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/********************************************************************
* COPYRIGHT :
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* Copyright ( c ) 1999 - 2005 , International Business Machines Corporation and
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* others . All Rights Reserved .
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/************************************************************************
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* Date Name Description
* 12 / 14 / 99 Madhu Creation .
* 01 / 12 / 2000 Madhu updated for changed API
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# include "unicode/utypes.h"
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# if !UCONFIG_NO_BREAK_ITERATION
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# include "unicode/uchar.h"
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# include "intltest.h"
# include "unicode/rbbi.h"
# include "unicode/schriter.h"
# include "rbbiapts.h"
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# include "rbbidata.h"
# include "cstring.h"
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# include "unicode/ustring.h"
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# include "unicode/utext.h"
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/**
* API Test the RuleBasedBreakIterator class
*/
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# define TEST_ASSERT_SUCCESS(status) {if (U_FAILURE(status)) {\
errln ( " Failure at file %s, line %d, error = %s " , __FILE__ , __LINE__ , u_errorName ( status ) ) ; } }
# define TEST_ASSERT(expr) {if ((expr)==FALSE) { \
errln ( " Test Failure at file %s, line %d " , __FILE__ , __LINE__ ) ; } }
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void RBBIAPITest : : TestCloneEquals ( )
{
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UErrorCode status = U_ZERO_ERROR ;
RuleBasedBreakIterator * bi1 = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createCharacterInstance ( Locale : : getDefault ( ) , status ) ;
RuleBasedBreakIterator * biequal = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createCharacterInstance ( Locale : : getDefault ( ) , status ) ;
RuleBasedBreakIterator * bi3 = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createCharacterInstance ( Locale : : getDefault ( ) , status ) ;
RuleBasedBreakIterator * bi2 = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createWordInstance ( Locale : : getDefault ( ) , status ) ;
if ( U_FAILURE ( status ) ) {
errln ( ( UnicodeString ) " FAIL : in construction " ) ;
return ;
}
UnicodeString testString = " Testing word break iterators's clone() and equals() " ;
bi1 - > setText ( testString ) ;
bi2 - > setText ( testString ) ;
biequal - > setText ( testString ) ;
bi3 - > setText ( " hello " ) ;
logln ( ( UnicodeString ) " Testing equals() " ) ;
logln ( ( UnicodeString ) " Testing == and != " ) ;
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UBool b = ( * bi1 ! = * biequal ) ;
b | = * bi1 = = * bi2 ;
b | = * bi1 = = * bi3 ;
if ( b ) {
errln ( ( UnicodeString ) " ERROR:1 RBBI's == and != operator failed. " ) ;
}
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if ( * bi2 = = * biequal | | * bi2 = = * bi1 | | * biequal = = * bi3 )
errln ( ( UnicodeString ) " ERROR:2 RBBI's == and != operator failed. " ) ;
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// Quick test of RulesBasedBreakIterator assignment -
// Check that
// two different iterators are !=
// they are == after assignment
// source and dest iterator produce the same next() after assignment.
// deleting one doesn't disable the other.
logln ( " Testing assignment " ) ;
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RuleBasedBreakIterator * bix = ( RuleBasedBreakIterator * ) BreakIterator : : createLineInstance ( Locale : : getDefault ( ) , status ) ;
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if ( U_FAILURE ( status ) ) {
errln ( ( UnicodeString ) " FAIL : in construction " ) ;
return ;
}
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RuleBasedBreakIterator biDefault , biDefault2 ;
if ( U_FAILURE ( status ) ) {
errln ( ( UnicodeString ) " FAIL : in construction of default iterator " ) ;
return ;
}
if ( biDefault = = * bix ) {
errln ( ( UnicodeString ) " ERROR: iterators should not compare == " ) ;
return ;
}
if ( biDefault ! = biDefault2 ) {
errln ( ( UnicodeString ) " ERROR: iterators should compare == " ) ;
return ;
}
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UnicodeString HelloString ( " Hello Kitty " ) ;
bix - > setText ( HelloString ) ;
if ( * bix = = * bi2 ) {
errln ( UnicodeString ( " ERROR: strings should not be equal before assignment. " ) ) ;
}
* bix = * bi2 ;
if ( * bix ! = * bi2 ) {
errln ( UnicodeString ( " ERROR: strings should be equal before assignment. " ) ) ;
}
int bixnext = bix - > next ( ) ;
int bi2next = bi2 - > next ( ) ;
if ( ! ( bixnext = = bi2next & & bixnext = = 7 ) ) {
errln ( UnicodeString ( " ERROR: iterators behaved differently after assignment. " ) ) ;
}
delete bix ;
if ( bi2 - > next ( ) ! = 8 ) {
errln ( UnicodeString ( " ERROR: iterator.next() failed after deleting copy. " ) ) ;
}
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logln ( ( UnicodeString ) " Testing clone() " ) ;
RuleBasedBreakIterator * bi1clone = ( RuleBasedBreakIterator * ) bi1 - > clone ( ) ;
RuleBasedBreakIterator * bi2clone = ( RuleBasedBreakIterator * ) bi2 - > clone ( ) ;
if ( * bi1clone ! = * bi1 | | * bi1clone ! = * biequal | |
* bi1clone = = * bi3 | | * bi1clone = = * bi2 )
errln ( ( UnicodeString ) " ERROR:1 RBBI's clone() method failed " ) ;
if ( * bi2clone = = * bi1 | | * bi2clone = = * biequal | |
* bi2clone = = * bi3 | | * bi2clone ! = * bi2 )
errln ( ( UnicodeString ) " ERROR:2 RBBI's clone() method failed " ) ;
if ( bi1 - > getText ( ) ! = bi1clone - > getText ( ) | |
bi2clone - > getText ( ) ! = bi2 - > getText ( ) | |
* bi2clone = = * bi1clone )
errln ( ( UnicodeString ) " ERROR: RBBI's clone() method failed " ) ;
delete bi1clone ;
delete bi2clone ;
delete bi1 ;
delete bi3 ;
delete bi2 ;
delete biequal ;
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}
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void RBBIAPITest : : TestBoilerPlate ( )
