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/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/* $Id$ */
package org.apache.fop.pdf;
// Java
import java.util.List;
import java.io.OutputStream;
import java.io.IOException;
/**
* class representing a PDF Function.
*
* PDF Functions represent parameterized mathematical formulas and sampled representations with
* arbitrary resolution. Functions are used in two areas: device-dependent
* rasterization information for halftoning and transfer
* functions, and color specification for smooth shading (a PDF 1.3 feature).
*
* All PDF Functions have a FunctionType (0,2,3, or 4), a Domain, and a Range.
*/
public class PDFPattern extends PDFPathPaint {
/**
* The resources associated with this pattern
*/
protected PDFResources resources = null;
/**
* Either one (1) for tiling, or two (2) for shading.
*/
protected int patternType = 2; // Default
/**
* The name of the pattern such as "Pa1" or "Pattern1"
*/
protected String patternName = null;
/**
* 1 for colored pattern, 2 for uncolored
*/
protected int paintType = 2;
/**
* 1 for constant spacing, 2 for no distortion, and 3 for fast rendering
*/
protected int tilingType = 1;
/**
* List of Doubles representing the Bounding box rectangle
*/
protected List bBox = null;
/**
* Horizontal spacing
*/
protected double xStep = -1;
/**
* Vertical spacing
*/
protected double yStep = -1;
/**
* The Shading object comprising the Type 2 pattern
*/
protected PDFShading shading = null;
/**
* List of Integers represetning the Extended unique Identifier
*/
protected List xUID = null;
/**
* TODO use PDFGState
* String representing the extended Graphics state.
* Probably will never be used like this.
*/
protected StringBuffer extGState = null;
/**
* List of Doubles representing the Transformation matrix.
*/
protected List matrix = null;
/**
* The stream of a pattern
*/
protected StringBuffer patternDataStream = null;
/**
* Create a tiling pattern (type 1).
*
* @param theResources the resources associated with this pattern
* @param thePatternType the type of pattern, which is 1 for tiling.
* @param thePaintType 1 or 2, colored or uncolored.
* @param theTilingType 1, 2, or 3, constant spacing, no distortion, or faster tiling
* @param theBBox List of Doubles: The pattern cell bounding box
* @param theXStep horizontal spacing
* @param theYStep vertical spacing
* @param theMatrix Optional List of Doubles transformation matrix
* @param theXUID Optional vector of Integers that uniquely identify the pattern
* @param thePatternDataStream The stream of pattern data to be tiled.
*/
public PDFPattern(PDFResources theResources, int thePatternType, // 1
int thePaintType, int theTilingType, List theBBox,
double theXStep, double theYStep,
List theMatrix, List theXUID,
StringBuffer thePatternDataStream) {
super();
this.resources = theResources;
// This next parameter is implicit to all constructors, and is
// not directly passed.
this.patternType = 1; // thePatternType;
this.paintType = thePaintType;
this.tilingType = theTilingType;
this.bBox = theBBox;
this.xStep = theXStep;
this.yStep = theYStep;
this.matrix = theMatrix;
this.xUID = theXUID;
this.patternDataStream = thePatternDataStream;
}
/**
* Create a type 2 pattern (smooth shading)
*
* @param thePatternType the type of the pattern, which is 2, smooth shading
* @param theShading the PDF Shading object that comprises this pattern
* @param theXUID optional:the extended unique Identifier if used.
* @param theExtGState optional: the extended graphics state, if used.
* @param theMatrix Optional:List of Doubles that specify the matrix.
*/
public PDFPattern(int thePatternType, PDFShading theShading,
List theXUID, StringBuffer theExtGState,
List theMatrix) {
super();
this.patternType = 2; // thePatternType;
this.shading = theShading;
this.xUID = theXUID;
// this isn't really implemented, so it should always be null.
// I just don't want to have to add a new parameter once it is implemented.
this.extGState = theExtGState; // always null
this.matrix = theMatrix;
}
/**
* Get the name of the pattern
*
* @return String representing the name of the pattern.
*/
public String getName() {
return (this.patternName);
}
/**
* Sets the name of the pattern.
* @param name the name of the pattern. Can be anything
* without spaces. "Pattern1" or "Pa1" are good examples.
*/
public void setName(String name) {
if (name.indexOf(" ") >= 0) {
throw new IllegalArgumentException(
"Pattern name must not contain any spaces");
}
this.patternName = name;
}
/**
* Get the PDF command for setting to this pattern.
*
* @param fillNotStroke if true fill otherwise stroke
* @return the PDF string for setting the pattern
*/
public String getColorSpaceOut(boolean fillNotStroke) {
if (fillNotStroke) { // fill but no stroke
return ("/Pattern cs /" + this.getName() + " scn \n");
} else { // stroke (or border)
return ("/Pattern CS /" + this.getName() + " SCN \n");
}
}
/**
* represent as PDF. Whatever the FunctionType is, the correct
* representation spits out. The sets of required and optional
* attributes are different for each type, but if a required
* attribute's object was constructed as null, then no error
* is raised. Instead, the malformed PDF that was requested
* by the construction is dutifully output.
* This policy should be reviewed.
*
* @param stream the stream to write to
* @throws IOException if there is an error writing to the stream
* @return the PDF string.
