core.com.lowagie.text.pdf.AcroFields Maven / Gradle / Ivy
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/*
* Copyright 2003-2005 by Paulo Soares.
*
* The contents of this file are subject to the Mozilla Public License Version 1.1
* (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.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the License.
*
* The Original Code is 'iText, a free JAVA-PDF library'.
*
* The Initial Developer of the Original Code is Bruno Lowagie. Portions created by
* the Initial Developer are Copyright (C) 1999, 2000, 2001, 2002 by Bruno Lowagie.
* All Rights Reserved.
* Co-Developer of the code is Paulo Soares. Portions created by the Co-Developer
* are Copyright (C) 2000, 2001, 2002 by Paulo Soares. All Rights Reserved.
*
* Contributor(s): all the names of the contributors are added in the source code
* where applicable.
*
* Alternatively, the contents of this file may be used under the terms of the
* LGPL license (the "GNU LIBRARY GENERAL PUBLIC LICENSE"), in which case the
* provisions of LGPL are applicable instead of those above. If you wish to
* allow use of your version of this file only under the terms of the LGPL
* License and not to allow others to use your version of this file under
* the MPL, indicate your decision by deleting the provisions above and
* replace them with the notice and other provisions required by the LGPL.
* If you do not delete the provisions above, a recipient may use your version
* of this file under either the MPL or the GNU LIBRARY GENERAL PUBLIC LICENSE.
*
* This library is free software; you can redistribute it and/or modify it
* under the terms of the MPL as stated above or under the terms of the GNU
* Library General Public License as published by the Free Software Foundation;
* either version 2 of the License, or any later version.
*
* This library is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
* FOR A PARTICULAR PURPOSE. See the GNU Library general Public License for more
* details.
*
* If you didn't download this code from the following link, you should check if
* you aren't using an obsolete version:
* http://www.lowagie.com/iText/
*/
package com.lowagie.text.pdf;
import java.awt.Color;
import java.io.IOException;
import java.io.InputStream;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import org.w3c.dom.Node;
import com.lowagie.text.DocumentException;
import com.lowagie.text.Element;
import com.lowagie.text.ExceptionConverter;
import com.lowagie.text.Image;
import com.lowagie.text.Rectangle;
import com.lowagie.text.pdf.codec.Base64;
/** Query and change fields in existing documents either by method
* calls or by FDF merging.
* @author Paulo Soares ([email protected])
*/
public class AcroFields {
PdfReader reader;
PdfWriter writer;
HashMap fields;
private int topFirst;
private HashMap sigNames;
private boolean append;
public static final int DA_FONT = 0;
public static final int DA_SIZE = 1;
public static final int DA_COLOR = 2;
private HashMap extensionFonts = new HashMap();
private XfaForm xfa;
/**
* A field type invalid or not found.
*/
public static final int FIELD_TYPE_NONE = 0;
/**
* A field type.
*/
public static final int FIELD_TYPE_PUSHBUTTON = 1;
/**
* A field type.
*/
public static final int FIELD_TYPE_CHECKBOX = 2;
/**
* A field type.
*/
public static final int FIELD_TYPE_RADIOBUTTON = 3;
/**
* A field type.
*/
public static final int FIELD_TYPE_TEXT = 4;
/**
* A field type.
*/
public static final int FIELD_TYPE_LIST = 5;
/**
* A field type.
*/
public static final int FIELD_TYPE_COMBO = 6;
/**
* A field type.
*/
public static final int FIELD_TYPE_SIGNATURE = 7;
private boolean lastWasString;
/** Holds value of property generateAppearances. */
private boolean generateAppearances = true;
private HashMap localFonts = new HashMap();
private float extraMarginLeft;
private float extraMarginTop;
private ArrayList substitutionFonts;
AcroFields(PdfReader reader, PdfWriter writer) {
this.reader = reader;
this.writer = writer;
try {
xfa = new XfaForm(reader);
}
catch (Exception e) {
throw new ExceptionConverter(e);
}
if (writer instanceof PdfStamperImp) {
append = ((PdfStamperImp)writer).isAppend();
}
fill();
}
void fill() {
fields = new HashMap();
PdfDictionary top = (PdfDictionary)PdfReader.getPdfObjectRelease(reader.getCatalog().get(PdfName.ACROFORM));
if (top == null)
return;
PdfArray arrfds = (PdfArray)PdfReader.getPdfObjectRelease(top.get(PdfName.FIELDS));
if (arrfds == null || arrfds.size() == 0)
return;
arrfds = null;
for (int k = 1; k <= reader.getNumberOfPages(); ++k) {
PdfDictionary page = reader.getPageNRelease(k);
PdfArray annots = (PdfArray)PdfReader.getPdfObjectRelease(page.get(PdfName.ANNOTS), page);
if (annots == null)
continue;
ArrayList arr = annots.getArrayList();
for (int j = 0; j < arr.size(); ++j) {
PdfObject annoto = PdfReader.getPdfObject((PdfObject)arr.get(j), annots);
if (!(annoto instanceof PdfDictionary)) {
PdfReader.releaseLastXrefPartial((PdfObject)arr.get(j));
continue;
}
PdfDictionary annot = (PdfDictionary)annoto;
if (!PdfName.WIDGET.equals(annot.get(PdfName.SUBTYPE))) {
PdfReader.releaseLastXrefPartial((PdfObject)arr.get(j));
continue;
}
PdfDictionary widget = annot;
PdfDictionary dic = new PdfDictionary();
dic.putAll(annot);
String name = "";
PdfDictionary value = null;
PdfObject lastV = null;
while (annot != null) {
dic.mergeDifferent(annot);
PdfString t = (PdfString)PdfReader.getPdfObject(annot.get(PdfName.T));
if (t != null)
name = t.toUnicodeString() + "." + name;
if (lastV == null && annot.get(PdfName.V) != null)
lastV = PdfReader.getPdfObjectRelease(annot.get(PdfName.V));
if (value == null && t != null) {
value = annot;
if (annot.get(PdfName.V) == null && lastV != null)
value.put(PdfName.V, lastV);
}
annot = (PdfDictionary)PdfReader.getPdfObject(annot.get(PdfName.PARENT), annot);
}
if (name.length() > 0)
name = name.substring(0, name.length() - 1);
Item item = (Item)fields.get(name);
if (item == null) {
item = new Item();
fields.put(name, item);
}
if (value == null)
item.values.add(widget);
else
item.values.add(value);
item.widgets.add(widget);
item.widget_refs.add(arr.get(j)); // must be a reference
if (top != null)
dic.mergeDifferent(top);
item.merged.add(dic);
item.page.add(new Integer(k));
item.tabOrder.add(new Integer(j));
}
}
}
/** Gets the list of appearance names. Use it to get the names allowed
* with radio and checkbox fields. If the /Opt key exists the values will
* also be included. The name 'Off' may also be valid
* even if not returned in the list.
* @param fieldName the fully qualified field name
* @return the list of names or null
if the field does not exist
*/
public String[] getAppearanceStates(String fieldName) {
Item fd = (Item)fields.get(fieldName);
if (fd == null)
return null;
HashMap names = new HashMap();
PdfDictionary vals = (PdfDictionary)fd.values.get(0);
PdfObject opts = PdfReader.getPdfObject(vals.get(PdfName.OPT));
if (opts != null) {
if (opts.isString())
names.put(((PdfString)opts).toUnicodeString(), null);
else if (opts.isArray()) {
ArrayList list = ((PdfArray)opts).getArrayList();
for (int k = 0; k < list.size(); ++k) {
PdfObject v = PdfReader.getPdfObject((PdfObject)list.get(k));
if (v != null && v.isString())
names.put(((PdfString)v).toUnicodeString(), null);
}
}
}
ArrayList wd = fd.widgets;
for (int k = 0; k < wd.size(); ++k) {
PdfDictionary dic = (PdfDictionary)wd.get(k);
dic = (PdfDictionary)PdfReader.getPdfObject(dic.get(PdfName.AP));
if (dic == null)
continue;
PdfObject ob = PdfReader.getPdfObject(dic.get(PdfName.N));
if (ob == null || !ob.isDictionary())
continue;
dic = (PdfDictionary)ob;
for (Iterator it = dic.getKeys().iterator(); it.hasNext();) {
String name = PdfName.decodeName(((PdfName)it.next()).toString());
names.put(name, null);
}
}
String out[] = new String[names.size()];
return (String[])names.keySet().toArray(out);
}
private String[] getListOption(String fieldName, int idx) {
Item fd = getFieldItem(fieldName);
if (fd == null)
return null;
PdfObject obj = PdfReader.getPdfObject(((PdfDictionary)fd.merged.get(0)).get(PdfName.OPT));
if (obj == null || !obj.isArray())
return null;
PdfArray ar = (PdfArray)obj;
String[] ret = new String[ar.size()];
ArrayList a = ar.getArrayList();
for (int k = 0; k < a.size(); ++k) {
obj = PdfReader.getPdfObject((PdfObject)a.get(k));
try {
if (obj.isArray()) {
obj = (PdfObject)((PdfArray)obj).getArrayList().get(idx);
}
if (obj.isString())
ret[k] = ((PdfString)obj).toUnicodeString();
else
ret[k] = obj.toString();
}
catch (Exception e) {
ret[k] = "";
}
}
return ret;
}
/**
* Gets the list of export option values from fields of type list or combo.
* If the field doesn't exist or the field type is not list or combo it will return
* null
.
* @param fieldName the field name
* @return the list of export option values from fields of type list or combo
*/
public String[] getListOptionExport(String fieldName) {
return getListOption(fieldName, 0);
}
/**
* Gets the list of display option values from fields of type list or combo.
* If the field doesn't exist or the field type is not list or combo it will return
* null
.
* @param fieldName the field name
* @return the list of export option values from fields of type list or combo
*/
public String[] getListOptionDisplay(String fieldName) {
return getListOption(fieldName, 1);
}
/**
* Sets the option list for fields of type list or combo. One of exportValues
* or displayValues
may be null
but not both. This method will only
* set the list but will not set the value or appearance. For that, calling setField()
* is required.
