Google Git
Sign in
skia / external / github.com / unicode-org / icu / 64b35481263ac4df37a28a9c549553ecc9710db2 / . / icu4c / source / test / intltest / itutil.cpp
blob: 5793261a91d59dba83579969dc312a2c37b5d033 [file] [log] [blame]
// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/********************************************************************
* COPYRIGHT:
* Copyright (c) 1997-2016, International Business Machines Corporation and
* others. All Rights Reserved.
********************************************************************/
#include <utility>
/**
* IntlTestUtilities is the medium level test class for everything in the directory "utility".
*/
#include "unicode/utypes.h"
#include "unicode/errorcode.h"
#include "unicode/localpointer.h"
#include "charstr.h"
#include "itutil.h"
#include "strtest.h"
#include "loctest.h"
#include "localebuildertest.h"
#include "citrtest.h"
#include "ustrtest.h"
#include "ucdtest.h"
#include "restest.h"
#include "restsnew.h"
#include "tsmthred.h"
#include "tsputil.h"
#include "uobjtest.h"
#include "utxttest.h"
#include "v32test.h"
#include "uvectest.h"
#include "aliastst.h"
#include "usettest.h"
extern IntlTest *createBytesTrieTest();
extern IntlTest *createLocaleMatcherTest();
static IntlTest *createLocalPointerTest();
extern IntlTest *createUCharsTrieTest();
static IntlTest *createEnumSetTest();
extern IntlTest *createSimpleFormatterTest();
extern IntlTest *createUnifiedCacheTest();
extern IntlTest *createQuantityFormatterTest();
extern IntlTest *createPluralMapTest();
#if !UCONFIG_NO_FORMATTING
extern IntlTest *createStaticUnicodeSetsTest();
#endif
void IntlTestUtilities::runIndexedTest( int32_t index, UBool exec, const char* &name, char* par )
{
if (exec) logln("TestSuite Utilities: ");
TESTCASE_AUTO_BEGIN;
TESTCASE_AUTO_CLASS(MultithreadTest);
TESTCASE_AUTO_CLASS(StringTest);
TESTCASE_AUTO_CLASS(UnicodeStringTest);
TESTCASE_AUTO_CLASS(LocaleTest);
TESTCASE_AUTO_CLASS(CharIterTest);
TESTCASE_AUTO_CLASS(UObjectTest);
TESTCASE_AUTO_CLASS(UnicodeTest);
TESTCASE_AUTO_CLASS(ResourceBundleTest);
TESTCASE_AUTO_CLASS(NewResourceBundleTest);
TESTCASE_AUTO_CLASS(PUtilTest);
TESTCASE_AUTO_CLASS(UVector32Test);
TESTCASE_AUTO_CLASS(UVectorTest);
TESTCASE_AUTO_CLASS(UTextTest);
TESTCASE_AUTO_CLASS(LocaleAliasTest);
TESTCASE_AUTO_CLASS(UnicodeSetTest);
TESTCASE_AUTO_CLASS(ErrorCodeTest);
TESTCASE_AUTO_CREATE_CLASS(LocalPointerTest);
TESTCASE_AUTO_CREATE_CLASS(BytesTrieTest);
TESTCASE_AUTO_CREATE_CLASS(UCharsTrieTest);
TESTCASE_AUTO_CREATE_CLASS(EnumSetTest);
TESTCASE_AUTO_CREATE_CLASS(SimpleFormatterTest);
TESTCASE_AUTO_CREATE_CLASS(UnifiedCacheTest);
TESTCASE_AUTO_CREATE_CLASS(QuantityFormatterTest);
TESTCASE_AUTO_CREATE_CLASS(PluralMapTest);
#if !UCONFIG_NO_FORMATTING
TESTCASE_AUTO_CREATE_CLASS(StaticUnicodeSetsTest);
#endif
TESTCASE_AUTO_CLASS(LocaleBuilderTest);
TESTCASE_AUTO_CREATE_CLASS(LocaleMatcherTest);
TESTCASE_AUTO_END;
}
void ErrorCodeTest::runIndexedTest(int32_t index, UBool exec, const char* &name, char* /*par*/) {
if (exec) logln("TestSuite Utilities: ");
switch (index) {
case 0: name = "TestErrorCode"; if (exec) TestErrorCode(); break;
case 1: name = "TestSubclass"; if (exec) TestSubclass(); break;
case 2: name = "TestIcuTestErrorCode"; if (exec) TestIcuTestErrorCode(); break;
default: name = ""; break; //needed to end loop
}
}
static void RefPlusOne(UErrorCode &code) { code=(UErrorCode)(code+1); }
static void PtrPlusTwo(UErrorCode *code) { *code=(UErrorCode)(*code+2); }
void ErrorCodeTest::TestErrorCode() {
ErrorCode errorCode;
if(errorCode.get()!=U_ZERO_ERROR || !errorCode.isSuccess() || errorCode.isFailure()) {
errln("ErrorCode did not initialize properly");
return;
}
errorCode.assertSuccess();
if(errorCode.errorName()!=u_errorName(U_ZERO_ERROR)) {
errln("ErrorCode did not format error message string properly");
}
RefPlusOne(errorCode);
