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A library jar that provides APIs for Applications written for the Google Android Platform.
/*
* Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code 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 General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package java.text;
import java.util.*;
import java.text.AttributedCharacterIterator.Attribute;
/**
* An AttributedString holds text and related attribute information. It
* may be used as the actual data storage in some cases where a text
* reader wants to access attributed text through the AttributedCharacterIterator
* interface.
*
*
* An attribute is a key/value pair, identified by the key. No two
* attributes on a given character can have the same key.
*
*
The values for an attribute are immutable, or must not be mutated
* by clients or storage. They are always passed by reference, and not
* cloned.
*
* @see AttributedCharacterIterator
* @see Annotation
* @since 1.2
*/
public class AttributedString {
// since there are no vectors of int, we have to use arrays.
// We allocate them in chunks of 10 elements so we don't have to allocate all the time.
private static final int ARRAY_SIZE_INCREMENT = 10;
// field holding the text
String text;
// fields holding run attribute information
// run attributes are organized by run
int runArraySize; // current size of the arrays
int runCount; // actual number of runs, <= runArraySize
int runStarts[]; // start index for each run
Vector runAttributes[]; // vector of attribute keys for each run
Vector runAttributeValues[]; // parallel vector of attribute values for each run
/**
* Constructs an AttributedString instance with the given
* AttributedCharacterIterators.
*
* @param iterators AttributedCharacterIterators to construct
* AttributedString from.
* @throws NullPointerException if iterators is null
*/
AttributedString(AttributedCharacterIterator[] iterators) {
if (iterators == null) {
throw new NullPointerException("Iterators must not be null");
}
if (iterators.length == 0) {
text = "";
}
else {
// Build the String contents
StringBuffer buffer = new StringBuffer();
for (int counter = 0; counter < iterators.length; counter++) {
appendContents(buffer, iterators[counter]);
}
text = buffer.toString();
if (text.length() > 0) {
// Determine the runs, creating a new run when the attributes
// differ.
int offset = 0;
Map last = null;
for (int counter = 0; counter < iterators.length; counter++) {
AttributedCharacterIterator iterator = iterators[counter];
int start = iterator.getBeginIndex();
int end = iterator.getEndIndex();
int index = start;
while (index < end) {
iterator.setIndex(index);
Map attrs = iterator.getAttributes();
if (mapsDiffer(last, attrs)) {
setAttributes(attrs, index - start + offset);
}
last = attrs;
index = iterator.getRunLimit();
}
offset += (end - start);
}
}
}
}
/**
* Constructs an AttributedString instance with the given text.
* @param text The text for this attributed string.
* @exception NullPointerException if text
is null.
*/
public AttributedString(String text) {
if (text == null) {
throw new NullPointerException();
}
this.text = text;
}
/**
* Constructs an AttributedString instance with the given text and attributes.
* @param text The text for this attributed string.
* @param attributes The attributes that apply to the entire string.
* @exception NullPointerException if text
or
* attributes
is null.
* @exception IllegalArgumentException if the text has length 0
* and the attributes parameter is not an empty Map (attributes
* cannot be applied to a 0-length range).
*/
public AttributedString(String text,
Map extends Attribute, ?> attributes)
{
if (text == null || attributes == null) {
throw new NullPointerException();
}
this.text = text;
if (text.length() == 0) {
if (attributes.isEmpty())
return;
throw new IllegalArgumentException("Can't add attribute to 0-length text");
}
int attributeCount = attributes.size();
if (attributeCount > 0) {
createRunAttributeDataVectors();
Vector newRunAttributes = new Vector<>(attributeCount);
Vector newRunAttributeValues = new Vector<>(attributeCount);
runAttributes[0] = newRunAttributes;
runAttributeValues[0] = newRunAttributeValues;
Iterator extends Map.Entry extends Attribute, ?>> iterator = attributes.entrySet().iterator();
while (iterator.hasNext()) {
Map.Entry extends Attribute, ?> entry = iterator.next();
newRunAttributes.addElement(entry.getKey());
newRunAttributeValues.addElement(entry.getValue());
}
}
}
/**
* Constructs an AttributedString instance with the given attributed
* text represented by AttributedCharacterIterator.