*
* An example:
*
*
* PdfReader pdf = new PdfReader("input.pdf");
* PdfStamper stp = new PdfStamper(pdf, new FileOutputStream("output.pdf"));
* AcroFields af = stp.getAcroFields();
* af.setListOption("ComboBox", new String[]{"a", "b", "c"}, new String[]{"first", "second", "third"});
* af.setField("ComboBox", "b");
* stp.close();
*
* @param fieldName the field name
* @param exportValues the export values
* @param displayValues the display values
* @return true
if the operation succeeded, false
otherwise
*/
public boolean setListOption(String fieldName, String[] exportValues, String[] displayValues) {
if (exportValues == null && displayValues == null)
return false;
if (exportValues != null && displayValues != null && exportValues.length != displayValues.length)
throw new IllegalArgumentException("The export and the display array must have the same size.");
int ftype = getFieldType(fieldName);
if (ftype != FIELD_TYPE_COMBO && ftype != FIELD_TYPE_LIST)
return false;
Item fd = (Item)fields.get(fieldName);
String[] sing = null;
if (exportValues == null && displayValues != null)
sing = displayValues;
else if (exportValues != null && displayValues == null)
sing = exportValues;
PdfArray opt = new PdfArray();
if (sing != null) {
for (int k = 0; k < sing.length; ++k)
opt.add(new PdfString(sing[k], PdfObject.TEXT_UNICODE));
}
else {
for (int k = 0; k < exportValues.length; ++k) {
PdfArray a = new PdfArray();
a.add(new PdfString(exportValues[k], PdfObject.TEXT_UNICODE));
a.add(new PdfString(displayValues[k], PdfObject.TEXT_UNICODE));
opt.add(a);
}
}
((PdfDictionary)fd.values.get(0)).put(PdfName.OPT, opt);
for (int j = 0; j < fd.merged.size(); ++j)
((PdfDictionary)fd.merged.get(j)).put(PdfName.OPT, opt);
return true;
}
/**
* Gets the field type. The type can be one of: FIELD_TYPE_PUSHBUTTON
,
* FIELD_TYPE_CHECKBOX
, FIELD_TYPE_RADIOBUTTON
,
* FIELD_TYPE_TEXT
, FIELD_TYPE_LIST
,
* FIELD_TYPE_COMBO
or FIELD_TYPE_SIGNATURE
.
*
* If the field does not exist or is invalid it returns
* FIELD_TYPE_NONE
.
* @param fieldName the field name
* @return the field type
*/
public int getFieldType(String fieldName) {
Item fd = getFieldItem(fieldName);
if (fd == null)
return FIELD_TYPE_NONE;
PdfObject type = PdfReader.getPdfObject(((PdfDictionary)fd.merged.get(0)).get(PdfName.FT));
if (type == null)
return FIELD_TYPE_NONE;
int ff = 0;
PdfObject ffo = PdfReader.getPdfObject(((PdfDictionary)fd.merged.get(0)).get(PdfName.FF));
if (ffo != null && ffo.type() == PdfObject.NUMBER)
ff = ((PdfNumber)ffo).intValue();
if (PdfName.BTN.equals(type)) {
if ((ff & PdfFormField.FF_PUSHBUTTON) != 0)
return FIELD_TYPE_PUSHBUTTON;
if ((ff & PdfFormField.FF_RADIO) != 0)
return FIELD_TYPE_RADIOBUTTON;
else
return FIELD_TYPE_CHECKBOX;
}
else if (PdfName.TX.equals(type)) {
return FIELD_TYPE_TEXT;
}
else if (PdfName.CH.equals(type)) {
if ((ff & PdfFormField.FF_COMBO) != 0)
return FIELD_TYPE_COMBO;
else
return FIELD_TYPE_LIST;
}
else if (PdfName.SIG.equals(type)) {
return FIELD_TYPE_SIGNATURE;
}
return FIELD_TYPE_NONE;
}
/**
* Export the fields as a FDF.
* @param writer the FDF writer
*/
public void exportAsFdf(FdfWriter writer) {
for (Iterator it = fields.entrySet().iterator(); it.hasNext();) {
Map.Entry entry = (Map.Entry)it.next();
Item item = (Item)entry.getValue();
String name = (String)entry.getKey();
PdfObject v = PdfReader.getPdfObject(((PdfDictionary)item.merged.get(0)).get(PdfName.V));
if (v == null)
continue;
String value = getField(name);
if (lastWasString)
writer.setFieldAsString(name, value);
else
writer.setFieldAsName(name, value);
}
}
/**
* Renames a field. Only the last part of the name can be renamed. For example,
* if the original field is "ab.cd.ef" only the "ef" part can be renamed.
* @param oldName the old field name
* @param newName the new field name
* @return true
if the renaming was successful, false
* otherwise
*/
public boolean renameField(String oldName, String newName) {
int idx1 = oldName.lastIndexOf('.') + 1;
int idx2 = newName.lastIndexOf('.') + 1;
if (idx1 != idx2)
return false;
if (!oldName.substring(0, idx1).equals(newName.substring(0, idx2)))
return false;
if (fields.containsKey(newName))
return false;
Item item = (Item)fields.get(oldName);
if (item == null)
return false;
newName = newName.substring(idx2);
PdfString ss = new PdfString(newName, PdfObject.TEXT_UNICODE);
for (int k = 0; k < item.merged.size(); ++k) {
PdfDictionary dic = (PdfDictionary)item.values.get(k);
dic.put(PdfName.T, ss);
markUsed(dic);
dic = (PdfDictionary)item.merged.get(k);
dic.put(PdfName.T, ss);
}
fields.remove(oldName);
fields.put(newName, item);
return true;
}
public static Object[] splitDAelements(String da) {
try {
PRTokeniser tk = new PRTokeniser(PdfEncodings.convertToBytes(da, null));
ArrayList stack = new ArrayList();
Object ret[] = new Object[3];
while (tk.nextToken()) {
if (tk.getTokenType() == PRTokeniser.TK_COMMENT)
continue;
if (tk.getTokenType() == PRTokeniser.TK_OTHER) {
String operator = tk.getStringValue();
if (operator.equals("Tf")) {
if (stack.size() >= 2) {
ret[DA_FONT] = stack.get(stack.size() - 2);
ret[DA_SIZE] = new Float((String)stack.get(stack.size() - 1));
}
}
else if (operator.equals("g")) {
if (stack.size() >= 1) {
float gray = new Float((String)stack.get(stack.size() - 1)).floatValue();
if (gray != 0)
ret[DA_COLOR] = new GrayColor(gray);
}
}
else if (operator.equals("rg")) {
if (stack.size() >= 3) {
float red = new Float((String)stack.get(stack.size() - 3)).floatValue();
float green = new Float((String)stack.get(stack.size() - 2)).floatValue();
float blue = new Float((String)stack.get(stack.size() - 1)).floatValue();
ret[DA_COLOR] = new Color(red, green, blue);
}
}
else if (operator.equals("k")) {
if (stack.size() >= 4) {
float cyan = new Float((String)stack.get(stack.size() - 4)).floatValue();
float magenta = new Float((String)stack.get(stack.size() - 3)).floatValue();
float yellow = new Float((String)stack.get(stack.size() - 2)).floatValue();
float black = new Float((String)stack.get(stack.size() - 1)).floatValue();
ret[DA_COLOR] = new CMYKColor(cyan, magenta, yellow, black);
}
}
stack.clear();
}
else
stack.add(tk.getStringValue());
}
return ret;
}
catch (IOException ioe) {
throw new ExceptionConverter(ioe);
}
}
public void decodeGenericDictionary(PdfDictionary merged, BaseField tx) throws IOException, DocumentException {
int flags = 0;
// the text size and color
PdfString da = (PdfString)PdfReader.getPdfObject(merged.get(PdfName.DA));
if (da != null) {
Object dab[] = splitDAelements(da.toUnicodeString());
if (dab[DA_SIZE] != null)
tx.setFontSize(((Float)dab[DA_SIZE]).floatValue());
if (dab[DA_COLOR] != null)
tx.setTextColor((Color)dab[DA_COLOR]);
if (dab[DA_FONT] != null) {
PdfDictionary font = (PdfDictionary)PdfReader.getPdfObject(merged.get(PdfName.DR));
if (font != null) {
font = (PdfDictionary)PdfReader.getPdfObject(font.get(PdfName.FONT));
if (font != null) {
PdfObject po = font.get(new PdfName((String)dab[DA_FONT]));
if (po != null && po.type() == PdfObject.INDIRECT) {
PRIndirectReference por = (PRIndirectReference)po;
BaseFont bp = new DocumentFont((PRIndirectReference)po);
tx.setFont(bp);
Integer porkey = new Integer(por.getNumber());
BaseFont porf = (BaseFont)extensionFonts.get(porkey);
if (porf == null) {
if (!extensionFonts.containsKey(porkey)) {
PdfDictionary fo = (PdfDictionary)PdfReader.getPdfObject(po);
PdfDictionary fd = (PdfDictionary)PdfReader.getPdfObject(fo.get(PdfName.FONTDESCRIPTOR));
if (fd != null) {
PRStream prs = (PRStream)PdfReader.getPdfObject(fd.get(PdfName.FONTFILE2));
if (prs == null)
prs = (PRStream)PdfReader.getPdfObject(fd.get(PdfName.FONTFILE3));
if (prs == null) {
extensionFonts.put(porkey, null);
}
else {
try {
porf = BaseFont.createFont("font.ttf", BaseFont.IDENTITY_H, true, false, PdfReader.getStreamBytes(prs), null);
}
catch (Exception e) {
}
extensionFonts.put(porkey, porf);
}
}
}
}
if (tx instanceof TextField)
((TextField)tx).setExtensionFont(porf);
}
else {
BaseFont bf = (BaseFont)localFonts.get(dab[DA_FONT]);
if (bf == null) {
String fn[] = (String[])stdFieldFontNames.get(dab[DA_FONT]);
if (fn != null) {
try {
String enc = "winansi";
if (fn.length > 1)
enc = fn[1];
bf = BaseFont.createFont(fn[0], enc, false);
tx.setFont(bf);
}
