Mercurial > projects > dwt-win
view dwt/graphics/Image.d @ 194:3afcd4ddcf90
Update to SWT 3.3.2
author | Frank Benoit <benoit@tionex.de> |
---|---|
date | Wed, 19 Mar 2008 21:48:31 +0100 |
parents | 25f88bf5a6df |
children | 184ab53b7785 |
line wrap: on
line source
/******************************************************************************* * Copyright (c) 2000, 2007 IBM Corporation and others. * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/epl-v10.html * * Contributors: * IBM Corporation - initial API and implementation * Port to the D programming language: * Frank Benoit <benoit@tionex.de> *******************************************************************************/ module dwt.graphics.Image; import dwt.DWT; import dwt.DWTError; import dwt.DWTException; import dwt.internal.gdip.Gdip; import dwt.internal.win32.OS; import dwt.graphics.Color; import dwt.graphics.Device; import dwt.graphics.Drawable; import dwt.graphics.GC; import dwt.graphics.GCData; import dwt.graphics.ImageData; import dwt.graphics.PaletteData; import dwt.graphics.RGB; import dwt.graphics.Rectangle; import dwt.graphics.Resource; import dwt.dwthelper.InputStream; import dwt.dwthelper.utils; import tango.text.convert.Format; //import tango.stdc.string; //import tango.stdc.stringz; /** * Instances of this class are graphics which have been prepared * for display on a specific device. That is, they are ready * to paint using methods such as <code>GC.drawImage()</code> * and display on widgets with, for example, <code>Button.setImage()</code>. * <p> * If loaded from a file format that supports it, an * <code>Image</code> may have transparency, meaning that certain * pixels are specified as being transparent when drawn. Examples * of file formats that support transparency are GIF and PNG. * </p><p> * There are two primary ways to use <code>Images</code>. * The first is to load a graphic file from disk and create an * <code>Image</code> from it. This is done using an <code>Image</code> * constructor, for example: * <pre> * Image i = new Image(device, "C:\\graphic.bmp"); * </pre> * A graphic file may contain a color table specifying which * colors the image was intended to possess. In the above example, * these colors will be mapped to the closest available color in * DWT. It is possible to get more control over the mapping of * colors as the image is being created, using code of the form: * <pre> * ImageData data = new ImageData("C:\\graphic.bmp"); * RGB[] rgbs = data.getRGBs(); * // At this point, rgbs contains specifications of all * // the colors contained within this image. You may * // allocate as many of these colors as you wish by * // using the Color constructor Color(RGB), then * // create the image: * Image i = new Image(device, data); * </pre> * <p> * Applications which require even greater control over the image * loading process should use the support provided in class * <code>ImageLoader</code>. * </p><p> * Application code must explicitly invoke the <code>Image.dispose()</code> * method to release the operating system resources managed by each instance * when those instances are no longer required. * </p> * * @see Color * @see ImageData * @see ImageLoader */ public final class Image : Resource, Drawable { /** * specifies whether the receiver is a bitmap or an icon * (one of <code>DWT.BITMAP</code>, <code>DWT.ICON</code>) * <p> * <b>IMPORTANT:</b> This field is <em>not</em> part of the DWT * public API. It is marked public only so that it can be shared * within the packages provided by DWT. It is not available on all * platforms and should never be accessed from application code. * </p> */ public int type; /** * the handle to the OS image resource * (Warning: This field is platform dependent) * <p> * <b>IMPORTANT:</b> This field is <em>not</em> part of the DWT * public API. It is marked public only so that it can be shared * within the packages provided by DWT. It is not available on all * platforms and should never be accessed from application code. * </p> */ public HGDIOBJ handle; /** * specifies the transparent pixel */ int transparentPixel = -1; /** * the GC which is drawing on the image */ GC memGC; /** * the alpha data for the image */ byte[] alphaData; /** * the global alpha value to be used for every pixel */ int alpha = -1; /** * the image data used to create this image if it is a * icon. Used only in WinCE */ ImageData data; /** * width of the image */ int width = -1; /** * height of the image */ int height = -1; /** * specifies the default scanline padding */ static const int DEFAULT_SCANLINE_PAD = 4; /** * Prevents uninitialized instances from being created outside the package. */ this () { } /** * Constructs an empty instance of this class with the * specified width and height. The result may be drawn upon * by creating a GC and using any of its drawing operations, * as shown in the following example: * <pre> * Image i = new Image(device, width, height); * GC gc = new GC(i); * gc.drawRectangle(0, 0, 50, 50); * gc.dispose(); * </pre> * <p> * Note: Some platforms may have a limitation on the size * of image that can be created (size depends on width, height, * and depth). For example, Windows 95, 98, and ME do not allow * images larger than 16M. * </p> * * @param device the device on which to create the image * @param width the width of the new image * @param height the height of the new image * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if device is null and there is no current device</li> * <li>ERROR_INVALID_ARGUMENT - if either the width or height is negative or zero</li> * </ul> * @exception DWTError <ul> * <li>ERROR_NO_HANDLES if a handle could not be obtained for image creation</li> * </ul> */ public this(Device device, int width, int height) { if (device is null) device = Device.getDevice(); if (device is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); init(device, width, height); if (device.tracking) device.new_Object(this); } /** * Constructs a new instance of this class based on the * provided image, with an appearance that varies depending * on the value of the flag. The possible flag values are: * <dl> * <dt><b>IMAGE_COPY</b></dt> * <dd>the result is an identical copy of srcImage</dd> * <dt><b>IMAGE_DISABLE</b></dt> * <dd>the result is a copy of srcImage which has a <em>disabled</em> look</dd> * <dt><b>IMAGE_GRAY</b></dt> * <dd>the result is a copy of srcImage which has a <em>gray scale</em> look</dd> * </dl> * * @param device the device on which to create the image * @param srcImage the image to use as the source * @param flag the style, either <code>IMAGE_COPY</code>, <code>IMAGE_DISABLE</code> or <code>IMAGE_GRAY</code> * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if device is null and there is no current device</li> * <li>ERROR_NULL_ARGUMENT - if srcImage is null</li> * <li>ERROR_INVALID_ARGUMENT - if the flag is not one of <code>IMAGE_COPY</code>, <code>IMAGE_DISABLE</code> or <code>IMAGE_GRAY</code></li> * <li>ERROR_INVALID_ARGUMENT - if the image has been disposed</li> * </ul> * @exception DWTException <ul> * <li>ERROR_INVALID_IMAGE - if the image is not a bitmap or an icon, or is otherwise in an invalid state</li> * <li>ERROR_UNSUPPORTED_DEPTH - if the depth of the image is not supported</li> * </ul> * @exception DWTError <ul> * <li>ERROR_NO_HANDLES if a handle could not be obtained for image creation</li> * </ul> */ public this(Device device, Image srcImage, int flag) { if (device is null) device = Device.getDevice(); if (device is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); this.device = device; if (srcImage is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); if (srcImage.isDisposed()) DWT.error(DWT.ERROR_INVALID_ARGUMENT); Rectangle rect = srcImage.getBounds(); switch (flag) { case DWT.IMAGE_COPY: { this.type = srcImage.type; switch (type) { case DWT.BITMAP: /* Get the HDC for the device */ auto hDC = device.internal_new_GC(null); /* Copy the bitmap */ auto hdcSource = OS.CreateCompatibleDC(hDC); auto hdcDest = OS.CreateCompatibleDC(hDC); auto hOldSrc = OS.SelectObject(hdcSource, srcImage.handle); BITMAP bm; OS.GetObject(srcImage.handle, BITMAP.sizeof, &bm); handle = OS.CreateCompatibleBitmap(hdcSource, rect.width, bm.bmBits !is null ? -rect.height : rect.height); if (handle is null) DWT.error(DWT.ERROR_NO_HANDLES); auto hOldDest = OS.SelectObject(hdcDest, handle); OS.BitBlt(hdcDest, 0, 0, rect.width, rect.height, hdcSource, 0, 0, OS.SRCCOPY); OS.SelectObject(hdcSource, hOldSrc); OS.SelectObject(hdcDest, hOldDest); OS.DeleteDC(hdcSource); OS.DeleteDC(hdcDest); /* Release the HDC for the device */ device.internal_dispose_GC(hDC, null); transparentPixel = srcImage.transparentPixel; alpha = srcImage.alpha; if (srcImage.alphaData !is null) { alphaData = new byte[srcImage.alphaData.length]; System.arraycopy(srcImage.alphaData, 0, alphaData, 0, alphaData.length); } break; case DWT.ICON: static if (OS.IsWinCE) { init(device, srcImage.data); } else { handle = OS.CopyImage(srcImage.handle, OS.IMAGE_ICON, rect.width, rect.height, 0); if (handle is null) DWT.error(DWT.ERROR_NO_HANDLES); } break; default: DWT.error(DWT.ERROR_INVALID_IMAGE); } if (device.tracking) device.new_Object(this); return; } case DWT.IMAGE_DISABLE: { ImageData data = srcImage.getImageData(); PaletteData palette = data.palette; RGB[] rgbs = new RGB[3]; rgbs[0] = device.getSystemColor(DWT.COLOR_BLACK).getRGB(); rgbs[1] = device.getSystemColor(DWT.COLOR_WIDGET_NORMAL_SHADOW).getRGB(); rgbs[2] = device.getSystemColor(DWT.COLOR_WIDGET_BACKGROUND).getRGB(); ImageData newData = new ImageData(rect.width, rect.height, 8, new PaletteData(rgbs)); newData.alpha = data.alpha; newData.alphaData = data.alphaData; newData.maskData = data.maskData; newData.maskPad = data.maskPad; if (data.transparentPixel !is -1) newData.transparentPixel = 0; /* Convert the pixels. */ int[] scanline = new int[rect.width]; int[] maskScanline = null; ImageData mask = null; if (data.maskData !is null) mask = data.getTransparencyMask(); if (mask !is null) maskScanline = new int[rect.width]; int redMask = palette.redMask; int greenMask = palette.greenMask; int blueMask = palette.blueMask; int redShift = palette.redShift; int greenShift = palette.greenShift; int blueShift = palette.blueShift; for (int y=0; y<rect.height; y++) { int offset = y * newData.bytesPerLine; data.getPixels(0, y, rect.width, scanline, 0); if (mask !is null) mask.getPixels(0, y, rect.width, maskScanline, 0); for (int x=0; x<rect.width; x++) { int pixel = scanline[x]; if (!((data.transparentPixel !is -1 && pixel is data.transparentPixel) || (mask !is null && maskScanline[x] is 0))) { int red, green, blue; if (palette.isDirect) { red = pixel & redMask; red = (redShift < 0) ? red >>> -redShift : red << redShift; green = pixel & greenMask; green = (greenShift < 0) ? green >>> -greenShift : green << greenShift; blue = pixel & blueMask; blue = (blueShift < 0) ? blue >>> -blueShift : blue << blueShift; } else { red = palette.colors[pixel].red; green = palette.colors[pixel].green; blue = palette.colors[pixel].blue; } int intensity = red * red + green * green + blue * blue; if (intensity < 98304) { newData.data[offset] = cast(byte)1; } else { newData.data[offset] = cast(byte)2; } } offset++; } } init (device, newData); if (device.tracking) device.new_Object(this); return; } case DWT.IMAGE_GRAY: { ImageData data = srcImage.getImageData(); PaletteData palette = data.palette; ImageData newData = data; if (!palette.isDirect) { /* Convert the palette entries to gray. */ RGB [] rgbs = palette.getRGBs(); for (int i=0; i<rgbs.length; i++) { if (data.transparentPixel !is i) { RGB color = rgbs [i]; int red = color.red; int green = color.green; int blue = color.blue; int intensity = (red+red+green+green+green+green+green+blue) >> 3; color.red = color.green = color.blue = intensity; } } newData.palette = new PaletteData(rgbs); } else { /* Create a 8 bit depth image data with a gray palette. */ RGB[] rgbs = new RGB[256]; for (int i=0; i<rgbs.length; i++) { rgbs[i] = new RGB(i, i, i); } newData = new ImageData(rect.width, rect.height, 8, new PaletteData(rgbs)); newData.alpha = data.alpha; newData.alphaData = data.alphaData; newData.maskData = data.maskData; newData.maskPad = data.maskPad; if (data.transparentPixel !is -1) newData.transparentPixel = 254; /* Convert the pixels. */ int[] scanline = new int[rect.width]; int redMask = palette.redMask; int greenMask = palette.greenMask; int blueMask = palette.blueMask; int redShift = palette.redShift; int greenShift = palette.greenShift; int blueShift = palette.blueShift; for (int y=0; y<rect.height; y++) { int offset = y * newData.bytesPerLine; data.getPixels(0, y, rect.width, scanline, 0); for (int x=0; x<rect.width; x++) { int pixel = scanline[x]; if (pixel !is data.transparentPixel) { int red = pixel & redMask; red = (redShift < 0) ? red >>> -redShift : red << redShift; int green = pixel & greenMask; green = (greenShift < 0) ? green >>> -greenShift : green << greenShift; int blue = pixel & blueMask; blue = (blueShift < 0) ? blue >>> -blueShift : blue << blueShift; int intensity = (red+red+green+green+green+green+green+blue) >> 3; if (newData.transparentPixel is intensity) intensity = 255; newData.data[offset] = cast(byte)intensity; } else { newData.data[offset] = cast(byte)254; } offset++; } } } init (device, newData); if (device.tracking) device.new_Object(this); return; } default: DWT.error(DWT.ERROR_INVALID_ARGUMENT); } } /** * Constructs an empty instance of this class with the * width and height of the specified rectangle. The result * may be drawn upon by creating a GC and using any of its * drawing operations, as shown in the following example: * <pre> * Image i = new Image(device, boundsRectangle); * GC gc = new GC(i); * gc.drawRectangle(0, 0, 50, 50); * gc.dispose(); * </pre> * <p> * Note: Some platforms may have a limitation on the size * of image that can be created (size depends on width, height, * and depth). For example, Windows 95, 98, and ME do not allow * images larger than 16M. * </p> * * @param device the device on which to create the image * @param bounds a rectangle specifying the image's width and height (must not be null) * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if device is null and there is no current device</li> * <li>ERROR_NULL_ARGUMENT - if the bounds rectangle is null</li> * <li>ERROR_INVALID_ARGUMENT - if either the rectangle's width or height is negative</li> * </ul> * @exception DWTError <ul> * <li>ERROR_NO_HANDLES if a handle could not be obtained for image creation</li> * </ul> */ public this(Device device, Rectangle bounds) { if (device is null) device = Device.getDevice(); if (device is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); if (bounds is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); init(device, bounds.width, bounds.height); if (device.tracking) device.new_Object(this); } /** * Constructs an instance of this class from the given * <code>ImageData</code>. * * @param device the device on which to create the image * @param data the image data to create the image from (must not be null) * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if device is null and there is no current device</li> * <li>ERROR_NULL_ARGUMENT - if the image data is null</li> * </ul> * @exception DWTException <ul> * <li>ERROR_UNSUPPORTED_DEPTH - if the depth of the ImageData is not supported</li> * </ul> * @exception DWTError <ul> * <li>ERROR_NO_HANDLES if a handle could not be obtained for image creation</li> * </ul> */ public this(Device device, ImageData data) { if (device is null) device = Device.getDevice(); if (device is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); init(device, data); if (device.tracking) device.new_Object(this); } /** * Constructs an instance of this class, whose type is * <code>DWT.ICON</code>, from the two given <code>ImageData</code> * objects. The two images must be the same size. Pixel transparency * in either image will be ignored. * <p> * The mask image should contain white wherever the icon is to be visible, * and black wherever the icon is to be transparent. In addition, * the source image should contain black wherever the icon is to be * transparent. * </p> * * @param device the device on which to create the icon * @param source the color data for the icon * @param mask the mask data for the icon * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if device is null and there is no current device</li> * <li>ERROR_NULL_ARGUMENT - if either the source or mask is null </li> * <li>ERROR_INVALID_ARGUMENT - if source and mask are different sizes</li> * </ul> * @exception DWTError <ul> * <li>ERROR_NO_HANDLES if a handle could not be obtained for image creation</li> * </ul> */ public this(Device device, ImageData source, ImageData mask) { if (device is null) device = Device.getDevice(); if (device is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); if (source is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); if (mask is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); if (source.width !is mask.width || source.height !is mask.height) { DWT.error(DWT.ERROR_INVALID_ARGUMENT); } mask = ImageData.convertMask(mask); init(device, this, source, mask); if (device.tracking) device.new_Object(this); } /** * Constructs an instance of this class by loading its representation * from the specified input stream. Throws an error if an error * occurs while loading the image, or if the result is an image * of an unsupported type. Application code is still responsible * for closing the input stream. * <p> * This constructor is provided for convenience when loading a single * image only. If the stream contains multiple images, only the first * one will be loaded. To load multiple images, use * <code>ImageLoader.load()</code>. * </p><p> * This constructor may be used to load a resource as follows: * </p> * <pre> * static Image loadImage (Display display, Class clazz, String string) { * InputStream stream = clazz.getResourceAsStream (string); * if (stream is null) return null; * Image image = null; * try { * image = new Image (display, stream); * } catch (DWTException ex) { * } finally { * try { * stream.close (); * } catch (IOException ex) {} * } * return image; * } * </pre> * * @param device the device on which to create the image * @param stream the input stream to load the image from * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if device is null and there is no current device</li> * <li>ERROR_NULL_ARGUMENT - if the stream is null</li> * </ul> * @exception DWTException <ul> * <li>ERROR_IO - if an IO error occurs while reading from the stream</li> * <li>ERROR_INVALID_IMAGE - if the image stream contains invalid data </li> * <li>ERROR_UNSUPPORTED_DEPTH - if the image stream describes an image with an unsupported depth</li> * <li>ERROR_UNSUPPORTED_FORMAT - if the image stream contains an unrecognized format</li> * </ul> * @exception DWTError <ul> * <li>ERROR_NO_HANDLES if a handle could not be obtained for image creation</li> * </ul> */ public this (Device device, InputStream stream) { if (device is null) device = Device.getDevice(); if (device is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); init(device, new ImageData(stream)); if (device.tracking) device.new_Object(this); } /** * Constructs an instance of this class by loading its representation * from the file with the specified name. Throws an error if an error * occurs while loading the image, or if the result is an image * of an unsupported type. * <p> * This constructor is provided for convenience when loading * a single image only. If the specified file contains * multiple images, only the first one will be used. * * @param device the device on which to create the image * @param filename the name of the file to load the image from * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if device is null and there is no current device</li> * <li>ERROR_NULL_ARGUMENT - if the file name is null</li> * </ul> * @exception DWTException <ul> * <li>ERROR_IO - if an IO error occurs while reading from the file</li> * <li>ERROR_INVALID_IMAGE - if the image file contains invalid data </li> * <li>ERROR_UNSUPPORTED_DEPTH - if the image file describes an image with an unsupported depth</li> * <li>ERROR_UNSUPPORTED_FORMAT - if the image file contains an unrecognized format</li> * </ul> * @exception DWTError <ul> * <li>ERROR_NO_HANDLES if a handle could not be obtained for image creation</li> * </ul> */ public this (Device device, char[] filename) { if (device is null) device = Device.getDevice(); if (device is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); if (filename is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); this.device = device; try { device.checkGDIP(); int length = filename.length; char[] chars = new char[length+1]; filename.getChars(0, length, chars, 0); auto bitmap = Gdip.Bitmap_new( .StrToWCHARz( filename ), false); if (bitmap !is null) { int error = DWT.ERROR_NO_HANDLES; int status = Gdip.Image_GetLastStatus(cast(Gdip.Image)bitmap); if (status is 0) { if (filename.toLowerCase().endsWith(".ico")) { this.type = DWT.ICON; HICON hicon; Gdip.Bitmap_GetHICON(bitmap, hicon); this.handle = hicon; } else { this.type = DWT.BITMAP; int width = Gdip.Image_GetWidth(cast(Gdip.Image)bitmap); int height = Gdip.Image_GetHeight(cast(Gdip.Image)bitmap); int pixelFormat = Gdip.Image_GetPixelFormat(cast(Gdip.Image)bitmap); switch (pixelFormat) { case Gdip.PixelFormat16bppRGB555: case Gdip.PixelFormat16bppRGB565: this.handle = createDIB(width, height, 16); break; case Gdip.PixelFormat24bppRGB: this.handle = createDIB(width, height, 24); break; case Gdip.PixelFormat32bppRGB: // These will loose either precision or transparency case Gdip.PixelFormat16bppGrayScale: case Gdip.PixelFormat48bppRGB: case Gdip.PixelFormat32bppPARGB: case Gdip.PixelFormat64bppARGB: case Gdip.PixelFormat64bppPARGB: this.handle = createDIB(width, height, 32); break; default: } if (this.handle !is null) { /* * This performs better than getting the bits with Bitmap.LockBits(), * but it cannot be used when there is transparency. */ auto hDC = device.internal_new_GC(null); auto srcHDC = OS.CreateCompatibleDC(hDC); auto oldSrcBitmap = OS.SelectObject(srcHDC, this.handle); auto graphics = Gdip.Graphics_new(srcHDC); if (graphics !is null) { Gdip.Rect rect; rect.Width = width; rect.Height = height; status = Gdip.Graphics_DrawImage(graphics, cast(Gdip.Image)bitmap, rect, 0, 0, width, height, Gdip.UnitPixel, null, null, null); if (status !is 0) { error = DWT.ERROR_INVALID_IMAGE; OS.DeleteObject(handle); this.handle = null; } Gdip.Graphics_delete(graphics); } OS.SelectObject(srcHDC, oldSrcBitmap); OS.DeleteDC(srcHDC); device.internal_dispose_GC(hDC, null); } else { auto lockedBitmapData = Gdip.BitmapData_new(); if (lockedBitmapData !is null) { Gdip.Bitmap_LockBits(bitmap, null, 0, pixelFormat, lockedBitmapData); //BitmapData bitmapData = new BitmapData(); //Gdip.MoveMemory(bitmapData, lockedBitmapData); auto stride = lockedBitmapData.Stride; auto pixels = lockedBitmapData.Scan0; int depth = 0, scanlinePad = 4, transparentPixel = -1; switch (lockedBitmapData.PixelFormat) { case Gdip.PixelFormat1bppIndexed: depth = 1; break; case Gdip.PixelFormat4bppIndexed: depth = 4; break; case Gdip.PixelFormat8bppIndexed: depth = 8; break; case Gdip.PixelFormat16bppARGB1555: case Gdip.PixelFormat16bppRGB555: case Gdip.PixelFormat16bppRGB565: depth = 16; break; case Gdip.PixelFormat24bppRGB: depth = 24; break; case Gdip.PixelFormat32bppRGB: case Gdip.PixelFormat32bppARGB: depth = 32; break; default: } if (depth !is 0) { PaletteData paletteData = null; switch (lockedBitmapData.PixelFormat) { case Gdip.PixelFormat1bppIndexed: case Gdip.PixelFormat4bppIndexed: case Gdip.PixelFormat8bppIndexed: int paletteSize = Gdip.Image_GetPaletteSize(cast(Gdip.Image)bitmap); auto hHeap = OS.GetProcessHeap(); auto palette = cast(Gdip.ColorPalette*) OS.HeapAlloc(hHeap, OS.HEAP_ZERO_MEMORY, paletteSize); if (palette is null) DWT.error(DWT.ERROR_NO_HANDLES); Gdip.Image_GetPalette(cast(Gdip.Image)bitmap, palette, paletteSize); Gdip.ColorPalette* colorPalette = palette; //Gdip.MoveMemory(colorPalette, palette, ColorPalette.sizeof); //int[] entries = new int[colorPalette.Count]; //OS.MoveMemory(entries, palette + 8, entries.length * 4); //PORTING_COMMENT: moved down //OS.HeapFree(hHeap, 0, palette); RGB[] rgbs = new RGB[colorPalette.Count]; paletteData = new PaletteData(rgbs); for (int i = 0; i < colorPalette.Count; i++) { if (((palette.Entries[i] >> 24) & 0xFF) is 0 && (colorPalette.Flags & Gdip.PaletteFlagsHasAlpha) !is 0) { transparentPixel = i; } rgbs[i] = new RGB(((palette.Entries[i] & 0xFF0000) >> 16), ((palette.Entries[i] & 0xFF00) >> 8), ((palette.Entries[i] & 0xFF) >> 0)); } OS.HeapFree(hHeap, 0, palette); break; case Gdip.PixelFormat16bppARGB1555: case Gdip.PixelFormat16bppRGB555: paletteData = new PaletteData(0x7C00, 0x3E0, 0x1F); break; case Gdip.PixelFormat16bppRGB565: paletteData = new PaletteData(0xF800, 0x7E0, 0x1F); break; case Gdip.PixelFormat24bppRGB: paletteData = new PaletteData(0xFF, 0xFF00, 0xFF0000); break; case Gdip.PixelFormat32bppRGB: case Gdip.PixelFormat32bppARGB: paletteData = new PaletteData(0xFF00, 0xFF0000, 0xFF000000); break; default: } byte[] data = new byte[ stride * height ], alphaData = null; OS.MoveMemory(data.ptr, pixels, data.length); switch (lockedBitmapData.PixelFormat) { case Gdip.PixelFormat16bppARGB1555: alphaData = new byte[width * height]; for (int i = 1, j = 0; i < data.length; i += 2, j++) { alphaData[j] = cast(byte)((data[i] & 0x80) !is 0 ? 255 : 0); } break; case Gdip.PixelFormat32bppARGB: alphaData = new byte[width * height]; for (int i = 3, j = 0; i < data.length; i += 4, j++) { alphaData[j] = data[i]; } break; default: } Gdip.Bitmap_UnlockBits(bitmap, lockedBitmapData); Gdip.BitmapData_delete(lockedBitmapData); ImageData img = new ImageData(width, height, depth, paletteData, scanlinePad, data); img.transparentPixel = transparentPixel; img.alphaData = alphaData; init(device, img); } } } } } Gdip.Bitmap_delete(bitmap); if (status is 0) { if (this.handle is null) DWT.error(error); return; } } } catch (DWTException e) {} init(device, new ImageData(filename)); if(device.tracking) device.new_Object(this); } /** * Create a DIB from a DDB without using GetDIBits. Note that * the DDB should not be selected into a HDC. */ HBITMAP createDIBFromDDB(HDC hDC, HBITMAP hBitmap, int width, int height) { /* Determine the DDB depth */ int bits = OS.GetDeviceCaps (hDC, OS.BITSPIXEL); int planes = OS.GetDeviceCaps (hDC, OS.PLANES); int depth = bits * planes; /* Determine the DIB palette */ bool isDirect = depth > 8; RGB[] rgbs = null; if (!isDirect) { int numColors = 1 << depth; byte[] logPalette = new byte[4 * numColors]; OS.GetPaletteEntries(device.hPalette, 0, numColors, cast(PALETTEENTRY*)logPalette.ptr); rgbs = new RGB[numColors]; for (int i = 0; i < numColors; i++) { rgbs[i] = new RGB(logPalette[i] & 0xFF, logPalette[i + 1] & 0xFF, logPalette[i + 2] & 0xFF); } } bool useBitfields = OS.IsWinCE && (depth is 16 || depth is 32); BITMAPINFOHEADER bmiHeader; bmiHeader.biSize = BITMAPINFOHEADER.sizeof; bmiHeader.biWidth = width; bmiHeader.biHeight = -height; bmiHeader.biPlanes = 1; bmiHeader.biBitCount = cast(short)depth; if (useBitfields) bmiHeader.biCompression = OS.BI_BITFIELDS; else bmiHeader.biCompression = OS.BI_RGB; byte[] bmi; if (isDirect) bmi = new byte[BITMAPINFOHEADER.sizeof + (useBitfields ? 