if(errorCode.get()!=U_ILLEGAL_ARGUMENT_ERROR || errorCode.isSuccess() || !errorCode.isFailure()) {
errln("ErrorCode did not yield a writable reference");
}
PtrPlusTwo(errorCode);
if(errorCode.get()!=U_INVALID_FORMAT_ERROR || errorCode.isSuccess() || !errorCode.isFailure()) {
errln("ErrorCode did not yield a writable pointer");
}
errorCode.set(U_PARSE_ERROR);
if(errorCode.get()!=U_PARSE_ERROR || errorCode.isSuccess() || !errorCode.isFailure()) {
errln("ErrorCode.set() failed");
}
if( errorCode.reset()!=U_PARSE_ERROR || errorCode.get()!=U_ZERO_ERROR ||
!errorCode.isSuccess() || errorCode.isFailure()
) {
errln("ErrorCode did not reset properly");
}
}
class MyErrorCode: public ErrorCode {
public:
MyErrorCode(int32_t &countChecks, int32_t &countDests)
: checks(countChecks), dests(countDests) {}
~MyErrorCode() {
if(isFailure()) {
++dests;
}
}
private:
virtual void handleFailure() const override {
++checks;
}
int32_t &checks;
int32_t &dests;
};
void ErrorCodeTest::TestSubclass() {
int32_t countChecks=0;
int32_t countDests=0;
{
MyErrorCode errorCode(countChecks, countDests);
if( errorCode.get()!=U_ZERO_ERROR || !errorCode.isSuccess() || errorCode.isFailure() ||
countChecks!=0 || countDests!=0
) {
errln("ErrorCode did not initialize properly");
return;
}
errorCode.assertSuccess();
if(countChecks!=0) {
errln("ErrorCode.assertSuccess() called handleFailure() despite success");
}
RefPlusOne(errorCode);
if(errorCode.get()!=U_ILLEGAL_ARGUMENT_ERROR || errorCode.isSuccess() || !errorCode.isFailure()) {
errln("ErrorCode did not yield a writable reference");
}
errorCode.assertSuccess();
if(countChecks!=1) {
errln("ErrorCode.assertSuccess() did not handleFailure()");
}
PtrPlusTwo(errorCode);
if(errorCode.get()!=U_INVALID_FORMAT_ERROR || errorCode.isSuccess() || !errorCode.isFailure()) {
errln("ErrorCode did not yield a writable pointer");
}
errorCode.assertSuccess();
if(countChecks!=2) {
errln("ErrorCode.assertSuccess() did not handleFailure()");
}
errorCode.set(U_PARSE_ERROR);
if(errorCode.get()!=U_PARSE_ERROR || errorCode.isSuccess() || !errorCode.isFailure()) {
errln("ErrorCode.set() failed");
}
if( errorCode.reset()!=U_PARSE_ERROR || errorCode.get()!=U_ZERO_ERROR ||
!errorCode.isSuccess() || errorCode.isFailure()
) {
errln("ErrorCode did not reset properly");
}
errorCode.assertSuccess();
if(countChecks!=2) {
errln("ErrorCode.assertSuccess() called handleFailure() despite success");
}
}
if(countDests!=0) {
errln("MyErrorCode destructor detected failure despite success");
}
countChecks=countDests=0;
{
MyErrorCode errorCode(countChecks, countDests);
errorCode.set(U_PARSE_ERROR);
}
if(countDests!=1) {
errln("MyErrorCode destructor failed to detect failure");
}
}
class IcuTestErrorCodeTestHelper : public IntlTest {
public:
void errln( const UnicodeString &message ) U_OVERRIDE {
test->assertFalse("Already saw an error", seenError);
seenError = TRUE;
test->assertEquals("Message for Error", expectedErrln, message);
if (expectedDataErr) {
test->errln("Got non-data error, but expected data error");
}
}
void dataerrln( const UnicodeString &message ) U_OVERRIDE {
test->assertFalse("Already saw an error", seenError);
seenError = TRUE;
test->assertEquals("Message for Error", expectedErrln, message);
if (!expectedDataErr) {
test->errln("Got data error, but expected non-data error");
}
}
IntlTest* test;
UBool expectedDataErr;
UnicodeString expectedErrln;
UBool seenError;
};
void ErrorCodeTest::TestIcuTestErrorCode() {
IcuTestErrorCodeTestHelper helper;
helper.test = this;
// Test destructor message
helper.expectedErrln = u"AAA destructor: expected success but got error: U_ILLEGAL_PAD_POSITION";
helper.expectedDataErr = FALSE;
helper.seenError = FALSE;
{
IcuTestErrorCode testStatus(helper, "AAA");
testStatus.set(U_ILLEGAL_PAD_POSITION);
}
assertTrue("Should have seen an error", helper.seenError);
// Test destructor message with scope
