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// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/*
*******************************************************************************
*   Copyright (C) 2010-2016, International Business Machines
*   Corporation and others.  All Rights Reserved.
*******************************************************************************
*   created on: 2010aug21
*   created by: Markus W. Scherer
*/

package com.ibm.icu.text;

import java.util.ArrayList;
import java.util.Locale;

import com.ibm.icu.impl.ICUConfig;
import com.ibm.icu.impl.PatternProps;
import com.ibm.icu.util.Freezable;
import com.ibm.icu.util.ICUCloneNotSupportedException;

//Note: Minimize ICU dependencies, only use a very small part of the ICU core.
//In particular, do not depend on *Format classes.

/**
 * Parses and represents ICU MessageFormat patterns.
 * Also handles patterns for ChoiceFormat, PluralFormat and SelectFormat.
 * Used in the implementations of those classes as well as in tools
 * for message validation, translation and format conversion.
 * 

* The parser handles all syntax relevant for identifying message arguments. * This includes "complex" arguments whose style strings contain * nested MessageFormat pattern substrings. * For "simple" arguments (with no nested MessageFormat pattern substrings), * the argument style is not parsed any further. *

* The parser handles named and numbered message arguments and allows both in one message. *

* Once a pattern has been parsed successfully, iterate through the parsed data * with countParts(), getPart() and related methods. *

* The data logically represents a parse tree, but is stored and accessed * as a list of "parts" for fast and simple parsing and to minimize object allocations. * Arguments and nested messages are best handled via recursion. * For every _START "part", {@link #getLimitPartIndex(int)} efficiently returns * the index of the corresponding _LIMIT "part". *

* List of "parts": *

 * message = MSG_START (SKIP_SYNTAX | INSERT_CHAR | REPLACE_NUMBER | argument)* MSG_LIMIT
 * argument = noneArg | simpleArg | complexArg
 * complexArg = choiceArg | pluralArg | selectArg
 *
 * noneArg = ARG_START.NONE (ARG_NAME | ARG_NUMBER) ARG_LIMIT.NONE
 * simpleArg = ARG_START.SIMPLE (ARG_NAME | ARG_NUMBER) ARG_TYPE [ARG_STYLE] ARG_LIMIT.SIMPLE
 * choiceArg = ARG_START.CHOICE (ARG_NAME | ARG_NUMBER) choiceStyle ARG_LIMIT.CHOICE
 * pluralArg = ARG_START.PLURAL (ARG_NAME | ARG_NUMBER) pluralStyle ARG_LIMIT.PLURAL
 * selectArg = ARG_START.SELECT (ARG_NAME | ARG_NUMBER) selectStyle ARG_LIMIT.SELECT
 *
 * choiceStyle = ((ARG_INT | ARG_DOUBLE) ARG_SELECTOR message)+
 * pluralStyle = [ARG_INT | ARG_DOUBLE] (ARG_SELECTOR [ARG_INT | ARG_DOUBLE] message)+
 * selectStyle = (ARG_SELECTOR message)+
 * 
*
    *
  • Literal output text is not represented directly by "parts" but accessed * between parts of a message, from one part's getLimit() to the next part's getIndex(). *
  • ARG_START.CHOICE stands for an ARG_START Part with ArgType CHOICE. *
  • In the choiceStyle, the ARG_SELECTOR has the '<', the '#' or * the less-than-or-equal-to sign (U+2264). *
  • In the pluralStyle, the first, optional numeric Part has the "offset:" value. * The optional numeric Part between each (ARG_SELECTOR, message) pair * is the value of an explicit-number selector like "=2", * otherwise the selector is a non-numeric identifier. *
  • The REPLACE_NUMBER Part can occur only in an immediate sub-message of the pluralStyle. *
*

* This class is not intended for public subclassing. * * @stable ICU 4.8 * @author Markus Scherer */ public final class MessagePattern implements Cloneable, Freezable { /** * Mode for when an apostrophe starts quoted literal text for MessageFormat output. * The default is DOUBLE_OPTIONAL unless overridden via ICUConfig * (/com/ibm/icu/ICUConfig.properties). *

* A pair of adjacent apostrophes always results in a single apostrophe in the output, * even when the pair is between two single, text-quoting apostrophes. *

* The following table shows examples of desired MessageFormat.format() output * with the pattern strings that yield that output. * *

* * * * * * * * * * * * * * * * * * * * *
Desired outputDOUBLE_OPTIONALDOUBLE_REQUIRED
I see {many}I see '{many}'(same)
I said {'Wow!'}I said '{''Wow!''}'(same)
I don't knowI don't know OR
I don''t know
I don''t know
* @stable ICU 4.8 */ public enum ApostropheMode { /** * A literal apostrophe is represented by * either a single or a double apostrophe pattern character. * Within a MessageFormat pattern, a single apostrophe only starts quoted literal text * if it immediately precedes a curly brace {}, * or a pipe symbol | if inside a choice format, * or a pound symbol # if inside a plural format. *

* This is the default behavior starting with ICU 4.8. * @stable ICU 4.8 */ DOUBLE_OPTIONAL, /** * A literal apostrophe must be represented by * a double apostrophe pattern character. * A single apostrophe always starts quoted literal text. *

