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International Component for Unicode for Java (ICU4J) is a mature, widely used Java library providing Unicode and Globalization support

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// © 2017 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
package com.ibm.icu.impl.number;

import com.ibm.icu.impl.FormattedStringBuilder;
import com.ibm.icu.text.NumberFormat;
import com.ibm.icu.text.UnicodeSet;

/**
 * Performs manipulations on affix patterns: the prefix and suffix strings associated with a decimal
 * format pattern. For example:
 *
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
 * 
Affix PatternExample Unescaped (Formatted) String
abcabc
ab-ab−
ab'-'ab-
ab''ab'
* * To manually iterate over tokens in a literal string, use the following pattern, which is designed to * be efficient. * *
 * long tag = 0L;
 * while (AffixPatternUtils.hasNext(tag, patternString)) {
 *     tag = AffixPatternUtils.nextToken(tag, patternString);
 *     int typeOrCp = AffixPatternUtils.getTypeOrCp(tag);
 *     switch (typeOrCp) {
 *     case AffixPatternUtils.TYPE_MINUS_SIGN:
 *         // Current token is a minus sign.
 *         break;
 *     case AffixPatternUtils.TYPE_PLUS_SIGN:
 *         // Current token is a plus sign.
 *         break;
 *     case AffixPatternUtils.TYPE_PERCENT:
 *         // Current token is a percent sign.
 *         break;
 *     // ... other types ...
 *     default:
 *         // Current token is an arbitrary code point.
 *         // The variable typeOrCp is the code point.
 *         break;
 *     }
 * }
 * 
*/ public class AffixUtils { private static final int STATE_BASE = 0; private static final int STATE_FIRST_QUOTE = 1; private static final int STATE_INSIDE_QUOTE = 2; private static final int STATE_AFTER_QUOTE = 3; private static final int STATE_FIRST_CURR = 4; private static final int STATE_SECOND_CURR = 5; private static final int STATE_THIRD_CURR = 6; private static final int STATE_FOURTH_CURR = 7; private static final int STATE_FIFTH_CURR = 8; private static final int STATE_OVERFLOW_CURR = 9; /** Represents a literal character; the value is stored in the code point field. */ private static final int TYPE_CODEPOINT = 0; /** Represents a minus sign symbol '-'. */ public static final int TYPE_MINUS_SIGN = -1; /** Represents a plus sign symbol '+'. */ public static final int TYPE_PLUS_SIGN = -2; // Represents an approximately sign symbol '~'. public static final int TYPE_APPROXIMATELY_SIGN = -3; /** Represents a percent sign symbol '%'. */ public static final int TYPE_PERCENT = -4; /** Represents a permille sign symbol '‰'. */ public static final int TYPE_PERMILLE = -5; /** Represents a single currency symbol '¤'. */ public static final int TYPE_CURRENCY_SINGLE = -6; /** Represents a double currency symbol '¤¤'. */ public static final int TYPE_CURRENCY_DOUBLE = -7; /** Represents a triple currency symbol '¤¤¤'. */ public static final int TYPE_CURRENCY_TRIPLE = -8; /** Represents a quadruple currency symbol '¤¤¤¤'. */ public static final int TYPE_CURRENCY_QUAD = -9; /** Represents a quintuple currency symbol '¤¤¤¤¤'. */ public static final int TYPE_CURRENCY_QUINT = -10; /** Represents a sequence of six or more currency symbols. */ public static final int TYPE_CURRENCY_OVERFLOW = -15; public static interface SymbolProvider { public CharSequence getSymbol(int type); } public static interface TokenConsumer { public void consumeToken(int typeOrCp); } /** * Estimates the number of code points present in an unescaped version of the affix pattern string * (one that would be returned by {@link #unescape}), assuming that all interpolated symbols consume * one code point and that currencies consume as many code points as their symbol width. Used for * computing padding width. * * @param patternString * The original string whose width will be estimated. * @return The length of the unescaped string. */ public static int estimateLength(CharSequence patternString) { if (patternString == null) return 0; int state = STATE_BASE; int offset = 0; int length = 0; for (; offset < patternString.length();) { int cp = Character.codePointAt(patternString, offset); switch (state) { case STATE_BASE: if (cp == '\'') { // First quote state = STATE_FIRST_QUOTE; } else { // Unquoted symbol length++; } break; case STATE_FIRST_QUOTE: if (cp == '\'') { // Repeated quote length++; state = STATE_BASE; } else { // Quoted code point length++; state = STATE_INSIDE_QUOTE; } break; case STATE_INSIDE_QUOTE: if (cp == '\'') { // End of quoted sequence state = STATE_AFTER_QUOTE; } else { // Quoted code point length++; } break; case STATE_AFTER_QUOTE: if (cp == '\'') { // Double quote inside of quoted sequence length++; state = STATE_INSIDE_QUOTE; } else { // Unquoted symbol length++; } break; default: throw new AssertionError(); } offset += Character.charCount(cp); } switch (state) { case STATE_FIRST_QUOTE: case STATE_INSIDE_QUOTE: throw new IllegalArgumentException("Unterminated quote: \"" + patternString + "\""); default: break; } return length; } /** * Takes a string and escapes (quotes) characters that have special meaning in the affix pattern * syntax. This function does not reverse-lookup symbols. * *

* Example input: "-$x"; example output: "'-'$x" * * @param input * The string to be escaped. * @param output * The string builder to which to append the escaped string. * @return The number of chars (UTF-16 code units) appended to the output. */ public static int escape(CharSequence input, StringBuilder output) { if (input == null) return 0; int state = STATE_BASE; int offset = 0; int startLength = output.length(); for (; offset < input.length();) { int cp = Character.codePointAt(input, offset); switch (cp) { case '\'': output.append("''"); break; case '-': case '+': case '%': case '‰': case '¤': if (state == STATE_BASE) { output.append('\''); output.appendCodePoint(cp); state = STATE_INSIDE_QUOTE; } else { output.appendCodePoint(cp); } break; default: if (state == STATE_INSIDE_QUOTE) { output.append('\''); output.appendCodePoint(cp); state = STATE_BASE; } else { output.appendCodePoint(cp); } break; } offset += Character.charCount(cp); } if (state == STATE_INSIDE_QUOTE) { output.append('\''); } return output.length() - startLength; } /** Version of {@link #escape} that returns a String, or null if input is null. */ public static String escape(CharSequence input) { if (input == null) return null; StringBuilder sb = new StringBuilder(); escape(input, sb); return sb.toString(); } public static final NumberFormat.Field getFieldForType(int type) { switch (type) { case TYPE_MINUS_SIGN: return NumberFormat.Field.SIGN; case TYPE_PLUS_SIGN: return NumberFormat.Field.SIGN; case TYPE_APPROXIMATELY_SIGN: return NumberFormat.Field.APPROXIMATELY_SIGN; case TYPE_PERCENT: return NumberFormat.Field.PERCENT; case TYPE_PERMILLE: return NumberFormat.Field.PERMILLE; case TYPE_CURRENCY_SINGLE: return NumberFormat.Field.CURRENCY; case TYPE_CURRENCY_DOUBLE: return NumberFormat.Field.CURRENCY; case TYPE_CURRENCY_TRIPLE: return NumberFormat.Field.CURRENCY; case TYPE_CURRENCY_QUAD: return NumberFormat.Field.CURRENCY; case TYPE_CURRENCY_QUINT: return NumberFormat.Field.CURRENCY; case TYPE_CURRENCY_OVERFLOW: return NumberFormat.Field.CURRENCY; default: throw new AssertionError(); } } /** * Executes the unescape state machine. Replaces the unquoted characters "-", "+", "%", "‰", and "¤" * with the corresponding symbols provided by the {@link SymbolProvider}, and inserts the result into * the FormattedStringBuilder at the requested location. * *