helper.expectedErrln = u"BBB destructor: expected success but got error: U_ILLEGAL_PAD_POSITION scope: foo";
helper.expectedDataErr = FALSE;
helper.seenError = FALSE;
{
IcuTestErrorCode testStatus(helper, "BBB");
testStatus.setScope("foo");
testStatus.set(U_ILLEGAL_PAD_POSITION);
}
assertTrue("Should have seen an error", helper.seenError);
// Check errIfFailure message with scope
helper.expectedErrln = u"CCC expected success but got error: U_ILLEGAL_PAD_POSITION scope: foo";
helper.expectedDataErr = FALSE;
helper.seenError = FALSE;
{
IcuTestErrorCode testStatus(helper, "CCC");
testStatus.setScope("foo");
testStatus.set(U_ILLEGAL_PAD_POSITION);
testStatus.errIfFailureAndReset();
assertTrue("Should have seen an error", helper.seenError);
helper.seenError = FALSE;
helper.expectedErrln = u"CCC expected success but got error: U_ILLEGAL_CHAR_FOUND scope: foo - 5.4300";
testStatus.set(U_ILLEGAL_CHAR_FOUND);
testStatus.errIfFailureAndReset("%6.4f", 5.43);
assertTrue("Should have seen an error", helper.seenError);
}
// Check errDataIfFailure message without scope
helper.expectedErrln = u"DDD data: expected success but got error: U_ILLEGAL_PAD_POSITION";
helper.expectedDataErr = TRUE;
helper.seenError = FALSE;
{
IcuTestErrorCode testStatus(helper, "DDD");
testStatus.set(U_ILLEGAL_PAD_POSITION);
testStatus.errDataIfFailureAndReset();
assertTrue("Should have seen an error", helper.seenError);
helper.seenError = FALSE;
helper.expectedErrln = u"DDD data: expected success but got error: U_ILLEGAL_CHAR_FOUND - 5.4300";
testStatus.set(U_ILLEGAL_CHAR_FOUND);
testStatus.errDataIfFailureAndReset("%6.4f", 5.43);
assertTrue("Should have seen an error", helper.seenError);
}
// Check expectFailure
helper.expectedErrln = u"EEE expected: U_ILLEGAL_CHAR_FOUND but got error: U_ILLEGAL_PAD_POSITION";
helper.expectedDataErr = FALSE;
helper.seenError = FALSE;
{
IcuTestErrorCode testStatus(helper, "EEE");
testStatus.set(U_ILLEGAL_PAD_POSITION);
testStatus.expectErrorAndReset(U_ILLEGAL_PAD_POSITION);
assertFalse("Should NOT have seen an error", helper.seenError);
testStatus.set(U_ILLEGAL_PAD_POSITION);
testStatus.expectErrorAndReset(U_ILLEGAL_CHAR_FOUND);
assertTrue("Should have seen an error", helper.seenError);
helper.seenError = FALSE;
helper.expectedErrln = u"EEE expected: U_ILLEGAL_CHAR_FOUND but got error: U_ZERO_ERROR scope: scopety scope - 5.4300";
testStatus.setScope("scopety scope");
testStatus.set(U_ILLEGAL_PAD_POSITION);
testStatus.expectErrorAndReset(U_ILLEGAL_PAD_POSITION, "%6.4f", 5.43);
assertFalse("Should NOT have seen an error", helper.seenError);
testStatus.expectErrorAndReset(U_ILLEGAL_CHAR_FOUND, "%6.4f", 5.43);
assertTrue("Should have seen an error", helper.seenError);
}
}
class LocalPointerTest : public IntlTest {
public:
LocalPointerTest() {}
void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par=NULL) override;
void TestLocalPointer();
void TestLocalPointerMoveSwap();
void TestLocalPointerStdUniquePtr();
void TestLocalArray();
void TestLocalArrayMoveSwap();
void TestLocalArrayStdUniquePtr();
void TestLocalXyzPointer();
void TestLocalXyzPointerMoveSwap();
void TestLocalXyzPointerNull();
void TestLocalXyzStdUniquePtr();
};
static IntlTest *createLocalPointerTest() {
return new LocalPointerTest();
}
void LocalPointerTest::runIndexedTest(int32_t index, UBool exec, const char *&name, char * /*par*/) {
if(exec) {
logln("TestSuite LocalPointerTest: ");
}
TESTCASE_AUTO_BEGIN;
TESTCASE_AUTO(TestLocalPointer);
TESTCASE_AUTO(TestLocalPointerMoveSwap);
TESTCASE_AUTO(TestLocalPointerStdUniquePtr);
TESTCASE_AUTO(TestLocalArray);
TESTCASE_AUTO(TestLocalArrayMoveSwap);
TESTCASE_AUTO(TestLocalArrayStdUniquePtr);
TESTCASE_AUTO(TestLocalXyzPointer);
TESTCASE_AUTO(TestLocalXyzPointerMoveSwap);
TESTCASE_AUTO(TestLocalXyzPointerNull);
TESTCASE_AUTO(TestLocalXyzStdUniquePtr);
TESTCASE_AUTO_END;
}
// Exercise almost every LocalPointer and LocalPointerBase method.
