();
} else {
iElementPairs.clear();
}
iNotPrinter = false;
iNotParser = false;
iFieldFormatters = new FieldFormatter[10];
}
/**
* Appends another formatter.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder append(PeriodFormatter formatter) {
if (formatter == null) {
throw new IllegalArgumentException("No formatter supplied");
}
clearPrefix();
append0(formatter.getPrinter(), formatter.getParser());
return this;
}
/**
* Appends a printer parser pair.
*
* Either the printer or the parser may be null, in which case the builder will
* be unable to produce a parser or printer repectively.
*
* @param printer appends a printer to the builder, null if printing is not supported
* @param parser appends a parser to the builder, null if parsing is not supported
* @return this PeriodFormatterBuilder
* @throws IllegalArgumentException if both the printer and parser are null
*/
public PeriodFormatterBuilder append(PeriodPrinter printer, PeriodParser parser) {
if (printer == null && parser == null) {
throw new IllegalArgumentException("No printer or parser supplied");
}
clearPrefix();
append0(printer, parser);
return this;
}
/**
* Instructs the printer to emit specific text, and the parser to expect it.
* The parser is case-insensitive.
*
* @return this PeriodFormatterBuilder
* @throws IllegalArgumentException if text is null
*/
public PeriodFormatterBuilder appendLiteral(String text) {
if (text == null) {
throw new IllegalArgumentException("Literal must not be null");
}
clearPrefix();
Literal literal = new Literal(text);
append0(literal, literal);
return this;
}
/**
* Set the minimum digits printed for the next and following appended
* fields. By default, the minimum digits printed is one. If the field value
* is zero, it is not printed unless a printZero rule is applied.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder minimumPrintedDigits(int minDigits) {
iMinPrintedDigits = minDigits;
return this;
}
/**
* Set the maximum digits parsed for the next and following appended
* fields. By default, the maximum digits parsed is ten.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder maximumParsedDigits(int maxDigits) {
iMaxParsedDigits = maxDigits;
return this;
}
/**
* Reject signed values when parsing the next and following appended fields.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder rejectSignedValues(boolean v) {
iRejectSignedValues = v;
return this;
}
/**
* Never print zero values for the next and following appended fields,
* unless no fields would be printed. If no fields are printed, the printer
* forces the last "printZeroRarely" field to print a zero.
*
* This field setting is the default.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder printZeroRarelyLast() {
iPrintZeroSetting = PRINT_ZERO_RARELY_LAST;
return this;
}
/**
* Never print zero values for the next and following appended fields,
* unless no fields would be printed. If no fields are printed, the printer
* forces the first "printZeroRarely" field to print a zero.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder printZeroRarelyFirst() {
iPrintZeroSetting = PRINT_ZERO_RARELY_FIRST;
return this;
}
/**
* Print zero values for the next and following appened fields only if the
* period supports it.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder printZeroIfSupported() {
iPrintZeroSetting = PRINT_ZERO_IF_SUPPORTED;
return this;
}
/**
* Always print zero values for the next and following appended fields,
* even if the period doesn't support it. The parser requires values for
* fields that always print zero.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder printZeroAlways() {
iPrintZeroSetting = PRINT_ZERO_ALWAYS;
return this;
}
/**
* Never print zero values for the next and following appended fields,
* unless no fields would be printed. If no fields are printed, the printer
* forces the last "printZeroRarely" field to print a zero.
*
* This field setting is the default.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder printZeroNever() {
iPrintZeroSetting = PRINT_ZERO_NEVER;
return this;
}
//-----------------------------------------------------------------------
/**
* Append a field prefix which applies only to the next appended field. If
* the field is not printed, neither is the prefix.
*
* @param text text to print before field only if field is printed
* @return this PeriodFormatterBuilder
* @see #appendSuffix
*/
public PeriodFormatterBuilder appendPrefix(String text) {
if (text == null) {
throw new IllegalArgumentException();
}
return appendPrefix(new SimpleAffix(text));
}
/**
* Append a field prefix which applies only to the next appended field. If
* the field is not printed, neither is the prefix.
*
* During parsing, the singular and plural versions are accepted whether
* or not the actual value matches plurality.
*
* @param singularText text to print if field value is one
* @param pluralText text to print if field value is not one
* @return this PeriodFormatterBuilder
* @see #appendSuffix
*/
public PeriodFormatterBuilder appendPrefix(String singularText,
String pluralText) {
if (singularText == null || pluralText == null) {
throw new IllegalArgumentException();
}
return appendPrefix(new PluralAffix(singularText, pluralText));
}
/**
* Append a field prefix which applies only to the next appended field.
* If the field is not printed, neither is the prefix.
*
* The value is converted to String. During parsing, the prefix is selected based
* on the match with the regular expression. The index of the first regular
* expression that matches value converted to String nominates the prefix. If
* none of the regular expressions match the value converted to String then the
* last prefix is selected.
*
* An example usage for English might look like this:
*
*
* appendPrefix(new String[] { "ˆ1$", ".*" }, new String[] { " year", " years" })
*
*
*
* Please note that for languages with simple mapping (singular and plural prefix
* only - like the one above) the {@link #appendPrefix(String, String)} method
* will produce in a slightly faster formatter and that
* {@link #appendPrefix(String[], String[])} method should be only used when the
* mapping between values and prefixes is more complicated than the difference between
* singular and plural.
*
* @param regularExpressions an array of regular expressions, at least one
* element, length has to match the length of prefixes parameter
* @param prefixes an array of prefixes, at least one element, length has to
* match the length of regularExpressions parameter
* @return this PeriodFormatterBuilder
* @throws IllegalStateException if no field exists to append to
* @see #appendPrefix
* @since 2.5
*/
public PeriodFormatterBuilder appendPrefix(String[] regularExpressions, String[] prefixes) {
if (regularExpressions == null || prefixes == null ||
regularExpressions.length < 1 || regularExpressions.length != prefixes.length) {
throw new IllegalArgumentException();
}
return appendPrefix(new RegExAffix(regularExpressions, prefixes));
}
/**
* Append a field prefix which applies only to the next appended field. If
* the field is not printed, neither is the prefix.
*
* @param prefix custom prefix
* @return this PeriodFormatterBuilder
* @see #appendSuffix
*/
private PeriodFormatterBuilder appendPrefix(PeriodFieldAffix prefix) {
if (prefix == null) {
throw new IllegalArgumentException();
}
if (iPrefix != null) {
prefix = new CompositeAffix(iPrefix, prefix);
}
iPrefix = prefix;
return this;
}
//-----------------------------------------------------------------------
/**
* Instruct the printer to emit an integer years field, if supported.
*
* The number of printed and parsed digits can be controlled using
* {@link #minimumPrintedDigits(int)} and {@link #maximumParsedDigits(int)}.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendYears() {
appendField(YEARS);
return this;
}
/**
* Instruct the printer to emit an integer months field, if supported.
