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International Component for Unicode for Java (ICU4J) is a mature, widely used Java library
providing Unicode and Globalization support
The newest version!
// © 2019 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
package com.ibm.icu.impl;
import java.text.AttributedCharacterIterator;
import java.text.AttributedString;
import java.text.FieldPosition;
import java.text.Format.Field;
import com.ibm.icu.text.ConstrainedFieldPosition;
import com.ibm.icu.text.ListFormatter;
import com.ibm.icu.text.NumberFormat;
import com.ibm.icu.text.UFormat;
import com.ibm.icu.text.UnicodeSet;
/**
* Implementation of FormattedValue based on FormattedStringBuilder.
*
* The implementation currently revolves around numbers and number fields.
* However, it can be generalized in the future when there is a need.
*
* In C++, this implements FormattedValue. In Java, it is a stateless
* collection of static functions to avoid having to use nested objects.
*
* @author sffc (Shane Carr)
*/
public class FormattedValueStringBuilderImpl {
/**
* Placeholder field used for calculating spans.
* Does not currently support nested fields beyond one level.
*/
public static class SpanFieldPlaceholder implements FormattedStringBuilder.FieldWrapper {
public UFormat.SpanField spanField;
public Field normalField;
public Object value;
public int start;
public int length;
public Field unwrap() {
return normalField;
}
}
/**
* Finds the index at which a span field begins.
*
* @param value The value of the span field to search for.
* @return The index, or -1 if not found.
*/
public static int findSpan(FormattedStringBuilder self, Object value) {
for (int i = self.zero; i < self.zero + self.length; i++) {
if (!(self.fields[i] instanceof SpanFieldPlaceholder)) {
continue;
}
if (((SpanFieldPlaceholder) self.fields[i]).value.equals(value)) {
return i - self.zero;
}
}
return -1;
}
/**
* Upgrade a range of a string to a span field.
*
* Similar to appendSpanInfo in ICU4C.
*/
public static void applySpanRange(
FormattedStringBuilder self,
UFormat.SpanField spanField,
Object value,
int start,
int end) {
for (int i = start + self.zero; i < end + self.zero; i++) {
Object oldField = self.fields[i];
SpanFieldPlaceholder newField = new SpanFieldPlaceholder();
newField.spanField = spanField;
newField.normalField = (java.text.Format.Field) oldField;
newField.value = value;
newField.start = start;
newField.length = end - start;
self.fields[i] = newField;
}
}
public static boolean nextFieldPosition(FormattedStringBuilder self, FieldPosition fp) {
java.text.Format.Field rawField = fp.getFieldAttribute();
if (rawField == null) {
// Backwards compatibility: read from fp.getField()
if (fp.getField() == NumberFormat.INTEGER_FIELD) {
rawField = NumberFormat.Field.INTEGER;
} else if (fp.getField() == NumberFormat.FRACTION_FIELD) {
rawField = NumberFormat.Field.FRACTION;
} else {
// No field is set
return false;
}
}
if (!(rawField instanceof NumberFormat.Field)) {
throw new IllegalArgumentException(
"You must pass an instance of com.ibm.icu.text.NumberFormat.Field as your FieldPosition attribute. You passed: "
+ rawField.getClass().toString());
}
ConstrainedFieldPosition cfpos = new ConstrainedFieldPosition();
cfpos.constrainField(rawField);
cfpos.setState(rawField, null, fp.getBeginIndex(), fp.getEndIndex());
if (nextPosition(self, cfpos, null)) {
fp.setBeginIndex(cfpos.getStart());
fp.setEndIndex(cfpos.getLimit());
return true;
}
// Special case: fraction should start after integer if fraction is not present
if (rawField == NumberFormat.Field.FRACTION && fp.getEndIndex() == 0) {
boolean inside = false;
int i = self.zero;
for (; i < self.zero + self.length; i++) {
if (isIntOrGroup(self.fields[i]) || self.fields[i] == NumberFormat.Field.DECIMAL_SEPARATOR) {
inside = true;
} else if (inside) {
break;
}
}
fp.setBeginIndex(i - self.zero);
fp.setEndIndex(i - self.zero);
}
return false;
}
public static AttributedCharacterIterator toCharacterIterator(FormattedStringBuilder self, Field numericField) {
ConstrainedFieldPosition cfpos = new ConstrainedFieldPosition();
AttributedString as = new AttributedString(self.toString());
while (nextPosition(self, cfpos, numericField)) {
// Backwards compatibility: field value = field
Object value = cfpos.getFieldValue();
if (value == null) {
value = cfpos.getField();
}
as.addAttribute(cfpos.getField(), value, cfpos.getStart(), cfpos.getLimit());
}
return as.getIterator();
}
static class NullField extends Field {
private static final long serialVersionUID = 1L;
static final NullField END = new NullField("end");
private NullField(String name) {
super(name);
}
}
/**
* Implementation of nextPosition consistent with the contract of FormattedValue.
*
* @param cfpos
* The argument passed to the public API.
* @param numericField
* Optional. If non-null, apply this field to the entire numeric portion of the string.
* @return See FormattedValue#nextPosition.
