scuffed-code/icu4c/source/test/intltest/unhxtrts.cpp
George Rhoten 6b0ec25200 ICU-2710 Remove obsolete code
X-SVN-Rev: 11041
2003-02-14 01:44:49 +00:00

516 lines
23 KiB
C++

/********************************************************************
* COPYRIGHT:
* Copyright (c) 1997-2001, International Business Machines Corporation and
* others. All Rights Reserved.
********************************************************************/
/***********************************************************************
************************************************************************
* Date Name Description
* 03/15/2000 Madhu Creation.
************************************************************************/
#include "unicode/utypes.h"
#if !UCONFIG_NO_TRANSLITERATION
#include "ittrans.h"
#include "unhxtrts.h"
#include "unicode/utypes.h"
#include "unicode/translit.h"
#include "unicode/unifilt.h"
#include "unicode/uchar.h"
#include "intltest.h"
#include "unitohex.h"
/*converts a Unicodestring to integer*/
static int32_t getInt(UnicodeString str)
{
int32_t result = 0;
int32_t len = str.length();
int32_t i = 0;
for(i=0; i<len; i++) {
result = result*10+u_charDigitValue(str.char32At(i));
}
return result;
}
//---------------------------------------------
// runIndexedTest
//---------------------------------------------
void UniToHexTransliteratorTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ )
{
if (exec) logln((UnicodeString)"TestSuite UnicodeToHexadecimal Transliterator API ");
switch (index) {
case 0: name = "TestConstruction"; if (exec) TestConstruction(); break;
case 1: name = "TestCloneEqual"; if (exec) TestCloneEqual(); break;
case 2: name = "TestUpperCase"; if (exec) TestUpperCase(); break;
case 3: name = "TestPattern"; if (exec) TestPattern(); break;
case 4: name = "TestSimpleTransliterate"; if (exec) TestSimpleTransliterate(); break;
case 5: name = "TestTransliterate"; if (exec) TestTransliterate(); break;
default: name = ""; break; /*needed to end loop*/
}
}
// This test used to call handleTransliterate. That is a protected
// method that isn't supposed to be called externally. This method is
// a workaround to make it call the correct method.
static void pseudoHandleTransliterate(const Transliterator* t,
Replaceable& text,
UTransPosition& index,
UBool incremental) {
if (incremental) {
UErrorCode status = U_ZERO_ERROR;
t->transliterate(text, index, status);
} else {
t->finishTransliteration(text, index);
}
}
/**
* Used by TestConstruction() and TestTransliterate.
*/
int32_t gTestUniFilterClassID;
class TestUniFilter : public UnicodeFilter {
virtual UClassID getDynamicClassID() const { return &gTestUniFilterClassID; }
virtual UnicodeFunctor* clone() const {
return new TestUniFilter(*this);
}
virtual UBool contains(UChar32 c) const {
if(c==0x0063 || c==0x0061 || c==0x0043 || c==0x0041)
return FALSE;
else
return TRUE;
}
// Stubs
virtual UnicodeString& toPattern(UnicodeString& result,
UBool escapeUnprintable) const {
return result;
}
virtual UBool matchesIndexValue(uint8_t v) const {
return FALSE;
}
virtual void addMatchSetTo(UnicodeSet& toUnionTo) const {}
};
void UniToHexTransliteratorTest::TestConstruction(){
UErrorCode status=U_ZERO_ERROR;
logln("Testing the construction UnicodeToHexTransliterator()");
UnicodeToHexTransliterator *trans1=new UnicodeToHexTransliterator();
if(trans1==0){
