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/ *
The contents of this file are subject to the THDL Open Community License
Version 1 . 0 ( the " License " ) ; you may not use this file except in compliance
with the License . You may obtain a copy of the License on the THDL web site
( http : //www.thdl.org/).
Software distributed under the License is distributed on an " AS IS " basis ,
WITHOUT WARRANTY OF ANY KIND , either express or implied . See the
License for the specific terms governing rights and limitations under the
License .
The Initial Developer of this software is the Tibetan and Himalayan Digital
Library ( THDL ) . Portions created by the THDL are Copyright 2003 THDL .
All Rights Reserved .
Contributor ( s ) : ______________________________________ .
* /
package org.thdl.tib.text.ttt ;
import java.util.ArrayList ;
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/ * * A list of non - empty list of { @link TStackListList
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* TStackListLists } representing all the ways you could break up a
* tsheg bar of ACIP into stacks ( i . e . , grapheme clusters ) .
*
* @author David Chandler * /
class TParseTree {
/** a fast, non-thread-safe, random-access list implementation: */
private ArrayList al = new ArrayList ( ) ;
/** Creates an empty list. */
public TParseTree ( ) { }
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/** Returns the ith list of stack lists in this parse tree. */
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public TStackListList get ( int i ) { return ( TStackListList ) al . get ( i ) ; }
/** Adds p to the end of this list. */
public void add ( TStackListList p )
throws IllegalArgumentException
{
if ( p . isEmpty ( ) )
throw new IllegalArgumentException ( " p is empty " ) ;
al . add ( p ) ;
}
/ * * Returns the number of TStackListLists in this list . See
* also { @link # numberOfParses ( ) } , which gives a different
* interpretation of the size of this tree . * /
public int size ( ) { return al . size ( ) ; }
/ * * Returns the number of different parses one could make from
* this parse tree . Returns zero if this list is empty . * /
public int numberOfParses ( ) {
if ( al . isEmpty ( ) ) return 0 ;
int k = 1 ;
int sz = size ( ) ;
for ( int i = 0 ; i < sz ; i + + ) {
k * = get ( i ) . size ( ) ;
}
return k ;
}
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/ * * Returns the number of { @link TPair pairs } that are in a
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* parse of this tree . * /
public int numberOfPairs ( ) {
if ( al . isEmpty ( ) ) return 0 ;
int k = 1 ;
int sz = size ( ) ;
for ( int i = 0 ; i < sz ; i + + ) {
// get(i).get(0) is the same size as get(i).get(1),
// get(i).get(2), ...
k + = get ( i ) . get ( 0 ) . size ( ) ;
}
return k ;
}
/ * * Returns an iterator that will iterate over the { @link
* # numberOfParses } available . * /
public ParseIterator getParseIterator ( ) {
return new ParseIterator ( al ) ;
}
/ * * Returns a list containing the legal parses of this parse tree .
* By & quot ; legal & quot ; , we mean a sequence of stacks that is
* legal by the rules of Tibetan tsheg bar syntax ( sometimes
* called spelling ) . This will return the { G - YA } parse of { GYA }
* as well as the { GYA } parse , so watch yourself . * /
public TStackListList getLegalParses ( ) {
TStackListList sll = new TStackListList ( 2 ) ; // save memory
ParseIterator pi = getParseIterator ( ) ;
while ( pi . hasNext ( ) ) {
TStackList sl = pi . next ( ) ;
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if ( sl . isLegalTshegBar ( false ) . isLegal ) {
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sll . add ( sl ) ;
}
}
return sll ;
}
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/ * * Returns a list ( never null ) containing the parses of this
* parse tree that are not clearly illegal . * /
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public TStackListList getNonIllegalParses ( ) {
TStackListList sll = new TStackListList ( 2 ) ; // save memory
ParseIterator pi = getParseIterator ( ) ;
while ( pi . hasNext ( ) ) {
TStackList sl = pi . next ( ) ;
if ( ! sl . isClearlyIllegal ( ) ) {
sll . add ( sl ) ;
}
}
return sll ;
}
/ * * Returns the best parse , if there is a unique parse that is
* clearly preferred to other parses . Basically , if there ' s a
* unique legal parse , you get it . If there ' s not , but there is
* a unique non - illegal parse , you get it . If there ' s not a
* unique answer , null is returned . * /
// {TZANDRA} is not solved by this, DLC NOW. Solve PADMA PROBLEM!
