gcc/libjava/gnu/awt/xlib/XGraphicsConfiguration.java

/* Copyright (C) 2000, 2003  Free Software Foundation

   This file is part of libgcj.

This software is copyrighted work licensed under the terms of the
Libgcj License.  Please consult the file "LIBGCJ_LICENSE" for
details.  */

package gnu.awt.xlib;

import java.awt.GraphicsConfiguration;
import java.awt.Rectangle;
import java.awt.Graphics2D;
import java.awt.Graphics;
import java.awt.GraphicsDevice;
import java.awt.Point;
import java.awt.Color;
import java.awt.color.ColorSpace;
import java.awt.image.*;
import java.awt.geom.AffineTransform;
import gnu.gcj.xlib.GC;
import gnu.gcj.xlib.Drawable;
import gnu.gcj.xlib.Window;
import gnu.gcj.xlib.XImage;
import gnu.gcj.xlib.Visual;
import gnu.gcj.xlib.Colormap;
import gnu.gcj.xlib.XColor;
import gnu.gcj.xlib.Screen;
import gnu.gcj.xlib.Display;
import gnu.java.awt.Buffers;
import java.util.Hashtable;

public class XGraphicsConfiguration extends GraphicsConfiguration
{
  //public abstract GraphicsDevice getDevice();
  
  Visual visual;
  int format;
  Colormap colormap;
  ColorModel imageCM;
  ColorModel pixelCM;
  
  public XGraphicsConfiguration(Visual visual)
  {
    this.visual = visual;
  }

  public BufferedImage createCompatibleImage(int width, int height)
  {
    XImage ximg = new XImage(visual, width, height,
			     false // do not auto allocate memory
			     );

    Point origin = new Point(0, 0);
    WritableRaster raster = createRasterForXImage(ximg, origin);

    /* This is not a good way of doing this. Multiple toolkits may
       want to share the BufferedImage. */
    Hashtable props = new Hashtable();
    props.put("gnu.gcj.xlib.XImage", ximg);
    props.put("java.awt.GraphicsConfiguration", this);
    
    BufferedImage bimg = new BufferedImage(imageCM,raster, false, props);

    DataBuffer dataB = raster.getDataBuffer();
    attachData(ximg, dataB, 0);
    return bimg;
  }

  WritableRaster createRasterForXImage(XImage ximage, Point origin)
  {
    if (imageCM == null) prepareColorModel(ximage);
    
    /*
      This will not work, since it creates a sample model that
      does not necessarily match the format of the XImage.
      
      WritableRaster raster =
      imageCM.createCompatibleWritableRaster(width, height); */
    
    // Create a sample model matching the XImage:

    SampleModel imageSM = null;

    int width = ximage.getWidth();
    int height = ximage.getHeight();
    int bitsPerPixel = ximage.getBitsPerPixel();
    int dataType =
      Buffers.smallestAppropriateTransferType(bitsPerPixel);
    int bitsPerDataElement = DataBuffer.getDataTypeSize(dataType);
    int scanlineStride = ximage.getBytesPerLine()*8/bitsPerDataElement;
    
    if (imageCM instanceof IndexColorModel)
      {
	int[] bandOffsets = {0};
	imageSM = new ComponentSampleModel(dataType,
					   width, height,
					   1, // pixel stride
					   scanlineStride,
					   bandOffsets);
      }
    else if (imageCM instanceof PackedColorModel)
      {
	PackedColorModel pcm = (PackedColorModel) imageCM;
	int[] masks = pcm.getMasks();
	
	imageSM = new SinglePixelPackedSampleModel(dataType,
						   width, height,
						   scanlineStride,
						   masks);
      }

    if (imageSM == null)
      {
	throw new UnsupportedOperationException("creating sample model " +
						"for " + imageCM +
						" not implemented");
      }

    WritableRaster raster = Raster.createWritableRaster(imageSM, origin);
    return raster;
  }



