/**
* Write the device independent image array stored in the specified loader to the specified output
* stream using the specified file format.
*/
public static void save(OutputStream os, int format, ImageLoader loader) {
if (format < 0 || format >= FORMATS.length) SWT.error(SWT.ERROR_UNSUPPORTED_FORMAT);
if (FORMATS[format] == null) SWT.error(SWT.ERROR_UNSUPPORTED_FORMAT);
if (loader.data == null || loader.data.length < 1) SWT.error(SWT.ERROR_INVALID_ARGUMENT);
LEDataOutputStream stream = new LEDataOutputStream(os);
FileFormat fileFormat = null;
try {
Class clazz = Class.forName(FORMAT_PACKAGE + '.' + FORMATS[format] + FORMAT_SUFFIX);
fileFormat = (FileFormat) clazz.newInstance();
} catch (Exception e) {
SWT.error(SWT.ERROR_UNSUPPORTED_FORMAT);
}
if (format == SWT.IMAGE_BMP_RLE) {
switch (loader.data[0].depth) {
case 8:
fileFormat.compression = 1;
break;
case 4:
fileFormat.compression = 2;
break;
}
}
fileFormat.unloadIntoStream(loader, stream);
}
/** Read a palette from the input stream. */
PaletteData readPalette(int numColors) {
byte[] bytes = new byte[numColors * 3];
try {
if (inputStream.read(bytes) != bytes.length) SWT.error(SWT.ERROR_INVALID_IMAGE);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
RGB[] colors = new RGB[numColors];
for (int i = 0; i < numColors; i++)
colors[i] = new RGB(bytes[i * 3] & 0xFF, bytes[i * 3 + 1] & 0xFF, bytes[i * 3 + 2] & 0xFF);
return new PaletteData(colors);
}
void decompressData(byte[] src, byte[] dest, int stride, int cmp) {
if (cmp == 1) { // BMP_RLE8_COMPRESSION
if (decompressRLE8Data(src, src.length, stride, dest, dest.length) <= 0)
SWT.error(SWT.ERROR_INVALID_IMAGE);
return;
}
if (cmp == 2) { // BMP_RLE4_COMPRESSION
if (decompressRLE4Data(src, src.length, stride, dest, dest.length) <= 0)
SWT.error(SWT.ERROR_INVALID_IMAGE);
return;
}
SWT.error(SWT.ERROR_INVALID_IMAGE);
}
/**
* Read the specified input stream, and return the device independent image array represented by
* the stream.
*/
public ImageData[] loadFromStream(LEDataInputStream stream) {
try {
inputStream = stream;
return loadFromByteStream();
} catch (Exception e) {
if (e instanceof IOException) {
SWT.error(SWT.ERROR_IO, e);
} else {
SWT.error(SWT.ERROR_INVALID_IMAGE, e);
}
return null;
}
}
int[] loadFileHeader() {
int[] header = new int[5];
try {
header[0] = inputStream.readShort();
header[1] = inputStream.readInt();
header[2] = inputStream.readShort();
header[3] = inputStream.readShort();
header[4] = inputStream.readInt();
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
if (header[0] != 0x4D42) SWT.error(SWT.ERROR_INVALID_IMAGE);
return header;
}
/**
* Creates an instance of a ControlExample embedded inside the supplied parent Composite.
*
* @param parent the container of the example
*/
public ControlExample(Composite parent) {
initResources();
tabFolder = new TabFolder(parent, SWT.NONE);
tabs = createTabs();
for (Tab tab : tabs) {
TabItem item = new TabItem(tabFolder, SWT.NONE);
item.setText(tab.getTabText());
item.setControl(tab.createTabFolderPage(tabFolder));
item.setData(tab);
}
/* Workaround: if the tab folder is wider than the screen,
* Mac platforms clip instead of somehow scrolling the tab items.
* We try to recover some width by using shorter tab names. */
Point size = parent.computeSize(SWT.DEFAULT, SWT.DEFAULT);
Rectangle monitorArea = parent.getMonitor().getClientArea();
boolean isMac = SWT.getPlatform().equals("cocoa");
if (size.x > monitorArea.width && isMac) {
TabItem[] tabItems = tabFolder.getItems();
for (int i = 0; i < tabItems.length; i++) {
tabItems[i].setText(tabs[i].getShortTabText());
}
}
startup = false;
}
/**
* We have just read the GraphicsControl extension identifier from the input stream. Read in the
* control information, store it, and return it.
*/
byte[] readGraphicsControlExtension() {
try {
// Read size of block = 0x04.
inputStream.read();
// Read the control block.
byte[] controlBlock = new byte[4];
inputStream.read(controlBlock);
byte bitField = controlBlock[0];
// Store the user input field.
// userInput = (bitField & 0x02) != 0;
// Store the disposal method.
disposalMethod = (bitField >> 2) & 0x07;
// Store the delay time.
delayTime = (controlBlock[1] & 0xFF) | ((controlBlock[2] & 0xFF) << 8);
// Store the transparent color.
if ((bitField & 0x01) != 0) {
transparentPixel = controlBlock[3] & 0xFF;
} else {
transparentPixel = -1;
}
return controlBlock;
} catch (Exception e) {
SWT.error(SWT.ERROR_IO, e);
return null;
}
}
/**
* Unload the given image's data into the given byte stream using the given compression strategy.