12 : 0)]; else bmi = new byte[BITMAPINFOHEADER.sizeof + rgbs.length * 4]; OS.MoveMemory(bmi.ptr, &bmiHeader, BITMAPINFOHEADER.sizeof); /* Set the rgb colors into the bitmap info */ int offset = BITMAPINFOHEADER.sizeof; if (isDirect) { if (useBitfields) { int redMask = 0; int greenMask = 0; int blueMask = 0; switch (depth) { case 16: redMask = 0x7C00; greenMask = 0x3E0; blueMask = 0x1F; /* little endian */ bmi[offset] = cast(byte)((redMask & 0xFF) >> 0); bmi[offset + 1] = cast(byte)((redMask & 0xFF00) >> 8); bmi[offset + 2] = cast(byte)((redMask & 0xFF0000) >> 16); bmi[offset + 3] = cast(byte)((redMask & 0xFF000000) >> 24); bmi[offset + 4] = cast(byte)((greenMask & 0xFF) >> 0); bmi[offset + 5] = cast(byte)((greenMask & 0xFF00) >> 8); bmi[offset + 6] = cast(byte)((greenMask & 0xFF0000) >> 16); bmi[offset + 7] = cast(byte)((greenMask & 0xFF000000) >> 24); bmi[offset + 8] = cast(byte)((blueMask & 0xFF) >> 0); bmi[offset + 9] = cast(byte)((blueMask & 0xFF00) >> 8); bmi[offset + 10] = cast(byte)((blueMask & 0xFF0000) >> 16); bmi[offset + 11] = cast(byte)((blueMask & 0xFF000000) >> 24); break; case 32: redMask = 0xFF00; greenMask = 0xFF0000; blueMask = 0xFF000000; /* big endian */ bmi[offset] = cast(byte)((redMask & 0xFF000000) >> 24); bmi[offset + 1] = cast(byte)((redMask & 0xFF0000) >> 16); bmi[offset + 2] = cast(byte)((redMask & 0xFF00) >> 8); bmi[offset + 3] = cast(byte)((redMask & 0xFF) >> 0); bmi[offset + 4] = cast(byte)((greenMask & 0xFF000000) >> 24); bmi[offset + 5] = cast(byte)((greenMask & 0xFF0000) >> 16); bmi[offset + 6] = cast(byte)((greenMask & 0xFF00) >> 8); bmi[offset + 7] = cast(byte)((greenMask & 0xFF) >> 0); bmi[offset + 8] = cast(byte)((blueMask & 0xFF000000) >> 24); bmi[offset + 9] = cast(byte)((blueMask & 0xFF0000) >> 16); bmi[offset + 10] = cast(byte)((blueMask & 0xFF00) >> 8); bmi[offset + 11] = cast(byte)((blueMask & 0xFF) >> 0); break; default: DWT.error(DWT.ERROR_UNSUPPORTED_DEPTH); } } } else { for (int j = 0; j < rgbs.length; j++) { bmi[offset] = cast(byte)rgbs[j].blue; bmi[offset + 1] = cast(byte)rgbs[j].green; bmi[offset + 2] = cast(byte)rgbs[j].red; bmi[offset + 3] = 0; offset += 4; } } int pBits; HBITMAP hDib = OS.CreateDIBSection(null, cast(BITMAPINFO*)bmi.ptr, OS.DIB_RGB_COLORS, &pBits, null, 0); if (hDib is null) DWT.error(DWT.ERROR_NO_HANDLES); /* Bitblt DDB into DIB */ auto hdcSource = OS.CreateCompatibleDC(hDC); auto hdcDest = OS.CreateCompatibleDC(hDC); auto hOldSrc = OS.SelectObject(hdcSource, hBitmap); auto hOldDest = OS.SelectObject(hdcDest, hDib); OS.BitBlt(hdcDest, 0, 0, width, height, hdcSource, 0, 0, OS.SRCCOPY); OS.SelectObject(hdcSource, hOldSrc); OS.SelectObject(hdcDest, hOldDest); OS.DeleteDC(hdcSource); OS.DeleteDC(hdcDest); return hDib; } // FIXME: Potential crash site in D: createGdipImage casts pointers to int before // returning them in an int[]. Since the D GC does not and cannot scan int's for // pointers, there is potential that the pointer's object could be collected while still // active, even though it might be unlikely given the short span of time that the // function has them stored in the int array. int[] createGdipImage() { switch (type) { case DWT.BITMAP: { if (alpha !is -1 || alphaData !is null || transparentPixel !is -1) { BITMAP bm; OS.GetObject(handle, BITMAP.sizeof, &bm); int imgWidth = bm.bmWidth; int imgHeight = bm.bmHeight; auto hDC = device.internal_new_GC(null); auto srcHdc = OS.CreateCompatibleDC(hDC); auto oldSrcBitmap = OS.SelectObject(srcHdc, handle); auto memHdc = OS.CreateCompatibleDC(hDC); auto memDib = createDIB(imgWidth, imgHeight, 32); if (memDib is null) DWT.error(DWT.ERROR_NO_HANDLES); auto oldMemBitmap = OS.SelectObject(memHdc, memDib); BITMAP dibBM; OS.GetObject(memDib, BITMAP.sizeof, &dibBM); int sizeInBytes = dibBM.bmWidthBytes * dibBM.bmHeight; OS.BitBlt(memHdc, 0, 0, imgWidth, imgHeight, srcHdc, 0, 0, OS.SRCCOPY); ubyte red = 0, green = 0, blue = 0; if (transparentPixel !is -1) { if (bm.bmBitsPixel <= 8) { ubyte[] color = new ubyte[4]; OS.GetDIBColorTable(srcHdc, transparentPixel, 1, cast(RGBQUAD*)color.ptr); blue = color[0]; green = color[1]; red = color[2]; } else { switch (bm.bmBitsPixel) { case 16: int blueMask = 0x1F; int blueShift = ImageData.getChannelShift(blueMask); byte[] blues = ImageData.ANY_TO_EIGHT[ImageData.getChannelWidth(blueMask, blueShift)]; blue = blues[(transparentPixel & blueMask) >> blueShift]; int greenMask = 0x3E0; int greenShift = ImageData.getChannelShift(greenMask); byte[] greens = ImageData.ANY_TO_EIGHT[ImageData.getChannelWidth(greenMask, greenShift)]; green = greens[(transparentPixel & greenMask) >> greenShift]; int redMask = 0x7C00; int redShift = ImageData.getChannelShift(redMask); byte[] reds = ImageData.ANY_TO_EIGHT[ImageData.getChannelWidth(redMask, redShift)]; red = reds[(transparentPixel & redMask) >> redShift]; break; case 24: blue = cast(ubyte)((transparentPixel & 0xFF0000) >> 16); green = cast(ubyte)((transparentPixel & 0xFF00) >> 8); red = cast(ubyte)(transparentPixel & 0xFF); break; case 32: blue = cast(ubyte)((transparentPixel & 0xFF000000) >>> 24); green = cast(ubyte)((transparentPixel & 0xFF0000) >> 16); red = cast(ubyte)((transparentPixel & 0xFF00) >> 8); break; default: } } } OS.SelectObject(srcHdc, oldSrcBitmap); OS.SelectObject(memHdc, oldMemBitmap); OS.DeleteObject(srcHdc); OS.DeleteObject(memHdc); ubyte[] srcData = new ubyte[sizeInBytes]; OS.MoveMemory(srcData.ptr, dibBM.bmBits, sizeInBytes); OS.DeleteObject(memDib); device.internal_dispose_GC(hDC, null); if (alpha !is -1) { for (int y = 0, dp = 0; y < imgHeight; ++y) { for (int x = 0; x < imgWidth; ++x) { srcData[dp + 3] = cast(ubyte)alpha; dp += 4; } } } else if (alphaData !is null) { for (int y = 0, dp = 0, ap = 0; y < imgHeight; ++y) { for (int x = 0; x < imgWidth; ++x) { srcData[dp + 3] = alphaData[ap++]; dp += 4; } } } else if (transparentPixel !is -1) { for (int y = 0, dp = 0; y < imgHeight; ++y) { for (int x = 0; x < imgWidth; ++x) { if (srcData[dp] is blue && srcData[dp + 1] is green && srcData[dp + 2] is red) { srcData[dp + 3] = cast(ubyte)0; } else { srcData[dp + 3] = cast(ubyte)0xFF; } dp += 4; } } } auto hHeap = OS.GetProcessHeap(); auto pixels = cast(ubyte*)OS.HeapAlloc(hHeap, OS.HEAP_ZERO_MEMORY, srcData.length); if (pixels is null) DWT.error(DWT.ERROR_NO_HANDLES); OS.MoveMemory(pixels, srcData.ptr, sizeInBytes); return [ cast(int)(Gdip.Bitmap_new(imgWidth, imgHeight, dibBM.bmWidthBytes, Gdip.PixelFormat32bppARGB, pixels)), cast(int) pixels]; } return [cast(int)Gdip.Bitmap_new(handle, null), 0]; } case DWT.ICON: { /* * Bug in GDI+. Creating a new GDI+ Bitmap from a HICON segment faults * when the icon width is bigger than the icon height. The fix is to * detect this and create a PixelFormat32bppARGB image instead. */ ICONINFO iconInfo; static if (OS.IsWinCE) { GetIconInfo(this, &iconInfo); } else { OS.GetIconInfo(handle, &iconInfo); } auto hBitmap = iconInfo.hbmColor; if (hBitmap is null) hBitmap = iconInfo.hbmMask; BITMAP bm; OS.GetObject(hBitmap, BITMAP.sizeof, &bm); int imgWidth = bm.bmWidth; int imgHeight = hBitmap is iconInfo.hbmMask ? bm.bmHeight / 2 : bm.bmHeight; Gdip.Bitmap img; ubyte* pixels; if (imgWidth > imgHeight) { auto hDC = device.internal_new_GC(null); auto srcHdc = OS.CreateCompatibleDC(hDC); auto oldSrcBitmap = OS.SelectObject(srcHdc, hBitmap); auto memHdc = OS.CreateCompatibleDC(hDC); auto memDib = createDIB(imgWidth, imgHeight, 32); if (memDib is null) DWT.error(DWT.ERROR_NO_HANDLES); auto oldMemBitmap = OS.SelectObject(memHdc, memDib); BITMAP dibBM; OS.GetObject(memDib, BITMAP.sizeof, &dibBM); OS.BitBlt(memHdc, 0, 0, imgWidth, imgHeight, srcHdc, 0, hBitmap is iconInfo.hbmMask ? imgHeight : 0, OS.SRCCOPY); OS.SelectObject(memHdc, oldMemBitmap); OS.DeleteObject(memHdc); ubyte[] srcData = new ubyte[dibBM.bmWidthBytes * dibBM.bmHeight]; OS.MoveMemory(srcData.ptr, dibBM.bmBits, srcData.length); OS.DeleteObject(memDib); OS.SelectObject(srcHdc, iconInfo.hbmMask); for (int y = 0, dp = 0; y < imgHeight; ++y) { for (int x = 0; x < imgWidth; ++x) { if (OS.GetPixel(srcHdc, x, y) !is 0) { srcData[dp + 3] = cast(ubyte)0; } else { srcData[dp + 3] = cast(ubyte)0xFF; } dp += 4; } } OS.SelectObject(srcHdc, oldSrcBitmap); OS.DeleteObject(srcHdc); device.internal_dispose_GC(hDC, null); auto hHeap = OS.GetProcessHeap(); pixels = cast(ubyte*) OS.HeapAlloc(hHeap, OS.HEAP_ZERO_MEMORY, srcData.length); if (pixels is null) DWT.error(DWT.ERROR_NO_HANDLES); OS.MoveMemory(pixels, srcData.ptr, srcData.length); img = Gdip.Bitmap_new(imgWidth, imgHeight, dibBM.bmWidthBytes, Gdip.PixelFormat32bppARGB, pixels); } else { img = Gdip.Bitmap_new(handle); } if (iconInfo.hbmColor !is null) OS.DeleteObject(iconInfo.hbmColor); if (iconInfo.hbmMask !is null) OS.DeleteObject(iconInfo.hbmMask); return [ cast(int)img, cast(int) pixels ]; } default: DWT.error(DWT.ERROR_INVALID_IMAGE); } return null; } /** * Disposes of the operating system resources associated with * the image. Applications must dispose of all images which * they allocate. */ override public void dispose () { if (handle is null) return; if (device.isDisposed()) return; if (memGC !is null) memGC.dispose(); if (type is DWT.ICON) { static if (OS.IsWinCE) data = null; OS.DestroyIcon (handle); } else { OS.DeleteObject (handle); } handle = null; memGC = null; if (device.tracking) device.dispose_Object(this); device = null; } /** * Compares the argument to the receiver, and returns true * if they represent the <em>same</em> object using a class * specific comparison. * * @param object the object to compare with this object * @return <code>true</code> if the object is the same as this object and <code>false</code> otherwise * * @see #hashCode */ override public int opEquals (Object object) { if (object is this) return true; if (!