/* Portions Copyright 2009 Google Inc.
* The rest licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF and Google license this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package net.appjet.common.util;
import java.util.*;
import java.io.BufferedWriter;
import java.io.Closeable;
import java.io.File;
import java.io.FileNotFoundException;
import java.io.FileOutputStream;
import java.io.Flushable;
import java.io.IOException;
import java.io.OutputStream;
import java.io.OutputStreamWriter;
import java.io.PrintStream;
import java.io.UnsupportedEncodingException;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.math.MathContext;
import java.nio.CharBuffer;
import java.nio.charset.Charset;
import java.security.AccessController;
import java.security.PrivilegedAction;
import java.text.DateFormatSymbols;
import java.text.DecimalFormat;
import java.text.DecimalFormatSymbols;
import java.text.NumberFormat;
/**
* <p>The {@code LenientFormatter} class is a copy of {@code java.util.Formatter}
* that is lenient in the exact type of {@code java.lang.Number} passed into
* certain flags (integer, floating point, date, and character formats).</p>
*
* <p>The {@code Formatter} class is a String-formatting utility that is designed
* to work like the {@code printf} function of the C programming language.
* Its key methods are the {@code format} methods which create a formatted
* {@code String} by replacing a set of placeholders (format tokens) with formatted
* values. The style used to format each value is determined by the format
* token used. For example, the call<br/>
* {@code format("My decimal value is %d and my String is %s.", 3, "Hello");}<br/>
* returns the {@code String}<br/>
* {@code My decimal value is 3 and my String is Hello.}
*
* <p>The format token consists of a percent sign, optionally followed
* by flags and precision arguments, and then a single character that
* indicates the type of value
* being formatted. If the type is a time/date, then the type character
* {@code t} is followed by an additional character that indicates how the
* date is to be formatted. The two characters {@code <$} immediately
* following the % sign indicate that the previous value should be used again
* instead of moving on to the next value argument. A number {@code n}
* and a dollar sign immediately following the % sign make n the next argument
* to be used.
*
* <p>The available choices are the following:
*
* <table BORDER="1" WIDTH="100%" CELLPADDING="3" CELLSPACING="0" SUMMARY="">
* <tr BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
* <TD COLSPAN=4>
* <B>Text value types</B></TD>
* </tr>
* <tr>
* <td width="5%">{@code s}</td>
* <td width="10%">String</td>
* <td width="30%">{@code format("%s, %s", "hello", "Hello");}</td>
* <td width="30%">{@code hello, Hello}</td>
* </tr>
* <tr>
* <td width="5%">{@code S}, {@code s}</td>
* <td width="10%">String to capitals</td>
* <td width="30%">{@code format("%S, %S", "hello", "Hello");}</td>
* <td width="30%">{@code HELLO, HELLO}</td>
* </tr>
* <tr>
* <td width="5%">{@code c}</td>
* <td width="10%">Character</td>
* <td width="30%">{@code format("%c, %c", 'd', 0x65);}</td>
* <td width="30%">{@code d, e}</td>
* </tr>
* <tr>
* <td width="5%">{@code C}</td>
* <td width="10%">Character to capitals</td>
* <td width="30%">{@code format("%C, %C", 'd', 0x65);}</td>
* <td width="30%">{@code D, E}</td>
* </tr>
* <tr BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
* <TD COLSPAN=4>
* <B>Text option flags</B><br/>The value between the
* option and the type character indicates the minimum width in
* characters of the formatted value </TD>
* </tr>
* <tr>
* <td width="5%">{@code -}</td>
* <td width="10%">Left justify (width value is required)</td>
* <td width="30%">{@code format("%-3C, %3C", 'd', 0x65);}</td>
* <td width="30%">{@code D , E}</td>
* </tr>
* <tr BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
* <TD COLSPAN=4>
* <B>Integer types</B></TD>
* </tr>
* <tr>
* <td width="5%">{@code d}</td>
* <td width="10%">int, formatted as decimal</td>
* <td width="30%">{@code format("%d, %d"1$, 35, 0x10);}</td>
* <td width="30%">{@code 35, 16}</td>
* </tr>
* <tr>
* <td width="5%">{@code o}</td>
* <td width="10%">int, formatted as octal</td>
* <td width="30%">{@code format("%o, %o", 8, 010);}</td>
* <td width="30%">{@code 10, 10}</td>
* </tr>
* <tr>
* <td width="5%">{@code X}, {@code x}</td>
* <td width="10%">int, formatted as hexidecimal</td>
* <td width="30%">{@code format("%x, %X", 10, 10);}</td>
* <td width="30%">{@code a, A}</td>
* </tr>
* <tr BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
* <TD COLSPAN=4>
* <B>Integer option flags</B><br/>The value between the
* option and the type character indicates the minimum width in
* characters of the formatted value </TD>
* </tr>
* <tr>
* <td width="5%">{@code +}</td>
* <td width="10%">lead with the number's sign</td>
* <td width="30%">{@code format("%+d, %+4d", 5, 5);}</td>
* <td width="30%">{@code +5, +5}</td>
* </tr>
* <tr>
* <td width="5%">{@code -}</td>
* <td width="10%">Left justify (width value is required)</td>
* <td width="30%">{@code format("%-6dx", 5);}</td>
* <td width="30%">{@code 5 x}</td>
* </tr>
* <tr>
* <td width="5%">{@code #}</td>
* <td width="10%">Print the leading characters that indicate
* hexidecimal or octal (for use only with hex and octal types) </td>
* <td width="30%">{@code format("%#o", 010);}</td>
* <td width="30%">{@code 010}</td>
* </tr>
* <tr>
* <td width="5%">{@code }</td>
* <td width="10%">A space indicates that non-negative numbers
* should have a leading space. </td>
* <td width="30%">{@code format("x% d% 5d", 4, 4);}</td>
* <td width="30%">{@code x 4 4}</td>
* </tr>
* <tr>
* <td width="5%">{@code 0}</td>
* <td width="10%">Pad the number with leading zeros (width value is required)</td>
* <td width="30%">{@code format("%07d, %03d", 4, 5555);}</td>
* <td width="30%">{@code 0000004, 5555}</td>
* </tr>
* <tr>
* <td width="5%">{@code (}</td>
* <td width="10%">Put parentheses around negative numbers (decimal only)</td>
* <td width="30%">{@code format("%(d, %(d, %(6d", 12, -12, -12);}</td>
* <td width="30%">{@code 12, (12), (12)}</td>
* </tr>
* <tr BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
* <TD COLSPAN=4>
* <B>Float types</B><br/>A value immediately following the % symbol
* gives the minimum width in characters of the formatted value; if it
* is followed by a period and another integer, then the second value
* gives the precision (6 by default).</TD>
* </tr>
* <tr>
* <td width="5%">{@code f}</td>
* <td width="10%">float (or double) formatted as a decimal, where
* the precision indicates the number of digits after the decimal.</td>
* <td width="30%">{@code format("%f %<.1f %<1.5f %<10f %<6.0f", 123.456f);}</td>
* <td width="30%">{@code 123.456001 123.5 123.45600 123.456001 123}</td>
* </tr>
* <tr>
* <td width="5%">{@code E}, {@code e}</td>
* <td width="10%">float (or double) formatted in decimal exponential
* notation, where the precision indicates the number of significant digits.</td>
* <td width="30%">{@code format("%E %<.1e %<1.5E %<10E %<6.0E", 123.456f);}</td>
* <td width="30%">{@code 1.234560E+02 1.2e+02 1.23456E+02 1.234560E+02 1E+02}</td>
* </tr>
* <tr>
* <td width="5%">{@code G}, {@code g}</td>
* <td width="10%">float (or double) formatted in decimal exponential
* notation , where the precision indicates the maximum number of significant digits.</td>
* <td width="30%">{@code format("%G %<.1g %<1.5G %<10G %<6.0G", 123.456f);}</td>
* <td width="30%">{@code 123.456 1e+02 123.46 123.456 1E+02}</td>
* </tr>
* <tr>
* <td width="5%">{@code A}, {@code a}</td>
* <td width="10%">float (or double) formatted as a hexidecimal in exponential
* notation, where the precision indicates the number of significant digits.</td>
* <td width="30%">{@code format("%A %<.1a %<1.5A %<10A %<6.0A", 123.456f);}</td>
* <td width="30%">{@code 0X1.EDD2F2P6 0x1.fp6 0X1.EDD2FP6 0X1.EDD2F2P6 0X1.FP6}</td>
* </tr>
* <tr BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
* <TD COLSPAN=4>
* <B>Float-type option flags</B><br/>See the Integer-type options.