* Answer the number of bytes written. Method modified to use the passed data if it is not null.
*/
int unloadData(ImageData image, byte[] data, OutputStream out, int comp) {
int totalSize = 0;
try {
if (comp == 0) return unloadDataNoCompression(image, data, out);
int bpl = (image.width * image.depth + 7) / 8;
int bmpBpl = (bpl + 3) / 4 * 4; // BMP pads scanlines to multiples of 4 bytes
int imageBpl = image.bytesPerLine;
// Compression can actually take twice as much space, in worst case
byte[] buf = new byte[bmpBpl * 2];
int srcOffset = imageBpl * (image.height - 1); // Start at last line
if (data == null) data = image.data;
totalSize = 0;
byte[] buf2 = new byte[32768];
int buf2Offset = 0;
for (int y = image.height - 1; y >= 0; y--) {
int lineSize = compress(comp, data, srcOffset, bpl, buf, y == 0);
if (buf2Offset + lineSize > buf2.length) {
out.write(buf2, 0, buf2Offset);
buf2Offset = 0;
}
System.arraycopy(buf, 0, buf2, buf2Offset, lineSize);
buf2Offset += lineSize;
totalSize += lineSize;
srcOffset -= imageBpl;
}
if (buf2Offset > 0) out.write(buf2, 0, buf2Offset);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
return totalSize;
}
/** Write out a GraphicsControlBlock to describe the specified device independent image. */
void writeGraphicsControlBlock(ImageData image) {
try {
outputStream.write(GIF_EXTENSION_BLOCK_ID);
outputStream.write(GIF_GRAPHICS_CONTROL_BLOCK_ID);
byte[] gcBlock = new byte[4];
gcBlock[0] = 0;
gcBlock[1] = 0;
gcBlock[2] = 0;
gcBlock[3] = 0;
if (image.transparentPixel != -1) {
gcBlock[0] = (byte) 0x01;
gcBlock[3] = (byte) image.transparentPixel;
}
if (image.disposalMethod != 0) {
gcBlock[0] |= (byte) ((image.disposalMethod & 0x07) << 2);
}
if (image.delayTime != 0) {
gcBlock[1] = (byte) (image.delayTime & 0xFF);
gcBlock[2] = (byte) ((image.delayTime >> 8) & 0xFF);
}
outputStream.write((byte) gcBlock.length);
outputStream.write(gcBlock);
outputStream.write(0); // Block terminator
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
}
/** Read and return the next block or extension identifier from the file. */
int readID() {
try {
return inputStream.read();
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
return -1;
}
/**
* Compress numBytes bytes of image data from src, storing in dest (starting at 0), using the
* technique specified by comp. If last is true, this indicates the last line of the image. Answer
* the size of the compressed data.
*/
int compress(int comp, byte[] src, int srcOffset, int numBytes, byte[] dest, boolean last) {
if (comp == 1) { // BMP_RLE8_COMPRESSION
return compressRLE8Data(src, srcOffset, numBytes, dest, last);
}
if (comp == 2) { // BMP_RLE4_COMPRESSION
return compressRLE4Data(src, srcOffset, numBytes, dest, last);
}
SWT.error(SWT.ERROR_INVALID_IMAGE);
return 0;
}
PaletteData loadPalette(byte[] infoHeader) {
int depth = (infoHeader[14] & 0xFF) | ((infoHeader[15] & 0xFF) << 8);
if (depth <= 8) {
int numColors =
(infoHeader[32] & 0xFF)
| ((infoHeader[33] & 0xFF) << 8)
| ((infoHeader[34] & 0xFF) << 16)
| ((infoHeader[35] & 0xFF) << 24);
if (numColors == 0) {
numColors = 1 << depth;
} else {
if (numColors > 256) numColors = 256;
}
byte[] buf = new byte[numColors * 4];
try {
if (inputStream.read(buf) != buf.length) SWT.error(SWT.ERROR_INVALID_IMAGE);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
return paletteFromBytes(buf, numColors);
}
if (depth == 16) {
if (this.compression == 3) {
try {
return new PaletteData(
inputStream.readInt(), inputStream.readInt(), inputStream.readInt());
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
}
return new PaletteData(0x7C00, 0x3E0, 0x1F);
}
if (depth == 24) return new PaletteData(0xFF, 0xFF00, 0xFF0000);
if (this.compression == 3) {
try {
return new PaletteData(inputStream.readInt(), inputStream.readInt(), inputStream.readInt());
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
}
return new PaletteData(0xFF00, 0xFF0000, 0xFF000000);
}
/** Read a control extension. Return the extension block data. */
byte[] readExtension() {
int extensionID = readID();
if (extensionID == GIF_COMMENT_BLOCK_ID) return readCommentExtension();
if (extensionID == GIF_PLAIN_TEXT_BLOCK_ID) return readPlainTextExtension();
if (extensionID == GIF_GRAPHICS_CONTROL_BLOCK_ID) return readGraphicsControlExtension();
if (extensionID == GIF_APPLICATION_EXTENSION_BLOCK_ID) return readApplicationExtension();
// Otherwise, we don't recognize the block. If the
// field size is correct, we can just skip over
// the block contents.
try {
int extSize = inputStream.read();
if (extSize < 0) {
SWT.error(SWT.ERROR_INVALID_IMAGE);
}
byte[] ext = new byte[extSize];
inputStream.read(ext, 0, extSize);
return ext;
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
return null;
}
}
/**
* Write the device independent image array stored in the specified loader to the specified output
* stream.