* This is the behavior of ICU 4.6 and earlier, and of {@link java.text.MessageFormat}. * @stable ICU 4.8 */ DOUBLE_REQUIRED } /** * Constructs an empty MessagePattern with default ApostropheMode. * @stable ICU 4.8 */ public MessagePattern() { aposMode=defaultAposMode; } /** * Constructs an empty MessagePattern. * @param mode Explicit ApostropheMode. * @stable ICU 4.8 */ public MessagePattern(ApostropheMode mode) { aposMode=mode; } /** * Constructs a MessagePattern with default ApostropheMode and * parses the MessageFormat pattern string. * @param pattern a MessageFormat pattern string * @throws IllegalArgumentException for syntax errors in the pattern string * @throws IndexOutOfBoundsException if certain limits are exceeded * (e.g., argument number too high, argument name too long, etc.) * @throws NumberFormatException if a number could not be parsed * @stable ICU 4.8 */ public MessagePattern(String pattern) { aposMode=defaultAposMode; parse(pattern); } /** * Parses a MessageFormat pattern string. * @param pattern a MessageFormat pattern string * @return this * @throws IllegalArgumentException for syntax errors in the pattern string * @throws IndexOutOfBoundsException if certain limits are exceeded * (e.g., argument number too high, argument name too long, etc.) * @throws NumberFormatException if a number could not be parsed * @stable ICU 4.8 */ public MessagePattern parse(String pattern) { preParse(pattern); parseMessage(0, 0, 0, ArgType.NONE); postParse(); return this; } /** * Parses a ChoiceFormat pattern string. * @param pattern a ChoiceFormat pattern string * @return this * @throws IllegalArgumentException for syntax errors in the pattern string * @throws IndexOutOfBoundsException if certain limits are exceeded * (e.g., argument number too high, argument name too long, etc.) * @throws NumberFormatException if a number could not be parsed * @stable ICU 4.8 */ public MessagePattern parseChoiceStyle(String pattern) { preParse(pattern); parseChoiceStyle(0, 0); postParse(); return this; } /** * Parses a PluralFormat pattern string. * @param pattern a PluralFormat pattern string * @return this * @throws IllegalArgumentException for syntax errors in the pattern string * @throws IndexOutOfBoundsException if certain limits are exceeded * (e.g., argument number too high, argument name too long, etc.) * @throws NumberFormatException if a number could not be parsed * @stable ICU 4.8 */ public MessagePattern parsePluralStyle(String pattern) { preParse(pattern); parsePluralOrSelectStyle(ArgType.PLURAL, 0, 0); postParse(); return this; } /** * Parses a SelectFormat pattern string. * @param pattern a SelectFormat pattern string * @return this * @throws IllegalArgumentException for syntax errors in the pattern string * @throws IndexOutOfBoundsException if certain limits are exceeded * (e.g., argument number too high, argument name too long, etc.) * @throws NumberFormatException if a number could not be parsed * @stable ICU 4.8 */ public MessagePattern parseSelectStyle(String pattern) { preParse(pattern); parsePluralOrSelectStyle(ArgType.SELECT, 0, 0); postParse(); return this; } /** * Clears this MessagePattern. * countParts() will return 0. * @stable ICU 4.8 */ public void clear() { // Mostly the same as preParse(). if(isFrozen()) { throw new UnsupportedOperationException( "Attempt to clear() a frozen MessagePattern instance."); } msg=null; hasArgNames=hasArgNumbers=false; needsAutoQuoting=false; parts.clear(); if(numericValues!=null) { numericValues.clear(); } } /** * Clears this MessagePattern and sets the ApostropheMode. * countParts() will return 0. * @param mode The new ApostropheMode. * @stable ICU 4.8 */ public void clearPatternAndSetApostropheMode(ApostropheMode mode) { clear(); aposMode=mode; } /** * @param other another object to compare with. * @return true if this object is equivalent to the other one. * @stable ICU 4.8 */ @Override public boolean equals(Object other) { if(this==other) { return true; } if(other==null || getClass()!=other.getClass()) { return false; } MessagePattern o=(MessagePattern)other; return aposMode.equals(o.aposMode) && (msg==null ? o.msg==null : msg.equals(o.msg)) && parts.equals(o.parts); // No need to compare numericValues if msg and parts are the same. } /** * {@inheritDoc} * @stable ICU 4.8 */ @Override public int hashCode() { return (aposMode.hashCode()*37+(msg!=null ? msg.hashCode() : 0))*37+parts.hashCode(); } /** * @return this instance's ApostropheMode. * @stable ICU 4.8 */ public ApostropheMode getApostropheMode() { return aposMode; } /** * @return true if getApostropheMode() == ApostropheMode.DOUBLE_REQUIRED * @internal */ /* package */ boolean jdkAposMode() { return aposMode == ApostropheMode.DOUBLE_REQUIRED; } /** * @return the parsed pattern string (null if none was parsed). * @stable ICU 4.8 */ public String getPatternString() { return msg; } /** * Does the parsed pattern have named arguments like {first_name}? * @return true if the parsed pattern has at least one named argument. * @stable ICU 4.8 */ public boolean hasNamedArguments() { return hasArgNames; } /** * Does the parsed pattern have numbered arguments like {2}? * @return true if the parsed pattern has at least one numbered argument. * @stable ICU 4.8 */ public boolean hasNumberedArguments() { return hasArgNumbers; } /** * {@inheritDoc} * @stable ICU 4.8 */ @Override public String toString() { return msg; } /** * Validates and parses an argument name or argument number string. * An argument name must be a "pattern identifier", that is, it must contain * no Unicode Pattern_Syntax or Pattern_White_Space characters. * If it only contains ASCII digits, then it must be a small integer with no leading zero. * @param name Input string. * @return >=0 if the name is a valid number, * ARG_NAME_NOT_NUMBER (-1) if it is a "pattern identifier" but not all ASCII digits, * ARG_NAME_NOT_VALID (-2) if it is neither. * @stable ICU 4.8 */ public static int validateArgumentName(String name) { if(!PatternProps.isIdentifier(name)) { return ARG_NAME_NOT_VALID; } return parseArgNumber(name, 0, name.length()); } /** * Return value from {@link #validateArgumentName(String)} for when * the string is a valid "pattern identifier" but not a number. * @stable ICU 4.8 */ public static final int ARG_NAME_NOT_NUMBER=-1; /** * Return value from {@link #validateArgumentName(String)} for when * the string is invalid. * It might not be a valid "pattern identifier", * or it have only ASCII digits but there is a leading zero or the number is too large. * @stable ICU 4.8 */ public static final int ARG_NAME_NOT_VALID=-2; /** * Returns a version of the parsed pattern string where each ASCII apostrophe * is doubled (escaped) if it is not already, and if it is not interpreted as quoting syntax. *