{
UErrorCode status = U_ZERO_ERROR ;
BreakIterator * a = BreakIterator : : createLineInstance ( Locale ( " hi " ) , status ) ;
BreakIterator * b = BreakIterator : : createLineInstance ( Locale ( " hi_IN " ) , status ) ;
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if ( U_FAILURE ( status ) ) {
errln ( " Creation of break iterator failed %s " , u_errorName ( status ) ) ;
return ;
}
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if ( * a ! = * b ) {
errln ( " Failed: boilerplate method operator!= does not return correct results " ) ;
}
BreakIterator * c = BreakIterator : : createLineInstance ( Locale ( " th " ) , status ) ;
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if ( a & & c ) {
if ( * c = = * a ) {
errln ( " Failed: boilerplate method opertator== does not return correct results " ) ;
}
} else {
errln ( " creation of break iterator failed " ) ;
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}
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delete a ;
delete b ;
delete c ;
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}
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void RBBIAPITest : : TestgetRules ( )
{
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UErrorCode status = U_ZERO_ERROR ;
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RuleBasedBreakIterator * bi1 = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createCharacterInstance ( Locale : : getDefault ( ) , status ) ;
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RuleBasedBreakIterator * bi2 = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createWordInstance ( Locale : : getDefault ( ) , status ) ;
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if ( U_FAILURE ( status ) ) {
errln ( ( UnicodeString ) " FAIL: in construction " ) ;
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delete bi1 ;
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delete bi2 ;
return ;
}
logln ( ( UnicodeString ) " Testing toString() " ) ;
bi1 - > setText ( ( UnicodeString ) " Hello there " ) ;
RuleBasedBreakIterator * bi3 = ( RuleBasedBreakIterator * ) bi1 - > clone ( ) ;
UnicodeString temp = bi1 - > getRules ( ) ;
UnicodeString temp2 = bi2 - > getRules ( ) ;
UnicodeString temp3 = bi3 - > getRules ( ) ;
if ( temp2 . compare ( temp3 ) = = 0 | | temp . compare ( temp2 ) = = 0 | | temp . compare ( temp3 ) ! = 0 )
errln ( ( UnicodeString ) " ERROR: error in getRules() method " ) ;
delete bi1 ;
delete bi2 ;
delete bi3 ;
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}
void RBBIAPITest : : TestHashCode ( )
{
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UErrorCode status = U_ZERO_ERROR ;
RuleBasedBreakIterator * bi1 = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createCharacterInstance ( Locale : : getDefault ( ) , status ) ;
RuleBasedBreakIterator * bi3 = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createCharacterInstance ( Locale : : getDefault ( ) , status ) ;
RuleBasedBreakIterator * bi2 = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createWordInstance ( Locale : : getDefault ( ) , status ) ;
if ( U_FAILURE ( status ) ) {
errln ( ( UnicodeString ) " FAIL : in construction " ) ;
delete bi1 ;
delete bi2 ;
delete bi3 ;
return ;
}
logln ( ( UnicodeString ) " Testing hashCode() " ) ;
bi1 - > setText ( ( UnicodeString ) " Hash code " ) ;
bi2 - > setText ( ( UnicodeString ) " Hash code " ) ;
bi3 - > setText ( ( UnicodeString ) " Hash code " ) ;
RuleBasedBreakIterator * bi1clone = ( RuleBasedBreakIterator * ) bi1 - > clone ( ) ;
RuleBasedBreakIterator * bi2clone = ( RuleBasedBreakIterator * ) bi2 - > clone ( ) ;
if ( bi1 - > hashCode ( ) ! = bi1clone - > hashCode ( ) | | bi1 - > hashCode ( ) ! = bi3 - > hashCode ( ) | |
bi1clone - > hashCode ( ) ! = bi3 - > hashCode ( ) | | bi2 - > hashCode ( ) ! = bi2clone - > hashCode ( ) )
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errln ( ( UnicodeString ) " ERROR: identical objects have different hashcodes " ) ;
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if ( bi1 - > hashCode ( ) = = bi2 - > hashCode ( ) | | bi2 - > hashCode ( ) = = bi3 - > hashCode ( ) | |
bi1clone - > hashCode ( ) = = bi2clone - > hashCode ( ) | | bi1clone - > hashCode ( ) = = bi2 - > hashCode ( ) )
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errln ( ( UnicodeString ) " ERROR: different objects have same hashcodes " ) ;
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delete bi1clone ;
delete bi2clone ;
delete bi1 ;
delete bi2 ;
delete bi3 ;
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}
void RBBIAPITest : : TestGetSetAdoptText ( )
{
logln ( ( UnicodeString ) " Testing getText setText " ) ;
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UErrorCode status = U_ZERO_ERROR ;
UnicodeString str1 = " first string. " ;
UnicodeString str2 = " Second string. " ;
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RuleBasedBreakIterator * charIter1 = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createCharacterInstance ( Locale : : getDefault ( ) , status ) ;
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RuleBasedBreakIterator * wordIter1 = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createWordInstance ( Locale : : getDefault ( ) , status ) ;
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if ( U_FAILURE ( status ) ) {
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errln ( ( UnicodeString ) " FAIL : in construction " ) ;
return ;
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}
CharacterIterator * text1 = new StringCharacterIterator ( str1 ) ;
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CharacterIterator * text1Clone = text1 - > clone ( ) ;
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CharacterIterator * text2 = new StringCharacterIterator ( str2 ) ;
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CharacterIterator * text3 = new StringCharacterIterator ( str2 , 3 , 10 , 3 ) ; // "ond str"
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wordIter1 - > setText ( str1 ) ;
if ( wordIter1 - > getText ( ) ! = * text1 )
errln ( ( UnicodeString ) " ERROR:1 error in setText or getText " ) ;
if ( wordIter1 - > current ( ) ! = 0 )