void LocalPointerTest::TestLocalPointer() {
// constructor
LocalPointer<UnicodeString> s(new UnicodeString((UChar32)0x50005));
// isNULL(), isValid(), operator==(), operator!=()
if(s.isNull() || !s.isValid() || s==NULL || !(s!=NULL)) {
errln("LocalPointer constructor or NULL test failure");
return;
}
// getAlias(), operator->, operator*
if(s.getAlias()->length()!=2 || s->length()!=2 || (*s).length()!=2) {
errln("LocalPointer access failure");
}
// adoptInstead(), orphan()
s.adoptInstead(new UnicodeString((UChar)0xfffc));
if(s->length()!=1) {
errln("LocalPointer adoptInstead(U+FFFC) failure");
}
UnicodeString *orphan=s.orphan();
if(orphan==NULL || orphan->length()!=1 || s.isValid() || s!=NULL) {
errln("LocalPointer orphan() failure");
}
delete orphan;
s.adoptInstead(new UnicodeString());
if(s->length()!=0) {
errln("LocalPointer adoptInstead(empty) failure");
}
// LocalPointer(p, errorCode) sets U_MEMORY_ALLOCATION_ERROR if p==NULL.
UErrorCode errorCode = U_ZERO_ERROR;
LocalPointer<CharString> csx(new CharString("some chars", errorCode), errorCode);
if(csx.isNull() && U_SUCCESS(errorCode)) {
errln("LocalPointer(p, errorCode) failure");
return;
}
errorCode = U_ZERO_ERROR;
csx.adoptInsteadAndCheckErrorCode(new CharString("different chars", errorCode), errorCode);
if(csx.isNull() && U_SUCCESS(errorCode)) {
errln("adoptInsteadAndCheckErrorCode(p, errorCode) failure");
return;
}
// Incoming failure: Keep the current object and delete the input object.
errorCode = U_ILLEGAL_ARGUMENT_ERROR;
csx.adoptInsteadAndCheckErrorCode(new CharString("unused", errorCode), errorCode);
if(csx.isValid() && strcmp(csx->data(), "different chars") != 0) {
errln("adoptInsteadAndCheckErrorCode(p, U_FAILURE) did not retain the old object");
return;
}
errorCode = U_ZERO_ERROR;
csx.adoptInsteadAndCheckErrorCode(NULL, errorCode);
if(errorCode != U_MEMORY_ALLOCATION_ERROR) {
errln("adoptInsteadAndCheckErrorCode(NULL, errorCode) did not set U_MEMORY_ALLOCATION_ERROR");
return;
}
if(csx.isValid()) {
errln("adoptInsteadAndCheckErrorCode(NULL, errorCode) kept the object");
return;
}
errorCode = U_ZERO_ERROR;
LocalPointer<CharString> null(NULL, errorCode);
if(errorCode != U_MEMORY_ALLOCATION_ERROR) {
errln("LocalPointer(NULL, errorCode) did not set U_MEMORY_ALLOCATION_ERROR");
return;
}
// destructor
}
// Try to avoid clang -Wself-move warnings from s1 = std::move(s1);
template<typename T>
void moveFrom(T &dest, T &src) {
dest = std::move(src);
}
void LocalPointerTest::TestLocalPointerMoveSwap() {
UnicodeString *p1 = new UnicodeString((UChar)0x61);
UnicodeString *p2 = new UnicodeString((UChar)0x62);
LocalPointer<UnicodeString> s1(p1);
LocalPointer<UnicodeString> s2(p2);
s1.swap(s2);
if(s1.getAlias() != p2 || s2.getAlias() != p1) {
errln("LocalPointer.swap() did not swap");
}
swap(s1, s2);
if(s1.getAlias() != p1 || s2.getAlias() != p2) {
errln("swap(LocalPointer) did not swap back");
}
LocalPointer<UnicodeString> s3;
s3 = std::move(s1);
if(s3.getAlias() != p1 || s1.isValid()) {
errln("LocalPointer = std::move() did not move");
}
infoln("TestLocalPointerMoveSwap() with rvalue references");
s1 = static_cast<LocalPointer<UnicodeString> &&>(s3);
if(s1.getAlias() != p1 || s3.isValid()) {
errln("LocalPointer move assignment operator did not move");
}
LocalPointer<UnicodeString> s4(static_cast<LocalPointer<UnicodeString> &&>(s2));
if(s4.getAlias() != p2 || s2.isValid()) {
errln("LocalPointer move constructor did not move");
}
// Move self assignment leaves the object valid but in an undefined state.