* For example, this turns "I don't '{know}' {gender,select,female{h''er}other{h'im}}." * into "I don''t '{know}' {gender,select,female{h''er}other{h''im}}." * @return the deep-auto-quoted version of the parsed pattern string. * @see MessageFormat#autoQuoteApostrophe(String) * @stable ICU 4.8 */ public String autoQuoteApostropheDeep() { if(!needsAutoQuoting) { return msg; } StringBuilder modified=null; // Iterate backward so that the insertion indexes do not change. int count=countParts(); for(int i=count; i>0;) { Part part; if((part=getPart(--i)).getType()==Part.Type.INSERT_CHAR) { if(modified==null) { modified=new StringBuilder(msg.length()+10).append(msg); } modified.insert(part.index, (char)part.value); } } if(modified==null) { return msg; } else { return modified.toString(); } } /** * Returns the number of "parts" created by parsing the pattern string. * Returns 0 if no pattern has been parsed or clear() was called. * @return the number of pattern parts. * @stable ICU 4.8 */ public int countParts() { return parts.size(); } /** * Gets the i-th pattern "part". * @param i The index of the Part data. (0..countParts()-1) * @return the i-th pattern "part". * @throws IndexOutOfBoundsException if i is outside the (0..countParts()-1) range * @stable ICU 4.8 */ public Part getPart(int i) { return parts.get(i); } /** * Returns the Part.Type of the i-th pattern "part". * Convenience method for getPart(i).getType(). * @param i The index of the Part data. (0..countParts()-1) * @return The Part.Type of the i-th Part. * @throws IndexOutOfBoundsException if i is outside the (0..countParts()-1) range * @stable ICU 4.8 */ public Part.Type getPartType(int i) { return parts.get(i).type; } /** * Returns the pattern index of the specified pattern "part". * Convenience method for getPart(partIndex).getIndex(). * @param partIndex The index of the Part data. (0..countParts()-1) * @return The pattern index of this Part. * @throws IndexOutOfBoundsException if partIndex is outside the (0..countParts()-1) range * @stable ICU 4.8 */ public int getPatternIndex(int partIndex) { return parts.get(partIndex).index; } /** * Returns the substring of the pattern string indicated by the Part. * Convenience method for getPatternString().substring(part.getIndex(), part.getLimit()). * @param part a part of this MessagePattern. * @return the substring associated with part. * @stable ICU 4.8 */ public String getSubstring(Part part) { int index=part.index; return msg.substring(index, index+part.length); } /** * Compares the part's substring with the input string s. * @param part a part of this MessagePattern. * @param s a string. * @return true if getSubstring(part).equals(s). * @stable ICU 4.8 */ public boolean partSubstringMatches(Part part, String s) { return part.length == s.length() && msg.regionMatches(part.index, s, 0, part.length); } /** * Returns the numeric value associated with an ARG_INT or ARG_DOUBLE. * @param part a part of this MessagePattern. * @return the part's numeric value, or NO_NUMERIC_VALUE if this is not a numeric part. * @stable ICU 4.8 */ public double getNumericValue(Part part) { Part.Type type=part.type; if(type==Part.Type.ARG_INT) { return part.value; } else if(type==Part.Type.ARG_DOUBLE) { return numericValues.get(part.value); } else { return NO_NUMERIC_VALUE; } } /** * Special value that is returned by getNumericValue(Part) when no * numeric value is defined for a part. * @see #getNumericValue * @stable ICU 4.8 */ public static final double NO_NUMERIC_VALUE=-123456789; /** * Returns the "offset:" value of a PluralFormat argument, or 0 if none is specified. * @param pluralStart the index of the first PluralFormat argument style part. (0..countParts()-1) * @return the "offset:" value. * @throws IndexOutOfBoundsException if pluralStart is outside the (0..countParts()-1) range * @stable ICU 4.8 */ public double getPluralOffset(int pluralStart) { Part part=parts.get(pluralStart); if(part.type.hasNumericValue()) { return getNumericValue(part); } else { return 0; } } /** * Returns the index of the ARG|MSG_LIMIT part corresponding to the ARG|MSG_START at start. * @param start The index of some Part data (0..countParts()-1); * this Part should be of Type ARG_START or MSG_START. * @return The first i>start where getPart(i).getType()==ARG|MSG_LIMIT at the same nesting level, * or start itself if getPartType(msgStart)!=ARG|MSG_START. * @throws IndexOutOfBoundsException if start is outside the (0..countParts()-1) range * @stable ICU 4.8 */ public int getLimitPartIndex(int start) { int limit=parts.get(start).limitPartIndex; if(limit * There is always a later MSG_LIMIT part. * @stable ICU 4.8 */ MSG_START, /** * End of a message pattern (main or nested). * The length is 0 for the top-level message and * the last sub-message of a choice argument, * otherwise 1 for the '}' or (in a choice argument style) the '|'. * The value indicates the nesting level, starting with 0 for the main message. * @stable ICU 4.8 */ MSG_LIMIT, /** * Indicates a substring of the pattern string which is to be skipped when formatting. * For example, an apostrophe that begins or ends quoted text * would be indicated with such a part. * The value is undefined and currently always 0. * @stable ICU 4.8 */ SKIP_SYNTAX, /** * Indicates that a syntax character needs to be inserted for auto-quoting. * The length is 0. * The value is the character code of the insertion character. (U+0027=APOSTROPHE) * @stable ICU 4.8 */ INSERT_CHAR, /** * Indicates a syntactic (non-escaped) # symbol in a plural variant. * When formatting, replace this part's substring with the * (value-offset) for the plural argument value. * The value is undefined and currently always 0. * @stable ICU 4.8 */ REPLACE_NUMBER, /** * Start of an argument. * The length is 1 for the '{'. * The value is the ordinal value of the ArgType. Use getArgType(). *