*/
public void unloadIntoStream(ImageLoader loader, LEDataOutputStream stream) {
try {
outputStream = stream;
unloadIntoByteStream(loader);
outputStream.flush();
} catch (Exception e) {
try {
outputStream.flush();
} catch (Exception f) {
}
SWT.error(SWT.ERROR_IO, e);
}
}
byte[] loadData(byte[] infoHeader, int stride) {
int height =
(infoHeader[8] & 0xFF)
| ((infoHeader[9] & 0xFF) << 8)
| ((infoHeader[10] & 0xFF) << 16)
| ((infoHeader[11] & 0xFF) << 24);
if (height < 0) height = -height;
int dataSize = height * stride;
byte[] data = new byte[dataSize];
int cmp =
(infoHeader[16] & 0xFF)
| ((infoHeader[17] & 0xFF) << 8)
| ((infoHeader[18] & 0xFF) << 16)
| ((infoHeader[19] & 0xFF) << 24);
if (cmp == 0 || cmp == 3) { // BMP_NO_COMPRESSION
try {
if (inputStream.read(data) != dataSize) SWT.error(SWT.ERROR_INVALID_IMAGE);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
} else {
int compressedSize =
(infoHeader[20] & 0xFF)
| ((infoHeader[21] & 0xFF) << 8)
| ((infoHeader[22] & 0xFF) << 16)
| ((infoHeader[23] & 0xFF) << 24);
byte[] compressed = new byte[compressedSize];
try {
if (inputStream.read(compressed) != compressedSize) SWT.error(SWT.ERROR_INVALID_IMAGE);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
decompressData(compressed, data, stride, cmp);
}
return data;
}
/** Write the specified palette to the output stream. */
void writePalette(PaletteData palette, int depth) {
byte[] bytes = new byte[(1 << depth) * 3];
int offset = 0;
for (int i = 0; i < palette.colors.length; i++) {
RGB color = palette.colors[i];
bytes[offset] = (byte) color.red;
bytes[offset + 1] = (byte) color.green;
bytes[offset + 2] = (byte) color.blue;
offset += 3;
}
try {
outputStream.write(bytes);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
}
/**
* We have just read the Comment extension identifier from the input stream. Read in the rest of
* the comment and return it. GIF comment blocks are variable size.
*/
byte[] readCommentExtension() {
try {
byte[] comment = new byte[0];
byte[] block = new byte[255];
int size = inputStream.read();
while ((size > 0) && (inputStream.read(block, 0, size) != -1)) {
byte[] oldComment = comment;
comment = new byte[oldComment.length + size];
System.arraycopy(oldComment, 0, comment, 0, oldComment.length);
System.arraycopy(block, 0, comment, oldComment.length, size);
size = inputStream.read();
}
return comment;
} catch (Exception e) {
SWT.error(SWT.ERROR_IO, e);
return null;
}
}
/**
* Read the specified input stream using the specified loader, and return the device independent
* image array represented by the stream.
*/
public static ImageData[] load(InputStream is, ImageLoader loader) {
FileFormat fileFormat = null;
LEDataInputStream stream = new LEDataInputStream(is);
for (int i = 1; i < FORMATS.length; i++) {
if (FORMATS[i] != null) {
try {
fileFormat = getFileFormat(stream, FORMATS[i]);
if (fileFormat != null) break;
} catch (ClassNotFoundException e) {
FORMATS[i] = null;
} catch (Exception e) {
}
}
}
if (fileFormat == null) SWT.error(SWT.ERROR_UNSUPPORTED_FORMAT);
fileFormat.loader = loader;
return fileFormat.loadFromStream(stream);
}
/**
* Prepare the given image's data for unloading into a byte stream using no compression strategy.
* Answer the number of bytes written. Method modified to use the passed data if it is not null.
*/
int unloadDataNoCompression(ImageData image, byte[] data, OutputStream out) {
int bmpBpl = 0;
try {
int bpl = (image.width * image.depth + 7) / 8;
bmpBpl = (bpl + 3) / 4 * 4; // BMP pads scanlines to multiples of 4 bytes
int linesPerBuf = 32678 / bmpBpl;
byte[] buf = new byte[linesPerBuf * bmpBpl];
if (data == null) data = image.data;
int imageBpl = image.bytesPerLine;
int dataIndex = imageBpl * (image.height - 1); // Start at last line
if (image.depth == 16) {
for (int y = 0; y < image.height; y += linesPerBuf) {
int count = image.height - y;
if (linesPerBuf < count) count = linesPerBuf;
int bufOffset = 0;
for (int i = 0; i < count; i++) {
for (int wIndex = 0; wIndex < bpl; wIndex += 2) {
buf[bufOffset + wIndex + 1] = data[dataIndex + wIndex + 1];
buf[bufOffset + wIndex] = data[dataIndex + wIndex];
}
bufOffset += bmpBpl;
dataIndex -= imageBpl;
}
out.write(buf, 0, bufOffset);
}
} else {
for (int y = 0; y < image.height; y += linesPerBuf) {
int tmp = image.height - y;
int count = tmp < linesPerBuf ? tmp : linesPerBuf;
int bufOffset = 0;
for (int i = 0; i < count; i++) {
System.arraycopy(data, dataIndex, buf, bufOffset, bpl);
bufOffset += bmpBpl;
dataIndex -= imageBpl;
}
out.write(buf, 0, bufOffset);
}
}
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
return bmpBpl * image.height;
}
/**
* We have just read the Application extension identifier from the input stream. Read in the rest
* of the extension, look for and store 'number of repeats', and return the data.