// DLC by using this we can get rid of single-sanskrit-gc, eh?
public TStackList getBestParse ( ) {
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TStackListList up = getUniqueParse ( false ) ;
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if ( up . size ( ) = = 1 )
return up . get ( 0 ) ;
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up = getNonIllegalParses ( ) ;
int sz = up . size ( ) ;
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if ( sz = = 1 ) {
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return up . get ( 0 ) ;
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} else if ( sz > 1 ) {
// {PADMA}, for example. Our technique is to go from the
// left and stack as much as we can. So {PA}{D}{MA} is
// inferior to {PA}{D+MA}, and {PA}{D+MA}{D}{MA} is
// inferior to {PA}{D+MA}{D+MA}. We do not look for the
// minimum number of glyphs, though -- {PA}{N+D}{B+H+R}
// and {PA}{N}{D+B+H+R} tie by that score, but the former
// is the clear winner.
// We give a warning about these, optionally, so that
// users can produce output that even a dumb ACIP reader
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// can understand. See getWarning("All", ..).
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// if j is in this list, then up.get(j) is still a
// potential winner.
ArrayList candidates = new ArrayList ( sz ) ;
for ( int i = 0 ; i < sz ; i + + )
candidates . add ( new Integer ( i ) ) ;
boolean keepGoing = true ;
int stackNumber = 0 ;
boolean someoneHasThisStack = true ;
while ( someoneHasThisStack & & candidates . size ( ) > 1 ) {
// maybe none of the candidates have stackNumber+1
// stacks. If none do, we'll quit.
someoneHasThisStack = false ;
int maxGlyphsInThisStack = 0 ;
for ( int k = 0 ; k < candidates . size ( ) ; k + + ) {
TStackList sl = up . get ( ( ( Integer ) candidates . get ( k ) ) . intValue ( ) ) ;
if ( sl . size ( ) > stackNumber ) {
int ng ;
if ( ( ng = sl . get ( stackNumber ) . size ( ) ) > maxGlyphsInThisStack )
maxGlyphsInThisStack = ng ;
someoneHasThisStack = true ;
}
}
// Remove all candidates that aren't keeping up.
if ( someoneHasThisStack ) {
for ( int k = 0 ; k < candidates . size ( ) ; k + + ) {
TStackList sl = up . get ( ( ( Integer ) candidates . get ( k ) ) . intValue ( ) ) ;
if ( sl . size ( ) > stackNumber ) {
if ( sl . get ( stackNumber ) . size ( ) ! = maxGlyphsInThisStack )
candidates . remove ( k - - ) ;
} else throw new Error ( " impossible! " ) ;
}
}
+ + stackNumber ;
}
if ( candidates . size ( ) = = 1 )
return up . get ( ( ( Integer ) candidates . get ( 0 ) ) . intValue ( ) ) ;
else
return null ;
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}
return null ;
}
/ * * Returns a list containing the unique legal parse of this parse
* tree if there is a unique legal parse . Note that { SRAS } has a
* unique legal parse , though { SRS } has two equally good parses ;
* i . e . , note that the { A } vowel is treated specially here
* ( unlike in { @link # getLegalParses ( ) } ) . Returns an empty list
* if there are no legal parses . Returns a list containing all
* legal parses if there two or more equally good parses . By
* & quot ; legal & quot ; , we mean a sequence of stacks that is legal
* by the rules of Tibetan tsheg bar syntax ( sometimes called
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* spelling ) .
