Example #1
0
        async Task SaveToFile(SharpDX.WIC.Bitmap bitmap)         // debugging helper method, remove when no longer needed.
        {
            var width  = bitmap.Size.Width;
            var height = bitmap.Size.Height;
            var pixels = new SharpDX.ColorBGRA[bitmap.Size.Width * bitmap.Size.Height];

            bitmap.CopyPixels(pixels);
            var bytes = new byte[width * height * 4];

            for (var i = 0; i < pixels.Length; ++i)
            {
                bytes[i * 4 + 0] = (byte)pixels[i].B;
                bytes[i * 4 + 1] = (byte)pixels[i].G;
                bytes[i * 4 + 2] = (byte)pixels[i].R;
                bytes[i * 4 + 3] = (byte)pixels[i].A;
            }

            var folder = ApplicationData.Current.LocalFolder;
            var file   = await folder.CreateFileAsync("test.png", CreationCollisionOption.ReplaceExisting);

            using (IRandomAccessStream stream = await file.OpenAsync(FileAccessMode.ReadWrite))
            {
                var encoder = await BitmapEncoder.CreateAsync(BitmapEncoder.PngEncoderId, stream);

                encoder.SetPixelData(BitmapPixelFormat.Bgra8,
                                     BitmapAlphaMode.Ignore,
                                     (uint)bitmap.Size.Width, (uint)bitmap.Size.Height,
                                     96, 96, bytes);

                await encoder.FlushAsync();
            }
        }
Example #2
0
 /// <summary>
 /// Draws a line strip in screen space with a specified input transformation matrix.
 /// </summary>
 /// <param name="vertices"><para>Array of vertices that make up the line. See <see cref="SharpDX.Vector3"/>.</para></param>
 /// <param name="transform"><para>A scale, rotate, and translate (SRT) matrix for transforming the points. See <see cref="SharpDX.Matrix"/>. If this matrix is a projection matrix, any stippled lines will be drawn with a perspective-correct stippling pattern. Or, you can transform the vertices and use <see cref="SharpDX.Direct3D9.Line.Draw"/> to draw the line with a nonperspective-correct stipple pattern.</para></param>
 /// <param name="color"><para>Color of the line. See <see cref="SharpDX.Color4"/>.</para></param>
 /// <returns>If the method succeeds, the return value is <see cref="SharpDX.Direct3D9.ResultCode.Success"/>. If the method fails, the return value can be one of the following: <see cref="SharpDX.Direct3D9.ResultCode.InvalidCall"/>, D3DXERR_INVALIDDATA.</returns>
 /// <unmanaged>HRESULT ID3DXLine::DrawTransform([In] const void* pVertexList,[In] unsigned int dwVertexListCount,[In] const D3DXMATRIX* pTransform,[In] D3DCOLOR Color)</unmanaged>
 public void DrawTransform(Vector3[] vertices, SharpDX.Matrix transform, SharpDX.ColorBGRA color)
 {
     unsafe
     {
         fixed(void *pVertexListRef = vertices)
         DrawTransform((IntPtr)pVertexListRef, vertices.Length, ref transform, color);
     }
 }
Example #3
0
 /// <summary>
 /// Draws a line strip in screen space. Input is in the form of an array that defines points (of <see cref="SharpDX.Vector2"/>) on the line strip.
 /// </summary>
 /// <param name="vertices">No documentation.</param>
 /// <param name="color">No documentation.</param>
 /// <unmanaged>HRESULT ID3DXLine::Draw([In] const void* pVertexList,[In] unsigned int dwVertexListCount,[In] D3DCOLOR Color)</unmanaged>
 public void Draw(SharpDX.Vector2[] vertices, SharpDX.ColorBGRA color)
 {
     unsafe
     {
         fixed(void *pVertexListRef = vertices)
         Draw((IntPtr)pVertexListRef, vertices.Length, color);
     }
 }
Example #4
0
        /// <summary>
        /// Draws a line strip in screen space with a specified input transformation matrix.
        /// </summary>
        /// <param name="vertices"><para>Array of vertices that make up the line. See <see cref="SharpDX.Vector3"/>.</para></param>
        /// <param name="transform"><para>A scale, rotate, and translate (SRT) matrix for transforming the points. See <see cref="SharpDX.Matrix"/>. If this matrix is a projection matrix, any stippled lines will be drawn with a perspective-correct stippling pattern. Or, you can transform the vertices and use <see cref="SharpDX.Direct3D9.Line.Draw"/> to draw the line with a nonperspective-correct stipple pattern.</para></param>
        /// <param name="color"><para>Color of the line. See <see cref="SharpDX.Color4"/>.</para></param>
        /// <returns>If the method succeeds, the return value is <see cref="SharpDX.Direct3D9.ResultCode.Success"/>. If the method fails, the return value can be one of the following: <see cref="SharpDX.Direct3D9.ResultCode.InvalidCall"/>, D3DXERR_INVALIDDATA.</returns>
        /// <unmanaged>HRESULT ID3DXLine::DrawTransform([In] const void* pVertexList,[In] unsigned int dwVertexListCount,[In] const D3DXMATRIX* pTransform,[In] D3DCOLOR Color)</unmanaged>
        public void DrawTransform <T>(T[] vertices, SharpDX.Matrix transform, SharpDX.ColorBGRA color) where T : struct
        {
            unsafe
            {
                if (Utilities.SizeOf <T>() != sizeof(Vector3))
                {
                    throw new ArgumentException("Invalid size for T. Must be 3 floats (12 bytes)");
                }