* This part is followed by either an ARG_NUMBER or ARG_NAME, * followed by optional argument sub-parts (see ArgType constants) * and finally an ARG_LIMIT part. * @stable ICU 4.8 */ ARG_START, /** * End of an argument. * The length is 1 for the '}'. * The value is the ordinal value of the ArgType. Use getArgType(). * @stable ICU 4.8 */ ARG_LIMIT, /** * The argument number, provided by the value. * @stable ICU 4.8 */ ARG_NUMBER, /** * The argument name. * The value is undefined and currently always 0. * @stable ICU 4.8 */ ARG_NAME, /** * The argument type. * The value is undefined and currently always 0. * @stable ICU 4.8 */ ARG_TYPE, /** * The argument style text. * The value is undefined and currently always 0. * @stable ICU 4.8 */ ARG_STYLE, /** * A selector substring in a "complex" argument style. * The value is undefined and currently always 0. * @stable ICU 4.8 */ ARG_SELECTOR, /** * An integer value, for example the offset or an explicit selector value * in a PluralFormat style. * The part value is the integer value. * @stable ICU 4.8 */ ARG_INT, /** * A numeric value, for example the offset or an explicit selector value * in a PluralFormat style. * The part value is an index into an internal array of numeric values; * use getNumericValue(). * @stable ICU 4.8 */ ARG_DOUBLE; /** * Indicates whether this part has a numeric value. * If so, then that numeric value can be retrieved via {@link MessagePattern#getNumericValue(Part)}. * @return true if this part has a numeric value. * @stable ICU 4.8 */ public boolean hasNumericValue() { return this==ARG_INT || this==ARG_DOUBLE; } } /** * @return a string representation of this part. * @stable ICU 4.8 */ @Override public String toString() { String valueString=(type==Type.ARG_START || type==Type.ARG_LIMIT) ? getArgType().name() : Integer.toString(value); return type.name()+"("+valueString+")@"+index; } /** * @param other another object to compare with. * @return true if this object is equivalent to the other one. * @stable ICU 4.8 */ @Override public boolean equals(Object other) { if(this==other) { return true; } if(other==null || getClass()!=other.getClass()) { return false; } Part o=(Part)other; return type.equals(o.type) && index==o.index && length==o.length && value==o.value && limitPartIndex==o.limitPartIndex; } /** * {@inheritDoc} * @stable ICU 4.8 */ @Override public int hashCode() { return ((type.hashCode()*37+index)*37+length)*37+value; } private static final int MAX_LENGTH=0xffff; private static final int MAX_VALUE=Short.MAX_VALUE; // Some fields are not final because they are modified during pattern parsing. // After pattern parsing, the parts are effectively immutable. private final Type type; private final int index; private final char length; private short value; private int limitPartIndex; } /** * Argument type constants. * Returned by Part.getArgType() for ARG_START and ARG_LIMIT parts. * * Messages nested inside an argument are each delimited by MSG_START and MSG_LIMIT, * with a nesting level one greater than the surrounding message. * @stable ICU 4.8 */ public enum ArgType { /** * The argument has no specified type. * @stable ICU 4.8 */ NONE, /** * The argument has a "simple" type which is provided by the ARG_TYPE part. * An ARG_STYLE part might follow that. * @stable ICU 4.8 */ SIMPLE, /** * The argument is a ChoiceFormat with one or more * ((ARG_INT | ARG_DOUBLE), ARG_SELECTOR, message) tuples. * @stable ICU 4.8 */ CHOICE, /** * The argument is a cardinal-number PluralFormat with an optional ARG_INT or ARG_DOUBLE offset * (e.g., offset:1) * and one or more (ARG_SELECTOR [explicit-value] message) tuples. * If the selector has an explicit value (e.g., =2), then * that value is provided by the ARG_INT or ARG_DOUBLE part preceding the message. * Otherwise the message immediately follows the ARG_SELECTOR. * @stable ICU 4.8 */ PLURAL, /** * The argument is a SelectFormat with one or more (ARG_SELECTOR, message) pairs. * @stable ICU 4.8 */ SELECT, /** * The argument is an ordinal-number PluralFormat * with the same style parts sequence and semantics as {@link ArgType#PLURAL}. * @stable ICU 50 */ SELECTORDINAL; /** * @return true if the argument type has a plural style part sequence and semantics, * for example {@link ArgType#PLURAL} and {@link ArgType#SELECTORDINAL}. * @stable ICU 50 */ public boolean hasPluralStyle() { return this == PLURAL || this == SELECTORDINAL; } } /** * Creates and returns a copy of this object. * @return a copy of this object (or itself if frozen). * @stable ICU 4.8 */ @Override public Object clone() { if(isFrozen()) { return this; } else { return cloneAsThawed(); } } /** * Creates and returns an unfrozen copy of this object. * @return a copy of this object. * @stable ICU 4.8 */ @Override @SuppressWarnings("unchecked") public MessagePattern cloneAsThawed() { MessagePattern newMsg; try { newMsg=(MessagePattern)super.clone(); } catch (CloneNotSupportedException e) { throw new ICUCloneNotSupportedException(e); } newMsg.parts=(ArrayList)parts.clone(); if(numericValues!=null) { newMsg.numericValues=(ArrayList)numericValues.clone(); } newMsg.frozen=false; return newMsg; } /** * Freezes this object, making it immutable and thread-safe. * @return this * @stable ICU 4.8 */ @Override public MessagePattern freeze() { frozen=true; return this; } /** * Determines whether this object is frozen (immutable) or not. * @return true if this object is frozen. * @stable ICU 4.8 */ @Override public boolean isFrozen() { return frozen; } private void preParse(String pattern) { if(isFrozen()) { throw new UnsupportedOperationException( "Attempt to parse("+prefix(pattern)+") on frozen MessagePattern instance."); } msg=pattern; hasArgNames=hasArgNumbers=false; needsAutoQuoting=false; parts.clear(); if(numericValues!=null) { numericValues.clear(); } } private void postParse() { // Nothing to be done currently. } private int parseMessage(int index, int msgStartLength, int nestingLevel, ArgType parentType) { if(nestingLevel>Part.MAX_VALUE) { throw new IndexOutOfBoundsException(); } int msgStart=parts.size(); addPart(Part.Type.MSG_START, index, msgStartLength, nestingLevel); index+=msgStartLength; while(index=0) { if((index+1)0 && c=='}') || (parentType==ArgType.CHOICE && c=='|')) { // Finish the message before the terminator. // In a choice style, report the "}" substring only for the following ARG_LIMIT, // not for this MSG_LIMIT. int limitLength=(parentType==ArgType.CHOICE && c=='}') ? 0 : 1; addLimitPart(msgStart, Part.Type.MSG_LIMIT, index-1, limitLength, nestingLevel); if(parentType==ArgType.CHOICE) { // Let the choice style parser see the '}' or '|'. return index-1; } else { // continue parsing after the '}' return index; } } // else: c is part of literal text } if(nestingLevel>0 && !inTopLevelChoiceMessage(nestingLevel, parentType)) { throw new IllegalArgumentException( "Unmatched '{' braces in message "+prefix()); } addLimitPart(msgStart, Part.Type.MSG_LIMIT, index, 0, nestingLevel); return index; } private int parseArg(int index, int argStartLength, int nestingLevel) { int argStart=parts.size(); ArgType argType=ArgType.NONE; addPart(Part.Type.ARG_START, index, argStartLength, argType.ordinal()); int nameIndex=index=skipWhiteSpace(index+argStartLength); if(index==msg.length()) { throw new IllegalArgumentException( "Unmatched '{' braces in message "+prefix()); } // parse argument name or number index=skipIdentifier(index); int number=parseArgNumber(nameIndex, index); if(number>=0) { int length=index-nameIndex; if(length>Part.MAX_LENGTH || number>Part.MAX_VALUE) { throw new IndexOutOfBoundsException( "Argument number too large: "+prefix(nameIndex)); } hasArgNumbers=true; addPart(Part.Type.ARG_NUMBER, nameIndex, length, number); } else if(number==ARG_NAME_NOT_NUMBER) { int length=index-nameIndex; if(length>Part.MAX_LENGTH) { throw new IndexOutOfBoundsException( "Argument name too long: "+prefix(nameIndex)); } hasArgNames=true; addPart(Part.Type.ARG_NAME, nameIndex, length, 0); } else { // number<-1 (ARG_NAME_NOT_VALID) throw new IllegalArgumentException("Bad argument syntax: "+prefix(nameIndex)); } index=skipWhiteSpace(index); if(index==msg.length()) { throw new IllegalArgumentException( "Unmatched '{' braces in message "+prefix()); } char c=msg.charAt(index); if(c=='}') { // all done } else if(c!