#include <string.h>
#include <math.h>
#include <stdlib.h>
#include "unicode/utypes.h"
#include "unicode/uchar.h"
#include "unicode/putil.h"
#include "unicode/ustring.h"
#include "unicode/uloc.h"
#include "unicode/unorm2.h"
#include "cintltst.h"
#include "putilimp.h"
#include "uparse.h"
#include "ucase.h"
#include "ubidi_props.h"
#include "uprops.h"
#include "uset_imp.h"
#include "usc_impl.h"
#include "udatamem.h"
#include "cucdapi.h"
#define LENGTHOF(array) (int32_t)(sizeof(array)/sizeof((array)[0]))
static void TestUpperLower(void);
static void TestLetterNumber(void);
static void TestMisc(void);
static void TestPOSIX(void);
static void TestControlPrint(void);
static void TestIdentifier(void);
static void TestUnicodeData(void);
static void TestCodeUnit(void);
static void TestCodePoint(void);
static void TestCharLength(void);
static void TestCharNames(void);
static void TestMirroring(void);
static void TestUScriptRunAPI(void);
static void TestAdditionalProperties(void);
static void TestNumericProperties(void);
static void TestPropertyNames(void);
static void TestPropertyValues(void);
static void TestConsistency(void);
static void TestUCase(void);
static void TestUBiDiProps(void);
static void TestCaseFolding(void);
static int32_t MakeProp(char* str);
static int32_t MakeDir(char* str);
static void
parseUCDFile(const char *filename,
char *fields[][2], int32_t fieldCount,
UParseLineFn *lineFn, void *context,
UErrorCode *pErrorCode) {
char path[256];
char backupPath[256];
if(U_FAILURE(*pErrorCode)) {
return;
}
strcpy(path, u_getDataDirectory());
strcat(path, ".." U_FILE_SEP_STRING "unidata" U_FILE_SEP_STRING);
strcat(path, filename);
strcpy(backupPath, ctest_dataSrcDir());
strcat(backupPath, U_FILE_SEP_STRING);
strcat(backupPath, "unidata" U_FILE_SEP_STRING);
strcat(backupPath, filename);
u_parseDelimitedFile(path, ';', fields, fieldCount, lineFn, context, pErrorCode);
if(*pErrorCode==U_FILE_ACCESS_ERROR) {
*pErrorCode=U_ZERO_ERROR;
u_parseDelimitedFile(backupPath, ';', fields, fieldCount, lineFn, context, pErrorCode);
}
if(U_FAILURE(*pErrorCode)) {
log_err_status(*pErrorCode, "error parsing %s: %s\n", filename, u_errorName(*pErrorCode));
}
}
static const UChar LAST_CHAR_CODE_IN_FILE = 0xFFFD;
static const char tagStrings[] = "MnMcMeNdNlNoZsZlZpCcCfCsCoCnLuLlLtLmLoPcPdPsPePoSmScSkSoPiPf";
static const int32_t tagValues[] =
{
U_NON_SPACING_MARK,
U_COMBINING_SPACING_MARK,
U_ENCLOSING_MARK,
U_DECIMAL_DIGIT_NUMBER,
U_LETTER_NUMBER,
U_OTHER_NUMBER,
U_SPACE_SEPARATOR,
U_LINE_SEPARATOR,
U_PARAGRAPH_SEPARATOR,
U_CONTROL_CHAR,
U_FORMAT_CHAR,
U_SURROGATE,
U_PRIVATE_USE_CHAR,
U_UNASSIGNED,
U_UPPERCASE_LETTER,
U_LOWERCASE_LETTER,
U_TITLECASE_LETTER,
U_MODIFIER_LETTER,
U_OTHER_LETTER,
U_CONNECTOR_PUNCTUATION,
U_DASH_PUNCTUATION,
U_START_PUNCTUATION,
U_END_PUNCTUATION,
U_OTHER_PUNCTUATION,
U_MATH_SYMBOL,
U_CURRENCY_SYMBOL,
U_MODIFIER_SYMBOL,
U_OTHER_SYMBOL,
U_INITIAL_PUNCTUATION,
U_FINAL_PUNCTUATION
};
static const char dirStrings[][5] = {
"L",
"R",
"EN",
"ES",
"ET",
"AN",
"CS",
"B",
"S",
"WS",
"ON",
"LRE",
"LRO",
"AL",
"RLE",
"RLO",
"PDF",
"NSM",
"BN"
};
void addUnicodeTest(TestNode** root);
void addUnicodeTest(TestNode** root)
{
addTest(root, &TestCodeUnit, "tsutil/cucdtst/TestCodeUnit");
addTest(root, &TestCodePoint, "tsutil/cucdtst/TestCodePoint");
addTest(root, &TestCharLength, "tsutil/cucdtst/TestCharLength");
addTest(root, &TestBinaryValues, "tsutil/cucdtst/TestBinaryValues");
addTest(root, &TestUnicodeData, "tsutil/cucdtst/TestUnicodeData");
addTest(root, &TestAdditionalProperties, "tsutil/cucdtst/TestAdditionalProperties");
addTest(root, &TestNumericProperties, "tsutil/cucdtst/TestNumericProperties");
addTest(root, &TestUpperLower, "tsutil/cucdtst/TestUpperLower");
addTest(root, &TestLetterNumber, "tsutil/cucdtst/TestLetterNumber");
addTest(root, &TestMisc, "tsutil/cucdtst/TestMisc");
addTest(root, &TestPOSIX, "tsutil/cucdtst/TestPOSIX");
addTest(root, &TestControlPrint, "tsutil/cucdtst/TestControlPrint");
addTest(root, &TestIdentifier, "tsutil/cucdtst/TestIdentifier");
addTest(root, &TestCharNames, "tsutil/cucdtst/TestCharNames");
addTest(root, &TestMirroring, "tsutil/cucdtst/TestMirroring");
addTest(root, &TestUScriptCodeAPI, "tsutil/cucdtst/TestUScriptCodeAPI");
addTest(root, &TestHasScript, "tsutil/cucdtst/TestHasScript");
addTest(root, &TestGetScriptExtensions, "tsutil/cucdtst/TestGetScriptExtensions");
addTest(root, &TestUScriptRunAPI, "tsutil/cucdtst/TestUScriptRunAPI");
addTest(root, &TestPropertyNames, "tsutil/cucdtst/TestPropertyNames");
addTest(root, &TestPropertyValues, "tsutil/cucdtst/TestPropertyValues");
addTest(root, &TestConsistency, "tsutil/cucdtst/TestConsistency");
addTest(root, &TestUCase, "tsutil/cucdtst/TestUCase");
addTest(root, &TestUBiDiProps, "tsutil/cucdtst/TestUBiDiProps");
addTest(root, &TestCaseFolding, "tsutil/cucdtst/TestCaseFolding");
}
static void TestUpperLower()
{
const UChar upper[] = {0x41, 0x42, 0x00b2, 0x01c4, 0x01c6, 0x01c9, 0x01c8, 0x01c9, 0x000c, 0x0000};
const UChar lower[] = {0x61, 0x62, 0x00b2, 0x01c6, 0x01c6, 0x01c9, 0x01c9, 0x01c9, 0x000c, 0x0000};
U_STRING_DECL(upperTest, "abcdefg123hij.?:klmno", 21);
U_STRING_DECL(lowerTest, "ABCDEFG123HIJ.?:KLMNO", 21);
int32_t i;
U_STRING_INIT(upperTest, "abcdefg123hij.?:klmno", 21);
U_STRING_INIT(lowerTest, "ABCDEFG123HIJ.?:KLMNO", 21);
for (i=0x2100;i<0x2138;i++)
{
if(i!=0x2126 && i!=0x212a && i!=0x212b && i!=0x2132)
{
if (i != (int)u_tolower(i))
log_err("Failed case conversion with itself: U+%04x\n", i);
if (i != (int)u_toupper(i))
log_err("Failed case conversion with itself: U+%04x\n", i);
}
}
for(i=0; i < u_strlen(upper); i++){
if(u_tolower(upper[i]) != lower[i]){
log_err("FAILED u_tolower() for %lx Expected %lx Got %lx\n", upper[i], lower[i], u_tolower(upper[i]));
}
}
log_verbose("testing upper lower\n");
for (i = 0; i < 21; i++) {
if (u_isalpha(upperTest[i]) && !u_islower(upperTest[i]))
{
log_err("Failed isLowerCase test at %c\n", upperTest[i]);
}
else if (u_isalpha(lowerTest[i]) && !u_isupper(lowerTest[i]))
{
log_err("Failed isUpperCase test at %c\n", lowerTest[i]);
}
else if (upperTest[i] != u_tolower(lowerTest[i]))
{
log_err("Failed case conversion from %c To %c :\n", lowerTest[i], upperTest[i]);
}
else if (lowerTest[i] != u_toupper(upperTest[i]))
{
log_err("Failed case conversion : %c To %c \n", upperTest[i], lowerTest[i]);
}
else if (upperTest[i] != u_tolower(upperTest[i]))
{
log_err("Failed case conversion with itself: %c\n", upperTest[i]);
}
else if (lowerTest[i] != u_toupper(lowerTest[i]))
{
log_err("Failed case conversion with itself: %c\n", lowerTest[i]);
}
}
log_verbose("done testing upper lower\n");
log_verbose("testing u_istitle\n");
{
static const UChar expected[] = {
0x1F88,
0x1F89,
0x1F8A,
0x1F8B,
0x1F8C,
0x1F8D,
0x1F8E,
0x1F8F,
0x1F88,
0x1F89,
0x1F8A,
0x1F8B,
0x1F8C,
0x1F8D,
0x1F8E,
0x1F8F,
0x1F98,
0x1F99,
0x1F9A,
0x1F9B,
0x1F9C,
0x1F9D,
0x1F9E,
0x1F9F,
0x1F98,
0x1F99,
0x1F9A,
0x1F9B,
0x1F9C,
0x1F9D,
0x1F9E,
0x1F9F,
0x1FA8,
0x1FA9,
0x1FAA,
0x1FAB,
0x1FAC,
0x1FAD,
0x1FAE,
0x1FAF,
0x1FA8,
0x1FA9,
0x1FAA,
0x1FAB,
0x1FAC,
0x1FAD,
0x1FAE,
0x1FAF,
0x1FBC,
0x1FBC,
0x1FCC,
0x1FCC,
0x1FFC,
0x1FFC,
};
int32_t num = sizeof(expected)/sizeof(expected[0]);
for(i=0; i<num; i++){
if(!u_istitle(expected[i])){
log_err("u_istitle failed for 0x%4X. Expected TRUE, got FALSE\n",expected[i]);
}
}
}
}
static UBool
showADiffB(const USet *a, const USet *b,
const char *a_name, const char *b_name,
UBool expect, UBool diffIsError) {
USet *aa;
int32_t i, start, end, length;
UErrorCode errorCode;
if(expect ? uset_containsAll(b, a) : uset_containsNone(a, b)) {
return TRUE;
}
aa=uset_open(1, 0);
if(aa==NULL) {
return FALSE;
}
uset_addAll(aa, a);
if(expect) {
uset_removeAll(aa, b);
} else {
uset_retainAll(aa, b);
}
errorCode=U_ZERO_ERROR;
i=0;
for(;;) {
length=uset_getItem(aa, i, &start, &end, NULL, 0, &errorCode);
if(errorCode==U_INDEX_OUTOFBOUNDS_ERROR) {
break;
}
if(U_FAILURE(errorCode)) {
log_err("error comparing %s with %s at difference item %d: %s\n",
a_name, b_name, i, u_errorName(errorCode));
break;
}
if(length!=0) {
break;
}
if(diffIsError) {
if(expect) {
log_err("error: %s contains U+%04x..U+%04x but %s does not\n", a_name, start, end, b_name);
} else {
log_err("error: %s and %s both contain U+%04x..U+%04x but should not intersect\n", a_name, b_name, start, end);
}
} else {
if(expect) {
log_verbose("info: %s contains U+%04x..U+%04x but %s does not\n", a_name, start, end, b_name);
} else {
log_verbose("info: %s and %s both contain U+%04x..U+%04x but should not intersect\n", a_name, b_name, start, end);
}
}
++i;
}
uset_close(aa);
return FALSE;
}
static UBool
showAMinusB(const USet *a, const USet *b,
const char *a_name, const char *b_name,
UBool diffIsError) {
return showADiffB(a, b, a_name, b_name, TRUE, diffIsError);
}
static UBool
showAIntersectB(const USet *a, const USet *b,
const char *a_name, const char *b_name,
UBool diffIsError) {
return showADiffB(a, b, a_name, b_name, FALSE, diffIsError);
}
static UBool
compareUSets(const USet *a, const USet *b,
const char *a_name, const char *b_name,
UBool diffIsError) {
return
showAMinusB(a, b, a_name, b_name, diffIsError) &
showAMinusB(b, a, b_name, a_name, diffIsError);
}
static void TestLetterNumber()
{
UChar i = 0x0000;
log_verbose("Testing for isalpha\n");
for (i = 0x0041; i < 0x005B; i++) {
if (!u_isalpha(i))
{
log_err("Failed isLetter test at %.4X\n", i);
}
}
for (i = 0x0660; i < 0x066A; i++) {
if (u_isalpha(i))
{
log_err("Failed isLetter test with numbers at %.4X\n", i);
}
}
log_verbose("Testing for isdigit\n");
for (i = 0x0660; i < 0x066A; i++) {
if (!u_isdigit(i))
{
log_verbose("Failed isNumber test at %.4X\n", i);
}
}
log_verbose("Testing for isalnum\n");
for (i = 0x0041; i < 0x005B; i++) {
if (!u_isalnum(i))
{
log_err("Failed isAlNum test at %.4X\n", i);
}
}
for (i = 0x0660; i < 0x066A; i++) {
if (!u_isalnum(i))
{
log_err("Failed isAlNum test at %.4X\n", i);
}
}
{
static UVersionInfo u401={ 4, 0, 1, 0 };
UVersionInfo version;
u_getUnicodeVersion(version);
if(version[0]<4 || 0==memcmp(version, u401, 4)) {
return;
}
}
{
U_STRING_DECL(digitsPattern, "[:Nd:]", 6);
U_STRING_DECL(decimalValuesPattern, "[:Numeric_Type=Decimal:]", 24);
USet *digits, *decimalValues;
UErrorCode errorCode;
U_STRING_INIT(digitsPattern, "[:Nd:]", 6);
U_STRING_INIT(decimalValuesPattern, "[:Numeric_Type=Decimal:]", 24);
errorCode=U_ZERO_ERROR;
digits=uset_openPattern(digitsPattern, 6, &errorCode);
decimalValues=uset_openPattern(decimalValuesPattern, 24, &errorCode);