*
* The number of printed and parsed digits can be controlled using
* {@link #minimumPrintedDigits(int)} and {@link #maximumParsedDigits(int)}.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendMonths() {
appendField(MONTHS);
return this;
}
/**
* Instruct the printer to emit an integer weeks field, if supported.
*
* The number of printed and parsed digits can be controlled using
* {@link #minimumPrintedDigits(int)} and {@link #maximumParsedDigits(int)}.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendWeeks() {
appendField(WEEKS);
return this;
}
/**
* Instruct the printer to emit an integer days field, if supported.
*
* The number of printed and parsed digits can be controlled using
* {@link #minimumPrintedDigits(int)} and {@link #maximumParsedDigits(int)}.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendDays() {
appendField(DAYS);
return this;
}
/**
* Instruct the printer to emit an integer hours field, if supported.
*
* The number of printed and parsed digits can be controlled using
* {@link #minimumPrintedDigits(int)} and {@link #maximumParsedDigits(int)}.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendHours() {
appendField(HOURS);
return this;
}
/**
* Instruct the printer to emit an integer minutes field, if supported.
*
* The number of printed and parsed digits can be controlled using
* {@link #minimumPrintedDigits(int)} and {@link #maximumParsedDigits(int)}.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendMinutes() {
appendField(MINUTES);
return this;
}
/**
* Instruct the printer to emit an integer seconds field, if supported.
*
* The number of printed and parsed digits can be controlled using
* {@link #minimumPrintedDigits(int)} and {@link #maximumParsedDigits(int)}.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendSeconds() {
appendField(SECONDS);
return this;
}
/**
* Instruct the printer to emit a combined seconds and millis field, if supported.
* The millis will overflow into the seconds if necessary.
* The millis are always output.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendSecondsWithMillis() {
appendField(SECONDS_MILLIS);
return this;
}
/**
* Instruct the printer to emit a combined seconds and millis field, if supported.
* The millis will overflow into the seconds if necessary.
* The millis are only output if non-zero.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendSecondsWithOptionalMillis() {
appendField(SECONDS_OPTIONAL_MILLIS);
return this;
}
/**
* Instruct the printer to emit an integer millis field, if supported.
*
* The number of printed and parsed digits can be controlled using
* {@link #minimumPrintedDigits(int)} and {@link #maximumParsedDigits(int)}.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendMillis() {
appendField(MILLIS);
return this;
}
/**
* Instruct the printer to emit an integer millis field, if supported.
*
* The number of arsed digits can be controlled using {@link #maximumParsedDigits(int)}.
*
* @return this PeriodFormatterBuilder
*/
public PeriodFormatterBuilder appendMillis3Digit() {
appendField(7, 3);
return this;
}
private void appendField(int type) {
appendField(type, iMinPrintedDigits);
}
private void appendField(int type, int minPrinted) {
FieldFormatter field = new FieldFormatter(minPrinted, iPrintZeroSetting,
iMaxParsedDigits, iRejectSignedValues, type, iFieldFormatters, iPrefix, null);
append0(field, field);
iFieldFormatters[type] = field;
iPrefix = null;
}
//-----------------------------------------------------------------------
/**
* Append a field suffix which applies only to the last appended field. If
* the field is not printed, neither is the suffix.
*
* @param text text to print after field only if field is printed
* @return this PeriodFormatterBuilder
* @throws IllegalStateException if no field exists to append to
* @see #appendPrefix
*/
public PeriodFormatterBuilder appendSuffix(String text) {
if (text == null) {
throw new IllegalArgumentException();
}
return appendSuffix(new SimpleAffix(text));
}
/**
* Append a field suffix which applies only to the last appended field. If
* the field is not printed, neither is the suffix.
*
* During parsing, the singular and plural versions are accepted whether or
* not the actual value matches plurality.
*
* @param singularText text to print if field value is one
* @param pluralText text to print if field value is not one
* @return this PeriodFormatterBuilder
* @throws IllegalStateException if no field exists to append to
* @see #appendPrefix
*/
public PeriodFormatterBuilder appendSuffix(String singularText,
String pluralText) {
if (singularText == null || pluralText == null) {
throw new IllegalArgumentException();
}
return appendSuffix(new PluralAffix(singularText, pluralText));
}
/**
* Append a field suffix which applies only to the last appended field.
* If the field is not printed, neither is the suffix.
*
* The value is converted to String. During parsing, the suffix is selected based
* on the match with the regular expression. The index of the first regular
* expression that matches value converted to String nominates the suffix. If
* none of the regular expressions match the value converted to String then the
* last suffix is selected.
*
* An example usage for English might look like this:
*
*
* appendSuffix(new String[] { "ˆ1$", ".*" }, new String[] { " year", " years" })
*
*
*
* Please note that for languages with simple mapping (singular and plural suffix
* only - like the one above) the {@link #appendSuffix(String, String)} method
* will result in a slightly faster formatter and that
* {@link #appendSuffix(String[], String[])} method should be only used when the
* mapping between values and prefixes is more complicated than the difference between
* singular and plural.
*
* @param regularExpressions an array of regular expressions, at least one
* element, length has to match the length of suffixes parameter
* @param suffixes an array of suffixes, at least one element, length has to
* match the length of regularExpressions parameter
* @return this PeriodFormatterBuilder
* @throws IllegalStateException if no field exists to append to
* @see #appendPrefix
* @since 2.5
*/
public PeriodFormatterBuilder appendSuffix(String[] regularExpressions, String[] suffixes) {
if (regularExpressions == null || suffixes == null ||
regularExpressions.length < 1 || regularExpressions.length != suffixes.length) {
throw new IllegalArgumentException();
}
return appendSuffix(new RegExAffix(regularExpressions, suffixes));
}
/**
* Append a field suffix which applies only to the last appended field. If
* the field is not printed, neither is the suffix.
*
* @param suffix custom suffix
* @return this PeriodFormatterBuilder
* @throws IllegalStateException if no field exists to append to
* @see #appendPrefix
*/
private PeriodFormatterBuilder appendSuffix(PeriodFieldAffix suffix) {
final Object originalPrinter;
final Object originalParser;
if (iElementPairs.size() > 0) {
originalPrinter = iElementPairs.get(iElementPairs.size() - 2);
originalParser = iElementPairs.get(iElementPairs.size() - 1);
} else {
originalPrinter = null;
originalParser = null;
}
if (originalPrinter == null || originalParser == null ||
originalPrinter != originalParser ||
!(originalPrinter instanceof FieldFormatter)) {
throw new IllegalStateException("No field to apply suffix to");
}
clearPrefix();
FieldFormatter newField = new FieldFormatter((FieldFormatter) originalPrinter, suffix);
iElementPairs.set(iElementPairs.size() - 2, newField);
iElementPairs.set(iElementPairs.size() - 1, newField);
iFieldFormatters[newField.getFieldType()] = newField;
return this;
}
//-----------------------------------------------------------------------
/**
* Append a separator, which is output if fields are printed both before
* and after the separator.