* The options for float-types are the
* same as for integer types with one addition: </TD>
* </tr>
* <tr>
* <td width="5%">{@code ,}</td>
* <td width="10%">Use a comma in place of a decimal if the locale
* requires it. </td>
* <td width="30%">{@code format(new Locale("fr"), "%,7.2f", 6.03f);}</td>
* <td width="30%">{@code 6,03}</td>
* </tr>
* <tr BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
* <TD COLSPAN=4>
* <B>Date types</B></TD>
* </tr>
* <tr>
* <td width="5%">{@code t}, {@code T}</td>
* <td width="10%">Date</td>
* <td width="30%">{@code format(new Locale("fr"), "%tB %TB", Calendar.getInstance(), Calendar.getInstance());}</td>
* <td width="30%">{@code avril AVRIL}</td>
* </tr>
* <tr BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
* <TD COLSPAN=4>
* <B>Date format precisions</B><br/>The format precision character
* follows the {@code t}. </TD>
* </tr>
* <tr>
* <td width="5%">{@code A}, {@code a}</td>
* <td width="10%">The day of the week</td>
* <td width="30%">{@code format("%ta %tA", cal, cal);}</td>
* <td width="30%">{@code Tue Tuesday}</td>
* </tr>
* <tr>
* <td width="5%">{@code b}, {@code B}, {@code h}</td>
* <td width="10%">The name of the month</td>
* <td width="30%">{@code format("%tb %<tB %<th", cal, cal, cal);}</td>
* <td width="30%">{@code Apr April Apr}</td>
* </tr>
* <tr>
* <td width="5%">{@code C}</td>
* <td width="10%">The century</td>
* <td width="30%">{@code format("%tC\n", cal);}</td>
* <td width="30%">{@code 20}</td>
* </tr>
* <tr>
* <td width="5%">{@code d}, {@code e}</td>
* <td width="10%">The day of the month (with or without leading zeros)</td>
* <td width="30%">{@code format("%td %te", cal, cal);}</td>
* <td width="30%">{@code 01 1}</td>
* </tr>
* <tr>
* <td width="5%">{@code F}</td>
* <td width="10%">The complete date formatted as YYYY-MM-DD</td>
* <td width="30%">{@code format("%tF", cal);}</td>
* <td width="30%">{@code 2008-04-01}</td>
* </tr>
* <tr>
* <td width="5%">{@code D}</td>
* <td width="10%">The complete date formatted as MM/DD/YY
* (not corrected for locale) </td>
* <td width="30%">{@code format(new Locale("en_US"), "%tD", cal);<br/>format(new Locale("en_UK"), " %tD", cal);}</td>
* <td width="30%">{@code 04/01/08 04/01/08}</td>
* </tr>
* <tr>
* <td width="5%">{@code j}</td>
* <td width="10%">The number of the day (from the beginning of the year).</td>
* <td width="30%">{@code format("%tj\n", cal);}</td>
* <td width="30%">{@code 092}</td>
* </tr>
* <tr>
* <td width="5%">{@code m}</td>
* <td width="10%">The number of the month</td>
* <td width="30%">{@code format("%tm\n", cal);}</td>
* <td width="30%">{@code 04}</td>
* </tr>
* <tr>
* <td width="5%">{@code y}, {@code Y}</td>
* <td width="10%">The year</td>
* <td width="30%">{@code format("%ty %tY", cal, cal);}</td>
* <td width="30%">{@code 08 2008}</td>
* </tr>
* <tr>
* <td width="5%">{@code H}, {@code I}, {@code k}, {@code l}</td>
* <td width="10%">The hour of the day, in 12 or 24 hour format, with or
* without a leading zero</td>
* <td width="30%">{@code format("%tH %tI %tk %tl", cal, cal, cal, cal);}</td>
* <td width="30%">{@code 16 04 16 4}</td>
* </tr>
* <tr>
* <td width="5%">{@code p}</td>
* <td width="10%">a.m. or p.m.</td>
* <td width="30%">{@code format("%tp %Tp", cal, cal);}</td>
* <td width="30%">{@code pm PM}</td>
* </tr>
* <tr>
* <td width="5%">{@code M}, {@code S}, {@code L}, {@code N}</td>
* <td width="10%">The minutes, seconds, milliseconds, and nanoseconds</td>
* <td width="30%">{@code format("%tM %tS %tL %tN", cal, cal, cal, cal);}</td>
* <td width="30%">{@code 08 17 359 359000000}</td>
* </tr>
* <tr>
* <td width="5%">{@code Z}, {@code z}</td>
* <td width="10%">The time zone: its abbreviation or offset from GMT</td>
* <td width="30%">{@code format("%tZ %tz", cal, cal);}</td>
* <td width="30%">{@code CEST +0100}</td>
* </tr>
* <tr>
* <td width="5%">{@code R}, {@code r}, {@code T}</td>
* <td width="10%">The complete time</td>
* <td width="30%">{@code format("%tR %tr %tT", cal, cal, cal);}</td>
* <td width="30%">{@code 16:15 04:15:32 PM 16:15:32}</td>
* </tr>
* <tr>
* <td width="5%">{@code s}, {@code Q}</td>
* <td width="10%">The number of seconds or milliseconds from "the epoch"
* (1 January 1970 00:00:00 UTC) </td>
* <td width="30%">{@code format("%ts %tQ", cal, cal);}</td>
* <td width="30%">{@code 1207059412 1207059412656}</td>
* </tr>
* <tr>
* <td width="5%">{@code c}</td>
* <td width="10%">The complete time and date</td>
* <td width="30%">{@code format("%tc", cal);}</td>
* <td width="30%">{@code Tue Apr 01 16:19:17 CEST 2008}</td>
* </tr>
* <tr BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
* <TD COLSPAN=4>
* <B>Other data types</B></TD>
* </tr>
* <tr>
* <td width="5%">{@code B}, {@code b}</td>
* <td width="10%">Boolean</td>
* <td width="30%">{@code format("%b, %B", true, false);}</td>
* <td width="30%">{@code true, FALSE}</td>
* </tr>
* <tr>
* <td width="5%">{@code H}, {@code h}</td>
* <td width="10%">Hashcode</td>
* <td width="30%">{@code format("%h, %H", obj, obj);}</td>
* <td width="30%">{@code 190d11, 190D11}</td>
* </tr>
* <tr>
* <td width="5%">{@code n}</td>
* <td width="10%">line separator</td>
* <td width="30%">{@code format("first%nsecond", "???");}</td>
* <td width="30%">{@code first<br/>second}</td>
* </tr>
* <tr BGCOLOR="#CCCCFF" CLASS="TableHeadingColor">
* <TD COLSPAN=4>
* <B>Escape sequences</B></TD>
* </tr>
* <tr>
* <td width="5%">{@code %}</td>
* <td width="10%">Escape the % character</td>
* <td width="30%">{@code format("%d%%, %d", 50, 60);}</td>
* <td width="30%">{@code 50%, 60}</td>
* </tr>
* </table>
*
* <p>An instance of Formatter can be created to write the formatted
* output to standard types of output streams. Its functionality can
* also be accessed through the format methods of an output stream
* or of {@code String}:<br/>
* {@code System.out.println(String.format("%ty\n", cal));}<br/>
* {@code System.out.format("%ty\n", cal);}
*
* <p>The class is not multi-threaded safe. The user is responsible for
* maintaining a thread-safe design if a {@code Formatter} is
* accessed by multiple threads.
*
* @since 1.5
*/
public final class LenientFormatter implements Closeable, Flushable {
/**
* The enumeration giving the available styles for formatting very large
* decimal numbers.
*/
public enum BigDecimalLayoutForm {
/**
* Use scientific style for BigDecimals.
*/
SCIENTIFIC,
/**
* Use normal decimal/float style for BigDecimals.
*/
DECIMAL_FLOAT
}
private Appendable out;
private Locale locale;
private boolean closed = false;
private IOException lastIOException;
/**
* Constructs a {@code Formatter}.
*
* The output is written to a {@code StringBuilder} which can be acquired by invoking
* {@link #out()} and whose content can be obtained by calling
* {@code toString()}.
*
* The {@code Locale} for the {@code LenientFormatter} is the default {@code Locale}.
*/
public LenientFormatter() {
this(new StringBuilder(), Locale.getDefault());
}
/**
* Constructs a {@code Formatter} whose output will be written to the
* specified {@code Appendable}.
*
* The locale for the {@code Formatter} is the default {@code Locale}.
*
* @param a
* the output destination of the {@code Formatter}. If {@code a} is {@code null},
* then a {@code StringBuilder} will be used.
*/
public LenientFormatter(Appendable a) {
this(a, Locale.getDefault());
}
/**
* Constructs a {@code Formatter} with the specified {@code Locale}.
*
* The output is written to a {@code StringBuilder} which can be acquired by invoking
* {@link #out()} and whose content can be obtained by calling
* {@code toString()}.
*
* @param l
* the {@code Locale} of the {@code Formatter}. If {@code l} is {@code null},
* then no localization will be used.
*/
public LenientFormatter(Locale l) {
this(new StringBuilder(), l);
}
/**
* Constructs a {@code Formatter} with the specified {@code Locale}
* and whose output will be written to the
* specified {@code Appendable}.
*
* @param a
* the output destination of the {@code Formatter}. If {@code a} is {@code null},
* then a {@code StringBuilder} will be used.
* @param l
* the {@code Locale} of the {@code Formatter}. If {@code l} is {@code null},
* then no localization will be used.
*/
public LenientFormatter(Appendable a, Locale l) {
if (null == a) {
out = new StringBuilder();
} else {
out = a;
}
locale = l;
}
/**
* Constructs a {@code Formatter} whose output is written to the specified file.
*
* The charset of the {@code Formatter} is the default charset.
*
* The {@code Locale} for the {@code Formatter} is the default {@code Locale}.
*
* @param fileName
* the filename of the file that is used as the output
* destination for the {@code Formatter}. The file will be truncated to
* zero size if the file exists, or else a new file will be
* created. The output of the {@code Formatter} is buffered.
* @throws FileNotFoundException
* if the filename does not denote a normal and writable file,
* or if a new file cannot be created, or if any error arises when
* opening or creating the file.
* @throws SecurityException
* if there is a {@code SecurityManager} in place which denies permission
* to write to the file in {@code checkWrite(file.getPath())}.
*/
public LenientFormatter(String fileName) throws FileNotFoundException {
this(new File(fileName));
}
/**
* Constructs a {@code Formatter} whose output is written to the specified file.
*
* The {@code Locale} for the {@code Formatter} is the default {@code Locale}.
*
* @param fileName
* the filename of the file that is used as the output
* destination for the {@code Formatter}. The file will be truncated to
* zero size if the file exists, or else a new file will be
* created. The output of the {@code Formatter} is buffered.
* @param csn
* the name of the charset for the {@code Formatter}.