=',') { throw new IllegalArgumentException("Bad argument syntax: "+prefix(nameIndex)); } else /* ',' */ { // parse argument type: case-sensitive a-zA-Z int typeIndex=index=skipWhiteSpace(index+1); while(indexPart.MAX_LENGTH) { throw new IndexOutOfBoundsException( "Argument type name too long: "+prefix(nameIndex)); } argType=ArgType.SIMPLE; if(length==6) { // case-insensitive comparisons for complex-type names if(isChoice(typeIndex)) { argType=ArgType.CHOICE; } else if(isPlural(typeIndex)) { argType=ArgType.PLURAL; } else if(isSelect(typeIndex)) { argType=ArgType.SELECT; } } else if(length==13) { if(isSelect(typeIndex) && isOrdinal(typeIndex+6)) { argType=ArgType.SELECTORDINAL; } } // change the ARG_START type from NONE to argType parts.get(argStart).value=(short)argType.ordinal(); if(argType==ArgType.SIMPLE) { addPart(Part.Type.ARG_TYPE, typeIndex, length, 0); } // look for an argument style (pattern) if(c=='}') { if(argType!=ArgType.SIMPLE) { throw new IllegalArgumentException( "No style field for complex argument: "+prefix(nameIndex)); } } else /* ',' */ { ++index; if(argType==ArgType.SIMPLE) { index=parseSimpleStyle(index); } else if(argType==ArgType.CHOICE) { index=parseChoiceStyle(index, nestingLevel); } else { index=parsePluralOrSelectStyle(argType, index, nestingLevel); } } } // Argument parsing stopped on the '}'. addLimitPart(argStart, Part.Type.ARG_LIMIT, index, 1, argType.ordinal()); return index+1; } private int parseSimpleStyle(int index) { int start=index; int nestedBraces=0; while(index0) { --nestedBraces; } else { int length=--index-start; if(length>Part.MAX_LENGTH) { throw new IndexOutOfBoundsException( "Argument style text too long: "+prefix(start)); } addPart(Part.Type.ARG_STYLE, start, length, 0); return index; } } // c is part of literal text } throw new IllegalArgumentException( "Unmatched '{' braces in message "+prefix()); } private int parseChoiceStyle(int index, int nestingLevel) { int start=index; index=skipWhiteSpace(index); if(index==msg.length() || msg.charAt(index)=='}') { throw new IllegalArgumentException( "Missing choice argument pattern in "+prefix()); } for(;;) { // The choice argument style contains |-separated (number, separator, message) triples. // Parse the number. int numberIndex=index; index=skipDouble(index); int length=index-numberIndex; if(length==0) { throw new IllegalArgumentException("Bad choice pattern syntax: "+prefix(start)); } if(length>Part.MAX_LENGTH) { throw new IndexOutOfBoundsException( "Choice number too long: "+prefix(numberIndex)); } parseDouble(numberIndex, index, true); // adds ARG_INT or ARG_DOUBLE // Parse the separator. index=skipWhiteSpace(index); if(index==msg.length()) { throw new IllegalArgumentException("Bad choice pattern syntax: "+prefix(start)); } char c=msg.charAt(index); if(!(c=='#' || c=='<' || c=='\u2264')) { // U+2264 is <= throw new IllegalArgumentException( "Expected choice separator (#<\u2264) instead of '"+c+ "' in choice pattern "+prefix(start)); } addPart(Part.Type.ARG_SELECTOR, index, 1, 0); // Parse the message fragment. index=parseMessage(++index, 0, nestingLevel+1, ArgType.CHOICE); // parseMessage(..., CHOICE) returns the index of the terminator, or msg.length(). if(index==msg.length()) { return index; } if(msg.charAt(index)=='}') { if(!inMessageFormatPattern(nestingLevel)) { throw new IllegalArgumentException( "Bad choice pattern syntax: "+prefix(start)); } return index; } // else the terminator is '|' index=skipWhiteSpace(index+1); } } private int parsePluralOrSelectStyle(ArgType argType, int index, int nestingLevel) { int start=index; boolean isEmpty=true; boolean hasOther=false; for(;;) { // First, collect the selector looking for a small set of terminators. // It would be a little faster to consider the syntax of each possible // token right here, but that makes the code too complicated. index=skipWhiteSpace(index); boolean eos=index==msg.length(); if(eos || msg.charAt(index)=='}') { if(eos==inMessageFormatPattern(nestingLevel)) { throw new IllegalArgumentException( "Bad "+ argType.toString().toLowerCase(Locale.ENGLISH)+ " pattern syntax: "+prefix(start)); } if(!hasOther) { throw new IllegalArgumentException( "Missing 'other' keyword in "+ argType.toString().toLowerCase(Locale.ENGLISH)+ " pattern in "+prefix()); } return index; } int selectorIndex=index; if(argType.hasPluralStyle() && msg.charAt(selectorIndex)=='=') { // explicit-value plural selector: =double index=skipDouble(index+1); int length=index-selectorIndex; if(length==1) { throw new IllegalArgumentException( "Bad "+ argType.toString().toLowerCase(Locale.ENGLISH)+ " pattern syntax: "+prefix(start)); } if(length>Part.MAX_LENGTH) { throw