// Do it to make sure there is no crash,
// but do not check for any particular resulting value.
moveFrom(s1, s1);
moveFrom(s3, s3);
}
void LocalPointerTest::TestLocalPointerStdUniquePtr() {
auto* ptr = new UnicodeString((UChar32)0x50005);
// Implicit conversion operator
std::unique_ptr<UnicodeString> s = LocalPointer<UnicodeString>(ptr);
// Explicit move constructor
LocalPointer<UnicodeString> s2(std::move(s));
// Conversion operator should also work with std::move
s = std::move(s2);
// Back again with move assignment
s2 = std::move(s);
assertTrue("Pointer should remain the same", ptr == s2.getAlias());
}
// Exercise almost every LocalArray method (but not LocalPointerBase).
void LocalPointerTest::TestLocalArray() {
// constructor
LocalArray<UnicodeString> a(new UnicodeString[2]);
// operator[]()
a[0].append((UChar)0x61);
a[1].append((UChar32)0x60006);
if(a[0].length()!=1 || a[1].length()!=2) {
errln("LocalArray access failure");
}
// adoptInstead()
a.adoptInstead(new UnicodeString[4]);
a[3].append((UChar)0x62).append((UChar)0x63).reverse();
if(a[3].length()!=2 || a[3][1]!=0x62) {
errln("LocalArray adoptInstead() failure");
}
// LocalArray(p, errorCode) sets U_MEMORY_ALLOCATION_ERROR if p==NULL.
UErrorCode errorCode = U_ZERO_ERROR;
LocalArray<UnicodeString> ua(new UnicodeString[3], errorCode);
if(ua.isNull() && U_SUCCESS(errorCode)) {
errln("LocalArray(p, errorCode) failure");
return;
}
errorCode = U_ZERO_ERROR;
UnicodeString *u4 = new UnicodeString[4];
ua.adoptInsteadAndCheckErrorCode(u4, errorCode);
if(ua.isNull() && U_SUCCESS(errorCode)) {
errln("adoptInsteadAndCheckErrorCode(p, errorCode) failure");
return;
}
// Incoming failure: Keep the current object and delete the input object.
errorCode = U_ILLEGAL_ARGUMENT_ERROR;
ua.adoptInsteadAndCheckErrorCode(new UnicodeString[5], errorCode);
if(ua.isValid() && ua.getAlias() != u4) {
errln("adoptInsteadAndCheckErrorCode(p, U_FAILURE) did not retain the old array");
return;
}
errorCode = U_ZERO_ERROR;
ua.adoptInsteadAndCheckErrorCode(NULL, errorCode);
if(errorCode != U_MEMORY_ALLOCATION_ERROR) {
errln("adoptInsteadAndCheckErrorCode(NULL, errorCode) did not set U_MEMORY_ALLOCATION_ERROR");
return;
}
if(ua.isValid()) {
errln("adoptInsteadAndCheckErrorCode(NULL, errorCode) kept the array");
return;
}
errorCode = U_ZERO_ERROR;
LocalArray<UnicodeString> null(NULL, errorCode);
if(errorCode != U_MEMORY_ALLOCATION_ERROR) {
errln("LocalArray(NULL, errorCode) did not set U_MEMORY_ALLOCATION_ERROR");
return;
}
// destructor
}
void LocalPointerTest::TestLocalArrayMoveSwap() {
UnicodeString *p1 = new UnicodeString[2];
UnicodeString *p2 = new UnicodeString[3];
LocalArray<UnicodeString> a1(p1);
LocalArray<UnicodeString> a2(p2);
a1.swap(a2);
if(a1.getAlias() != p2 || a2.getAlias() != p1) {
errln("LocalArray.swap() did not swap");
}
swap(a1, a2);
if(a1.getAlias() != p1 || a2.getAlias() != p2) {
errln("swap(LocalArray) did not swap back");
}
LocalArray<UnicodeString> a3;
a3 = std::move(a1);
if(a3.getAlias() != p1 || a1.isValid()) {
errln("LocalArray = std::move() did not move");
}
infoln("TestLocalArrayMoveSwap() with rvalue references");
a1 = static_cast<LocalArray<UnicodeString> &&>(a3);
if(a1.getAlias() != p1 || a3.isValid()) {
errln("LocalArray move assignment operator did not move");
}
LocalArray<UnicodeString> a4(static_cast<LocalArray<UnicodeString> &&>(a2));
if(a4.getAlias() != p2 || a2.isValid()) {
errln("LocalArray move constructor did not move");
}
// Move self assignment leaves the object valid but in an undefined state.