* @throws FileNotFoundException
* if the filename does not denote a normal and writable file,
* or if a new file cannot be created, or if any error arises when
* opening or creating the file.
* @throws SecurityException
* if there is a {@code SecurityManager} in place which denies permission
* to write to the file in {@code checkWrite(file.getPath())}.
* @throws UnsupportedEncodingException
* if the charset with the specified name is not supported.
*/
public LenientFormatter(String fileName, String csn) throws FileNotFoundException,
UnsupportedEncodingException {
this(new File(fileName), csn);
}
/**
* Constructs a {@code Formatter} with the given {@code Locale} and charset,
* and whose output is written to the specified file.
*
* @param fileName
* the filename of the file that is used as the output
* destination for the {@code Formatter}. The file will be truncated to
* zero size if the file exists, or else a new file will be
* created. The output of the {@code Formatter} is buffered.
* @param csn
* the name of the charset for the {@code Formatter}.
* @param l
* the {@code Locale} of the {@code Formatter}. If {@code l} is {@code null},
* then no localization will be used.
* @throws FileNotFoundException
* if the filename does not denote a normal and writable file,
* or if a new file cannot be created, or if any error arises when
* opening or creating the file.
* @throws SecurityException
* if there is a {@code SecurityManager} in place which denies permission
* to write to the file in {@code checkWrite(file.getPath())}.
* @throws UnsupportedEncodingException
* if the charset with the specified name is not supported.
*/
public LenientFormatter(String fileName, String csn, Locale l)
throws FileNotFoundException, UnsupportedEncodingException {
this(new File(fileName), csn, l);
}
/**
* Constructs a {@code Formatter} whose output is written to the specified {@code File}.
*
* The charset of the {@code Formatter} is the default charset.
*
* The {@code Locale} for the {@code Formatter} is the default {@code Locale}.
*
* @param file
* the {@code File} that is used as the output destination for the
* {@code Formatter}. The {@code File} will be truncated to zero size if the {@code File}
* exists, or else a new {@code File} will be created. The output of the
* {@code Formatter} is buffered.
* @throws FileNotFoundException
* if the {@code File} is not a normal and writable {@code File}, or if a
* new {@code File} cannot be created, or if any error rises when opening or
* creating the {@code File}.
* @throws SecurityException
* if there is a {@code SecurityManager} in place which denies permission
* to write to the {@code File} in {@code checkWrite(file.getPath())}.
*/
public LenientFormatter(File file) throws FileNotFoundException {
this(new FileOutputStream(file));
}
/**
* Constructs a {@code Formatter} with the given charset,
* and whose output is written to the specified {@code File}.
*
* The {@code Locale} for the {@code Formatter} is the default {@code Locale}.
*
* @param file
* the {@code File} that is used as the output destination for the
* {@code Formatter}. The {@code File} will be truncated to zero size if the {@code File}
* exists, or else a new {@code File} will be created. The output of the
* {@code Formatter} is buffered.
* @param csn
* the name of the charset for the {@code Formatter}.
* @throws FileNotFoundException
* if the {@code File} is not a normal and writable {@code File}, or if a
* new {@code File} cannot be created, or if any error rises when opening or
* creating the {@code File}.
* @throws SecurityException
* if there is a {@code SecurityManager} in place which denies permission
* to write to the {@code File} in {@code checkWrite(file.getPath())}.
* @throws UnsupportedEncodingException
* if the charset with the specified name is not supported.
*/
public LenientFormatter(File file, String csn) throws FileNotFoundException,
UnsupportedEncodingException {
this(file, csn, Locale.getDefault());
}
/**
* Constructs a {@code Formatter} with the given {@code Locale} and charset,
* and whose output is written to the specified {@code File}.
*
* @param file
* the {@code File} that is used as the output destination for the
* {@code Formatter}. The {@code File} will be truncated to zero size if the {@code File}
* exists, or else a new {@code File} will be created. The output of the
* {@code Formatter} is buffered.
* @param csn
* the name of the charset for the {@code Formatter}.
* @param l
* the {@code Locale} of the {@code Formatter}. If {@code l} is {@code null},
* then no localization will be used.
* @throws FileNotFoundException
* if the {@code File} is not a normal and writable {@code File}, or if a
* new {@code File} cannot be created, or if any error rises when opening or
* creating the {@code File}.
* @throws SecurityException
* if there is a {@code SecurityManager} in place which denies permission
* to write to the {@code File} in {@code checkWrite(file.getPath())}.
* @throws UnsupportedEncodingException
* if the charset with the specified name is not supported.
*/
public LenientFormatter(File file, String csn, Locale l)
throws FileNotFoundException, UnsupportedEncodingException {
FileOutputStream fout = null;
try {
fout = new FileOutputStream(file);
OutputStreamWriter writer = new OutputStreamWriter(fout, csn);
out = new BufferedWriter(writer);
} catch (RuntimeException e) {
closeOutputStream(fout);
throw e;
} catch (UnsupportedEncodingException e) {
closeOutputStream(fout);
throw e;
}
locale = l;
}
/**
* Constructs a {@code Formatter} whose output is written to the specified {@code OutputStream}.
*
* The charset of the {@code Formatter} is the default charset.
*
* The {@code Locale} for the {@code Formatter} is the default {@code Locale}.
*
* @param os
* the stream to be used as the destination of the {@code Formatter}.
*/
public LenientFormatter(OutputStream os) {
OutputStreamWriter writer = new OutputStreamWriter(os, Charset
.defaultCharset());
out = new BufferedWriter(writer);
locale = Locale.getDefault();
}
/**
* Constructs a {@code Formatter} with the given charset,
* and whose output is written to the specified {@code OutputStream}.
*
* The {@code Locale} for the {@code Formatter} is the default {@code Locale}.
*
* @param os
* the stream to be used as the destination of the {@code Formatter}.
* @param csn
* the name of the charset for the {@code Formatter}.
* @throws UnsupportedEncodingException
* if the charset with the specified name is not supported.
*/
public LenientFormatter(OutputStream os, String csn)
throws UnsupportedEncodingException {
this(os, csn, Locale.getDefault());
}
/**
* Constructs a {@code Formatter} with the given {@code Locale} and charset,
* and whose output is written to the specified {@code OutputStream}.
*
* @param os
* the stream to be used as the destination of the {@code Formatter}.
* @param csn
* the name of the charset for the {@code Formatter}.
* @param l
* the {@code Locale} of the {@code Formatter}. If {@code l} is {@code null},
* then no localization will be used.
* @throws UnsupportedEncodingException
* if the charset with the specified name is not supported.
*/
public LenientFormatter(OutputStream os, String csn, Locale l)
throws UnsupportedEncodingException {
OutputStreamWriter writer = new OutputStreamWriter(os, csn);
out = new BufferedWriter(writer);
locale = l;
}
/**
* Constructs a {@code Formatter} whose output is written to the specified {@code PrintStream}.
*
* The charset of the {@code Formatter} is the default charset.
*
* The {@code Locale} for the {@code Formatter} is the default {@code Locale}.
*
* @param ps
* the {@code PrintStream} used as destination of the {@code Formatter}. If
* {@code ps} is {@code null}, then a {@code NullPointerException} will
* be raised.
*/
public LenientFormatter(PrintStream ps) {
if (null == ps) {
throw new NullPointerException();
}
out = ps;
locale = Locale.getDefault();
}
private void checkClosed() {
if (closed) {
throw new FormatterClosedException();
}
}
/**
* Returns the {@code Locale} of the {@code Formatter}.
*
* @return the {@code Locale} for the {@code Formatter} or {@code null} for no {@code Locale}.
* @throws FormatterClosedException
* if the {@code Formatter} has been closed.
*/
public Locale locale() {
checkClosed();
return locale;
}
/**
* Returns the output destination of the {@code Formatter}.
*
* @return the output destination of the {@code Formatter}.
* @throws FormatterClosedException
* if the {@code Formatter} has been closed.
*/
public Appendable out() {
checkClosed();
return out;
}
/**
* Returns the content by calling the {@code toString()} method of the output
* destination.
*
* @return the content by calling the {@code toString()} method of the output
* destination.
* @throws FormatterClosedException
* if the {@code Formatter} has been closed.
*/
@Override
public String toString() {
checkClosed();
return out.toString();
}
/**
* Flushes the {@code Formatter}. If the output destination is {@link Flushable},
* then the method {@code flush()} will be called on that destination.
*
* @throws FormatterClosedException
* if the {@code Formatter} has been closed.
*/
public void flush() {
checkClosed();
if (out instanceof Flushable) {
try {
((Flushable) out).flush();
} catch (IOException e) {
lastIOException = e;
}
}
}
/**
* Closes the {@code Formatter}. If the output destination is {@link Closeable},
* then the method {@code close()} will be called on that destination.
*
* If the {@code Formatter} has been closed, then calling the this method will have no
* effect.
*
* Any method but the {@link #ioException()} that is called after the
* {@code Formatter} has been closed will raise a {@code FormatterClosedException}.
*/
public void close() {
closed = true;
try {
if (out instanceof Closeable) {
((Closeable) out).close();
}
} catch (IOException e) {
lastIOException = e;
}
}
/**
* Returns the last {@code IOException} thrown by the {@code Formatter}'s output
* destination. If the {@code append()} method of the destination does not throw
* {@code IOException}s, the {@code ioException()} method will always return {@code null}.
*
* @return the last {@code IOException} thrown by the {@code Formatter}'s output
* destination.
*/
public IOException ioException() {
return lastIOException;
}
/**
* Writes a formatted string to the output destination of the {@code Formatter}.
*
* @param format
* a format string.
* @param args
* the arguments list used in the {@code format()} method. If there are
* more arguments than those specified by the format string, then
* the additional arguments are ignored.