if(U_SUCCESS(errorCode)) {
compareUSets(digits, decimalValues, "[:Nd:]", "[:Numeric_Type=Decimal:]", TRUE);
}
uset_close(digits);
uset_close(decimalValues);
}
}
static void testSampleCharProps(UBool propFn(UChar32), const char *propName,
const UChar32 *sampleChars, int32_t sampleCharsLength,
UBool expected) {
int32_t i;
for (i = 0; i < sampleCharsLength; ++i) {
UBool result = propFn(sampleChars[i]);
if (result != expected) {
log_err("error: character property function %s(U+%04x)=%d is wrong\n",
propName, sampleChars[i], result);
}
}
}
static void TestMisc()
{
static const UChar32 sampleSpaces[] = {0x0020, 0x00a0, 0x2000, 0x2001, 0x2005};
static const UChar32 sampleNonSpaces[] = {0x61, 0x62, 0x63, 0x64, 0x74};
static const UChar32 sampleUndefined[] = {0xfff1, 0xfff7, 0xfa6e};
static const UChar32 sampleDefined[] = {0x523E, 0x4f88, 0xfffd};
static const UChar32 sampleBase[] = {0x0061, 0x0031, 0x03d2};
static const UChar32 sampleNonBase[] = {0x002B, 0x0020, 0x203B};
static const UChar32 sampleDigits[]= {0x0030, 0x0662, 0x0F23, 0x0ED5};
static const UChar32 sampleNonDigits[] = {0x0010, 0x0041, 0x0122, 0x68FE};
static const UChar32 sampleWhiteSpaces[] = {0x2008, 0x2009, 0x200a, 0x001c, 0x000c};
static const UChar32 sampleNonWhiteSpaces[] = {0x61, 0x62, 0x3c, 0x28, 0x3f, 0x85, 0x2007, 0xffef};
static const int32_t sampleDigitValues[] = {0, 2, 3, 5};
uint32_t mask;
int32_t i;
char icuVersion[U_MAX_VERSION_STRING_LENGTH];
UVersionInfo realVersion;
memset(icuVersion, 0, U_MAX_VERSION_STRING_LENGTH);
testSampleCharProps(u_isspace, "u_isspace", sampleSpaces, LENGTHOF(sampleSpaces), TRUE);
testSampleCharProps(u_isspace, "u_isspace", sampleNonSpaces, LENGTHOF(sampleNonSpaces), FALSE);
testSampleCharProps(u_isJavaSpaceChar, "u_isJavaSpaceChar",
sampleSpaces, LENGTHOF(sampleSpaces), TRUE);
testSampleCharProps(u_isJavaSpaceChar, "u_isJavaSpaceChar",
sampleNonSpaces, LENGTHOF(sampleNonSpaces), FALSE);
testSampleCharProps(u_isWhitespace, "u_isWhitespace",
sampleWhiteSpaces, LENGTHOF(sampleWhiteSpaces), TRUE);
testSampleCharProps(u_isWhitespace, "u_isWhitespace",
sampleNonWhiteSpaces, LENGTHOF(sampleNonWhiteSpaces), FALSE);
testSampleCharProps(u_isdefined, "u_isdefined",
sampleDefined, LENGTHOF(sampleDefined), TRUE);
testSampleCharProps(u_isdefined, "u_isdefined",
sampleUndefined, LENGTHOF(sampleUndefined), FALSE);
testSampleCharProps(u_isbase, "u_isbase", sampleBase, LENGTHOF(sampleBase), TRUE);
testSampleCharProps(u_isbase, "u_isbase", sampleNonBase, LENGTHOF(sampleNonBase), FALSE);
testSampleCharProps(u_isdigit, "u_isdigit", sampleDigits, LENGTHOF(sampleDigits), TRUE);
testSampleCharProps(u_isdigit, "u_isdigit", sampleNonDigits, LENGTHOF(sampleNonDigits), FALSE);
for (i = 0; i < LENGTHOF(sampleDigits); i++) {
if (u_charDigitValue(sampleDigits[i]) != sampleDigitValues[i]) {
log_err("error: u_charDigitValue(U+04x)=%d != %d\n",
sampleDigits[i], u_charDigitValue(sampleDigits[i]), sampleDigitValues[i]);
}
}
u_getVersion(realVersion);
u_versionToString(realVersion, icuVersion);
if (strncmp(icuVersion, U_ICU_VERSION, uprv_min((int32_t)strlen(icuVersion), (int32_t)strlen(U_ICU_VERSION))) != 0)
{
log_err("ICU version test failed. Header says=%s, got=%s \n", U_ICU_VERSION, icuVersion);
}
#if defined(ICU_VERSION)
if(strcmp(U_ICU_VERSION, ICU_VERSION))
{
log_err("ICU version mismatch: Header says %s, build environment says %s.\n", U_ICU_VERSION, ICU_VERSION);
}
#endif
if(
U_GET_GC_MASK(0x41)!=U_GC_LU_MASK ||
U_GET_GC_MASK(0x662)!=U_GC_ND_MASK ||
U_GET_GC_MASK(0xa0)!=U_GC_ZS_MASK ||
U_GET_GC_MASK(0x28)!=U_GC_PS_MASK ||
U_GET_GC_MASK(0x2044)!=U_GC_SM_MASK ||
U_GET_GC_MASK(0xe0063)!=U_GC_CF_MASK
) {
log_err("error: U_GET_GC_MASK does not work properly\n");
}
mask=0;
mask=(mask&~U_GC_CN_MASK)|U_GC_CN_MASK;
mask=(mask&~U_GC_LU_MASK)|U_GC_LU_MASK;
mask=(mask&~U_GC_LL_MASK)|U_GC_LL_MASK;
mask=(mask&~U_GC_LT_MASK)|U_GC_LT_MASK;
mask=(mask&~U_GC_LM_MASK)|U_GC_LM_MASK;
mask=(mask&~U_GC_LO_MASK)|U_GC_LO_MASK;
mask=(mask&~U_GC_MN_MASK)|U_GC_MN_MASK;
mask=(mask&~U_GC_ME_MASK)|U_GC_ME_MASK;
mask=(mask&~U_GC_MC_MASK)|U_GC_MC_MASK;
mask=(mask&~U_GC_ND_MASK)|U_GC_ND_MASK;
mask=(mask&~U_GC_NL_MASK)|U_GC_NL_MASK;
mask=(mask&~U_GC_NO_MASK)|U_GC_NO_MASK;
mask=(mask&~U_GC_ZS_MASK)|U_GC_ZS_MASK;
mask=(mask&~U_GC_ZL_MASK)|U_GC_ZL_MASK;
mask=(mask&~U_GC_ZP_MASK)|U_GC_ZP_MASK;
mask=(mask&~U_GC_CC_MASK)|U_GC_CC_MASK;
mask=(mask&~U_GC_CF_MASK)|U_GC_CF_MASK;
mask=(mask&~U_GC_CO_MASK)|U_GC_CO_MASK;
mask=(mask&~U_GC_CS_MASK)|U_GC_CS_MASK;
mask=(mask&~U_GC_PD_MASK)|U_GC_PD_MASK;
mask=(mask&~U_GC_PS_MASK)|U_GC_PS_MASK;
mask=(mask&~U_GC_PE_MASK)|U_GC_PE_MASK;
mask=(mask&~U_GC_PC_MASK)|U_GC_PC_MASK;
mask=(mask&~U_GC_PO_MASK)|U_GC_PO_MASK;
mask=(mask&~U_GC_SM_MASK)|U_GC_SM_MASK;
mask=(mask&~U_GC_SC_MASK)|U_GC_SC_MASK;
mask=(mask&~U_GC_SK_MASK)|U_GC_SK_MASK;
mask=(mask&~U_GC_SO_MASK)|U_GC_SO_MASK;
mask=(mask&~U_GC_PI_MASK)|U_GC_PI_MASK;
mask=(mask&~U_GC_PF_MASK)|U_GC_PF_MASK;
if(mask!=(U_CHAR_CATEGORY_COUNT<32 ? U_MASK(U_CHAR_CATEGORY_COUNT)-1: 0xffffffff)) {
log_err("error: problems with U_GC_XX_MASK constants\n");
}
mask=0;
mask=(mask&~U_GC_C_MASK)|U_GC_C_MASK;
mask=(mask&~U_GC_L_MASK)|U_GC_L_MASK;
mask=(mask&~U_GC_M_MASK)|U_GC_M_MASK;
mask=(mask&~U_GC_N_MASK)|U_GC_N_MASK;
mask=(mask&~U_GC_Z_MASK)|U_GC_Z_MASK;
mask=(mask&~U_GC_P_MASK)|U_GC_P_MASK;
mask=(mask&~U_GC_S_MASK)|U_GC_S_MASK;
if(mask!=(U_CHAR_CATEGORY_COUNT<32 ? U_MASK(U_CHAR_CATEGORY_COUNT)-1: 0xffffffff)) {
log_err("error: problems with U_GC_Y_MASK constants\n");
}
{
static const UChar32 digit[10]={ 0x0030,0x0031,0x0032,0x0033,0x0034,0x0035,0x0036,0x0037,0x0038,0x0039 };
for(i=0; i<10; i++){
if(digit[i]!=u_forDigit(i,10)){
log_err("u_forDigit failed for %i. Expected: 0x%4X Got: 0x%4X\n",i,digit[i],u_forDigit(i,10));
}
}
}
{
static const struct {
UChar32 c;
int8_t radix, value;
} data[]={
{ 0x0031, 16, 1 },
{ 0x0038, 16, 8 },
{ 0x0043, 16, 12 },
{ 0x0066, 16, 15 },
{ 0x00e4, 16, -1 },
{ 0x0662, 16, 2 },
{ 0x06f5, 16, 5 },
{ 0xff13, 16, 3 },
{ 0xff41, 16, 10 },
{ 0x0031, 8, 1 },
{ 0x0038, 8, -1 },
{ 0x0043, 8, -1 },
{ 0x0066, 8, -1 },
{ 0x00e4, 8, -1 },
{ 0x0662, 8, 2 },
{ 0x06f5, 8, 5 },
{ 0xff13, 8, 3 },
{ 0xff41, 8, -1 },
{ 0x5a, 36, 35 },
{ 0x7a, 36, 35 },
{ 0xff3a, 36, 35 },
{ 0xff5a, 36, 35 },
{ 0x0031, 1, -1 },
{ 0xff3a, 37, -1 }
};
for(i=0; i<LENGTHOF(data); ++i) {
if(u_digit(data[i].c, data[i].radix)!=data[i].value) {
log_err("u_digit(U+%04x, %d)=%d expected %d\n",
data[i].c,
data[i].radix,
u_digit(data[i].c, data[i].radix),
data[i].value);
}
}
}
}
#define ISAL 1
#define ISLO 2
#define ISUP 4
#define ISDI 8
#define ISXD 0x10
#define ISAN 0x20
#define ISPU 0x40
#define ISGR 0x80
#define ISPR 0x100
#define ISSP 0x200
#define ISBL 0x400
#define ISCN 0x800
typedef UBool U_EXPORT2 IsPOSIXClass(UChar32 c);
static const struct {
IsPOSIXClass *fn;
const char *name;
} posixClasses[]={
{ u_isalpha, "isalpha" },
{ u_islower, "islower" },
{ u_isupper, "isupper" },
{ u_isdigit, "isdigit" },
{ u_isxdigit, "isxdigit" },
{ u_isalnum, "isalnum" },
{ u_ispunct, "ispunct" },
{ u_isgraph, "isgraph" },
{ u_isprint, "isprint" },
{ u_isspace, "isspace" },
{ u_isblank, "isblank" },
{ u_iscntrl, "iscntrl" }
};
static const struct {
UChar32 c;
uint32_t posixResults;
} posixData[]={
{ 0x0008, ISCN },
{ 0x0009, ISSP|ISBL|ISCN },
{ 0x000a, ISSP| ISCN },
{ 0x000c, ISSP| ISCN },
{ 0x000d, ISSP| ISCN },
{ 0x0020, ISPR|ISSP|ISBL },
{ 0x0021, ISPU|ISGR|ISPR },
{ 0x0033, ISDI|ISXD|ISAN| ISGR|ISPR },
{ 0x0040, ISPU|ISGR|ISPR },
{ 0x0041, ISAL| ISUP| ISXD|ISAN| ISGR|ISPR },
{ 0x007a, ISAL|ISLO| ISAN| ISGR|ISPR },
{ 0x007b, ISPU|ISGR|ISPR },
{ 0x0085, ISSP| ISCN },
{ 0x00a0, ISPR|ISSP|ISBL },
{ 0x00a4, ISGR|ISPR },
{ 0x00e4, ISAL|ISLO| ISAN| ISGR|ISPR },
{ 0x0300, ISGR|ISPR },
{ 0x0600, ISCN },
{ 0x0627, ISAL| ISAN| ISGR|ISPR },
{ 0x0663, ISDI|ISXD|ISAN| ISGR|ISPR },
{ 0x2002, ISPR|ISSP|ISBL },
{ 0x2007, ISPR|ISSP|ISBL },
{ 0x2009, ISPR|ISSP|ISBL },
{ 0x200b, ISCN },
{ 0x200e, ISCN },
{ 0x2028, ISPR|ISSP| ISCN },
{ 0x2029, ISPR|ISSP| ISCN },
{ 0x20ac, ISGR|ISPR },
{ 0xff15, ISDI|ISXD|ISAN| ISGR|ISPR },
{ 0xff25, ISAL| ISUP| ISXD|ISAN| ISGR|ISPR },
{ 0xff35, ISAL| ISUP| ISAN| ISGR|ISPR },
{ 0xff45, ISAL|ISLO| ISXD|ISAN| ISGR|ISPR },
{ 0xff55, ISAL|ISLO| ISAN| ISGR|ISPR }
};
static void
TestPOSIX() {
uint32_t mask;
int32_t cl, i;
UBool expect;
mask=1;
for(cl=0; cl<12; ++cl) {
for(i=0; i<LENGTHOF(posixData); ++i) {
expect=(UBool)((posixData[i].posixResults&mask)!=0);
if(posixClasses[cl].fn(posixData[i].c)!=expect) {
log_err("u_%s(U+%04x)=%s is wrong\n",
posixClasses[cl].name, posixData[i].c, expect ? "FALSE" : "TRUE");
}
}
mask<<=1;
}
}
static void TestControlPrint()
{
const UChar32 sampleControl[] = {0x1b, 0x97, 0x82, 0x2028, 0x2029, 0x200c, 0x202b};
const UChar32 sampleNonControl[] = {0x61, 0x0031, 0x00e2};
const UChar32 samplePrintable[] = {0x0042, 0x005f, 0x2014};
const UChar32 sampleNonPrintable[] = {0x200c, 0x009f, 0x001b};
UChar32 c;
testSampleCharProps(u_iscntrl, "u_iscntrl", sampleControl, LENGTHOF(sampleControl), TRUE);
testSampleCharProps(u_iscntrl, "u_iscntrl", sampleNonControl, LENGTHOF(sampleNonControl), FALSE);
testSampleCharProps(u_isprint, "u_isprint",
samplePrintable, LENGTHOF(samplePrintable), TRUE);
testSampleCharProps(u_isprint, "u_isprint",
sampleNonPrintable, LENGTHOF(sampleNonPrintable), FALSE);
for(c=0; c<=0x9f; ++c) {
if(c==0x20) {
c=0x7f;
}
if(!u_iscntrl(c)) {
log_err("error: u_iscntrl(ISO 8 control U+%04x)=FALSE\n", c);
}
if(!u_isISOControl(c)) {
log_err("error: u_isISOControl(ISO 8 control U+%04x)=FALSE\n", c);
}
if(u_isprint(c)) {
log_err("error: u_isprint(ISO 8 control U+%04x)=TRUE\n", c);
}
}
for(c=0x20; c<=0xff; ++c) {
if(c==0x7f) {
c=0xa0;
} else if(c==0xad) {
++c;
}
if(!u_isprint(c)) {
log_err("error: u_isprint(Latin-1 graphic character U+%04x)=FALSE\n", c);
}
}
}
static void TestIdentifier()
{
const UChar32 sampleJavaIDStart[] = {0x0071, 0x00e4, 0x005f};
const UChar32 sampleNonJavaIDStart[] = {0x0020, 0x2030, 0x0082};
const UChar32 sampleJavaIDPart[] = {0x005f, 0x0032, 0x0045};
const UChar32 sampleNonJavaIDPart[] = {0x2030, 0x2020, 0x0020};
const UChar32 sampleUnicodeIDStart[] = {0x0250, 0x00e2, 0x0061};
const UChar32 sampleNonUnicodeIDStart[] = {0x2000, 0x000a, 0x2019};
const UChar32 sampleUnicodeIDPart[] = {0x005f, 0x0032, 0x0045};
const UChar32 sampleNonUnicodeIDPart[] = {0x2030, 0x00a3, 0x0020};
const UChar32 sampleIDIgnore[] = {0x0006, 0x0010, 0x206b, 0x85};
const UChar32 sampleNonIDIgnore[] = {0x0075, 0x00a3, 0x0061};