*/
byte[] readApplicationExtension() {
try {
// Read block data.
int blockSize = inputStream.read();
byte[] blockData = new byte[blockSize];
inputStream.read(blockData);
// Read application data.
byte[] data = new byte[0];
byte[] block = new byte[255];
int size = inputStream.read();
while ((size > 0) && (inputStream.read(block, 0, size) != -1)) {
byte[] oldData = data;
data = new byte[oldData.length + size];
System.arraycopy(oldData, 0, data, 0, oldData.length);
System.arraycopy(block, 0, data, oldData.length, size);
size = inputStream.read();
}
// Look for the NETSCAPE 'repeat count' field for an animated GIF.
boolean netscape =
blockSize > 7
&& blockData[0] == 'N'
&& blockData[1] == 'E'
&& blockData[2] == 'T'
&& blockData[3] == 'S'
&& blockData[4] == 'C'
&& blockData[5] == 'A'
&& blockData[6] == 'P'
&& blockData[7] == 'E';
boolean authentic =
blockSize > 10 && blockData[8] == '2' && blockData[9] == '.' && blockData[10] == '0';
if (netscape && authentic && data[0] == 01) { // $NON-NLS-1$ //$NON-NLS-2$
repeatCount = (data[1] & 0xFF) | ((data[2] & 0xFF) << 8);
loader.repeatCount = repeatCount;
}
return data;
} catch (Exception e) {
SWT.error(SWT.ERROR_IO, e);
return null;
}
}
/**
* We have just read the PlainText extension identifier from the input stream. Read in the plain
* text info and text, and return the text. GIF plain text blocks are variable size.
*/
byte[] readPlainTextExtension() {
try {
// Read size of block = 0x0C.
inputStream.read();
// Read the text information (x, y, width, height, colors).
byte[] info = new byte[12];
inputStream.read(info);
// Read the text.
byte[] text = new byte[0];
byte[] block = new byte[255];
int size = inputStream.read();
while ((size > 0) && (inputStream.read(block, 0, size) != -1)) {
byte[] oldText = text;
text = new byte[oldText.length + size];
System.arraycopy(oldText, 0, text, 0, oldText.length);
System.arraycopy(block, 0, text, oldText.length, size);
size = inputStream.read();
}
return text;
} catch (Exception e) {
SWT.error(SWT.ERROR_IO, e);
return null;
}
}
public void createPartControl(org.eclipse.swt.widgets.Composite frame) {
final org.eclipse.swt.examples.hoverhelp.HoverHelp.ToolTipHandler tooltip =
new org.eclipse.swt.examples.hoverhelp.HoverHelp.ToolTipHandler(frame.getShell());
org.eclipse.swt.layout.GridLayout layout = new org.eclipse.swt.layout.GridLayout();
layout.numColumns = 3;
frame.setLayout(layout);
java.lang.String platform = SWT.getPlatform();
java.lang.String helpKey = "F1";
if (platform.equals("gtk")) {
helpKey = "Ctrl+F1";
}
if (platform.equals("carbon") || platform.equals("cocoa")) {
helpKey = "Help";
}
org.eclipse.swt.widgets.ToolBar bar = new org.eclipse.swt.widgets.ToolBar(frame, SWT.BORDER);
for (int i = 0; i < 5; i++) {
org.eclipse.swt.widgets.ToolItem item = new org.eclipse.swt.widgets.ToolItem(bar, SWT.PUSH);
item.setText(
getResourceString("ToolItem.text", new java.lang.Object[] {new java.lang.Integer(i)}));
item.setData(
"TIP_TEXT",
getResourceString("ToolItem.tooltip", new java.lang.Object[] {item.getText(), helpKey}));
item.setData(
"TIP_HELPTEXTHANDLER",
new org.eclipse.swt.examples.hoverhelp.HoverHelp.ToolTipHelpTextHandler() {
public java.lang.String getHelpText(org.eclipse.swt.widgets.Widget widget) {
org.eclipse.swt.widgets.Item item = (org.eclipse.swt.widgets.Item) widget;
return getResourceString("ToolItem.help", new java.lang.Object[] {item.getText()});
}
});
}
org.eclipse.swt.layout.GridData gridData = new org.eclipse.swt.layout.GridData();
gridData.horizontalSpan = 3;
bar.setLayoutData(gridData);
tooltip.activateHoverHelp(bar);
org.eclipse.swt.widgets.Table table = new org.eclipse.swt.widgets.Table(frame, SWT.BORDER);
for (int i = 0; i < 4; i++) {
org.eclipse.swt.widgets.TableItem item =
new org.eclipse.swt.widgets.TableItem(table, SWT.PUSH);