catch (Exception e) {
// empty
}
}
}
else
tx.setFont(bf);
}
}
}
}
}
//rotation, border and background color
PdfDictionary mk = (PdfDictionary)PdfReader.getPdfObject(merged.get(PdfName.MK));
if (mk != null) {
PdfArray ar = (PdfArray)PdfReader.getPdfObject(mk.get(PdfName.BC));
Color border = getMKColor(ar);
tx.setBorderColor(border);
if (border != null)
tx.setBorderWidth(1);
ar = (PdfArray)PdfReader.getPdfObject(mk.get(PdfName.BG));
tx.setBackgroundColor(getMKColor(ar));
PdfNumber rotation = (PdfNumber)PdfReader.getPdfObject(mk.get(PdfName.R));
if (rotation != null)
tx.setRotation(rotation.intValue());
}
//flags
PdfNumber nfl = (PdfNumber)PdfReader.getPdfObject(merged.get(PdfName.F));
flags = 0;
tx.setVisibility(BaseField.VISIBLE_BUT_DOES_NOT_PRINT);
if (nfl != null) {
flags = nfl.intValue();
if ((flags & PdfFormField.FLAGS_PRINT) != 0 && (flags & PdfFormField.FLAGS_HIDDEN) != 0)
tx.setVisibility(BaseField.HIDDEN);
else if ((flags & PdfFormField.FLAGS_PRINT) != 0 && (flags & PdfFormField.FLAGS_NOVIEW) != 0)
tx.setVisibility(BaseField.HIDDEN_BUT_PRINTABLE);
else if ((flags & PdfFormField.FLAGS_PRINT) != 0)
tx.setVisibility(BaseField.VISIBLE);
}
//multiline
nfl = (PdfNumber)PdfReader.getPdfObject(merged.get(PdfName.FF));
flags = 0;
if (nfl != null)
flags = nfl.intValue();
tx.setOptions(flags);
if ((flags & PdfFormField.FF_COMB) != 0) {
PdfNumber maxLen = (PdfNumber)PdfReader.getPdfObject(merged.get(PdfName.MAXLEN));
int len = 0;
if (maxLen != null)
len = maxLen.intValue();
tx.setMaxCharacterLength(len);
}
//alignment
nfl = (PdfNumber)PdfReader.getPdfObject(merged.get(PdfName.Q));
if (nfl != null) {
if (nfl.intValue() == PdfFormField.Q_CENTER)
tx.setAlignment(Element.ALIGN_CENTER);
else if (nfl.intValue() == PdfFormField.Q_RIGHT)
tx.setAlignment(Element.ALIGN_RIGHT);
}
//border styles
PdfDictionary bs = (PdfDictionary)PdfReader.getPdfObject(merged.get(PdfName.BS));
if (bs != null) {
PdfNumber w = (PdfNumber)PdfReader.getPdfObject(bs.get(PdfName.W));
if (w != null)
tx.setBorderWidth(w.floatValue());
PdfName s = (PdfName)PdfReader.getPdfObject(bs.get(PdfName.S));
if (PdfName.D.equals(s))
tx.setBorderStyle(PdfBorderDictionary.STYLE_DASHED);
else if (PdfName.B.equals(s))
tx.setBorderStyle(PdfBorderDictionary.STYLE_BEVELED);
else if (PdfName.I.equals(s))
tx.setBorderStyle(PdfBorderDictionary.STYLE_INSET);
else if (PdfName.U.equals(s))
tx.setBorderStyle(PdfBorderDictionary.STYLE_UNDERLINE);
}
else {
PdfArray bd = (PdfArray)PdfReader.getPdfObject(merged.get(PdfName.BORDER));
if (bd != null) {
ArrayList ar = bd.getArrayList();
if (ar.size() >= 3)
tx.setBorderWidth(((PdfNumber)ar.get(2)).floatValue());
if (ar.size() >= 4)
tx.setBorderStyle(PdfBorderDictionary.STYLE_DASHED);
}
}
}
PdfAppearance getAppearance(PdfDictionary merged, String text, String fieldName) throws IOException, DocumentException {
topFirst = 0;
TextField tx = null;
if (fieldCache == null || !fieldCache.containsKey(fieldName)) {
tx = new TextField(writer, null, null);
tx.setExtraMargin(extraMarginLeft, extraMarginTop);
tx.setBorderWidth(0);
tx.setSubstitutionFonts(substitutionFonts);
decodeGenericDictionary(merged, tx);
//rect
PdfArray rect = (PdfArray)PdfReader.getPdfObject(merged.get(PdfName.RECT));
Rectangle box = PdfReader.getNormalizedRectangle(rect);
if (tx.getRotation() == 90 || tx.getRotation() == 270)
box = box.rotate();
tx.setBox(box);
if (fieldCache != null)
fieldCache.put(fieldName, tx);
}
else {
tx = (TextField)fieldCache.get(fieldName);
tx.setWriter(writer);
}
PdfName fieldType = (PdfName)PdfReader.getPdfObject(merged.get(PdfName.FT));
if (PdfName.TX.equals(fieldType)) {
tx.setText(text);
return tx.getAppearance();
}
if (!PdfName.CH.equals(fieldType))
throw new DocumentException("An appearance was requested without a variable text field.");
PdfArray opt = (PdfArray)PdfReader.getPdfObject(merged.get(PdfName.OPT));
int flags = 0;
PdfNumber nfl = (PdfNumber)PdfReader.getPdfObject(merged.get(PdfName.FF));
if (nfl != null)
flags = nfl.intValue();
if ((flags & PdfFormField.FF_COMBO) != 0 && opt == null) {
tx.setText(text);
return tx.getAppearance();
}
if (opt != null) {
ArrayList op = opt.getArrayList();
String choices[] = new String[op.size()];
String choicesExp[] = new String[op.size()];
for (int k = 0; k < op.size(); ++k) {
PdfObject obj = (PdfObject)op.get(k);
if (obj.isString()) {
choices[k] = choicesExp[k] = ((PdfString)obj).toUnicodeString();
}
else {
ArrayList opar = ((PdfArray)obj).getArrayList();
choicesExp[k] = ((PdfString)opar.get(0)).toUnicodeString();
choices[k] = ((PdfString)opar.get(1)).toUnicodeString();
}
}
if ((flags & PdfFormField.FF_COMBO) != 0) {
for (int k = 0; k < choices.length; ++k) {
if (text.equals(choicesExp[k])) {
text = choices[k];
break;
}
}
tx.setText(text);
return tx.getAppearance();
}
int idx = 0;
for (int k = 0; k < choicesExp.length; ++k) {
if (text.equals(choicesExp[k])) {
idx = k;
break;
}
}
tx.setChoices(choices);
tx.setChoiceExports(choicesExp);
tx.setChoiceSelection(idx);
}
PdfAppearance app = tx.getListAppearance();
topFirst = tx.getTopFirst();
return app;
}
Color getMKColor(PdfArray ar) {
if (ar == null)
return null;
ArrayList cc = ar.getArrayList();
switch (cc.size()) {
case 1:
return new GrayColor(((PdfNumber)cc.get(0)).floatValue());
case 3:
return new Color(ExtendedColor.normalize(((PdfNumber)cc.get(0)).floatValue()), ExtendedColor.normalize(((PdfNumber)cc.get(1)).floatValue()), ExtendedColor.normalize(((PdfNumber)cc.get(2)).floatValue()));
case 4:
return new CMYKColor(((PdfNumber)cc.get(0)).floatValue(), ((PdfNumber)cc.get(1)).floatValue(), ((PdfNumber)cc.get(2)).floatValue(), ((PdfNumber)cc.get(3)).floatValue());
default:
return null;
}
}
/** Gets the field value.
* @param name the fully qualified field name
* @return the field value
*/
public String getField(String name) {
if (xfa.isXfaPresent()) {
name = xfa.findFieldName(name, this);
if (name == null)
return null;
name = XfaForm.Xml2Som.getShortName(name);
return XfaForm.getNodeText(xfa.findDatasetsNode(name));
}
Item item = (Item)fields.get(name);
if (item == null)
return null;
lastWasString = false;
PdfObject v = PdfReader.getPdfObject(((PdfDictionary)item.merged.get(0)).get(PdfName.V));
if (v == null)
return "";
PdfName type = (PdfName)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(0)).get(PdfName.FT));
if (PdfName.BTN.equals(type)) {
PdfNumber ff = (PdfNumber)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(0)).get(PdfName.FF));
int flags = 0;
if (ff != null)
flags = ff.intValue();
if ((flags & PdfFormField.FF_PUSHBUTTON) != 0)
return "";
String value = "";
if (v.isName())
value = PdfName.decodeName(v.toString());
else if (v.isString())
value = ((PdfString)v).toUnicodeString();
PdfObject opts = PdfReader.getPdfObject(((PdfDictionary)item.values.get(0)).get(PdfName.OPT));
if (opts != null && opts.isArray()) {
ArrayList list = ((PdfArray)opts).getArrayList();
int idx = 0;
try {
idx = Integer.parseInt(value);
PdfString ps = (PdfString)list.get(idx);
value = ps.toUnicodeString();
lastWasString = true;
}
catch (Exception e) {
}
}
return value;
}
if (v.isString()) {
lastWasString = true;
return ((PdfString)v).toUnicodeString();
}
return PdfName.decodeName(v.toString());
}
/**
* Gets the field values of a Choice field.
* @param name the fully qualified field name
* @return the field value
* @since 2.1.3
*/
public String[] getListSelection(String name) {
String[] ret;
String s = getField(name);
if (s == null) {
ret = new String[]{};
}
else {
ret = new String[]{ s };
}
Item item = (Item)fields.get(name);
if (item == null)
return ret;
//PdfName type = (PdfName)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(0)).get(PdfName.FT));
//if (!PdfName.CH.equals(type)) {
// return ret;
//}
PdfArray values = (PdfArray)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(0)).get(PdfName.I));
if (values == null)
return ret;
ret = new String[values.size()];
String[] options = getListOptionExport(name);
PdfNumber n;
int idx = 0;
for (Iterator i = values.listIterator(); i.hasNext(); ) {
n = (PdfNumber)i.next();
ret[idx++] = options[n.intValue()];
}
return ret;
}
/**
* Sets a field property. Valid property names are:
*
*
* - textfont - sets the text font. The value for this entry is a
BaseFont
.