testSampleCharProps(u_isJavaIDStart, "u_isJavaIDStart",
sampleJavaIDStart, LENGTHOF(sampleJavaIDStart), TRUE);
testSampleCharProps(u_isJavaIDStart, "u_isJavaIDStart",
sampleNonJavaIDStart, LENGTHOF(sampleNonJavaIDStart), FALSE);
testSampleCharProps(u_isJavaIDPart, "u_isJavaIDPart",
sampleJavaIDPart, LENGTHOF(sampleJavaIDPart), TRUE);
testSampleCharProps(u_isJavaIDPart, "u_isJavaIDPart",
sampleNonJavaIDPart, LENGTHOF(sampleNonJavaIDPart), FALSE);
testSampleCharProps(u_isJavaIDPart, "u_isJavaIDPart",
sampleJavaIDStart, LENGTHOF(sampleJavaIDStart), TRUE);
testSampleCharProps(u_isIDStart, "u_isIDStart",
sampleUnicodeIDStart, LENGTHOF(sampleUnicodeIDStart), TRUE);
testSampleCharProps(u_isIDStart, "u_isIDStart",
sampleNonUnicodeIDStart, LENGTHOF(sampleNonUnicodeIDStart), FALSE);
testSampleCharProps(u_isIDPart, "u_isIDPart",
sampleUnicodeIDPart, LENGTHOF(sampleUnicodeIDPart), TRUE);
testSampleCharProps(u_isIDPart, "u_isIDPart",
sampleNonUnicodeIDPart, LENGTHOF(sampleNonUnicodeIDPart), FALSE);
testSampleCharProps(u_isIDPart, "u_isIDPart",
sampleUnicodeIDStart, LENGTHOF(sampleUnicodeIDStart), TRUE);
testSampleCharProps(u_isIDIgnorable, "u_isIDIgnorable",
sampleIDIgnore, LENGTHOF(sampleIDIgnore), TRUE);
testSampleCharProps(u_isIDIgnorable, "u_isIDIgnorable",
sampleNonIDIgnore, LENGTHOF(sampleNonIDIgnore), FALSE);
}
typedef struct UnicodeDataContext {
#if UCONFIG_NO_NORMALIZATION
const void *dummy;
#else
const UNormalizer2 *nfc;
const UNormalizer2 *nfkc;
#endif
} UnicodeDataContext;
static void U_CALLCONV
unicodeDataLineFn(void *context,
char *fields[][2], int32_t fieldCount,
UErrorCode *pErrorCode)
{
char buffer[100];
const char *d;
char *end;
uint32_t value;
UChar32 c;
int32_t i;
int8_t type;
int32_t dt;
UChar dm[32], s[32];
int32_t dmLength, length;
#if !UCONFIG_NO_NORMALIZATION
const UNormalizer2 *nfc, *nfkc;
#endif
c=strtoul(fields[0][0], &end, 16);
if(end<=fields[0][0] || end!=fields[0][1]) {
log_err("error: syntax error in field 0 at %s\n", fields[0][0]);
return;
}
if((uint32_t)c>=UCHAR_MAX_VALUE + 1) {
log_err("error in UnicodeData.txt: code point %lu out of range\n", c);
return;
}
*fields[2][1]=0;
type = (int8_t)tagValues[MakeProp(fields[2][0])];
if(u_charType(c)!=type) {
log_err("error: u_charType(U+%04lx)==%u instead of %u\n", c, u_charType(c), type);
}
if((uint32_t)u_getIntPropertyValue(c, UCHAR_GENERAL_CATEGORY_MASK)!=U_MASK(type)) {
log_err("error: (uint32_t)u_getIntPropertyValue(U+%04lx, UCHAR_GENERAL_CATEGORY_MASK)!=U_MASK(u_charType())\n", c);
}
value=strtoul(fields[3][0], &end, 10);
if(end<=fields[3][0] || end!=fields[3][1]) {
log_err("error: syntax error in field 3 at code 0x%lx\n", c);
return;
}
if(value>255) {
log_err("error in UnicodeData.txt: combining class %lu out of range\n", value);
return;
}
#if !UCONFIG_NO_NORMALIZATION
if(value!=u_getCombiningClass(c) || value!=(uint32_t)u_getIntPropertyValue(c, UCHAR_CANONICAL_COMBINING_CLASS)) {
log_err("error: u_getCombiningClass(U+%04lx)==%hu instead of %lu\n", c, u_getCombiningClass(c), value);
}
nfkc=((UnicodeDataContext *)context)->nfkc;
if(value!=unorm2_getCombiningClass(nfkc, c)) {
log_err("error: unorm2_getCombiningClass(nfkc, U+%04lx)==%hu instead of %lu\n", c, unorm2_getCombiningClass(nfkc, c), value);
}
#endif
*fields[4][1]=0;
i=MakeDir(fields[4][0]);
if(i!=u_charDirection(c) || i!=u_getIntPropertyValue(c, UCHAR_BIDI_CLASS)) {
log_err("error: u_charDirection(U+%04lx)==%u instead of %u (%s)\n", c, u_charDirection(c), MakeDir(fields[4][0]), fields[4][0]);
}
d=NULL;
if(fields[5][0]==fields[5][1]) {
if(c==0xac00 || c==0xd7a3) {
dt=U_DT_CANONICAL;
} else {
dt=U_DT_NONE;
}
} else {
d=fields[5][0];
*fields[5][1]=0;
dt=UCHAR_INVALID_CODE;
if(*d=='<') {
end=strchr(++d, '>');
if(end!=NULL) {
*end=0;
dt=u_getPropertyValueEnum(UCHAR_DECOMPOSITION_TYPE, d);
d=u_skipWhitespace(end+1);
}
} else {
dt=U_DT_CANONICAL;
}
}
if(dt>U_DT_NONE) {
if(c==0xac00) {
dm[0]=0x1100;
dm[1]=0x1161;
dm[2]=0;
dmLength=2;
} else if(c==0xd7a3) {
dm[0]=0xd788;
dm[1]=0x11c2;
dm[2]=0;
dmLength=2;
} else {
dmLength=u_parseString(d, dm, 32, NULL, pErrorCode);
}
} else {
dmLength=-1;
}
if(dt<0 || U_FAILURE(*pErrorCode)) {
log_err("error in UnicodeData.txt: syntax error in U+%04lX decomposition field\n", (long)c);
return;
}
#if !UCONFIG_NO_NORMALIZATION
i=u_getIntPropertyValue(c, UCHAR_DECOMPOSITION_TYPE);
if(i!=dt) {
log_err("error: u_getIntPropertyValue(U+%04lx, UCHAR_DECOMPOSITION_TYPE)==%d instead of %d\n", c, i, dt);
}
length=unorm2_getRawDecomposition(nfkc, c, s, 32, pErrorCode);
if(U_FAILURE(*pErrorCode) || length!=dmLength || (length>0 && 0!=u_strcmp(s, dm))) {
log_err("error: unorm2_getRawDecomposition(nfkc, U+%04lx)==%d instead of %d "
"or the Decomposition_Mapping is different (%s)\n",
c, length, dmLength, u_errorName(*pErrorCode));
return;
}
if(dt!=U_DT_CANONICAL) {
dmLength=-1;
}
nfc=((UnicodeDataContext *)context)->nfc;
length=unorm2_getRawDecomposition(nfc, c, s, 32, pErrorCode);
if(U_FAILURE(*pErrorCode) || length!=dmLength || (length>0 && 0!=u_strcmp(s, dm))) {
log_err("error: unorm2_getRawDecomposition(nfc, U+%04lx)==%d instead of %d "
"or the Decomposition_Mapping is different (%s)\n",
c, length, dmLength, u_errorName(*pErrorCode));
return;
}
if(dt==U_DT_CANONICAL && !u_hasBinaryProperty(c, UCHAR_FULL_COMPOSITION_EXCLUSION)) {
UChar32 a, b, composite;
i=0;
U16_NEXT(dm, i, dmLength, a);
U16_NEXT(dm, i, dmLength, b);
composite=unorm2_composePair(nfc, a, b);
if(composite!=c) {
log_err("error: nfc U+%04lX decomposes to U+%04lX+U+%04lX but does not compose back (instead U+%04lX)\n",
(long)c, (long)a, (long)b, (long)composite);
}
}
#endif
*fields[11][1]=0;
i=u_getISOComment(c, buffer, sizeof(buffer), pErrorCode);
if(U_FAILURE(*pErrorCode) || 0!=strcmp(fields[11][0], buffer)) {
log_err_status(*pErrorCode, "error: u_getISOComment(U+%04lx) wrong (%s): \"%s\" should be \"%s\"\n",
c, u_errorName(*pErrorCode),
U_FAILURE(*pErrorCode) ? buffer : "[error]",
fields[11][0]);
}
if(fields[12][0]!=fields[12][1]) {
value=strtoul(fields[12][0], &end, 16);
if(end!=fields[12][1]) {
log_err("error: syntax error in field 12 at code 0x%lx\n", c);
return;
}
if((UChar32)value!=u_toupper(c)) {
log_err("error: u_toupper(U+%04lx)==U+%04lx instead of U+%04lx\n", c, u_toupper(c), value);
}
} else {
if(c!=u_toupper(c)) {
log_err("error: U+%04lx does not have an uppercase mapping but u_toupper()==U+%04lx\n", c, u_toupper(c));
}
}
if(fields[13][0]!=fields[13][1]) {
value=strtoul(fields[13][0], &end, 16);
if(end!=fields[13][1]) {
log_err("error: syntax error in field 13 at code 0x%lx\n", c);
return;
}
if((UChar32)value!=u_tolower(c)) {
log_err("error: u_tolower(U+%04lx)==U+%04lx instead of U+%04lx\n", c, u_tolower(c), value);
}
} else {
if(c!=u_tolower(c)) {
log_err("error: U+%04lx does not have a lowercase mapping but u_tolower()==U+%04lx\n", c, u_tolower(c));
}
}
if(fields[14][0]!=fields[14][1]) {
value=strtoul(fields[14][0], &end, 16);
if(end!=fields[14][1]) {
log_err("error: syntax error in field 14 at code 0x%lx\n", c);
return;
}
if((UChar32)value!=u_totitle(c)) {
log_err("error: u_totitle(U+%04lx)==U+%04lx instead of U+%04lx\n", c, u_totitle(c), value);
}
} else {
if(c!=u_totitle(c)) {
log_err("error: U+%04lx does not have a titlecase mapping but u_totitle()==U+%04lx\n", c, u_totitle(c));
}
}
}
static UBool U_CALLCONV
enumTypeRange(const void *context, UChar32 start, UChar32 limit, UCharCategory type) {
static const UChar32 test[][2]={
{0x41, U_UPPERCASE_LETTER},
{0x308, U_NON_SPACING_MARK},
{0xfffe, U_GENERAL_OTHER_TYPES},
{0xe0041, U_FORMAT_CHAR},
{0xeffff, U_UNASSIGNED}
};
int32_t i, count;
if(0!=strcmp((const char *)context, "a1")) {
log_err("error: u_enumCharTypes() passes on an incorrect context pointer\n");
return FALSE;
}
count=LENGTHOF(test);
for(i=0; i<count; ++i) {
if(start<=test[i][0] && test[i][0]<limit) {
if(type!=(UCharCategory)test[i][1]) {
log_err("error: u_enumCharTypes() has range [U+%04lx, U+%04lx[ with %ld instead of U+%04lx with %ld\n",
start, limit, (long)type, test[i][0], test[i][1]);
}
return i==(count-1) ? FALSE : TRUE;
}
}
if(start>test[count-1][0]) {
log_err("error: u_enumCharTypes() has range [U+%04lx, U+%04lx[ with %ld after it should have stopped\n",
start, limit, (long)type);
return FALSE;
}
return TRUE;
}
static UBool U_CALLCONV
enumDefaultsRange(const void *context, UChar32 start, UChar32 limit, UCharCategory type) {
static const int32_t defaultBidi[][2]={
{ 0x0590, U_LEFT_TO_RIGHT },
{ 0x0600, U_RIGHT_TO_LEFT },
{ 0x07C0, U_RIGHT_TO_LEFT_ARABIC },
{ 0x08A0, U_RIGHT_TO_LEFT },
{ 0x0900, U_RIGHT_TO_LEFT_ARABIC },
{ 0xFB1D, U_LEFT_TO_RIGHT },
{ 0xFB50, U_RIGHT_TO_LEFT },
{ 0xFE00, U_RIGHT_TO_LEFT_ARABIC },
{ 0xFE70, U_LEFT_TO_RIGHT },
{ 0xFF00, U_RIGHT_TO_LEFT_ARABIC },
{ 0x10800, U_LEFT_TO_RIGHT },
{ 0x11000, U_RIGHT_TO_LEFT },
{ 0x1E800, U_LEFT_TO_RIGHT },
{ 0x1EE00, U_RIGHT_TO_LEFT },
{ 0x1EF00, U_RIGHT_TO_LEFT_ARABIC },
{ 0x1F000, U_RIGHT_TO_LEFT },
{ 0x110000, U_LEFT_TO_RIGHT }
};
UChar32 c;
int32_t i;
UCharDirection shouldBeDir;
if(type!=U_UNASSIGNED && type!=U_PRIVATE_USE_CHAR) {
c=start;
while(c<limit) {
if(0==u_getIntPropertyValue(c, UCHAR_LINE_BREAK)) {
log_err("error UCHAR_LINE_BREAK(assigned U+%04lx)=XX\n", c);
}
++c;
}
}
if(type==U_UNASSIGNED || type==U_PRIVATE_USE_CHAR) {
c=start;
for(i=0; i<LENGTHOF(defaultBidi) && c<limit; ++i) {
if((int32_t)c<defaultBidi[i][0]) {
while(c<limit && (int32_t)c<defaultBidi[i][0]) {
if(U_IS_UNICODE_NONCHAR(c) || u_hasBinaryProperty(c, UCHAR_DEFAULT_IGNORABLE_CODE_POINT)) {
shouldBeDir=U_BOUNDARY_NEUTRAL;
} else {
shouldBeDir=(UCharDirection)defaultBidi[i][1];
}
if( u_charDirection(c)!=shouldBeDir ||
u_getIntPropertyValue(c, UCHAR_BIDI_CLASS)!=shouldBeDir
) {
log_err("error: u_charDirection(unassigned/PUA U+%04lx)=%s should be %s\n",
c, dirStrings[u_charDirection(c)], dirStrings[shouldBeDir]);
}
++c;
}
}
}
}
return TRUE;
}
static void TestUnicodeData()
{
UVersionInfo expectVersionArray;
UVersionInfo versionArray;
char *fields[15][2];
UErrorCode errorCode;
UChar32 c;
int8_t type;
UnicodeDataContext context;
u_versionFromString(expectVersionArray, U_UNICODE_VERSION);
u_getUnicodeVersion(versionArray);
if(memcmp(versionArray, expectVersionArray, U_MAX_VERSION_LENGTH) != 0)
{
log_err("Testing u_getUnicodeVersion() - expected " U_UNICODE_VERSION " got %d.%d.%d.%d\n",
versionArray[0], versionArray[1], versionArray[2], versionArray[3]);
}
#if defined(ICU_UNICODE_VERSION)
if(strcmp(U_UNICODE_VERSION, ICU_UNICODE_VERSION))
{
log_err("Testing configure.in's ICU_UNICODE_VERSION - expected " U_UNICODE_VERSION " got " ICU_UNICODE_VERSION "\n");