                DrawTransform((IntPtr)Interop.Fixed(vertices), vertices.Length, ref transform, color);
            }
        }
Example #5
0
 /// <summary>
 /// <p>Adds a sprite to the list of batched sprites.</p>
 /// </summary>
 /// <param name="textureRef"><dd>  <p>Pointer to an <strong><see cref="SharpDX.Direct3D9.Texture"/></strong> interface that represents the sprite texture.</p> </dd></param>
 /// <param name="srcRectRef"><dd>  <p>Pointer to a <strong><see cref="SharpDX.Rectangle"/></strong> structure that indicates the portion of the source texture to use for the sprite. If this parameter is <strong><c>null</c></strong>, then the entire source image is used for the sprite.</p> </dd></param>
 /// <param name="centerRef"><dd>  <p>Pointer to a <strong><see cref="SharpDX.Vector3"/></strong> vector that identifies the center of the sprite. If this argument is <strong><c>null</c></strong>, the point (0,0,0) is used, which is the upper-left corner.</p> </dd></param>
 /// <param name="positionRef"><dd>  <p>Pointer to a <strong><see cref="SharpDX.Vector3"/></strong> vector that identifies the position of the sprite. If this argument is <strong><c>null</c></strong>, the point (0,0,0) is used, which is the upper-left corner.</p> </dd></param>
 /// <param name="color"><dd>  <p> <strong><see cref="SharpDX.Color4"/></strong> type. The color and alpha channels are modulated by this value. A value of 0xFFFFFFFF maintains the original source color and alpha data. Use the <strong>D3DCOLOR_RGBA</strong> macro to help generate this color.</p> </dd></param>
 /// <returns><p>If the method succeeds, the return value is <see cref="SharpDX.Result.Ok"/>. If the method fails, the return value can be one of the following: <see cref="SharpDX.Direct3D9.ResultCode.InvalidCall"/>, D3DXERR_INVALIDDATA.</p></returns>
 /// <remarks>
 /// <p>To scale, rotate, or translate a sprite, call <strong><see cref="SharpDX.Direct3D9.Sprite.SetTransform"/></strong> with a matrix that contains the scale, rotate, and translate (SRT) values, before calling <see cref="SharpDX.Direct3D9.Sprite.Draw"/>. For information about setting SRT values in a matrix, see Matrix Transforms.</p>
 /// </remarks>
 /// <msdn-id>bb174251</msdn-id>
 /// <unmanaged>HRESULT ID3DXSprite::Draw([In] IDirect3DTexture9* pTexture,[In] const RECT* pSrcRect,[In] const D3DXVECTOR3* pCenter,[In] const D3DXVECTOR3* pPosition,[In] D3DCOLOR Color)</unmanaged>
 /// <unmanaged-short>ID3DXSprite::Draw</unmanaged-short>
 public unsafe void Draw(SharpDX.Direct3D9.Texture textureRef, SharpDX.ColorBGRA color, SharpDX.Rectangle?srcRectRef = null, SharpDX.Vector3?centerRef = null, SharpDX.Vector3?positionRef = null)
 {
     SharpDX.Rectangle localRect = default(Rectangle);
     SharpDX.Vector3   localCenter;
     SharpDX.Vector3   localPosition;
     if (srcRectRef.HasValue)
     {
         localRect = srcRectRef.Value;
     }
     if (centerRef.HasValue)
     {
         localCenter = centerRef.Value;
     }
     if (positionRef.HasValue)
     {
         localPosition = positionRef.Value;
     }
     Draw(textureRef, srcRectRef.HasValue ? (IntPtr)(void *)&localRect : IntPtr.Zero, centerRef.HasValue ? (IntPtr)(void *)&localCenter : IntPtr.Zero, positionRef.HasValue ? (IntPtr)(void *)&localPosition : IntPtr.Zero, color);
 }
Example #6
0
        public void Render()
        {
            // Note: there ought to be a more efficient way to do this, as this is
            // critical. However, after much searching, the only way I found to
            // convert a Wic bitmap to a BitmapImage was by serializing to/from
            // a memory stream.