* @param text The text for this attributed string.
* @exception NullPointerException if text
is null.
*/
public AttributedString(AttributedCharacterIterator text) {
// If performance is critical, this constructor should be
// implemented here rather than invoking the constructor for a
// subrange. We can avoid some range checking in the loops.
this(text, text.getBeginIndex(), text.getEndIndex(), null);
}
/**
* Constructs an AttributedString instance with the subrange of
* the given attributed text represented by
* AttributedCharacterIterator. If the given range produces an
* empty text, all attributes will be discarded. Note that any
* attributes wrapped by an Annotation object are discarded for a
* subrange of the original attribute range.
*
* @param text The text for this attributed string.
* @param beginIndex Index of the first character of the range.
* @param endIndex Index of the character following the last character
* of the range.
* @exception NullPointerException if text
is null.
* @exception IllegalArgumentException if the subrange given by
* beginIndex and endIndex is out of the text range.
* @see java.text.Annotation
*/
public AttributedString(AttributedCharacterIterator text,
int beginIndex,
int endIndex) {
this(text, beginIndex, endIndex, null);
}
/**
* Constructs an AttributedString instance with the subrange of
* the given attributed text represented by
* AttributedCharacterIterator. Only attributes that match the
* given attributes will be incorporated into the instance. If the
* given range produces an empty text, all attributes will be
* discarded. Note that any attributes wrapped by an Annotation
* object are discarded for a subrange of the original attribute
* range.
*
* @param text The text for this attributed string.
* @param beginIndex Index of the first character of the range.
* @param endIndex Index of the character following the last character
* of the range.
* @param attributes Specifies attributes to be extracted
* from the text. If null is specified, all available attributes will
* be used.
* @exception NullPointerException if text
is null.
* @exception IllegalArgumentException if the subrange given by
* beginIndex and endIndex is out of the text range.
* @see java.text.Annotation
*/
public AttributedString(AttributedCharacterIterator text,
int beginIndex,
int endIndex,
Attribute[] attributes) {
if (text == null) {
throw new NullPointerException();
}
// Validate the given subrange
int textBeginIndex = text.getBeginIndex();
int textEndIndex = text.getEndIndex();
if (beginIndex < textBeginIndex || endIndex > textEndIndex || beginIndex > endIndex)
throw new IllegalArgumentException("Invalid substring range");
// Copy the given string
StringBuffer textBuffer = new StringBuffer();
text.setIndex(beginIndex);
for (char c = text.current(); text.getIndex() < endIndex; c = text.next())
textBuffer.append(c);
this.text = textBuffer.toString();
if (beginIndex == endIndex)
return;
// Select attribute keys to be taken care of
HashSet keys = new HashSet<>();
if (attributes == null) {
keys.addAll(text.getAllAttributeKeys());
} else {
for (int i = 0; i < attributes.length; i++)
keys.add(attributes[i]);
keys.retainAll(text.getAllAttributeKeys());
}
if (keys.isEmpty())
return;
// Get and set attribute runs for each attribute name. Need to
// scan from the top of the text so that we can discard any
// Annotation that is no longer applied to a subset text segment.
Iterator itr = keys.iterator();
while (itr.hasNext()) {
Attribute attributeKey = itr.next();
text.setIndex(textBeginIndex);
while (text.getIndex() < endIndex) {
int start = text.getRunStart(attributeKey);
int limit = text.getRunLimit(attributeKey);
Object value = text.getAttribute(attributeKey);
if (value != null) {
if (value instanceof Annotation) {
if (start >= beginIndex && limit <= endIndex) {
addAttribute(attributeKey, value, start - beginIndex, limit - beginIndex);
} else {
if (limit > endIndex)
break;
}
} else {
// if the run is beyond the given (subset) range, we
// don't need to process further.
if (start >= endIndex)
break;
if (limit > beginIndex) {
// attribute is applied to any subrange
if (start < beginIndex)
start = beginIndex;
if (limit > endIndex)
limit = endIndex;
if (start != limit) {
addAttribute(attributeKey, value, start - beginIndex, limit - beginIndex);
}
}
}
}
text.setIndex(limit);
}
}
}
/**
* Adds an attribute to the entire string.