(cast(Image)object)) return false; Image image = cast(Image) object; return device is image.device && handle is image.handle; } /** * Returns the color to which to map the transparent pixel, or null if * the receiver has no transparent pixel. * <p> * There are certain uses of Images that do not support transparency * (for example, setting an image into a button or label). In these cases, * it may be desired to simulate transparency by using the background * color of the widget to paint the transparent pixels of the image. * Use this method to check which color will be used in these cases * in place of transparency. This value may be set with setBackground(). * <p> * * @return the background color of the image, or null if there is no transparency in the image * * @exception DWTException <ul> * <li>ERROR_GRAPHIC_DISPOSED - if the receiver has been disposed</li> * </ul> */ public Color getBackground() { if (isDisposed()) DWT.error(DWT.ERROR_GRAPHIC_DISPOSED); if (transparentPixel is -1) return null; /* Get the HDC for the device */ auto hDC = device.internal_new_GC(null); /* Compute the background color */ BITMAP bm; OS.GetObject(handle, BITMAP.sizeof, &bm); auto hdcMem = OS.CreateCompatibleDC(hDC); auto hOldObject = OS.SelectObject(hdcMem, handle); int red = 0, green = 0, blue = 0; if (bm.bmBitsPixel <= 8) { static if (OS.IsWinCE) { byte[1] pBits; OS.MoveMemory(pBits.ptr, bm.bmBits, 1); byte oldValue = pBits[0]; int mask = (0xFF << (8 - bm.bmBitsPixel)) & 0x00FF; pBits[0] = cast(byte)((transparentPixel << (8 - bm.bmBitsPixel)) | (pBits[0] & ~mask)); OS.MoveMemory(bm.bmBits, pBits.ptr, 1); int color = OS.GetPixel(hdcMem, 0, 0); pBits[0] = oldValue; OS.MoveMemory(bm.bmBits, pBits.ptr, 1); blue = (color & 0xFF0000) >> 16; green = (color & 0xFF00) >> 8; red = color & 0xFF; } else { RGBQUAD color; OS.GetDIBColorTable(hdcMem, transparentPixel, 1, &color); blue = color.rgbBlue; green = color.rgbGreen; red = color.rgbRed; } } else { switch (bm.bmBitsPixel) { case 16: blue = (transparentPixel & 0x1F) << 3; green = (transparentPixel & 0x3E0) >> 2; red = (transparentPixel & 0x7C00) >> 7; break; case 24: blue = (transparentPixel & 0xFF0000) >> 16; green = (transparentPixel & 0xFF00) >> 8; red = transparentPixel & 0xFF; break; case 32: blue = (transparentPixel & 0xFF000000) >>> 24; green = (transparentPixel & 0xFF0000) >> 16; red = (transparentPixel & 0xFF00) >> 8; break; default: return null; } } OS.SelectObject(hdcMem, hOldObject); OS.DeleteDC(hdcMem); /* Release the HDC for the device */ device.internal_dispose_GC(hDC, null); return Color.win32_new(device, (blue << 16) | (green << 8) | red); } /** * Returns the bounds of the receiver. The rectangle will always * have x and y values of 0, and the width and height of the * image. * * @return a rectangle specifying the image's bounds * * @exception DWTException <ul> * <li>ERROR_GRAPHIC_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_INVALID_IMAGE - if the image is not a bitmap or an icon</li> * </ul> */ public Rectangle getBounds() { if (isDisposed()) DWT.error(DWT.ERROR_GRAPHIC_DISPOSED); if (width !is -1 && height !is -1) { return new Rectangle(0, 0, width, height); } switch (type) { case DWT.BITMAP: BITMAP bm; OS.GetObject(handle, BITMAP.sizeof, &bm); return new Rectangle(0, 0, width = bm.bmWidth, height = bm.bmHeight); case DWT.ICON: static if (OS.IsWinCE) { return new Rectangle(0, 0, width = data.width, height = data.height); } else { ICONINFO info; OS.GetIconInfo(handle, &info); auto hBitmap = info.hbmColor; if (hBitmap is null) hBitmap = info.hbmMask; BITMAP bm; OS.GetObject(hBitmap, BITMAP.sizeof, &bm); if (hBitmap is info.hbmMask) bm.bmHeight /= 2; if (info.hbmColor !is null) OS.DeleteObject(info.hbmColor); if (info.hbmMask !is null) OS.DeleteObject(info.hbmMask); return new Rectangle(0, 0, width = bm.bmWidth, height = bm.bmHeight); } default: DWT.error(DWT.ERROR_INVALID_IMAGE); return null; } } /** * Returns an <code>ImageData</code> based on the receiver * Modifications made to this <code>ImageData</code> will not * affect the Image. * * @return an <code>ImageData</code> containing the image's data and attributes * * @exception DWTException <ul> * <li>ERROR_GRAPHIC_DISPOSED - if the receiver has been disposed</li> * <li>ERROR_INVALID_IMAGE - if the image is not a bitmap or an icon</li> * </ul> * * @see ImageData */ public ImageData getImageData() { if (isDisposed()) DWT.error(DWT.ERROR_GRAPHIC_DISPOSED); BITMAP bm; int depth, width, height; switch (type) { case DWT.ICON: { static if (OS.IsWinCE) return data; ICONINFO info; static if (OS.IsWinCE) DWT.error(DWT.ERROR_NOT_IMPLEMENTED); OS.GetIconInfo(handle, &info); /* Get the basic BITMAP information */ auto hBitmap = info.hbmColor; if (hBitmap is null) hBitmap = info.hbmMask; OS.GetObject(hBitmap, BITMAP.sizeof, &bm); depth = bm.bmPlanes * bm.bmBitsPixel; width = bm.bmWidth; if (hBitmap is info.hbmMask) bm.bmHeight /= 2; height = bm.bmHeight; int numColors = 0; if (depth <= 8) numColors = 1 << depth; /* Create the BITMAPINFO */ BITMAPINFOHEADER bmiHeader; bmiHeader.biSize = BITMAPINFOHEADER.sizeof; bmiHeader.biWidth = width; bmiHeader.biHeight = -height; bmiHeader.biPlanes = 1; bmiHeader.biBitCount = cast(short)depth; bmiHeader.biCompression = OS.BI_RGB; byte[] bmi = new byte[BITMAPINFOHEADER.sizeof + numColors * 4]; OS.MoveMemory(bmi.ptr, &bmiHeader, BITMAPINFOHEADER.sizeof); /* Get the HDC for the device */ auto hDC = device.internal_new_GC(null); /* Create the DC and select the bitmap */ auto hBitmapDC = OS.CreateCompatibleDC(hDC); auto hOldBitmap = OS.SelectObject(hBitmapDC, hBitmap); /* Select the palette if necessary */ HPALETTE oldPalette; if (depth <= 8) { auto hPalette = device.hPalette; if (hPalette !is null) { oldPalette = OS.SelectPalette(hBitmapDC, hPalette, false); OS.RealizePalette(hBitmapDC); } } /* Find the size of the image and allocate data */ int imageSize; /* Call with null lpBits to get the image size */ static if (OS.IsWinCE) DWT.error(DWT.ERROR_NOT_IMPLEMENTED); OS.GetDIBits(hBitmapDC, hBitmap, 0, height, null, cast(BITMAPINFO*)bmi.ptr, OS.DIB_RGB_COLORS); OS.MoveMemory(&bmiHeader, bmi.ptr, BITMAPINFOHEADER.sizeof); imageSize = bmiHeader.biSizeImage; byte[] data = new byte[imageSize]; /* Get the bitmap data */ auto hHeap = OS.GetProcessHeap(); auto lpvBits = cast(byte*) OS.HeapAlloc(hHeap, OS.HEAP_ZERO_MEMORY, imageSize); if (lpvBits is null) DWT.error(DWT.ERROR_NO_HANDLES); static if (OS.IsWinCE) DWT.error(DWT.ERROR_NOT_IMPLEMENTED); OS.GetDIBits(hBitmapDC, hBitmap, 0, height, lpvBits, cast(BITMAPINFO*)bmi.ptr, OS.DIB_RGB_COLORS); OS.MoveMemory(data.ptr, lpvBits, imageSize); /* Calculate the palette */ PaletteData palette = null; if (depth <= 8) { RGB[] rgbs = new RGB[numColors]; int srcIndex = 40; for (int i = 0; i < numColors; i++) { rgbs[i] = new RGB(bmi[srcIndex + 2] & 0xFF, bmi[srcIndex + 1] & 0xFF, bmi[srcIndex] & 0xFF); srcIndex += 4; } palette = new PaletteData(rgbs); } else if (depth is 16) { palette = new PaletteData(0x7C00, 0x3E0, 0x1F); } else if (depth is 24) { palette = new PaletteData(0xFF, 0xFF00, 0xFF0000); } else if (depth is 32) { palette = new PaletteData(0xFF00, 0xFF0000, 0xFF000000); } else { DWT.error(DWT.ERROR_UNSUPPORTED_DEPTH); } /* Do the mask */ byte [] maskData = null; if (info.hbmColor is null) { /* Do the bottom half of the mask */ static if (OS.IsWinCE) DWT.error(DWT.ERROR_NOT_IMPLEMENTED); OS.GetDIBits(hBitmapDC, hBitmap, height, height, lpvBits, cast(BITMAPINFO*)bmi.ptr, OS.DIB_RGB_COLORS); OS.MoveMemory(maskData.ptr, lpvBits, imageSize); } else { /* Do the entire mask */ /* Create the BITMAPINFO */ bmiHeader = BITMAPINFOHEADER.init; bmiHeader.biSize = BITMAPINFOHEADER.sizeof; bmiHeader.biWidth = width; bmiHeader.biHeight = -height; bmiHeader.biPlanes = 1; bmiHeader.biBitCount = 1; bmiHeader.biCompression = OS.BI_RGB; bmi = new byte[BITMAPINFOHEADER.sizeof + 8]; OS.MoveMemory(bmi.ptr, &bmiHeader, BITMAPINFOHEADER.sizeof); /* First color black, second color white */ int offset = BITMAPINFOHEADER.sizeof; bmi[offset + 4] = bmi[offset + 5] = bmi[offset + 6] = cast(byte)0xFF; bmi[offset + 7] = 0; OS.SelectObject(hBitmapDC, info.hbmMask); /* Call with null lpBits to get the image size */ static if (OS.IsWinCE) DWT.error(DWT.ERROR_NOT_IMPLEMENTED); OS.GetDIBits(hBitmapDC, info.hbmMask, 