* Example input: "'-'¤x"; example output: "-$x" * * @param affixPattern * The original string to be unescaped. * @param output * The FormattedStringBuilder to mutate with the result. * @param position * The index into the FormattedStringBuilder to insert the the string. * @param provider * An object to generate locale symbols. * @return The length of the string added to affixPattern. */ public static int unescape( CharSequence affixPattern, FormattedStringBuilder output, int position, SymbolProvider provider, NumberFormat.Field field) { assert affixPattern != null; int length = 0; long tag = 0L; while (hasNext(tag, affixPattern)) { tag = nextToken(tag, affixPattern); int typeOrCp = getTypeOrCp(tag); if (typeOrCp == TYPE_CURRENCY_OVERFLOW) { // Don't go to the provider for this special case length += output.insertCodePoint(position + length, 0xFFFD, NumberFormat.Field.CURRENCY); } else if (typeOrCp < 0) { length += output.insert(position + length, provider.getSymbol(typeOrCp), getFieldForType(typeOrCp)); } else { length += output.insertCodePoint(position + length, typeOrCp, field); } } return length; } /** * Sames as {@link #unescape}, but only calculates the length or code point count. More efficient * than {@link #unescape} if you only need the length but not the string itself. * * @param affixPattern * The original string to be unescaped. * @param lengthOrCount * true to count length (UTF-16 code units); false to count code points * @param provider * An object to generate locale symbols. * @return The number of code points in the unescaped string. */ public static int unescapedCount( CharSequence affixPattern, boolean lengthOrCount, SymbolProvider provider) { int length = 0; long tag = 0L; while (hasNext(tag, affixPattern)) { tag = nextToken(tag, affixPattern); int typeOrCp = getTypeOrCp(tag); if (typeOrCp == TYPE_CURRENCY_OVERFLOW) { // U+FFFD is one char length += 1; } else if (typeOrCp < 0) { CharSequence symbol = provider.getSymbol(typeOrCp); length += lengthOrCount ? symbol.length() : Character.codePointCount(symbol, 0, symbol.length()); } else { length += lengthOrCount ? Character.charCount(typeOrCp) : 1; } } return length; } /** * Checks whether the given affix pattern contains at least one token of the given type, which is one * of the constants "TYPE_" in {@link AffixUtils}. * * @param affixPattern * The affix pattern to check. * @param type * The token type. * @return true if the affix pattern contains the given token type; false otherwise. */ public static boolean containsType(CharSequence affixPattern, int type) { if (affixPattern == null || affixPattern.length() == 0) { return false; } long tag = 0L; while (hasNext(tag, affixPattern)) { tag = nextToken(tag, affixPattern); if (getTypeOrCp(tag) == type) { return true; } } return false; } /** * Checks whether the specified affix pattern has any unquoted currency symbols ("¤"). * * @param affixPattern * The string to check for currency symbols. * @return true if the literal has at least one unquoted currency symbol; false otherwise. */ public static boolean hasCurrencySymbols(CharSequence affixPattern) { if (affixPattern == null || affixPattern.length() == 0) return false; long tag = 0L; while (hasNext(tag, affixPattern)) { tag = nextToken(tag, affixPattern); int typeOrCp = getTypeOrCp(tag); if (typeOrCp < 0 && getFieldForType(typeOrCp) == NumberFormat.Field.CURRENCY) { return true; } } return false; } /** * Replaces all occurrences of tokens with the given type with the given replacement char. * * @param affixPattern * The source affix pattern (does not get modified). * @param type * The token type. * @param replacementChar * The char to substitute in place of chars of the given token type. * @return A string containing the new affix