* @param attribute the attribute key
* @param value the value of the attribute; may be null
* @exception NullPointerException if attribute
is null.
* @exception IllegalArgumentException if the AttributedString has length 0
* (attributes cannot be applied to a 0-length range).
*/
public void addAttribute(Attribute attribute, Object value) {
if (attribute == null) {
throw new NullPointerException();
}
int len = length();
if (len == 0) {
throw new IllegalArgumentException("Can't add attribute to 0-length text");
}
addAttributeImpl(attribute, value, 0, len);
}
/**
* Adds an attribute to a subrange of the string.
* @param attribute the attribute key
* @param value The value of the attribute. May be null.
* @param beginIndex Index of the first character of the range.
* @param endIndex Index of the character following the last character of the range.
* @exception NullPointerException if attribute
is null.
* @exception IllegalArgumentException if beginIndex is less then 0, endIndex is
* greater than the length of the string, or beginIndex and endIndex together don't
* define a non-empty subrange of the string.
*/
public void addAttribute(Attribute attribute, Object value,
int beginIndex, int endIndex) {
if (attribute == null) {
throw new NullPointerException();
}
if (beginIndex < 0 || endIndex > length() || beginIndex >= endIndex) {
throw new IllegalArgumentException("Invalid substring range");
}
addAttributeImpl(attribute, value, beginIndex, endIndex);
}
/**
* Adds a set of attributes to a subrange of the string.
* @param attributes The attributes to be added to the string.
* @param beginIndex Index of the first character of the range.
* @param endIndex Index of the character following the last
* character of the range.
* @exception NullPointerException if attributes
is null.
* @exception IllegalArgumentException if beginIndex is less then
* 0, endIndex is greater than the length of the string, or
* beginIndex and endIndex together don't define a non-empty
* subrange of the string and the attributes parameter is not an
* empty Map.
*/
public void addAttributes(Map extends Attribute, ?> attributes,
int beginIndex, int endIndex)
{
if (attributes == null) {
throw new NullPointerException();
}
if (beginIndex < 0 || endIndex > length() || beginIndex > endIndex) {
throw new IllegalArgumentException("Invalid substring range");
}
if (beginIndex == endIndex) {
if (attributes.isEmpty())
return;
throw new IllegalArgumentException("Can't add attribute to 0-length text");
}
// make sure we have run attribute data vectors
if (runCount == 0) {
createRunAttributeDataVectors();
}
// break up runs if necessary
int beginRunIndex = ensureRunBreak(beginIndex);
int endRunIndex = ensureRunBreak(endIndex);
Iterator extends Map.Entry extends Attribute, ?>> iterator =
attributes.entrySet().iterator();
while (iterator.hasNext()) {
Map.Entry extends Attribute, ?> entry = iterator.next();
addAttributeRunData(entry.getKey(), entry.getValue(), beginRunIndex, endRunIndex);
}
}
private synchronized void addAttributeImpl(Attribute attribute, Object value,
int beginIndex, int endIndex) {
// make sure we have run attribute data vectors
if (runCount == 0) {
createRunAttributeDataVectors();
}
// break up runs if necessary
int beginRunIndex = ensureRunBreak(beginIndex);
int endRunIndex = ensureRunBreak(endIndex);
addAttributeRunData(attribute, value, beginRunIndex, endRunIndex);
}
private final void createRunAttributeDataVectors() {
// use temporary variables so things remain consistent in case of an exception
int newRunStarts[] = new int[ARRAY_SIZE_INCREMENT];
@SuppressWarnings("unchecked")
Vector newRunAttributes[] = (Vector[]) new Vector>[ARRAY_SIZE_INCREMENT];
@SuppressWarnings("unchecked")
Vector newRunAttributeValues[] = (Vector[]) new Vector>[ARRAY_SIZE_INCREMENT];
runStarts = newRunStarts;
runAttributes = newRunAttributes;
runAttributeValues = newRunAttributeValues;
runArraySize = ARRAY_SIZE_INCREMENT;
runCount = 1; // assume initial run starting at index 0
}
// ensure there's a run break at offset, return the index of the run
private final int ensureRunBreak(int offset) {
return ensureRunBreak(offset, true);
}
/**
* Ensures there is a run break at offset, returning the index of
* the run. If this results in splitting a run, two things can happen:
*
* If copyAttrs is true, the attributes from the existing run
* will be placed in both of the newly created runs.