* @return this {@code Formatter}.
* @throws IllegalFormatException
* if the format string is illegal or incompatible with the
* arguments, or if fewer arguments are sent than those required by
* the format string, or any other illegal situation.
* @throws FormatterClosedException
* if the {@code Formatter} has been closed.
*/
public LenientFormatter format(String format, Object... args) {
return format(locale, format, args);
}
/**
* Writes a formatted string to the output destination of the {@code Formatter}.
*
* @param l
* the {@code Locale} used in the method. If {@code locale} is
* {@code null}, then no localization will be applied. This
* parameter does not influence the {@code Locale} specified during
* construction.
* @param format
* a format string.
* @param args
* the arguments list used in the {@code format()} method. If there are
* more arguments than those specified by the format string, then
* the additional arguments are ignored.
* @return this {@code Formatter}.
* @throws IllegalFormatException
* if the format string is illegal or incompatible with the
* arguments, or if fewer arguments are sent than those required by
* the format string, or any other illegal situation.
* @throws FormatterClosedException
* if the {@code Formatter} has been closed.
*/
public LenientFormatter format(Locale l, String format, Object... args) {
checkClosed();
CharBuffer formatBuffer = CharBuffer.wrap(format);
ParserStateMachine parser = new ParserStateMachine(formatBuffer);
Transformer transformer = new Transformer(this, l);
int currentObjectIndex = 0;
Object lastArgument = null;
boolean hasLastArgumentSet = false;
while (formatBuffer.hasRemaining()) {
parser.reset();
FormatToken token = parser.getNextFormatToken();
String result;
String plainText = token.getPlainText();
if (token.getConversionType() == (char) FormatToken.UNSET) {
result = plainText;
} else {
plainText = plainText.substring(0, plainText.indexOf('%'));
Object argument = null;
if (token.requireArgument()) {
int index = token.getArgIndex() == FormatToken.UNSET ? currentObjectIndex++
: token.getArgIndex();
argument = getArgument(args, index, token, lastArgument,
hasLastArgumentSet);
lastArgument = argument;
hasLastArgumentSet = true;
}
result = transformer.transform(token, argument);
result = (null == result ? plainText : plainText + result);
}
// if output is made by formattable callback
if (null != result) {
try {
out.append(result);
} catch (IOException e) {
lastIOException = e;
}
}
}
return this;
}
private Object getArgument(Object[] args, int index, FormatToken token,
Object lastArgument, boolean hasLastArgumentSet) {
if (index == FormatToken.LAST_ARGUMENT_INDEX && !hasLastArgumentSet) {
throw new MissingFormatArgumentException("<"); //$NON-NLS-1$
}
if (null == args) {
return null;
}
if (index >= args.length) {
throw new MissingFormatArgumentException(token.getPlainText());
}
if (index == FormatToken.LAST_ARGUMENT_INDEX) {
return lastArgument;
}
return args[index];
}
private static void closeOutputStream(OutputStream os) {
if (null == os) {
return;
}
try {
os.close();
} catch (IOException e) {
// silently
}
}
/*
* Information about the format string of a specified argument, which
* includes the conversion type, flags, width, precision and the argument
* index as well as the plainText that contains the whole format string used
* as the result for output if necessary. Besides, the string for flags is
* recorded to construct corresponding FormatExceptions if necessary.
*/
private static class FormatToken {
static final int LAST_ARGUMENT_INDEX = -2;
static final int UNSET = -1;
static final int FLAGS_UNSET = 0;
static final int DEFAULT_PRECISION = 6;
static final int FLAG_MINUS = 1;
static final int FLAG_SHARP = 1 << 1;
static final int FLAG_ADD = 1 << 2;
static final int FLAG_SPACE = 1 << 3;
static final int FLAG_ZERO = 1 << 4;
static final int FLAG_COMMA = 1 << 5;
static final int FLAG_PARENTHESIS = 1 << 6;
private static final int FLAGT_TYPE_COUNT = 6;
private int formatStringStartIndex;
private String plainText;
private int argIndex = UNSET;
private int flags = 0;
private int width = UNSET;
private int precision = UNSET;
private StringBuilder strFlags = new StringBuilder(FLAGT_TYPE_COUNT);
private char dateSuffix;// will be used in new feature.
private char conversionType = (char) UNSET;
boolean isPrecisionSet() {
return precision != UNSET;
}
boolean isWidthSet() {
return width != UNSET;
}
boolean isFlagSet(int flag) {
return 0 != (flags & flag);
}
int getArgIndex() {
return argIndex;
}
void setArgIndex(int index) {
argIndex = index;
}
String getPlainText() {
return plainText;
}
void setPlainText(String plainText) {
this.plainText = plainText;
}
int getWidth() {
return width;
}
void setWidth(int width) {
this.width = width;
}
int getPrecision() {
return precision;
}
void setPrecision(int precise) {
this.precision = precise;
}
String getStrFlags() {
return strFlags.toString();
}
int getFlags() {
return flags;
}
void setFlags(int flags) {
this.flags = flags;
}
/*
* Sets qualified char as one of the flags. If the char is qualified,
* sets it as a flag and returns true. Or else returns false.
*/
boolean setFlag(char c) {
int newFlag;
switch (c) {
case '-': {
newFlag = FLAG_MINUS;
break;
}
case '#': {
newFlag = FLAG_SHARP;
break;
}
case '+': {
newFlag = FLAG_ADD;
break;
}
case ' ': {
newFlag = FLAG_SPACE;
break;
}
case '0': {
newFlag = FLAG_ZERO;
break;
}
case ',': {
newFlag = FLAG_COMMA;
break;
}
case '(': {
newFlag = FLAG_PARENTHESIS;
break;
}
default:
return false;
}
if (0 != (flags & newFlag)) {
throw new DuplicateFormatFlagsException(String.valueOf(c));
}
flags = (flags | newFlag);
strFlags.append(c);
return true;
}
int getFormatStringStartIndex() {
return formatStringStartIndex;
}
void setFormatStringStartIndex(int index) {
formatStringStartIndex = index;
}
char getConversionType() {
return conversionType;
}
void setConversionType(char c) {
conversionType = c;
}
char getDateSuffix() {
return dateSuffix;
}
void setDateSuffix(char c) {
dateSuffix = c;
}
boolean requireArgument() {
return conversionType != '%' && conversionType != 'n';
}
}
/*
* Transforms the argument to the formatted string according to the format
* information contained in the format token.
*/
private static class Transformer {
private LenientFormatter formatter;
private FormatToken formatToken;
private Object arg;
private Locale locale;
private static String lineSeparator;
private NumberFormat numberFormat;
private DecimalFormatSymbols decimalFormatSymbols;
private DateTimeUtil dateTimeUtil;
Transformer(LenientFormatter formatter, Locale locale) {
this.formatter = formatter;
this.locale = (null == locale ? Locale.US : locale);
}
private NumberFormat getNumberFormat() {
if (null == numberFormat) {
numberFormat = NumberFormat.getInstance(locale);
}
return numberFormat;
}
private DecimalFormatSymbols getDecimalFormatSymbols() {
if (null == decimalFormatSymbols) {
decimalFormatSymbols = new DecimalFormatSymbols(locale);
}
return decimalFormatSymbols;
}
/*
* Gets the formatted string according to the format token and the
* argument.
*/
String transform(FormatToken token, Object argument) {
/* init data member to print */
this.formatToken = token;
this.arg = argument;
String result;
switch (token.getConversionType()) {
case 'B':
case 'b': {
result = transformFromBoolean();
break;
}
case 'H':
case 'h': {
result = transformFromHashCode();
break;
}
case 'S':
case 's': {
result = transformFromString();
break;
}
case 'C':
case 'c': {
result = transformFromCharacter();
break;
}
case 'd':
case 'o':
case 'x':
case 'X': {
if (null == arg || arg instanceof BigInteger) {
result = transformFromBigInteger();
} else {
result = transformFromInteger();
}
break;
}
case 'e':
case 'E':
case 'g':
case 'G':
case 'f':
case 'a':
case 'A': {
result = transformFromFloat();
break;
}
case '%': {
result = transformFromPercent();
break;
}
case 'n': {
result = transformFromLineSeparator();
break;
}
case 't':
case 'T': {
result = transformFromDateTime();
break;
}
default: {
throw new UnknownFormatConversionException(String
.valueOf(token.getConversionType()));
}
}
if (Character.isUpperCase(token.getConversionType())) {
if (null != result) {
result = result.toUpperCase(Locale.US);
}
}
return result;
}
/*
* Transforms the Boolean argument to a formatted string.
*/
private String transformFromBoolean() {
StringBuilder result = new StringBuilder();
int startIndex = 0;
int flags = formatToken.getFlags();
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS)
&& !formatToken.isWidthSet()) {
throw new MissingFormatWidthException("-" //$NON-NLS-1$
+ formatToken.getConversionType());
}
// only '-' is valid for flags
if (FormatToken.FLAGS_UNSET != flags
&& FormatToken.FLAG_MINUS != flags) {
throw new FormatFlagsConversionMismatchException(formatToken
.getStrFlags(), formatToken.getConversionType());
}
if (null == arg) {
result.append("false"); //$NON-NLS-1$
} else if (arg instanceof Boolean) {
result.append(arg);
} else {
result.append("true"); //$NON-NLS-1$
}
return padding(result, startIndex);
}
/*
* Transforms the hashcode of the argument to a formatted string.
