
var dwFactory = new dw.Factory();
//D2D, WIC 둘 다 지원되는 픽셀 형식 지정
var d2PixelFormat = new d2.PixelFormat(dxgi.Format.R8G8B8A8_UNorm, d2.AlphaMode.Premultiplied);
//RGBA형식 사용
var wicPixelFormat = wic.PixelFormat.Format32bppPRGBA;
//이미지 로딩
var imagingFactory = new wic.ImagingFactory2();
var decoder = new wic.PngBitmapDecoder(imagingFactory);
var inputStream = new wic.WICStream(imagingFactory, inputPath, NativeFileAccess.Read);
decoder.Initialize(inputStream, wic.DecodeOptions.CacheOnLoad);
//다이렉트2D가 사용할수 있도록 디코딩
var formatConverter = new wic.FormatConverter(imagingFactory);
formatConverter.Initialize(decoder.GetFrame(0), wicPixelFormat);
//기본 이미지를 D2D이미지로 로드
//var inputBitmap = d2.Bitmap1.FromWicBitmap(d2dContext, formatConverter, new d2.BitmapProperties1(d2PixelFormat));
//이미지 크기 저장
var inputImageSize = formatConverter.Size;
var pixelWidth = inputImageSize.Width;
var pixelHeight = inputImageSize.Height;
//Effect1 : BitpmapSource - 디코딩된 이미지 데이터를 가져오고 BitmapSource 가져오기
var bitmapSourceEffect = new d2.Effects.BitmapSource(d2dContext);
bitmapSourceEffect.WicBitmapSource = formatConverter;
// Effect 2 : GaussianBlur - bitmapsource에 가우시안블러 효과 적용
var gaussianBlurEffect = new d2.Effects.GaussianBlur(d2dContext);
gaussianBlurEffect.SetInput(0, bitmapSourceEffect.Output, true);
gaussianBlurEffect.StandardDeviation = 5f;
//overlay text setup
var textFormat = new dw.TextFormat(dwFactory, "Arial", 15f);
//draw a long text to show the automatic line wrapping
var textToDraw = "sime ling text..." + "text" + "dddd";
//create the text layout - this imroves the drawing performance for static text
// as the glyph positions are precalculated
//윤곽선 글꼴 데이터에서 글자 하나의 모양에 대한 기본 단위를 글리프(glyph)라고 한다
var textLayout = new dw.TextLayout(dwFactory, textToDraw, textFormat, 300f, 1000f);
SharpDX.Mathematics.Interop.RawColor4 color = new SharpDX.Mathematics.Interop.RawColor4(255, 255, 255, 1);
var textBrush = new d2.SolidColorBrush(d2dContext, color);
//여기서부터 다시
//render target setup
//create the d2d bitmap description using default flags and 96 DPI
var d2dBitmapProps = new d2.BitmapProperties1(d2PixelFormat, 96, 96, d2.BitmapOptions.Target | d2.BitmapOptions.CannotDraw);
//the render target
var d2dRenderTarget = new d2.Bitmap1(d2dContext, new Size2(pixelWidth, pixelHeight), d2dBitmapProps);
d2dContext.Target = d2dRenderTarget; //associate bitmap with the d2d context
//Drawing
//slow preparations - fast drawing
d2dContext.BeginDraw();
d2dContext.DrawImage(gaussianBlurEffect, new SharpDX.Mathematics.Interop.RawVector2(100f, 100f));
d2dContext.DrawTextLayout(new SharpDX.Mathematics.Interop.RawVector2(50f, 50f), textLayout, textBrush);
d2dContext.EndDraw();
//Image save
//delete the output file if it already exists
if (System.IO.File.Exists(outputPath))
{
System.IO.File.Delete(outputPath);
}
//use the appropiate overload to write either to tream or to a file
var stream = new wic.WICStream(imagingFactory, outputPath, NativeFileAccess.Write);