  /**
   * Attach a the memory of a data buffer to an XImage
   * structure. [This method is not gnu.awt.xlib specific, and should
   * maybe be moved to a different location.]
   *
   * @param offset Offset to data. The given offset does not include
   * data buffer offset, which will also be added.  
   */
  static void attachData(XImage ximage, DataBuffer dataB, int offset)
  {
    offset += dataB.getOffset();
    switch (dataB.getDataType())
      {
      case DataBuffer.TYPE_BYTE:
	ximage.setData(((DataBufferByte) dataB).getData(), offset);
	break;
      case DataBuffer.TYPE_USHORT:
	ximage.setData(((DataBufferUShort) dataB).getData(), offset);
	break;
      case DataBuffer.TYPE_INT:
	ximage.setData(((DataBufferInt) dataB).getData(), offset);
	break;
      default:
	throw
	  new UnsupportedOperationException("Do not know how to " +
					    "set data for data " +
					    "type " +
					    dataB.getDataType());
      }
  }
    
  void prepareColorModel(XImage ximage)
  {
    format = ximage.getFormat();
    int bitsPerPixel = ximage.getBitsPerPixel();
    switch (format) {
    case XImage.ZPIXMAP_FORMAT:
      calcZPixmapModels(bitsPerPixel);
      break;
      
    default:
      throw new UnsupportedOperationException("unimplemented format");
    }
  }

  void calcZPixmapModels(int bitsPerPixel)
  {
    switch (visual.getVisualClass())
      {
      case Visual.VC_TRUE_COLOR:
	calcDecomposedRGBModels(bitsPerPixel);
	break;
      case Visual.VC_PSEUDO_COLOR:
	calcPseudoColorModels(bitsPerPixel);
	break;
      default:
	String msg = "unimplemented visual class";
	throw new UnsupportedOperationException(msg);
      }
  }
    
  void calcDecomposedRGBModels(int bitsPerPixel)
  {
    int dataType = Buffers.smallestAppropriateTransferType(bitsPerPixel);
    
    
    if (DataBuffer.getDataTypeSize(dataType) == bitsPerPixel)
      {	
	ColorSpace cs = ColorSpace.getInstance(ColorSpace.CS_sRGB);
	
	imageCM = new DirectColorModel(cs,
				       visual.getDepth(),
				       visual.getRedMask(),
				       visual.getGreenMask(),
				       visual.getBlueMask(),
				       0, // no alpha
				       false,
				       dataType);
      }
    else
      {
	throw new
	  UnsupportedOperationException("unimplemented bits per pixel");
      }
    }
    
  void calcPseudoColorModels(int bitsPerPixel)
  {
    if (colormap == null)
      colormap = visual.getScreen().getDefaultColormap();
    
    XColor[] colArray = colormap.getXColors();
	
    int numCol = colArray.length;
    byte[] rmap = new byte[numCol];
    byte[] gmap = new byte[numCol];
    byte[] bmap = new byte[numCol];
    byte[] amap = new byte[numCol];
    
    for (int i=0; i < numCol; i++)
      {
	XColor color = colArray[i];
	if (color.getFlags() == Colormap.FLAG_SHARED)
	  {
	    rmap[i] = (byte) (color.getRed()   >> 8);
	    gmap[i] = (byte) (color.getGreen() >> 8);
	    bmap[i] = (byte) (color.getBlue()  >> 8);
	    amap[i] = (byte) 0xff;
	  } // else, leave default zero values...
      }

    imageCM = new IndexColorModel(visual.getDepth(), numCol,
				  rmap, gmap, bmap, amap);
  }

  /**
   * Gets the associated device that this configuration describes.
   *
   * @return the device
   */
  public GraphicsDevice getDevice()
  {
    throw new UnsupportedOperationException("not implemented");  
  }

  /**
   * Returns a buffered image optimized to this device, so that blitting can
   * be supported in the buffered image.
   *
   * @param w the width of the buffer
   * @param h the height of the buffer
   * @return the buffered image, or null if none is supported
   */
  public BufferedImage createCompatibleImage(int width,
					     int height,
					     int transparency)
  {
    throw new UnsupportedOperationException("not implemented");
  }

  /**
   * Returns a buffered volatile image optimized to this device, so that
   * blitting can be supported in the buffered image. Because the buffer is
   * volatile, it can be optimized by native graphics accelerators.
   *
   * @param w the width of the buffer
   * @param h the height of the buffer
   * @return the buffered image, or null if none is supported
   * @see Component#createVolatileImage(int, int)
   * @since 1.4
   */
  public VolatileImage createCompatibleVolatileImage(int w, int h)
  {
    throw new UnsupportedOperationException("not implemented");
  }