*/
public static boolean nextPosition(FormattedStringBuilder self, ConstrainedFieldPosition cfpos, Field numericField) {
int fieldStart = -1;
Object currField = null;
boolean prevIsSpan = false;
if (cfpos.getLimit() > 0) {
prevIsSpan = cfpos.getField() instanceof UFormat.SpanField
&& cfpos.getStart() < cfpos.getLimit();
}
boolean prevIsNumeric = false;
if (numericField != null) {
prevIsNumeric = cfpos.getField() == numericField;
}
boolean prevIsInteger = cfpos.getField() == NumberFormat.Field.INTEGER;
for (int i = self.zero + cfpos.getLimit(); i <= self.zero + self.length; i++) {
Object _field = (i < self.zero + self.length) ? self.fields[i] : NullField.END;
// Case 1: currently scanning a field.
if (currField != null) {
if (currField != _field) {
int end = i - self.zero;
// Grouping separators can be whitespace; don't throw them out!
if (isTrimmable(currField)) {
end = trimBack(self, end);
}
if (end <= fieldStart) {
// Entire field position is ignorable; skip.
fieldStart = -1;
currField = null;
i--; // look at this index again
continue;
}
int start = fieldStart;
if (isTrimmable(currField)) {
start = trimFront(self, start);
}
cfpos.setState((Field) currField, null, start, end);
return true;
}
continue;
}
// Special case: emit normalField if we are pointing at the end of spanField.
if (i > self.zero && prevIsSpan) {
assert self.fields[i-1] instanceof SpanFieldPlaceholder;
SpanFieldPlaceholder ph = (SpanFieldPlaceholder) self.fields[i-1];
if (ph.normalField == ListFormatter.Field.ELEMENT) {
// Special handling for ULISTFMT_ELEMENT_FIELD
if (cfpos.matchesField(ListFormatter.Field.ELEMENT, null)) {
fieldStart = i - self.zero - ph.length;
int end = fieldStart + ph.length;
cfpos.setState(ListFormatter.Field.ELEMENT, null, fieldStart, end);
return true;
}
} else {
// Re-wind, since there may be multiple fields in the span.
i -= ph.length;
assert i >= self.zero;
_field = ((SpanFieldPlaceholder) self.fields[i]).normalField;
}
}
// Special case: coalesce the INTEGER if we are pointing at the end of the INTEGER.
if (cfpos.matchesField(NumberFormat.Field.INTEGER, null)
&& i > self.zero
&& !prevIsInteger
&& !prevIsNumeric
&& isIntOrGroup(self.fields[i - 1])
&& !isIntOrGroup(_field)) {
int j = i - 1;
for (; j >= self.zero && isIntOrGroup(self.fields[j]); j--) {}
cfpos.setState(NumberFormat.Field.INTEGER, null, j - self.zero + 1, i - self.zero);
return true;
}
// Special case: coalesce NUMERIC if we are pointing at the end of the NUMERIC.
if (numericField != null
&& cfpos.matchesField(numericField, null)
&& i > self.zero
&& !prevIsNumeric
&& isNumericField(self.fields[i - 1])
&& !isNumericField(_field)) {
// Re-wind to the beginning of the field and then emit it
int j = i - 1;
for (; j >= self.zero && isNumericField(self.fields[j]); j--) {}
cfpos.setState(numericField, null, j - self.zero + 1, i - self.zero);
return true;
}
// Check for span field
SpanFieldPlaceholder ph = null;
if (_field instanceof SpanFieldPlaceholder) {
ph = (SpanFieldPlaceholder) _field;
_field = ph.normalField;
}
if (ph != null && (ph.start == -1 || ph.start == i - self.zero)) {
if (cfpos.matchesField(ph.spanField, ph.value)) {
fieldStart = i - self.zero;
int end = fieldStart + ph.length;
cfpos.setState(ph.spanField, ph.value, fieldStart, end);
return true;
} else if (ph.normalField == ListFormatter.Field.ELEMENT) {
// Special handling for ListFormatter.Field.ELEMENT
if (cfpos.matchesField(ListFormatter.Field.ELEMENT, null)) {
fieldStart = i - self.zero;
int end = fieldStart + ph.length;
cfpos.setState(ListFormatter.Field.ELEMENT, null, fieldStart, end);
return true;
} else {
// Failed to match; jump ahead
i += ph.length - 1;
// goto loopend
}
}
}
// Special case: skip over INTEGER; will be coalesced later.
else if (_field == NumberFormat.Field.INTEGER) {
_field = null;
}
// No field starting at this position.
else if (_field == null || _field == NullField.END) {
// goto loopend
}
// No SpanField
else if (cfpos.matchesField((Field) _field, null)) {
fieldStart = i - self.zero;
currField = _field;
}
// loopend:
prevIsSpan = false;
prevIsNumeric = false;
prevIsInteger = false;
}
assert currField == null;
// Always set the position to the end so that we don't revisit previous sections
cfpos.setState(
cfpos.getField(),
cfpos.getFieldValue(),
self.length,
self.length);
return false;
}
private static boolean isIntOrGroup(Object field) {
field = FormattedStringBuilder.unwrapField(field);
return field == NumberFormat.Field.INTEGER || field == NumberFormat.Field.GROUPING_SEPARATOR;
}
private static boolean isNumericField(Object field) {
field = FormattedStringBuilder.unwrapField(field);
return field == null || NumberFormat.Field.class.isAssignableFrom(field.getClass());
}
private static boolean isTrimmable(Object field) {
return field != NumberFormat.Field.GROUPING_SEPARATOR
&& !(field instanceof ListFormatter.Field);
}
private static int trimBack(FormattedStringBuilder self, int limit) {
return StaticUnicodeSets.get(StaticUnicodeSets.Key.DEFAULT_IGNORABLES)
.spanBack(self, limit, UnicodeSet.SpanCondition.CONTAINED);
}
private static int trimFront(FormattedStringBuilder self, int start) {
return StaticUnicodeSets.get(StaticUnicodeSets.Key.DEFAULT_IGNORABLES)
.span(self, start, UnicodeSet.SpanCondition.CONTAINED);
}
}