*
* For example, builder.appendDays().appendSeparator(",").appendHours()
* will only output the comma if both the days and hours fields are output.
*
* The text will be parsed case-insensitively.
*
* Note: appending a separator discontinues any further work on the latest
* appended field.
*
* @param text the text to use as a separator
* @return this PeriodFormatterBuilder
* @throws IllegalStateException if this separator follows a previous one
*/
public PeriodFormatterBuilder appendSeparator(String text) {
return appendSeparator(text, text, null, true, true);
}
/**
* Append a separator, which is output only if fields are printed after the separator.
*
* For example,
* builder.appendDays().appendSeparatorIfFieldsAfter(",").appendHours()
* will only output the comma if the hours fields is output.
*
* The text will be parsed case-insensitively.
*
* Note: appending a separator discontinues any further work on the latest
* appended field.
*
* @param text the text to use as a separator
* @return this PeriodFormatterBuilder
* @throws IllegalStateException if this separator follows a previous one
*/
public PeriodFormatterBuilder appendSeparatorIfFieldsAfter(String text) {
return appendSeparator(text, text, null, false, true);
}
/**
* Append a separator, which is output only if fields are printed before the separator.
*
* For example,
* builder.appendDays().appendSeparatorIfFieldsBefore(",").appendHours()
* will only output the comma if the days fields is output.
*
* The text will be parsed case-insensitively.
*
* Note: appending a separator discontinues any further work on the latest
* appended field.
*
* @param text the text to use as a separator
* @return this PeriodFormatterBuilder
* @throws IllegalStateException if this separator follows a previous one
*/
public PeriodFormatterBuilder appendSeparatorIfFieldsBefore(String text) {
return appendSeparator(text, text, null, true, false);
}
/**
* Append a separator, which is output if fields are printed both before
* and after the separator.
*
* This method changes the separator depending on whether it is the last separator
* to be output.
*
* For example, builder.appendDays().appendSeparator(",", "&").appendHours().appendSeparator(",", "&").appendMinutes()
* will output '1,2&3' if all three fields are output, '1&2' if two fields are output
* and '1' if just one field is output.
*
* The text will be parsed case-insensitively.
*
* Note: appending a separator discontinues any further work on the latest
* appended field.
*
* @param text the text to use as a separator
* @param finalText the text used used if this is the final separator to be printed
* @return this PeriodFormatterBuilder
* @throws IllegalStateException if this separator follows a previous one
*/
public PeriodFormatterBuilder appendSeparator(String text, String finalText) {
return appendSeparator(text, finalText, null, true, true);
}
/**
* Append a separator, which is output if fields are printed both before
* and after the separator.
*
* This method changes the separator depending on whether it is the last separator
* to be output.
*
* For example, builder.appendDays().appendSeparator(",", "&").appendHours().appendSeparator(",", "&").appendMinutes()
* will output '1,2&3' if all three fields are output, '1&2' if two fields are output
* and '1' if just one field is output.
*
* The text will be parsed case-insensitively.
*
* Note: appending a separator discontinues any further work on the latest
* appended field.
*
* @param text the text to use as a separator
* @param finalText the text used used if this is the final separator to be printed
* @param variants set of text values which are also acceptable when parsed
* @return this PeriodFormatterBuilder
* @throws IllegalStateException if this separator follows a previous one
*/
public PeriodFormatterBuilder appendSeparator(String text, String finalText,
String[] variants) {
return appendSeparator(text, finalText, variants, true, true);
}
private PeriodFormatterBuilder appendSeparator(String text, String finalText,
String[] variants,
boolean useBefore, boolean useAfter) {
if (text == null || finalText == null) {
throw new IllegalArgumentException();
}
clearPrefix();
// optimise zero formatter case
List pairs = iElementPairs;
if (pairs.size() == 0) {
if (useAfter && useBefore == false) {
Separator separator = new Separator(
text, finalText, variants,
Literal.EMPTY, Literal.EMPTY, useBefore, useAfter);
append0(separator, separator);
}
return this;
}
// find the last separator added
int i;
Separator lastSeparator = null;
for (i=pairs.size(); --i>=0; ) {
if (pairs.get(i) instanceof Separator) {
lastSeparator = (Separator) pairs.get(i);
pairs = pairs.subList(i + 1, pairs.size());
break;
}
i--; // element pairs
}
// merge formatters
if (lastSeparator != null && pairs.size() == 0) {
throw new IllegalStateException("Cannot have two adjacent separators");
} else {
Object[] comp = createComposite(pairs);
pairs.clear();
Separator separator = new Separator(
text, finalText, variants,
(PeriodPrinter) comp[0], (PeriodParser) comp[1],
useBefore, useAfter);
pairs.add(separator);
pairs.add(separator);
}
return this;
}
//-----------------------------------------------------------------------
private void clearPrefix() throws IllegalStateException {
if (iPrefix != null) {
throw new IllegalStateException("Prefix not followed by field");
}
iPrefix = null;
}
private PeriodFormatterBuilder append0(PeriodPrinter printer, PeriodParser parser) {
iElementPairs.add(printer);
iElementPairs.add(parser);
iNotPrinter |= (printer == null);
iNotParser |= (parser == null);
return this;
}
//-----------------------------------------------------------------------
private static PeriodFormatter toFormatter(List elementPairs, boolean notPrinter, boolean notParser) {
if (notPrinter && notParser) {
throw new IllegalStateException("Builder has created neither a printer nor a parser");
}
int size = elementPairs.size();
if (size >= 2 && elementPairs.get(0) instanceof Separator) {
Separator sep = (Separator) elementPairs.get(0);
if (sep.iAfterParser == null && sep.iAfterPrinter == null) {
PeriodFormatter f = toFormatter(elementPairs.subList(2, size), notPrinter, notParser);
sep = sep.finish(f.getPrinter(), f.getParser());
return new PeriodFormatter(sep, sep);
}
}
Object[] comp = createComposite(elementPairs);
if (notPrinter) {
return new PeriodFormatter(null, (PeriodParser) comp[1]);
} else if (notParser) {
return new PeriodFormatter((PeriodPrinter) comp[0], null);
} else {
return new PeriodFormatter((PeriodPrinter) comp[0], (PeriodParser) comp[1]);
}
}
private static Object[] createComposite(List elementPairs) {
switch (elementPairs.size()) {
case 0:
return new Object[] {Literal.EMPTY, Literal.EMPTY};
case 1:
return new Object[] {elementPairs.get(0), elementPairs.get(1)};
default:
Composite comp = new Composite(elementPairs);
return new Object[] {comp, comp};
}
}
//-----------------------------------------------------------------------
/**
* Defines a formatted field's prefix or suffix text.
* This can be used for fields such as 'n hours' or 'nH' or 'Hour:n'.