// Do it to make sure there is no crash,
// but do not check for any particular resulting value.
moveFrom(a1, a1);
moveFrom(a3, a3);
}
void LocalPointerTest::TestLocalArrayStdUniquePtr() {
auto* ptr = new UnicodeString[2];
// Implicit conversion operator
std::unique_ptr<UnicodeString[]> a = LocalArray<UnicodeString>(ptr);
// Explicit move constructor
LocalArray<UnicodeString> a2(std::move(a));
// Conversion operator should also work with std::move
a = std::move(a2);
// Back again with move assignment
a2 = std::move(a);
assertTrue("Pointer should remain the same", ptr == a2.getAlias());
}
#include "unicode/ucnvsel.h"
#include "unicode/ucal.h"
#include "unicode/udatpg.h"
#include "unicode/uidna.h"
#include "unicode/uldnames.h"
#include "unicode/umsg.h"
#include "unicode/unorm2.h"
#include "unicode/uregex.h"
#include "unicode/utrans.h"
#include "unicode/uformattedvalue.h"
// Use LocalXyzPointer types that are not covered elsewhere in the intltest suite.
void LocalPointerTest::TestLocalXyzPointer() {
IcuTestErrorCode errorCode(*this, "TestLocalXyzPointer");
static const char *const encoding="ISO-8859-1";
LocalUConverterSelectorPointer sel(
ucnvsel_open(&encoding, 1, NULL, UCNV_ROUNDTRIP_SET, errorCode));
if(errorCode.errIfFailureAndReset("ucnvsel_open()")) {
return;
}
if(sel.isNull()) {
errln("LocalUConverterSelectorPointer failure");
return;
}
#if !UCONFIG_NO_FORMATTING
LocalUCalendarPointer cal(ucal_open(NULL, 0, "root", UCAL_GREGORIAN, errorCode));
if(errorCode.errDataIfFailureAndReset("ucal_open()")) {
return;
}
if(cal.isNull()) {
errln("LocalUCalendarPointer failure");
return;
}
LocalUDateTimePatternGeneratorPointer patgen(udatpg_open("root", errorCode));
if(errorCode.errDataIfFailureAndReset("udatpg_open()")) {
return;
}
if(patgen.isNull()) {
errln("LocalUDateTimePatternGeneratorPointer failure");
return;
}
LocalULocaleDisplayNamesPointer ldn(uldn_open("de-CH", ULDN_STANDARD_NAMES, errorCode));
if(errorCode.errIfFailureAndReset("uldn_open()")) {
return;
}
if(ldn.isNull()) {
errln("LocalULocaleDisplayNamesPointer failure");
return;
}
UnicodeString hello=UNICODE_STRING_SIMPLE("Hello {0}!");
LocalUMessageFormatPointer msg(
umsg_open(hello.getBuffer(), hello.length(), "root", NULL, errorCode));
if(errorCode.errIfFailureAndReset("umsg_open()")) {
return;
}
if(msg.isNull()) {
errln("LocalUMessageFormatPointer failure");
return;
}
#endif /* UCONFIG_NO_FORMATTING */
#if !UCONFIG_NO_NORMALIZATION
const UNormalizer2 *nfc=unorm2_getNFCInstance(errorCode);
UnicodeSet emptySet;
LocalUNormalizer2Pointer fn2(unorm2_openFiltered(nfc, emptySet.toUSet(), errorCode));
if(errorCode.errIfFailureAndReset("unorm2_openFiltered()")) {
return;
}
if(fn2.isNull()) {
errln("LocalUNormalizer2Pointer failure");
return;
}
#endif /* !UCONFIG_NO_NORMALIZATION */
#if !UCONFIG_NO_IDNA
LocalUIDNAPointer idna(uidna_openUTS46(0, errorCode));
if(errorCode.errIfFailureAndReset("uidna_openUTS46()")) {
return;
}
if(idna.isNull()) {
errln("LocalUIDNAPointer failure");
return;
}
#endif /* !UCONFIG_NO_IDNA */
#if !UCONFIG_NO_REGULAR_EXPRESSIONS
UnicodeString pattern=UNICODE_STRING_SIMPLE("abc|xy+z");
LocalURegularExpressionPointer regex(
uregex_open(pattern.getBuffer(), pattern.length(), 0, NULL, errorCode));
if(errorCode.errIfFailureAndReset("uregex_open()")) {
return;
}
if(regex.isNull()) {
errln("LocalURegularExpressionPointer failure");
return;
}
#endif /* UCONFIG_NO_REGULAR_EXPRESSIONS */
#if !UCONFIG_NO_TRANSLITERATION
UnicodeString id=UNICODE_STRING_SIMPLE("Grek-Latn");
LocalUTransliteratorPointer trans(
utrans_openU(id.getBuffer(), id.length(), UTRANS_FORWARD, NULL, 0, NULL, errorCode));
if(errorCode.errIfFailureAndReset("utrans_open()")) {
return;
}
if(trans.isNull()) {
errln("LocalUTransliteratorPointer failure");
return;
}