errln("UnicodeToHexTransliterator construction failed Error=" + (UnicodeString)u_errorName(status));
return;
}
delete trans1;
logln("Testing the cosntruction UnicodeToHexTransliterator(pattern, status)");
UnicodeString pattern("\\\\U+0000abc");
trans1=new UnicodeToHexTransliterator(pattern, status);
if(U_FAILURE(status)){
errln("UnicodeToHexTransliterator construction failed with pattern =" + pattern + " Error=" + (UnicodeString)u_errorName(status));
status=U_ZERO_ERROR;
return;
}
delete trans1;
logln("Testing the cosntruction UnicodeToHexTransliterator(pattern, status) with illegal pattern");
UnicodeString pattern2("\\X+");
trans1=new UnicodeToHexTransliterator(pattern2, status);
if(U_FAILURE(status)){
logln("OK: UnicodeToHexTransliterator construction for illegal pattern failed, as expected");
status=U_ZERO_ERROR;
} else {
errln("Error: calling the UnicodeToHexTransliterator constructor with illegal pattern should fail");
}
delete trans1;
logln("Testing the construction UnicodeToHexTransliterator(pattern, isUppercase, adoptedFilter, status)");
trans1=new UnicodeToHexTransliterator(pattern, FALSE, NULL, status);
if(U_FAILURE(status)){
errln("UnicodeToHexTransliterator construction failed. Error=" + (UnicodeString)u_errorName(status));
status=U_ZERO_ERROR;
return;
}
logln("Testing the copy construction");
UnicodeToHexTransliterator *trans1copy=new UnicodeToHexTransliterator(*trans1);
if(trans1->toPattern() != trans1copy->toPattern() || trans1->isUppercase() != trans1copy->isUppercase() ||
trans1->getID() != trans1copy->getID()){
errln("Copy construction failed");
}
delete trans1copy;
delete trans1;
logln("Testing the construction UnicodeToHexTransliterator(pattern, isUppercase, adoptedFilter, status)");
trans1=new UnicodeToHexTransliterator(pattern, TRUE, new TestUniFilter, status);
if(U_FAILURE(status)){
errln("UnicodeToHexTransliterator construction failed Error=" + (UnicodeString)u_errorName(status));
status=U_ZERO_ERROR;
return;
}
logln("Testing the copy construction");
trans1copy=new UnicodeToHexTransliterator(*trans1);
if(trans1->toPattern() != trans1copy->toPattern() || trans1->isUppercase() != trans1copy->isUppercase() ||
trans1->getID() != trans1copy->getID() ||
trans1->getFilter() == NULL || trans1copy->getFilter() == NULL ){
errln("Copy construction failed");
}
delete trans1copy;
delete trans1;
}
void UniToHexTransliteratorTest::TestCloneEqual(){
UErrorCode status=U_ZERO_ERROR;
UnicodeToHexTransliterator *transdefault=new UnicodeToHexTransliterator();
UnicodeString pattern1("\\U##00");
UnicodeString pattern2("\\\\uni0000");
UnicodeToHexTransliterator *trans1=new UnicodeToHexTransliterator(pattern1, status);
if(U_FAILURE(status) && status==U_ILLEGAL_ARGUMENT_ERROR){
errln("UnicodeToHexTransliterator construction failed");
status=U_ZERO_ERROR;
return;
}
UnicodeToHexTransliterator *trans2=new UnicodeToHexTransliterator(pattern2, status);
if(U_FAILURE(status) && status==U_ILLEGAL_ARGUMENT_ERROR){
errln("UnicodeToHexTransliterator construction failed");
status=U_ZERO_ERROR;
return;
}
logln("Testing the clone() API of the UnicodeToHexTransliterator");
UnicodeToHexTransliterator *transdefaultclone=(UnicodeToHexTransliterator*)transdefault->clone();
UnicodeToHexTransliterator *trans1clone=(UnicodeToHexTransliterator*)trans1->clone();
UnicodeToHexTransliterator *trans2clone=(UnicodeToHexTransliterator*)trans2->clone();
if(transdefault->toPattern() != transdefaultclone->toPattern() ||