}
#endif
if (ublock_getCode((UChar)0x0041) != UBLOCK_BASIC_LATIN || u_getIntPropertyValue(0x41, UCHAR_BLOCK)!=(int32_t)UBLOCK_BASIC_LATIN) {
log_err("ublock_getCode(U+0041) property failed! Expected : %i Got: %i \n", UBLOCK_BASIC_LATIN,ublock_getCode((UChar)0x0041));
}
errorCode=U_ZERO_ERROR;
#if !UCONFIG_NO_NORMALIZATION
context.nfc=unorm2_getNFCInstance(&errorCode);
context.nfkc=unorm2_getNFKCInstance(&errorCode);
if(U_FAILURE(errorCode)) {
log_data_err("error: unable to open an NFC or NFKC UNormalizer2 - %s\n", u_errorName(errorCode));
return;
}
#endif
parseUCDFile("UnicodeData.txt", fields, 15, unicodeDataLineFn, &context, &errorCode);
if(U_FAILURE(errorCode)) {
return;
}
for(c=0xfffe; c<=0x10ffff;) {
type=u_charType(c);
if((uint32_t)u_getIntPropertyValue(c, UCHAR_GENERAL_CATEGORY_MASK)!=U_MASK(type)) {
log_err("error: (uint32_t)u_getIntPropertyValue(U+%04lx, UCHAR_GENERAL_CATEGORY_MASK)!=U_MASK(u_charType())\n", c);
}
if(type!=U_UNASSIGNED) {
log_err("error: u_charType(U+%04lx)!=U_UNASSIGNED (returns %d)\n", c, u_charType(c));
}
if((c&0xffff)==0xfffe) {
++c;
} else {
c+=0xffff;
}
}
for(c=0xe000; c<=0x10fffd;) {
type=u_charType(c);
if((uint32_t)u_getIntPropertyValue(c, UCHAR_GENERAL_CATEGORY_MASK)!=U_MASK(type)) {
log_err("error: (uint32_t)u_getIntPropertyValue(U+%04lx, UCHAR_GENERAL_CATEGORY_MASK)!=U_MASK(u_charType())\n", c);
}
if(type==U_UNASSIGNED) {
log_err("error: u_charType(U+%04lx)==U_UNASSIGNED\n", c);
} else if(type!=U_PRIVATE_USE_CHAR) {
log_verbose("PUA override: u_charType(U+%04lx)=%d\n", c, type);
}
if(c==0xf8ff) {
c=0xf0000;
} else if(c==0xffffd) {
c=0x100000;
} else {
++c;
}
}
u_enumCharTypes(enumTypeRange, "a1");
u_enumCharTypes(enumDefaultsRange, NULL);
}
static void TestCodeUnit(){
const UChar codeunit[]={0x0000,0xe065,0x20ac,0xd7ff,0xd800,0xd841,0xd905,0xdbff,0xdc00,0xdc02,0xddee,0xdfff,0};
int32_t i;
for(i=0; i<(int32_t)(sizeof(codeunit)/sizeof(codeunit[0])); i++){
UChar c=codeunit[i];
if(i<4){
if(!(UTF_IS_SINGLE(c)) || (UTF_IS_LEAD(c)) || (UTF_IS_TRAIL(c)) ||(UTF_IS_SURROGATE(c))){
log_err("ERROR: U+%04x is a single", c);
}
}
if(i >= 4 && i< 8){
if(!(UTF_IS_LEAD(c)) || UTF_IS_SINGLE(c) || UTF_IS_TRAIL(c) || !(UTF_IS_SURROGATE(c))){
log_err("ERROR: U+%04x is a first surrogate", c);
}
}
if(i >= 8 && i< 12){
if(!(UTF_IS_TRAIL(c)) || UTF_IS_SINGLE(c) || UTF_IS_LEAD(c) || !(UTF_IS_SURROGATE(c))){
log_err("ERROR: U+%04x is a second surrogate", c);
}
}
}
}
static void TestCodePoint(){
const UChar32 codePoint[]={
0xd800,
0xdbff,
0xdc00,
0xdfff,
0xdc04,
0xd821,
0x20ac,
0xd7ff,
0xe000,
0xe123,
0x0061,
0xe065,
0x20402,
0x24506,
0x23456,
0x20402,
0x10402,
0x23456,
0x0015,
0x009f,
0xffff,
0xfffe,
};
int32_t i;
for(i=0; i<(int32_t)(sizeof(codePoint)/sizeof(codePoint[0])); i++){
UChar32 c=codePoint[i];
if(i<6){
if(!UTF_IS_SURROGATE(c) || !U_IS_SURROGATE(c) || !U16_IS_SURROGATE(c)){
log_err("ERROR: isSurrogate() failed for U+%04x\n", c);
}
if(UTF_IS_VALID(c)){
log_err("ERROR: isValid() failed for U+%04x\n", c);
}
if(UTF_IS_UNICODE_CHAR(c) || U_IS_UNICODE_CHAR(c)){
log_err("ERROR: isUnicodeChar() failed for U+%04x\n", c);
}
if(UTF_IS_ERROR(c)){
log_err("ERROR: isError() failed for U+%04x\n", c);
}
}else if(i >=6 && i<18){
if(UTF_IS_SURROGATE(c) || U_IS_SURROGATE(c) || U16_IS_SURROGATE(c)){
log_err("ERROR: isSurrogate() failed for U+%04x\n", c);
}
if(!UTF_IS_VALID(c)){
log_err("ERROR: isValid() failed for U+%04x\n", c);
}
if(!UTF_IS_UNICODE_CHAR(c) || !U_IS_UNICODE_CHAR(c)){
log_err("ERROR: isUnicodeChar() failed for U+%04x\n", c);
}
if(UTF_IS_ERROR(c)){
log_err("ERROR: isError() failed for U+%04x\n", c);
}
}else if(i >=18 && i<20){
if(UTF_IS_SURROGATE(c) || U_IS_SURROGATE(c) || U16_IS_SURROGATE(c)){
log_err("ERROR: isSurrogate() failed for U+%04x\n", c);
}
if(UTF_IS_VALID(c)){
log_err("ERROR: isValid() failed for U+%04x\n", c);
}
if(!UTF_IS_UNICODE_CHAR(c) || !U_IS_UNICODE_CHAR(c)){
log_err("ERROR: isUnicodeChar() failed for U+%04x\n", c);
}
if(!UTF_IS_ERROR(c)){
log_err("ERROR: isError() failed for U+%04x\n", c);
}
}
else if(i >=18 && i<(int32_t)(sizeof(codePoint)/sizeof(codePoint[0]))){
if(UTF_IS_SURROGATE(c) || U_IS_SURROGATE(c) || U16_IS_SURROGATE(c)){
log_err("ERROR: isSurrogate() failed for U+%04x\n", c);
}
if(UTF_IS_VALID(c)){
log_err("ERROR: isValid() failed for U+%04x\n", c);
}
if(UTF_IS_UNICODE_CHAR(c) || U_IS_UNICODE_CHAR(c)){
log_err("ERROR: isUnicodeChar() failed for U+%04x\n", c);
}
if(!UTF_IS_ERROR(c)){
log_err("ERROR: isError() failed for U+%04x\n", c);
}
}
}
if(
!U_IS_BMP(0) || !U_IS_BMP(0x61) || !U_IS_BMP(0x20ac) ||
!U_IS_BMP(0xd9da) || !U_IS_BMP(0xdfed) || !U_IS_BMP(0xffff) ||
U_IS_BMP(U_SENTINEL) || U_IS_BMP(0x10000) || U_IS_BMP(0x50005) ||
U_IS_BMP(0x10ffff) || U_IS_BMP(0x110000) || U_IS_BMP(0x7fffffff)
) {
log_err("error with U_IS_BMP()\n");
}
if(
U_IS_SUPPLEMENTARY(0) || U_IS_SUPPLEMENTARY(0x61) || U_IS_SUPPLEMENTARY(0x20ac) ||
U_IS_SUPPLEMENTARY(0xd9da) || U_IS_SUPPLEMENTARY(0xdfed) || U_IS_SUPPLEMENTARY(0xffff) ||
U_IS_SUPPLEMENTARY(U_SENTINEL) || !U_IS_SUPPLEMENTARY(0x10000) || !U_IS_SUPPLEMENTARY(0x50005) ||
!U_IS_SUPPLEMENTARY(0x10ffff) || U_IS_SUPPLEMENTARY(0x110000) || U_IS_SUPPLEMENTARY(0x7fffffff)
) {
log_err("error with U_IS_SUPPLEMENTARY()\n");
}
}
static void TestCharLength()
{
const int32_t codepoint[]={
1, 0x0061,
1, 0xe065,
1, 0x20ac,
2, 0x20402,
2, 0x23456,
2, 0x24506,
2, 0x20402,
2, 0x10402,
1, 0xd7ff,
1, 0xe000
};
int32_t i;
UBool multiple;
for(i=0; i<(int32_t)(sizeof(codepoint)/sizeof(codepoint[0])); i=(int16_t)(i+2)){
UChar32 c=codepoint[i+1];
if(UTF_CHAR_LENGTH(c) != codepoint[i] || U16_LENGTH(c) != codepoint[i]){
log_err("The no: of code units for U+%04x:- Expected: %d Got: %d\n", c, codepoint[i], U16_LENGTH(c));
}
multiple=(UBool)(codepoint[i] == 1 ? FALSE : TRUE);
if(UTF_NEED_MULTIPLE_UCHAR(c) != multiple){
log_err("ERROR: Unicode::needMultipleUChar() failed for U+%04x\n", c);
}
}
}
static int32_t MakeProp(char* str)
{
int32_t result = 0;
char* matchPosition =0;
matchPosition = strstr(tagStrings, str);
if (matchPosition == 0)
{
log_err("unrecognized type letter ");
log_err(str);
}
else
result = (int32_t)((matchPosition - tagStrings) / 2);
return result;
}
static int32_t MakeDir(char* str)
{
int32_t pos = 0;
for (pos = 0; pos < 19; pos++) {
if (strcmp(str, dirStrings[pos]) == 0) {
return pos;
}
}
return -1;
}
static const struct {
uint32_t code;
const char *name, *oldName, *extName, *alias;
} names[]={
{0x0061, "LATIN SMALL LETTER A", "", "LATIN SMALL LETTER A"},
{0x01a2, "LATIN CAPITAL LETTER OI", "",
"LATIN CAPITAL LETTER OI",
"LATIN CAPITAL LETTER GHA"},
{0x0284, "LATIN SMALL LETTER DOTLESS J WITH STROKE AND HOOK", "",
"LATIN SMALL LETTER DOTLESS J WITH STROKE AND HOOK" },
{0x0fd0, "TIBETAN MARK BSKA- SHOG GI MGO RGYAN", "",
"TIBETAN MARK BSKA- SHOG GI MGO RGYAN",
"TIBETAN MARK BKA- SHOG GI MGO RGYAN"},
{0x3401, "CJK UNIFIED IDEOGRAPH-3401", "", "CJK UNIFIED IDEOGRAPH-3401" },
{0x7fed, "CJK UNIFIED IDEOGRAPH-7FED", "", "CJK UNIFIED IDEOGRAPH-7FED" },
{0xac00, "HANGUL SYLLABLE GA", "", "HANGUL SYLLABLE GA" },
{0xd7a3, "HANGUL SYLLABLE HIH", "", "HANGUL SYLLABLE HIH" },
{0xd800, "", "", "<lead surrogate-D800>" },
{0xdc00, "", "", "<trail surrogate-DC00>" },
{0xff08, "FULLWIDTH LEFT PARENTHESIS", "", "FULLWIDTH LEFT PARENTHESIS" },
{0xffe5, "FULLWIDTH YEN SIGN", "", "FULLWIDTH YEN SIGN" },
{0xffff, "", "", "<noncharacter-FFFF>" },
{0x1d0c5, "BYZANTINE MUSICAL SYMBOL FHTORA SKLIRON CHROMA VASIS", "",
"BYZANTINE MUSICAL SYMBOL FHTORA SKLIRON CHROMA VASIS",
"BYZANTINE MUSICAL SYMBOL FTHORA SKLIRON CHROMA VASIS"},
{0x23456, "CJK UNIFIED IDEOGRAPH-23456", "", "CJK UNIFIED IDEOGRAPH-23456" }
};
static UBool
enumCharNamesFn(void *context,
UChar32 code, UCharNameChoice nameChoice,
const char *name, int32_t length) {
int32_t *pCount=(int32_t *)context;
const char *expected;
int i;
if(length<=0 || length!=(int32_t)strlen(name)) {
log_err("u_enumCharName(0x%lx)=%s but length=%ld\n", name, length);
return TRUE;
}
++*pCount;
for(i=0; i<sizeof(names)/sizeof(names[0]); ++i) {
if(code==(UChar32)names[i].code) {
switch (nameChoice) {
case U_EXTENDED_CHAR_NAME:
if(0!=strcmp(name, names[i].extName)) {
log_err("u_enumCharName(0x%lx - Extended)=%s instead of %s\n", code, name, names[i].extName);
}
break;
case U_UNICODE_CHAR_NAME:
if(0!=strcmp(name, names[i].name)) {
log_err("u_enumCharName(0x%lx)=%s instead of %s\n", code, name, names[i].name);
}
break;
case U_UNICODE_10_CHAR_NAME:
expected=names[i].oldName;
if(expected[0]==0 || 0!=strcmp(name, expected)) {
log_err("u_enumCharName(0x%lx - 1.0)=%s instead of %s\n", code, name, expected);
}
break;
case U_CHAR_NAME_ALIAS:
expected=names[i].alias;
if(expected==NULL || expected[0]==0 || 0!=strcmp(name, expected)) {
log_err("u_enumCharName(0x%lx - alias)=%s instead of %s\n", code, name, expected);
}
break;
case U_CHAR_NAME_CHOICE_COUNT:
break;
}
break;
}
}
return TRUE;
}
struct enumExtCharNamesContext {
uint32_t length;
int32_t last;
};
static UBool
enumExtCharNamesFn(void *context,
UChar32 code, UCharNameChoice nameChoice,
const char *name, int32_t length) {
struct enumExtCharNamesContext *ecncp = (struct enumExtCharNamesContext *) context;
if (ecncp->last != (int32_t) code - 1) {
if (ecncp->last < 0) {
log_err("u_enumCharName(0x%lx - Ext) after u_enumCharName(0x%lx - Ext) instead of u_enumCharName(0x%lx - Ext)\n", code, ecncp->last, ecncp->last + 1);
} else {
log_err("u_enumCharName(0x%lx - Ext) instead of u_enumCharName(0x0 - Ext)\n", code);
}
}
ecncp->last = (int32_t) code;
if (!*name) {
log_err("u_enumCharName(0x%lx - Ext) should not be an empty string\n", code);
}
return enumCharNamesFn(&ecncp->length, code, nameChoice, name, length);
}
static UChar
u_charToUChar(char c) {
UChar uc;
u_charsToUChars(&c, &uc, 1);
return uc;
}
static void
TestCharNames() {
static char name[80];
UErrorCode errorCode=U_ZERO_ERROR;
struct enumExtCharNamesContext extContext;
const char *expected;
int32_t length;
UChar32 c;
int32_t i;
log_verbose("Testing uprv_getMaxCharNameLength()\n");
length=uprv_getMaxCharNameLength();
if(length==0) {
return;
}
if(length<83) {
log_err("uprv_getMaxCharNameLength()=%d is too short");
}
log_verbose("Testing u_charName()\n");
for(i=0; i<(int32_t)(sizeof(names)/sizeof(names[0])); ++i) {
length=u_charName(names[i].code, U_UNICODE_CHAR_NAME, name, sizeof(name), &errorCode);
if(U_FAILURE(errorCode)) {
log_err("u_charName(0x%lx) error %s\n", names[i].code, u_errorName(errorCode));
return;
}
if(length<0 || 0!=strcmp(name, names[i].name) || length!=(uint16_t)strlen(name)) {