0, height, null, cast(BITMAPINFO*)bmi.ptr, OS.DIB_RGB_COLORS); OS.MoveMemory(&bmiHeader, bmi.ptr, BITMAPINFOHEADER.sizeof); imageSize = bmiHeader.biSizeImage; maskData = new byte[imageSize]; auto lpvMaskBits = OS.HeapAlloc(hHeap, OS.HEAP_ZERO_MEMORY, imageSize); if (lpvMaskBits is null) DWT.error(DWT.ERROR_NO_HANDLES); static if (OS.IsWinCE) DWT.error(DWT.ERROR_NOT_IMPLEMENTED); OS.GetDIBits(hBitmapDC, info.hbmMask, 0, height, lpvMaskBits, cast(BITMAPINFO*)bmi.ptr, OS.DIB_RGB_COLORS); OS.MoveMemory(maskData.ptr, lpvMaskBits, imageSize); OS.HeapFree(hHeap, 0, lpvMaskBits); /* Loop to invert the mask */ for (int i = 0; i < maskData.length; i++) { maskData[i] ^= -1; } /* Make sure mask scanlinePad is 2 */ int maskPad; int bpl = imageSize / height; for (maskPad = 1; maskPad < 128; maskPad++) { int calcBpl = (((width + 7) / 8) + (maskPad - 1)) / maskPad * maskPad; if (calcBpl is bpl) break; } maskData = ImageData.convertPad(maskData, width, height, 1, maskPad, 2); } /* Clean up */ OS.HeapFree(hHeap, 0, lpvBits); OS.SelectObject(hBitmapDC, hOldBitmap); if (oldPalette !is null) { OS.SelectPalette(hBitmapDC, oldPalette, false); OS.RealizePalette(hBitmapDC); } OS.DeleteDC(hBitmapDC); /* Release the HDC for the device */ device.internal_dispose_GC(hDC, null); if (info.hbmColor !is null) OS.DeleteObject(info.hbmColor); if (info.hbmMask !is null) OS.DeleteObject(info.hbmMask); /* Construct and return the ImageData */ ImageData imageData = new ImageData(width, height, depth, palette, 4, data); imageData.maskData = maskData; imageData.maskPad = 2; return imageData; } case DWT.BITMAP: { /* Get the basic BITMAP information */ bm = BITMAP.init; OS.GetObject(handle, BITMAP.sizeof, &bm); depth = bm.bmPlanes * bm.bmBitsPixel; width = bm.bmWidth; height = bm.bmHeight; /* Find out whether this is a DIB or a DDB. */ bool isDib = (bm.bmBits !is null); /* Get the HDC for the device */ auto hDC = device.internal_new_GC(null); /* * Feature in WinCE. GetDIBits is not available in WinCE. The * workaround is to create a temporary DIB from the DDB and use * the bmBits field of DIBSECTION to retrieve the image data. */ auto handle = this.handle; static if (OS.IsWinCE) { if (!isDib) { bool mustRestore = false; if (memGC !is null && !memGC.isDisposed()) { memGC.flush (); mustRestore = true; GCData data = memGC.data; if (data.hNullBitmap !is null) { OS.SelectObject(memGC.handle, data.hNullBitmap); data.hNullBitmap = null; } } handle = createDIBFromDDB(hDC, this.handle, width, height); if (mustRestore) { auto hOldBitmap = OS.SelectObject(memGC.handle, this.handle); memGC.data.hNullBitmap = hOldBitmap; } isDib = true; } } DIBSECTION dib; if (isDib) { OS.GetObject(handle, DIBSECTION.sizeof, &dib); } /* Calculate number of colors */ int numColors = 0; if (depth <= 8) { if (isDib) { numColors = dib.biClrUsed; } else { numColors = 1 << depth; } } /* Create the BITMAPINFO */ byte[] bmi = null; BITMAPINFOHEADER bmiHeader; if (!isDib) { bmiHeader.biSize = BITMAPINFOHEADER.sizeof; bmiHeader.biWidth = width; bmiHeader.biHeight = -height; bmiHeader.biPlanes = 1; bmiHeader.biBitCount = cast(short)depth; bmiHeader.biCompression = OS.BI_RGB; bmi = new byte[BITMAPINFOHEADER.sizeof + numColors * 4]; OS.MoveMemory(bmi.ptr, &bmiHeader, BITMAPINFOHEADER.sizeof); } /* Create the DC and select the bitmap */ auto hBitmapDC = OS.CreateCompatibleDC(hDC); auto hOldBitmap = OS.SelectObject(hBitmapDC, handle); /* Select the palette if necessary */ HPALETTE oldPalette; if (!isDib && depth <= 8) { auto hPalette = device.hPalette; if (hPalette !is null) { oldPalette = OS.SelectPalette(hBitmapDC, hPalette, false); OS.RealizePalette(hBitmapDC); } } /* Find the size of the image and allocate data */ int imageSize; if (isDib) { imageSize = dib.biSizeImage; } else { /* Call with null lpBits to get the image size */ static if (OS.IsWinCE) DWT.error(DWT.ERROR_NOT_IMPLEMENTED); OS.GetDIBits(hBitmapDC, handle, 0, height, null, cast(BITMAPINFO*)bmi.ptr, OS.DIB_RGB_COLORS); OS.MoveMemory(&bmiHeader, bmi.ptr, BITMAPINFOHEADER.sizeof); imageSize = bmiHeader.biSizeImage; } byte[] data = new byte[imageSize]; /* Get the bitmap data */ if (isDib) { if (OS.IsWinCE) { if (this.handle !is handle) { /* get image data from the temporary DIB */ OS.MoveMemory(data.ptr, dib.bmBits, imageSize); } } else { OS.MoveMemory(data.ptr, bm.bmBits, imageSize); } } else { auto hHeap = OS.GetProcessHeap(); auto lpvBits = OS.HeapAlloc(hHeap, OS.HEAP_ZERO_MEMORY, imageSize); if (lpvBits is null) DWT.error(DWT.ERROR_NO_HANDLES); static if (OS.IsWinCE) DWT.error(DWT.ERROR_NOT_IMPLEMENTED); OS.GetDIBits(hBitmapDC, handle, 0, height, lpvBits, cast(BITMAPINFO*)bmi.ptr, OS.DIB_RGB_COLORS); OS.MoveMemory(data.ptr, lpvBits, imageSize); OS.HeapFree(hHeap, 0, lpvBits); } /* Calculate the palette */ PaletteData palette = null; if (depth <= 8) { RGB[] rgbs = new RGB[numColors]; if (isDib) { static if (OS.IsWinCE) { /* * Feature on WinCE. GetDIBColorTable is not supported. * The workaround is to set a pixel to the desired * palette index and use getPixel to get the corresponding * RGB value. */ int red = 0, green = 0, blue = 0; byte[1] pBits; OS.MoveMemory(pBits.ptr, bm.bmBits, 1); byte oldValue = pBits[0]; int mask = (0xFF << (8 - bm.bmBitsPixel)) & 0x00FF; for (int i = 0; i < numColors; i++) { pBits[0] = cast(byte)((i << (8 - bm.bmBitsPixel)) | (pBits[0] & ~mask)); OS.MoveMemory(bm.bmBits, pBits.ptr, 1); int color = OS.GetPixel(hBitmapDC, 0, 0); blue = (color & 0xFF0000) >> 16; green = (color & 0xFF00) >> 8; red = color & 0xFF; rgbs[i] = new RGB(red, green, blue); } pBits[0] = oldValue; OS.MoveMemory(bm.bmBits, pBits.ptr, 1); } else { byte[] colors = new byte[numColors * 4]; OS.GetDIBColorTable(hBitmapDC, 0, numColors, cast(RGBQUAD*)colors.ptr); int colorIndex = 0; for (int i = 0; i < rgbs.length; i++) { rgbs[i] = new RGB(colors[colorIndex + 2] & 0xFF, colors[colorIndex + 1] & 0xFF, colors[colorIndex] & 0xFF); colorIndex += 4; } } } else { int srcIndex = BITMAPINFOHEADER.sizeof; for (int i = 0; i < numColors; i++) { rgbs[i] = new RGB(bmi[srcIndex + 2] & 0xFF, bmi[srcIndex + 1] & 0xFF, bmi[srcIndex] & 0xFF); srcIndex += 4; } } palette = new PaletteData(rgbs); } else if (depth is 16) { palette = new PaletteData(0x7C00, 0x3E0, 0x1F); } else if (depth is 24) { palette = new PaletteData(0xFF, 0xFF00, 0xFF0000); } else if (depth is 32) { palette = new PaletteData(0xFF00, 0xFF0000, 0xFF000000); } else { DWT.error(DWT.ERROR_UNSUPPORTED_DEPTH); } /* Clean up */ OS.SelectObject(hBitmapDC, hOldBitmap); if (oldPalette !is null) { OS.SelectPalette(hBitmapDC, oldPalette, false); OS.RealizePalette(hBitmapDC); } static if (OS.IsWinCE) { if (handle !is this.handle) { /* free temporary DIB */ OS.DeleteObject (handle); } } OS.DeleteDC(hBitmapDC); /* Release the HDC for the device */ device.internal_dispose_GC(hDC, null); /* Construct and return the ImageData */ ImageData imageData = new ImageData(width, height, depth, palette, 4, data); imageData.transparentPixel = this.transparentPixel; imageData.alpha = alpha; if (alpha is -1 && alphaData !is null) { imageData.alphaData = new byte[alphaData.length]; System.arraycopy(alphaData, 0, imageData.alphaData, 0, alphaData.length); } return imageData; } default: DWT.error(DWT.ERROR_INVALID_IMAGE); return null; } } /** * Returns an integer hash code for the receiver. Any two * objects that return <code>true</code> when passed to * <code>equals</code> must return the same value for this * method. * * @return the receiver's hash * * @see #equals */ override public hash_t toHash () { return cast(hash_t)handle; } void init(Device device, int width, int height) { if (width <= 0 || height <= 0) { DWT.error (DWT.ERROR_INVALID_ARGUMENT); } this.device = device; type = DWT.BITMAP; auto hDC = device.internal_new_GC(null); handle = OS.CreateCompatibleBitmap(hDC, width, height); /* * Feature in Windows. CreateCompatibleBitmap() may fail * for large images. The fix is to create a DIB section * in that case. */ if (handle is null) { int bits = OS.GetDeviceCaps(hDC, OS.BITSPIXEL); int planes = OS.GetDeviceCaps(hDC, OS.PLANES); int depth = bits * planes; if (depth < 16) depth = 16; handle = createDIB(width, height, depth); } if (handle !is null) { auto memDC = OS.CreateCompatibleDC(hDC); auto hOldBitmap = OS.SelectObject(memDC, handle); OS.PatBlt(memDC, 0, 0, width, height, OS.PATCOPY); OS.SelectObject(memDC, hOldBitmap); OS.DeleteDC(memDC); } device.internal_dispose_GC(hDC, null); if (handle is null) { DWT.error(DWT.ERROR_NO_HANDLES, null, device.getLastError()); } } static HGDIOBJ createDIB(int width, int height, int depth) { BITMAPINFOHEADER bmiHeader; bmiHeader.biSize = BITMAPINFOHEADER.sizeof; bmiHeader.biWidth = width; bmiHeader.biHeight = -height; bmiHeader.biPlanes = 1; bmiHeader.biBitCount = cast(short)depth; static if (OS.IsWinCE) bmiHeader.biCompression = OS.BI_BITFIELDS; else bmiHeader.biCompression = OS.BI_RGB; byte[] bmi = new byte[BITMAPINFOHEADER.sizeof + (OS.IsWinCE ? 