* @param noPrefixTests true if you want to pretend that every
* stack can take every prefix , which is not the case in
* reality * /
public TStackListList getUniqueParse ( boolean noPrefixTests ) {
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// For Sanskrit+Tibetan:
TStackListList allNonillegalParses = new TStackListList ( 2 ) ; // save memory
// For Tibetan only:
TStackListList allStrictlyLegalParses = new TStackListList ( 2 ) ; // save memory
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TStackListList legalParsesWithVowelOnRoot = new TStackListList ( 1 ) ;
ParseIterator pi = getParseIterator ( ) ;
while ( pi . hasNext ( ) ) {
TStackList sl = pi . next ( ) ;
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BoolTriple bt = sl . isLegalTshegBar ( noPrefixTests ) ;
if ( bt . isLegal ) {
if ( bt . isLegalAndHasAVowelOnRoot )
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legalParsesWithVowelOnRoot . add ( sl ) ;
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if ( ! bt . isLegalButSanskrit )
allStrictlyLegalParses . add ( sl ) ;
allNonillegalParses . add ( sl ) ;
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}
}
if ( legalParsesWithVowelOnRoot . size ( ) = = 1 )
return legalParsesWithVowelOnRoot ;
else {
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if ( allStrictlyLegalParses . size ( ) = = 1 )
return allStrictlyLegalParses ;
if ( allStrictlyLegalParses . size ( ) > 2 )
throw new Error ( " can this happen? " ) ;
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if ( legalParsesWithVowelOnRoot . size ( ) = = 2 ) {
if ( legalParsesWithVowelOnRoot . get ( 0 ) . size ( ) ! = 1 + legalParsesWithVowelOnRoot . get ( 1 ) . size ( ) )
throw new Error ( " Something other than the G-YA vs. GYA case appeared. Sorry for your trouble! " + legalParsesWithVowelOnRoot . get ( 0 ) + " ;; " + legalParsesWithVowelOnRoot . get ( 1 ) ) ;
return new TStackListList ( legalParsesWithVowelOnRoot . get ( 1 ) ) ;
}
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if ( allNonillegalParses . size ( ) = = 2 ) {
if ( allNonillegalParses . get ( 0 ) . size ( ) ! = 1 + allNonillegalParses . get ( 1 ) . size ( ) )
throw new Error ( " Something other than the G-YA vs. GYA case appeared. Sorry for your trouble! " + allNonillegalParses . get ( 0 ) + " ;; " + allNonillegalParses . get ( 1 ) ) ;
return new TStackListList ( allNonillegalParses . get ( 1 ) ) ;
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}
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return allNonillegalParses ;
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}
}
/** Returns a human-readable representation. */
public String toString ( ) {
return al . toString ( ) ;
}
/ * * Returns true if and only if either x is an TParseTree
* object representing the same TPairLists in the same order
* or x is a String that is equals to the result of { @link
* # toString ( ) } . * /
public boolean equals ( Object x ) {
if ( x instanceof TParseTree ) {
return al . equals ( ( ( TParseTree ) x ) . al ) ;
} else if ( x instanceof String ) {
return toString ( ) . equals ( x ) ;
}
return false ;
}
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/ * * Returns null if this parse tree is perfectly legal and valid .
* Returns a warning for users otherwise . If and only if
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* warningLevel is " All " , then even unambiguous ACIP like PADMA ,
* which could be improved by being written as PAD + MA , will cause
* a warning .
* @param warningLevel " All " if you ' re paranoid , " Most " to see
* warnings about lacking vowels on final stacks , " Some " to see
* warnings about lacking vowels on non - final stacks and also
* warnings about when prefix rules affect you , " None " if you
* like to see IllegalArgumentExceptions .