transdefault->isUppercase() != transdefaultclone->isUppercase() ||
trans1->toPattern() != trans1clone->toPattern() ||
trans1->isUppercase() != trans1clone->isUppercase() ||
trans2->toPattern() != trans2clone->toPattern() ||
trans2->isUppercase() != trans2clone->isUppercase() ||
transdefault->toPattern() == trans1->toPattern() ||
trans1->toPattern() == trans2clone->toPattern() ||
trans2->toPattern() == transdefault->toPattern() ) {
errln("Error: clone() failed");
}
logln("Testing the =operator of the UnicodeToHexTransliterator");
UnicodeToHexTransliterator *transdefaultequal=new UnicodeToHexTransliterator();
UnicodeToHexTransliterator *trans1equal=new UnicodeToHexTransliterator();
UnicodeToHexTransliterator *trans2equal=new UnicodeToHexTransliterator();
*transdefaultequal=*transdefault;
*trans1equal=*trans1;
*trans2equal=*trans2;
if(transdefault->toPattern() != transdefaultequal->toPattern() ||
transdefault->isUppercase() != transdefaultequal->isUppercase() ||
trans1->toPattern() != trans1equal->toPattern() ||
trans1->isUppercase() != trans1equal->isUppercase() ||
trans2->toPattern() != trans2equal->toPattern() ||
trans2->isUppercase() != trans2equal->isUppercase() ||
transdefault->toPattern() == trans1->toPattern() ||
trans1->toPattern() == trans2equal->toPattern() ||
trans2->toPattern() == transdefault->toPattern() ) {
errln("Error: equal() failed");
}
if(transdefaultclone->toPattern() != transdefaultequal->toPattern() ||
transdefaultclone->isUppercase() != transdefaultequal->isUppercase() ||
trans1equal->toPattern() != trans1clone->toPattern() ||
trans1equal->isUppercase() != trans1clone->isUppercase() ||
trans2clone->toPattern() != trans2equal->toPattern() ||
trans2clone->isUppercase() != trans2equal->isUppercase() ) {
errln("Error: equal() or clone() failed");
}
delete transdefaultclone;
delete trans1clone;
delete trans2clone;
delete transdefaultequal;
delete trans1equal;
delete trans2equal;
delete transdefault;
delete trans1;
delete trans2;
}
void UniToHexTransliteratorTest::TestUpperCase(){
logln("Testing the isUppercase() and setUppercase() API of UnicodeToHexTransliterator");
UErrorCode status = U_ZERO_ERROR;
UnicodeString str("abk");
/*default transliterator has upper case TRUE*/
UnicodeToHexTransliterator *transdefault=new UnicodeToHexTransliterator();
if(transdefault == 0){
errln("UnicodeToHexTransliterator construction failed");
return;
}
expect(*transdefault, "where uppercase=default", str, UnicodeString("\\u0061\\u0062\\u006B", ""));
UnicodeString pattern("\\\\u0000", "");
/*transliterator with Uppercase FALSE*/
UnicodeToHexTransliterator *trans1=new UnicodeToHexTransliterator(pattern, FALSE, NULL, status);
if(U_FAILURE(status) && status==U_ILLEGAL_ARGUMENT_ERROR){
errln("UnicodeToHexTransliterator construction failed with pattern =" + pattern);
status=U_ZERO_ERROR;
return;
}
expect(*trans1, "where uppercase=FALSE", str, UnicodeString("\\u0061\\u0062\\u006b", "")); /*doesn't display uppercase*/
if(transdefault->isUppercase() != TRUE || trans1->isUppercase() != FALSE ){
errln("isUpperCase() failed");
}
/*changing the outputhexdigits to lower case for the default transliterator*/
transdefault->setUppercase(trans1->isUppercase());
if(transdefault->isUppercase() != trans1->isUppercase() || transdefault->isUppercase() != FALSE){
errln("setUppercase() failed");
}