log_err("u_charName(0x%lx) gets: %s (length %ld) instead of: %s\n", names[i].code, name, length, names[i].name);
}
if (*names[i].name) {
c=u_charFromName(U_UNICODE_CHAR_NAME, names[i].name, &errorCode);
if(U_FAILURE(errorCode)) {
log_err("u_charFromName(%s) error %s\n", names[i].name, u_errorName(errorCode));
return;
}
if(c!=(UChar32)names[i].code) {
log_err("u_charFromName(%s) gets 0x%lx instead of 0x%lx\n", names[i].name, c, names[i].code);
}
}
length=u_charName(names[i].code, U_UNICODE_10_CHAR_NAME, name, sizeof(name), &errorCode);
if(U_FAILURE(errorCode)) {
log_err("u_charName(0x%lx - 1.0) error %s\n", names[i].code, u_errorName(errorCode));
return;
}
if(length<0 || (length>0 && 0!=strcmp(name, names[i].oldName)) || length!=(uint16_t)strlen(name)) {
log_err("u_charName(0x%lx - 1.0) gets %s length %ld instead of nothing or %s\n", names[i].code, name, length, names[i].oldName);
}
if(names[i].oldName[0]!=0 ) {
c=u_charFromName(U_UNICODE_10_CHAR_NAME, names[i].oldName, &errorCode);
if(U_FAILURE(errorCode)) {
log_err("u_charFromName(%s - 1.0) error %s\n", names[i].oldName, u_errorName(errorCode));
return;
}
if(c!=(UChar32)names[i].code) {
log_err("u_charFromName(%s - 1.0) gets 0x%lx instead of 0x%lx\n", names[i].oldName, c, names[i].code);
}
}
length=u_charName(names[i].code, U_CHAR_NAME_ALIAS, name, sizeof(name), &errorCode);
if(U_FAILURE(errorCode)) {
log_err("u_charName(0x%lx - alias) error %s\n", names[i].code, u_errorName(errorCode));
return;
}
expected=names[i].alias;
if(expected==NULL) {
expected="";
}
if(length<0 || (length>0 && 0!=strcmp(name, expected)) || length!=(uint16_t)strlen(name)) {
log_err("u_charName(0x%lx - alias) gets %s length %ld instead of nothing or %s\n",
names[i].code, name, length, expected);
}
if(expected[0]!=0 ) {
c=u_charFromName(U_CHAR_NAME_ALIAS, expected, &errorCode);
if(U_FAILURE(errorCode)) {
log_err("u_charFromName(%s - alias) error %s\n",
expected, u_errorName(errorCode));
return;
}
if(c!=(UChar32)names[i].code) {
log_err("u_charFromName(%s - alias) gets 0x%lx instead of 0x%lx\n",
expected, c, names[i].code);
}
}
}
length=0;
errorCode=U_ZERO_ERROR;
u_enumCharNames(UCHAR_MIN_VALUE, UCHAR_MAX_VALUE + 1, enumCharNamesFn, &length, U_UNICODE_CHAR_NAME, &errorCode);
if(U_FAILURE(errorCode) || length<94140) {
log_err("u_enumCharNames(%ld..%lx) error %s names count=%ld\n", UCHAR_MIN_VALUE, UCHAR_MAX_VALUE, u_errorName(errorCode), length);
}
extContext.length = 0;
extContext.last = -1;
errorCode=U_ZERO_ERROR;
u_enumCharNames(UCHAR_MIN_VALUE, UCHAR_MAX_VALUE + 1, enumExtCharNamesFn, &extContext, U_EXTENDED_CHAR_NAME, &errorCode);
if(U_FAILURE(errorCode) || extContext.length<UCHAR_MAX_VALUE + 1) {
log_err("u_enumCharNames(%ld..0x%lx - Extended) error %s names count=%ld\n", UCHAR_MIN_VALUE, UCHAR_MAX_VALUE + 1, u_errorName(errorCode), extContext.length);
}
if(0x61!=u_charFromName(U_UNICODE_CHAR_NAME, "LATin smALl letTER A", &errorCode)) {
log_err("u_charFromName(U_UNICODE_CHAR_NAME, \"LATin smALl letTER A\") did not find U+0061 (%s)\n", u_errorName(errorCode));
}
if(!getTestOption(QUICK_OPTION)) {
enum { BUFSIZE = 256 };
UErrorCode ec = U_ZERO_ERROR;
char buf[BUFSIZE];
int32_t maxLength;
UChar32 cp;
UChar pat[BUFSIZE], dumbPat[BUFSIZE];
int32_t l1, l2;
UBool map[256];
UBool ok;
USet* set = uset_open(1, 0);
USet* dumb = uset_open(1, 0);
{
USetAdder sa={
NULL,
uset_add,
uset_addRange,
uset_addString,
NULL
};
sa.set=set;
uprv_getCharNameCharacters(&sa);
}
for (i=0; i<256; ++i) {
map[i] = FALSE;
}
maxLength=0;
for (cp=0; cp<0x110000; ++cp) {
int32_t len = u_charName(cp, U_EXTENDED_CHAR_NAME,
buf, BUFSIZE, &ec);
if (U_FAILURE(ec)) {
log_err("FAIL: u_charName failed when it shouldn't\n");
uset_close(set);
uset_close(dumb);
return;
}
if(len>maxLength) {
maxLength=len;
}
for (i=0; i<len; ++i) {
if (!map[(uint8_t) buf[i]]) {
uset_add(dumb, (UChar32)u_charToUChar(buf[i]));
map[(uint8_t) buf[i]] = TRUE;
}
}
if(buf[0]==' ' || buf[0]=='\t' || buf[len-1]==' ' || buf[len-1]=='\t') {
log_err("u_charName(U+%04x) returns a name with leading or trailing whitespace\n", cp);
}
}
if(map[(uint8_t)'\t']) {
log_err("u_charName() returned a name with a TAB for some code point\n", cp);
}
length=uprv_getMaxCharNameLength();
if(length!=maxLength) {
log_err("uprv_getMaxCharNameLength()=%d differs from the maximum length %d of all extended names\n",
length, maxLength);
}
ok=TRUE;
for(i=0; i<256; ++i) {
if(uset_contains(set, i)!=uset_contains(dumb, i)) {
if(0x61<=i && i<=0x7a && uset_contains(set, i) && !uset_contains(dumb, i)) {
ok=TRUE;
} else {
ok=FALSE;
break;
}
}
}
l1 = uset_toPattern(set, pat, BUFSIZE, TRUE, &ec);
l2 = uset_toPattern(dumb, dumbPat, BUFSIZE, TRUE, &ec);
if (U_FAILURE(ec)) {
log_err("FAIL: uset_toPattern failed when it shouldn't\n");
uset_close(set);
uset_close(dumb);
return;
}
if (l1 >= BUFSIZE) {
l1 = BUFSIZE-1;
pat[l1] = 0;
}
if (l2 >= BUFSIZE) {
l2 = BUFSIZE-1;
dumbPat[l2] = 0;
}
if (!ok) {
log_err("FAIL: uprv_getCharNameCharacters() returned %s, expected %s (too many lowercase a-z are ok)\n",
aescstrdup(pat, l1), aescstrdup(dumbPat, l2));
} else if(getTestOption(VERBOSITY_OPTION)) {
log_verbose("Ok: uprv_getCharNameCharacters() returned %s\n", aescstrdup(pat, l1));
}
uset_close(set);
uset_close(dumb);
}
}
static void
TestMirroring() {
USet *set;
UErrorCode errorCode;
UChar32 start, end, c2, c3;
int32_t i;
U_STRING_DECL(mirroredPattern, "[:Bidi_Mirrored:]", 17);
U_STRING_INIT(mirroredPattern, "[:Bidi_Mirrored:]", 17);
log_verbose("Testing u_isMirrored()\n");
if(!(u_isMirrored(0x28) && u_isMirrored(0xbb) && u_isMirrored(0x2045) && u_isMirrored(0x232a) &&
!u_isMirrored(0x27) && !u_isMirrored(0x61) && !u_isMirrored(0x284) && !u_isMirrored(0x3400)
)
) {
log_err("u_isMirrored() does not work correctly\n");
}
log_verbose("Testing u_charMirror()\n");
if(!(u_charMirror(0x3c)==0x3e && u_charMirror(0x5d)==0x5b && u_charMirror(0x208d)==0x208e && u_charMirror(0x3017)==0x3016 &&
u_charMirror(0xbb)==0xab && u_charMirror(0x2215)==0x29F5 && u_charMirror(0x29F5)==0x2215 &&
u_charMirror(0x2e)==0x2e && u_charMirror(0x6f3)==0x6f3 && u_charMirror(0x301c)==0x301c && u_charMirror(0xa4ab)==0xa4ab &&
u_charMirror(0x2018)==0x2018 && u_charMirror(0x201b)==0x201b && u_charMirror(0x301d)==0x301d
)
) {
log_err("u_charMirror() does not work correctly\n");
}
errorCode=U_ZERO_ERROR;
set=uset_openPattern(mirroredPattern, 17, &errorCode);
if (U_FAILURE(errorCode)) {
log_data_err("uset_openPattern(mirroredPattern, 17, &errorCode) failed!\n");
} else {
for(i=0; 0==uset_getItem(set, i, &start, &end, NULL, 0, &errorCode); ++i) {
do {
c2=u_charMirror(start);
c3=u_charMirror(c2);
if(c3!=start) {
log_err("u_charMirror() does not roundtrip: U+%04lx->U+%04lx->U+%04lx\n", (long)start, (long)c2, (long)c3);
}
} while(++start<=end);
}
}
uset_close(set);
}
struct RunTestData
{
const char *runText;
UScriptCode runCode;
};
typedef struct RunTestData RunTestData;
static void
CheckScriptRuns(UScriptRun *scriptRun, int32_t *runStarts, const RunTestData *testData, int32_t nRuns,
const char *prefix)
{
int32_t run, runStart, runLimit;
UScriptCode runCode;
run = 0;
while (uscript_nextRun(scriptRun, &runStart, &runLimit, &runCode)) {
if (runStart != runStarts[run]) {
log_err("%s: incorrect start offset for run %d: expected %d, got %d\n",
prefix, run, runStarts[run], runStart);
}
if (runLimit != runStarts[run + 1]) {
log_err("%s: incorrect limit offset for run %d: expected %d, got %d\n",
prefix, run, runStarts[run + 1], runLimit);
}
if (runCode != testData[run].runCode) {
log_err("%s: incorrect script for run %d: expected \"%s\", got \"%s\"\n",
prefix, run, uscript_getName(testData[run].runCode), uscript_getName(runCode));
}
run += 1;
if (run >= nRuns) {
break;
}
}
if (run != nRuns) {
log_err("%s: incorrect number of runs: expected %d, got %d\n", prefix, run, nRuns);
}
}
static void
TestUScriptRunAPI()
{
static const RunTestData testData1[] = {
{"\\u0020\\u0946\\u0939\\u093F\\u0928\\u094D\\u0926\\u0940\\u0020", USCRIPT_DEVANAGARI},
{"\\u0627\\u0644\\u0639\\u0631\\u0628\\u064A\\u0629\\u0020", USCRIPT_ARABIC},
{"\\u0420\\u0443\\u0441\\u0441\\u043A\\u0438\\u0439\\u0020", USCRIPT_CYRILLIC},
{"English (", USCRIPT_LATIN},
{"\\u0E44\\u0E17\\u0E22", USCRIPT_THAI},
{") ", USCRIPT_LATIN},
{"\\u6F22\\u5B75", USCRIPT_HAN},
{"\\u3068\\u3072\\u3089\\u304C\\u306A\\u3068", USCRIPT_HIRAGANA},
{"\\u30AB\\u30BF\\u30AB\\u30CA", USCRIPT_KATAKANA},
{"\\U00010400\\U00010401\\U00010402\\U00010403", USCRIPT_DESERET}
};
static const RunTestData testData2[] = {
{"((((((((((abc))))))))))", USCRIPT_LATIN}
};
static const struct {
const RunTestData *testData;
int32_t nRuns;
} testDataEntries[] = {
{testData1, LENGTHOF(testData1)},
{testData2, LENGTHOF(testData2)}
};
static const int32_t nTestEntries = LENGTHOF(testDataEntries);
int32_t testEntry;
for (testEntry = 0; testEntry < nTestEntries; testEntry += 1) {
UChar testString[1024];
int32_t runStarts[256];
int32_t nTestRuns = testDataEntries[testEntry].nRuns;
const RunTestData *testData = testDataEntries[testEntry].testData;
int32_t run, stringLimit;
UScriptRun *scriptRun = NULL;
UErrorCode err;
stringLimit = 0;
for (run = 0; run < nTestRuns; run += 1) {
runStarts[run] = stringLimit;
stringLimit += u_unescape(testData[run].runText, &testString[stringLimit], 1024 - stringLimit);
}
runStarts[nTestRuns] = stringLimit;
err = U_ZERO_ERROR;
scriptRun = uscript_openRun(NULL, stringLimit, &err);
if (err != U_ILLEGAL_ARGUMENT_ERROR) {
log_err("uscript_openRun(NULL, stringLimit, &err) returned %s instead of U_ILLEGAL_ARGUMENT_ERROR.\n", u_errorName(err));
}
if (scriptRun != NULL) {
log_err("uscript_openRun(NULL, stringLimit, &err) returned a non-NULL result.\n");
uscript_closeRun(scriptRun);
}
err = U_ZERO_ERROR;
scriptRun = uscript_openRun(testString, 0, &err);
if (err != U_ILLEGAL_ARGUMENT_ERROR) {
log_err("uscript_openRun(testString, 0, &err) returned %s instead of U_ILLEGAL_ARGUMENT_ERROR.\n", u_errorName(err));
}
if (scriptRun != NULL) {
log_err("uscript_openRun(testString, 0, &err) returned a non-NULL result.\n");
uscript_closeRun(scriptRun);
}
err = U_ZERO_ERROR;
scriptRun = uscript_openRun(NULL, 0, &err);
if (U_FAILURE(err)) {
log_err("Got error %s from uscript_openRun(NULL, 0, &err)\n", u_errorName(err));
}
if (uscript_nextRun(scriptRun, NULL, NULL, NULL)) {
log_err("uscript_nextRun(...) returned TRUE for an empty iterator.\n");
}
err = U_ZERO_ERROR;
uscript_setRunText(scriptRun, NULL, stringLimit, &err);
if (err != U_ILLEGAL_ARGUMENT_ERROR) {