* - textcolor - sets the text color. The value for this entry is a
java.awt.Color
.
* - textsize - sets the text size. The value for this entry is a
Float
.
* - bgcolor - sets the background color. The value for this entry is a
java.awt.Color
.
* If null
removes the background.
* - bordercolor - sets the border color. The value for this entry is a
java.awt.Color
.
* If null
removes the border.
*
* @param field the field name
* @param name the property name
* @param value the property value
* @param inst an array of int
indexing into AcroField.Item.merged
elements to process.
* Set to null
to process all
* @return true
if the property exists, false
otherwise
*/
public boolean setFieldProperty(String field, String name, Object value, int inst[]) {
if (writer == null)
throw new RuntimeException("This AcroFields instance is read-only.");
try {
Item item = (Item)fields.get(field);
if (item == null)
return false;
InstHit hit = new InstHit(inst);
if (name.equalsIgnoreCase("textfont")) {
for (int k = 0; k < item.merged.size(); ++k) {
if (hit.isHit(k)) {
PdfString da = (PdfString)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(k)).get(PdfName.DA));
PdfDictionary dr = (PdfDictionary)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(k)).get(PdfName.DR));
if (da != null && dr != null) {
Object dao[] = splitDAelements(da.toUnicodeString());
PdfAppearance cb = new PdfAppearance();
if (dao[DA_FONT] != null) {
BaseFont bf = (BaseFont)value;
PdfName psn = (PdfName)PdfAppearance.stdFieldFontNames.get(bf.getPostscriptFontName());
if (psn == null) {
psn = new PdfName(bf.getPostscriptFontName());
}
PdfDictionary fonts = (PdfDictionary)PdfReader.getPdfObject(dr.get(PdfName.FONT));
if (fonts == null) {
fonts = new PdfDictionary();
dr.put(PdfName.FONT, fonts);
}
PdfIndirectReference fref = (PdfIndirectReference)fonts.get(psn);
PdfDictionary top = (PdfDictionary)PdfReader.getPdfObject(reader.getCatalog().get(PdfName.ACROFORM));
markUsed(top);
dr = (PdfDictionary)PdfReader.getPdfObject(top.get(PdfName.DR));
if (dr == null) {
dr = new PdfDictionary();
top.put(PdfName.DR, dr);
}
markUsed(dr);
PdfDictionary fontsTop = (PdfDictionary)PdfReader.getPdfObject(dr.get(PdfName.FONT));
if (fontsTop == null) {
fontsTop = new PdfDictionary();
dr.put(PdfName.FONT, fontsTop);
}
markUsed(fontsTop);
PdfIndirectReference frefTop = (PdfIndirectReference)fontsTop.get(psn);
if (frefTop != null) {
if (fref == null)
fonts.put(psn, frefTop);
}
else if (fref == null) {
FontDetails fd;
if (bf.getFontType() == BaseFont.FONT_TYPE_DOCUMENT) {
fd = new FontDetails(null, ((DocumentFont)bf).getIndirectReference(), bf);
}
else {
bf.setSubset(false);
fd = writer.addSimple(bf);
localFonts.put(psn.toString().substring(1), bf);
}
fontsTop.put(psn, fd.getIndirectReference());
fonts.put(psn, fd.getIndirectReference());
}
ByteBuffer buf = cb.getInternalBuffer();
buf.append(psn.getBytes()).append(' ').append(((Float)dao[DA_SIZE]).floatValue()).append(" Tf ");
if (dao[DA_COLOR] != null)
cb.setColorFill((Color)dao[DA_COLOR]);
PdfString s = new PdfString(cb.toString());
((PdfDictionary)item.merged.get(k)).put(PdfName.DA, s);
((PdfDictionary)item.widgets.get(k)).put(PdfName.DA, s);
markUsed((PdfDictionary)item.widgets.get(k));
}
}
}
}
}
else if (name.equalsIgnoreCase("textcolor")) {
for (int k = 0; k < item.merged.size(); ++k) {
if (hit.isHit(k)) {
PdfString da = (PdfString)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(k)).get(PdfName.DA));
if (da != null) {
Object dao[] = splitDAelements(da.toUnicodeString());
PdfAppearance cb = new PdfAppearance();
if (dao[DA_FONT] != null) {
ByteBuffer buf = cb.getInternalBuffer();
buf.append(new PdfName((String)dao[DA_FONT]).getBytes()).append(' ').append(((Float)dao[DA_SIZE]).floatValue()).append(" Tf ");
cb.setColorFill((Color)value);
PdfString s = new PdfString(cb.toString());
((PdfDictionary)item.merged.get(k)).put(PdfName.DA, s);
((PdfDictionary)item.widgets.get(k)).put(PdfName.DA, s);
markUsed((PdfDictionary)item.widgets.get(k));
}
}
}
}
}
else if (name.equalsIgnoreCase("textsize")) {
for (int k = 0; k < item.merged.size(); ++k) {
if (hit.isHit(k)) {
PdfString da = (PdfString)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(k)).get(PdfName.DA));
if (da != null) {
Object dao[] = splitDAelements(da.toUnicodeString());
PdfAppearance cb = new PdfAppearance();
if (dao[DA_FONT] != null) {
ByteBuffer buf = cb.getInternalBuffer();
buf.append(new PdfName((String)dao[DA_FONT]).getBytes()).append(' ').append(((Float)value).floatValue()).append(" Tf ");
if (dao[DA_COLOR] != null)
cb.setColorFill((Color)dao[DA_COLOR]);
PdfString s = new PdfString(cb.toString());
((PdfDictionary)item.merged.get(k)).put(PdfName.DA, s);
((PdfDictionary)item.widgets.get(k)).put(PdfName.DA, s);
markUsed((PdfDictionary)item.widgets.get(k));
}
}
}
}
}
else if (name.equalsIgnoreCase("bgcolor") || name.equalsIgnoreCase("bordercolor")) {
PdfName dname = (name.equalsIgnoreCase("bgcolor") ? PdfName.BG : PdfName.BC);
for (int k = 0; k < item.merged.size(); ++k) {
if (hit.isHit(k)) {
PdfObject obj = PdfReader.getPdfObject(((PdfDictionary)item.merged.get(k)).get(PdfName.MK));
markUsed(obj);
PdfDictionary mk = (PdfDictionary)obj;
if (mk == null) {
if (value == null)
return true;
mk = new PdfDictionary();
((PdfDictionary)item.merged.get(k)).put(PdfName.MK, mk);
((PdfDictionary)item.widgets.get(k)).put(PdfName.MK, mk);
markUsed((PdfDictionary)item.widgets.get(k));
}
if (value == null)
mk.remove(dname);
else
mk.put(dname, PdfFormField.getMKColor((Color)value));
}
}
}
else
return false;
return true;
}
catch (Exception e) {
throw new ExceptionConverter(e);
}
}
/**
* Sets a field property. Valid property names are:
*
*
* - flags - a set of flags specifying various characteristics of the field's widget annotation.
* The value of this entry replaces that of the F entry in the form's corresponding annotation dictionary.
* - setflags - a set of flags to be set (turned on) in the F entry of the form's corresponding
* widget annotation dictionary. Bits equal to 1 cause the corresponding bits in F to be set to 1.
* - clrflags - a set of flags to be cleared (turned off) in the F entry of the form's corresponding
* widget annotation dictionary. Bits equal to 1 cause the corresponding
* bits in F to be set to 0.
* - fflags - a set of flags specifying various characteristics of the field. The value
* of this entry replaces that of the Ff entry in the form's corresponding field dictionary.
* - setfflags - a set of flags to be set (turned on) in the Ff entry of the form's corresponding
* field dictionary. Bits equal to 1 cause the corresponding bits in Ff to be set to 1.
* - clrfflags - a set of flags to be cleared (turned off) in the Ff entry of the form's corresponding
* field dictionary. Bits equal to 1 cause the corresponding bits in Ff
* to be set to 0.
*
* @param field the field name
* @param name the property name
* @param value the property value
* @param inst an array of int
indexing into AcroField.Item.merged
elements to process.
* Set to null
to process all
* @return true
if the property exists, false
otherwise
*/
public boolean setFieldProperty(String field, String name, int value, int inst[]) {
if (writer == null)
throw new RuntimeException("This AcroFields instance is read-only.");
Item item = (Item)fields.get(field);
if (item == null)
return false;
InstHit hit = new InstHit(inst);
if (name.equalsIgnoreCase("flags")) {
PdfNumber num = new PdfNumber(value);
for (int k = 0; k < item.merged.size(); ++k) {
if (hit.isHit(k)) {
((PdfDictionary)item.merged.get(k)).put(PdfName.F, num);
((PdfDictionary)item.widgets.get(k)).put(PdfName.F, num);
markUsed((PdfDictionary)item.widgets.get(k));
}
}
}
else if (name.equalsIgnoreCase("setflags")) {
for (int k = 0; k < item.merged.size(); ++k) {
if (hit.isHit(k)) {
PdfNumber num = (PdfNumber)PdfReader.getPdfObject(((PdfDictionary)item.widgets.get(k)).get(PdfName.F));
int val = 0;
if (num != null)
val = num.intValue();
num = new PdfNumber(val | value);
((PdfDictionary)item.merged.get(k)).put(PdfName.F, num);
((PdfDictionary)item.widgets.get(k)).put(PdfName.F, num);
markUsed((PdfDictionary)item.widgets.get(k));
}
}
}
else if (name.equalsIgnoreCase("clrflags")) {
for (int k = 0; k < item.merged.size(); ++k) {
if (hit.isHit(k)) {
PdfNumber num = (PdfNumber)PdfReader.getPdfObject(((PdfDictionary)item.widgets.get(k)).get(PdfName.F));
int val = 0;
if (num != null)
val = num.intValue();
num = new PdfNumber(val & (~value));
((PdfDictionary)item.merged.get(k)).put(PdfName.F, num);
((PdfDictionary)item.widgets.get(k)).put(PdfName.F, num);
markUsed((PdfDictionary)item.widgets.get(k));
}
}
}
else if (name.equalsIgnoreCase("fflags")) {
PdfNumber num = new PdfNumber(value);
for (int k = 0; k < item.merged.size(); ++k) {
if (hit.isHit(k)) {
((PdfDictionary)item.merged.get(k)).put(PdfName.FF, num);
((PdfDictionary)item.values.get(k)).put(PdfName.FF, num);
markUsed((PdfDictionary)item.values.get(k));
}
}
}
else if (name.equalsIgnoreCase("setfflags")) {
for (int k = 0; k < item.merged.size(); ++k) {
if (hit.isHit(k)) {
PdfNumber num = (PdfNumber)PdfReader.getPdfObject(((PdfDictionary)item.values.get(k)).get(PdfName.FF));
int val = 0;
if (num != null)
val = num.intValue();
num = new PdfNumber(val | value);
((PdfDictionary)item.merged.get(k)).put(PdfName.FF, num);
((PdfDictionary)item.values.get(k)).put(PdfName.FF, num);
markUsed((PdfDictionary)item.values.get(k));
}
}
}
else if (name.equalsIgnoreCase("clrfflags")) {
for (int k = 0; k < item.merged.size(); ++k) {
if (hit.isHit(k)) {
PdfNumber num = (PdfNumber)PdfReader.getPdfObject(((PdfDictionary)item.values.get(k)).get(PdfName.FF));
int val = 0;
if (num != null)
val = num.intValue();
num = new PdfNumber(val & (~value));
((PdfDictionary)item.merged.get(k)).put(PdfName.FF, num);
((PdfDictionary)item.values.get(k)).put(PdfName.FF, num);
markUsed((PdfDictionary)item.values.get(k));
}
}
}
else
return false;
return true;
}
/**
* Merges an XML data structure into this form.