//select the image encoding format HERE
var encoder = new wic.PngBitmapEncoder(imagingFactory);
encoder.Initialize(stream);
var bitmapFrameEncode = new wic.BitmapFrameEncode(encoder);
bitmapFrameEncode.Initialize();
bitmapFrameEncode.SetSize(pixelWidth, pixelHeight);
bitmapFrameEncode.SetPixelFormat(ref wicPixelFormat);
//this is the trick to write d2d1 bitmap to WIC
var imageEncoder = new wic.ImageEncoder(imagingFactory, d2dDevice);
imageEncoder.WriteFrame(d2dRenderTarget, bitmapFrameEncode, new wic.ImageParameters(d2PixelFormat, 96, 96, 0, 0, pixelWidth, pixelHeight));
bitmapFrameEncode.Commit();
encoder.Commit();
//cleanup
//dispose everything and free used resources
bitmapFrameEncode.Dispose();
encoder.Dispose();
stream.Dispose();
textBrush.Dispose();
textLayout.Dispose();
textFormat.Dispose();
formatConverter.Dispose();
//gaussianBlurEffect.Dispose();
bitmapSourceEffect.Dispose();
d2dRenderTarget.Dispose();
inputStream.Dispose();
decoder.Dispose();
d2dContext.Dispose();
dwFactory.Dispose();
imagingFactory.Dispose();
d2dDevice.Dispose();
dxgiDevice.Dispose();
d3dDevice.Dispose();
defaultDevice.Dispose();
//save
System.Diagnostics.Process.Start(outputPath);
}
void InitializeDirect2D()
{
d3dDevice = new D3D.Device(DriverType.Hardware, DeviceCreationFlags.BgraSupport);
dxgiDevice = d3dDevice.QueryInterface<DXGI.Device1>();
var desc = new SwapChainDescription1()
{
Width = 0,
Height = 0,
Format = Format.B8G8R8A8_UNorm,
Stereo = false,
SampleDescription = new SampleDescription(1, 0),
Usage = Usage.RenderTargetOutput,
BufferCount = 3,
Scaling = Scaling.None,
SwapEffect = SwapEffect.FlipSequential,
Flags = SwapChainFlags.None
};
DXGI.Factory2 dxgiFactory = dxgiDevice.Adapter.GetParent<DXGI.Factory2>();
swapChain = new SwapChain1(dxgiFactory, d3dDevice, Child.Handle, ref desc);
swapChain.BackgroundColor = Color4.White;
dxgiFactory.Dispose();
d2dFactory = new D2D.Factory1(FactoryType.SingleThreaded);
d2dDevice = new D2D.Device(d2dFactory, dxgiDevice);
d2dDeviceContext = new D2D.DeviceContext(d2dDevice, DeviceContextOptions.None);
d2dDeviceContext.TextAntialiasMode = TextAntialiasMode.Cleartype;
//d2dDeviceContext.DotsPerInch = new Size2F(96, 96);
var props = new BitmapProperties1(new PixelFormat(Format.B8G8R8A8_UNorm, D2D.AlphaMode.Ignore),
d2dDeviceContext.DotsPerInch.Width,
d2dDeviceContext.DotsPerInch.Height,
BitmapOptions.Target | BitmapOptions.CannotDraw);
Surface1 dxgiSurface = swapChain.GetBackBuffer<Surface1>(0);
d2dSurface = new Bitmap1(d2dDeviceContext, dxgiSurface, props);
dxgiSurface.Dispose();
d2dDeviceContext.Target = d2dSurface;
VertexFillBrush = new SolidColorBrush(d2dDeviceContext, new Color4(1, 0.5f, 0, 1));
VertexDrawBrush = new SolidColorBrush(d2dDeviceContext, new Color4(0.2f, 0.2f, 0.2f, 1));
EdgeDrawBrush = new SolidColorBrush(d2dDeviceContext, Color4.Black);
RasterDrawBrush = new SolidColorBrush(d2dDeviceContext, new Color4(0.5f, 0.5f, 0.5f, 1));
}