*/
private String transformFromHashCode() {
StringBuilder result = new StringBuilder();
int startIndex = 0;
int flags = formatToken.getFlags();
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS)
&& !formatToken.isWidthSet()) {
throw new MissingFormatWidthException("-" //$NON-NLS-1$
+ formatToken.getConversionType());
}
// only '-' is valid for flags
if (FormatToken.FLAGS_UNSET != flags
&& FormatToken.FLAG_MINUS != flags) {
throw new FormatFlagsConversionMismatchException(formatToken
.getStrFlags(), formatToken.getConversionType());
}
if (null == arg) {
result.append("null"); //$NON-NLS-1$
} else {
result.append(Integer.toHexString(arg.hashCode()));
}
return padding(result, startIndex);
}
/*
* Transforms the String to a formatted string.
*/
private String transformFromString() {
StringBuilder result = new StringBuilder();
int startIndex = 0;
int flags = formatToken.getFlags();
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS)
&& !formatToken.isWidthSet()) {
throw new MissingFormatWidthException("-" //$NON-NLS-1$
+ formatToken.getConversionType());
}
// only '-' is valid for flags if the argument is not an
// instance of Formattable
if (FormatToken.FLAGS_UNSET != flags
&& FormatToken.FLAG_MINUS != flags) {
throw new FormatFlagsConversionMismatchException(formatToken
.getStrFlags(), formatToken.getConversionType());
}
result.append(arg);
return padding(result, startIndex);
}
/*
* Transforms the Character to a formatted string.
*/
private String transformFromCharacter() {
StringBuilder result = new StringBuilder();
int startIndex = 0;
int flags = formatToken.getFlags();
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS)
&& !formatToken.isWidthSet()) {
throw new MissingFormatWidthException("-" //$NON-NLS-1$
+ formatToken.getConversionType());
}
// only '-' is valid for flags
if (FormatToken.FLAGS_UNSET != flags
&& FormatToken.FLAG_MINUS != flags) {
throw new FormatFlagsConversionMismatchException(formatToken
.getStrFlags(), formatToken.getConversionType());
}
if (formatToken.isPrecisionSet()) {
throw new IllegalFormatPrecisionException(formatToken
.getPrecision());
}
if (null == arg) {
result.append("null"); //$NON-NLS-1$
} else {
if (arg instanceof Character) {
result.append(arg);
} else if (arg instanceof Byte) {
byte b = ((Byte) arg).byteValue();
if (!Character.isValidCodePoint(b)) {
throw new IllegalFormatCodePointException(b);
}
result.append((char) b);
} else if (arg instanceof Short) {
short s = ((Short) arg).shortValue();
if (!Character.isValidCodePoint(s)) {
throw new IllegalFormatCodePointException(s);
}
result.append((char) s);
} else if (arg instanceof Number) {
int codePoint = ((Number) arg).intValue();
if (!Character.isValidCodePoint(codePoint)) {
throw new IllegalFormatCodePointException(codePoint);
}
result.append(String.valueOf(Character.toChars(codePoint)));
} else {
// argument of other class is not acceptable.
throw new IllegalFormatConversionException(formatToken
.getConversionType(), arg.getClass());
}
}
return padding(result, startIndex);
}
/*
* Transforms percent to a formatted string. Only '-' is legal flag.
* Precision is illegal.
*/
private String transformFromPercent() {
StringBuilder result = new StringBuilder("%"); //$NON-NLS-1$
int startIndex = 0;
int flags = formatToken.getFlags();
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS)
&& !formatToken.isWidthSet()) {
throw new MissingFormatWidthException("-" //$NON-NLS-1$
+ formatToken.getConversionType());
}
if (FormatToken.FLAGS_UNSET != flags
&& FormatToken.FLAG_MINUS != flags) {
throw new FormatFlagsConversionMismatchException(formatToken
.getStrFlags(), formatToken.getConversionType());
}
if (formatToken.isPrecisionSet()) {
throw new IllegalFormatPrecisionException(formatToken
.getPrecision());
}
return padding(result, startIndex);
}
/*
* Transforms line separator to a formatted string. Any flag, the width
* or the precision is illegal.
*/
private String transformFromLineSeparator() {
if (formatToken.isPrecisionSet()) {
throw new IllegalFormatPrecisionException(formatToken
.getPrecision());
}
if (formatToken.isWidthSet()) {
throw new IllegalFormatWidthException(formatToken.getWidth());
}
int flags = formatToken.getFlags();
if (FormatToken.FLAGS_UNSET != flags) {
throw new IllegalFormatFlagsException(formatToken.getStrFlags());
}
if (null == lineSeparator) {
lineSeparator = AccessController
.doPrivileged(new PrivilegedAction<String>() {
public String run() {
return System.getProperty("line.separator"); //$NON-NLS-1$
}
});
}
return lineSeparator;
}
/*
* Pads characters to the formatted string.
*/
private String padding(StringBuilder source, int startIndex) {
int start = startIndex;
boolean paddingRight = formatToken
.isFlagSet(FormatToken.FLAG_MINUS);
char paddingChar = '\u0020';// space as padding char.
if (formatToken.isFlagSet(FormatToken.FLAG_ZERO)) {
if ('d' == formatToken.getConversionType()) {
paddingChar = getDecimalFormatSymbols().getZeroDigit();
} else {
paddingChar = '0';
}
} else {
// if padding char is space, always padding from the head
// location.
start = 0;
}
int width = formatToken.getWidth();
int precision = formatToken.getPrecision();
int length = source.length();
if (precision >= 0) {
length = Math.min(length, precision);
source.delete(length, source.length());
}
if (width > 0) {
width = Math.max(source.length(), width);
}
if (length >= width) {
return source.toString();
}
char[] paddings = new char[width - length];
Arrays.fill(paddings, paddingChar);
String insertString = new String(paddings);
if (paddingRight) {
source.append(insertString);
} else {
source.insert(start, insertString);
}
return source.toString();
}
/*
* Transforms the Integer to a formatted string.
*/
private String transformFromInteger() {
int startIndex = 0;
boolean isNegative = false;
StringBuilder result = new StringBuilder();
char currentConversionType = formatToken.getConversionType();
long value;
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS)
|| formatToken.isFlagSet(FormatToken.FLAG_ZERO)) {
if (!formatToken.isWidthSet()) {
throw new MissingFormatWidthException(formatToken
.getStrFlags());
}
}
// Combination of '+' & ' ' is illegal.
if (formatToken.isFlagSet(FormatToken.FLAG_ADD)
&& formatToken.isFlagSet(FormatToken.FLAG_SPACE)) {
throw new IllegalFormatFlagsException(formatToken.getStrFlags());
}
if (formatToken.isPrecisionSet()) {
throw new IllegalFormatPrecisionException(formatToken
.getPrecision());
}
if (arg instanceof Long) {
value = ((Long) arg).longValue();
} else if (arg instanceof Integer) {
value = ((Integer) arg).longValue();
} else if (arg instanceof Short) {
value = ((Short) arg).longValue();
} else if (arg instanceof Byte) {
value = ((Byte) arg).longValue();
}
else if (arg instanceof Number) {
value = ((Number) arg).longValue();
} else {
throw new IllegalFormatConversionException(formatToken
.getConversionType(), arg.getClass());
}
if ('d' != currentConversionType) {
if (formatToken.isFlagSet(FormatToken.FLAG_ADD)
|| formatToken.isFlagSet(FormatToken.FLAG_SPACE)
|| formatToken.isFlagSet(FormatToken.FLAG_COMMA)
|| formatToken.isFlagSet(FormatToken.FLAG_PARENTHESIS)) {
throw new FormatFlagsConversionMismatchException(
formatToken.getStrFlags(), formatToken
.getConversionType());
}
}
if (formatToken.isFlagSet(FormatToken.FLAG_SHARP)) {
if ('d' == currentConversionType) {
throw new FormatFlagsConversionMismatchException(
formatToken.getStrFlags(), formatToken
.getConversionType());
} else if ('o' == currentConversionType) {
result.append("0"); //$NON-NLS-1$
startIndex += 1;
} else {
result.append("0x"); //$NON-NLS-1$
startIndex += 2;
}
}
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS)
&& formatToken.isFlagSet(FormatToken.FLAG_ZERO)) {
throw new IllegalFormatFlagsException(formatToken.getStrFlags());
}
if (value < 0) {
isNegative = true;
}
if ('d' == currentConversionType) {
NumberFormat numberFormat = getNumberFormat();
if (formatToken.isFlagSet(FormatToken.FLAG_COMMA)) {
numberFormat.setGroupingUsed(true);
} else {
numberFormat.setGroupingUsed(false);
}
result.append(numberFormat.format(arg));
} else {
long BYTE_MASK = 0x00000000000000FFL;
long SHORT_MASK = 0x000000000000FFFFL;
long INT_MASK = 0x00000000FFFFFFFFL;
if (isNegative) {
if (arg instanceof Byte) {
value &= BYTE_MASK;
} else if (arg instanceof Short) {
value &= SHORT_MASK;
} else if (arg instanceof Integer) {
value &= INT_MASK;
}
}
if ('o' == currentConversionType) {
result.append(Long.toOctalString(value));
} else {
result.append(Long.toHexString(value));
}
isNegative = false;
}
if (!isNegative) {
if (formatToken.isFlagSet(FormatToken.FLAG_ADD)) {
result.insert(0, '+');
startIndex += 1;
}
if (formatToken.isFlagSet(FormatToken.FLAG_SPACE)) {
result.insert(0, ' ');
startIndex += 1;
}
}
/* pad paddingChar to the output */
if (isNegative
&& formatToken.isFlagSet(FormatToken.FLAG_PARENTHESIS)) {
result = wrapParentheses(result);
return result.toString();
}
if (isNegative && formatToken.isFlagSet(FormatToken.FLAG_ZERO)) {
startIndex++;
}
return padding(result, startIndex);
}
/*
* add () to the output,if the value is negative and
* formatToken.FLAG_PARENTHESIS is set. 'result' is used as an in-out
* parameter.