* If copyAttrs is false, the attributes from the existing run
* will NOT be copied to the run to the right (>= offset) of the break,
* but will exist on the run to the left (< offset).
*
*/
private final int ensureRunBreak(int offset, boolean copyAttrs) {
if (offset == length()) {
return runCount;
}
// search for the run index where this offset should be
int runIndex = 0;
while (runIndex < runCount && runStarts[runIndex] < offset) {
runIndex++;
}
// if the offset is at a run start already, we're done
if (runIndex < runCount && runStarts[runIndex] == offset) {
return runIndex;
}
// we'll have to break up a run
// first, make sure we have enough space in our arrays
if (runCount == runArraySize) {
int newArraySize = runArraySize + ARRAY_SIZE_INCREMENT;
int newRunStarts[] = new int[newArraySize];
@SuppressWarnings("unchecked")
Vector newRunAttributes[] = (Vector[]) new Vector>[newArraySize];
@SuppressWarnings("unchecked")
Vector newRunAttributeValues[] = (Vector[]) new Vector>[newArraySize];
for (int i = 0; i < runArraySize; i++) {
newRunStarts[i] = runStarts[i];
newRunAttributes[i] = runAttributes[i];
newRunAttributeValues[i] = runAttributeValues[i];
}
runStarts = newRunStarts;
runAttributes = newRunAttributes;
runAttributeValues = newRunAttributeValues;
runArraySize = newArraySize;
}
// make copies of the attribute information of the old run that the new one used to be part of
// use temporary variables so things remain consistent in case of an exception
Vector newRunAttributes = null;
Vector newRunAttributeValues = null;
if (copyAttrs) {
Vector oldRunAttributes = runAttributes[runIndex - 1];
Vector oldRunAttributeValues = runAttributeValues[runIndex - 1];
if (oldRunAttributes != null) {
newRunAttributes = new Vector<>(oldRunAttributes);
}
if (oldRunAttributeValues != null) {
newRunAttributeValues = new Vector<>(oldRunAttributeValues);
}
}
// now actually break up the run
runCount++;
for (int i = runCount - 1; i > runIndex; i--) {
runStarts[i] = runStarts[i - 1];
runAttributes[i] = runAttributes[i - 1];
runAttributeValues[i] = runAttributeValues[i - 1];
}
runStarts[runIndex] = offset;
runAttributes[runIndex] = newRunAttributes;
runAttributeValues[runIndex] = newRunAttributeValues;
return runIndex;
}
// add the attribute attribute/value to all runs where beginRunIndex <= runIndex < endRunIndex
private void addAttributeRunData(Attribute attribute, Object value,
int beginRunIndex, int endRunIndex) {
for (int i = beginRunIndex; i < endRunIndex; i++) {
int keyValueIndex = -1; // index of key and value in our vectors; assume we don't have an entry yet
if (runAttributes[i] == null) {
Vector newRunAttributes = new Vector<>();
Vector newRunAttributeValues = new Vector<>();
runAttributes[i] = newRunAttributes;
runAttributeValues[i] = newRunAttributeValues;
} else {
// check whether we have an entry already
keyValueIndex = runAttributes[i].indexOf(attribute);
}
if (keyValueIndex == -1) {
// create new entry
int oldSize = runAttributes[i].size();
runAttributes[i].addElement(attribute);
try {
runAttributeValues[i].addElement(value);
}
catch (Exception e) {
runAttributes[i].setSize(oldSize);
runAttributeValues[i].setSize(oldSize);
}
} else {
// update existing entry
runAttributeValues[i].set(keyValueIndex, value);
}
}
}
/**
* Creates an AttributedCharacterIterator instance that provides access to the entire contents of
* this string.