#endif /* !UCONFIG_NO_TRANSLITERATION */
// destructors
}
void LocalPointerTest::TestLocalXyzPointerMoveSwap() {
#if !UCONFIG_NO_NORMALIZATION
IcuTestErrorCode errorCode(*this, "TestLocalXyzPointerMoveSwap");
const UNormalizer2 *nfc=unorm2_getNFCInstance(errorCode);
const UNormalizer2 *nfd=unorm2_getNFDInstance(errorCode);
if(errorCode.errIfFailureAndReset("unorm2_getNF[CD]Instance()")) {
return;
}
UnicodeSet emptySet;
UNormalizer2 *p1 = unorm2_openFiltered(nfc, emptySet.toUSet(), errorCode);
UNormalizer2 *p2 = unorm2_openFiltered(nfd, emptySet.toUSet(), errorCode);
LocalUNormalizer2Pointer f1(p1);
LocalUNormalizer2Pointer f2(p2);
if(errorCode.errIfFailureAndReset("unorm2_openFiltered()")) {
return;
}
if(f1.isNull() || f2.isNull()) {
errln("LocalUNormalizer2Pointer failure");
return;
}
f1.swap(f2);
if(f1.getAlias() != p2 || f2.getAlias() != p1) {
errln("LocalUNormalizer2Pointer.swap() did not swap");
}
swap(f1, f2);
if(f1.getAlias() != p1 || f2.getAlias() != p2) {
errln("swap(LocalUNormalizer2Pointer) did not swap back");
}
LocalUNormalizer2Pointer f3;
f3 = std::move(f1);
if(f3.getAlias() != p1 || f1.isValid()) {
errln("LocalUNormalizer2Pointer = std::move() did not move");
}
infoln("TestLocalXyzPointerMoveSwap() with rvalue references");
f1 = static_cast<LocalUNormalizer2Pointer &&>(f3);
if(f1.getAlias() != p1 || f3.isValid()) {
errln("LocalUNormalizer2Pointer move assignment operator did not move");
}
LocalUNormalizer2Pointer f4(static_cast<LocalUNormalizer2Pointer &&>(f2));
if(f4.getAlias() != p2 || f2.isValid()) {
errln("LocalUNormalizer2Pointer move constructor did not move");
}
// Move self assignment leaves the object valid but in an undefined state.
// Do it to make sure there is no crash,
// but do not check for any particular resulting value.
moveFrom(f1, f1);
moveFrom(f3, f3);
#endif /* !UCONFIG_NO_NORMALIZATION */
}
// Try LocalXyzPointer types with NULL pointers.
void LocalPointerTest::TestLocalXyzPointerNull() {
{
IcuTestErrorCode errorCode(*this, "TestLocalXyzPointerNull/LocalUConverterSelectorPointer");
static const char *const encoding="ISO-8859-1";
LocalUConverterSelectorPointer null;
LocalUConverterSelectorPointer sel(
ucnvsel_open(&encoding, 1, NULL, UCNV_ROUNDTRIP_SET, errorCode));
sel.adoptInstead(NULL);
}
#if !UCONFIG_NO_FORMATTING
{
IcuTestErrorCode errorCode(*this, "TestLocalXyzPointerNull/LocalUCalendarPointer");
LocalUCalendarPointer null;
LocalUCalendarPointer cal(ucal_open(NULL, 0, "root", UCAL_GREGORIAN, errorCode));
if(!errorCode.errDataIfFailureAndReset("ucal_open()")) {
cal.adoptInstead(NULL);
}
}
{
IcuTestErrorCode errorCode(*this, "TestLocalXyzPointerNull/LocalUDateTimePatternGeneratorPointer");
LocalUDateTimePatternGeneratorPointer null;
LocalUDateTimePatternGeneratorPointer patgen(udatpg_open("root", errorCode));
patgen.adoptInstead(NULL);
}
{
IcuTestErrorCode errorCode(*this, "TestLocalXyzPointerNull/LocalUMessageFormatPointer");
UnicodeString hello=UNICODE_STRING_SIMPLE("Hello {0}!");
LocalUMessageFormatPointer null;
LocalUMessageFormatPointer msg(
umsg_open(hello.getBuffer(), hello.length(), "root", NULL, errorCode));
msg.adoptInstead(NULL);
}
#endif /* !UCONFIG_NO_FORMATTING */
#if !UCONFIG_NO_REGULAR_EXPRESSIONS
{
IcuTestErrorCode errorCode(*this, "TestLocalXyzPointerNull/LocalURegularExpressionPointer");
UnicodeString pattern=UNICODE_STRING_SIMPLE("abc|xy+z");
LocalURegularExpressionPointer null;
LocalURegularExpressionPointer regex(
uregex_open(pattern.getBuffer(), pattern.length(), 0, NULL, errorCode));
if(!errorCode.errDataIfFailureAndReset("urege_open()")) {
regex.adoptInstead(NULL);
}
}
#endif /* !UCONFIG_NO_REGULAR_EXPRESSIONS */
#if !UCONFIG_NO_TRANSLITERATION
{
IcuTestErrorCode errorCode(*this, "TestLocalXyzPointerNull/LocalUTransliteratorPointer");