/*doesn't ouput uppercase hex, since transdefault's uppercase is set to FALSE using setUppercase*/
expect(*transdefault, "where uppercase=FALSE", str, UnicodeString("\\u0061\\u0062\\u006b", ""));
/*trying round trip*/
transdefault->setUppercase(TRUE);
if(transdefault->isUppercase() != TRUE || transdefault->isUppercase() == trans1->isUppercase() ){
errln("setUppercase() failed");
}
/*displays upper case since it is set to TRUE*/
expect(*transdefault, "where uppercase=TRUE", str, UnicodeString("\\u0061\\u0062\\u006B", ""));
delete transdefault;
delete trans1;
}
void UniToHexTransliteratorTest::TestPattern(){
logln("Testing the applyPattern() and toPattern() API of UnicodeToHexTransliterator");
UErrorCode status = U_ZERO_ERROR;
/*default transliterator has pattern \\u0000*/
UnicodeToHexTransliterator *transdefault=new UnicodeToHexTransliterator();
if(transdefault == 0){
errln("UnicodeToHexTransliterator construction failed");
return;
}
UnicodeString defaultpattern=transdefault->toPattern();
UnicodeString pattern1("\\\\U+0000", "");
UnicodeToHexTransliterator *trans1=new UnicodeToHexTransliterator(pattern1, TRUE, NULL, status);
if(U_FAILURE(status) && status==U_ILLEGAL_ARGUMENT_ERROR){
errln("UnicodeToHexTransliterator construction failed with pattern =" + pattern1);
status=U_ZERO_ERROR;
return;
}
/*test toPattern() */
if(transdefault->toPattern() == trans1->toPattern() ||
transdefault->toPattern() != UnicodeString("\\\\u0000", "") ||
trans1->toPattern() != pattern1 ){
errln("Error: toPattern() failed");
}
/*apply patterns for transdefault*/
UnicodeString str("abKf");
expectPattern(*transdefault, pattern1, str, UnicodeString("\\U+0061\\U+0062\\U+004B\\U+0066", ""));
expectPattern(*transdefault, UnicodeString("\\U##00,", ""), str, UnicodeString("U61,U62,U4B,U66,", ""));
expectPattern(*transdefault, defaultpattern, str, UnicodeString("\\u0061\\u0062\\u004B\\u0066", ""));
expectPattern(*trans1, UnicodeString("\\uni0000", ""), str, UnicodeString("uni0061uni0062uni004Buni0066", ""));
expectPattern(*trans1, UnicodeString("\\\\S-0000-E", ""), str, UnicodeString("\\S-0061-E\\S-0062-E\\S-004B-E\\S-0066-E", ""));
expectPattern(*trans1, UnicodeString("\\u##0000", ""), str, UnicodeString("FAIL", ""));
expectPattern(*trans1, UnicodeString("\\*0000", ""), str, UnicodeString("*0061*0062*004B*0066", ""));
expectPattern(*trans1, UnicodeString("\\u####", ""), str, UnicodeString("FAIL", ""));
delete trans1;
delete transdefault;
}
void UniToHexTransliteratorTest::TestSimpleTransliterate(){
UErrorCode status=U_ZERO_ERROR;
UnicodeString pattern1("\\\\U+0000", "");
UnicodeToHexTransliterator *trans1=new UnicodeToHexTransliterator(pattern1, TRUE, NULL, status);
if(U_FAILURE(status) && status==U_ILLEGAL_ARGUMENT_ERROR){
errln("UnicodeToHexTransliterator construction failed with pattern =" + pattern1);
status=U_ZERO_ERROR;
return;
}
UTransPosition index={1,5,2,5};
UnicodeString source("Hello");
UnicodeString rsource(source);
UnicodeString expected("He\\U+006C\\U+006C\\U+006F", "");
pseudoHandleTransliterate(trans1, rsource, index, FALSE);
expectAux(trans1->getID() + ":handleTransliterator ", source + "-->" + rsource, rsource==expected, expected);
delete trans1;
}
void UniToHexTransliteratorTest::TestTransliterate(){
UErrorCode status=U_ZERO_ERROR;
UnicodeString Data[]={
//pattern, source, index.contextStart, index.contextLimit, index.start, expectedResult, expectedResult using filter(a, b)