log_err("uscript_setRunText(scriptRun, NULL, stringLimit, &err) returned %s instead of U_ILLEGAL_ARGUMENT_ERROR.\n", u_errorName(err));
}
err = U_ZERO_ERROR;
uscript_setRunText(scriptRun, testString, 0, &err);
if (err != U_ILLEGAL_ARGUMENT_ERROR) {
log_err("uscript_setRunText(scriptRun, testString, 0, &err) returned %s instead of U_ILLEGAL_ARGUMENT_ERROR.\n", u_errorName(err));
}
err = U_ZERO_ERROR;
uscript_setRunText(scriptRun, testString, stringLimit, &err);
if (U_FAILURE(err)) {
log_err("Got error %s from uscript_setRunText(...)\n", u_errorName(err));
} else {
CheckScriptRuns(scriptRun, runStarts, testData, nTestRuns, "uscript_setRunText");
}
uscript_closeRun(scriptRun);
scriptRun = uscript_openRun(testString, stringLimit, &err);
if (U_FAILURE(err)) {
log_err("Got error %s from uscript_openRun(...)\n", u_errorName(err));
} else {
CheckScriptRuns(scriptRun, runStarts, testData, nTestRuns, "uscript_openRun");
}
uscript_resetRun(scriptRun);
CheckScriptRuns(scriptRun, runStarts, testData, nTestRuns, "uscript_resetRun");
uscript_closeRun(scriptRun);
}
}
static void
TestAdditionalProperties() {
static const struct {
UChar32 c;
UVersionInfo version;
} charAges[]={
{0x41, { 1, 1, 0, 0 }},
{0xffff, { 1, 1, 0, 0 }},
{0x20ab, { 2, 0, 0, 0 }},
{0x2fffe, { 2, 0, 0, 0 }},
{0x20ac, { 2, 1, 0, 0 }},
{0xfb1d, { 3, 0, 0, 0 }},
{0x3f4, { 3, 1, 0, 0 }},
{0x10300, { 3, 1, 0, 0 }},
{0x220, { 3, 2, 0, 0 }},
{0xff60, { 3, 2, 0, 0 }}
};
static const int32_t
props[][3]={
{ 0x0627, UCHAR_ALPHABETIC, TRUE },
{ 0x1034a, UCHAR_ALPHABETIC, TRUE },
{ 0x2028, UCHAR_ALPHABETIC, FALSE },
{ 0x0066, UCHAR_ASCII_HEX_DIGIT, TRUE },
{ 0x0067, UCHAR_ASCII_HEX_DIGIT, FALSE },
{ 0x202c, UCHAR_BIDI_CONTROL, TRUE },
{ 0x202f, UCHAR_BIDI_CONTROL, FALSE },
{ 0x003c, UCHAR_BIDI_MIRRORED, TRUE },
{ 0x003d, UCHAR_BIDI_MIRRORED, FALSE },
{ 0x2018, UCHAR_BIDI_MIRRORED, FALSE },
{ 0x201d, UCHAR_BIDI_MIRRORED, FALSE },
{ 0x201f, UCHAR_BIDI_MIRRORED, FALSE },
{ 0x301e, UCHAR_BIDI_MIRRORED, FALSE },
{ 0x058a, UCHAR_DASH, TRUE },
{ 0x007e, UCHAR_DASH, FALSE },
{ 0x0c4d, UCHAR_DIACRITIC, TRUE },
{ 0x3000, UCHAR_DIACRITIC, FALSE },
{ 0x0e46, UCHAR_EXTENDER, TRUE },
{ 0x0020, UCHAR_EXTENDER, FALSE },
#if !UCONFIG_NO_NORMALIZATION
{ 0xfb1d, UCHAR_FULL_COMPOSITION_EXCLUSION, TRUE },
{ 0x1d15f, UCHAR_FULL_COMPOSITION_EXCLUSION, TRUE },
{ 0xfb1e, UCHAR_FULL_COMPOSITION_EXCLUSION, FALSE },
{ 0x110a, UCHAR_NFD_INERT, TRUE },
{ 0x0308, UCHAR_NFD_INERT, FALSE },
{ 0x1164, UCHAR_NFKD_INERT, TRUE },
{ 0x1d79d, UCHAR_NFKD_INERT, FALSE },
{ 0x0021, UCHAR_NFC_INERT, TRUE },
{ 0x0061, UCHAR_NFC_INERT, FALSE },
{ 0x00e4, UCHAR_NFC_INERT, FALSE },
{ 0x0102, UCHAR_NFC_INERT, FALSE },
{ 0xac1c, UCHAR_NFC_INERT, FALSE },
{ 0xac1d, UCHAR_NFC_INERT, TRUE },
{ 0x1d79d, UCHAR_NFKC_INERT, FALSE },
{ 0x2a6d6, UCHAR_NFKC_INERT, TRUE },
{ 0x00e4, UCHAR_SEGMENT_STARTER, TRUE },
{ 0x0308, UCHAR_SEGMENT_STARTER, FALSE },
{ 0x110a, UCHAR_SEGMENT_STARTER, TRUE },
{ 0x1164, UCHAR_SEGMENT_STARTER, FALSE },
{ 0xac1c, UCHAR_SEGMENT_STARTER, TRUE },
{ 0xac1d, UCHAR_SEGMENT_STARTER, TRUE },
#endif
{ 0x0044, UCHAR_HEX_DIGIT, TRUE },
{ 0xff46, UCHAR_HEX_DIGIT, TRUE },
{ 0x0047, UCHAR_HEX_DIGIT, FALSE },
{ 0x30fb, UCHAR_HYPHEN, TRUE },
{ 0xfe58, UCHAR_HYPHEN, FALSE },
{ 0x2172, UCHAR_ID_CONTINUE, TRUE },
{ 0x0307, UCHAR_ID_CONTINUE, TRUE },
{ 0x005c, UCHAR_ID_CONTINUE, FALSE },
{ 0x2172, UCHAR_ID_START, TRUE },
{ 0x007a, UCHAR_ID_START, TRUE },
{ 0x0039, UCHAR_ID_START, FALSE },
{ 0x4db5, UCHAR_IDEOGRAPHIC, TRUE },
{ 0x2f999, UCHAR_IDEOGRAPHIC, TRUE },
{ 0x2f99, UCHAR_IDEOGRAPHIC, FALSE },
{ 0x200c, UCHAR_JOIN_CONTROL, TRUE },
{ 0x2029, UCHAR_JOIN_CONTROL, FALSE },
{ 0x1d7bc, UCHAR_LOWERCASE, TRUE },
{ 0x0345, UCHAR_LOWERCASE, TRUE },
{ 0x0030, UCHAR_LOWERCASE, FALSE },
{ 0x1d7a9, UCHAR_MATH, TRUE },
{ 0x2135, UCHAR_MATH, TRUE },
{ 0x0062, UCHAR_MATH, FALSE },
{ 0xfde1, UCHAR_NONCHARACTER_CODE_POINT, TRUE },
{ 0x10ffff, UCHAR_NONCHARACTER_CODE_POINT, TRUE },
{ 0x10fffd, UCHAR_NONCHARACTER_CODE_POINT, FALSE },
{ 0x0022, UCHAR_QUOTATION_MARK, TRUE },
{ 0xff62, UCHAR_QUOTATION_MARK, TRUE },
{ 0xd840, UCHAR_QUOTATION_MARK, FALSE },
{ 0x061f, UCHAR_TERMINAL_PUNCTUATION, TRUE },
{ 0xe003f, UCHAR_TERMINAL_PUNCTUATION, FALSE },
{ 0x1d44a, UCHAR_UPPERCASE, TRUE },
{ 0x2162, UCHAR_UPPERCASE, TRUE },
{ 0x0345, UCHAR_UPPERCASE, FALSE },
{ 0x0020, UCHAR_WHITE_SPACE, TRUE },
{ 0x202f, UCHAR_WHITE_SPACE, TRUE },
{ 0x3001, UCHAR_WHITE_SPACE, FALSE },
{ 0x0711, UCHAR_XID_CONTINUE, TRUE },
{ 0x1d1aa, UCHAR_XID_CONTINUE, TRUE },
{ 0x007c, UCHAR_XID_CONTINUE, FALSE },
{ 0x16ee, UCHAR_XID_START, TRUE },
{ 0x23456, UCHAR_XID_START, TRUE },
{ 0x1d1aa, UCHAR_XID_START, FALSE },
{ -1, 0x320, 0 },
{ 0x180c, UCHAR_DEFAULT_IGNORABLE_CODE_POINT, TRUE },
{ 0xfe02, UCHAR_DEFAULT_IGNORABLE_CODE_POINT, TRUE },
{ 0x1801, UCHAR_DEFAULT_IGNORABLE_CODE_POINT, FALSE },
{ 0x0149, UCHAR_DEPRECATED, TRUE },
{ 0x0341, UCHAR_DEPRECATED, FALSE },
{ 0xe0041, UCHAR_DEPRECATED, TRUE },
{ 0xe0100, UCHAR_DEPRECATED, FALSE },
{ 0x00a0, UCHAR_GRAPHEME_BASE, TRUE },
{ 0x0a4d, UCHAR_GRAPHEME_BASE, FALSE },
{ 0xff9d, UCHAR_GRAPHEME_BASE, TRUE },
{ 0xff9f, UCHAR_GRAPHEME_BASE, FALSE },
{ 0x0300, UCHAR_GRAPHEME_EXTEND, TRUE },
{ 0xff9d, UCHAR_GRAPHEME_EXTEND, FALSE },
{ 0xff9f, UCHAR_GRAPHEME_EXTEND, TRUE },
{ 0x0603, UCHAR_GRAPHEME_EXTEND, FALSE },
{ 0x0a4d, UCHAR_GRAPHEME_LINK, TRUE },
{ 0xff9f, UCHAR_GRAPHEME_LINK, FALSE },
{ 0x2ff7, UCHAR_IDS_BINARY_OPERATOR, TRUE },
{ 0x2ff3, UCHAR_IDS_BINARY_OPERATOR, FALSE },
{ 0x2ff3, UCHAR_IDS_TRINARY_OPERATOR, TRUE },
{ 0x2f03, UCHAR_IDS_TRINARY_OPERATOR, FALSE },
{ 0x0ec1, UCHAR_LOGICAL_ORDER_EXCEPTION, TRUE },
{ 0xdcba, UCHAR_LOGICAL_ORDER_EXCEPTION, FALSE },
{ 0x2e9b, UCHAR_RADICAL, TRUE },
{ 0x4e00, UCHAR_RADICAL, FALSE },
{ 0x012f, UCHAR_SOFT_DOTTED, TRUE },
{ 0x0049, UCHAR_SOFT_DOTTED, FALSE },
{ 0xfa11, UCHAR_UNIFIED_IDEOGRAPH, TRUE },
{ 0xfa12, UCHAR_UNIFIED_IDEOGRAPH, FALSE },
{ -1, 0x401, 0 },
{ 0x002e, UCHAR_S_TERM, TRUE },
{ 0x0061, UCHAR_S_TERM, FALSE },
{ 0x180c, UCHAR_VARIATION_SELECTOR, TRUE },
{ 0xfe03, UCHAR_VARIATION_SELECTOR, TRUE },
{ 0xe01ef, UCHAR_VARIATION_SELECTOR, TRUE },
{ 0xe0200, UCHAR_VARIATION_SELECTOR, FALSE },
{ 0x0590, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0x05cf, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0x05ed, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0x07f2, UCHAR_BIDI_CLASS, U_DIR_NON_SPACING_MARK },
{ 0x07fe, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0x089f, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0xfb37, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0xfb42, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0x10806, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0x10909, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0x10fe4, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0x0605, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT_ARABIC },
{ 0x061c, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT_ARABIC },
{ 0x063f, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT_ARABIC },
{ 0x070e, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT_ARABIC },
{ 0x0775, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT_ARABIC },
{ 0xfbc2, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT_ARABIC },
{ 0xfd90, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT_ARABIC },
{ 0xfefe, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT_ARABIC },
{ 0x02AF, UCHAR_BLOCK, UBLOCK_IPA_EXTENSIONS },
{ 0x0C4E, UCHAR_BLOCK, UBLOCK_TELUGU },
{ 0x155A, UCHAR_BLOCK, UBLOCK_UNIFIED_CANADIAN_ABORIGINAL_SYLLABICS },
{ 0x1717, UCHAR_BLOCK, UBLOCK_TAGALOG },
{ 0x1900, UCHAR_BLOCK, UBLOCK_LIMBU },
{ 0x1AFF, UCHAR_BLOCK, UBLOCK_NO_BLOCK },
{ 0x3040, UCHAR_BLOCK, UBLOCK_HIRAGANA },
{ 0x1D0FF, UCHAR_BLOCK, UBLOCK_BYZANTINE_MUSICAL_SYMBOLS },
{ 0x50000, UCHAR_BLOCK, UBLOCK_NO_BLOCK },
{ 0xEFFFF, UCHAR_BLOCK, UBLOCK_NO_BLOCK },
{ 0x10D0FF, UCHAR_BLOCK, UBLOCK_SUPPLEMENTARY_PRIVATE_USE_AREA_B },
{ 0xd7d7, UCHAR_CANONICAL_COMBINING_CLASS, 0 },
{ 0x00A0, UCHAR_DECOMPOSITION_TYPE, U_DT_NOBREAK },
{ 0x00A8, UCHAR_DECOMPOSITION_TYPE, U_DT_COMPAT },
{ 0x00bf, UCHAR_DECOMPOSITION_TYPE, U_DT_NONE },
{ 0x00c0, UCHAR_DECOMPOSITION_TYPE, U_DT_CANONICAL },
{ 0x1E9B, UCHAR_DECOMPOSITION_TYPE, U_DT_CANONICAL },
{ 0xBCDE, UCHAR_DECOMPOSITION_TYPE, U_DT_CANONICAL },
{ 0xFB5D, UCHAR_DECOMPOSITION_TYPE, U_DT_MEDIAL },
{ 0x1D736, UCHAR_DECOMPOSITION_TYPE, U_DT_FONT },
{ 0xe0033, UCHAR_DECOMPOSITION_TYPE, U_DT_NONE },
{ 0x0009, UCHAR_EAST_ASIAN_WIDTH, U_EA_NEUTRAL },
{ 0x0020, UCHAR_EAST_ASIAN_WIDTH, U_EA_NARROW },
{ 0x00B1, UCHAR_EAST_ASIAN_WIDTH, U_EA_AMBIGUOUS },
{ 0x20A9, UCHAR_EAST_ASIAN_WIDTH, U_EA_HALFWIDTH },
{ 0x2FFB, UCHAR_EAST_ASIAN_WIDTH, U_EA_WIDE },
{ 0x3000, UCHAR_EAST_ASIAN_WIDTH, U_EA_FULLWIDTH },
{ 0x35bb, UCHAR_EAST_ASIAN_WIDTH, U_EA_WIDE },
{ 0x58bd, UCHAR_EAST_ASIAN_WIDTH, U_EA_WIDE },
{ 0xD7A3, UCHAR_EAST_ASIAN_WIDTH, U_EA_WIDE },
{ 0xEEEE, UCHAR_EAST_ASIAN_WIDTH, U_EA_AMBIGUOUS },
{ 0x1D198, UCHAR_EAST_ASIAN_WIDTH, U_EA_NEUTRAL },
{ 0x20000, UCHAR_EAST_ASIAN_WIDTH, U_EA_WIDE },
{ 0x2F8C7, UCHAR_EAST_ASIAN_WIDTH, U_EA_WIDE },
{ 0x3a5bd, UCHAR_EAST_ASIAN_WIDTH, U_EA_WIDE },
{ 0x5a5bd, UCHAR_EAST_ASIAN_WIDTH, U_EA_NEUTRAL },
{ 0xFEEEE, UCHAR_EAST_ASIAN_WIDTH, U_EA_AMBIGUOUS },
{ 0x10EEEE, UCHAR_EAST_ASIAN_WIDTH, U_EA_AMBIGUOUS },
{ 0xd7c7, UCHAR_GENERAL_CATEGORY, 0 },
{ 0xd7d7, UCHAR_GENERAL_CATEGORY, U_OTHER_LETTER },
{ 0x0444, UCHAR_JOINING_GROUP, U_JG_NO_JOINING_GROUP },
{ 0x0639, UCHAR_JOINING_GROUP, U_JG_AIN },
{ 0x072A, UCHAR_JOINING_GROUP, U_JG_DALATH_RISH },
{ 0x0647, UCHAR_JOINING_GROUP, U_JG_HEH },
{ 0x06C1, UCHAR_JOINING_GROUP, U_JG_HEH_GOAL },
{ 0x200C, UCHAR_JOINING_TYPE, U_JT_NON_JOINING },
{ 0x200D, UCHAR_JOINING_TYPE, U_JT_JOIN_CAUSING },
{ 0x0639, UCHAR_JOINING_TYPE, U_JT_DUAL_JOINING },
{ 0x0640, UCHAR_JOINING_TYPE, U_JT_JOIN_CAUSING },
{ 0x06C3, UCHAR_JOINING_TYPE, U_JT_RIGHT_JOINING },
{ 0x0300, UCHAR_JOINING_TYPE, U_JT_TRANSPARENT },
{ 0x070F, UCHAR_JOINING_TYPE, U_JT_TRANSPARENT },
{ 0xe0033, UCHAR_JOINING_TYPE, U_JT_TRANSPARENT },
{ 0xe7e7, UCHAR_LINE_BREAK, U_LB_UNKNOWN },
{ 0x10fffd, UCHAR_LINE_BREAK, U_LB_UNKNOWN },
{ 0x0028, UCHAR_LINE_BREAK, U_LB_OPEN_PUNCTUATION },
{ 0x232A, UCHAR_LINE_BREAK, U_LB_CLOSE_PUNCTUATION },
{ 0x3401, UCHAR_LINE_BREAK, U_LB_IDEOGRAPHIC },
{ 0x4e02, UCHAR_LINE_BREAK, U_LB_IDEOGRAPHIC },
{ 0x20004, UCHAR_LINE_BREAK, U_LB_IDEOGRAPHIC },
{ 0xf905, UCHAR_LINE_BREAK, U_LB_IDEOGRAPHIC },
{ 0xdb7e, UCHAR_LINE_BREAK, U_LB_SURROGATE },