errln ( ( UnicodeString ) " ERROR:1 setText did not set the iteration position to the beginning of the text, it is " + wordIter1 - > current ( ) + ( UnicodeString ) " \n " ) ;
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wordIter1 - > next ( 2 ) ;
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wordIter1 - > setText ( str2 ) ;
if ( wordIter1 - > current ( ) ! = 0 )
errln ( ( UnicodeString ) " ERROR:2 setText did not reset the iteration position to the beginning of the text, it is " + wordIter1 - > current ( ) + ( UnicodeString ) " \n " ) ;
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charIter1 - > adoptText ( text1Clone ) ;
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if ( wordIter1 - > getText ( ) = = charIter1 - > getText ( ) | |
wordIter1 - > getText ( ) ! = * text2 | | charIter1 - > getText ( ) ! = * text1 )
errln ( ( UnicodeString ) " ERROR:2 error is getText or setText() " ) ;
RuleBasedBreakIterator * rb = ( RuleBasedBreakIterator * ) wordIter1 - > clone ( ) ;
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rb - > adoptText ( text1 ) ;
if ( rb - > getText ( ) ! = * text1 )
errln ( ( UnicodeString ) " ERROR:1 error in adoptText " ) ;
rb - > adoptText ( text2 ) ;
if ( rb - > getText ( ) ! = * text2 )
errln ( ( UnicodeString ) " ERROR:2 error in adoptText " ) ;
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// Adopt where iterator range is less than the entire orignal source string.
rb - > adoptText ( text3 ) ;
if ( rb - > preceding ( 2 ) ! = 3 ) {
errln ( ( UnicodeString ) " ERROR:3 error in adoptText " ) ;
}
if ( rb - > following ( 11 ) ! = BreakIterator : : DONE ) {
errln ( ( UnicodeString ) " ERROR:4 error in adoptText " ) ;
}
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// UText API
//
// Quick test to see if UText is working at all.
//
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const char * s1 = " \x68 \x65 \x6C \x6C \x6F \x20 \x77 \x6F \x72 \x6C \x64 " ; /* "hello world" in UTF-8 */
const char * s2 = " \x73 \x65 \x65 \x20 \x79 \x61 " ; /* "see ya" in UTF-8 */
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// 012345678901
status = U_ZERO_ERROR ;
UText * ut = utext_openUTF8 ( NULL , s1 , - 1 , & status ) ;
wordIter1 - > setText ( ut , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
int32_t pos ;
pos = wordIter1 - > first ( ) ;
TEST_ASSERT ( pos = = 0 ) ;
pos = wordIter1 - > next ( ) ;
TEST_ASSERT ( pos = = 5 ) ;
pos = wordIter1 - > next ( ) ;
TEST_ASSERT ( pos = = 6 ) ;
pos = wordIter1 - > next ( ) ;
TEST_ASSERT ( pos = = 11 ) ;
pos = wordIter1 - > next ( ) ;
TEST_ASSERT ( pos = = UBRK_DONE ) ;
status = U_ZERO_ERROR ;
UText * ut2 = utext_openUTF8 ( NULL , s2 , - 1 , & status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
wordIter1 - > setText ( ut2 , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
pos = wordIter1 - > first ( ) ;
TEST_ASSERT ( pos = = 0 ) ;
pos = wordIter1 - > next ( ) ;
TEST_ASSERT ( pos = = 3 ) ;
pos = wordIter1 - > next ( ) ;
TEST_ASSERT ( pos = = 4 ) ;
pos = wordIter1 - > last ( ) ;
TEST_ASSERT ( pos = = 6 ) ;
pos = wordIter1 - > previous ( ) ;
TEST_ASSERT ( pos = = 4 ) ;
pos = wordIter1 - > previous ( ) ;
TEST_ASSERT ( pos = = 3 ) ;
pos = wordIter1 - > previous ( ) ;
TEST_ASSERT ( pos = = 0 ) ;
pos = wordIter1 - > previous ( ) ;
TEST_ASSERT ( pos = = UBRK_DONE ) ;
utext_close ( ut ) ;
utext_close ( ut2 ) ;
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delete wordIter1 ;
delete charIter1 ;
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delete rb ;
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}
void RBBIAPITest : : TestIteration ( )
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{
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// This test just verifies that the API is present.
// Testing for correct operation of the break rules happens elsewhere.
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UErrorCode status = U_ZERO_ERROR ;
RuleBasedBreakIterator * bi = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createCharacterInstance ( Locale : : getDefault ( ) , status ) ;
if ( U_FAILURE ( status ) | | bi = = NULL ) {
errln ( " Failure creating character break iterator. Status = %s " , u_errorName ( status ) ) ;
}
delete bi ;
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status = U_ZERO_ERROR ;
bi = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createWordInstance ( Locale : : getDefault ( ) , status ) ;
if ( U_FAILURE ( status ) | | bi = = NULL ) {
errln ( " Failure creating Word break iterator. Status = %s " , u_errorName ( status ) ) ;
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}
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delete bi ;
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status = U_ZERO_ERROR ;
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bi = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createLineInstance ( Locale : : getDefault ( ) , status ) ;
if ( U_FAILURE ( status ) | | bi = = NULL ) {
errln ( " Failure creating Line break iterator. Status = %s " , u_errorName ( status ) ) ;
}
delete bi ;
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status = U_ZERO_ERROR ;
bi = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createSentenceInstance ( Locale : : getDefault ( ) , status ) ;
if ( U_FAILURE ( status ) | | bi = = NULL ) {
errln ( " Failure creating Sentence break iterator. Status = %s " , u_errorName ( status ) ) ;
}
delete bi ;
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status = U_ZERO_ERROR ;
bi = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createTitleInstance ( Locale : : getDefault ( ) , status ) ;
if ( U_FAILURE ( status ) | | bi = = NULL ) {
errln ( " Failure creating Title break iterator. Status = %s " , u_errorName ( status ) ) ;
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}
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delete bi ;
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status = U_ZERO_ERROR ;
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bi = ( RuleBasedBreakIterator * ) RuleBasedBreakIterator : : createCharacterInstance ( Locale : : getDefault ( ) , status ) ;
if ( U_FAILURE ( status ) | | bi = = NULL ) {
errln ( " Failure creating character break iterator. Status = %s " , u_errorName ( status ) ) ;
return ; // Skip the rest of these tests.