*/
private StringBuilder wrapParentheses(StringBuilder result) {
// delete the '-'
result.deleteCharAt(0);
result.insert(0, '(');
if (formatToken.isFlagSet(FormatToken.FLAG_ZERO)) {
formatToken.setWidth(formatToken.getWidth() - 1);
padding(result, 1);
result.append(')');
} else {
result.append(')');
padding(result, 0);
}
return result;
}
private String transformFromSpecialNumber() {
String source = null;
if (!(arg instanceof Number) || arg instanceof BigDecimal) {
return null;
}
Number number = (Number) arg;
double d = number.doubleValue();
if (Double.isNaN(d)) {
source = "NaN"; //$NON-NLS-1$
} else if (Double.isInfinite(d)) {
if (d >= 0) {
if (formatToken.isFlagSet(FormatToken.FLAG_ADD)) {
source = "+Infinity"; //$NON-NLS-1$
} else if (formatToken.isFlagSet(FormatToken.FLAG_SPACE)) {
source = " Infinity"; //$NON-NLS-1$
} else {
source = "Infinity"; //$NON-NLS-1$
}
} else {
if (formatToken.isFlagSet(FormatToken.FLAG_PARENTHESIS)) {
source = "(Infinity)"; //$NON-NLS-1$
} else {
source = "-Infinity"; //$NON-NLS-1$
}
}
}
if (null != source) {
formatToken.setPrecision(FormatToken.UNSET);
formatToken.setFlags(formatToken.getFlags()
& (~FormatToken.FLAG_ZERO));
source = padding(new StringBuilder(source), 0);
}
return source;
}
private String transformFromNull() {
formatToken.setFlags(formatToken.getFlags()
& (~FormatToken.FLAG_ZERO));
return padding(new StringBuilder("null"), 0); //$NON-NLS-1$
}
/*
* Transforms a BigInteger to a formatted string.
*/
private String transformFromBigInteger() {
int startIndex = 0;
boolean isNegative = false;
StringBuilder result = new StringBuilder();
BigInteger bigInt = (BigInteger) arg;
char currentConversionType = formatToken.getConversionType();
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS)
|| formatToken.isFlagSet(FormatToken.FLAG_ZERO)) {
if (!formatToken.isWidthSet()) {
throw new MissingFormatWidthException(formatToken
.getStrFlags());
}
}
// Combination of '+' & ' ' is illegal.
if (formatToken.isFlagSet(FormatToken.FLAG_ADD)
&& formatToken.isFlagSet(FormatToken.FLAG_SPACE)) {
throw new IllegalFormatFlagsException(formatToken.getStrFlags());
}
// Combination of '-' & '0' is illegal.
if (formatToken.isFlagSet(FormatToken.FLAG_ZERO)
&& formatToken.isFlagSet(FormatToken.FLAG_MINUS)) {
throw new IllegalFormatFlagsException(formatToken.getStrFlags());
}
if (formatToken.isPrecisionSet()) {
throw new IllegalFormatPrecisionException(formatToken
.getPrecision());
}
if ('d' != currentConversionType
&& formatToken.isFlagSet(FormatToken.FLAG_COMMA)) {
throw new FormatFlagsConversionMismatchException(formatToken
.getStrFlags(), currentConversionType);
}
if (formatToken.isFlagSet(FormatToken.FLAG_SHARP)
&& 'd' == currentConversionType) {
throw new FormatFlagsConversionMismatchException(formatToken
.getStrFlags(), currentConversionType);
}
if (null == bigInt) {
return transformFromNull();
}
isNegative = (bigInt.compareTo(BigInteger.ZERO) < 0);
if ('d' == currentConversionType) {
NumberFormat numberFormat = getNumberFormat();
boolean readableName = formatToken
.isFlagSet(FormatToken.FLAG_COMMA);
numberFormat.setGroupingUsed(readableName);
result.append(numberFormat.format(bigInt));
} else if ('o' == currentConversionType) {
// convert BigInteger to a string presentation using radix 8
result.append(bigInt.toString(8));
} else {
// convert BigInteger to a string presentation using radix 16
result.append(bigInt.toString(16));
}
if (formatToken.isFlagSet(FormatToken.FLAG_SHARP)) {
startIndex = isNegative ? 1 : 0;
if ('o' == currentConversionType) {
result.insert(startIndex, "0"); //$NON-NLS-1$
startIndex += 1;
} else if ('x' == currentConversionType
|| 'X' == currentConversionType) {
result.insert(startIndex, "0x"); //$NON-NLS-1$
startIndex += 2;
}
}
if (!isNegative) {
if (formatToken.isFlagSet(FormatToken.FLAG_ADD)) {
result.insert(0, '+');
startIndex += 1;
}
if (formatToken.isFlagSet(FormatToken.FLAG_SPACE)) {
result.insert(0, ' ');
startIndex += 1;
}
}
/* pad paddingChar to the output */
if (isNegative
&& formatToken.isFlagSet(FormatToken.FLAG_PARENTHESIS)) {
result = wrapParentheses(result);
return result.toString();
}
if (isNegative && formatToken.isFlagSet(FormatToken.FLAG_ZERO)) {
startIndex++;
}
return padding(result, startIndex);
}
/*
* Transforms a Float,Double or BigDecimal to a formatted string.
*/
private String transformFromFloat() {
StringBuilder result = new StringBuilder();
int startIndex = 0;
char currentConversionType = formatToken.getConversionType();
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS
| FormatToken.FLAG_ZERO)) {
if (!formatToken.isWidthSet()) {
throw new MissingFormatWidthException(formatToken
.getStrFlags());
}
}
if (formatToken.isFlagSet(FormatToken.FLAG_ADD)
&& formatToken.isFlagSet(FormatToken.FLAG_SPACE)) {
throw new IllegalFormatFlagsException(formatToken.getStrFlags());
}
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS)
&& formatToken.isFlagSet(FormatToken.FLAG_ZERO)) {
throw new IllegalFormatFlagsException(formatToken.getStrFlags());
}
if ('e' == Character.toLowerCase(currentConversionType)) {
if (formatToken.isFlagSet(FormatToken.FLAG_COMMA)) {
throw new FormatFlagsConversionMismatchException(
formatToken.getStrFlags(), currentConversionType);
}
}
if ('g' == Character.toLowerCase(currentConversionType)) {
if (formatToken.isFlagSet(FormatToken.FLAG_SHARP)) {
throw new FormatFlagsConversionMismatchException(
formatToken.getStrFlags(), currentConversionType);
}
}
if ('a' == Character.toLowerCase(currentConversionType)) {
if (formatToken.isFlagSet(FormatToken.FLAG_COMMA)
|| formatToken.isFlagSet(FormatToken.FLAG_PARENTHESIS)) {
throw new FormatFlagsConversionMismatchException(
formatToken.getStrFlags(), currentConversionType);
}
}
if (null == arg) {
return transformFromNull();
}
Object arg2 = arg;
if (!(arg2 instanceof Float || arg2 instanceof Double || arg2 instanceof BigDecimal)) {
if (arg2 instanceof Number) {
arg2 = Double.valueOf(((Number)arg2).doubleValue());
}
else {
throw new IllegalFormatConversionException(currentConversionType, arg.getClass());
}
}
String specialNumberResult = transformFromSpecialNumber();
if (null != specialNumberResult) {
return specialNumberResult;
}
if ('a' != Character.toLowerCase(currentConversionType)) {
formatToken
.setPrecision(formatToken.isPrecisionSet() ? formatToken
.getPrecision()
: FormatToken.DEFAULT_PRECISION);
}
// output result
FloatUtil floatUtil = new FloatUtil(result, formatToken,
(DecimalFormat) NumberFormat.getInstance(locale), arg2);
floatUtil.transform(formatToken, result);
formatToken.setPrecision(FormatToken.UNSET);
if (getDecimalFormatSymbols().getMinusSign() == result.charAt(0)) {
if (formatToken.isFlagSet(FormatToken.FLAG_PARENTHESIS)) {
result = wrapParentheses(result);
return result.toString();
}
} else {
if (formatToken.isFlagSet(FormatToken.FLAG_SPACE)) {
result.insert(0, ' ');
startIndex++;
}
if (formatToken.isFlagSet(FormatToken.FLAG_ADD)) {
result.insert(0, floatUtil.getAddSign());
startIndex++;
}
}
char firstChar = result.charAt(0);
if (formatToken.isFlagSet(FormatToken.FLAG_ZERO)
&& (firstChar == floatUtil.getAddSign() || firstChar == floatUtil
.getMinusSign())) {
startIndex = 1;
}
if ('a' == Character.toLowerCase(currentConversionType)) {
startIndex += 2;
}
return padding(result, startIndex);
}
/*
* Transforms a Date to a formatted string.