* @param n the top node of the data structure
* @throws java.io.IOException on error
* @throws com.lowagie.text.DocumentException o error
*/
public void mergeXfaData(Node n) throws IOException, DocumentException {
XfaForm.Xml2SomDatasets data = new XfaForm.Xml2SomDatasets(n);
for (Iterator it = data.getOrder().iterator(); it.hasNext();) {
String name = (String)it.next();
String text = XfaForm.getNodeText((Node)data.getName2Node().get(name));
setField(name, text);
}
}
/** Sets the fields by FDF merging.
* @param fdf the FDF form
* @throws IOException on error
* @throws DocumentException on error
*/
public void setFields(FdfReader fdf) throws IOException, DocumentException {
HashMap fd = fdf.getFields();
for (Iterator i = fd.keySet().iterator(); i.hasNext();) {
String f = (String)i.next();
String v = fdf.getFieldValue(f);
if (v != null)
setField(f, v);
}
}
/** Sets the fields by XFDF merging.
* @param xfdf the XFDF form
* @throws IOException on error
* @throws DocumentException on error
*/
public void setFields(XfdfReader xfdf) throws IOException, DocumentException {
HashMap fd = xfdf.getFields();
for (Iterator i = fd.keySet().iterator(); i.hasNext();) {
String f = (String)i.next();
String v = xfdf.getFieldValue(f);
if (v != null)
setField(f, v);
List l = xfdf.getListValues(f);
if (l != null)
setListSelection(v, (String[])l.toArray());
}
}
/**
* Regenerates the field appearance.
* This is useful when you change a field property, but not its value,
* for instance form.setFieldProperty("f", "bgcolor", Color.BLUE, null);
* This won't have any effect, unless you use regenerateField("f") after changing
* the property.
*
* @param name the fully qualified field name or the partial name in the case of XFA forms
* @throws IOException on error
* @throws DocumentException on error
* @return true
if the field was found and changed,
* false
otherwise
*/
public boolean regenerateField(String name) throws IOException, DocumentException {
String value = getField(name);
return setField(name, value, value);
}
/** Sets the field value.
* @param name the fully qualified field name or the partial name in the case of XFA forms
* @param value the field value
* @throws IOException on error
* @throws DocumentException on error
* @return true
if the field was found and changed,
* false
otherwise
*/
public boolean setField(String name, String value) throws IOException, DocumentException {
return setField(name, value, null);
}
/** Sets the field value and the display string. The display string
* is used to build the appearance in the cases where the value
* is modified by Acrobat with JavaScript and the algorithm is
* known.
* @param name the fully qualified field name or the partial name in the case of XFA forms
* @param value the field value
* @param display the string that is used for the appearance. If null
* the value
parameter will be used
* @return true
if the field was found and changed,
* false
otherwise
* @throws IOException on error
* @throws DocumentException on error
*/
public boolean setField(String name, String value, String display) throws IOException, DocumentException {
if (writer == null)
throw new DocumentException("This AcroFields instance is read-only.");
if (xfa.isXfaPresent()) {
name = xfa.findFieldName(name, this);
if (name == null)
return false;
String shortName = XfaForm.Xml2Som.getShortName(name);
Node xn = xfa.findDatasetsNode(shortName);
if (xn == null) {
xn = xfa.getDatasetsSom().insertNode(xfa.getDatasetsNode(), shortName);
}
xfa.setNodeText(xn, value);
}
Item item = (Item)fields.get(name);
if (item == null)
return false;
PdfName type = (PdfName)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(0)).get(PdfName.FT));
if (PdfName.TX.equals(type)) {
PdfNumber maxLen = (PdfNumber)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(0)).get(PdfName.MAXLEN));
int len = 0;
if (maxLen != null)
len = maxLen.intValue();
if (len > 0)
value = value.substring(0, Math.min(len, value.length()));
}
if (display == null)
display = value;
if (PdfName.TX.equals(type) || PdfName.CH.equals(type)) {
PdfString v = new PdfString(value, PdfObject.TEXT_UNICODE);
for (int idx = 0; idx < item.values.size(); ++idx) {
PdfDictionary valueDic = (PdfDictionary)item.values.get(idx);
valueDic.put(PdfName.V, v);
valueDic.remove(PdfName.I);
markUsed(valueDic);
PdfDictionary merged = (PdfDictionary)item.merged.get(idx);
merged.remove(PdfName.I);
merged.put(PdfName.V, v);
PdfDictionary widget = (PdfDictionary)item.widgets.get(idx);
if (generateAppearances) {
PdfAppearance app = getAppearance(merged, display, name);
if (PdfName.CH.equals(type)) {
PdfNumber n = new PdfNumber(topFirst);
widget.put(PdfName.TI, n);
merged.put(PdfName.TI, n);
}
PdfDictionary appDic = (PdfDictionary)PdfReader.getPdfObject(widget.get(PdfName.AP));
if (appDic == null) {
appDic = new PdfDictionary();
widget.put(PdfName.AP, appDic);
merged.put(PdfName.AP, appDic);
}
appDic.put(PdfName.N, app.getIndirectReference());
writer.releaseTemplate(app);
}
else {
widget.remove(PdfName.AP);
merged.remove(PdfName.AP);
}
markUsed(widget);
}
return true;
}
else if (PdfName.BTN.equals(type)) {
PdfNumber ff = (PdfNumber)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(0)).get(PdfName.FF));
int flags = 0;
if (ff != null)
flags = ff.intValue();
if ((flags & PdfFormField.FF_PUSHBUTTON) != 0) {
//we'll assume that the value is an image in base64
Image img;
try {
img = Image.getInstance(Base64.decode(value));
}
catch (Exception e) {
return false;
}
PushbuttonField pb = getNewPushbuttonFromField(name);
pb.setImage(img);
replacePushbuttonField(name, pb.getField());
return true;
}
PdfName v = new PdfName(value);
ArrayList lopt = new ArrayList();
PdfObject opts = PdfReader.getPdfObject(((PdfDictionary)item.values.get(0)).get(PdfName.OPT));
if (opts != null && opts.isArray()) {
ArrayList list = ((PdfArray)opts).getArrayList();
for (int k = 0; k < list.size(); ++k) {
PdfObject vv = PdfReader.getPdfObject((PdfObject)list.get(k));
if (vv != null && vv.isString())
lopt.add(((PdfString)vv).toUnicodeString());
else
lopt.add(null);
}
}
int vidx = lopt.indexOf(value);
PdfName valt = null;
PdfName vt;
if (vidx >= 0) {
vt = valt = new PdfName(String.valueOf(vidx));
}
else
vt = v;
for (int idx = 0; idx < item.values.size(); ++idx) {
PdfDictionary merged = (PdfDictionary)item.merged.get(idx);
PdfDictionary widget = (PdfDictionary)item.widgets.get(idx);
markUsed((PdfDictionary)item.values.get(idx));
if (valt != null) {
PdfString ps = new PdfString(value, PdfObject.TEXT_UNICODE);
((PdfDictionary)item.values.get(idx)).put(PdfName.V, ps);
merged.put(PdfName.V, ps);
}
else {
((PdfDictionary)item.values.get(idx)).put(PdfName.V, v);
merged.put(PdfName.V, v);
}
markUsed(widget);
if (isInAP(widget, vt)) {
merged.put(PdfName.AS, vt);
widget.put(PdfName.AS, vt);
}
else {
merged.put(PdfName.AS, PdfName.Off);
widget.put(PdfName.AS, PdfName.Off);
}
}
return true;
}
return false;
}
/**
* Sets different values in a list selection.
* No appearance is generated yet; nor does the code check if multiple select is allowed.
* @param name the name of the field
* @param value an array with values that need to be selected
* @return true only if the field value was changed
* @since 2.1.4
*/
public boolean setListSelection(String name, String[] value) throws IOException, DocumentException {
Item item = (Item)fields.get(name);
if (item == null)
return false;
PdfName type = (PdfName)PdfReader.getPdfObject(((PdfDictionary)item.merged.get(0)).get(PdfName.FT));
if (!PdfName.CH.equals(type)) {
return false;
}
String[] options = getListOptionExport(name);
PdfArray array = new PdfArray();
for (int i = 0; i < value.length; i++) {
for (int j = 0; j < options.length; j++) {
if (options[j].equals(value[i])) {
array.add(new PdfNumber(j));
}
}
}
for (int idx = 0; idx < item.values.size(); ++idx) {
PdfDictionary valueDic = (PdfDictionary)item.values.get(idx);
valueDic.remove(PdfName.V);
valueDic.put(PdfName.I, array);
markUsed(valueDic);
PdfDictionary merged = (PdfDictionary)item.merged.get(idx);
merged.put(PdfName.I, array);
merged.remove(PdfName.V);
PdfDictionary widget = (PdfDictionary)item.widgets.get(idx);
widget.remove(PdfName.AP);
merged.remove(PdfName.AP);
markUsed(widget);
}
return true;
}
boolean isInAP(PdfDictionary dic, PdfName check) {
PdfDictionary appDic = (PdfDictionary)PdfReader.getPdfObject(dic.get(PdfName.AP));
if (appDic == null)
return false;
PdfDictionary NDic = (PdfDictionary)PdfReader.getPdfObject(appDic.get(PdfName.N));
return (NDic != null && NDic.get(check) != null);
}
/** Gets all the fields. The fields are keyed by the fully qualified field name and
* the value is an instance of AcroFields.Item
.