}
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UnicodeString testString = " 0123456789 " ;
bi - > setText ( testString ) ;
int32_t i ;
i = bi - > first ( ) ;
if ( i ! = 0 ) {
errln ( " Incorrect value from bi->first(). Expected 0, got %d. " , i ) ;
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}
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i = bi - > last ( ) ;
if ( i ! = 10 ) {
errln ( " Incorrect value from bi->last(). Expected 10, got %d " , i ) ;
}
//
// Previous
//
bi - > last ( ) ;
i = bi - > previous ( ) ;
if ( i ! = 9 ) {
errln ( " Incorrect value from bi->last() at line %d. Expected 9, got %d " , __LINE__ , i ) ;
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}
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bi - > first ( ) ;
i = bi - > previous ( ) ;
if ( i ! = BreakIterator : : DONE ) {
errln ( " Incorrect value from bi->previous() at line %d. Expected DONE, got %d " , __LINE__ , i ) ;
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}
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//
// next()
//
bi - > first ( ) ;
i = bi - > next ( ) ;
if ( i ! = 1 ) {
errln ( " Incorrect value from bi->next() at line %d. Expected 1, got %d " , __LINE__ , i ) ;
}
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bi - > last ( ) ;
i = bi - > next ( ) ;
if ( i ! = BreakIterator : : DONE ) {
errln ( " Incorrect value from bi->next() at line %d. Expected DONE, got %d " , __LINE__ , i ) ;
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}
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//
// current()
//
bi - > first ( ) ;
i = bi - > current ( ) ;
if ( i ! = 0 ) {
errln ( " Incorrect value from bi->previous() at line %d. Expected 0, got %d " , __LINE__ , i ) ;
}
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bi - > next ( ) ;
i = bi - > current ( ) ;
if ( i ! = 1 ) {
errln ( " Incorrect value from bi->previous() at line %d. Expected 1, got %d " , __LINE__ , i ) ;
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}
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bi - > last ( ) ;
bi - > next ( ) ;
i = bi - > current ( ) ;
if ( i ! = 10 ) {
errln ( " Incorrect value from bi->previous() at line %d. Expected 10, got %d " , __LINE__ , i ) ;
}
bi - > first ( ) ;
bi - > previous ( ) ;
i = bi - > current ( ) ;
if ( i ! = 0 ) {
errln ( " Incorrect value from bi->previous() at line %d. Expected 0, got %d " , __LINE__ , i ) ;
}
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//
// Following()
//
i = bi - > following ( 4 ) ;
if ( i ! = 5 ) {
errln ( " Incorrect value from bi->following() at line %d. Expected 5, got %d " , __LINE__ , i ) ;
}
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i = bi - > following ( 9 ) ;
if ( i ! = 10 ) {
errln ( " Incorrect value from bi->following() at line %d. Expected 10, got %d " , __LINE__ , i ) ;
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}
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i = bi - > following ( 10 ) ;
if ( i ! = BreakIterator : : DONE ) {
errln ( " Incorrect value from bi->following() at line %d. Expected DONE, got %d " , __LINE__ , i ) ;
}
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//
// Preceding
//
i = bi - > preceding ( 4 ) ;
if ( i ! = 3 ) {
errln ( " Incorrect value from bi->preceding() at line %d. Expected 3, got %d " , __LINE__ , i ) ;
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}
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i = bi - > preceding ( 10 ) ;
if ( i ! = 9 ) {
errln ( " Incorrect value from bi->preceding() at line %d. Expected 9, got %d " , __LINE__ , i ) ;
}
i = bi - > preceding ( 1 ) ;
if ( i ! = 0 ) {
errln ( " Incorrect value from bi->preceding() at line %d. Expected 0, got %d " , __LINE__ , i ) ;
}
i = bi - > preceding ( 0 ) ;
if ( i ! = BreakIterator : : DONE ) {
errln ( " Incorrect value from bi->preceding() at line %d. Expected DONE, got %d " , __LINE__ , i ) ;
}
//
// isBoundary()
//
bi - > first ( ) ;
if ( bi - > isBoundary ( 3 ) ! = TRUE ) {
errln ( " Incorrect value from bi->isBoudary() at line %d. Expected TRUE, got FALSE " , __LINE__ , i ) ;
}
i = bi - > current ( ) ;
if ( i ! = 3 ) {
errln ( " Incorrect value from bi->current() at line %d. Expected 3, got %d " , __LINE__ , i ) ;
}
if ( bi - > isBoundary ( 11 ) ! = FALSE ) {
errln ( " Incorrect value from bi->isBoudary() at line %d. Expected FALSE, got TRUE " , __LINE__ , i ) ;
}
i = bi - > current ( ) ;
if ( i ! = 10 ) {
errln ( " Incorrect value from bi->current() at line %d. Expected 10, got %d " , __LINE__ , i ) ;
}
//
// next(n)
//
bi - > first ( ) ;
i = bi - > next ( 4 ) ;
if ( i ! = 4 ) {
errln ( " Incorrect value from bi->next() at line %d. Expected 4, got %d " , __LINE__ , i ) ;
}
i = bi - > next ( 6 ) ;
if ( i ! = 10 ) {
errln ( " Incorrect value from bi->next() at line %d. Expected 10, got %d " , __LINE__ , i ) ;
}
bi - > first ( ) ;
i = bi - > next ( 11 ) ;
if ( i ! = BreakIterator : : DONE ) {
errln ( " Incorrect value from bi->next() at line %d. Expected BreakIterator::DONE, got %d " , __LINE__ , i ) ;
}
delete bi ;
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}
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void RBBIAPITest : : TestBuilder ( ) {
UnicodeString rulesString1 = " $Letters = [:L:]; \n "
" $Numbers = [:N:]; \n "
" $Letters+; \n "
" $Numbers+; \n "
" [^$Letters $Numbers]; \n "
" !.*; \n " ;
UnicodeString testString1 = " abc123..abc " ;
// 01234567890
int32_t bounds1 [ ] = { 0 , 3 , 6 , 7 , 8 , 11 } ;
UErrorCode status = U_ZERO_ERROR ;
UParseError parseError ;
RuleBasedBreakIterator * bi = new RuleBasedBreakIterator ( rulesString1 , parseError , status ) ;
if ( U_FAILURE ( status ) ) {
errln ( " FAIL : in construction " ) ;
} else {
bi - > setText ( testString1 ) ;
doBoundaryTest ( * bi , testString1 , bounds1 ) ;
}
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delete bi ;
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}
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//
// TestQuoteGrouping
// Single quotes within rules imply a grouping, so that a modifier
// following the quoted text (* or +) applies to all of the quoted chars.
