package com.sun.imageio.plugins.jpeg;
import javax.imageio.metadata.IIOInvalidTreeException;
import javax.imageio.metadata.IIOMetadataNode;
import javax.imageio.stream.ImageOutputStream;
import java.io.IOException;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;
import org.w3c.dom.NamedNodeMap;
class SOSMarkerSegment extends MarkerSegment {
int startSpectralSelection;
int endSpectralSelection;
int approxHigh;
int approxLow;
ScanComponentSpec [] componentSpecs;
SOSMarkerSegment(boolean willSubsample,
byte[] componentIDs,
int numComponents) {
super(JPEG.SOS);
startSpectralSelection = 0;
endSpectralSelection = 63;
approxHigh = 0;
approxLow = 0;
componentSpecs = new ScanComponentSpec[numComponents];
for (int i = 0; i < numComponents; i++) {
int tableSel = 0;
if (willSubsample) {
if ((i == 1) || (i == 2)) {
tableSel = 1;
}
}
componentSpecs[i] = new ScanComponentSpec(componentIDs[i],
tableSel);
}
}
SOSMarkerSegment(JPEGBuffer buffer) throws IOException {
super(buffer);
int numComponents = buffer.buf[buffer.bufPtr++];
componentSpecs = new ScanComponentSpec[numComponents];
for (int i = 0; i < numComponents; i++) {
componentSpecs[i] = new ScanComponentSpec(buffer);
}
startSpectralSelection = buffer.buf[buffer.bufPtr++];
endSpectralSelection = buffer.buf[buffer.bufPtr++];
approxHigh = buffer.buf[buffer.bufPtr] >> 4;
approxLow = buffer.buf[buffer.bufPtr++] &0xf;
buffer.bufAvail -= length;
}
SOSMarkerSegment(Node node) throws IIOInvalidTreeException {
super(JPEG.SOS);
startSpectralSelection = 0;
endSpectralSelection = 63;
approxHigh = 0;
approxLow = 0;
updateFromNativeNode(node, true);
}
protected Object clone () {
SOSMarkerSegment newGuy = (SOSMarkerSegment) super.clone();
if (componentSpecs != null) {
newGuy.componentSpecs = componentSpecs.clone();
for (int i = 0; i < componentSpecs.length; i++) {
newGuy.componentSpecs[i] =
(ScanComponentSpec) componentSpecs[i].clone();
}
}
return newGuy;
}
IIOMetadataNode getNativeNode() {
IIOMetadataNode node = new IIOMetadataNode("sos");
node.setAttribute("numScanComponents",
Integer.toString(componentSpecs.length));
node.setAttribute("startSpectralSelection",
Integer.toString(startSpectralSelection));
node.setAttribute("endSpectralSelection",
Integer.toString(endSpectralSelection));
node.setAttribute("approxHigh",
Integer.toString(approxHigh));
node.setAttribute("approxLow",
Integer.toString(approxLow));
for (int i = 0; i < componentSpecs.length; i++) {
node.appendChild(componentSpecs[i].getNativeNode());
}
return node;
}
void updateFromNativeNode(Node node, boolean fromScratch)
throws IIOInvalidTreeException {
NamedNodeMap attrs = node.getAttributes();
int numComponents = getAttributeValue(node, attrs, "numScanComponents",
1, 4, true);
int value = getAttributeValue(node, attrs, "startSpectralSelection",
0, 63, false);
startSpectralSelection = (value != -1) ? value : startSpectralSelection;
value = getAttributeValue(node, attrs, "endSpectralSelection",
0, 63, false);
endSpectralSelection = (value != -1) ? value : endSpectralSelection;
value = getAttributeValue(node, attrs, "approxHigh", 0, 15, false);
approxHigh = (value != -1) ? value : approxHigh;
value = getAttributeValue(node, attrs, "approxLow", 0, 15, false);
approxLow = (value != -1) ? value : approxLow;
NodeList children = node.getChildNodes();
if (children.getLength() != numComponents) {
throw new IIOInvalidTreeException
("numScanComponents must match the number of children", node);
}
componentSpecs = new ScanComponentSpec[numComponents];
for (int i = 0; i < numComponents; i++) {
componentSpecs[i] = new ScanComponentSpec(children.item(i));
}
}
void write(ImageOutputStream ios) throws IOException {
}
void print () {
printTag("SOS");
System.out.print("Start spectral selection: ");
System.out.println(startSpectralSelection);
System.out.print("End spectral selection: ");
System.out.println(endSpectralSelection);
System.out.print("Approx high: ");
System.out.println(approxHigh);
System.out.print("Approx low: ");
System.out.println(approxLow);
System.out.print("Num scan components: ");
System.out.println(componentSpecs.length);
for (int i = 0; i< componentSpecs.length; i++) {
componentSpecs[i].print();
}
}
ScanComponentSpec getScanComponentSpec(byte componentSel, int tableSel) {
return new ScanComponentSpec(componentSel, tableSel);
}
class ScanComponentSpec implements Cloneable {
int componentSelector;
int dcHuffTable;
int acHuffTable;
ScanComponentSpec(byte componentSel, int tableSel) {
componentSelector = componentSel;
dcHuffTable = tableSel;
acHuffTable = tableSel;
}
ScanComponentSpec(JPEGBuffer buffer) {
componentSelector = buffer.buf[buffer.bufPtr++];
dcHuffTable = buffer.buf[buffer.bufPtr] >> 4;
acHuffTable = buffer.buf[buffer.bufPtr++] & 0xf;
}
ScanComponentSpec(Node node) throws IIOInvalidTreeException {
NamedNodeMap attrs = node.getAttributes();
componentSelector = getAttributeValue(node, attrs, "componentSelector",
0, 255, true);
dcHuffTable = getAttributeValue(node, attrs, "dcHuffTable",
0, 3, true);
acHuffTable = getAttributeValue(node, attrs, "acHuffTable",
0, 3, true);
}
protected Object clone() {
try {
return super.clone();
} catch (CloneNotSupportedException e) {}
return null;
}
IIOMetadataNode getNativeNode() {
IIOMetadataNode node = new IIOMetadataNode("scanComponentSpec");
node.setAttribute("componentSelector",
Integer.toString(componentSelector));
node.setAttribute("dcHuffTable",
Integer.toString(dcHuffTable));
node.setAttribute("acHuffTable",
Integer.toString(acHuffTable));
return node;
}
void print () {
System.out.print("Component Selector: ");
System.out.println(componentSelector);
System.out.print("DC huffman table: ");
System.out.println(dcHuffTable);
System.out.print("AC huffman table: ");
System.out.println(acHuffTable);
}
}
}