* @return all the fields
*/
public HashMap getFields() {
return fields;
}
/**
* Gets the field structure.
* @param name the name of the field
* @return the field structure or null
if the field
* does not exist
*/
public Item getFieldItem(String name) {
if (xfa.isXfaPresent()) {
name = xfa.findFieldName(name, this);
if (name == null)
return null;
}
return (Item)fields.get(name);
}
/**
* Gets the long XFA translated name.
* @param name the name of the field
* @return the long field name
*/
public String getTranslatedFieldName(String name) {
if (xfa.isXfaPresent()) {
String namex = xfa.findFieldName(name, this);
if (namex != null)
name = namex;
}
return name;
}
/**
* Gets the field box positions in the document. The return is an array of float
* multiple of 5. For each of this groups the values are: [page, llx, lly, urx,
* ury]. The coordinates have the page rotation in consideration.
* @param name the field name
* @return the positions or null
if field does not exist
*/
public float[] getFieldPositions(String name) {
Item item = getFieldItem(name);
if (item == null)
return null;
float ret[] = new float[item.page.size() * 5];
int ptr = 0;
for (int k = 0; k < item.page.size(); ++k) {
try {
PdfDictionary wd = (PdfDictionary)item.widgets.get(k);
PdfArray rect = (PdfArray)wd.get(PdfName.RECT);
if (rect == null)
continue;
Rectangle r = PdfReader.getNormalizedRectangle(rect);
int page = ((Integer)item.page.get(k)).intValue();
int rotation = reader.getPageRotation(page);
ret[ptr++] = page;
if (rotation != 0) {
Rectangle pageSize = reader.getPageSize(page);
switch (rotation) {
case 270:
r = new Rectangle(
pageSize.getTop() - r.getBottom(),
r.getLeft(),
pageSize.getTop() - r.getTop(),
r.getRight());
break;
case 180:
r = new Rectangle(
pageSize.getRight() - r.getLeft(),
pageSize.getTop() - r.getBottom(),
pageSize.getRight() - r.getRight(),
pageSize.getTop() - r.getTop());
break;
case 90:
r = new Rectangle(
r.getBottom(),
pageSize.getRight() - r.getLeft(),
r.getTop(),
pageSize.getRight() - r.getRight());
break;
}
r.normalize();
}
ret[ptr++] = r.getLeft();
ret[ptr++] = r.getBottom();
ret[ptr++] = r.getRight();
ret[ptr++] = r.getTop();
}
catch (Exception e) {
// empty on purpose
}
}
if (ptr < ret.length) {
float ret2[] = new float[ptr];
System.arraycopy(ret, 0, ret2, 0, ptr);
return ret2;
}
return ret;
}
private int removeRefFromArray(PdfArray array, PdfObject refo) {
ArrayList ar = array.getArrayList();
if (refo == null || !refo.isIndirect())
return ar.size();
PdfIndirectReference ref = (PdfIndirectReference)refo;
for (int j = 0; j < ar.size(); ++j) {
PdfObject obj = (PdfObject)ar.get(j);
if (!obj.isIndirect())
continue;
if (((PdfIndirectReference)obj).getNumber() == ref.getNumber())
ar.remove(j--);
}
return ar.size();
}
/**
* Removes all the fields from page
.
* @param page the page to remove the fields from
* @return true
if any field was removed, false otherwise
*/
public boolean removeFieldsFromPage(int page) {
if (page < 1)
return false;
String names[] = new String[fields.size()];
fields.keySet().toArray(names);
boolean found = false;
for (int k = 0; k < names.length; ++k) {
boolean fr = removeField(names[k], page);
found = (found || fr);
}
return found;
}
/**
* Removes a field from the document. If page equals -1 all the fields with this
* name
are removed from the document otherwise only the fields in
* that particular page are removed.
* @param name the field name
* @param page the page to remove the field from or -1 to remove it from all the pages
* @return true
if the field exists, false otherwise
*/
public boolean removeField(String name, int page) {
Item item = getFieldItem(name);
if (item == null)
return false;
PdfDictionary acroForm = (PdfDictionary)PdfReader.getPdfObject(reader.getCatalog().get(PdfName.ACROFORM), reader.getCatalog());
if (acroForm == null)
return false;
PdfArray arrayf = (PdfArray)PdfReader.getPdfObject(acroForm.get(PdfName.FIELDS), acroForm);
if (arrayf == null)
return false;
for (int k = 0; k < item.widget_refs.size(); ++k) {
int pageV = ((Integer)item.page.get(k)).intValue();
if (page != -1 && page != pageV)
continue;
PdfIndirectReference ref = (PdfIndirectReference)item.widget_refs.get(k);
PdfDictionary wd = (PdfDictionary)PdfReader.getPdfObject(ref);
PdfDictionary pageDic = reader.getPageN(pageV);
PdfArray annots = (PdfArray)PdfReader.getPdfObject(pageDic.get(PdfName.ANNOTS), pageDic);
if (annots != null) {
if (removeRefFromArray(annots, ref) == 0) {
pageDic.remove(PdfName.ANNOTS);
markUsed(pageDic);
}
else
markUsed(annots);
}
PdfReader.killIndirect(ref);
PdfIndirectReference kid = ref;
while ((ref = (PdfIndirectReference)wd.get(PdfName.PARENT)) != null) {
wd = (PdfDictionary)PdfReader.getPdfObject(ref);
PdfArray kids = (PdfArray)PdfReader.getPdfObject(wd.get(PdfName.KIDS));
if (removeRefFromArray(kids, kid) != 0)
break;
kid = ref;
PdfReader.killIndirect(ref);
}
if (ref == null) {
removeRefFromArray(arrayf, kid);
markUsed(arrayf);
}
if (page != -1) {
item.merged.remove(k);
item.page.remove(k);
item.values.remove(k);
item.widget_refs.remove(k);
item.widgets.remove(k);
--k;
}
}
if (page == -1 || item.merged.size() == 0)
fields.remove(name);
return true;
}
/**
* Removes a field from the document.
* @param name the field name
* @return true
if the field exists, false otherwise
*/
public boolean removeField(String name) {
return removeField(name, -1);
}
/** Gets the property generateAppearances.
* @return the property generateAppearances
*/
public boolean isGenerateAppearances() {
return this.generateAppearances;
}
/** Sets the option to generate appearances. Not generating appearances
* will speed-up form filling but the results can be
* unexpected in Acrobat. Don't use it unless your environment is well
* controlled. The default is true
.
* @param generateAppearances the option to generate appearances
*/
public void setGenerateAppearances(boolean generateAppearances) {
this.generateAppearances = generateAppearances;
PdfDictionary top = (PdfDictionary)PdfReader.getPdfObject(reader.getCatalog().get(PdfName.ACROFORM));
if (generateAppearances)
top.remove(PdfName.NEEDAPPEARANCES);
else
top.put(PdfName.NEEDAPPEARANCES, PdfBoolean.PDFTRUE);
}
/** The field representations for retrieval and modification. */
public static class Item {
/** An array of PdfDictionary
where the value tag /V
* is present.
*/
public ArrayList values = new ArrayList();
/** An array of PdfDictionary
with the widgets.
*/
public ArrayList widgets = new ArrayList();
/** An array of PdfDictionary
with the widget references.
*/
public ArrayList widget_refs = new ArrayList();
/** An array of PdfDictionary
with all the field
* and widget tags merged.
*/
public ArrayList merged = new ArrayList();
/** An array of Integer
with the page numbers where
* the widgets are displayed.
*/
public ArrayList page = new ArrayList();
/** An array of Integer
with the tab order of the field in the page.
*/
public ArrayList tabOrder = new ArrayList();
}
private static class InstHit {
IntHashtable hits;
public InstHit(int inst[]) {
if (inst == null)
return;
hits = new IntHashtable();
for (int k = 0; k < inst.length; ++k)
hits.put(inst[k], 1);
}
public boolean isHit(int n) {
if (hits == null)
return true;
return hits.containsKey(n);
}
}
/**
* Gets the field names that have signatures and are signed.
* @return the field names that have signatures and are signed
*/
public ArrayList getSignatureNames() {
if (sigNames != null)
return new ArrayList(sigNames.keySet());
sigNames = new HashMap();
ArrayList sorter = new ArrayList();
for (Iterator it = fields.entrySet().iterator(); it.hasNext();) {
Map.Entry entry = (Map.Entry)it.next();
Item item = (Item)entry.getValue();
PdfDictionary merged = (PdfDictionary)item.merged.get(0);
if (!PdfName.SIG.equals(merged.get(PdfName.FT)))
continue;
PdfObject vo = PdfReader.getPdfObject(merged.get(PdfName.V));
if (vo == null || vo.type() != PdfObject.DICTIONARY)
continue;
PdfDictionary v = (PdfDictionary)vo;
PdfObject contents = v.get(PdfName.CONTENTS);
if (contents == null || contents.type() != PdfObject.STRING)
continue;
PdfObject ro = v.get(PdfName.BYTERANGE);
if (ro == null || ro.type() != PdfObject.ARRAY)
continue;
ArrayList ra = ((PdfArray)ro).getArrayList();
if (ra.size() < 2)
continue;
int length = ((PdfNumber)ra.get(ra.size() - 1)).intValue() + ((PdfNumber)ra.get(ra.size() - 2)).intValue();
sorter.add(new Object[]{entry.getKey(), new int[]{length, 0}});
}
Collections.sort(sorter, new AcroFields.SorterComparator());
if (!sorter.isEmpty()) {
if (((int[])((Object[])sorter.get(sorter.size() - 1))[1])[0] == reader.getFileLength())
totalRevisions = sorter.size();
else
totalRevisions = sorter.size() + 1;
for (int k = 0; k < sorter.size(); ++k) {
Object objs[] = (Object[])sorter.get(k);
String name = (String)objs[0];
int p[] = (int[])objs[1];
p[1] = k + 1;
sigNames.put(name, p);
}
}
return new ArrayList(sigNames.keySet());
}
/**
* Gets the field names that have blank signatures.