*/
static interface PeriodFieldAffix {
int calculatePrintedLength(int value);
void printTo(StringBuffer buf, int value);
void printTo(Writer out, int value) throws IOException;
/**
* @return new position after parsing affix, or ~position of failure
*/
int parse(String periodStr, int position);
/**
* @return position where affix starts, or original ~position if not found
*/
int scan(String periodStr, int position);
/**
* @return a copy of array of affixes
*/
String[] getAffixes();
/**
* This method should be called only once.
* After first call consecutive calls to this methods will have no effect.
* Causes this affix to ignore a match (parse and scan
* methods) if there is an affix in the passed list that holds
* affix text which satisfy both following conditions:
* - the affix text is also a match
* - the affix text is longer than the match from this object
*
* @param affixesToIgnore
*/
void finish(Set affixesToIgnore);
}
/**
* An affix that can be ignored.
*/
static abstract class IgnorableAffix implements PeriodFieldAffix {
private volatile String[] iOtherAffixes;
public void finish(Set periodFieldAffixesToIgnore) {
if (iOtherAffixes == null) {
// Calculate the shortest affix in this instance.
int shortestAffixLength = Integer.MAX_VALUE;
String shortestAffix = null;
for (String affix : getAffixes()) {
if (affix.length() < shortestAffixLength) {
shortestAffixLength = affix.length();
shortestAffix = affix;
}
}
// Pick only affixes that are longer than the shortest affix in this instance.
// This will reduce the number of parse operations and thus speed up the PeriodFormatter.
// also need to pick affixes that differ only in case (but not those that are identical)
Set affixesToIgnore = new HashSet();
for (PeriodFieldAffix periodFieldAffixToIgnore : periodFieldAffixesToIgnore) {
if (periodFieldAffixToIgnore != null) {
for (String affixToIgnore : periodFieldAffixToIgnore.getAffixes()) {
if (affixToIgnore.length() > shortestAffixLength ||
(affixToIgnore.equalsIgnoreCase(shortestAffix) && !affixToIgnore.equals(shortestAffix))) {
affixesToIgnore.add(affixToIgnore);
}
}
}
}
iOtherAffixes = affixesToIgnore.toArray(new String[affixesToIgnore.size()]);
}
}
/**
* Checks if there is a match among the other affixes (stored internally)
* that is longer than the passed value (textLength).
*
* @param textLength the length of the match
* @param periodStr the Period string that will be parsed
* @param position the position in the Period string at which the parsing should be started.
* @return true if the other affixes (stored internally) contain a match
* that is longer than the textLength parameter, false otherwise
*/
protected boolean matchesOtherAffix(int textLength, String periodStr, int position) {
if (iOtherAffixes != null) {
// ignore case when affix length differs
// match case when affix length is same
for (String affixToIgnore : iOtherAffixes) {
int textToIgnoreLength = affixToIgnore.length();
if ((textLength < textToIgnoreLength && periodStr.regionMatches(true, position, affixToIgnore, 0, textToIgnoreLength)) ||
(textLength == textToIgnoreLength && periodStr.regionMatches(false, position, affixToIgnore, 0, textToIgnoreLength))) {
return true;
}
}
}
return false;
}
}
//-----------------------------------------------------------------------
/**
* Implements an affix where the text does not vary by the amount.
*/
static class SimpleAffix extends IgnorableAffix {
private final String iText;
SimpleAffix(String text) {
iText = text;
}
public int calculatePrintedLength(int value) {
return iText.length();
}
public void printTo(StringBuffer buf, int value) {
buf.append(iText);
}
public void printTo(Writer out, int value) throws IOException {
out.write(iText);
}
public int parse(String periodStr, int position) {
String text = iText;
int textLength = text.length();
if (periodStr.regionMatches(true, position, text, 0, textLength)) {
if (!matchesOtherAffix(textLength, periodStr, position)) {
return position + textLength;
}
}
return ~position;
}
public int scan(String periodStr, final int position) {
String text = iText;
int textLength = text.length();
int sourceLength = periodStr.length();
search:
for (int pos = position; pos < sourceLength; pos++) {
if (periodStr.regionMatches(true, pos, text, 0, textLength)) {
if (!matchesOtherAffix(textLength, periodStr, pos)) {
return pos;
}
}
// Only allow number characters to be skipped in search of suffix.
switch (periodStr.charAt(pos)) {
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
case '.': case ',': case '+': case '-':
break;
default:
break search;
}
}
return ~position;
}
public String[] getAffixes() {
return new String[] { iText };
}
}
//-----------------------------------------------------------------------
/**
* Implements an affix where the text varies by the amount of the field.
* Only singular (1) and plural (not 1) are supported.
*/
static class PluralAffix extends IgnorableAffix {
private final String iSingularText;
private final String iPluralText;
PluralAffix(String singularText, String pluralText) {
iSingularText = singularText;
iPluralText = pluralText;
}
public int calculatePrintedLength(int value) {
return (value == 1 ? iSingularText : iPluralText).length();
}
public void printTo(StringBuffer buf, int value) {
buf.append(value == 1 ? iSingularText : iPluralText);
}
public void printTo(Writer out, int value) throws IOException {
out.write(value == 1 ? iSingularText : iPluralText);
}
public int parse(String periodStr, int position) {
String text1 = iPluralText;
String text2 = iSingularText;
if (text1.length() < text2.length()) {
// Swap in order to match longer one first.
String temp = text1;
text1 = text2;
text2 = temp;
}
if (periodStr.regionMatches(true, position, text1, 0, text1.length())) {
if (!matchesOtherAffix(text1.length(), periodStr, position)) {
return position + text1.length();
}
}
if (periodStr.regionMatches(true, position, text2, 0, text2.length())) {
if (!matchesOtherAffix(text2.length(), periodStr, position)) {
return position + text2.length();
}
}
return ~position;
}
public int scan(String periodStr, final int position) {
String text1 = iPluralText;
String text2 = iSingularText;
if (text1.length() < text2.length()) {
// Swap in order to match longer one first.
String temp = text1;
text1 = text2;
text2 = temp;
}
int textLength1 = text1.length();
int textLength2 = text2.length();
int sourceLength = periodStr.length();
for (int pos = position; pos < sourceLength; pos++) {
if (periodStr.regionMatches(true, pos, text1, 0, textLength1)) {
if (!matchesOtherAffix(text1.length(), periodStr, pos)) {
return pos;
}
}
if (periodStr.regionMatches(true, pos, text2, 0, textLength2)) {
if (!matchesOtherAffix(text2.length(), periodStr, pos)) {
return pos;
}
}
}
return ~position;
}
public String[] getAffixes() {
return new String[] { iSingularText, iPluralText };
}
}
// -----------------------------------------------------------------------
/**
* Implements an affix where the text varies by the amount of the field.
* Different amounts are supported based on the provided parameters.