{ 0xdbfd, UCHAR_LINE_BREAK, U_LB_SURROGATE },
{ 0xdffc, UCHAR_LINE_BREAK, U_LB_SURROGATE },
{ 0x2762, UCHAR_LINE_BREAK, U_LB_EXCLAMATION },
{ 0x002F, UCHAR_LINE_BREAK, U_LB_BREAK_SYMBOLS },
{ 0x1D49C, UCHAR_LINE_BREAK, U_LB_ALPHABETIC },
{ 0x1731, UCHAR_LINE_BREAK, U_LB_ALPHABETIC },
{ 0x10ff, UCHAR_HANGUL_SYLLABLE_TYPE, 0 },
{ 0x1100, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LEADING_JAMO },
{ 0x1111, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LEADING_JAMO },
{ 0x1159, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LEADING_JAMO },
{ 0x115a, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LEADING_JAMO },
{ 0x115e, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LEADING_JAMO },
{ 0x115f, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LEADING_JAMO },
{ 0xa95f, UCHAR_HANGUL_SYLLABLE_TYPE, 0 },
{ 0xa960, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LEADING_JAMO },
{ 0xa97c, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LEADING_JAMO },
{ 0xa97d, UCHAR_HANGUL_SYLLABLE_TYPE, 0 },
{ 0x1160, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_VOWEL_JAMO },
{ 0x1161, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_VOWEL_JAMO },
{ 0x1172, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_VOWEL_JAMO },
{ 0x11a2, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_VOWEL_JAMO },
{ 0x11a3, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_VOWEL_JAMO },
{ 0x11a7, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_VOWEL_JAMO },
{ 0xd7af, UCHAR_HANGUL_SYLLABLE_TYPE, 0 },
{ 0xd7b0, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_VOWEL_JAMO },
{ 0xd7c6, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_VOWEL_JAMO },
{ 0xd7c7, UCHAR_HANGUL_SYLLABLE_TYPE, 0 },
{ 0x11a8, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_TRAILING_JAMO },
{ 0x11b8, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_TRAILING_JAMO },
{ 0x11c8, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_TRAILING_JAMO },
{ 0x11f9, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_TRAILING_JAMO },
{ 0x11fa, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_TRAILING_JAMO },
{ 0x11ff, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_TRAILING_JAMO },
{ 0x1200, UCHAR_HANGUL_SYLLABLE_TYPE, 0 },
{ 0xd7ca, UCHAR_HANGUL_SYLLABLE_TYPE, 0 },
{ 0xd7cb, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_TRAILING_JAMO },
{ 0xd7fb, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_TRAILING_JAMO },
{ 0xd7fc, UCHAR_HANGUL_SYLLABLE_TYPE, 0 },
{ 0xac00, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LV_SYLLABLE },
{ 0xac1c, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LV_SYLLABLE },
{ 0xc5ec, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LV_SYLLABLE },
{ 0xd788, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LV_SYLLABLE },
{ 0xac01, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LVT_SYLLABLE },
{ 0xac1b, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LVT_SYLLABLE },
{ 0xac1d, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LVT_SYLLABLE },
{ 0xc5ee, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LVT_SYLLABLE },
{ 0xd7a3, UCHAR_HANGUL_SYLLABLE_TYPE, U_HST_LVT_SYLLABLE },
{ 0xd7a4, UCHAR_HANGUL_SYLLABLE_TYPE, 0 },
{ -1, 0x410, 0 },
{ 0x00d7, UCHAR_PATTERN_SYNTAX, TRUE },
{ 0xfe45, UCHAR_PATTERN_SYNTAX, TRUE },
{ 0x0061, UCHAR_PATTERN_SYNTAX, FALSE },
{ 0x0020, UCHAR_PATTERN_WHITE_SPACE, TRUE },
{ 0x0085, UCHAR_PATTERN_WHITE_SPACE, TRUE },
{ 0x200f, UCHAR_PATTERN_WHITE_SPACE, TRUE },
{ 0x00a0, UCHAR_PATTERN_WHITE_SPACE, FALSE },
{ 0x3000, UCHAR_PATTERN_WHITE_SPACE, FALSE },
{ 0x1d200, UCHAR_BLOCK, UBLOCK_ANCIENT_GREEK_MUSICAL_NOTATION },
{ 0x2c8e, UCHAR_BLOCK, UBLOCK_COPTIC },
{ 0xfe17, UCHAR_BLOCK, UBLOCK_VERTICAL_FORMS },
{ 0x1a00, UCHAR_SCRIPT, USCRIPT_BUGINESE },
{ 0x2cea, UCHAR_SCRIPT, USCRIPT_COPTIC },
{ 0xa82b, UCHAR_SCRIPT, USCRIPT_SYLOTI_NAGRI },
{ 0x103d0, UCHAR_SCRIPT, USCRIPT_OLD_PERSIAN },
{ 0xcc28, UCHAR_LINE_BREAK, U_LB_H2 },
{ 0xcc29, UCHAR_LINE_BREAK, U_LB_H3 },
{ 0xac03, UCHAR_LINE_BREAK, U_LB_H3 },
{ 0x115f, UCHAR_LINE_BREAK, U_LB_JL },
{ 0x11aa, UCHAR_LINE_BREAK, U_LB_JT },
{ 0x11a1, UCHAR_LINE_BREAK, U_LB_JV },
{ 0xb2c9, UCHAR_GRAPHEME_CLUSTER_BREAK, U_GCB_LVT },
{ 0x036f, UCHAR_GRAPHEME_CLUSTER_BREAK, U_GCB_EXTEND },
{ 0x0000, UCHAR_GRAPHEME_CLUSTER_BREAK, U_GCB_CONTROL },
{ 0x1160, UCHAR_GRAPHEME_CLUSTER_BREAK, U_GCB_V },
{ 0x05f4, UCHAR_WORD_BREAK, U_WB_MIDLETTER },
{ 0x4ef0, UCHAR_WORD_BREAK, U_WB_OTHER },
{ 0x19d9, UCHAR_WORD_BREAK, U_WB_NUMERIC },
{ 0x2044, UCHAR_WORD_BREAK, U_WB_MIDNUM },
{ 0xfffd, UCHAR_SENTENCE_BREAK, U_SB_OTHER },
{ 0x1ffc, UCHAR_SENTENCE_BREAK, U_SB_UPPER },
{ 0xff63, UCHAR_SENTENCE_BREAK, U_SB_CLOSE },
{ 0x2028, UCHAR_SENTENCE_BREAK, U_SB_SEP },
{ -1, 0x520, 0 },
{ 0x1ede4, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0x1efe4, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT },
{ 0xa6e6, UCHAR_SCRIPT, USCRIPT_BAMUM },
{ 0xa4d0, UCHAR_SCRIPT, USCRIPT_LISU },
{ 0x10a7f, UCHAR_SCRIPT, USCRIPT_OLD_SOUTH_ARABIAN },
{ -1, 0x600, 0 },
{ 0x06C3, UCHAR_JOINING_GROUP, U_JG_TEH_MARBUTA_GOAL },
{ -1, 0x610, 0 },
{ 0x08ba, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT_ARABIC },
{ 0x1eee4, UCHAR_BIDI_CLASS, U_RIGHT_TO_LEFT_ARABIC },
{ 0x61, 0x4a7, 0 },
{ 0x234bc, 0x15ed, 0 }
};
UVersionInfo version;
UChar32 c;
int32_t i, result, uVersion;
UProperty which;
u_getUnicodeVersion(version);
uVersion=((int32_t)version[0]<<8)|(version[1]<<4)|version[2];
u_charAge(0x20, version);
if(version[0]==0) {
log_err("TestAdditionalProperties: no additional properties available, not tested\n");
return;
}
for(i=0; i<sizeof(charAges)/sizeof(charAges[0]); ++i) {
u_charAge(charAges[i].c, version);
if(0!=memcmp(version, charAges[i].version, sizeof(UVersionInfo))) {
log_err("error: u_charAge(U+%04lx)={ %u, %u, %u, %u } instead of { %u, %u, %u, %u }\n",
charAges[i].c,
version[0], version[1], version[2], version[3],
charAges[i].version[0], charAges[i].version[1], charAges[i].version[2], charAges[i].version[3]);
}
}
if( u_getIntPropertyMinValue(UCHAR_DASH)!=0 ||
u_getIntPropertyMinValue(UCHAR_BIDI_CLASS)!=0 ||
u_getIntPropertyMinValue(UCHAR_BLOCK)!=0 ||
u_getIntPropertyMinValue(UCHAR_SCRIPT)!=0 ||
u_getIntPropertyMinValue(0x2345)!=0
) {
log_err("error: u_getIntPropertyMinValue() wrong\n");
}
if( u_getIntPropertyMaxValue(UCHAR_DASH)!=1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_DASH) wrong\n");
}
if( u_getIntPropertyMaxValue(UCHAR_ID_CONTINUE)!=1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_ID_CONTINUE) wrong\n");
}
if( u_getIntPropertyMaxValue((UProperty)(UCHAR_BINARY_LIMIT-1))!=1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_BINARY_LIMIT-1) wrong\n");
}
if( u_getIntPropertyMaxValue(UCHAR_BIDI_CLASS)!=(int32_t)U_CHAR_DIRECTION_COUNT-1 ) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_BIDI_CLASS) wrong\n");
}
if( u_getIntPropertyMaxValue(UCHAR_BLOCK)!=(int32_t)UBLOCK_COUNT-1 ) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_BLOCK) wrong\n");
}
if(u_getIntPropertyMaxValue(UCHAR_LINE_BREAK)!=(int32_t)U_LB_COUNT-1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_LINE_BREAK) wrong\n");
}
if(u_getIntPropertyMaxValue(UCHAR_SCRIPT)!=(int32_t)USCRIPT_CODE_LIMIT-1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_SCRIPT) wrong\n");
}
if(u_getIntPropertyMaxValue(UCHAR_NUMERIC_TYPE)!=(int32_t)U_NT_COUNT-1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_NUMERIC_TYPE) wrong\n");
}
if(u_getIntPropertyMaxValue(UCHAR_GENERAL_CATEGORY)!=(int32_t)U_CHAR_CATEGORY_COUNT-1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_GENERAL_CATEGORY) wrong\n");
}
if(u_getIntPropertyMaxValue(UCHAR_HANGUL_SYLLABLE_TYPE)!=(int32_t)U_HST_COUNT-1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_HANGUL_SYLLABLE_TYPE) wrong\n");
}
if(u_getIntPropertyMaxValue(UCHAR_GRAPHEME_CLUSTER_BREAK)!=(int32_t)U_GCB_COUNT-1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_GRAPHEME_CLUSTER_BREAK) wrong\n");
}
if(u_getIntPropertyMaxValue(UCHAR_SENTENCE_BREAK)!=(int32_t)U_SB_COUNT-1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_SENTENCE_BREAK) wrong\n");
}
if(u_getIntPropertyMaxValue(UCHAR_WORD_BREAK)!=(int32_t)U_WB_COUNT-1) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_WORD_BREAK) wrong\n");
}
if( u_getIntPropertyMaxValue(0x2345)!=-1) {
log_err("error: u_getIntPropertyMaxValue(0x2345) wrong\n");
}
if( u_getIntPropertyMaxValue(UCHAR_DECOMPOSITION_TYPE) != (int32_t) (U_DT_COUNT - 1)) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_DECOMPOSITION_TYPE) wrong\n");
}
if( u_getIntPropertyMaxValue(UCHAR_JOINING_GROUP) != (int32_t) (U_JG_COUNT -1)) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_JOINING_GROUP) wrong\n");
}
if( u_getIntPropertyMaxValue(UCHAR_JOINING_TYPE) != (int32_t) (U_JT_COUNT -1)) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_JOINING_TYPE) wrong\n");
}
if( u_getIntPropertyMaxValue(UCHAR_EAST_ASIAN_WIDTH) != (int32_t) (U_EA_COUNT -1)) {
log_err("error: u_getIntPropertyMaxValue(UCHAR_EAST_ASIAN_WIDTH) wrong\n");
}
for(i=0; i<sizeof(props)/sizeof(props[0]); ++i) {
const char *whichName;
if(props[i][0]<0) {
if(uVersion<props[i][1]) {
break;
} else {
continue;
}
}
c=(UChar32)props[i][0];
which=(UProperty)props[i][1];
whichName=u_getPropertyName(which, U_LONG_PROPERTY_NAME);
if(which<UCHAR_INT_START) {
result=u_hasBinaryProperty(c, which);
if(result!=props[i][2]) {
log_data_err("error: u_hasBinaryProperty(U+%04lx, %s)=%d is wrong (props[%d]) - (Are you missing data?)\n",
c, whichName, result, i);
}
}
result=u_getIntPropertyValue(c, which);
if(result!=props[i][2]) {
log_data_err("error: u_getIntPropertyValue(U+%04lx, %s)=%d is wrong, should be %d (props[%d]) - (Are you missing data?)\n",
c, whichName, result, props[i][2], i);
}
switch((UProperty)props[i][1]) {
case UCHAR_ALPHABETIC:
if(u_isUAlphabetic((UChar32)props[i][0])!=(UBool)props[i][2]) {
log_err("error: u_isUAlphabetic(U+%04lx)=%d is wrong (props[%d])\n",
props[i][0], result, i);
}
break;
case UCHAR_LOWERCASE:
if(u_isULowercase((UChar32)props[i][0])!=(UBool)props[i][2]) {
log_err("error: u_isULowercase(U+%04lx)=%d is wrong (props[%d])\n",
props[i][0], result, i);
}
break;
case UCHAR_UPPERCASE:
if(u_isUUppercase((UChar32)props[i][0])!=(UBool)props[i][2]) {
log_err("error: u_isUUppercase(U+%04lx)=%d is wrong (props[%d])\n",
props[i][0], result, i);
}
break;
case UCHAR_WHITE_SPACE:
if(u_isUWhiteSpace((UChar32)props[i][0])!=(UBool)props[i][2]) {