            if (!isRendering &&
                GraphicsHandler != null &&
                GraphicsHandler.Control != null)
            {
                isRendering = true;
                GraphicsHandler.BeginDrawing();
                Callback.OnPaint(Widget, new PaintEventArgs(graphics, Widget.Bounds));                 // renders into the bitmap
                GraphicsHandler.EndDrawing();
                var bitmap = GraphicsHandler.Image;
                if (bitmap != null)
                {
                    var bitmapHandler   = bitmap.Handler as BitmapHandler;
                    var bitmapObject    = bitmapHandler.Control;
                    var size            = bitmapObject.Size;
                    var writeableBitmap = new WriteableBitmap(size.Width, size.Height);

                    // Get a pointer to the bitmap pixels
                    unsafe
                    {
                        byte *ptr = null;
                        ((IBufferByteAccess)writeableBitmap.PixelBuffer).Buffer(out ptr);
                        var len    = size.Width * size.Height;
                        var pixels = new SharpDX.ColorBGRA[len];
                        fixed(SharpDX.ColorBGRA *pixelsPtr = &pixels[0])
                        {
                            bitmapObject.CopyPixels(pixels);
                            CopyMemory((IntPtr)ptr, (IntPtr)pixelsPtr, (uint)len * 4);
                        }
                    }
                    Control.Source = writeableBitmap;
                }
                isRendering = false;
            }
        }
Example #7
0
 private static void TextObj(string str, Obj_AI_Base target, SharpDX.ColorBGRA color)
 {
     Drawing.DrawText(str, target.Position.WorldToScreen() + new SharpDX.Vector2(0, -50), color);
 }
 public static void DrawTextBold(Font vFont, String vText, float vPosX, float vPosY, SharpDX.ColorBGRA vColor)
 {
     vFont.DrawText(null, vText, (int)vPosX, (int)vPosY, vColor);
 }
Example #9
0
 /// <summary>
 /// <p>Adds a sprite to the list of batched sprites.</p>
 /// </summary>
 /// <param name="textureRef"><dd>  <p>Pointer to an <strong><see cref="SharpDX.Direct3D9.Texture"/></strong> interface that represents the sprite texture.</p> </dd></param>
 /// <param name="color"><dd>  <p> <strong><see cref="SharpDX.Color4"/></strong> type. The color and alpha channels are modulated by this value. A value of 0xFFFFFFFF maintains the original source color and alpha data. Use the <strong>D3DCOLOR_RGBA</strong> macro to help generate this color.</p> </dd></param>
 /// <returns><p>If the method succeeds, the return value is <see cref="SharpDX.Result.Ok"/>. If the method fails, the return value can be one of the following: <see cref="SharpDX.Direct3D9.ResultCode.InvalidCall"/>, D3DXERR_INVALIDDATA.</p></returns>
 /// <remarks>
 /// <p>To scale, rotate, or translate a sprite, call <strong><see cref="SharpDX.Direct3D9.Sprite.SetTransform"/></strong> with a matrix that contains the scale, rotate, and translate (SRT) values, before calling <see cref="SharpDX.Direct3D9.Sprite.Draw"/>. For information about setting SRT values in a matrix, see Matrix Transforms.</p>
 /// </remarks>
 /// <msdn-id>bb174251</msdn-id>
 /// <unmanaged>HRESULT ID3DXSprite::Draw([In] IDirect3DTexture9* pTexture,[In] const RECT* pSrcRect,[In] const D3DXVECTOR3* pCenter,[In] const D3DXVECTOR3* pPosition,[In] D3DCOLOR Color)</unmanaged>
 /// <unmanaged-short>ID3DXSprite::Draw</unmanaged-short>
 public void Draw(SharpDX.Direct3D9.Texture textureRef, SharpDX.ColorBGRA color)
 {
     Draw(textureRef, IntPtr.Zero, IntPtr.Zero, IntPtr.Zero, color);
 }
Example #10
0
 public static void DrawText(Font fuente, String text, float posx, float posy, SharpDX.ColorBGRA color)
 {
     fuente.DrawText(null, text, (int)posx, (int)posy, color);
 }
Example #11
0
        public void display(VideoFrame videoFrame, Color backColor, RenderMode mode)
        {
            lock (renderLock)
            {
                if (device == null)
                {
                    return;
                }