*/
static class RegExAffix extends IgnorableAffix {
private static final Comparator LENGTH_DESC_COMPARATOR = new Comparator() {
public int compare(String o1, String o2) {
return o2.length() - o1.length();
}
};
private final String[] iSuffixes;
private final Pattern[] iPatterns;
// The parse method has to iterate over the suffixes from the longest one to the shortest one
// Otherwise it might consume not enough characters.
private final String[] iSuffixesSortedDescByLength;
RegExAffix(String[] regExes, String[] texts) {
iSuffixes = texts.clone();
iPatterns = new Pattern[regExes.length];
for (int i = 0; i < regExes.length; i++) {
Pattern pattern = PATTERNS.get(regExes[i]);
if (pattern == null) {
pattern = Pattern.compile(regExes[i]);
PATTERNS.putIfAbsent(regExes[i], pattern);
}
iPatterns[i] = pattern;
}
iSuffixesSortedDescByLength = iSuffixes.clone();
Arrays.sort(iSuffixesSortedDescByLength, LENGTH_DESC_COMPARATOR);
}
private int selectSuffixIndex(int value) {
String valueString = String.valueOf(value);
for (int i = 0; i < iPatterns.length; i++) {
if (iPatterns[i].matcher(valueString).matches()) {
return i;
}
}
return iPatterns.length - 1;
}
public int calculatePrintedLength(int value) {
return iSuffixes[selectSuffixIndex(value)].length();
}
public void printTo(StringBuffer buf, int value) {
buf.append(iSuffixes[selectSuffixIndex(value)]);
}
public void printTo(Writer out, int value) throws IOException {
out.write(iSuffixes[selectSuffixIndex(value)]);
}
public int parse(String periodStr, int position) {
for (String text : iSuffixesSortedDescByLength) {
if (periodStr.regionMatches(true, position, text, 0, text.length())) {
if (!matchesOtherAffix(text.length(), periodStr, position)) {
return position + text.length();
}
}
}
return ~position;
}
public int scan(String periodStr, final int position) {
int sourceLength = periodStr.length();
for (int pos = position; pos < sourceLength; pos++) {
for (String text : iSuffixesSortedDescByLength) {
if (periodStr.regionMatches(true, pos, text, 0, text.length())) {
if (!matchesOtherAffix(text.length(), periodStr, pos)) {
return pos;
}
}
}
}
return ~position;
}
public String[] getAffixes() {
return iSuffixes.clone();
}
}
//-----------------------------------------------------------------------
/**
* Builds a composite affix by merging two other affix implementations.
*/
static class CompositeAffix extends IgnorableAffix {
private final PeriodFieldAffix iLeft;
private final PeriodFieldAffix iRight;
private final String[] iLeftRightCombinations;
CompositeAffix(PeriodFieldAffix left, PeriodFieldAffix right) {
iLeft = left;
iRight = right;
// We need to construct all possible combinations of left and right.
// We are doing it once in constructor so that getAffixes() is quicker.
Set result = new HashSet();
for (String leftText : iLeft.getAffixes()) {
for (String rightText : iRight.getAffixes()) {
result.add(leftText + rightText);
}
}
iLeftRightCombinations = result.toArray(new String[result.size()]);
}
public int calculatePrintedLength(int value) {
return iLeft.calculatePrintedLength(value)
+ iRight.calculatePrintedLength(value);
}
public void printTo(StringBuffer buf, int value) {
iLeft.printTo(buf, value);
iRight.printTo(buf, value);
}
public void printTo(Writer out, int value) throws IOException {
iLeft.printTo(out, value);
iRight.printTo(out, value);
}
public int parse(String periodStr, int position) {
int pos = iLeft.parse(periodStr, position);
if (pos >= 0) {
pos = iRight.parse(periodStr, pos);
if (pos >= 0 && matchesOtherAffix(parse(periodStr, pos) - pos, periodStr, position)) {
return ~position;
}
}
return pos;
}
public int scan(String periodStr, final int position) {
int leftPosition = iLeft.scan(periodStr, position);
if (leftPosition >= 0) {
int rightPosition = iRight.scan(periodStr, iLeft.parse(periodStr, leftPosition));
if (!(rightPosition >= 0 && matchesOtherAffix(iRight.parse(periodStr, rightPosition) - leftPosition, periodStr, position))) {
if (leftPosition > 0) {
return leftPosition;
} else {
return rightPosition;
}
}
}
return ~position;
}
public String[] getAffixes() {
return iLeftRightCombinations.clone();
}
}
//-----------------------------------------------------------------------
/**
* Formats the numeric value of a field, potentially with prefix/suffix.
*/
static class FieldFormatter
implements PeriodPrinter, PeriodParser {
private final int iMinPrintedDigits;
private final int iPrintZeroSetting;
private final int iMaxParsedDigits;
private final boolean iRejectSignedValues;
/** The index of the field type, 0=year, etc. */
private final int iFieldType;
/**
* The array of the latest formatter added for each type.
* This is shared between all the field formatters in a formatter.
*/
private final FieldFormatter[] iFieldFormatters;
private final PeriodFieldAffix iPrefix;
private final PeriodFieldAffix iSuffix;
FieldFormatter(int minPrintedDigits, int printZeroSetting,
int maxParsedDigits, boolean rejectSignedValues,
int fieldType, FieldFormatter[] fieldFormatters,
PeriodFieldAffix prefix, PeriodFieldAffix suffix) {
iMinPrintedDigits = minPrintedDigits;
iPrintZeroSetting = printZeroSetting;
iMaxParsedDigits = maxParsedDigits;
iRejectSignedValues = rejectSignedValues;
iFieldType = fieldType;
iFieldFormatters = fieldFormatters;
iPrefix = prefix;
iSuffix = suffix;
}
FieldFormatter(FieldFormatter field, PeriodFieldAffix suffix) {
iMinPrintedDigits = field.iMinPrintedDigits;
iPrintZeroSetting = field.iPrintZeroSetting;
iMaxParsedDigits = field.iMaxParsedDigits;
iRejectSignedValues = field.iRejectSignedValues;
iFieldType = field.iFieldType;
iFieldFormatters = field.iFieldFormatters;
iPrefix = field.iPrefix;
if (field.iSuffix != null) {
suffix = new CompositeAffix(field.iSuffix, suffix);
}
iSuffix = suffix;
}
public void finish(FieldFormatter[] fieldFormatters) {
// find all other affixes that are in use
Set prefixesToIgnore = new HashSet();
Set suffixesToIgnore = new HashSet();
for (FieldFormatter fieldFormatter : fieldFormatters) {
if (fieldFormatter != null && !this.equals(fieldFormatter)) {
prefixesToIgnore.add(fieldFormatter.iPrefix);
suffixesToIgnore.add(fieldFormatter.iSuffix);
}
}