*/
protected int output(OutputStream stream) throws IOException {
int vectorSize = 0;
int tempInt = 0;
byte[] buffer;
StringBuffer p = new StringBuffer(64);
p.append(getObjectID());
p.append("<< \n/Type /Pattern \n");
if (this.resources != null) {
p.append("/Resources " + this.resources.referencePDF() + " \n");
}
p.append("/PatternType " + this.patternType + " \n");
PDFStream pdfStream = null;
StreamCache encodedStream = null;
if (this.patternType == 1) {
p.append("/PaintType " + this.paintType + " \n");
p.append("/TilingType " + this.tilingType + " \n");
if (this.bBox != null) {
vectorSize = this.bBox.size();
p.append("/BBox [ ");
for (tempInt = 0; tempInt < vectorSize; tempInt++) {
p.append(PDFNumber.doubleOut((Double)this.bBox.get(tempInt)));
p.append(" ");
}
p.append("] \n");
}
p.append("/XStep " + PDFNumber.doubleOut(new Double(this.xStep))
+ " \n");
p.append("/YStep " + PDFNumber.doubleOut(new Double(this.yStep))
+ " \n");
if (this.matrix != null) {
vectorSize = this.matrix.size();
p.append("/Matrix [ ");
for (tempInt = 0; tempInt < vectorSize; tempInt++) {
p.append(PDFNumber.doubleOut(
((Double)this.matrix.get(tempInt)).doubleValue(), 8));
p.append(" ");
}
p.append("] \n");
}
if (this.xUID != null) {
vectorSize = this.xUID.size();
p.append("/XUID [ ");
for (tempInt = 0; tempInt < vectorSize; tempInt++) {
p.append(((Integer)this.xUID.get(tempInt)) + " ");
}
p.append("] \n");
}
// don't forget the length of the stream.
if (this.patternDataStream != null) {
pdfStream = new PDFStream();
pdfStream.setDocument(getDocumentSafely());
pdfStream.add(this.patternDataStream.toString());
pdfStream.getFilterList().addDefaultFilters(
getDocument().getFilterMap(),
PDFFilterList.CONTENT_FILTER);
encodedStream = pdfStream.encodeStream();
p.append(pdfStream.getFilterList().buildFilterDictEntries());
p.append("/Length " + (encodedStream.getSize() + 1)
+ " \n");
}
} else {
// if (this.patternType ==2)
// Smooth Shading...
if (this.shading != null) {
p.append("/Shading " + this.shading.referencePDF() + " \n");
}
if (this.xUID != null) {
vectorSize = this.xUID.size();
p.append("/XUID [ ");
for (tempInt = 0; tempInt < vectorSize; tempInt++) {
p.append(((Integer)this.xUID.get(tempInt)) + " ");
}
p.append("] \n");
}
if (this.extGState != null) {
p.append("/ExtGState " + this.extGState + " \n");
}
if (this.matrix != null) {
vectorSize = this.matrix.size();
p.append("/Matrix [ ");
for (tempInt = 0; tempInt < vectorSize; tempInt++) {
p.append(PDFNumber.doubleOut(
((Double)this.matrix.get(tempInt)).doubleValue(), 8));
p.append(" ");
}
p.append("] \n");
}
} // end of if patterntype =1...else 2.
p.append(">> \n");
buffer = encode(p.toString());
int length = buffer.length;
stream.write(buffer);
// stream representing the function
if (pdfStream != null) {
length += pdfStream.outputStreamData(encodedStream, stream);
}
buffer = encode("\nendobj\n");
stream.write(buffer);
length += buffer.length;
return length;
}
/**
* Output PDF bytes, not used.
* @return returns null
*/
public byte[] toPDF() { return null; }
/** {@inheritDoc} */
protected boolean contentEquals(PDFObject obj) {
if (obj == null) {
return false;
}
if (obj == this) {
return true;
}
if (!(obj instanceof PDFPattern)) {
return false;
}
PDFPattern patt = (PDFPattern)obj;
if (patternType != patt.patternType) {
return false;
}
if (paintType != patt.paintType) {
return false;
}
if (tilingType != patt.tilingType) {
return false;
}
if (xStep != patt.xStep) {
return false;
}
if (yStep != patt.yStep) {
return false;
}
if (bBox != null) {
if (!bBox.equals(patt.bBox)) {
return false;
}
} else if (patt.bBox != null) {
return false;
}
if (bBox != null) {
if (!bBox.equals(patt.bBox)) {
return false;
}
} else if (patt.bBox != null) {
return false;
}
if (xUID != null) {
if (!xUID.equals(patt.xUID)) {
return false;
}
} else if (patt.xUID != null) {
return false;
}
if (extGState != null) {
if (!extGState.equals(patt.extGState)) {
return false;
}
} else if (patt.extGState != null) {
return false;
}
if (matrix != null) {
if (!matrix.equals(patt.matrix)) {
return false;
}
} else if (patt.matrix != null) {
return false;
}
if (resources != null) {
if (!resources.equals(patt.resources)) {
return false;
}
} else if (patt.resources != null) {
return false;
}
if (shading != null) {
if (!shading.equals(patt.shading)) {
return false;
}
} else if (patt.shading != null) {
return false;
}
if (patternDataStream != null) {
if (!patternDataStream.equals(patt.patternDataStream)) {
return false;
}
} else if (patt.patternDataStream != null) {
return false;
}
return true;
}
}
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