item.setText(getResourceString("Item", new java.lang.Object[] {new java.lang.Integer(i)}));
item.setData("TIP_IMAGE", images[hhiInformation]);
item.setText(
getResourceString("TableItem.text", new java.lang.Object[] {new java.lang.Integer(i)}));
item.setData(
"TIP_TEXT",
getResourceString("TableItem.tooltip", new java.lang.Object[] {item.getText(), helpKey}));
item.setData(
"TIP_HELPTEXTHANDLER",
new org.eclipse.swt.examples.hoverhelp.HoverHelp.ToolTipHelpTextHandler() {
public java.lang.String getHelpText(org.eclipse.swt.widgets.Widget widget) {
org.eclipse.swt.widgets.Item item = (org.eclipse.swt.widgets.Item) widget;
return getResourceString("TableItem.help", new java.lang.Object[] {item.getText()});
}
});
}
table.setLayoutData(new org.eclipse.swt.layout.GridData(GridData.VERTICAL_ALIGN_FILL));
tooltip.activateHoverHelp(table);
org.eclipse.swt.widgets.Tree tree = new org.eclipse.swt.widgets.Tree(frame, SWT.BORDER);
for (int i = 0; i < 4; i++) {
org.eclipse.swt.widgets.TreeItem item = new org.eclipse.swt.widgets.TreeItem(tree, SWT.PUSH);
item.setText(getResourceString("Item", new java.lang.Object[] {new java.lang.Integer(i)}));
item.setData("TIP_IMAGE", images[hhiWarning]);
item.setText(
getResourceString("TreeItem.text", new java.lang.Object[] {new java.lang.Integer(i)}));
item.setData(
"TIP_TEXT",
getResourceString("TreeItem.tooltip", new java.lang.Object[] {item.getText(), helpKey}));
item.setData(
"TIP_HELPTEXTHANDLER",
new org.eclipse.swt.examples.hoverhelp.HoverHelp.ToolTipHelpTextHandler() {
public java.lang.String getHelpText(org.eclipse.swt.widgets.Widget widget) {
org.eclipse.swt.widgets.Item item = (org.eclipse.swt.widgets.Item) widget;
return getResourceString("TreeItem.help", new java.lang.Object[] {item.getText()});
}
});
}
tree.setLayoutData(new org.eclipse.swt.layout.GridData(GridData.VERTICAL_ALIGN_FILL));
tooltip.activateHoverHelp(tree);
org.eclipse.swt.widgets.Button button = new org.eclipse.swt.widgets.Button(frame, SWT.PUSH);
button.setText(getResourceString("Hello.text"));
button.setData("TIP_TEXT", getResourceString("Hello.tooltip"));
tooltip.activateHoverHelp(button);
}
/** Unload a DeviceIndependentImage using Windows .BMP format into the given byte stream. */
@Override
void unloadIntoByteStream(ImageLoader loader) {
ImageData image = loader.data[0];
byte[] rgbs;
int numCols;
if (!((image.depth == 1)
|| (image.depth == 4)
|| (image.depth == 8)
|| (image.depth == 16)
|| (image.depth == 24)
|| (image.depth == 32))) SWT.error(SWT.ERROR_UNSUPPORTED_DEPTH);
int comp = this.compression;
if (!((comp == 0)
|| ((comp == 1) && (image.depth == 8))
|| ((comp == 2) && (image.depth == 4)))) SWT.error(SWT.ERROR_INVALID_IMAGE);
PaletteData pal = image.palette;
if ((image.depth == 16) || (image.depth == 24) || (image.depth == 32)) {
if (!pal.isDirect) SWT.error(SWT.ERROR_INVALID_IMAGE);
numCols = 0;
rgbs = null;
} else {
if (pal.isDirect) SWT.error(SWT.ERROR_INVALID_IMAGE);
numCols = pal.colors.length;
rgbs = paletteToBytes(pal);
}
// Fill in file header, except for bfsize, which is done later.
int headersSize = BMPFileHeaderSize + BMPHeaderFixedSize;
int[] fileHeader = new int[5];
fileHeader[0] = 0x4D42; // Signature
fileHeader[1] = 0; // File size - filled in later
fileHeader[2] = 0; // Reserved 1
fileHeader[3] = 0; // Reserved 2
fileHeader[4] = headersSize; // Offset to data
if (rgbs != null) {
fileHeader[4] += rgbs.length;
}
byte iData[] = null;
// If the pixels are not in the expected BMP format, convert them.
if (pal.isDirect && !isPaletteBMP(pal, image.depth)) {
// array to store the converted pixels
iData = new byte[image.data.length];
convertPixelsToBGR(image, iData);
}
// Prepare data. This is done first so we don't have to try to rewind
// the stream and fill in the details later.