// if we have a prefix then allow ignore behaviour
if (iPrefix != null) {
iPrefix.finish(prefixesToIgnore);
}
// if we have a suffix then allow ignore behaviour
if (iSuffix != null) {
iSuffix.finish(suffixesToIgnore);
}
}
public int countFieldsToPrint(ReadablePeriod period, int stopAt, Locale locale) {
if (stopAt <= 0) {
return 0;
}
if (iPrintZeroSetting == PRINT_ZERO_ALWAYS || getFieldValue(period) != Long.MAX_VALUE) {
return 1;
}
return 0;
}
public int calculatePrintedLength(ReadablePeriod period, Locale locale) {
long valueLong = getFieldValue(period);
if (valueLong == Long.MAX_VALUE) {
return 0;
}
int sum = Math.max(FormatUtils.calculateDigitCount(valueLong), iMinPrintedDigits);
if (iFieldType >= SECONDS_MILLIS) {
// valueLong contains the seconds and millis fields
// the minimum output is 0.000, which is 4 or 5 digits with a negative
sum = (valueLong < 0 ? Math.max(sum, 5) : Math.max(sum, 4));
// plus one for the decimal point
sum++;
if (iFieldType == SECONDS_OPTIONAL_MILLIS &&
(Math.abs(valueLong) % DateTimeConstants.MILLIS_PER_SECOND) == 0) {
sum -= 4; // remove three digits and decimal point
}
// reset valueLong to refer to the seconds part for the prefic/suffix calculation
valueLong = valueLong / DateTimeConstants.MILLIS_PER_SECOND;
}
int value = (int) valueLong;
if (iPrefix != null) {
sum += iPrefix.calculatePrintedLength(value);
}
if (iSuffix != null) {
sum += iSuffix.calculatePrintedLength(value);
}
return sum;
}
public void printTo(StringBuffer buf, ReadablePeriod period, Locale locale) {
long valueLong = getFieldValue(period);
if (valueLong == Long.MAX_VALUE) {
return;
}
int value = (int) valueLong;
if (iFieldType >= SECONDS_MILLIS) {
value = (int) (valueLong / DateTimeConstants.MILLIS_PER_SECOND);
}
if (iPrefix != null) {
iPrefix.printTo(buf, value);
}
int bufLen = buf.length();
int minDigits = iMinPrintedDigits;
if (minDigits <= 1) {
FormatUtils.appendUnpaddedInteger(buf, value);
} else {
FormatUtils.appendPaddedInteger(buf, value, minDigits);
}
if (iFieldType >= SECONDS_MILLIS) {
int dp = (int) (Math.abs(valueLong) % DateTimeConstants.MILLIS_PER_SECOND);
if (iFieldType == SECONDS_MILLIS || dp > 0) {
if (valueLong < 0 && valueLong > -DateTimeConstants.MILLIS_PER_SECOND) {
buf.insert(bufLen, '-');
}
buf.append('.');
FormatUtils.appendPaddedInteger(buf, dp, 3);
}
}
if (iSuffix != null) {
iSuffix.printTo(buf, value);
}
}
public void printTo(Writer out, ReadablePeriod period, Locale locale) throws IOException {
long valueLong = getFieldValue(period);
if (valueLong == Long.MAX_VALUE) {
return;
}
int value = (int) valueLong;
if (iFieldType >= SECONDS_MILLIS) {
value = (int) (valueLong / DateTimeConstants.MILLIS_PER_SECOND);
}
if (iPrefix != null) {
iPrefix.printTo(out, value);
}
int minDigits = iMinPrintedDigits;
if (minDigits <= 1) {
FormatUtils.writeUnpaddedInteger(out, value);
} else {
FormatUtils.writePaddedInteger(out, value, minDigits);
}
if (iFieldType >= SECONDS_MILLIS) {
int dp = (int) (Math.abs(valueLong) % DateTimeConstants.MILLIS_PER_SECOND);
if (iFieldType == SECONDS_MILLIS || dp > 0) {
out.write('.');
FormatUtils.writePaddedInteger(out, dp, 3);
}
}
if (iSuffix != null) {
iSuffix.printTo(out, value);
}
}
public int parseInto(
ReadWritablePeriod period, String text,
int position, Locale locale) {
boolean mustParse = (iPrintZeroSetting == PRINT_ZERO_ALWAYS);
// Shortcut test.
if (position >= text.length()) {
return mustParse ? ~position : position;
}
if (iPrefix != null) {
position = iPrefix.parse(text, position);
if (position >= 0) {
// If prefix is found, then the parse must finish.
mustParse = true;
} else {
// Prefix not found, so bail.
if (!mustParse) {
// It's okay because parsing of this field is not
// required. Don't return an error. Fields down the
// chain can continue on, trying to parse.
return ~position;
}
return position;
}
}
int suffixPos = -1;
if (iSuffix != null && !mustParse) {
// Pre-scan the suffix, to help determine if this field must be
// parsed.
suffixPos = iSuffix.scan(text, position);
if (suffixPos >= 0) {
// If suffix is found, then parse must finish.
mustParse = true;
} else {
// Suffix not found, so bail.
if (!mustParse) {
// It's okay because parsing of this field is not
// required. Don't return an error. Fields down the
// chain can continue on, trying to parse.
return ~suffixPos;
}
return suffixPos;
}
}
if (!mustParse && !isSupported(period.getPeriodType(), iFieldType)) {
// If parsing is not required and the field is not supported,
// exit gracefully so that another parser can continue on.
return position;
}
int limit;
if (suffixPos > 0) {
limit = Math.min(iMaxParsedDigits, suffixPos - position);
} else {
limit = Math.min(iMaxParsedDigits, text.length() - position);
}
// validate input number
int length = 0;
int fractPos = -1;
boolean hasDigits = false;
boolean negative = false;
while (length < limit) {
char c = text.charAt(position + length);
// leading sign
if (length == 0 && (c == '-' || c == '+') && !iRejectSignedValues) {
negative = c == '-';
// Next character must be a digit.
if (length + 1 >= limit ||
(c = text.charAt(position + length + 1)) < '0' || c > '9')
{
break;
}
if (negative) {
length++;
} else {
// Skip the '+' for parseInt to succeed.
position++;
}
// Expand the limit to disregard the sign character.
limit = Math.min(limit + 1, text.length() - position);
continue;
}
// main number
if (c >= '0' && c <= '9') {
hasDigits = true;
} else {
if ((c == '.' || c == ',')
&& (iFieldType == SECONDS_MILLIS || iFieldType == SECONDS_OPTIONAL_MILLIS)) {
if (fractPos >= 0) {
// can't have two decimals
break;
}
fractPos = position + length + 1;
// Expand the limit to disregard the decimal point.
limit = Math.min(limit + 1, text.length() - position);
} else {
break;
}
}
length++;
}
if (!hasDigits) {
return ~position;
}
if (suffixPos >= 0 && position + length != suffixPos) {
// If there are additional non-digit characters before the
// suffix is reached, then assume that the suffix found belongs
// to a field not yet reached. Return original position so that
// another parser can continue on.
return position;
}
if (iFieldType != SECONDS_MILLIS && iFieldType != SECONDS_OPTIONAL_MILLIS) {
// Handle common case.