12 : 0)]; OS.MoveMemory(bmi.ptr, &bmiHeader, BITMAPINFOHEADER.sizeof); /* Set the rgb colors into the bitmap info */ static if (OS.IsWinCE) { int redMask = 0xFF00; int greenMask = 0xFF0000; int blueMask = 0xFF000000; /* big endian */ int offset = BITMAPINFOHEADER.sizeof; bmi[offset] = cast(byte)((redMask & 0xFF000000) >> 24); bmi[offset + 1] = cast(byte)((redMask & 0xFF0000) >> 16); bmi[offset + 2] = cast(byte)((redMask & 0xFF00) >> 8); bmi[offset + 3] = cast(byte)((redMask & 0xFF) >> 0); bmi[offset + 4] = cast(byte)((greenMask & 0xFF000000) >> 24); bmi[offset + 5] = cast(byte)((greenMask & 0xFF0000) >> 16); bmi[offset + 6] = cast(byte)((greenMask & 0xFF00) >> 8); bmi[offset + 7] = cast(byte)((greenMask & 0xFF) >> 0); bmi[offset + 8] = cast(byte)((blueMask & 0xFF000000) >> 24); bmi[offset + 9] = cast(byte)((blueMask & 0xFF0000) >> 16); bmi[offset + 10] = cast(byte)((blueMask & 0xFF00) >> 8); bmi[offset + 11] = cast(byte)((blueMask & 0xFF) >> 0); } int[1] pBits; return OS.CreateDIBSection(null, cast(BITMAPINFO*)bmi.ptr, OS.DIB_RGB_COLORS, pBits.ptr, null, 0); } /** * Feature in WinCE. GetIconInfo is not available in WinCE. * The workaround is to cache the object ImageData for images * of type DWT.ICON. The bitmaps hbmMask and hbmColor can then * be reconstructed by using our version of getIconInfo. * This function takes an ICONINFO object and sets the fields * hbmMask and hbmColor with the corresponding bitmaps it has * created. * Note. These bitmaps must be freed - as they would have to be * if the regular GetIconInfo had been used. */ static void GetIconInfo(Image image, ICONINFO* info) { int[] result = init(image.device, null, image.data); info.hbmColor = cast(HBITMAP)result[0]; info.hbmMask = cast(HBITMAP)result[1]; } static int[] init(Device device, Image image, ImageData i) { if (image !is null) image.device = device; /* * BUG in Windows 98: * A monochrome DIBSection will display as solid black * on Windows 98 machines, even though it contains the * correct data. The fix is to convert 1-bit ImageData * into 4-bit ImageData before creating the image. */ /* Windows does not support 2-bit images. Convert to 4-bit image. */ if ((OS.IsWin95 && i.depth is 1 && i.getTransparencyType() !is DWT.TRANSPARENCY_MASK) || i.depth is 2) { ImageData img = new ImageData(i.width, i.height, 4, i.palette); ImageData.blit(ImageData.BLIT_SRC, i.data, i.depth, i.bytesPerLine, i.getByteOrder(), 0, 0, i.width, i.height, null, null, null, ImageData.ALPHA_OPAQUE, null, 0, 0, 0, img.data, img.depth, img.bytesPerLine, i.getByteOrder(), 0, 0, img.width, img.height, null, null, null, false, false); img.transparentPixel = i.transparentPixel; img.maskPad = i.maskPad; img.maskData = i.maskData; img.alpha = i.alpha; img.alphaData = i.alphaData; i = img; } /* * Windows supports 16-bit mask of (0x7C00, 0x3E0, 0x1F), * 24-bit mask of (0xFF0000, 0xFF00, 0xFF) and 32-bit mask * (0x00FF0000, 0x0000FF00, 0x000000FF) as documented in * MSDN BITMAPINFOHEADER. Make sure the image is * Windows-supported. */ /* * Note on WinCE. CreateDIBSection requires the biCompression * field of the BITMAPINFOHEADER to be set to BI_BITFIELDS for * 16 and 32 bit direct images (see MSDN for CreateDIBSection). * In this case, the color mask can be set to any value. For * consistency, it is set to the same mask used by non WinCE * platforms in BI_RGB mode. */ if (i.palette.isDirect) { final PaletteData palette = i.palette; final int redMask = palette.redMask; final int greenMask = palette.greenMask; final int blueMask = palette.blueMask; int newDepth = i.depth; int newOrder = ImageData.MSB_FIRST; PaletteData newPalette = null; switch (i.depth) { case 8: newDepth = 16; newOrder = ImageData.LSB_FIRST; newPalette = new PaletteData(0x7C00, 0x3E0, 0x1F); break; case 16: newOrder = ImageData.LSB_FIRST; if (!(redMask is 0x7C00 && greenMask is 0x3E0 && blueMask is 0x1F)) { newPalette = new PaletteData(0x7C00, 0x3E0, 0x1F); } break; case 24: if (!(redMask is 0xFF && greenMask is 0xFF00 && blueMask is 0xFF0000)) { newPalette = new PaletteData(0xFF, 0xFF00, 0xFF0000); } break; case 32: if (!(redMask is 0xFF00 && greenMask is 0xFF0000 && blueMask is 0xFF000000)) { newPalette = new PaletteData(0xFF00, 0xFF0000, 0xFF000000); } break; default: DWT.error(DWT.ERROR_UNSUPPORTED_DEPTH); } if (newPalette !is null) { ImageData img = new ImageData(i.width, i.height, newDepth, newPalette); ImageData.blit(ImageData.BLIT_SRC, i.data, i.depth, i.bytesPerLine, i.getByteOrder(), 0, 0, i.width, i.height, redMask, greenMask, blueMask, ImageData.ALPHA_OPAQUE, null, 0, 0, 0, img.data, img.depth, img.bytesPerLine, newOrder, 0, 0, img.width, img.height, newPalette.redMask, newPalette.greenMask, newPalette.blueMask, false, false); if (i.transparentPixel !is -1) { img.transparentPixel = newPalette.getPixel(palette.getRGB(i.transparentPixel)); } img.maskPad = i.maskPad; img.maskData = i.maskData; img.alpha = i.alpha; img.alphaData = i.alphaData; i = img; } } /* Construct bitmap info header by hand */ RGB[] rgbs = i.palette.getRGBs(); bool useBitfields = OS.IsWinCE && (i.depth is 16 || i.depth is 32); BITMAPINFOHEADER bmiHeader; bmiHeader.biSize = BITMAPINFOHEADER.sizeof; bmiHeader.biWidth = i.width; bmiHeader.biHeight = -i.height; bmiHeader.biPlanes = 1; bmiHeader.biBitCount = cast(short)i.depth; if (useBitfields) bmiHeader.biCompression = OS.BI_BITFIELDS; else bmiHeader.biCompression = OS.BI_RGB; bmiHeader.biClrUsed = rgbs is null ? 0 : rgbs.length; byte[] bmi; if (i.palette.isDirect) bmi = new byte[BITMAPINFOHEADER.sizeof + (useBitfields ? 12 : 0)]; else bmi = new byte[BITMAPINFOHEADER.sizeof + rgbs.length * 4]; OS.MoveMemory(bmi.ptr, &bmiHeader, BITMAPINFOHEADER.sizeof); /* Set the rgb colors into the bitmap info */ int offset = BITMAPINFOHEADER.sizeof; if (i.palette.isDirect) { if (useBitfields) { PaletteData palette = i.palette; int redMask = palette.redMask; int greenMask = palette.greenMask; int blueMask = palette.blueMask; /* * The color masks must be written based on the * endianness of the ImageData. */ if (i.getByteOrder() is ImageData.LSB_FIRST) { bmi[offset] = cast(byte)((redMask & 0xFF) >> 0); bmi[offset + 1] = cast(byte)((redMask & 0xFF00) >> 8); bmi[offset + 2] = cast(byte)((redMask & 0xFF0000) >> 16); bmi[offset + 3] = cast(byte)((redMask & 0xFF000000) >> 24); bmi[offset + 4] = cast(byte)((greenMask & 0xFF) >> 0); bmi[offset + 5] = cast(byte)((greenMask & 0xFF00) >> 8); bmi[offset + 6] = cast(byte)((greenMask & 0xFF0000) >> 16); bmi[offset + 7] = cast(byte)((greenMask & 0xFF000000) >> 24); bmi[offset + 8] = cast(byte)((blueMask & 0xFF) >> 0); bmi[offset + 9] = cast(byte)((blueMask & 0xFF00) >> 8); bmi[offset + 10] = cast(byte)((blueMask & 0xFF0000) >> 16); bmi[offset + 11] = cast(byte)((blueMask & 0xFF000000) >> 24); } else { bmi[offset] = cast(byte)((redMask & 0xFF000000) >> 24); bmi[offset + 1] = cast(byte)((redMask & 0xFF0000) >> 16); bmi[offset + 2] = cast(byte)((redMask & 0xFF00) >> 8); bmi[offset + 3] = cast(byte)((redMask & 0xFF) >> 0); bmi[offset + 4] = cast(byte)((greenMask & 0xFF000000) >> 24); bmi[offset + 5] = cast(byte)((greenMask & 0xFF0000) >> 16); bmi[offset + 6] = cast(byte)((greenMask & 0xFF00) >> 8); bmi[offset + 7] = cast(byte)((greenMask & 0xFF) >> 0); bmi[offset + 8] = cast(byte)((blueMask & 0xFF000000) >> 24); bmi[offset + 9] = cast(byte)((blueMask & 0xFF0000) >> 16); bmi[offset + 10] = cast(byte)((blueMask & 0xFF00) >> 8); bmi[offset + 11] = cast(byte)((blueMask & 0xFF) >> 0); } } } else { for (int j = 0; j < rgbs.length; j++) { bmi[offset] = cast(byte)rgbs[j].blue; bmi[offset + 1] = cast(byte)rgbs[j].green; bmi[offset + 2] = cast(byte)rgbs[j].red; bmi[offset + 3] = 0; offset += 4; } } void* pBits; auto hDib = OS.CreateDIBSection(null, cast(BITMAPINFO*)bmi.ptr, OS.DIB_RGB_COLORS, &pBits, null, 0); if (hDib is null) DWT.error(DWT.ERROR_NO_HANDLES); /* In case of a scanline pad other than 4, do the work to convert it */ byte[] data = i.data; if (i.scanlinePad !is 4 && (i.bytesPerLine % 4 !is 0)) { data = ImageData.convertPad(data, i.width, i.height, i.depth, i.scanlinePad, 4); } OS.MoveMemory(pBits, data.ptr, data.length); int[] result = null; if (i.getTransparencyType() is DWT.TRANSPARENCY_MASK) { /* Get the HDC for the device */ auto hDC = device.internal_new_GC(null); /* Create the color bitmap */ auto hdcSrc = OS.CreateCompatibleDC(hDC); OS.SelectObject(hdcSrc, hDib); auto hBitmap = OS.CreateCompatibleBitmap(hDC, i.width, i.height); if (hBitmap is null) DWT.error(DWT.ERROR_NO_HANDLES); auto hdcDest = OS.CreateCompatibleDC(hDC); OS.SelectObject(hdcDest, hBitmap); OS.BitBlt(hdcDest, 0, 0, i.width, i.height, hdcSrc, 0, 0, OS.SRCCOPY); /* Release the HDC for the device */ device.internal_dispose_GC(hDC, null); /* Create the mask. Windows requires icon masks to have a scanline pad of 2. */ byte[] maskData = ImageData.convertPad(i.maskData, i.width, i.height, 1, i.maskPad, 2); auto hMask = OS.CreateBitmap(i.width, i.height, 1, 1, maskData.ptr); if (hMask is null) DWT.error(DWT.ERROR_NO_HANDLES); OS.SelectObject(hdcSrc, hMask); OS.PatBlt(hdcSrc, 0, 0, i.width, i.height, OS.DSTINVERT); OS.DeleteDC(hdcSrc); OS.DeleteDC(hdcDest); OS.DeleteObject(hDib); if (image is null) { result = [ cast(int) hBitmap, cast(int) hMask]; } else { /* Create the icon */ ICONINFO