ByteArrayOutputStream out = new ByteArrayOutputStream();
unloadData(image, iData, out, comp);
byte[] data = out.toByteArray();
// Calculate file size
fileHeader[1] = fileHeader[4] + data.length;
// Write the headers
try {
outputStream.writeShort(fileHeader[0]);
outputStream.writeInt(fileHeader[1]);
outputStream.writeShort(fileHeader[2]);
outputStream.writeShort(fileHeader[3]);
outputStream.writeInt(fileHeader[4]);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
try {
outputStream.writeInt(BMPHeaderFixedSize);
outputStream.writeInt(image.width);
outputStream.writeInt(image.height);
outputStream.writeShort(1);
outputStream.writeShort((short) image.depth);
outputStream.writeInt(comp);
outputStream.writeInt(data.length);
outputStream.writeInt(pelsPerMeter.x);
outputStream.writeInt(pelsPerMeter.y);
outputStream.writeInt(numCols);
outputStream.writeInt(importantColors);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
// Unload palette
if (numCols > 0) {
try {
outputStream.write(rgbs);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
}
// Unload the data
try {
outputStream.write(data);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
}
@Override
void unloadIntoByteStream(ImageLoader loader) {
/* Step 1: Acquire GIF parameters. */
ImageData[] data = loader.data;
int frameCount = data.length;
boolean multi = frameCount > 1;
ImageData firstImage = data[0];
int logicalScreenWidth = multi ? loader.logicalScreenWidth : firstImage.width;
int logicalScreenHeight = multi ? loader.logicalScreenHeight : firstImage.height;
int backgroundPixel = loader.backgroundPixel;
int depth = firstImage.depth;
PaletteData palette = firstImage.palette;
RGB[] colors = palette.getRGBs();
short globalTable = 1;
/* Step 2: Check for validity and global/local color map. */
if (!(depth == 1 || depth == 4 || depth == 8)) {
SWT.error(SWT.ERROR_UNSUPPORTED_DEPTH);
}
for (int i = 0; i < frameCount; i++) {
if (data[i].palette.isDirect) {
SWT.error(SWT.ERROR_INVALID_IMAGE);
}
if (multi) {
if (!(data[i].height <= logicalScreenHeight
&& data[i].width <= logicalScreenWidth
&& data[i].depth == depth)) {
SWT.error(SWT.ERROR_INVALID_IMAGE);
}
if (globalTable == 1) {
RGB rgbs[] = data[i].palette.getRGBs();
if (rgbs.length != colors.length) {
globalTable = 0;
} else {
for (int j = 0; j < colors.length; j++) {
if (!(rgbs[j].red == colors[j].red
&& rgbs[j].green == colors[j].green
&& rgbs[j].blue == colors[j].blue)) globalTable = 0;
}
}
}
}
}
try {
/* Step 3: Write the GIF89a Header and Logical Screen Descriptor. */
outputStream.write(GIF89a);
int bitField = globalTable * 128 + (depth - 1) * 16 + depth - 1;
outputStream.writeShort((short) logicalScreenWidth);
outputStream.writeShort((short) logicalScreenHeight);
outputStream.write(bitField);
outputStream.write(backgroundPixel);
outputStream.write(0); // Aspect ratio is 1:1
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
/* Step 4: Write Global Color Table if applicable. */
if (globalTable == 1) {
writePalette(palette, depth);
}
/* Step 5: Write Application Extension if applicable. */
if (multi) {
int repeatCount = loader.repeatCount;
try {
outputStream.write(GIF_EXTENSION_BLOCK_ID);
outputStream.write(GIF_APPLICATION_EXTENSION_BLOCK_ID);
outputStream.write(NETSCAPE2_0.length);
outputStream.write(NETSCAPE2_0);
outputStream.write(3); // Three bytes follow
outputStream.write(1); // Extension type
outputStream.writeShort((short) repeatCount);
outputStream.write(0); // Block terminator
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
}
for (int frame = 0; frame < frameCount; frame++) {
/* Step 6: Write Graphics Control Block for each frame if applicable. */
if (multi || data[frame].transparentPixel != -1) {
writeGraphicsControlBlock(data[frame]);
}
/* Step 7: Write Image Header for each frame. */
int x = data[frame].x;
int y = data[frame].y;
int width = data[frame].width;
int height = data[frame].height;
try {
outputStream.write(GIF_IMAGE_BLOCK_ID);
byte[] block = new byte[9];
block[0] = (byte) (x & 0xFF);
block[1] = (byte) ((x >> 8) & 0xFF);
block[2] = (byte) (y & 0xFF);
block[3] = (byte) ((y >> 8) & 0xFF);
block[4] = (byte) (width & 0xFF);
block[5] = (byte) ((width >> 8) & 0xFF);
block[6] = (byte) (height & 0xFF);
block[7] = (byte) ((height >> 8) & 0xFF);
block[8] = (byte) (globalTable == 0 ? (depth - 1) | 0x80 : 0x00);
outputStream.write(block);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
/* Step 8: Write Local Color Table for each frame if applicable. */
if (globalTable == 0) {
writePalette(data[frame].palette, depth);
}
/* Step 9: Write the actual data for each frame. */
try {
outputStream.write(depth); // Minimum LZW Code size
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
new LZWCodec().encode(outputStream, data[frame]);
}
/* Step 10: Write GIF terminator. */
try {
outputStream.write(0x3B);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
}
/**
* Return a DeviceIndependentImage representing the image block at the current position in the
* input stream. Throw an error if an error occurs.