*
* @return An iterator providing access to the text and its attributes.
*/
public AttributedCharacterIterator getIterator() {
return getIterator(null, 0, length());
}
/**
* Creates an AttributedCharacterIterator instance that provides access to
* selected contents of this string.
* Information about attributes not listed in attributes that the
* implementor may have need not be made accessible through the iterator.
* If the list is null, all available attribute information should be made
* accessible.
*
* @param attributes a list of attributes that the client is interested in
* @return an iterator providing access to the entire text and its selected attributes
*/
public AttributedCharacterIterator getIterator(Attribute[] attributes) {
return getIterator(attributes, 0, length());
}
/**
* Creates an AttributedCharacterIterator instance that provides access to
* selected contents of this string.
* Information about attributes not listed in attributes that the
* implementor may have need not be made accessible through the iterator.
* If the list is null, all available attribute information should be made
* accessible.
*
* @param attributes a list of attributes that the client is interested in
* @param beginIndex the index of the first character
* @param endIndex the index of the character following the last character
* @return an iterator providing access to the text and its attributes
* @exception IllegalArgumentException if beginIndex is less then 0,
* endIndex is greater than the length of the string, or beginIndex is
* greater than endIndex.
*/
public AttributedCharacterIterator getIterator(Attribute[] attributes, int beginIndex, int endIndex) {
return new AttributedStringIterator(attributes, beginIndex, endIndex);
}
// all (with the exception of length) reading operations are private,
// since AttributedString instances are accessed through iterators.
// length is package private so that CharacterIteratorFieldDelegate can
// access it without creating an AttributedCharacterIterator.
int length() {
return text.length();
}
private char charAt(int index) {
return text.charAt(index);
}
private synchronized Object getAttribute(Attribute attribute, int runIndex) {
Vector currentRunAttributes = runAttributes[runIndex];
Vector currentRunAttributeValues = runAttributeValues[runIndex];
if (currentRunAttributes == null) {
return null;
}
int attributeIndex = currentRunAttributes.indexOf(attribute);
if (attributeIndex != -1) {
return currentRunAttributeValues.elementAt(attributeIndex);
}
else {
return null;
}
}
// gets an attribute value, but returns an annotation only if it's range does not extend outside the range beginIndex..endIndex
private Object getAttributeCheckRange(Attribute attribute, int runIndex, int beginIndex, int endIndex) {
Object value = getAttribute(attribute, runIndex);
if (value instanceof Annotation) {
// need to check whether the annotation's range extends outside the iterator's range
if (beginIndex > 0) {
int currIndex = runIndex;
int runStart = runStarts[currIndex];
while (runStart >= beginIndex &&
valuesMatch(value, getAttribute(attribute, currIndex - 1))) {
currIndex--;
runStart = runStarts[currIndex];
}
if (runStart < beginIndex) {
// annotation's range starts before iterator's range
return null;
}
}
int textLength = length();
if (endIndex < textLength) {
int currIndex = runIndex;
int runLimit = (currIndex < runCount - 1) ? runStarts[currIndex + 1] : textLength;
while (runLimit <= endIndex &&
valuesMatch(value, getAttribute(attribute, currIndex + 1))) {
currIndex++;
runLimit = (currIndex < runCount - 1) ? runStarts[currIndex + 1] : textLength;
}
if (runLimit > endIndex) {
// annotation's range ends after iterator's range
return null;
}
}
// annotation's range is subrange of iterator's range,
// so we can return the value
}
return value;
}
// returns whether all specified attributes have equal values in the runs with the given indices
private boolean attributeValuesMatch(Set extends Attribute> attributes, int runIndex1, int runIndex2) {
Iterator extends Attribute> iterator = attributes.iterator();
while (iterator.hasNext()) {
Attribute key = iterator.next();
if (!valuesMatch(getAttribute(key, runIndex1), getAttribute(key, runIndex2))) {
return false;
}
}
return true;
}
// returns whether the two objects are either both null or equal
private final static boolean valuesMatch(Object value1, Object value2) {
if (value1 == null) {
return value2 == null;
} else {
return value1.equals(value2);
}
}
/**
* Appends the contents of the CharacterIterator iterator into the
* StringBuffer buf.