* @return the field names that have blank signatures
*/
public ArrayList getBlankSignatureNames() {
getSignatureNames();
ArrayList sigs = new ArrayList();
for (Iterator it = fields.entrySet().iterator(); it.hasNext();) {
Map.Entry entry = (Map.Entry)it.next();
Item item = (Item)entry.getValue();
PdfDictionary merged = (PdfDictionary)item.merged.get(0);
if (!PdfName.SIG.equals(merged.get(PdfName.FT)))
continue;
if (sigNames.containsKey(entry.getKey()))
continue;
sigs.add(entry.getKey());
}
return sigs;
}
/**
* Gets the signature dictionary, the one keyed by /V.
* @param name the field name
* @return the signature dictionary keyed by /V or null
if the field is not
* a signature
*/
public PdfDictionary getSignatureDictionary(String name) {
getSignatureNames();
name = getTranslatedFieldName(name);
if (!sigNames.containsKey(name))
return null;
Item item = (Item)fields.get(name);
PdfDictionary merged = (PdfDictionary)item.merged.get(0);
return (PdfDictionary)PdfReader.getPdfObject(merged.get(PdfName.V));
}
/**
* Checks is the signature covers the entire document or just part of it.
* @param name the signature field name
* @return true
if the signature covers the entire document,
* false
otherwise
*/
public boolean signatureCoversWholeDocument(String name) {
getSignatureNames();
name = getTranslatedFieldName(name);
if (!sigNames.containsKey(name))
return false;
return ((int[])sigNames.get(name))[0] == reader.getFileLength();
}
/**
* Verifies a signature. An example usage is:
*
*
* KeyStore kall = PdfPKCS7.loadCacertsKeyStore();
* PdfReader reader = new PdfReader("my_signed_doc.pdf");
* AcroFields af = reader.getAcroFields();
* ArrayList names = af.getSignatureNames();
* for (int k = 0; k < names.size(); ++k) {
* String name = (String)names.get(k);
* System.out.println("Signature name: " + name);
* System.out.println("Signature covers whole document: " + af.signatureCoversWholeDocument(name));
* PdfPKCS7 pk = af.verifySignature(name);
* Calendar cal = pk.getSignDate();
* Certificate pkc[] = pk.getCertificates();
* System.out.println("Subject: " + PdfPKCS7.getSubjectFields(pk.getSigningCertificate()));
* System.out.println("Document modified: " + !pk.verify());
* Object fails[] = PdfPKCS7.verifyCertificates(pkc, kall, null, cal);
* if (fails == null)
* System.out.println("Certificates verified against the KeyStore");
* else
* System.out.println("Certificate failed: " + fails[1]);
* }
*
* @param name the signature field name
* @return a PdfPKCS7
class to continue the verification
*/
public PdfPKCS7 verifySignature(String name) {
return verifySignature(name, null);
}
/**
* Verifies a signature. An example usage is:
*
*
* KeyStore kall = PdfPKCS7.loadCacertsKeyStore();
* PdfReader reader = new PdfReader("my_signed_doc.pdf");
* AcroFields af = reader.getAcroFields();
* ArrayList names = af.getSignatureNames();
* for (int k = 0; k < names.size(); ++k) {
* String name = (String)names.get(k);
* System.out.println("Signature name: " + name);
* System.out.println("Signature covers whole document: " + af.signatureCoversWholeDocument(name));
* PdfPKCS7 pk = af.verifySignature(name);
* Calendar cal = pk.getSignDate();
* Certificate pkc[] = pk.getCertificates();
* System.out.println("Subject: " + PdfPKCS7.getSubjectFields(pk.getSigningCertificate()));
* System.out.println("Document modified: " + !pk.verify());
* Object fails[] = PdfPKCS7.verifyCertificates(pkc, kall, null, cal);
* if (fails == null)
* System.out.println("Certificates verified against the KeyStore");
* else
* System.out.println("Certificate failed: " + fails[1]);
* }
*
* @param name the signature field name
* @param provider the provider or null
for the default provider
* @return a PdfPKCS7
class to continue the verification
*/
public PdfPKCS7 verifySignature(String name, String provider) {
PdfDictionary v = getSignatureDictionary(name);
if (v == null)
return null;
try {
PdfName sub = (PdfName)PdfReader.getPdfObject(v.get(PdfName.SUBFILTER));
PdfString contents = (PdfString)PdfReader.getPdfObject(v.get(PdfName.CONTENTS));
PdfPKCS7 pk = null;
if (sub.equals(PdfName.ADBE_X509_RSA_SHA1)) {
PdfString cert = (PdfString)PdfReader.getPdfObject(v.get(PdfName.CERT));
pk = new PdfPKCS7(contents.getOriginalBytes(), cert.getBytes(), provider);
}
else
pk = new PdfPKCS7(contents.getOriginalBytes(), provider);
updateByteRange(pk, v);
PdfString str = (PdfString)PdfReader.getPdfObject(v.get(PdfName.M));
if (str != null)
pk.setSignDate(PdfDate.decode(str.toString()));
PdfObject obj = PdfReader.getPdfObject(v.get(PdfName.NAME));
if (obj != null) {
if (obj.isString())
pk.setSignName(((PdfString)obj).toUnicodeString());
else if(obj.isName())
pk.setSignName(PdfName.decodeName(obj.toString()));
}
str = (PdfString)PdfReader.getPdfObject(v.get(PdfName.REASON));
if (str != null)
pk.setReason(str.toUnicodeString());
str = (PdfString)PdfReader.getPdfObject(v.get(PdfName.LOCATION));
if (str != null)
pk.setLocation(str.toUnicodeString());
return pk;
}
catch (Exception e) {
throw new ExceptionConverter(e);
}
}
private void updateByteRange(PdfPKCS7 pkcs7, PdfDictionary v) {
PdfArray b = (PdfArray)PdfReader.getPdfObject(v.get(PdfName.BYTERANGE));
RandomAccessFileOrArray rf = reader.getSafeFile();
try {
rf.reOpen();
byte buf[] = new byte[8192];
ArrayList ar = b.getArrayList();
for (int k = 0; k < ar.size(); ++k) {
int start = ((PdfNumber)ar.get(k)).intValue();
int length = ((PdfNumber)ar.get(++k)).intValue();
rf.seek(start);
while (length > 0) {
int rd = rf.read(buf, 0, Math.min(length, buf.length));
if (rd <= 0)
break;
length -= rd;
pkcs7.update(buf, 0, rd);
}
}
}
catch (Exception e) {
throw new ExceptionConverter(e);
}
finally {
try{rf.close();}catch(Exception e){}
}
}
private void markUsed(PdfObject obj) {
if (!append)
return;
((PdfStamperImp)writer).markUsed(obj);
}
/**
* Gets the total number of revisions this document has.
* @return the total number of revisions
*/
public int getTotalRevisions() {
getSignatureNames();
return this.totalRevisions;
}
/**
* Gets this field
revision.
* @param field the signature field name
* @return the revision or zero if it's not a signature field
*/
public int getRevision(String field) {
getSignatureNames();
field = getTranslatedFieldName(field);
if (!sigNames.containsKey(field))
return 0;
return ((int[])sigNames.get(field))[1];
}
/**
* Extracts a revision from the document.
* @param field the signature field name
* @return an InputStream
covering the revision. Returns null
if
* it's not a signature field
* @throws IOException on error
*/
public InputStream extractRevision(String field) throws IOException {
getSignatureNames();
field = getTranslatedFieldName(field);
if (!sigNames.containsKey(field))
return null;
int length = ((int[])sigNames.get(field))[0];
RandomAccessFileOrArray raf = reader.getSafeFile();
raf.reOpen();
raf.seek(0);
return new RevisionStream(raf, length);
}
/**
* Gets the appearances cache.
* @return the appearances cache
*/
public HashMap getFieldCache() {
return this.fieldCache;
}
/**
* Sets a cache for field appearances. Parsing the existing PDF to
* create a new TextField is time expensive. For those tasks that repeatedly
* fill the same PDF with different field values the use of the cache has dramatic
* speed advantages. An example usage:
*
*
* String pdfFile = ...;// the pdf file used as template
* ArrayList xfdfFiles = ...;// the xfdf file names
* ArrayList pdfOutFiles = ...;// the output file names, one for each element in xpdfFiles
* HashMap cache = new HashMap();// the appearances cache
* PdfReader originalReader = new PdfReader(pdfFile);
* for (int k = 0; k < xfdfFiles.size(); ++k) {
* PdfReader reader = new PdfReader(originalReader);
* XfdfReader xfdf = new XfdfReader((String)xfdfFiles.get(k));
* PdfStamper stp = new PdfStamper(reader, new FileOutputStream((String)pdfOutFiles.get(k)));
* AcroFields af = stp.getAcroFields();
* af.setFieldCache(cache);
* af.setFields(xfdf);
* stp.close();
* }
*
* @param fieldCache an HasMap that will carry the cached appearances
*/
public void setFieldCache(HashMap fieldCache) {
this.fieldCache = fieldCache;
}
/**
* Sets extra margins in text fields to better mimic the Acrobat layout.
* @param extraMarginLeft the extra margin left
* @param extraMarginTop the extra margin top
*/
public void setExtraMargin(float extraMarginLeft, float extraMarginTop) {
this.extraMarginLeft = extraMarginLeft;
this.extraMarginTop = extraMarginTop;
}
/**
* Adds a substitution font to the list. The fonts in this list will be used if the original
* font doesn't contain the needed glyphs.
* @param font the font
*/
public void addSubstitutionFont(BaseFont font) {
if (substitutionFonts == null)
substitutionFonts = new ArrayList();
substitutionFonts.add(font);
}
private static final HashMap stdFieldFontNames = new HashMap();
/**
* Holds value of property totalRevisions.