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* @param pl the pair list from which this parse tree originated
* @param originalACIP the original ACIP , or null if you want
* this parse tree to make a best guess . * /
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public String getWarning ( String warningLevel ,
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TPairList pl ,
String originalACIP ) {
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if ( warningLevel ! = " Some "
& & warningLevel ! = " Most "
& & warningLevel ! = " All " )
throw new IllegalArgumentException ( " warning level bad: is it interned? " ) ;
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{
TStackList bestParse = getBestParse ( ) ;
TStackListList noPrefixTestsUniqueParse = getUniqueParse ( true ) ;
if ( noPrefixTestsUniqueParse . size ( ) = = 1
& & ! noPrefixTestsUniqueParse . get ( 0 ) . equals ( bestParse ) ) {
return " Warning: We're going with " + bestParse + " , but only because our knowledge of prefix rules says that " + noPrefixTestsUniqueParse . get ( 0 ) + " is not a legal Tibetan tsheg bar ( \" syllable \" ) " ;
}
}
TStackListList up = getUniqueParse ( false ) ;
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if ( null = = up | | up . size ( ) ! = 1 ) {
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// DLC FIXME: code duplication
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boolean isLastStack [ ] = new boolean [ 1 ] ;
TStackListList nip = getNonIllegalParses ( ) ;
if ( nip . size ( ) ! = 1 ) {
if ( null = = getBestParse ( ) ) {
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return " Warning: There's not even a unique, non-illegal parse for ACIP { " + ( ( null ! = originalACIP ) ? originalACIP : recoverACIP ( ) ) + " } " ;
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} else {
if ( getBestParse ( ) . hasStackWithoutVowel ( pl , isLastStack ) ) {
if ( isLastStack [ 0 ] ) {
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if ( warningLevel = = " All " | | warningLevel = = " Most " )
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return " Warning: The last stack does not have a vowel in the ACIP { " + ( ( null ! = originalACIP ) ? originalACIP : recoverACIP ( ) ) + " }; this may indicate a typo, because Sanskrit, which this is (because it's not legal Tibetan), should have a vowel after each stack. " ;
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} else {
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return " Warning: There is a stack, before the last stack, without a vowel in the ACIP { " + ( ( null ! = originalACIP ) ? originalACIP : recoverACIP ( ) ) + " }; this may indicate a typo, because Sanskrit, which this is (because it's not legal Tibetan), should have a vowel after each stack. " ;
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}
}
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if ( " All " = = warningLevel ) {
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return " Warning: Though the ACIP { " + ( ( null ! = originalACIP ) ? originalACIP : recoverACIP ( ) ) + " } is unambiguous, it would be more computer-friendly if + signs were used to stack things because there are two (or more) ways to interpret this ACIP if you're not careful. " ;
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}
}
} else {
if ( nip . get ( 0 ) . hasStackWithoutVowel ( pl , isLastStack ) ) {
if ( isLastStack [ 0 ] ) {
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if ( warningLevel = = " All " | | warningLevel = = " Most " )
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return " Warning: The last stack does not have a vowel in the ACIP { " + ( ( null ! = originalACIP ) ? originalACIP : recoverACIP ( ) ) + " }; this may indicate a typo, because Sanskrit, which this is (because it's not legal Tibetan), should have a vowel after each stack. " ;
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} else {
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return " Warning: There is a stack, before the last stack, without a vowel in the ACIP { " + ( ( null ! = originalACIP ) ? originalACIP : recoverACIP ( ) ) + " }; this may indicate a typo, because Sanskrit, which this is (because it's not legal Tibetan), should have a vowel after each stack. " ;
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}
}
}
}
return null ;
}
/ * * Returns something akin to the ACIP input ( okay , maybe 1 - 2 - 3 - 4
* instead of 1234 , and maybe AUTPA instead of AUT - PA )
* corresponding to this parse tree . * /
public String recoverACIP ( ) {
ParseIterator pi = getParseIterator ( ) ;
if ( pi . hasNext ( ) ) {
return pi . next ( ) . recoverACIP ( ) ;
}
return null ;
}
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/ * * Returns a hashCode appropriate for use with our { @link
* # equals ( Object ) } method . * /
public int hashCode ( ) { return al . hashCode ( ) ; }
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/** Returns true if and only if this parse tree is empty. */
public boolean isEmpty ( ) { return al . isEmpty ( ) ; }
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}