UnicodeString id=UNICODE_STRING_SIMPLE("Grek-Latn");
LocalUTransliteratorPointer null;
LocalUTransliteratorPointer trans(
utrans_openU(id.getBuffer(), id.length(), UTRANS_FORWARD, NULL, 0, NULL, errorCode));
if(!errorCode.errDataIfFailureAndReset("utrans_openU()")) {
trans.adoptInstead(NULL);
}
}
#endif /* !UCONFIG_NO_TRANSLITERATION */
}
void LocalPointerTest::TestLocalXyzStdUniquePtr() {
IcuTestErrorCode status(*this, "TestLocalXyzStdUniquePtr");
#if !UCONFIG_NO_FORMATTING
auto* ptr = ucfpos_open(status);
// Implicit conversion operator
std::unique_ptr<UConstrainedFieldPosition, void(*)(UConstrainedFieldPosition*)> a =
LocalUConstrainedFieldPositionPointer(ptr);
// Explicit move constructor
LocalUConstrainedFieldPositionPointer a2(std::move(a));
// Conversion operator should also work with std::move
a = std::move(a2);
// Back again with move assignment
a2 = std::move(a);
assertTrue("Pointer should remain the same", ptr == a2.getAlias());
#endif // UCONFIG_NO_FORMATTING
}
/** EnumSet test **/
#include "unicode/enumset.h"
class EnumSetTest : public IntlTest {
public:
EnumSetTest() {}
virtual void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par=NULL) override;
void TestEnumSet();
};
static IntlTest *createEnumSetTest() {
return new EnumSetTest();
}
void EnumSetTest::runIndexedTest(int32_t index, UBool exec, const char *&name, char * /*par*/) {
TESTCASE_AUTO_BEGIN;
TESTCASE_AUTO(TestEnumSet);
TESTCASE_AUTO_END;
}
enum myEnum {
MAX_NONBOOLEAN=-1,
THING1,
THING2,
THING3,
LIMIT_BOOLEAN
};
void EnumSetTest::TestEnumSet() {
EnumSet<myEnum,
MAX_NONBOOLEAN+1,
LIMIT_BOOLEAN>
flags;
logln("Enum is from [%d..%d]\n", MAX_NONBOOLEAN+1,
LIMIT_BOOLEAN);
assertFalse(WHERE, flags.get(THING1));
assertFalse(WHERE, flags.get(THING2));
assertFalse(WHERE, flags.get(THING3));
logln("get(thing1)=%d, get(thing2)=%d, get(thing3)=%d\n", flags.get(THING1), flags.get(THING2), flags.get(THING3));
logln("Value now: %d\n", flags.getAll());
flags.clear();
logln("clear -Value now: %d\n", flags.getAll());
logln("get(thing1)=%d, get(thing2)=%d, get(thing3)=%d\n", flags.get(THING1), flags.get(THING2), flags.get(THING3));
assertFalse(WHERE, flags.get(THING1));
assertFalse(WHERE, flags.get(THING2));
assertFalse(WHERE, flags.get(THING3));
flags.add(THING1);
logln("set THING1 -Value now: %d\n", flags.getAll());
assertTrue(WHERE, flags.get(THING1));
assertFalse(WHERE, flags.get(THING2));
assertFalse(WHERE, flags.get(THING3));
logln("get(thing1)=%d, get(thing2)=%d, get(thing3)=%d\n", flags.get(THING1), flags.get(THING2), flags.get(THING3));
flags.add(THING3);
logln("set THING3 -Value now: %d\n", flags.getAll());
assertTrue(WHERE, flags.get(THING1));
assertFalse(WHERE, flags.get(THING2));
assertTrue(WHERE, flags.get(THING3));
logln("get(thing1)=%d, get(thing2)=%d, get(thing3)=%d\n", flags.get(THING1), flags.get(THING2), flags.get(THING3));
flags.remove(THING2);
assertTrue(WHERE, flags.get(THING1));
assertFalse(WHERE, flags.get(THING2));
assertTrue(WHERE, flags.get(THING3));
logln("remove THING2 -Value now: %d\n", flags.getAll());
logln("get(thing1)=%d, get(thing2)=%d, get(thing3)=%d\n", flags.get(THING1), flags.get(THING2), flags.get(THING3));
flags.remove(THING1);
assertFalse(WHERE, flags.get(THING1));
assertFalse(WHERE, flags.get(THING2));
assertTrue(WHERE, flags.get(THING3));
logln("remove THING1 -Value now: %d\n", flags.getAll());
logln("get(thing1)=%d, get(thing2)=%d, get(thing3)=%d\n", flags.get(THING1), flags.get(THING2), flags.get(THING3));
flags.clear();
logln("clear -Value now: %d\n", flags.getAll());
logln("get(thing1)=%d, get(thing2)=%d, get(thing3)=%d\n", flags.get(THING1), flags.get(THING2), flags.get(THING3));
assertFalse(WHERE, flags.get(THING1));
assertFalse(WHERE, flags.get(THING2));
assertFalse(WHERE, flags.get(THING3));
}