UnicodeString("U+##00", ""), UnicodeString("abc", ""), "1", "3", "2", UnicodeString("abU+63", ""), UnicodeString("abc", ""),
UnicodeString("\\\\u0000", ""), UnicodeString("abc", ""), "1", "2", "1", UnicodeString("a\\u0062c", ""), UnicodeString("a\\u0062c", ""),
UnicodeString("Uni0000", ""), UnicodeString("abc", ""), "1", "3", "2", UnicodeString("abUni0063", ""), UnicodeString("abc", ""),
UnicodeString("U[0000]", ""), UnicodeString("hello", ""), "0", "4", "2", UnicodeString("heU[006C]U[006C]o", ""), UnicodeString("heU[006C]U[006C]o", ""),
UnicodeString("prefix-0000-suffix", ""), UnicodeString("abc", ""), "1", "3", "1", UnicodeString("aprefix-0062-suffixprefix-0063-suffix", ""), UnicodeString("aprefix-0062-suffixc", ""),
UnicodeString("*##00*", ""), UnicodeString("hellothere", ""), "1", "8", "4", UnicodeString("hell*6F**74**68**65*re", ""), UnicodeString("hell*6F**74**68**65*re", ""),
};
uint32_t i;
for(i=0;i<sizeof(Data)/sizeof(Data[0]);i=i+7){
UnicodeToHexTransliterator *trans1=new UnicodeToHexTransliterator(Data[i+0], TRUE, NULL, status);
if(U_FAILURE(status)){
errln("UnicodeToHexTransliterator construction failed with pattern =" + Data[i+0]);
status=U_ZERO_ERROR;
continue;
}
expectTranslit(*trans1, "", Data[i+1], getInt(Data[i+2]), getInt(Data[i+3]), getInt(Data[i+4]), Data[i+5] );
delete trans1;
UnicodeToHexTransliterator *trans2=new UnicodeToHexTransliterator(Data[i+0], TRUE, new TestUniFilter, status);
if(U_FAILURE(status)){
errln("UnicodeToHexTransliterator construction failed with pattern=" + Data[i+0] + "with filter(a,c)" );
status=U_ZERO_ERROR;
continue;
}
expectTranslit(*trans2, " with filter(a,A,c,C)", Data[i+1], getInt(Data[i+2]), getInt(Data[i+3]), getInt(Data[i+4]), Data[i+6] );
delete trans2;
}
}
//======================================================================
// Support methods
//======================================================================
void UniToHexTransliteratorTest::expectTranslit(const UnicodeToHexTransliterator& t,
const UnicodeString& message,
const UnicodeString& source,
int32_t start, int32_t limit, int32_t cursor,
const UnicodeString& expectedResult){
UTransPosition _index;
_index.contextStart=start;
_index.contextLimit= limit;
_index.start = cursor;
_index.limit = limit;
UTransPosition index = _index;
UnicodeString rsource(source);
pseudoHandleTransliterate(&t, rsource, index, FALSE);
expectAux(t.getID() + ":handleTransliterator(increment=FALSE) " + message, source + "-->" + rsource, rsource==expectedResult, expectedResult);
UnicodeString rsource2(source);
index=_index;
pseudoHandleTransliterate(&t, rsource2, index, TRUE);
expectAux(t.getID() + ":handleTransliterator(increment=TRUE) "+ message, source + "-->" + rsource2, rsource2==expectedResult, expectedResult);
/*ceates a copy constructor and checks the transliteration*/
UnicodeToHexTransliterator *copy=new UnicodeToHexTransliterator(t);
rsource2.remove();
rsource2.append(source);
index=_index;
pseudoHandleTransliterate(copy, rsource2, index, FALSE);
expectAux(t.getID() + "COPY:handleTransliterator(increment=FALSE) " + message, source + "-->" + rsource2, rsource2==expectedResult, expectedResult);
rsource2.remove();
rsource2.append(source);
index=_index;
pseudoHandleTransliterate(copy, rsource2, index, TRUE);
expectAux(t.getID() + "COPY:handleTransliterator(increment=TRUE) " + message, source + "-->" + rsource2, rsource2==expectedResult, expectedResult);