  /**
   * FIXME: I'm not sure which color model that should be returned here.
   */
  public ColorModel getColorModel()
  {
    if (pixelCM == null)
      preparePixelCM();
    return pixelCM;
  }

  void preparePixelCM()
  {
    switch (visual.getVisualClass())
      {
      case Visual.VC_TRUE_COLOR:
	pixelCM = new DirectColorModel(visual.getDepth(),
				       visual.getRedMask(),
				       visual.getGreenMask(),
				       visual.getBlueMask());
	break;
      case Visual.VC_PSEUDO_COLOR:

	if (colormap == null)
	  colormap = visual.getScreen().getDefaultColormap();
	
	XColor[] colArray = colormap.getXColors();
	
	int numCol = colArray.length;
	byte[] rmap = new byte[numCol];
	byte[] gmap = new byte[numCol];
	byte[] bmap = new byte[numCol];
	byte[] amap = new byte[numCol];
	
	for (int i=0; i < numCol; i++)
	  {
	    XColor color = colArray[i];
	    if (color.getFlags() == Colormap.FLAG_SHARED) {
	      rmap[i] = (byte) (color.getRed()   >> 8);
	      gmap[i] = (byte) (color.getGreen() >> 8);
	      bmap[i] = (byte) (color.getBlue()  >> 8);
	      amap[i] = (byte) 0xff;
	    } // else, leave default zero values...

	  }

	pixelCM = new IndexColorModel(visual.getDepth(), numCol,
				      rmap, gmap, bmap, amap);
	break;
      default:
	throw new UnsupportedOperationException("not implemented");
      }
  }
  
  public ColorModel getColorModel(int transparency)
  {
    throw new UnsupportedOperationException("not implemented");
  }
    
  public AffineTransform getDefaultTransform()
  {
    throw new UnsupportedOperationException("not implemented");
  }

  public AffineTransform getNormalizingTransform()
  {
    throw new UnsupportedOperationException("not implemented");
  }
 
  public Rectangle getBounds()
  {
    throw new UnsupportedOperationException("not implemented");
  }

  Visual getVisual()
  {
    return visual;
  }
    
  /* FIXME: This should be moved to XGraphicsDevice... */
  XFontMetrics getXFontMetrics(java.awt.Font awtFont)
  {
    // FIXME: do caching...
    
    String family       = "*";
    String name         = awtFont.getName();
    String weight       = awtFont.isBold() ? "bold" : "medium";
    String slant        = awtFont.isItalic() ? "i" : "r";
    String addStyle     = "*";
    String pixelSize    = "*";
    String pointSize    = awtFont.getSize() + "0";
    String xres         = "*";
    String yres         = "*";
    String spacing      = "*";
    String averageWidth = "*";
    String charset      = "*";
    
    String logicalFontDescription =
      family    + "-" + name         + "-" + weight    + "-" +
      slant     + "-" + addStyle     + "-" + pixelSize + "-" +
      pointSize + "-" + xres         + "-" + yres      + "-" +
      spacing   + "-" + averageWidth + "-" + charset;
    
    Display display = visual.getScreen().getDisplay();
    gnu.gcj.xlib.Font xfont =
      new gnu.gcj.xlib.Font(display, logicalFontDescription);
    return new XFontMetrics(xfont, awtFont);
  }

  int getPixel(Color color)
  {
    /* FIXME: consider an integer technique whenever
     * the ColorModel is 8 bits per color.
     * The problem with using integers is that it doesn't work unless
     * the colors are 8 bits each (as in the array), since ColorModel.getDataElement(int[],int)
     * expects non-normalized values.  For example, in a 16-bit display mode, you
     * would typically have 5 bits each for red and blue, and 6 bits for green.
    int[] components =
    {
      color.getRed (),
      color.getGreen (),
      color.getBlue (),
      0xff
    };
     */
    
    float[] normalizedComponents =
    {
      ((float)color.getRed ()) / 255F,
      ((float)color.getGreen ()) / 255F,
      ((float)color.getBlue ()) / 255F,
      1
    };
    int[] unnormalizedComponents = { 0, 0, 0, 0xff };
    ColorModel cm = getColorModel ();
    cm.getUnnormalizedComponents(normalizedComponents, 0,
				 unnormalizedComponents, 0);
    return cm.getDataElement (unnormalizedComponents, 0);
  }
}