*/
private final void appendContents(StringBuffer buf,
CharacterIterator iterator) {
int index = iterator.getBeginIndex();
int end = iterator.getEndIndex();
while (index < end) {
iterator.setIndex(index++);
buf.append(iterator.current());
}
}
/**
* Sets the attributes for the range from offset to the next run break
* (typically the end of the text) to the ones specified in attrs.
* This is only meant to be called from the constructor!
*/
private void setAttributes(Map attrs, int offset) {
if (runCount == 0) {
createRunAttributeDataVectors();
}
int index = ensureRunBreak(offset, false);
int size;
if (attrs != null && (size = attrs.size()) > 0) {
Vector runAttrs = new Vector<>(size);
Vector runValues = new Vector<>(size);
Iterator> iterator = attrs.entrySet().iterator();
while (iterator.hasNext()) {
Map.Entry entry = iterator.next();
runAttrs.add(entry.getKey());
runValues.add(entry.getValue());
}
runAttributes[index] = runAttrs;
runAttributeValues[index] = runValues;
}
}
/**
* Returns true if the attributes specified in last and attrs differ.
*/
private static boolean mapsDiffer(Map last, Map attrs) {
if (last == null) {
return (attrs != null && attrs.size() > 0);
}
return (!last.equals(attrs));
}
// the iterator class associated with this string class
final private class AttributedStringIterator implements AttributedCharacterIterator {
// note on synchronization:
// we don't synchronize on the iterator, assuming that an iterator is only used in one thread.
// we do synchronize access to the AttributedString however, since it's more likely to be shared between threads.
// start and end index for our iteration
private int beginIndex;
private int endIndex;
// attributes that our client is interested in
private Attribute[] relevantAttributes;
// the current index for our iteration
// invariant: beginIndex <= currentIndex <= endIndex
private int currentIndex;
// information about the run that includes currentIndex
private int currentRunIndex;
private int currentRunStart;
private int currentRunLimit;
// constructor
AttributedStringIterator(Attribute[] attributes, int beginIndex, int endIndex) {
if (beginIndex < 0 || beginIndex > endIndex || endIndex > length()) {
throw new IllegalArgumentException("Invalid substring range");
}
this.beginIndex = beginIndex;
this.endIndex = endIndex;
this.currentIndex = beginIndex;
updateRunInfo();
if (attributes != null) {
relevantAttributes = attributes.clone();
}
}
// Object methods. See documentation in that class.
public boolean equals(Object obj) {
if (this == obj) {
return true;
}
if (!(obj instanceof AttributedStringIterator)) {
return false;
}
AttributedStringIterator that = (AttributedStringIterator) obj;
if (AttributedString.this != that.getString())
return false;
if (currentIndex != that.currentIndex || beginIndex != that.beginIndex || endIndex != that.endIndex)
return false;
return true;
}
public int hashCode() {
return text.hashCode() ^ currentIndex ^ beginIndex ^ endIndex;
}
public Object clone() {
try {
AttributedStringIterator other = (AttributedStringIterator) super.clone();
return other;
}
catch (CloneNotSupportedException e) {
throw new InternalError(e);
}
}
// CharacterIterator methods. See documentation in that interface.