                SharpDX.Result deviceStatus = device.TestCooperativeLevel();

                if (deviceStatus.Success == true)
                {
                    try
                    {
                        SharpDX.ColorBGRA backColorDX = new SharpDX.ColorBGRA(backColor.R,
                                                                              backColor.G, backColor.B, backColor.A);

                        device.Clear(D3D.ClearFlags.Target, backColorDX, 1.0f, 0);

                        if (mode == RenderMode.CLEAR_SCREEN)
                        {
                            device.Present();
                            return;
                        }

                        device.BeginScene();

                        SharpDX.Rectangle videoSourceRect = new SharpDX.Rectangle();

                        if (mode == RenderMode.NORMAL)
                        {
                            videoSourceRect = new SharpDX.Rectangle(0, 0, videoFrame.Width, videoFrame.Height);

                            SharpDX.DataRectangle stream = offscreen.LockRectangle(LockFlags.None);

                            videoFrame.copyFrameDataToSurface(stream.DataPointer, stream.Pitch);

                            offscreen.UnlockRectangle();
                        }
                        else if (mode == RenderMode.PAUSED)
                        {
                            videoSourceRect = new SharpDX.Rectangle(0, 0, offscreen.Description.Width, offscreen.Description.Height);
                        }

                        videoDestRect = getVideoDestRect(backBuffer);

                        device.StretchRectangle(offscreen, videoSourceRect,
                                                backBuffer, videoDestRect, D3D.TextureFilter.Linear);

                        drawText();

                        device.EndScene();
                        device.Present();

                        RenderMode = mode;
                    }
                    catch (SharpDX.SharpDXException)
                    {
                        //log.Info("lost direct3d device", e);
                        deviceStatus = device.TestCooperativeLevel();
                    }
                }

                if (deviceStatus.Code == D3D.ResultCode.DeviceLost.Result)
                {
                    //Can't Reset yet, wait for a bit
                }
                else if (deviceStatus.Code == D3D.ResultCode.DeviceNotReset.Result)
                {
                    resetDevice();
                }
            }
        }
Example #12
0
        public void display(VideoFrame videoFrame, Color backColor, RenderMode mode)
        {
            
            lock (renderLock)
            {
                if (device == null) return;          

                SharpDX.Result deviceStatus = device.TestCooperativeLevel();
          
                if (deviceStatus.Success == true)
                {
                    try
                    {
                        SharpDX.ColorBGRA backColorDX = new SharpDX.ColorBGRA(backColor.R,
                            backColor.G, backColor.B, backColor.A);

                        device.Clear(D3D.ClearFlags.Target, backColorDX, 1.0f, 0);

                        if (mode == RenderMode.CLEAR_SCREEN)
                        {
                            device.Present();
                            return;
                        }           

                        device.BeginScene();
                 
                        SharpDX.Rectangle videoSourceRect = new SharpDX.Rectangle();

                        if (mode == RenderMode.NORMAL)
                        {

                            videoSourceRect = new SharpDX.Rectangle(0, 0, videoFrame.Width, videoFrame.Height);

                            SharpDX.DataRectangle stream = offscreen.LockRectangle(LockFlags.None);

                            videoFrame.copyFrameDataToSurface(stream.DataPointer, stream.Pitch);

                            offscreen.UnlockRectangle();

                        }
                        else if (mode == RenderMode.PAUSED)
                        {
                            videoSourceRect = new SharpDX.Rectangle(0, 0, offscreen.Description.Width, offscreen.Description.Height);
                        }
                                          
                        videoDestRect = getVideoDestRect(backBuffer);

                        device.StretchRectangle(offscreen, videoSourceRect,
                            backBuffer, videoDestRect, D3D.TextureFilter.Linear);

                        drawText();

                        device.EndScene();
                        device.Present();

                        RenderMode = mode;

                    }
                    catch (SharpDX.SharpDXException)
                    {

                        //log.Info("lost direct3d device", e);
                        deviceStatus = device.TestCooperativeLevel();
                    }
                }

                if (deviceStatus.Code == D3D.ResultCode.DeviceLost.Result)
                {

                    //Can't Reset yet, wait for a bit

                }
                else if (deviceStatus.Code == D3D.ResultCode.DeviceNotReset.Result)
                {
                    
                    resetDevice();
                }
            }
        }