new IndexOutOfBoundsException( "Argument selector too long: "+prefix(selectorIndex)); } addPart(Part.Type.ARG_SELECTOR, selectorIndex, length, 0); parseDouble(selectorIndex+1, index, false); // adds ARG_INT or ARG_DOUBLE } else { index=skipIdentifier(index); int length=index-selectorIndex; if(length==0) { throw new IllegalArgumentException( "Bad "+ argType.toString().toLowerCase(Locale.ENGLISH)+ " pattern syntax: "+prefix(start)); } // Note: The ':' in "offset:" is just beyond the skipIdentifier() range. if( argType.hasPluralStyle() && length==6 && indexPart.MAX_LENGTH) { throw new IndexOutOfBoundsException( "Plural offset value too long: "+prefix(valueIndex)); } parseDouble(valueIndex, index, false); // adds ARG_INT or ARG_DOUBLE isEmpty=false; continue; // no message fragment after the offset } else { // normal selector word if(length>Part.MAX_LENGTH) { throw new IndexOutOfBoundsException( "Argument selector too long: "+prefix(selectorIndex)); } addPart(Part.Type.ARG_SELECTOR, selectorIndex, length, 0); if(msg.regionMatches(selectorIndex, "other", 0, length)) { hasOther=true; } } } // parse the message fragment following the selector index=skipWhiteSpace(index); if(index==msg.length() || msg.charAt(index)!='{') { throw new IllegalArgumentException( "No message fragment after "+ argType.toString().toLowerCase(Locale.ENGLISH)+ " selector: "+prefix(selectorIndex)); } index=parseMessage(index, 1, nestingLevel+1, argType); isEmpty=false; } } /** * Validates and parses an argument name or argument number string. * This internal method assumes that the input substring is a "pattern identifier". * @return >=0 if the name is a valid number, * ARG_NAME_NOT_NUMBER (-1) if it is a "pattern identifier" but not all ASCII digits, * ARG_NAME_NOT_VALID (-2) if it is neither. * @see #validateArgumentName(String) */ private static int parseArgNumber(CharSequence s, int start, int limit) { // If the identifier contains only ASCII digits, then it is an argument _number_ // and must not have leading zeros (except "0" itself). // Otherwise it is an argument _name_. if(start>=limit) { return ARG_NAME_NOT_VALID; } int number; // Defer numeric errors until we know there are only digits. boolean badNumber; char c=s.charAt(start++); if(c=='0') { if(start==limit) { return 0; } else { number=0; badNumber=true; // leading zero } } else if('1'<=c && c<='9') { number=c-'0'; badNumber=false; } else { return ARG_NAME_NOT_NUMBER; } while(start=Integer.MAX_VALUE/10) { badNumber=true; // overflow } number=number*10+(c-'0'); } else { return ARG_NAME_NOT_NUMBER; } } // There are only ASCII digits. if(badNumber) { return ARG_NAME_NOT_VALID; } else { return number; } } private int parseArgNumber(int start, int limit) { return parseArgNumber(msg, start, limit); } /** * Parses a number from the specified message substring. * @param start start index into the message string * @param limit limit index into the message string, must be start(Part.MAX_VALUE+isNegative)) { break; // not a small-enough integer } if(index==limit) { addPart(Part.Type.ARG_INT, start, limit-start, isNegative!=0 ? -value : value); return; } c=msg.charAt(index++); } // Let Double.parseDouble() throw a NumberFormatException. double numericValue=Double.parseDouble(msg.substring(start, limit)); addArgDoublePart(numericValue, start, limit-start); return; } throw new NumberFormatException( "Bad syntax for numeric value: "+msg.substring(start, limit)); } /** * Appends the s[start, limit[ substring to sb, but with only half of the apostrophes * according to JDK pattern behavior. * @internal */ /* package */ static void appendReducedApostrophes(String s, int start, int limit, StringBuilder sb) { int doubleApos=-1; for(;;) { int i=s.indexOf('\'', start); if(i<0 || i>=limit) { sb.append(s, start, limit); break; } if(i==doubleApos) { // Double apostrophe at start-1 and start==i, append one. sb.append('\''); ++start; doubleApos=-1; } else { // Append text between apostrophes and skip this one. sb.append(s, start, i); doubleApos=start=i+1; } } } private int skipWhiteSpace(int index) { return PatternProps.skipWhiteSpace(msg, index); } private int skipIdentifier(int index) { return PatternProps.skipIdentifier(msg, index); } /** * Skips a sequence of characters that could occur in a double value. * Does not fully parse or validate the value. */ private int skipDouble(int index) { while(index'9' && c!