info; info.fIcon = true; info.hbmColor = hBitmap; info.hbmMask = hMask; auto hIcon = OS.CreateIconIndirect(&info); if (hIcon is null) DWT.error(DWT.ERROR_NO_HANDLES); OS.DeleteObject(hBitmap); OS.DeleteObject(hMask); image.handle = hIcon; image.type = DWT.ICON; static if (OS.IsWinCE) image.data = i; } } else { if (image is null) { result = [ cast(int) hDib]; } else { image.handle = hDib; image.type = DWT.BITMAP; image.transparentPixel = i.transparentPixel; if (image.transparentPixel is -1) { image.alpha = i.alpha; if (i.alpha is -1 && i.alphaData !is null) { int length = i.alphaData.length; image.alphaData = new byte[length]; System.arraycopy(i.alphaData, 0, image.alphaData, 0, length); } } } } return result; } static int[] init(Device device, Image image, ImageData source, ImageData mask) { /* Create a temporary image and locate the black pixel */ ImageData imageData; int blackIndex = 0; if (source.palette.isDirect) { imageData = new ImageData(source.width, source.height, source.depth, source.palette); } else { RGB black = new RGB(0, 0, 0); RGB[] rgbs = source.getRGBs(); if (source.transparentPixel !is -1) { /* * The source had transparency, so we can use the transparent pixel * for black. */ RGB[] newRGBs = new RGB[rgbs.length]; System.arraycopy(rgbs, 0, newRGBs, 0, rgbs.length); if (source.transparentPixel >= newRGBs.length) { /* Grow the palette with black */ rgbs = new RGB[source.transparentPixel + 1]; System.arraycopy(newRGBs, 0, rgbs, 0, newRGBs.length); for (int i = newRGBs.length; i <= source.transparentPixel; i++) { rgbs[i] = new RGB(0, 0, 0); } } else { newRGBs[source.transparentPixel] = black; rgbs = newRGBs; } blackIndex = source.transparentPixel; imageData = new ImageData(source.width, source.height, source.depth, new PaletteData(rgbs)); } else { while (blackIndex < rgbs.length) { if (rgbs[blackIndex] ==/*eq*/ black) break; blackIndex++; } if (blackIndex is rgbs.length) { /* * We didn't find black in the palette, and there is no transparent * pixel we can use. */ if ((1 << source.depth) > rgbs.length) { /* We can grow the palette and add black */ RGB[] newRGBs = new RGB[rgbs.length + 1]; System.arraycopy(rgbs, 0, newRGBs, 0, rgbs.length); newRGBs[rgbs.length] = black; rgbs = newRGBs; } else { /* No room to grow the palette */ blackIndex = -1; } } imageData = new ImageData(source.width, source.height, source.depth, new PaletteData(rgbs)); } } if (blackIndex is -1) { /* There was no black in the palette, so just copy the data over */ System.arraycopy(source.data, 0, imageData.data, 0, imageData.data.length); } else { /* Modify the source image to contain black wherever the mask is 0 */ int[] imagePixels = new int[imageData.width]; int[] maskPixels = new int[mask.width]; for (int y = 0; y < imageData.height; y++) { source.getPixels(0, y, imageData.width, imagePixels, 0); mask.getPixels(0, y, mask.width, maskPixels, 0); for (int i = 0; i < imagePixels.length; i++) { if (maskPixels[i] is 0) imagePixels[i] = blackIndex; } imageData.setPixels(0, y, source.width, imagePixels, 0); } } imageData.maskPad = mask.scanlinePad; imageData.maskData = mask.data; return init(device, image, imageData); } void init(Device device, ImageData i) { if (i is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); init(device, this, i); } /** * Invokes platform specific functionality to allocate a new GC handle. * <p> * <b>IMPORTANT:</b> This method is <em>not</em> part of the public * API for <code>Image</code>. It is marked public only so that it * can be shared within the packages provided by DWT. It is not * available on all platforms, and should never be called from * application code. * </p> * * @param data the platform specific GC data * @return the platform specific GC handle */ public HDC internal_new_GC (GCData data) { if (handle is null) DWT.error(DWT.ERROR_GRAPHIC_DISPOSED); /* * Create a new GC that can draw into the image. * Only supported for bitmaps. */ if (type !is DWT.BITMAP || memGC !is null) { DWT.error(DWT.ERROR_INVALID_ARGUMENT); } /* Create a compatible HDC for the device */ auto hDC = device.internal_new_GC(null); auto imageDC = OS.CreateCompatibleDC(hDC); device.internal_dispose_GC(hDC, null); if (imageDC is null) DWT.error(DWT.ERROR_NO_HANDLES); if (data !is null) { /* Set the GCData fields */ int mask = DWT.LEFT_TO_RIGHT | DWT.RIGHT_TO_LEFT; if ((data.style & mask) !is 0) { data.layout = (data.style & DWT.RIGHT_TO_LEFT) !is 0 ? OS.LAYOUT_RTL : 0; } else { data.style |= DWT.LEFT_TO_RIGHT; } data.device = device; data.image = this; data.hFont = device.systemFont; } return imageDC; } /** * Invokes platform specific functionality to dispose a GC handle. * <p> * <b>IMPORTANT:</b> This method is <em>not</em> part of the public * API for <code>Image</code>. It is marked public only so that it * can be shared within the packages provided by DWT. It is not * available on all platforms, and should never be called from * application code. * </p> * * @param hDC the platform specific GC handle * @param data the platform specific GC data */ public void internal_dispose_GC (HDC hDC, GCData data) { OS.DeleteDC(hDC); } /** * Returns <code>true</code> if the image has been disposed, * and <code>false</code> otherwise. * <p> * This method gets the dispose state for the image. * When an image has been disposed, it is an error to * invoke any other method using the image. * * @return <code>true</code> when the image is disposed and <code>false</code> otherwise */ override public bool isDisposed() { return handle is null; } /** * Sets the color to which to map the transparent pixel. * <p> * There are certain uses of <code>Images</code> that do not support * transparency (for example, setting an image into a button or label). * In these cases, it may be desired to simulate transparency by using * the background color of the widget to paint the transparent pixels * of the image. This method specifies the color that will be used in * these cases. For example: * <pre> * Button b = new Button(); * image.setBackground(b.getBackground()); * b.setImage(image); * </pre> * </p><p> * The image may be modified by this operation (in effect, the * transparent regions may be filled with the supplied color). Hence * this operation is not reversible and it is not legal to call * this function twice or with a null argument. * </p><p> * This method has no effect if the receiver does not have a transparent * pixel value. * </p> * * @param color the color to use when a transparent pixel is specified * * @exception IllegalArgumentException <ul> * <li>ERROR_NULL_ARGUMENT - if the color is null</li> * <li>ERROR_INVALID_ARGUMENT - if the color has been disposed</li> * </ul> * @exception DWTException <ul> * <li>ERROR_GRAPHIC_DISPOSED - if the receiver has been disposed</li> * </ul> */ public void setBackground(Color color) { /* * Note. Not implemented on WinCE. */ static if (OS.IsWinCE) return; if (isDisposed()) DWT.error(DWT.ERROR_GRAPHIC_DISPOSED); if (color is null) DWT.error(DWT.ERROR_NULL_ARGUMENT); if (color.isDisposed()) DWT.error(DWT.ERROR_INVALID_ARGUMENT); if (transparentPixel is -1) return; /* Get the HDC for the device */ auto hDC = device.internal_new_GC(null); /* Change the background color in the image */ BITMAP bm; OS.GetObject(handle, BITMAP.sizeof, &bm); auto hdcMem = OS.CreateCompatibleDC(hDC); OS.SelectObject(hdcMem, handle); int maxColors = 1 << bm.bmBitsPixel; byte[] colors = new byte[maxColors * 4]; static if (OS.IsWinCE) DWT.error(DWT.ERROR_NOT_IMPLEMENTED); int numColors = OS.GetDIBColorTable(hdcMem, 0, maxColors, cast(RGBQUAD*)colors.ptr); int offset = transparentPixel * 4; colors[offset] = cast(byte)color.getBlue(); colors[offset + 1] = cast(byte)color.getGreen(); colors[offset + 2] = cast(byte)color.getRed(); static if (OS.IsWinCE) DWT.error(DWT.ERROR_NOT_IMPLEMENTED); OS.SetDIBColorTable(hdcMem, 0, numColors, cast(RGBQUAD*)colors.ptr); OS.DeleteDC(hdcMem); /* Release the HDC for the device */ device.internal_dispose_GC(hDC, null); } /** * Returns a string containing a concise, human-readable * description of the receiver. * * @return a string representation of the receiver */ override public char[] toString () { if (isDisposed()) return "Image {*DISPOSED*}"; return Format( "Image {{{}}", handle ); } /** * Invokes platform specific functionality to allocate a new image. * <p> * <b>IMPORTANT:</b> This method is <em>not</em> part of the public * API for <code>Image</code>. It is marked public only so that it * can be shared within the packages provided by DWT. It is not * available on all platforms, and should never be called from * application code. * </p> * * @param device the device on which to allocate the color * @param type the type of the image (<code>DWT.BITMAP</code> or <code>DWT.ICON</code>) * @param handle the OS handle for the image * @return a new image object containing the specified device, type and handle */ public static Image win32_new(Device device, int type, HGDIOBJ handle) { if (device is null) device = Device.getDevice(); Image image = new Image(); image.type = type; image.handle = handle; image.device = device; return image; } }