//
void RBBIAPITest : : TestQuoteGrouping ( ) {
UnicodeString rulesString1 = " #Here comes the rule... \n "
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" '$@!'*; \n " // (\$\@\!)*
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" .; \n " ;
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UnicodeString testString1 = " $@!$@!X$@!!X " ;
// 0123456789012
int32_t bounds1 [ ] = { 0 , 6 , 7 , 10 , 11 , 12 } ;
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UErrorCode status = U_ZERO_ERROR ;
UParseError parseError ;
RuleBasedBreakIterator * bi = new RuleBasedBreakIterator ( rulesString1 , parseError , status ) ;
if ( U_FAILURE ( status ) ) {
errln ( " FAIL : in construction " ) ;
} else {
bi - > setText ( testString1 ) ;
doBoundaryTest ( * bi , testString1 , bounds1 ) ;
}
delete bi ;
}
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//
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// TestRuleStatus
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// Test word break rule status constants.
//
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void RBBIAPITest : : TestRuleStatus ( ) {
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UChar str [ 30 ] ;
u_unescape ( " plain word 123.45 \\ u9160 \\ u9161 \\ u30a1 \\ u30a2 \\ u3041 \\ u3094 " ,
// 012345678901234567 8 9 0 1 2 3 4 5 6
// Ideographic Katakana Hiragana
str , 30 ) ;
UnicodeString testString1 ( str ) ;
int32_t bounds1 [ ] = { 0 , 5 , 6 , 10 , 11 , 17 , 18 , 19 , 20 , 21 , 23 , 24 , 25 , 26 } ;
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int32_t tag_lo [ ] = { UBRK_WORD_NONE , UBRK_WORD_LETTER , UBRK_WORD_NONE , UBRK_WORD_LETTER ,
UBRK_WORD_NONE , UBRK_WORD_NUMBER , UBRK_WORD_NONE ,
UBRK_WORD_IDEO , UBRK_WORD_IDEO , UBRK_WORD_NONE ,
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UBRK_WORD_KANA , UBRK_WORD_NONE , UBRK_WORD_KANA , UBRK_WORD_KANA } ;
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int32_t tag_hi [ ] = { UBRK_WORD_NONE_LIMIT , UBRK_WORD_LETTER_LIMIT , UBRK_WORD_NONE_LIMIT , UBRK_WORD_LETTER_LIMIT ,
UBRK_WORD_NONE_LIMIT , UBRK_WORD_NUMBER_LIMIT , UBRK_WORD_NONE_LIMIT ,
UBRK_WORD_IDEO_LIMIT , UBRK_WORD_IDEO_LIMIT , UBRK_WORD_NONE_LIMIT ,
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UBRK_WORD_KANA_LIMIT , UBRK_WORD_NONE_LIMIT , UBRK_WORD_KANA_LIMIT , UBRK_WORD_KANA_LIMIT } ;
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UErrorCode status = U_ZERO_ERROR ;
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RuleBasedBreakIterator * bi = ( RuleBasedBreakIterator * ) BreakIterator : : createWordInstance ( Locale : : getEnglish ( ) , status ) ;
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if ( U_FAILURE ( status ) ) {
errln ( " FAIL : in construction " ) ;
} else {
bi - > setText ( testString1 ) ;
// First test that the breaks are in the right spots.
doBoundaryTest ( * bi , testString1 , bounds1 ) ;
// Then go back and check tag values
int32_t i = 0 ;
int32_t pos , tag ;
for ( pos = bi - > first ( ) ; pos ! = BreakIterator : : DONE ; pos = bi - > next ( ) , i + + ) {
if ( pos ! = bounds1 [ i ] ) {
errln ( " FAIL: unexpected word break at postion %d " , pos ) ;
break ;
}
tag = bi - > getRuleStatus ( ) ;
if ( tag < tag_lo [ i ] | | tag > = tag_hi [ i ] ) {
errln ( " FAIL: incorrect tag value %d at position %d " , tag , pos ) ;
break ;
}
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// Check that we get the same tag values from getRuleStatusVec()
int32_t vec [ 10 ] ;
int t = bi - > getRuleStatusVec ( vec , 10 , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
TEST_ASSERT ( t = = 1 ) ;
TEST_ASSERT ( vec [ 0 ] = = tag ) ;
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}
}
delete bi ;
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// Now test line break status. This test mostly is to confirm that the status constants
// are correctly declared in the header.