public char first() {
return internalSetIndex(beginIndex);
}
public char last() {
if (endIndex == beginIndex) {
return internalSetIndex(endIndex);
} else {
return internalSetIndex(endIndex - 1);
}
}
public char current() {
if (currentIndex == endIndex) {
return DONE;
} else {
return charAt(currentIndex);
}
}
public char next() {
if (currentIndex < endIndex) {
return internalSetIndex(currentIndex + 1);
}
else {
return DONE;
}
}
public char previous() {
if (currentIndex > beginIndex) {
return internalSetIndex(currentIndex - 1);
}
else {
return DONE;
}
}
public char setIndex(int position) {
if (position < beginIndex || position > endIndex)
throw new IllegalArgumentException("Invalid index");
return internalSetIndex(position);
}
public int getBeginIndex() {
return beginIndex;
}
public int getEndIndex() {
return endIndex;
}
public int getIndex() {
return currentIndex;
}
// AttributedCharacterIterator methods. See documentation in that interface.
public int getRunStart() {
return currentRunStart;
}
public int getRunStart(Attribute attribute) {
if (currentRunStart == beginIndex || currentRunIndex == -1) {
return currentRunStart;
} else {
Object value = getAttribute(attribute);
int runStart = currentRunStart;
int runIndex = currentRunIndex;
while (runStart > beginIndex &&
valuesMatch(value, AttributedString.this.getAttribute(attribute, runIndex - 1))) {
runIndex--;
runStart = runStarts[runIndex];
}
if (runStart < beginIndex) {
runStart = beginIndex;
}
return runStart;
}
}
public int getRunStart(Set extends Attribute> attributes) {
if (currentRunStart == beginIndex || currentRunIndex == -1) {
return currentRunStart;
} else {
int runStart = currentRunStart;
int runIndex = currentRunIndex;
while (runStart > beginIndex &&
AttributedString.this.attributeValuesMatch(attributes, currentRunIndex, runIndex - 1)) {
runIndex--;
runStart = runStarts[runIndex];
}
if (runStart < beginIndex) {
runStart = beginIndex;
}
return runStart;
}
}
public int getRunLimit() {
return currentRunLimit;
}
public int getRunLimit(Attribute attribute) {
if (currentRunLimit == endIndex || currentRunIndex == -1) {
return currentRunLimit;
} else {
Object value = getAttribute(attribute);
int runLimit = currentRunLimit;
int runIndex = currentRunIndex;
while (runLimit < endIndex &&
valuesMatch(value, AttributedString.this.getAttribute(attribute, runIndex + 1))) {
runIndex++;
runLimit = runIndex < runCount - 1 ? runStarts[runIndex + 1] : endIndex;
}
if (runLimit > endIndex) {
runLimit = endIndex;
}
return runLimit;
}
}
public int getRunLimit(Set extends Attribute> attributes) {
if (currentRunLimit == endIndex || currentRunIndex == -1) {
return currentRunLimit;
} else {
int runLimit = currentRunLimit;
int runIndex = currentRunIndex;
while (runLimit < endIndex &&
AttributedString.this.attributeValuesMatch(attributes, currentRunIndex, runIndex + 1)) {
runIndex++;
runLimit = runIndex < runCount - 1 ? runStarts[runIndex + 1] : endIndex;
}
if (runLimit > endIndex) {
runLimit = endIndex;
}
return runLimit;
}
}
public Map getAttributes() {
if (runAttributes == null || currentRunIndex == -1 || runAttributes[currentRunIndex] == null) {
// ??? would be nice to return null, but current spec doesn't allow it
// returning Hashtable saves AttributeMap from dealing with emptiness
return new Hashtable<>();
}
return new AttributeMap(currentRunIndex, beginIndex, endIndex);
}
public Set getAllAttributeKeys() {
// ??? This should screen out attribute keys that aren't relevant to the client
if (runAttributes == null) {
// ??? would be nice to return null, but current spec doesn't allow it
// returning HashSet saves us from dealing with emptiness