='e' && c!='E' && c!=0x221e)) { break; } ++index; } return index; } private static boolean isArgTypeChar(int c) { return ('a'<=c && c<='z') || ('A'<=c && c<='Z'); } private boolean isChoice(int index) { char c; return ((c=msg.charAt(index++))=='c' || c=='C') && ((c=msg.charAt(index++))=='h' || c=='H') && ((c=msg.charAt(index++))=='o' || c=='O') && ((c=msg.charAt(index++))=='i' || c=='I') && ((c=msg.charAt(index++))=='c' || c=='C') && ((c=msg.charAt(index))=='e' || c=='E'); } private boolean isPlural(int index) { char c; return ((c=msg.charAt(index++))=='p' || c=='P') && ((c=msg.charAt(index++))=='l' || c=='L') && ((c=msg.charAt(index++))=='u' || c=='U') && ((c=msg.charAt(index++))=='r' || c=='R') && ((c=msg.charAt(index++))=='a' || c=='A') && ((c=msg.charAt(index))=='l' || c=='L'); } private boolean isSelect(int index) { char c; return ((c=msg.charAt(index++))=='s' || c=='S') && ((c=msg.charAt(index++))=='e' || c=='E') && ((c=msg.charAt(index++))=='l' || c=='L') && ((c=msg.charAt(index++))=='e' || c=='E') && ((c=msg.charAt(index++))=='c' || c=='C') && ((c=msg.charAt(index))=='t' || c=='T'); } private boolean isOrdinal(int index) { char c; return ((c=msg.charAt(index++))=='o' || c=='O') && ((c=msg.charAt(index++))=='r' || c=='R') && ((c=msg.charAt(index++))=='d' || c=='D') && ((c=msg.charAt(index++))=='i' || c=='I') && ((c=msg.charAt(index++))=='n' || c=='N') && ((c=msg.charAt(index++))=='a' || c=='A') && ((c=msg.charAt(index))=='l' || c=='L'); } /** * @return true if we are inside a MessageFormat (sub-)pattern, * as opposed to inside a top-level choice/plural/select pattern. */ private boolean inMessageFormatPattern(int nestingLevel) { return nestingLevel>0 || parts.get(0).type==Part.Type.MSG_START; } /** * @return true if we are in a MessageFormat sub-pattern * of a top-level ChoiceFormat pattern. */ private boolean inTopLevelChoiceMessage(int nestingLevel, ArgType parentType) { return nestingLevel==1 && parentType==ArgType.CHOICE && parts.get(0).type!=Part.Type.MSG_START; } private void addPart(Part.Type type, int index, int length, int value) { parts.add(new Part(type, index, length, value)); } private void addLimitPart(int start, Part.Type type, int index, int length, int value) { parts.get(start).limitPartIndex=parts.size(); addPart(type, index, length, value); } private void addArgDoublePart(double numericValue, int start, int length) { int numericIndex; if(numericValues==null) { numericValues=new ArrayList(); numericIndex=0; } else { numericIndex=numericValues.size(); if(numericIndex>Part.MAX_VALUE) { throw new IndexOutOfBoundsException("Too many numeric values"); } } numericValues.add(numericValue); addPart(Part.Type.ARG_DOUBLE, start, length, numericIndex); } private static final int MAX_PREFIX_LENGTH=24; /** * Returns a prefix of s.substring(start). Used for Exception messages. * @param s * @param start start index in s * @return s.substring(start) or a prefix of that */ private static String prefix(String s, int start) { StringBuilder prefix=new StringBuilder(MAX_PREFIX_LENGTH+20); if(start==0) { prefix.append("\""); } else { prefix.append("[at pattern index ").append(start).append("] \""); } int substringLength=s.length()-start; if(substringLength<=MAX_PREFIX_LENGTH) { prefix.append(start==0 ? s : s.substring(start)); } else { int limit=start+MAX_PREFIX_LENGTH-4; if(Character.isHighSurrogate(s.charAt(limit-1))) { // remove lead surrogate from the end of the prefix --limit; } prefix.append(s, start, limit).append(" ..."); } return prefix.append("\"").toString(); } private static String prefix(String s) { return prefix(s, 0); } private String prefix(int start) { return prefix(msg, start); } private String prefix() { return prefix(msg, 0); } private ApostropheMode aposMode; private String msg; private ArrayList parts=new ArrayList(); private ArrayList numericValues; private boolean hasArgNames; private boolean hasArgNumbers; private boolean needsAutoQuoting; private volatile boolean frozen; private static final ApostropheMode defaultAposMode= ApostropheMode.valueOf( ICUConfig.get("com.ibm.icu.text.MessagePattern.ApostropheMode", "DOUBLE_OPTIONAL")); private static final ArgType[] argTypes=ArgType.values(); }





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