*/
private int totalRevisions;
/**
* Holds value of property fieldCache.
*/
private HashMap fieldCache;
static {
stdFieldFontNames.put("CoBO", new String[]{"Courier-BoldOblique"});
stdFieldFontNames.put("CoBo", new String[]{"Courier-Bold"});
stdFieldFontNames.put("CoOb", new String[]{"Courier-Oblique"});
stdFieldFontNames.put("Cour", new String[]{"Courier"});
stdFieldFontNames.put("HeBO", new String[]{"Helvetica-BoldOblique"});
stdFieldFontNames.put("HeBo", new String[]{"Helvetica-Bold"});
stdFieldFontNames.put("HeOb", new String[]{"Helvetica-Oblique"});
stdFieldFontNames.put("Helv", new String[]{"Helvetica"});
stdFieldFontNames.put("Symb", new String[]{"Symbol"});
stdFieldFontNames.put("TiBI", new String[]{"Times-BoldItalic"});
stdFieldFontNames.put("TiBo", new String[]{"Times-Bold"});
stdFieldFontNames.put("TiIt", new String[]{"Times-Italic"});
stdFieldFontNames.put("TiRo", new String[]{"Times-Roman"});
stdFieldFontNames.put("ZaDb", new String[]{"ZapfDingbats"});
stdFieldFontNames.put("HySm", new String[]{"HYSMyeongJo-Medium", "UniKS-UCS2-H"});
stdFieldFontNames.put("HyGo", new String[]{"HYGoThic-Medium", "UniKS-UCS2-H"});
stdFieldFontNames.put("KaGo", new String[]{"HeiseiKakuGo-W5", "UniKS-UCS2-H"});
stdFieldFontNames.put("KaMi", new String[]{"HeiseiMin-W3", "UniJIS-UCS2-H"});
stdFieldFontNames.put("MHei", new String[]{"MHei-Medium", "UniCNS-UCS2-H"});
stdFieldFontNames.put("MSun", new String[]{"MSung-Light", "UniCNS-UCS2-H"});
stdFieldFontNames.put("STSo", new String[]{"STSong-Light", "UniGB-UCS2-H"});
}
private static class RevisionStream extends InputStream {
private byte b[] = new byte[1];
private RandomAccessFileOrArray raf;
private int length;
private int rangePosition = 0;
private boolean closed;
private RevisionStream(RandomAccessFileOrArray raf, int length) {
this.raf = raf;
this.length = length;
}
public int read() throws IOException {
int n = read(b);
if (n != 1)
return -1;
return b[0] & 0xff;
}
public int read(byte[] b, int off, int len) throws IOException {
if (b == null) {
throw new NullPointerException();
} else if ((off < 0) || (off > b.length) || (len < 0) ||
((off + len) > b.length) || ((off + len) < 0)) {
throw new IndexOutOfBoundsException();
} else if (len == 0) {
return 0;
}
if (rangePosition >= length) {
close();
return -1;
}
int elen = Math.min(len, length - rangePosition);
raf.readFully(b, off, elen);
rangePosition += elen;
return elen;
}
public void close() throws IOException {
if (!closed) {
raf.close();
closed = true;
}
}
}
private static class SorterComparator implements Comparator {
public int compare(Object o1, Object o2) {
int n1 = ((int[])((Object[])o1)[1])[0];
int n2 = ((int[])((Object[])o2)[1])[0];
return n1 - n2;
}
}
/**
* Gets the list of substitution fonts. The list is composed of BaseFont
and can be null
. The fonts in this list will be used if the original
* font doesn't contain the needed glyphs.
* @return the list
*/
public ArrayList getSubstitutionFonts() {
return substitutionFonts;
}
/**
* Sets a list of substitution fonts. The list is composed of BaseFont
and can also be null
. The fonts in this list will be used if the original
* font doesn't contain the needed glyphs.
* @param substitutionFonts the list
*/
public void setSubstitutionFonts(ArrayList substitutionFonts) {
this.substitutionFonts = substitutionFonts;
}
/**
* Gets the XFA form processor.
* @return the XFA form processor
*/
public XfaForm getXfa() {
return xfa;
}
private static final PdfName[] buttonRemove = {PdfName.MK, PdfName.F , PdfName.FF , PdfName.Q , PdfName.BS , PdfName.BORDER};
/**
* Creates a new pushbutton from an existing field. If there are several pushbuttons with the same name
* only the first one is used. This pushbutton can be changed and be used to replace
* an existing one, with the same name or other name, as long is it is in the same document. To replace an existing pushbutton
* call {@link #replacePushbuttonField(String,PdfFormField)}.
* @param field the field name that should be a pushbutton
* @return a new pushbutton or null
if the field is not a pushbutton
*/
public PushbuttonField getNewPushbuttonFromField(String field) {
return getNewPushbuttonFromField(field, 0);
}
/**
* Creates a new pushbutton from an existing field. This pushbutton can be changed and be used to replace
* an existing one, with the same name or other name, as long is it is in the same document. To replace an existing pushbutton
* call {@link #replacePushbuttonField(String,PdfFormField,int)}.
* @param field the field name that should be a pushbutton
* @param order the field order in fields with same name
* @return a new pushbutton or null
if the field is not a pushbutton
*
* @since 2.0.7
*/
public PushbuttonField getNewPushbuttonFromField(String field, int order) {
try {
if (getFieldType(field) != FIELD_TYPE_PUSHBUTTON)
return null;
Item item = getFieldItem(field);
if (order >= item.merged.size())
return null;
int posi = order * 5;
float[] pos = getFieldPositions(field);
Rectangle box = new Rectangle(pos[posi + 1], pos[posi + 2], pos[posi + 3], pos[posi + 4]);
PushbuttonField newButton = new PushbuttonField(writer, box, null);
PdfDictionary dic = (PdfDictionary)item.merged.get(order);
decodeGenericDictionary(dic, newButton);
PdfDictionary mk = (PdfDictionary)PdfReader.getPdfObject(dic.get(PdfName.MK));
if (mk != null) {
PdfString text = (PdfString)PdfReader.getPdfObject(mk.get(PdfName.CA));
if (text != null)
newButton.setText(text.toUnicodeString());
PdfNumber tp = (PdfNumber)PdfReader.getPdfObject(mk.get(PdfName.TP));
if (tp != null)
newButton.setLayout(tp.intValue() + 1);
PdfDictionary ifit = (PdfDictionary)PdfReader.getPdfObject(mk.get(PdfName.IF));
if (ifit != null) {
PdfName sw = (PdfName)PdfReader.getPdfObject(ifit.get(PdfName.SW));
if (sw != null) {
int scale = PushbuttonField.SCALE_ICON_ALWAYS;
if (sw.equals(PdfName.B))
scale = PushbuttonField.SCALE_ICON_IS_TOO_BIG;
else if (sw.equals(PdfName.S))
scale = PushbuttonField.SCALE_ICON_IS_TOO_SMALL;
else if (sw.equals(PdfName.N))
scale = PushbuttonField.SCALE_ICON_NEVER;
newButton.setScaleIcon(scale);
}
sw = (PdfName)PdfReader.getPdfObject(ifit.get(PdfName.S));
if (sw != null) {
if (sw.equals(PdfName.A))
newButton.setProportionalIcon(false);
}
PdfArray aj = (PdfArray)PdfReader.getPdfObject(ifit.get(PdfName.A));
if (aj != null && aj.size() == 2) {
float left = ((PdfNumber)PdfReader.getPdfObject((PdfObject)aj.getArrayList().get(0))).floatValue();
float bottom = ((PdfNumber)PdfReader.getPdfObject((PdfObject)aj.getArrayList().get(1))).floatValue();
newButton.setIconHorizontalAdjustment(left);
newButton.setIconVerticalAdjustment(bottom);
}
PdfObject fb = PdfReader.getPdfObject(ifit.get(PdfName.FB));
if (fb != null && fb.toString().equals("true"))
newButton.setIconFitToBounds(true);
}
PdfObject i = mk.get(PdfName.I);
if (i != null && i.isIndirect())
newButton.setIconReference((PRIndirectReference)i);
}
return newButton;
}
catch (Exception e) {
throw new ExceptionConverter(e);
}
}
/**
* Replaces the first field with a new pushbutton. The pushbutton can be created with
* {@link #getNewPushbuttonFromField(String)} from the same document or it can be a
* generic PdfFormField of the type pushbutton.
* @param field the field name
* @param button the PdfFormField
representing the pushbutton
* @return true
if the field was replaced, false
if the field
* was not a pushbutton
*/
public boolean replacePushbuttonField(String field, PdfFormField button) {
return replacePushbuttonField(field, button, 0);
}
/**
* Replaces the designated field with a new pushbutton. The pushbutton can be created with
* {@link #getNewPushbuttonFromField(String,int)} from the same document or it can be a
* generic PdfFormField of the type pushbutton.
* @param field the field name
* @param button the PdfFormField
representing the pushbutton
* @param order the field order in fields with same name
* @return true
if the field was replaced, false
if the field
* was not a pushbutton
*
* @since 2.0.7
*/
public boolean replacePushbuttonField(String field, PdfFormField button, int order) {
if (getFieldType(field) != FIELD_TYPE_PUSHBUTTON)
return false;
Item item = getFieldItem(field);
if (order >= item.merged.size())
return false;
PdfDictionary merged = (PdfDictionary)item.merged.get(order);
PdfDictionary values = (PdfDictionary)item.values.get(order);
PdfDictionary widgets = (PdfDictionary)item.widgets.get(order);
for (int k = 0; k < buttonRemove.length; ++k) {
merged.remove(buttonRemove[k]);
values.remove(buttonRemove[k]);
widgets.remove(buttonRemove[k]);
}
for (Iterator it = button.getKeys().iterator(); it.hasNext();) {
PdfName key = (PdfName)it.next();
if (key.equals(PdfName.T) || key.equals(PdfName.RECT))
continue;
if (key.equals(PdfName.FF))
values.put(key, button.get(key));
else
widgets.put(key, button.get(key));
merged.put(key, button.get(key));
}
return true;
}
}