setFieldValue(period, iFieldType, parseInt(text, position, length));
} else if (fractPos < 0) {
setFieldValue(period, SECONDS, parseInt(text, position, length));
setFieldValue(period, MILLIS, 0);
} else {
int wholeValue = parseInt(text, position, fractPos - position - 1);
setFieldValue(period, SECONDS, wholeValue);
int fractLen = position + length - fractPos;
int fractValue;
if (fractLen <= 0) {
fractValue = 0;
} else {
if (fractLen >= 3) {
fractValue = parseInt(text, fractPos, 3);
} else {
fractValue = parseInt(text, fractPos, fractLen);
if (fractLen == 1) {
fractValue *= 100;
} else {
fractValue *= 10;
}
}
if (negative || wholeValue < 0) {
fractValue = -fractValue;
}
}
setFieldValue(period, MILLIS, fractValue);
}
position += length;
if (position >= 0 && iSuffix != null) {
position = iSuffix.parse(text, position);
}
return position;
}
/**
* @param text text to parse
* @param position position in text
* @param length exact count of characters to parse
* @return parsed int value
*/
private int parseInt(String text, int position, int length) {
if (length >= 10) {
// Since value may exceed max, use stock parser which checks for this.
return Integer.parseInt(text.substring(position, position + length));
}
if (length <= 0) {
return 0;
}
int value = text.charAt(position++);
length--;
boolean negative;
if (value == '-') {
if (--length < 0) {
return 0;
}
negative = true;
value = text.charAt(position++);
} else {
negative = false;
}
value -= '0';
while (length-- > 0) {
value = ((value << 3) + (value << 1)) + text.charAt(position++) - '0';
}
return negative ? -value : value;
}
/**
* @return Long.MAX_VALUE if nothing to print, otherwise value
*/
long getFieldValue(ReadablePeriod period) {
PeriodType type;
if (iPrintZeroSetting == PRINT_ZERO_ALWAYS) {
type = null; // Don't need to check if supported.
} else {
type = period.getPeriodType();
}
if (type != null && isSupported(type, iFieldType) == false) {
return Long.MAX_VALUE;
}
long value;
switch (iFieldType) {
default:
return Long.MAX_VALUE;
case YEARS:
value = period.get(DurationFieldType.years());
break;
case MONTHS:
value = period.get(DurationFieldType.months());
break;
case WEEKS:
value = period.get(DurationFieldType.weeks());
break;
case DAYS:
value = period.get(DurationFieldType.days());
break;
case HOURS:
value = period.get(DurationFieldType.hours());
break;
case MINUTES:
value = period.get(DurationFieldType.minutes());
break;
case SECONDS:
value = period.get(DurationFieldType.seconds());
break;
case MILLIS:
value = period.get(DurationFieldType.millis());
break;
case SECONDS_MILLIS: // drop through
case SECONDS_OPTIONAL_MILLIS:
int seconds = period.get(DurationFieldType.seconds());
int millis = period.get(DurationFieldType.millis());
value = (seconds * (long) DateTimeConstants.MILLIS_PER_SECOND) + millis;
break;
}
// determine if period is zero and this is the last field
if (value == 0) {
switch (iPrintZeroSetting) {
case PRINT_ZERO_NEVER:
return Long.MAX_VALUE;
case PRINT_ZERO_RARELY_LAST:
if (isZero(period) && iFieldFormatters[iFieldType] == this) {
for (int i = iFieldType + 1; i <= MAX_FIELD; i++) {
if (isSupported(type, i) && iFieldFormatters[i] != null) {
return Long.MAX_VALUE;
}
}
} else {
return Long.MAX_VALUE;
}
break;
case PRINT_ZERO_RARELY_FIRST:
if (isZero(period) && iFieldFormatters[iFieldType] == this) {
int i = Math.min(iFieldType, 8); // line split out for IBM JDK
i--; // see bug 1660490
for (; i >= 0 && i <= MAX_FIELD; i--) {
if (isSupported(type, i) && iFieldFormatters[i] != null) {
return Long.MAX_VALUE;
}
}
} else {
return Long.MAX_VALUE;
}
break;
}
}
return value;
}
boolean isZero(ReadablePeriod period) {
for (int i = 0, isize = period.size(); i < isize; i++) {
if (period.getValue(i) != 0) {
return false;
}
}
return true;
}
boolean isSupported(PeriodType type, int field) {
switch (field) {
default:
return false;
case YEARS:
return type.isSupported(DurationFieldType.years());
case MONTHS:
return type.isSupported(DurationFieldType.months());
case WEEKS:
return type.isSupported(DurationFieldType.weeks());
case DAYS:
return type.isSupported(DurationFieldType.days());
case HOURS:
return type.isSupported(DurationFieldType.hours());
case MINUTES:
return type.isSupported(DurationFieldType.minutes());
case SECONDS:
return type.isSupported(DurationFieldType.seconds());
case MILLIS:
return type.isSupported(DurationFieldType.millis());
case SECONDS_MILLIS: // drop through
case SECONDS_OPTIONAL_MILLIS:
return type.isSupported(DurationFieldType.seconds()) ||
type.isSupported(DurationFieldType.millis());
}
}
void setFieldValue(ReadWritablePeriod period, int field, int value) {
switch (field) {
default:
break;
case YEARS:
period.setYears(value);
break;
case MONTHS:
period.setMonths(value);
break;
case WEEKS:
period.setWeeks(value);
break;
case DAYS:
period.setDays(value);
break;
case HOURS:
period.setHours(value);
break;
case MINUTES:
period.setMinutes(value);
break;
case SECONDS:
period.setSeconds(value);
break;
case MILLIS:
period.setMillis(value);
break;
}
}
int getFieldType() {
return iFieldType;
}
}
//-----------------------------------------------------------------------
/**
* Handles a simple literal piece of text.
*/
static class Literal
implements PeriodPrinter, PeriodParser {
static final Literal EMPTY = new Literal("");
private final String iText;
Literal(String text) {
iText = text;
}
public int countFieldsToPrint(ReadablePeriod period, int stopAt, Locale locale) {
return 0;
}
public int calculatePrintedLength(ReadablePeriod period, Locale locale) {
return iText.length();
}
public void printTo(StringBuffer buf, ReadablePeriod period, Locale locale) {
buf.append(iText);
}
public void printTo(Writer out, ReadablePeriod period, Locale locale) throws IOException {
out.write(iText);
}
public int parseInto(
ReadWritablePeriod period, String periodStr,
int position, Locale locale) {
if (periodStr.regionMatches(true, position, iText, 0, iText.length())) {
return position + iText.length();
}
return ~position;
}
}
//-----------------------------------------------------------------------
/**
* Handles a separator, that splits the fields into multiple parts.
* For example, the 'T' in the ISO8601 standard.
