gcc/libjava/gnu/gcj/xlib/XImage.java
Per Bothner c314ee353b * gnu/gcj/xlib/WindowAttributes.java Assign null to RawData, not 0.
* gnu/gcj/xlib/XImage.java:  Likewise.
	* gnu/gcj/xlib/XColor.java:  Likewise.

From-SVN: r50498
2002-03-09 08:25:13 -08:00

236 lines
6.3 KiB
Java

/* Copyright (C) 2000 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.gcj.xlib;
import gnu.gcj.RawData;
/**
* Structure containing image data that resides on the client side.
* The format, depth and offset attributes of an XImage determines how
* bitfields are encoded in a raster image. However, it does not
* determine how a color is encoded into a bitfield. I.e. the XImage
* pixel values in a specific structure, but does not determine what
* colors that will be used to represent these pixel values on the
* screen.
*
* @author Rolf W. Rasmussen <rolfwr@ii.uib.no>
*/
public class XImage
{
/** This object reference points to the data, hindering garbage
collection of the data. */
Object dataRef;
// Must match definitions in X.h:
public static final int XYBITMAP_FORMAT = 0,
XYPIXMAP_FORMAT = 1,
ZPIXMAP_FORMAT = 2;
// Must match definitions in X.h:
public static final int LEAST_SIGNIFICANT_B_FIRST_ORDER = 0,
MOST_SIGNIFICANT_B_FIRST_ORDER = 1;
public XImage(Visual visual, int depth, int format, int xoffset,
int width, int height, int bitmapPad,
int bytesPerLine)
{
this(visual, depth, format, xoffset, width, height, bitmapPad,
bytesPerLine,
0 // bitsPerPixel
);
}
public XImage(Visual visual, int depth, int format, int xoffset,
int width, int height, int bitmapPad,
int bytesPerLine, int bitsPerPixel)
{
if (visual == null) throw new
NullPointerException("a visual must be specified");
init(visual, depth, format, xoffset, width, height,
bitmapPad, bytesPerLine, bitsPerPixel);
}
public native void init(Visual visual, int depth, int format, int xoffset,
int width, int height, int bitmapPad,
int bytesPerLine, int bitsPerPixel);
private native void init(Visual visual, int width, int height);
public XImage(Visual visual, int width, int height)
{
this(visual, width, height,
true // Automatically allocate memory
);
}
/**
* Create a new XImage.
*
* @param allocate specifies whether to automatically allocate
* memory for the image. It is possible to create the data array
* elsewhere, so that we can for instance use a DataBufferUShort as
* data. Ie. not limit ourself to byte arrays. This is done by
* passing false and calling a setData() method manually after
* creation.
*/
public XImage(Visual visual, int width, int height, boolean allocate)
{
if (visual == null)
throw new NullPointerException("a visual must be specified");
init(visual, width, height);
if (allocate)
{
/* Now that Xlib has figured out the appropriate bytes per
line, we can allocate memory for the image. */
// FIXME: What about formats with several layers/bands?
byte[] data = new byte[getBytesPerLine()*height];
setData(data, 0);
}
}
/**
* Attach image data to this XImage.
*
* @param offset the index of the first actual data element in the array.
*/
public void setData(byte[] data, int offset)
{
dataRef = data;
internalSetData(data, offset);
}
/**
* Attach image data to this XImage.
*
* @param offset the index of the first actual data element in the
* array. Note: this is short offset, not a byte offset.
*/
public void setData(short[] data, int offset)
{
dataRef = data;
internalSetData(data, offset);
}
/**
* Attach image data to this XImage
*
* @param offset the index of the first actual data element in the array.
* Note: this is not a byte offset.
*/
public void setData(int[] data, int offset)
{
dataRef = data;
internalSetData(data, offset);
}
private native void internalSetData(byte[] data, int offset);
private native void internalSetData(short[] data, int offset);
private native void internalSetData(int[] data, int offset);
protected native void finalize();
boolean ownsData = false;
RawData structure = null;
public final native int getWidth();
public final native int getHeight();
public final native int getDepth();
public final native int getFormat();
public final boolean isZPixmapFormat()
{
return getFormat() == ZPIXMAP_FORMAT;
}
/**
* Get the xoffset. The xoffset avoids the need of shifting the
* scanlines into place.
*/
public final native int getXOffset();
public native final int getBytesPerLine();
public native final int getBitsPerPixel();
public native final int getImageByteOrder();
public native final int getBitmapBitOrder();
public native final int getBitmapUnit();
public native final int getBitmapPad();
// True/Direct Color specific:
public native int getRedMask();
public native int getGreenMask();
public native int getBlueMask();
/**
* Set a pixel value at a given position in the image. This method
* is slow. Don't use it, except as a fall-back.
*/
public native final void setPixel(int x, int y, int pixel);
public String toString()
{
String format;
switch(getFormat())
{
case ZPIXMAP_FORMAT:
format = "ZPixmapFormat";
break;
default:
format = "unknown";
}
String imageByteOrder;
switch(getImageByteOrder())
{
case LEAST_SIGNIFICANT_B_FIRST_ORDER:
imageByteOrder = "leastSignificantByteFirst";
break;
case MOST_SIGNIFICANT_B_FIRST_ORDER:
imageByteOrder = "mostSignificantByteFirst";
break;
default:
imageByteOrder = "unknwon";
}
String bitmapBitOrder;
switch(getBitmapBitOrder())
{
case LEAST_SIGNIFICANT_B_FIRST_ORDER:
bitmapBitOrder = "leastSignificantBitFirst";
break;
case MOST_SIGNIFICANT_B_FIRST_ORDER:
bitmapBitOrder = "mostSignificantBitFirst";
break;
default:
bitmapBitOrder = "unknown";
}
return getClass().getName() + "[" + format +
", width=" + getWidth() +
", height=" + getHeight() +
", bytesPerLine=" + getBytesPerLine() +
", xoffset=" + getXOffset() +
", depth=" + getDepth() +
", bitsPerPixel=" + getBitsPerPixel() +
", bitmapUnit=" + getBitmapUnit() +
", bitmapPad=" + getBitmapPad() +
", byteOrder=" + imageByteOrder +
", bitOrder=" + bitmapBitOrder +
"]";
}
}