pattern. */ public static String replaceType(CharSequence affixPattern, int type, char replacementChar) { if (affixPattern == null || affixPattern.length() == 0) return ""; char[] chars = affixPattern.toString().toCharArray(); long tag = 0L; while (hasNext(tag, affixPattern)) { tag = nextToken(tag, affixPattern); if (getTypeOrCp(tag) == type) { int offset = getOffset(tag); chars[offset - 1] = replacementChar; } } return new String(chars); } /** * Returns whether the given affix pattern contains only symbols and ignorables as defined by the * given ignorables set. */ public static boolean containsOnlySymbolsAndIgnorables( CharSequence affixPattern, UnicodeSet ignorables) { if (affixPattern == null) { return true; } long tag = 0L; while (hasNext(tag, affixPattern)) { tag = nextToken(tag, affixPattern); int typeOrCp = getTypeOrCp(tag); if (typeOrCp >= 0 && !ignorables.contains(typeOrCp)) { return false; } } return true; } /** * Iterates over the affix pattern, calling the TokenConsumer for each token. */ public static void iterateWithConsumer(CharSequence affixPattern, TokenConsumer consumer) { assert affixPattern != null; long tag = 0L; while (hasNext(tag, affixPattern)) { tag = nextToken(tag, affixPattern); int typeOrCp = getTypeOrCp(tag); consumer.consumeToken(typeOrCp); } } /** * Returns the next token from the affix pattern. * * @param tag * A bitmask used for keeping track of state from token to token. The initial value should * be 0L. * @param patternString * The affix pattern. * @return The bitmask tag to pass to the next call of this method to retrieve the following token * (never negative), or -1 if there were no more tokens in the affix pattern. * @see #hasNext */ private static long nextToken(long tag, CharSequence patternString) { int offset = getOffset(tag); int state = getState(tag); for (; offset < patternString.length();) { int cp = Character.codePointAt(patternString, offset); int count = Character.charCount(cp); switch (state) { case STATE_BASE: switch (cp) { case '\'': state = STATE_FIRST_QUOTE; offset += count; // continue to the next code point break; case '-': return makeTag(offset + count, TYPE_MINUS_SIGN, STATE_BASE, 0); case '+': return makeTag(offset + count, TYPE_PLUS_SIGN, STATE_BASE, 0); case '~': return makeTag(offset + count, TYPE_APPROXIMATELY_SIGN, STATE_BASE, 0); case '%': return makeTag(offset + count, TYPE_PERCENT, STATE_BASE, 0); case '‰': return makeTag(offset + count, TYPE_PERMILLE, STATE_BASE, 0); case '¤': state = STATE_FIRST_CURR; offset += count; // continue to the next code point break; default: return makeTag(offset + count, TYPE_CODEPOINT, STATE_BASE, cp); } break; case STATE_FIRST_QUOTE: if (cp == '\'') { return makeTag(offset + count, TYPE_CODEPOINT, STATE_BASE, cp); } else { return makeTag(offset + count, TYPE_CODEPOINT, STATE_INSIDE_QUOTE, cp); } case STATE_INSIDE_QUOTE: if (cp == '\'') { state = STATE_AFTER_QUOTE; offset += count; // continue to the next code point break; } else { return makeTag(offset + count, TYPE_CODEPOINT, STATE_INSIDE_QUOTE, cp); } case STATE_AFTER_QUOTE: if (cp == '\'') { return makeTag(offset + count, TYPE_CODEPOINT, STATE_INSIDE_QUOTE, cp); } else { state = STATE_BASE; // re-evaluate this code point break; } case STATE_FIRST_CURR: if (cp == '¤') { state = STATE_SECOND_CURR; offset += count; // continue to the next code point break; } else { return makeTag(offset, TYPE_CURRENCY_SINGLE, STATE_BASE, 0); } case STATE_SECOND_CURR: if (cp == '¤') { state = STATE_THIRD_CURR; offset += count; // continue to the next code point break; } else { return makeTag(offset, TYPE_CURRENCY_DOUBLE, STATE_BASE, 0); } case STATE_THIRD_CURR: if (cp == '¤') { state = STATE_FOURTH_CURR; offset += count; // continue to the next code point break; } else { return