testString1 = " test line. \n " ;
// break type s s h
bi = ( RuleBasedBreakIterator * )
BreakIterator : : createLineInstance ( Locale : : getEnglish ( ) , status ) ;
if ( U_FAILURE ( status ) ) {
errln ( " failed to create word break iterator. " ) ;
} else {
int32_t i = 0 ;
int32_t pos , tag ;
UBool success ;
bi - > setText ( testString1 ) ;
pos = bi - > current ( ) ;
tag = bi - > getRuleStatus ( ) ;
for ( i = 0 ; i < 3 ; i + + ) {
switch ( i ) {
case 0 :
success = pos = = 0 & & tag = = UBRK_LINE_SOFT ; break ;
case 1 :
success = pos = = 5 & & tag = = UBRK_LINE_SOFT ; break ;
case 2 :
success = pos = = 12 & & tag = = UBRK_LINE_HARD ; break ;
default :
success = FALSE ; break ;
}
if ( success = = FALSE ) {
errln ( " Fail: incorrect word break status or position. i=%d, pos=%d, tag=%d " ,
i , pos , tag ) ;
break ;
}
pos = bi - > next ( ) ;
tag = bi - > getRuleStatus ( ) ;
}
if ( UBRK_LINE_SOFT > = UBRK_LINE_SOFT_LIMIT | |
UBRK_LINE_HARD > = UBRK_LINE_HARD_LIMIT | |
UBRK_LINE_HARD > UBRK_LINE_SOFT & & UBRK_LINE_HARD < UBRK_LINE_SOFT_LIMIT ) {
errln ( " UBRK_LINE_* constants from header are inconsistent. " ) ;
}
}
delete bi ;
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}
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//
// TestRuleStatusVec
// Test the vector form of break rule status.
//
void RBBIAPITest : : TestRuleStatusVec ( ) {
UnicodeString rulesString = " [A-N]{100}; \n "
" [a-w]{200}; \n "
" [ \\ p{L}]{300}; \n "
" [ \\ p{N}]{400}; \n "
" [0-5]{500}; \n "
" !.*; \n " ;
UnicodeString testString1 = " Aapz5? " ;
int32_t statusVals [ 10 ] ;
int32_t numStatuses ;
int32_t pos ;
UErrorCode status = U_ZERO_ERROR ;
UParseError parseError ;
RuleBasedBreakIterator * bi = new RuleBasedBreakIterator ( rulesString , parseError , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
if ( U_SUCCESS ( status ) ) {
bi - > setText ( testString1 ) ;
// A
pos = bi - > next ( ) ;
TEST_ASSERT ( pos = = 1 ) ;
numStatuses = bi - > getRuleStatusVec ( statusVals , 10 , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
TEST_ASSERT ( numStatuses = = 2 ) ;
TEST_ASSERT ( statusVals [ 0 ] = = 100 ) ;
TEST_ASSERT ( statusVals [ 1 ] = = 300 ) ;
// a
pos = bi - > next ( ) ;
TEST_ASSERT ( pos = = 2 ) ;
numStatuses = bi - > getRuleStatusVec ( statusVals , 10 , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
TEST_ASSERT ( numStatuses = = 2 ) ;
TEST_ASSERT ( statusVals [ 0 ] = = 200 ) ;
TEST_ASSERT ( statusVals [ 1 ] = = 300 ) ;
// p
pos = bi - > next ( ) ;
TEST_ASSERT ( pos = = 3 ) ;
numStatuses = bi - > getRuleStatusVec ( statusVals , 10 , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
TEST_ASSERT ( numStatuses = = 2 ) ;
TEST_ASSERT ( statusVals [ 0 ] = = 200 ) ;
TEST_ASSERT ( statusVals [ 1 ] = = 300 ) ;
// z
pos = bi - > next ( ) ;
TEST_ASSERT ( pos = = 4 ) ;
numStatuses = bi - > getRuleStatusVec ( statusVals , 10 , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
TEST_ASSERT ( numStatuses = = 1 ) ;
TEST_ASSERT ( statusVals [ 0 ] = = 300 ) ;
// 5
pos = bi - > next ( ) ;
TEST_ASSERT ( pos = = 5 ) ;
numStatuses = bi - > getRuleStatusVec ( statusVals , 10 , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
TEST_ASSERT ( numStatuses = = 2 ) ;
TEST_ASSERT ( statusVals [ 0 ] = = 400 ) ;
TEST_ASSERT ( statusVals [ 1 ] = = 500 ) ;
// ?