*/
private String transformFromDateTime() {
int startIndex = 0;
char currentConversionType = formatToken.getConversionType();
if (formatToken.isPrecisionSet()) {
throw new IllegalFormatPrecisionException(formatToken
.getPrecision());
}
if (formatToken.isFlagSet(FormatToken.FLAG_SHARP)) {
throw new FormatFlagsConversionMismatchException(formatToken
.getStrFlags(), currentConversionType);
}
if (formatToken.isFlagSet(FormatToken.FLAG_MINUS)
&& FormatToken.UNSET == formatToken.getWidth()) {
throw new MissingFormatWidthException("-" //$NON-NLS-1$
+ currentConversionType);
}
if (null == arg) {
return transformFromNull();
}
Calendar calendar;
if (arg instanceof Calendar) {
calendar = (Calendar) arg;
} else {
Date date = null;
if (arg instanceof Number) {
date = new Date(((Number) arg).longValue());
} else if (arg instanceof Date) {
date = (Date) arg;
} else {
throw new IllegalFormatConversionException(
currentConversionType, arg.getClass());
}
calendar = Calendar.getInstance(locale);
calendar.setTime(date);
}
if (null == dateTimeUtil) {
dateTimeUtil = new DateTimeUtil(locale);
}
StringBuilder result = new StringBuilder();
// output result
dateTimeUtil.transform(formatToken, calendar, result);
return padding(result, startIndex);
}
}
private static class FloatUtil {
private StringBuilder result;
private DecimalFormat decimalFormat;
private FormatToken formatToken;
private Object argument;
private char minusSign;
FloatUtil(StringBuilder result, FormatToken formatToken,
DecimalFormat decimalFormat, Object argument) {
this.result = result;
this.formatToken = formatToken;
this.decimalFormat = decimalFormat;
this.argument = argument;
this.minusSign = decimalFormat.getDecimalFormatSymbols()
.getMinusSign();
}
void transform(FormatToken aFormatToken, StringBuilder aResult) {
this.result = aResult;
this.formatToken = aFormatToken;
switch (formatToken.getConversionType()) {
case 'e':
case 'E': {
transform_e();
break;
}
case 'f': {
transform_f();
break;
}
case 'g':
case 'G': {
transform_g();
break;
}
case 'a':
case 'A': {
transform_a();
break;
}
default: {
throw new UnknownFormatConversionException(String
.valueOf(formatToken.getConversionType()));
}
}
}
char getMinusSign() {
return minusSign;
}
char getAddSign() {
return '+';
}
void transform_e() {
StringBuilder pattern = new StringBuilder();
pattern.append('0');
if (formatToken.getPrecision() > 0) {
pattern.append('.');
char[] zeros = new char[formatToken.getPrecision()];
Arrays.fill(zeros, '0');
pattern.append(zeros);
}
pattern.append('E');
pattern.append("+00"); //$NON-NLS-1$
decimalFormat.applyPattern(pattern.toString());
String formattedString = decimalFormat.format(argument);
result.append(formattedString.replace('E', 'e'));
// if the flag is sharp and decimal seperator is always given
// out.
if (formatToken.isFlagSet(FormatToken.FLAG_SHARP)
&& 0 == formatToken.getPrecision()) {
int indexOfE = result.indexOf("e"); //$NON-NLS-1$
char dot = decimalFormat.getDecimalFormatSymbols()
.getDecimalSeparator();
result.insert(indexOfE, dot);
}
}
void transform_g() {
int precision = formatToken.getPrecision();
precision = (0 == precision ? 1 : precision);
formatToken.setPrecision(precision);
if (0.0 == ((Number) argument).doubleValue()) {
precision--;
formatToken.setPrecision(precision);
transform_f();
return;
}
boolean requireScientificRepresentation = true;
double d = ((Number) argument).doubleValue();
d = Math.abs(d);
if (Double.isInfinite(d)) {
precision = formatToken.getPrecision();
precision--;
formatToken.setPrecision(precision);
transform_e();
return;
}
BigDecimal b = new BigDecimal(d, new MathContext(precision));
d = b.doubleValue();
long l = b.longValue();
if (d >= 1 && d < Math.pow(10, precision)) {
if (l < Math.pow(10, precision)) {
requireScientificRepresentation = false;
precision -= String.valueOf(l).length();
precision = precision < 0 ? 0 : precision;
l = Math.round(d * Math.pow(10, precision + 1));
if (String.valueOf(l).length() <= formatToken
.getPrecision()) {
precision++;
}
formatToken.setPrecision(precision);
}
} else {
l = b.movePointRight(4).longValue();
if (d >= Math.pow(10, -4) && d < 1) {
requireScientificRepresentation = false;
precision += 4 - String.valueOf(l).length();
l = b.movePointRight(precision + 1).longValue();
if (String.valueOf(l).length() <= formatToken
.getPrecision()) {
precision++;
}
l = b.movePointRight(precision).longValue();
if (l >= Math.pow(10, precision - 4)) {
formatToken.setPrecision(precision);
}
}
}
if (requireScientificRepresentation) {
precision = formatToken.getPrecision();
precision--;
formatToken.setPrecision(precision);
transform_e();
} else {
transform_f();
}
}
void transform_f() {
StringBuilder pattern = new StringBuilder();
if (formatToken.isFlagSet(FormatToken.FLAG_COMMA)) {
pattern.append(',');
int groupingSize = decimalFormat.getGroupingSize();
if (groupingSize > 1) {
char[] sharps = new char[groupingSize - 1];
Arrays.fill(sharps, '#');
pattern.append(sharps);
}
}
pattern.append(0);
if (formatToken.getPrecision() > 0) {
pattern.append('.');
char[] zeros = new char[formatToken.getPrecision()];
Arrays.fill(zeros, '0');
pattern.append(zeros);
}
decimalFormat.applyPattern(pattern.toString());
result.append(decimalFormat.format(argument));
// if the flag is sharp and decimal seperator is always given
// out.
if (formatToken.isFlagSet(FormatToken.FLAG_SHARP)
&& 0 == formatToken.getPrecision()) {
char dot = decimalFormat.getDecimalFormatSymbols()
.getDecimalSeparator();
result.append(dot);
}
}
void transform_a() {
char currentConversionType = formatToken.getConversionType();
if (argument instanceof Float) {
Float F = (Float) argument;
result.append(Float.toHexString(F.floatValue()));
} else if (argument instanceof Double) {
Double D = (Double) argument;
result.append(Double.toHexString(D.doubleValue()));
} else {
// BigInteger is not supported.
throw new IllegalFormatConversionException(
currentConversionType, argument.getClass());
}
if (!formatToken.isPrecisionSet()) {
return;
}
int precision = formatToken.getPrecision();
precision = (0 == precision ? 1 : precision);
int indexOfFirstFracitoanlDigit = result.indexOf(".") + 1; //$NON-NLS-1$
int indexOfP = result.indexOf("p"); //$NON-NLS-1$
int fractionalLength = indexOfP - indexOfFirstFracitoanlDigit;
if (fractionalLength == precision) {
return;
}
if (fractionalLength < precision) {
char zeros[] = new char[precision - fractionalLength];
Arrays.fill(zeros, '0');
result.insert(indexOfP, zeros);
return;
}
result.delete(indexOfFirstFracitoanlDigit + precision, indexOfP);
}
}
private static class DateTimeUtil {
private Calendar calendar;
private Locale locale;
private StringBuilder result;
private DateFormatSymbols dateFormatSymbols;
DateTimeUtil(Locale locale) {
this.locale = locale;
}
void transform(FormatToken formatToken, Calendar aCalendar,
StringBuilder aResult) {
this.result = aResult;
this.calendar = aCalendar;
char suffix = formatToken.getDateSuffix();
switch (suffix) {
case 'H': {
transform_H();
break;
}
case 'I': {
transform_I();
break;
}
case 'M': {
transform_M();
break;
}
case 'S': {
transform_S();
break;
}
case 'L': {
transform_L();
break;
}
case 'N': {
transform_N();
break;
}
case 'k': {
transform_k();
break;
}
case 'l': {
transform_l();
break;
}
case 'p': {
transform_p(true);
break;
}
case 's': {
transform_s();
break;
}
case 'z': {
transform_z();
break;
}
case 'Z': {
transform_Z();
break;
}
case 'Q': {
transform_Q();
break;
}
case 'B': {
transform_B();
break;
}
case 'b':
case 'h': {
transform_b();
break;
}
case 'A': {
transform_A();
break;
}
case 'a': {
transform_a();
break;
}
case 'C': {
transform_C();
break;
}
case 'Y': {
transform_Y();
break;
}
case 'y': {
transform_y();
break;
}
case 'j': {
transform_j();
break;
}
case 'm': {
transform_m();
break;
}
case 'd': {
transform_d();
break;
}
case 'e': {
transform_e();
break;
}
case 'R': {
transform_R();
break;
}
case 'T': {
transform_T();
break;
}
case 'r': {
transform_r();
break;
}
case 'D': {
transform_D();
break;
}
case 'F': {
transform_F();
break;
}
case 'c': {
transform_c();
break;
}
default: {
throw new UnknownFormatConversionException(String
.valueOf(formatToken.getConversionType())
+ formatToken.getDateSuffix());
}
}
}
private void transform_e() {
int day = calendar.get(Calendar.DAY_OF_MONTH);
result.append(day);
}
private void transform_d() {
int day = calendar.get(Calendar.DAY_OF_MONTH);
result.append(paddingZeros(day, 2));
}
private void transform_m() {
int month = calendar.get(Calendar.MONTH);
// The returned month starts from zero, which needs to be
// incremented by 1.
