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/*
 *  Copyright 2001-2014 Stephen Colebourne
 *
 *  Licensed 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 org.joda.time.format;

import java.io.IOException;
import java.io.Writer;

/**
 * Utility methods used by formatters.
 * 

* FormatUtils is thread-safe and immutable. * * @author Brian S O'Neill * @since 1.0 */ public class FormatUtils { private static final double LOG_10 = Math.log(10); /** * Restricted constructor. */ private FormatUtils() { } /** * Converts an integer to a string, prepended with a variable amount of '0' * pad characters, and appends it to the given buffer. * *

This method is optimized for converting small values to strings. * * @param buf receives integer converted to a string * @param value value to convert to a string * @param size minimum amount of digits to append */ public static void appendPaddedInteger(StringBuffer buf, int value, int size) { try { appendPaddedInteger((Appendable)buf, value, size); } catch (IOException e) { // StringBuffer does not throw IOException } } /** * Converts an integer to a string, prepended with a variable amount of '0' * pad characters, and appends it to the given appendable. * *

This method is optimized for converting small values to strings. * * @param appenadble receives integer converted to a string * @param value value to convert to a string * @param size minimum amount of digits to append * @since 2.4 */ public static void appendPaddedInteger(Appendable appenadble, int value, int size) throws IOException { if (value < 0) { appenadble.append('-'); if (value != Integer.MIN_VALUE) { value = -value; } else { for (; size > 10; size--) { appenadble.append('0'); } appenadble.append("" + -(long)Integer.MIN_VALUE); return; } } if (value < 10) { for (; size > 1; size--) { appenadble.append('0'); } appenadble.append((char)(value + '0')); } else if (value < 100) { for (; size > 2; size--) { appenadble.append('0'); } // Calculate value div/mod by 10 without using two expensive // division operations. (2 ^ 27) / 10 = 13421772. Add one to // value to correct rounding error. int d = ((value + 1) * 13421772) >> 27; appenadble.append((char) (d + '0')); // Append remainder by calculating (value - d * 10). appenadble.append((char) (value - (d << 3) - (d << 1) + '0')); } else { int digits; if (value < 1000) { digits = 3; } else if (value < 10000) { digits = 4; } else { digits = (int)(Math.log(value) / LOG_10) + 1; } for (; size > digits; size--) { appenadble.append('0'); } appenadble.append(Integer.toString(value)); } } /** * Converts an integer to a string, prepended with a variable amount of '0' * pad characters, and appends it to the given buffer. * *

This method is optimized for converting small values to strings. * * @param buf receives integer converted to a string * @param value value to convert to a string * @param size minimum amount of digits to append */ public static void appendPaddedInteger(StringBuffer buf, long value, int size) { try { appendPaddedInteger((Appendable)buf, value, size); } catch (IOException e) { // StringBuffer does not throw IOException } } /** * Converts an integer to a string, prepended with a variable amount of '0' * pad characters, and appends it to the given buffer. * *

This method is optimized for converting small values to strings. * * @param appendable receives integer converted to a string * @param value value to convert to a string * @param size minimum amount of digits to append * @since 2.4 */ public static void appendPaddedInteger(Appendable appendable, long value, int size) throws IOException { int intValue = (int)value; if (intValue == value) { appendPaddedInteger(appendable, intValue, size); } else if (size <= 19) { appendable.append(Long.toString(value)); } else { if (value < 0) { appendable.append('-'); if (value != Long.MIN_VALUE) { value = -value; } else { for (; size > 19; size--) { appendable.append('0'); } appendable.append("9223372036854775808"); return; } } int digits = (int)(Math.log(value) / LOG_10) + 1; for (; size > digits; size--) { appendable.append('0'); } appendable.append(Long.toString(value)); } } /** * Converts an integer to a string, prepended with a variable amount of '0' * pad characters, and writes it to the given writer. * *

This method is optimized for converting small values to strings. * * @param out receives integer converted to a string * @param value value to convert to a string * @param size minimum amount of digits to append */ public static void writePaddedInteger(Writer out, int value, int size) throws IOException { if (value < 0) { out.write('-'); if (value != Integer.MIN_VALUE) { value = -value; } else { for (; size > 10; size--) { out.write('0'); } out.write("" + -(long)Integer.MIN_VALUE); return; } } if (value < 10) { for (; size > 1; size--) { out.write('0'); } out.write(value + '0'); } else if (value < 100) { for (; size > 2; size--) { out.write('0'); } // Calculate value div/mod by 10 without using two expensive // division operations. (2 ^ 27) / 10 = 13421772. Add one to // value to correct rounding error. int d = ((value + 1) * 13421772) >> 27; out.write(d + '0'); // Append remainder by calculating (value - d * 10). out.write(value - (d << 3) - (d << 1) + '0'); } else { int digits; if (value < 1000) { digits = 3; } else if (value < 10000) { digits = 4; } else { digits = (int)(Math.log(value) / LOG_10) + 1; } for (; size > digits; size--) { out.write('0'); } out.write(Integer.toString(value)); } } /** * Converts an integer to a string, prepended with a variable amount of '0' * pad characters, and writes it to the given writer. * *