makeTag(offset, TYPE_CURRENCY_TRIPLE, STATE_BASE, 0); } case STATE_FOURTH_CURR: if (cp == '¤') { state = STATE_FIFTH_CURR; offset += count; // continue to the next code point break; } else { return makeTag(offset, TYPE_CURRENCY_QUAD, STATE_BASE, 0); } case STATE_FIFTH_CURR: if (cp == '¤') { state = STATE_OVERFLOW_CURR; offset += count; // continue to the next code point break; } else { return makeTag(offset, TYPE_CURRENCY_QUINT, STATE_BASE, 0); } case STATE_OVERFLOW_CURR: if (cp == '¤') { offset += count; // continue to the next code point and loop back to this state break; } else { return makeTag(offset, TYPE_CURRENCY_OVERFLOW, STATE_BASE, 0); } default: throw new AssertionError(); } } // End of string switch (state) { case STATE_BASE: // No more tokens in string. return -1L; case STATE_FIRST_QUOTE: case STATE_INSIDE_QUOTE: // For consistent behavior with the JDK and ICU 58, throw an exception here. throw new IllegalArgumentException( "Unterminated quote in pattern affix: \"" + patternString + "\""); case STATE_AFTER_QUOTE: // No more tokens in string. return -1L; case STATE_FIRST_CURR: return makeTag(offset, TYPE_CURRENCY_SINGLE, STATE_BASE, 0); case STATE_SECOND_CURR: return makeTag(offset, TYPE_CURRENCY_DOUBLE, STATE_BASE, 0); case STATE_THIRD_CURR: return makeTag(offset, TYPE_CURRENCY_TRIPLE, STATE_BASE, 0); case STATE_FOURTH_CURR: return makeTag(offset, TYPE_CURRENCY_QUAD, STATE_BASE, 0); case STATE_FIFTH_CURR: return makeTag(offset, TYPE_CURRENCY_QUINT, STATE_BASE, 0); case STATE_OVERFLOW_CURR: return makeTag(offset, TYPE_CURRENCY_OVERFLOW, STATE_BASE, 0); default: throw new AssertionError(); } } /** * Returns whether the affix pattern string has any more tokens to be retrieved from a call to * {@link #nextToken}. * * @param tag * The bitmask tag of the previous token, as returned by {@link #nextToken}. * @param string * The affix pattern. * @return true if there are more tokens to consume; false otherwise. */ private static boolean hasNext(long tag, CharSequence string) { assert tag >= 0; int state = getState(tag); int offset = getOffset(tag); // Special case: the last character in string is an end quote. if (state == STATE_INSIDE_QUOTE && offset == string.length() - 1 && string.charAt(offset) == '\'') { return false; } else if (state != STATE_BASE) { return true; } else { return offset < string.length(); } } /** * This function helps determine the identity of the token consumed by {@link #nextToken}. Converts * from a bitmask tag, based on a call to {@link #nextToken}, to its corresponding symbol type or * code point. * * @param tag * The bitmask tag of the current token, as returned by {@link #nextToken}. * @return If less than zero, a symbol type corresponding to one of the TYPE_ constants, * such as {@link #TYPE_MINUS_SIGN}. If greater than or equal to zero, a literal code point. */ private static int getTypeOrCp(long tag) { assert tag >= 0; int type = getType(tag); return (type == TYPE_CODEPOINT) ? getCodePoint(tag) : -type; } /** * Encodes the given values into a 64-bit tag. * *

    *
  • Bits 0-31 => offset (int32) *
  • Bits 32-35 => type (uint4) *
  • Bits 36-39 => state (uint4) *
  • Bits 40-60 => code point (uint21) *
  • Bits 61-63 => unused *
*/ private static long makeTag(int offset, int type, int state, int cp) { long tag = 0L; tag |= offset; tag |= (-(long) type) << 32; tag |= ((long) state) << 36; tag |= ((long) cp) << 40; assert tag >= 0; return tag; } private static int getOffset(long tag) { return (int) (tag & 0xffffffff); } private static int getType(long tag) { return (int) ((tag >>> 32) & 0xf); } private static int getState(long tag) { return (int) ((tag >>> 36) & 0xf); } private static int getCodePoint(long tag) { return (int) (tag >>> 40); } }




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