month++;
result.append(paddingZeros(month, 2));
}
private void transform_j() {
int day = calendar.get(Calendar.DAY_OF_YEAR);
result.append(paddingZeros(day, 3));
}
private void transform_y() {
int year = calendar.get(Calendar.YEAR);
year %= 100;
result.append(paddingZeros(year, 2));
}
private void transform_Y() {
int year = calendar.get(Calendar.YEAR);
result.append(paddingZeros(year, 4));
}
private void transform_C() {
int year = calendar.get(Calendar.YEAR);
year /= 100;
result.append(paddingZeros(year, 2));
}
private void transform_a() {
int day = calendar.get(Calendar.DAY_OF_WEEK);
result.append(getDateFormatSymbols().getShortWeekdays()[day]);
}
private void transform_A() {
int day = calendar.get(Calendar.DAY_OF_WEEK);
result.append(getDateFormatSymbols().getWeekdays()[day]);
}
private void transform_b() {
int month = calendar.get(Calendar.MONTH);
result.append(getDateFormatSymbols().getShortMonths()[month]);
}
private void transform_B() {
int month = calendar.get(Calendar.MONTH);
result.append(getDateFormatSymbols().getMonths()[month]);
}
private void transform_Q() {
long milliSeconds = calendar.getTimeInMillis();
result.append(milliSeconds);
}
private void transform_s() {
long milliSeconds = calendar.getTimeInMillis();
milliSeconds /= 1000;
result.append(milliSeconds);
}
private void transform_Z() {
TimeZone timeZone = calendar.getTimeZone();
result.append(timeZone
.getDisplayName(
timeZone.inDaylightTime(calendar.getTime()),
TimeZone.SHORT, locale));
}
private void transform_z() {
int zoneOffset = calendar.get(Calendar.ZONE_OFFSET);
zoneOffset /= 3600000;
zoneOffset *= 100;
if (zoneOffset >= 0) {
result.append('+');
}
result.append(paddingZeros(zoneOffset, 4));
}
private void transform_p(boolean isLowerCase) {
int i = calendar.get(Calendar.AM_PM);
String s = getDateFormatSymbols().getAmPmStrings()[i];
if (isLowerCase) {
s = s.toLowerCase(locale);
}
result.append(s);
}
private void transform_N() {
// TODO System.nanoTime();
long nanosecond = calendar.get(Calendar.MILLISECOND) * 1000000L;
result.append(paddingZeros(nanosecond, 9));
}
private void transform_L() {
int millisecond = calendar.get(Calendar.MILLISECOND);
result.append(paddingZeros(millisecond, 3));
}
private void transform_S() {
int second = calendar.get(Calendar.SECOND);
result.append(paddingZeros(second, 2));
}
private void transform_M() {
int minute = calendar.get(Calendar.MINUTE);
result.append(paddingZeros(minute, 2));
}
private void transform_l() {
int hour = calendar.get(Calendar.HOUR);
if (0 == hour) {
hour = 12;
}
result.append(hour);
}
private void transform_k() {
int hour = calendar.get(Calendar.HOUR_OF_DAY);
result.append(hour);
}
private void transform_I() {
int hour = calendar.get(Calendar.HOUR);
if (0 == hour) {
hour = 12;
}
result.append(paddingZeros(hour, 2));
}
private void transform_H() {
int hour = calendar.get(Calendar.HOUR_OF_DAY);
result.append(paddingZeros(hour, 2));
}
private void transform_R() {
transform_H();
result.append(':');
transform_M();
}
private void transform_T() {
transform_H();
result.append(':');
transform_M();
result.append(':');
transform_S();
}
private void transform_r() {
transform_I();
result.append(':');
transform_M();
result.append(':');
transform_S();
result.append(' ');
transform_p(false);
}
private void transform_D() {
transform_m();
result.append('/');
transform_d();
result.append('/');
transform_y();
}
private void transform_F() {
transform_Y();
result.append('-');
transform_m();
result.append('-');
transform_d();
}
private void transform_c() {
transform_a();
result.append(' ');
transform_b();
result.append(' ');
transform_d();
result.append(' ');
transform_T();
result.append(' ');
transform_Z();
result.append(' ');
transform_Y();
}
private static String paddingZeros(long number, int length) {
int len = length;
StringBuilder result = new StringBuilder();
result.append(number);
int startIndex = 0;
if (number < 0) {
len++;
startIndex = 1;
}
len -= result.length();
if (len > 0) {
char[] zeros = new char[len];
Arrays.fill(zeros, '0');
result.insert(startIndex, zeros);
}
return result.toString();
}
private DateFormatSymbols getDateFormatSymbols() {
if (null == dateFormatSymbols) {
dateFormatSymbols = new DateFormatSymbols(locale);
}
return dateFormatSymbols;
}
}
private static class ParserStateMachine {
private static final char EOS = (char) -1;
private static final int EXIT_STATE = 0;
private static final int ENTRY_STATE = 1;
private static final int START_CONVERSION_STATE = 2;
private static final int FLAGS_STATE = 3;
private static final int WIDTH_STATE = 4;
private static final int PRECISION_STATE = 5;
private static final int CONVERSION_TYPE_STATE = 6;
private static final int SUFFIX_STATE = 7;
private FormatToken token;
private int state = ENTRY_STATE;
private char currentChar = 0;
private CharBuffer format = null;
ParserStateMachine(CharBuffer format) {
this.format = format;
}
void reset() {
this.currentChar = (char) FormatToken.UNSET;
this.state = ENTRY_STATE;
this.token = null;
}
/*
* Gets the information about the current format token. Information is
* recorded in the FormatToken returned and the position of the stream
* for the format string will be advanced till the next format token.
*/
FormatToken getNextFormatToken() {
token = new FormatToken();
token.setFormatStringStartIndex(format.position());
// FINITE AUTOMATIC MACHINE
while (true) {
if (ParserStateMachine.EXIT_STATE != state) {
// exit state does not need to get next char
currentChar = getNextFormatChar();
if (EOS == currentChar
&& ParserStateMachine.ENTRY_STATE != state) {
throw new UnknownFormatConversionException(
getFormatString());
}
}
switch (state) {
// exit state
case ParserStateMachine.EXIT_STATE: {
process_EXIT_STATE();
return token;
}
// plain text state, not yet applied converter
case ParserStateMachine.ENTRY_STATE: {
process_ENTRY_STATE();
break;
}
// begins converted string
case ParserStateMachine.START_CONVERSION_STATE: {
process_START_CONVERSION_STATE();
break;
}
case ParserStateMachine.FLAGS_STATE: {
process_FlAGS_STATE();
break;
}
case ParserStateMachine.WIDTH_STATE: {
process_WIDTH_STATE();
break;
}
case ParserStateMachine.PRECISION_STATE: {
process_PRECISION_STATE();
break;
}
case ParserStateMachine.CONVERSION_TYPE_STATE: {
process_CONVERSION_TYPE_STATE();
break;
}
case ParserStateMachine.SUFFIX_STATE: {
process_SUFFIX_STATE();
break;
}
}
}
}
/*
* Gets next char from the format string.
*/
private char getNextFormatChar() {
if (format.hasRemaining()) {
return format.get();
}
return EOS;
}
private String getFormatString() {
int end = format.position();
format.rewind();
String formatString = format.subSequence(
token.getFormatStringStartIndex(), end).toString();
format.position(end);
return formatString;
}
private void process_ENTRY_STATE() {
if (EOS == currentChar) {
state = ParserStateMachine.EXIT_STATE;
} else if ('%' == currentChar) {
// change to conversion type state
state = START_CONVERSION_STATE;
}
// else remains in ENTRY_STATE
}
private void process_START_CONVERSION_STATE() {
if (Character.isDigit(currentChar)) {
int position = format.position() - 1;
int number = parseInt(format);
char nextChar = 0;
if (format.hasRemaining()) {
nextChar = format.get();
}
if ('$' == nextChar) {
// the digital sequence stands for the argument
// index.
int argIndex = number;
// k$ stands for the argument whose index is k-1 except that
// 0$ and 1$ both stands for the first element.
if (argIndex > 0) {
token.setArgIndex(argIndex - 1);
} else if (argIndex == FormatToken.UNSET) {
throw new MissingFormatArgumentException(
getFormatString());
}
state = FLAGS_STATE;
} else {
// the digital zero stands for one format flag.
if ('0' == currentChar) {
state = FLAGS_STATE;
format.position(position);
} else {
// the digital sequence stands for the width.
state = WIDTH_STATE;
// do not get the next char.
format.position(format.position() - 1);
token.setWidth(number);
}
}
currentChar = nextChar;
} else if ('<' == currentChar) {
state = FLAGS_STATE;
token.setArgIndex(FormatToken.LAST_ARGUMENT_INDEX);
} else {
state = FLAGS_STATE;
// do not get the next char.
format.position(format.position() - 1);
}
}
private void process_FlAGS_STATE() {
if (token.setFlag(currentChar)) {
// remains in FLAGS_STATE
} else if (Character.isDigit(currentChar)) {
token.setWidth(parseInt(format));
state = WIDTH_STATE;
} else if ('.' == currentChar) {
state = PRECISION_STATE;
} else {
state = CONVERSION_TYPE_STATE;
// do not get the next char.
format.position(format.position() - 1);
}
}
private void process_WIDTH_STATE() {
if ('.' == currentChar) {
state = PRECISION_STATE;
} else {
state = CONVERSION_TYPE_STATE;
// do not get the next char.
format.position(format.position() - 1);
}
}
private void process_PRECISION_STATE() {
if (Character.isDigit(currentChar)) {
token.setPrecision(parseInt(format));
} else {
// the precision is required but not given by the
// format string.
throw new UnknownFormatConversionException(getFormatString());
}
state = CONVERSION_TYPE_STATE;
}
private void process_CONVERSION_TYPE_STATE() {
token.setConversionType(currentChar);
if ('t' == currentChar || 'T' == currentChar) {
state = SUFFIX_STATE;
} else {
state = EXIT_STATE;
}
}
private void process_SUFFIX_STATE() {
token.setDateSuffix(currentChar);
state = EXIT_STATE;
}
private void process_EXIT_STATE() {
token.setPlainText(getFormatString());
}
/*
* Parses integer value from the given buffer
*/
private int parseInt(CharBuffer buffer) {
int start = buffer.position() - 1;
int end = buffer.limit();
while (buffer.hasRemaining()) {
if (!Character.isDigit(buffer.get())) {
end = buffer.position() - 1;
break;
}
}
buffer.position(0);
String intStr = buffer.subSequence(start, end).toString();
buffer.position(end);
try {
return Integer.parseInt(intStr);
} catch (NumberFormatException e) {
return FormatToken.UNSET;
}
}
}
}