*/
ImageData readImageBlock(PaletteData defaultPalette) {
int depth;
PaletteData palette;
byte[] block = new byte[9];
try {
inputStream.read(block);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
int left = (block[0] & 0xFF) | ((block[1] & 0xFF) << 8);
int top = (block[2] & 0xFF) | ((block[3] & 0xFF) << 8);
int width = (block[4] & 0xFF) | ((block[5] & 0xFF) << 8);
int height = (block[6] & 0xFF) | ((block[7] & 0xFF) << 8);
byte bitField = block[8];
boolean interlaced = (bitField & 0x40) != 0;
// boolean sorted = (bitField & 0x20) != 0;
if ((bitField & 0x80) != 0) {
// Local palette.
depth = (bitField & 0x7) + 1;
palette = readPalette(1 << depth);
} else {
// No local palette.
depth = defaultDepth;
palette = defaultPalette;
}
/* Work around: Ignore the case where a GIF specifies an
* invalid index for the transparent pixel that is larger
* than the number of entries in the palette. */
if (transparentPixel > 1 << depth) {
transparentPixel = -1;
}
// Promote depth to next highest supported value.
if (!(depth == 1 || depth == 4 || depth == 8)) {
if (depth < 4) depth = 4;
else depth = 8;
}
if (palette == null) {
palette = grayRamp(1 << depth);
}
int initialCodeSize = -1;
try {
initialCodeSize = inputStream.read();
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
if (initialCodeSize < 0) {
SWT.error(SWT.ERROR_INVALID_IMAGE);
}
ImageData image =
ImageData.internal_new(
width,
height,
depth,
palette,
4,
null,
0,
null,
null,
-1,
transparentPixel,
SWT.IMAGE_GIF,
left,
top,
disposalMethod,
delayTime);
LZWCodec codec = new LZWCodec();
codec.decode(inputStream, loader, image, interlaced, initialCodeSize);
return image;
}
void convertPixelsToBGR(ImageData image, byte[] dest) {
/*
* For direct palette, uncompressed image, BMP encoders expect the
* pixels to be in BGR format for 24 & 32 bit and RGB 1555 for 16 bit
* On Linux and MacOS, the pixels are in RGB format. Also, in
* MacOS, the alpha byte may be first.
* Hence, we use the palette information of the image and convert
* the pixels to the required format. Converted pixels are stored
* in dest byte array.
*/
byte[] data = image.data;
PaletteData palette = image.palette;
for (int y = 0; y < image.height; y++) {
int index;
int srcX = 0, srcY = y;
int numOfBytes = image.depth / 8;
index = (y * image.bytesPerLine);
for (int i = 0; i < image.width; i++) {
int pixel = 0;
switch (image.depth) {
case 32:
pixel =
((data[index] & 0xFF) << 24)
| ((data[index + 1] & 0xFF) << 16)
| ((data[index + 2] & 0xFF) << 8)
| (data[index + 3] & 0xFF);
break;
case 24:
pixel =
((data[index] & 0xFF) << 16)
| ((data[index + 1] & 0xFF) << 8)
| (data[index + 2] & 0xFF);
break;
case 16:
pixel = ((data[index + 1] & 0xFF) << 8) | (data[index] & 0xFF);
break;
default:
SWT.error(SWT.ERROR_UNSUPPORTED_DEPTH);
}
if (image.depth == 16) {
/* convert to RGB 555 format */
int r = pixel & palette.redMask;
r = ((palette.redShift < 0) ? r >>> -palette.redShift : r << palette.redShift);
int g = pixel & palette.greenMask;
g = ((palette.greenShift < 0) ? g >>> -palette.greenShift : g << palette.greenShift);
g = (g & 0xF8); /* In 565 format, G is 6 bit, mask it to 5 bit */
int b = pixel & palette.blueMask;
b = ((palette.blueShift < 0) ? b >>> -palette.blueShift : b << palette.blueShift);
int modPixel = (r << 7) | (g << 2) | (b >> 3);
dest[index] = (byte) (modPixel & 0xFF);
dest[index + 1] = (byte) ((modPixel >> 8) & 0xFF);
} else {
/* convert to BGR format */
int b = pixel & palette.blueMask;
dest[index] =
(byte) ((palette.blueShift < 0) ? b >>> -palette.blueShift : b << palette.blueShift);
int g = pixel & palette.greenMask;
dest[index + 1] =
(byte)
((palette.greenShift < 0) ? g >>> -palette.greenShift : g << palette.greenShift);
int r = pixel & palette.redMask;
dest[index + 2] =
(byte) ((palette.redShift < 0) ? r >>> -palette.redShift : r << palette.redShift);
if (numOfBytes == 4) dest[index + 3] = 0;
}
srcX++;
if (srcX >= image.width) {
srcY++;
index = srcY * image.bytesPerLine;
srcX = 0;
} else {
index += numOfBytes;
}
}
}
}
@Override
ImageData[] loadFromByteStream() {