This method is optimized for converting small values to strings. * * @param out receives integer converted to a string * @param value value to convert to a string * @param size minimum amount of digits to append */ public static void writePaddedInteger(Writer out, long value, int size) throws IOException { int intValue = (int)value; if (intValue == value) { writePaddedInteger(out, intValue, size); } else if (size <= 19) { out.write(Long.toString(value)); } else { if (value < 0) { out.write('-'); if (value != Long.MIN_VALUE) { value = -value; } else { for (; size > 19; size--) { out.write('0'); } out.write("9223372036854775808"); return; } } int digits = (int)(Math.log(value) / LOG_10) + 1; for (; size > digits; size--) { out.write('0'); } out.write(Long.toString(value)); } } /** * Converts an integer to a string, and appends it to the given buffer. * *

This method is optimized for converting small values to strings. * * @param buf receives integer converted to a string * @param value value to convert to a string */ public static void appendUnpaddedInteger(StringBuffer buf, int value) { try { appendUnpaddedInteger((Appendable) buf, value); } catch (IOException e) { // StringBuffer do not throw IOException } } /** * Converts an integer to a string, and appends it to the given appendable. * *

This method is optimized for converting small values to strings. * * @param appendable receives integer converted to a string * @param value value to convert to a string * @since 2.4 */ public static void appendUnpaddedInteger(Appendable appendable, int value) throws IOException { if (value < 0) { appendable.append('-'); if (value != Integer.MIN_VALUE) { value = -value; } else { appendable.append("" + -(long)Integer.MIN_VALUE); return; } } if (value < 10) { appendable.append((char)(value + '0')); } else if (value < 100) { // Calculate value div/mod by 10 without using two expensive // division operations. (2 ^ 27) / 10 = 13421772. Add one to // value to correct rounding error. int d = ((value + 1) * 13421772) >> 27; appendable.append((char) (d + '0')); // Append remainder by calculating (value - d * 10). appendable.append((char) (value - (d << 3) - (d << 1) + '0')); } else { appendable.append(Integer.toString(value)); } } /** * Converts an integer to a string, and appends it to the given buffer. * *

This method is optimized for converting small values to strings. * * @param buf receives integer converted to a string * @param value value to convert to a string */ public static void appendUnpaddedInteger(StringBuffer buf, long value) { try { appendUnpaddedInteger((Appendable) buf, value); } catch (IOException e) { // StringBuffer do not throw IOException } } /** * Converts an integer to a string, and appends it to the given appendable. * *

This method is optimized for converting small values to strings. * * @param appendable receives integer converted to a string * @param value value to convert to a string */ public static void appendUnpaddedInteger(Appendable appendable, long value) throws IOException { int intValue = (int)value; if (intValue == value) { appendUnpaddedInteger(appendable, intValue); } else { appendable.append(Long.toString(value)); } } /** * Converts an integer to a string, and writes it to the given writer. * *

This method is optimized for converting small values to strings. * * @param out receives integer converted to a string * @param value value to convert to a string */ public static void writeUnpaddedInteger(Writer out, int value) throws IOException { if (value < 0) { out.write('-'); if (value != Integer.MIN_VALUE) { value = -value; } else { out.write("" + -(long)Integer.MIN_VALUE); return; } } if (value < 10) { out.write(value + '0'); } else if (value < 100) { // Calculate value div/mod by 10 without using two expensive // division operations. (2 ^ 27) / 10 = 13421772. Add one to // value to correct rounding error. int d = ((value + 1) * 13421772) >> 27; out.write(d + '0'); // Append remainder by calculating (value - d * 10). out.write(value - (d << 3) - (d << 1) + '0'); } else { out.write(Integer.toString(value)); } } /** * Converts an integer to a string, and writes it to the given writer. * *

This method is optimized for converting small values to strings. * * @param out receives integer converted to a string * @param value value to convert to a string */ public static void writeUnpaddedInteger(Writer out, long value) throws IOException { int intValue = (int)value; if (intValue == value) { writeUnpaddedInteger(out, intValue); } else { out.write(Long.toString(value)); } } /** * Calculates the number of decimal digits for the given value, * including the sign. */ public static int calculateDigitCount(long value) { if (value < 0) { if (value != Long.MIN_VALUE) { return calculateDigitCount(-value) + 1; } else { return 20; } } return (value < 10 ? 1 : (value < 100 ? 2 : (value < 1000 ? 3 : (value < 10000 ? 4 : ((int)(Math.log(value) / LOG_10) + 1))))); } static int parseTwoDigits(CharSequence text, int position) { int value = text.charAt(position) - '0'; return ((value << 3) + (value << 1)) + text.charAt(position + 1) - '0'; } static String createErrorMessage(final String text, final int errorPos) { int sampleLen = errorPos + 32; String sampleText; if (text.length() <= sampleLen + 3) { sampleText = text; } else { sampleText = text.substring(0, sampleLen).concat("..."); } if (errorPos <= 0) { return "Invalid format: \"" + sampleText + '"'; } if (errorPos >= text.length()) { return "Invalid format: \"" + sampleText + "\" is too short"; } return "Invalid format: \"" + sampleText + "\" is malformed at \"" + sampleText.substring(errorPos) + '"'; } }





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