return new HashSet<>();
}
synchronized (AttributedString.this) {
// ??? should try to create this only once, then update if necessary,
// and give callers read-only view
Set keys = new HashSet<>();
int i = 0;
while (i < runCount) {
if (runStarts[i] < endIndex && (i == runCount - 1 || runStarts[i + 1] > beginIndex)) {
Vector currentRunAttributes = runAttributes[i];
if (currentRunAttributes != null) {
int j = currentRunAttributes.size();
while (j-- > 0) {
keys.add(currentRunAttributes.get(j));
}
}
}
i++;
}
return keys;
}
}
public Object getAttribute(Attribute attribute) {
int runIndex = currentRunIndex;
if (runIndex < 0) {
return null;
}
return AttributedString.this.getAttributeCheckRange(attribute, runIndex, beginIndex, endIndex);
}
// internally used methods
private AttributedString getString() {
return AttributedString.this;
}
// set the current index, update information about the current run if necessary,
// return the character at the current index
private char internalSetIndex(int position) {
currentIndex = position;
if (position < currentRunStart || position >= currentRunLimit) {
updateRunInfo();
}
if (currentIndex == endIndex) {
return DONE;
} else {
return charAt(position);
}
}
// update the information about the current run
private void updateRunInfo() {
if (currentIndex == endIndex) {
currentRunStart = currentRunLimit = endIndex;
currentRunIndex = -1;
} else {
synchronized (AttributedString.this) {
int runIndex = -1;
while (runIndex < runCount - 1 && runStarts[runIndex + 1] <= currentIndex)
runIndex++;
currentRunIndex = runIndex;
if (runIndex >= 0) {
currentRunStart = runStarts[runIndex];
if (currentRunStart < beginIndex)
currentRunStart = beginIndex;
}
else {
currentRunStart = beginIndex;
}
if (runIndex < runCount - 1) {
currentRunLimit = runStarts[runIndex + 1];
if (currentRunLimit > endIndex)
currentRunLimit = endIndex;
}
else {
currentRunLimit = endIndex;
}
}
}
}
}
// the map class associated with this string class, giving access to the attributes of one run
final private class AttributeMap extends AbstractMap {
int runIndex;
int beginIndex;
int endIndex;
AttributeMap(int runIndex, int beginIndex, int endIndex) {
this.runIndex = runIndex;
this.beginIndex = beginIndex;
this.endIndex = endIndex;
}
public Set> entrySet() {
HashSet> set = new HashSet<>();
synchronized (AttributedString.this) {
int size = runAttributes[runIndex].size();
for (int i = 0; i < size; i++) {
Attribute key = runAttributes[runIndex].get(i);
Object value = runAttributeValues[runIndex].get(i);
if (value instanceof Annotation) {
value = AttributedString.this.getAttributeCheckRange(key,
runIndex, beginIndex, endIndex);
if (value == null) {
continue;
}
}
Map.Entry entry = new AttributeEntry(key, value);
set.add(entry);
}
}
return set;
}
public Object get(Object key) {
return AttributedString.this.getAttributeCheckRange((Attribute) key, runIndex, beginIndex, endIndex);
}
}
}
class AttributeEntry implements Map.Entry {
private Attribute key;
private Object value;
AttributeEntry(Attribute key, Object value) {
this.key = key;
this.value = value;
}
public boolean equals(Object o) {
if (!(o instanceof AttributeEntry)) {
return false;
}
AttributeEntry other = (AttributeEntry) o;
return other.key.equals(key) &&
(value == null ? other.value == null : other.value.equals(value));
}
public Attribute getKey() {
return key;
}
public Object getValue() {
return value;
}
public Object setValue(Object newValue) {
throw new UnsupportedOperationException();
}
public int hashCode() {
return key.hashCode() ^ (value==null ? 0 : value.hashCode());
}
public String toString() {
return key.toString()+"="+value.toString();
}
}