pos = bi - > next ( ) ;
TEST_ASSERT ( pos = = 6 ) ;
numStatuses = bi - > getRuleStatusVec ( statusVals , 10 , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
TEST_ASSERT ( numStatuses = = 1 ) ;
TEST_ASSERT ( statusVals [ 0 ] = = 0 ) ;
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//
// Check buffer overflow error handling. Char == A
//
bi - > first ( ) ;
pos = bi - > next ( ) ;
TEST_ASSERT ( pos = = 1 ) ;
memset ( statusVals , - 1 , sizeof ( statusVals ) ) ;
numStatuses = bi - > getRuleStatusVec ( statusVals , 0 , status ) ;
TEST_ASSERT ( status = = U_BUFFER_OVERFLOW_ERROR ) ;
TEST_ASSERT ( numStatuses = = 2 ) ;
TEST_ASSERT ( statusVals [ 0 ] = = - 1 ) ;
status = U_ZERO_ERROR ;
memset ( statusVals , - 1 , sizeof ( statusVals ) ) ;
numStatuses = bi - > getRuleStatusVec ( statusVals , 1 , status ) ;
TEST_ASSERT ( status = = U_BUFFER_OVERFLOW_ERROR ) ;
TEST_ASSERT ( numStatuses = = 2 ) ;
TEST_ASSERT ( statusVals [ 0 ] = = 100 ) ;
TEST_ASSERT ( statusVals [ 1 ] = = - 1 ) ;
status = U_ZERO_ERROR ;
memset ( statusVals , - 1 , sizeof ( statusVals ) ) ;
numStatuses = bi - > getRuleStatusVec ( statusVals , 2 , status ) ;
TEST_ASSERT_SUCCESS ( status ) ;
TEST_ASSERT ( numStatuses = = 2 ) ;
TEST_ASSERT ( statusVals [ 0 ] = = 100 ) ;
TEST_ASSERT ( statusVals [ 1 ] = = 300 ) ;
TEST_ASSERT ( statusVals [ 2 ] = = - 1 ) ;
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}
delete bi ;
}
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//
// Bug 2190 Regression test. Builder crash on rule consisting of only a
// $variable reference
void RBBIAPITest : : TestBug2190 ( ) {
UnicodeString rulesString1 = " $aaa = abcd; \n "
" $bbb = $aaa; \n "
" $bbb; \n " ;
UnicodeString testString1 = " abcdabcd " ;
// 01234567890
int32_t bounds1 [ ] = { 0 , 4 , 8 } ;
UErrorCode status = U_ZERO_ERROR ;
UParseError parseError ;
RuleBasedBreakIterator * bi = new RuleBasedBreakIterator ( rulesString1 , parseError , status ) ;
if ( U_FAILURE ( status ) ) {
errln ( " FAIL : in construction " ) ;
} else {
bi - > setText ( testString1 ) ;
doBoundaryTest ( * bi , testString1 , bounds1 ) ;
}
delete bi ;
}
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void RBBIAPITest : : TestRegistration ( ) {
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# if !UCONFIG_NO_SERVICE
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UErrorCode status = U_ZERO_ERROR ;
BreakIterator * thai_word = BreakIterator : : createWordInstance ( " th_TH " , status ) ;
// ok to not delete these if we exit because of error?
BreakIterator * thai_char = BreakIterator : : createCharacterInstance ( " th_TH " , status ) ;
BreakIterator * root_word = BreakIterator : : createWordInstance ( " " , status ) ;
BreakIterator * root_char = BreakIterator : : createCharacterInstance ( " " , status ) ;
URegistryKey key = BreakIterator : : registerInstance ( thai_word , " xx " , UBRK_WORD , status ) ;
{
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if ( thai_word & & * thai_word = = * root_word ) {
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errln ( " thai not different from root " ) ;
}
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}
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{
BreakIterator * result = BreakIterator : : createWordInstance ( " xx_XX " , status ) ;
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UBool fail = TRUE ;
if ( result ) {
fail = * result ! = * thai_word ;
}
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delete result ;
if ( fail ) {
errln ( " bad result for xx_XX/word " ) ;
}
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}
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2003-06-12 01:47:15 +00:00
{
BreakIterator * result = BreakIterator : : createCharacterInstance ( " th_TH " , status ) ;
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UBool fail = TRUE ;
if ( result ) {
fail = * result ! = * thai_char ;
}
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delete result ;
if ( fail ) {
errln ( " bad result for th_TH/char " ) ;
}
}
{
BreakIterator * result = BreakIterator : : createCharacterInstance ( " xx_XX " , status ) ;
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UBool fail = TRUE ;
if ( result ) {
fail = * result ! = * root_char ;
}
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delete result ;
if ( fail ) {
errln ( " bad result for xx_XX/char " ) ;
}
}
{
StringEnumeration * avail = BreakIterator : : getAvailableLocales ( ) ;
UBool found = FALSE ;
const UnicodeString * p ;
while ( ( p = avail - > snext ( status ) ) ) {
if ( p - > compare ( " xx " ) = = 0 ) {
found = TRUE ;
break ;
}
}
delete avail ;
if ( ! found ) {
errln ( " did not find test locale " ) ;
}
}
{
UBool unreg = BreakIterator : : unregister ( key , status ) ;
if ( ! unreg ) {
errln ( " unable to unregister " ) ;
}
}
{
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BreakIterator * result = BreakIterator : : createWordInstance ( " en_US " , status ) ;
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BreakIterator * root = BreakIterator : : createWordInstance ( " " , status ) ;
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UBool fail = TRUE ;
if ( root ) {
fail = * root ! = * result ;
}
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delete root ;
delete result ;
if ( fail ) {
errln ( " did not get root break " ) ;
}
}
{
StringEnumeration * avail = BreakIterator : : getAvailableLocales ( ) ;
UBool found = FALSE ;
const UnicodeString * p ;
while ( ( p = avail - > snext ( status ) ) ) {
if ( p - > compare ( " xx " ) = = 0 ) {
found = TRUE ;
break ;
}
}
delete avail ;
if ( found ) {
errln ( " found test locale " ) ;
}
}
{
int32_t count ;
UBool foundLocale = FALSE ;
const Locale * avail = BreakIterator : : getAvailableLocales ( count ) ;
for ( int i = 0 ; i < count ; i + + ) {
if ( avail [ i ] = = Locale : : getEnglish ( ) ) {
foundLocale = TRUE ;
break ;