*/
static class Separator
implements PeriodPrinter, PeriodParser {
private final String iText;
private final String iFinalText;
private final String[] iParsedForms;
private final boolean iUseBefore;
private final boolean iUseAfter;
private final PeriodPrinter iBeforePrinter;
private volatile PeriodPrinter iAfterPrinter;
private final PeriodParser iBeforeParser;
private volatile PeriodParser iAfterParser;
Separator(String text, String finalText, String[] variants,
PeriodPrinter beforePrinter, PeriodParser beforeParser,
boolean useBefore, boolean useAfter) {
iText = text;
iFinalText = finalText;
if ((finalText == null || text.equals(finalText)) &&
(variants == null || variants.length == 0)) {
iParsedForms = new String[] {text};
} else {
// Filter and reverse sort the parsed forms.
TreeSet parsedSet = new TreeSet(String.CASE_INSENSITIVE_ORDER);
parsedSet.add(text);
parsedSet.add(finalText);
if (variants != null) {
for (int i=variants.length; --i>=0; ) {
parsedSet.add(variants[i]);
}
}
ArrayList parsedList = new ArrayList(parsedSet);
Collections.reverse(parsedList);
iParsedForms = parsedList.toArray(new String[parsedList.size()]);
}
iBeforePrinter = beforePrinter;
iBeforeParser = beforeParser;
iUseBefore = useBefore;
iUseAfter = useAfter;
}
public int countFieldsToPrint(ReadablePeriod period, int stopAt, Locale locale) {
int sum = iBeforePrinter.countFieldsToPrint(period, stopAt, locale);
if (sum < stopAt) {
sum += iAfterPrinter.countFieldsToPrint(period, stopAt, locale);
}
return sum;
}
public int calculatePrintedLength(ReadablePeriod period, Locale locale) {
PeriodPrinter before = iBeforePrinter;
PeriodPrinter after = iAfterPrinter;
int sum = before.calculatePrintedLength(period, locale)
+ after.calculatePrintedLength(period, locale);
if (iUseBefore) {
if (before.countFieldsToPrint(period, 1, locale) > 0) {
if (iUseAfter) {
int afterCount = after.countFieldsToPrint(period, 2, locale);
if (afterCount > 0) {
sum += (afterCount > 1 ? iText : iFinalText).length();
}
} else {
sum += iText.length();
}
}
} else if (iUseAfter && after.countFieldsToPrint(period, 1, locale) > 0) {
sum += iText.length();
}
return sum;
}
public void printTo(StringBuffer buf, ReadablePeriod period, Locale locale) {
PeriodPrinter before = iBeforePrinter;
PeriodPrinter after = iAfterPrinter;
before.printTo(buf, period, locale);
if (iUseBefore) {
if (before.countFieldsToPrint(period, 1, locale) > 0) {
if (iUseAfter) {
int afterCount = after.countFieldsToPrint(period, 2, locale);
if (afterCount > 0) {
buf.append(afterCount > 1 ? iText : iFinalText);
}
} else {
buf.append(iText);
}
}
} else if (iUseAfter && after.countFieldsToPrint(period, 1, locale) > 0) {
buf.append(iText);
}
after.printTo(buf, period, locale);
}
public void printTo(Writer out, ReadablePeriod period, Locale locale) throws IOException {
PeriodPrinter before = iBeforePrinter;
PeriodPrinter after = iAfterPrinter;
before.printTo(out, period, locale);
if (iUseBefore) {
if (before.countFieldsToPrint(period, 1, locale) > 0) {
if (iUseAfter) {
int afterCount = after.countFieldsToPrint(period, 2, locale);
if (afterCount > 0) {
out.write(afterCount > 1 ? iText : iFinalText);
}
} else {
out.write(iText);
}
}
} else if (iUseAfter && after.countFieldsToPrint(period, 1, locale) > 0) {
out.write(iText);
}
after.printTo(out, period, locale);
}
public int parseInto(
ReadWritablePeriod period, String periodStr,
int position, Locale locale) {
int oldPos = position;
position = iBeforeParser.parseInto(period, periodStr, position, locale);
if (position < 0) {
return position;
}
boolean found = false;
int parsedFormLength = -1;
if (position > oldPos) {
// Consume this separator.
String[] parsedForms = iParsedForms;
int length = parsedForms.length;
for (int i=0; i < length; i++) {
String parsedForm = parsedForms[i];
if ((parsedForm == null || parsedForm.length() == 0) ||
periodStr.regionMatches(true, position, parsedForm, 0, parsedForm.length())) {
parsedFormLength = (parsedForm == null ? 0 : parsedForm.length());
position += parsedFormLength;
found = true;
break;
}
}
}
oldPos = position;
position = iAfterParser.parseInto(period, periodStr, position, locale);
if (position < 0) {
return position;
}
if (found && position == oldPos && parsedFormLength > 0) {
// Separator should not have been supplied.
return ~oldPos;
}
if (position > oldPos && !found && !iUseBefore) {
// Separator was required.
return ~oldPos;
}
return position;
}
Separator finish(PeriodPrinter afterPrinter, PeriodParser afterParser) {
iAfterPrinter = afterPrinter;
iAfterParser = afterParser;
return this;
}
}
//-----------------------------------------------------------------------
/**
* Composite implementation that merges other fields to create a full pattern.
*/
static class Composite
implements PeriodPrinter, PeriodParser {
private final PeriodPrinter[] iPrinters;
private final PeriodParser[] iParsers;
Composite(List elementPairs) {
List printerList = new ArrayList();
List parserList = new ArrayList();
decompose(elementPairs, printerList, parserList);
if (printerList.size() <= 0) {
iPrinters = null;
} else {
iPrinters = printerList.toArray(
new PeriodPrinter[printerList.size()]);
}
if (parserList.size() <= 0) {
iParsers = null;
} else {
iParsers = parserList.toArray(
new PeriodParser[parserList.size()]);
}
}
public int countFieldsToPrint(ReadablePeriod period, int stopAt, Locale locale) {
int sum = 0;
PeriodPrinter[] printers = iPrinters;
for (int i=printers.length; sum < stopAt && --i>=0; ) {
sum += printers[i].countFieldsToPrint(period, Integer.MAX_VALUE, locale);
}
return sum;
}
public int calculatePrintedLength(ReadablePeriod period, Locale locale) {
int sum = 0;
PeriodPrinter[] printers = iPrinters;
for (int i=printers.length; --i>=0; ) {
sum += printers[i].calculatePrintedLength(period, locale);
}
return sum;
}
public void printTo(StringBuffer buf, ReadablePeriod period, Locale locale) {
PeriodPrinter[] printers = iPrinters;
int len = printers.length;
for (int i=0; i= 0; i++) {
position = parsers[i].parseInto(period, periodStr, position, locale);
}
return position;
}
private void decompose(List elementPairs, List printerList, List parserList) {
int size = elementPairs.size();
for (int i=0; i list, Object[] array) {
if (array != null) {
for (int i=0; i