delete copy;
/*creates a clone and tests transliteration*/
UnicodeToHexTransliterator *clone=(UnicodeToHexTransliterator*)t.clone();
rsource2.remove();
rsource2.append(source);
index=_index;
pseudoHandleTransliterate(clone, rsource2, index, FALSE);
expectAux(t.getID() + "CLONE:handleTransliterator(increment=FALSE) "+ message,source + "-->" + rsource2, rsource2==expectedResult, expectedResult);
rsource2.remove();
rsource2.append(source);
index=_index;
pseudoHandleTransliterate(clone, rsource2, index, TRUE);
expectAux(t.getID() + "CLONE:handleTransliterator(increment=TRUE) "+ message, source + "-->" + rsource2, rsource2==expectedResult, expectedResult);
delete clone;
/*Uses the assignment operator to create a transliterator and tests transliteration*/
UnicodeToHexTransliterator equal=t;
rsource2.remove();
rsource2.append(source);
index=_index;
pseudoHandleTransliterate(&equal, rsource2, index, FALSE);
expectAux(t.getID() + "=OPERATOR:handleTransliterator(increment=FALSE) "+ message, source + "-->" + rsource2, rsource2==expectedResult, expectedResult);
rsource2.remove();
rsource2.append(source);
index=_index;
pseudoHandleTransliterate(&equal, rsource2, index, TRUE);
expectAux(t.getID() + "=OPERATOR:handleTransliterator(increment=TRUE) "+ message, source + "-->" + rsource2, rsource2==expectedResult, expectedResult);
}
void UniToHexTransliteratorTest::expectPattern(UnicodeToHexTransliterator& t,
const UnicodeString& pattern,
const UnicodeString& source,
const UnicodeString& expectedResult){
UErrorCode status=U_ZERO_ERROR;
t.applyPattern(pattern, status);
if(expectedResult == "FAIL"){
if(U_FAILURE(status)){
logln("OK: calling applyPattern() with illegal pattern failed as expected. Error=" + (UnicodeString)u_errorName(status));
status=U_ZERO_ERROR;
return;
}
}
else{
if(U_FAILURE(status)){
errln("Error: applyPattern() failed with pattern =" + pattern + "--->" + (UnicodeString)u_errorName(status));
return;
}else {
if(t.toPattern() != pattern) {
errln("Error: applyPattern or toPatten failed. Expected: " + pattern + "Got: " + t.toPattern());
}
else{
logln("OK: applyPattern passed. Testing transliteration");
expect(t, (UnicodeString)" with pattern "+pattern, source, expectedResult);
}
}
}
}
void UniToHexTransliteratorTest::expect(const UnicodeToHexTransliterator& t,
const UnicodeString& message,
const UnicodeString& source,
const UnicodeString& expectedResult) {
UnicodeString rsource(source);
t.transliterate(rsource);
expectAux(t.getID() + ":Replaceable " + message, source + "->" + rsource, rsource==expectedResult, expectedResult);
// Test handleTransliterate (incremental) transliteration --
rsource.remove();
rsource.append(source);
UTransPosition index;
index.contextStart=0;
index.contextLimit = source.length();
index.start =0;
index.limit=source.length();
pseudoHandleTransliterate(&t, rsource, index, TRUE);
expectAux(t.getID() + ":handleTransliterate " + message, source + "->" + rsource, rsource==expectedResult, expectedResult);
}
void UniToHexTransliteratorTest::expectAux(const UnicodeString& tag,
const UnicodeString& summary, UBool pass,
const UnicodeString& expectedResult) {
if (pass) {
logln(UnicodeString("(")+tag+") " + prettify(summary));
} else {
errln(UnicodeString("FAIL: (")+tag+") "
+ prettify(summary)
+ ", expected " + prettify(expectedResult));
}
}
#endif /* #if !UCONFIG_NO_TRANSLITERATION */