}
}
if ( foundLocale = = FALSE ) {
errln ( " BreakIterator::getAvailableLocales(&count), failed to find EN. " ) ;
}
}
// that_word was adopted by factory
delete thai_char ;
delete root_word ;
delete root_char ;
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# endif
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}
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2003-02-17 18:06:42 +00:00
void RBBIAPITest : : RoundtripRule ( const char * dataFile ) {
UErrorCode status = U_ZERO_ERROR ;
UParseError parseError ;
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parseError . line = 0 ;
parseError . offset = 0 ;
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UDataMemory * data = udata_open ( NULL , " brk " , dataFile , & status ) ;
uint32_t length ;
const UChar * builtSource ;
const uint8_t * rbbiRules ;
const uint8_t * builtRules ;
if ( U_FAILURE ( status ) ) {
errln ( " Can't open \" %s \" " , dataFile ) ;
return ;
}
builtRules = ( const uint8_t * ) udata_getMemory ( data ) ;
builtSource = ( const UChar * ) ( builtRules + ( ( RBBIDataHeader * ) builtRules ) - > fRuleSource ) ;
RuleBasedBreakIterator * brkItr = new RuleBasedBreakIterator ( builtSource , parseError , status ) ;
if ( U_FAILURE ( status ) ) {
errln ( " createRuleBasedBreakIterator: ICU Error \" %s \" at line %d, column %d \n " ,
u_errorName ( status ) , parseError . line , parseError . offset ) ;
return ;
} ;
rbbiRules = brkItr - > getBinaryRules ( length ) ;
logln ( " Comparing \" %s \" len=%d " , dataFile , length ) ;
if ( memcmp ( builtRules , rbbiRules , ( int32_t ) length ) ! = 0 ) {
errln ( " Built rules and rebuilt rules are different %s " , dataFile ) ;
return ;
}
delete brkItr ;
udata_close ( data ) ;
}
void RBBIAPITest : : TestRoundtripRules ( ) {
RoundtripRule ( " word " ) ;
RoundtripRule ( " title " ) ;
RoundtripRule ( " sent " ) ;
RoundtripRule ( " line " ) ;
RoundtripRule ( " char " ) ;
if ( ! quick ) {
RoundtripRule ( " word_th " ) ;
RoundtripRule ( " line_th " ) ;
}
}
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//---------------------------------------------
// runIndexedTest
//---------------------------------------------
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void RBBIAPITest : : runIndexedTest ( int32_t index , UBool exec , const char * & name , char * /*par*/ )
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{
if ( exec ) logln ( ( UnicodeString ) " TestSuite RuleBasedBreakIterator API " ) ;
switch ( index ) {
// case 0: name = "TestConstruction"; if (exec) TestConstruction(); break;
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case 0 : name = " TestCloneEquals " ; if ( exec ) TestCloneEquals ( ) ; break ;
case 1 : name = " TestgetRules " ; if ( exec ) TestgetRules ( ) ; break ;
case 2 : name = " TestHashCode " ; if ( exec ) TestHashCode ( ) ; break ;
case 3 : name = " TestGetSetAdoptText " ; if ( exec ) TestGetSetAdoptText ( ) ; break ;
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case 4 : name = " TestIteration " ; if ( exec ) TestIteration ( ) ; break ;
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case 5 : name = " TestBuilder " ; if ( exec ) TestBuilder ( ) ; break ;
case 6 : name = " TestQuoteGrouping " ; if ( exec ) TestQuoteGrouping ( ) ; break ;
case 7 : name = " TestRuleStatus " ; if ( exec ) TestRuleStatus ( ) ; break ;
case 8 : name = " TestRuleStatusVec " ; if ( exec ) TestRuleStatusVec ( ) ; break ;
case 9 : name = " TestBug2190 " ; if ( exec ) TestBug2190 ( ) ; break ;
case 10 : name = " TestRegistration " ; if ( exec ) TestRegistration ( ) ; break ;
case 11 : name = " TestBoilerPlate " ; if ( exec ) TestBoilerPlate ( ) ; break ;
case 12 : name = " TestRoundtripRules " ; if ( exec ) TestRoundtripRules ( ) ; break ;
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default : name = " " ; break ; // needed to end loop
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}
}
//---------------------------------------------
//Internal subroutines
//---------------------------------------------
void RBBIAPITest : : doBoundaryTest ( RuleBasedBreakIterator & bi , UnicodeString & text , int32_t * boundaries ) {
logln ( ( UnicodeString ) " testIsBoundary(): " ) ;
int32_t p = 0 ;
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UBool isB ;
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for ( int32_t i = 0 ; i < text . length ( ) ; i + + ) {
isB = bi . isBoundary ( i ) ;
logln ( ( UnicodeString ) " bi.isBoundary( " + i + " ) -> " + isB ) ;
if ( i = = boundaries [ p ] ) {
if ( ! isB )
errln ( ( UnicodeString ) " Wrong result from isBoundary() for " + i + ( UnicodeString ) " : expected true, got false " ) ;
p + + ;
}
else {
if ( isB )
errln ( ( UnicodeString ) " Wrong result from isBoundary() for " + i + ( UnicodeString ) " : expected false, got true " ) ;
}
}
}
void RBBIAPITest : : doTest ( UnicodeString & testString , int32_t start , int32_t gotoffset , int32_t expectedOffset , const char * expectedString ) {
UnicodeString selected ;
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UnicodeString expected = CharsToUnicodeString ( expectedString ) ;
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if ( gotoffset ! = expectedOffset )
errln ( ( UnicodeString ) " ERROR:****returned # " + gotoffset + ( UnicodeString ) " instead of # " + expectedOffset ) ;
if ( start < = gotoffset ) {
testString . extractBetween ( start , gotoffset , selected ) ;
}
else {
testString . extractBetween ( gotoffset , start , selected ) ;
}
if ( selected . compare ( expected ) ! = 0 )
errln ( prettify ( ( UnicodeString ) " ERROR:****selected \" " + selected + " \" instead of \" " + expected + " \" " ) ) ;
else
logln ( prettify ( " ****selected \" " + selected + " \" " ) ) ;
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}
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# endif /* #if !UCONFIG_NO_BREAK_ITERATION */