int[] fileHeader = loadFileHeader();
byte[] infoHeader = new byte[BMPHeaderFixedSize];
try {
inputStream.read(infoHeader);
} catch (Exception e) {
SWT.error(SWT.ERROR_IO, e);
}
int width =
(infoHeader[4] & 0xFF)
| ((infoHeader[5] & 0xFF) << 8)
| ((infoHeader[6] & 0xFF) << 16)
| ((infoHeader[7] & 0xFF) << 24);
int height =
(infoHeader[8] & 0xFF)
| ((infoHeader[9] & 0xFF) << 8)
| ((infoHeader[10] & 0xFF) << 16)
| ((infoHeader[11] & 0xFF) << 24);
if (height < 0) height = -height;
int bitCount = (infoHeader[14] & 0xFF) | ((infoHeader[15] & 0xFF) << 8);
this.compression =
(infoHeader[16] & 0xFF)
| ((infoHeader[17] & 0xFF) << 8)
| ((infoHeader[18] & 0xFF) << 16)
| ((infoHeader[19] & 0xFF) << 24);
PaletteData palette = loadPalette(infoHeader);
if (inputStream.getPosition() < fileHeader[4]) {
// Seek to the specified offset
try {
inputStream.skip(fileHeader[4] - inputStream.getPosition());
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
}
byte[] data = loadData(infoHeader);
this.importantColors =
(infoHeader[36] & 0xFF)
| ((infoHeader[37] & 0xFF) << 8)
| ((infoHeader[38] & 0xFF) << 16)
| ((infoHeader[39] & 0xFF) << 24);
int xPelsPerMeter =
(infoHeader[24] & 0xFF)
| ((infoHeader[25] & 0xFF) << 8)
| ((infoHeader[26] & 0xFF) << 16)
| ((infoHeader[27] & 0xFF) << 24);
int yPelsPerMeter =
(infoHeader[28] & 0xFF)
| ((infoHeader[29] & 0xFF) << 8)
| ((infoHeader[30] & 0xFF) << 16)
| ((infoHeader[31] & 0xFF) << 24);
this.pelsPerMeter = new Point(xPelsPerMeter, yPelsPerMeter);
int type =
(this.compression == 1 /*BMP_RLE8_COMPRESSION*/)
|| (this.compression == 2 /*BMP_RLE4_COMPRESSION*/)
? SWT.IMAGE_BMP_RLE
: SWT.IMAGE_BMP;
return new ImageData[] {
ImageData.internal_new(
width, height, bitCount, palette, 4, data, 0, null, null, -1, -1, type, 0, 0, 0, 0)
};
}
/**
* Load the GIF image(s) stored in the input stream. Return an array of ImageData representing the
* image(s).
*/
@Override
ImageData[] loadFromByteStream() {
byte[] signature = new byte[3];
byte[] versionBytes = new byte[3];
byte[] block = new byte[7];
try {
inputStream.read(signature);
if (!(signature[0] == 'G' && signature[1] == 'I' && signature[2] == 'F'))
SWT.error(SWT.ERROR_INVALID_IMAGE);
inputStream.read(versionBytes);
inputStream.read(block);
} catch (IOException e) {
SWT.error(SWT.ERROR_IO, e);
}
screenWidth = (block[0] & 0xFF) | ((block[1] & 0xFF) << 8);
loader.logicalScreenWidth = screenWidth;
screenHeight = (block[2] & 0xFF) | ((block[3] & 0xFF) << 8);
loader.logicalScreenHeight = screenHeight;
byte bitField = block[4];
backgroundPixel = block[5] & 0xFF;
// aspect = block[6] & 0xFF;
bitsPerPixel = ((bitField >> 4) & 0x07) + 1;
defaultDepth = (bitField & 0x7) + 1;
PaletteData palette = null;
if ((bitField & 0x80) != 0) {
// Global palette.
// sorted = (bitField & 0x8) != 0;
palette = readPalette(1 << defaultDepth);
} else {
// No global palette.
// sorted = false;
backgroundPixel = -1;
defaultDepth = bitsPerPixel;
}
loader.backgroundPixel = backgroundPixel;
ImageData[] images = new ImageData[0];
int id = readID();
while (id != GIF_TRAILER_ID && id != -1) {
if (id == GIF_IMAGE_BLOCK_ID) {
ImageData image = readImageBlock(palette);
if (loader.hasListeners()) {
loader.notifyListeners(new ImageLoaderEvent(loader, image, 3, true));
}
ImageData[] oldImages = images;
images = new ImageData[oldImages.length + 1];
System.arraycopy(oldImages, 0, images, 0, oldImages.length);
images[images.length - 1] = image;
} else if (id == GIF_EXTENSION_BLOCK_ID) {
/* Read the extension block. Currently, only the
* interesting parts of certain extensions are kept,
* and the rest is discarded. In future, if we want
* to keep extensions, they should be grouped with
* the image data before which they appear.
*/
readExtension();
} else {
/* The GIF is not to spec, but try to salvage it
* if we read at least one image. */
if (images.length > 0) break;
SWT.error(SWT.ERROR_INVALID_IMAGE);
}
id = readID(); // block terminator (0)
if (id == 0) id = readID(); // next block ID (unless we just read it)
}
return images;
}