log_err("error: u_isUWhiteSpace(U+%04lx)=%d is wrong (props[%d])\n",
props[i][0], result, i);
}
break;
default:
break;
}
}
}
static void
TestNumericProperties(void) {
static const struct {
UChar32 c;
int32_t type;
double numValue;
} values[]={
{ 0x0F33, U_NT_NUMERIC, -1./2. },
{ 0x0C66, U_NT_DECIMAL, 0 },
{ 0x96f6, U_NT_NUMERIC, 0 },
{ 0xa833, U_NT_NUMERIC, 1./16. },
{ 0x2152, U_NT_NUMERIC, 1./10. },
{ 0x2151, U_NT_NUMERIC, 1./9. },
{ 0x1245f, U_NT_NUMERIC, 1./8. },
{ 0x2150, U_NT_NUMERIC, 1./7. },
{ 0x2159, U_NT_NUMERIC, 1./6. },
{ 0x09f6, U_NT_NUMERIC, 3./16. },
{ 0x2155, U_NT_NUMERIC, 1./5. },
{ 0x00BD, U_NT_NUMERIC, 1./2. },
{ 0x0031, U_NT_DECIMAL, 1. },
{ 0x4e00, U_NT_NUMERIC, 1. },
{ 0x58f1, U_NT_NUMERIC, 1. },
{ 0x10320, U_NT_NUMERIC, 1. },
{ 0x0F2B, U_NT_NUMERIC, 3./2. },
{ 0x00B2, U_NT_DIGIT, 2. },
{ 0x5f10, U_NT_NUMERIC, 2. },
{ 0x1813, U_NT_DECIMAL, 3. },
{ 0x5f0e, U_NT_NUMERIC, 3. },
{ 0x2173, U_NT_NUMERIC, 4. },
{ 0x8086, U_NT_NUMERIC, 4. },
{ 0x278E, U_NT_DIGIT, 5. },
{ 0x1D7F2, U_NT_DECIMAL, 6. },
{ 0x247A, U_NT_DIGIT, 7. },
{ 0x7396, U_NT_NUMERIC, 9. },
{ 0x1372, U_NT_NUMERIC, 10. },
{ 0x216B, U_NT_NUMERIC, 12. },
{ 0x16EE, U_NT_NUMERIC, 17. },
{ 0x249A, U_NT_NUMERIC, 19. },
{ 0x303A, U_NT_NUMERIC, 30. },
{ 0x5345, U_NT_NUMERIC, 30. },
{ 0x32B2, U_NT_NUMERIC, 37. },
{ 0x1375, U_NT_NUMERIC, 40. },
{ 0x10323, U_NT_NUMERIC, 50. },
{ 0x0BF1, U_NT_NUMERIC, 100. },
{ 0x964c, U_NT_NUMERIC, 100. },
{ 0x217E, U_NT_NUMERIC, 500. },
{ 0x2180, U_NT_NUMERIC, 1000. },
{ 0x4edf, U_NT_NUMERIC, 1000. },
{ 0x2181, U_NT_NUMERIC, 5000. },
{ 0x137C, U_NT_NUMERIC, 10000. },
{ 0x4e07, U_NT_NUMERIC, 10000. },
{ 0x4ebf, U_NT_NUMERIC, 100000000. },
{ 0x5146, U_NT_NUMERIC, 1000000000000. },
{ -1, U_NT_NONE, U_NO_NUMERIC_VALUE },
{ 0x61, U_NT_NONE, U_NO_NUMERIC_VALUE },
{ 0x3000, U_NT_NONE, U_NO_NUMERIC_VALUE },
{ 0xfffe, U_NT_NONE, U_NO_NUMERIC_VALUE },
{ 0x10301, U_NT_NONE, U_NO_NUMERIC_VALUE },
{ 0xe0033, U_NT_NONE, U_NO_NUMERIC_VALUE },
{ 0x10ffff, U_NT_NONE, U_NO_NUMERIC_VALUE },
{ 0x110000, U_NT_NONE, U_NO_NUMERIC_VALUE }
};
double nv;
UChar32 c;
int32_t i, type;
for(i=0; i<LENGTHOF(values); ++i) {
c=values[i].c;
type=u_getIntPropertyValue(c, UCHAR_NUMERIC_TYPE);
nv=u_getNumericValue(c);
if(type!=values[i].type) {
log_err("UCHAR_NUMERIC_TYPE(U+%04lx)=%d should be %d\n", c, type, values[i].type);
}
if(0.000001 <= fabs(nv - values[i].numValue)) {
log_err("u_getNumericValue(U+%04lx)=%g should be %g\n", c, nv, values[i].numValue);
}
}
}
static void
TestPropertyNames(void) {
int32_t p, v, choice=0, rev;
UBool atLeastSomething = FALSE;
for (p=0; ; ++p) {
UProperty propEnum = (UProperty)p;
UBool sawProp = FALSE;
if(p > 10 && !atLeastSomething) {
log_data_err("Never got anything after 10 tries.\nYour data is probably fried. Quitting this test\n", p, choice);
return;
}
for (choice=0; ; ++choice) {
const char* name = u_getPropertyName(propEnum, (UPropertyNameChoice)choice);
if (name) {
if (!sawProp)
log_verbose("prop 0x%04x+%2d:", p&~0xfff, p&0xfff);
log_verbose("%d=\"%s\"", choice, name);
sawProp = TRUE;
atLeastSomething = TRUE;
rev = u_getPropertyEnum(name);
if (rev != p) {
log_err("Property round-trip failure: %d -> %s -> %d\n",
p, name, rev);
}
}
if (!name && choice>0) break;
}
if (sawProp) {
const char* pname = u_getPropertyName(propEnum, U_LONG_PROPERTY_NAME);
int32_t max = 0;
if (p == UCHAR_CANONICAL_COMBINING_CLASS) {
max = 255;
} else if (p == UCHAR_GENERAL_CATEGORY_MASK) {
max = U_GC_NL_MASK;
} else if (p == UCHAR_BLOCK) {
max = 1;
}
log_verbose("\n");
for (v=-1; ; ++v) {
UBool sawValue = FALSE;
for (choice=0; ; ++choice) {
const char* vname = u_getPropertyValueName(propEnum, v, (UPropertyNameChoice)choice);
if (vname) {
if (!sawValue) log_verbose(" %s, value %d:", pname, v);
log_verbose("%d=\"%s\"", choice, vname);
sawValue = TRUE;
rev = u_getPropertyValueEnum(propEnum, vname);
if (rev != v) {
log_err("Value round-trip failure (%s): %d -> %s -> %d\n",
pname, v, vname, rev);
}
}
if (!vname && choice>0) break;
}
if (sawValue) {
log_verbose("\n");
}
if (!sawValue && v>=max) break;
}
}
if (!sawProp) {
if (p>=UCHAR_STRING_LIMIT) {
break;
} else if (p>=UCHAR_DOUBLE_LIMIT) {
p = UCHAR_STRING_START - 1;
} else if (p>=UCHAR_MASK_LIMIT) {
p = UCHAR_DOUBLE_START - 1;
} else if (p>=UCHAR_INT_LIMIT) {
p = UCHAR_MASK_START - 1;
} else if (p>=UCHAR_BINARY_LIMIT) {
p = UCHAR_INT_START - 1;
}
}
}
}
static void
TestPropertyValues(void) {
int32_t i, p, min, max;
UErrorCode ec;
for (p=UCHAR_INT_START; p<UCHAR_INT_LIMIT; ++p) {
UProperty propEnum = (UProperty)p;
min = u_getIntPropertyMinValue(propEnum);
if (min != 0) {
if (p == UCHAR_BLOCK) {
} else {
const char* name;
name = u_getPropertyName(propEnum, U_LONG_PROPERTY_NAME);
if (name == NULL)
name = "<ERROR>";
log_err("FAIL: u_getIntPropertyMinValue(%s) = %d, exp. 0\n",
name, min);
}
}
}
if( u_getIntPropertyMinValue(UCHAR_GENERAL_CATEGORY_MASK)!=0 ||
u_getIntPropertyMaxValue(UCHAR_GENERAL_CATEGORY_MASK)!=-1) {
log_err("error: u_getIntPropertyMin/MaxValue(UCHAR_GENERAL_CATEGORY_MASK) is wrong\n");
}
max = u_getIntPropertyMaxValue(UCHAR_INVALID_CODE);
if (max != -1) {
log_err("FAIL: u_getIntPropertyMaxValue(-1) = %d, exp. -1\n",
max);
}
for (i=0; i<2; ++i) {
int32_t script;
const char* desc;
ec = U_ZERO_ERROR;
switch (i) {
case 0:
script = uscript_getScript(-1, &ec);
desc = "uscript_getScript(-1)";
break;
case 1:
script = u_getIntPropertyValue(-1, UCHAR_SCRIPT);
desc = "u_getIntPropertyValue(-1, UCHAR_SCRIPT)";
break;
default:
log_err("Internal test error. Too many scripts\n");
return;
}
if (script != (int32_t)USCRIPT_INVALID_CODE) {
log_err("FAIL: %s = %d, exp. 0\n",
desc, script);
}
}
}
static void
TestConsistency() {
char buffer[300];
USet *set1, *set2, *set3, *set4;
UErrorCode errorCode;
UChar32 start, end;
int32_t i, length;
U_STRING_DECL(hyphenPattern, "[:Hyphen:]", 10);
U_STRING_DECL(dashPattern, "[:Dash:]", 8);
U_STRING_DECL(lowerPattern, "[:Lowercase:]", 13);
U_STRING_DECL(formatPattern, "[:Cf:]", 6);
U_STRING_DECL(alphaPattern, "[:Alphabetic:]", 14);
U_STRING_DECL(mathBlocksPattern,
"[[:block=Mathematical Operators:][:block=Miscellaneous Mathematical Symbols-A:][:block=Miscellaneous Mathematical Symbols-B:][:block=Supplemental Mathematical Operators:][:block=Mathematical Alphanumeric Symbols:]]",
1+32+46+46+45+43+1+1);
U_STRING_DECL(mathPattern, "[:Math:]", 8);
U_STRING_DECL(unassignedPattern, "[:Cn:]", 6);
U_STRING_DECL(unknownPattern, "[:sc=Unknown:]", 14);
U_STRING_DECL(reservedPattern, "[[:Cn:][:Co:][:Cs:]]", 20);
U_STRING_INIT(hyphenPattern, "[:Hyphen:]", 10);
U_STRING_INIT(dashPattern, "[:Dash:]", 8);
U_STRING_INIT(lowerPattern, "[:Lowercase:]", 13);
U_STRING_INIT(formatPattern, "[:Cf:]", 6);
U_STRING_INIT(alphaPattern, "[:Alphabetic:]", 14);
U_STRING_INIT(mathBlocksPattern,
"[[:block=Mathematical Operators:][:block=Miscellaneous Mathematical Symbols-A:][:block=Miscellaneous Mathematical Symbols-B:][:block=Supplemental Mathematical Operators:][:block=Mathematical Alphanumeric Symbols:]]",
1+32+46+46+45+43+1+1);
U_STRING_INIT(mathPattern, "[:Math:]", 8);
U_STRING_INIT(unassignedPattern, "[:Cn:]", 6);
U_STRING_INIT(unknownPattern, "[:sc=Unknown:]", 14);
U_STRING_INIT(reservedPattern, "[[:Cn:][:Co:][:Cs:]]", 20);
log_verbose("Starting with Unicode 4, inconsistencies with [:Hyphen:] are\n"
"known to the UTC and not considered errors.\n");
errorCode=U_ZERO_ERROR;
set1=uset_openPattern(hyphenPattern, 10, &errorCode);
set2=uset_openPattern(dashPattern, 8, &errorCode);
if(U_SUCCESS(errorCode)) {
uset_remove(set1, 0x30fb);
uset_remove(set1, 0xff65);
showAMinusB(set1, set2, "[:Hyphen:]", "[:Dash:]", FALSE);
} else {
log_data_err("error opening [:Hyphen:] or [:Dash:] - %s (Are you missing data?)\n", u_errorName(errorCode));
}
set3=uset_openPattern(formatPattern, 6, &errorCode);
set4=uset_openPattern(alphaPattern, 14, &errorCode);
if(U_SUCCESS(errorCode)) {
showAIntersectB(set3, set1, "[:Cf:]", "[:Hyphen:]", FALSE);
showAIntersectB(set3, set2, "[:Cf:]", "[:Dash:]", TRUE);
showAIntersectB(set3, set4, "[:Cf:]", "[:Alphabetic:]", TRUE);
} else {
log_data_err("error opening [:Cf:] or [:Alpbabetic:] - %s (Are you missing data?)\n", u_errorName(errorCode));
}
uset_close(set1);
uset_close(set2);
uset_close(set3);
uset_close(set4);
errorCode=U_ZERO_ERROR;
set1=uset_openPattern(lowerPattern, 13, &errorCode);
if(U_SUCCESS(errorCode)) {
for(i=0;; ++i) {
length=uset_getItem(set1, i, &start, &end, NULL, 0, &errorCode);
if(errorCode==U_INDEX_OUTOFBOUNDS_ERROR) {
break;
}
if(U_FAILURE(errorCode)) {
log_err("error iterating over [:Lowercase:] at item %d: %s\n",
i, u_errorName(errorCode));
break;
}
if(length!=0) {
break;
}
while(start<=end) {
length=u_charName(start, U_UNICODE_CHAR_NAME, buffer, sizeof(buffer), &errorCode);
if(U_FAILURE(errorCode)) {
log_data_err("error getting the name of U+%04x - %s\n", start, u_errorName(errorCode));
errorCode=U_ZERO_ERROR;
}
if( (strstr(buffer, "SMALL")==NULL || strstr(buffer, "CAPITAL")!=NULL) &&
strstr(buffer, "SMALL CAPITAL")==NULL
) {
log_verbose("info: [:Lowercase:] contains U+%04x whose name does not suggest lowercase: %s\n", start, buffer);
}
++start;
}
}
} else {
log_data_err("error opening [:Lowercase:] - %s (Are you missing data?)\n", u_errorName(errorCode));
}
uset_close(set1);
errorCode=U_ZERO_ERROR;
set1=uset_openPattern(mathBlocksPattern, -1, &errorCode);
set2=uset_openPattern(mathPattern, 8, &errorCode);
set3=uset_openPattern(unassignedPattern, 6, &errorCode);
if(U_SUCCESS(errorCode)) {
uset_retainAll(set2, set1);
uset_complement(set3);
uset_retainAll(set1, set3);
compareUSets(set1, set2,
"[assigned Math block chars]", "[math blocks]&[:Math:]",
TRUE);
} else {
log_data_err("error opening [math blocks] or [:Math:] or [:Cn:] - %s (Are you missing data?)\n", u_errorName(errorCode));
}
uset_close(set1);
uset_close(set2);
uset_close(set3);
errorCode=U_ZERO_ERROR;
set1=uset_openPattern(unknownPattern, 14, &errorCode);
set2=uset_openPattern(reservedPattern, 20, &errorCode);
if(U_SUCCESS(errorCode)) {
compareUSets(set1, set2,
"[:sc=Unknown:]", "[[:Cn:][:Co:][:Cs:]]",
TRUE);
} else {
log_data_err("error opening [:sc=Unknown:] or [[:Cn:][:Co:][:Cs:]] - %s (Are you missing data?)\n", u_errorName(errorCode));
}
uset_close(set1);
uset_close(set2);
}
#define HARDCODED_DATA_4497 1
static void TestUCase() {
#if !HARDCODED_DATA_4497
UDataMemory *pData;
UCaseProps *csp;
const UCaseProps *ccsp;
UErrorCode errorCode;
errorCode=U_ZERO_ERROR;
pData=udata_open(NULL, UCASE_DATA_TYPE, UCASE_DATA_NAME, &errorCode);
if(U_FAILURE(errorCode)) {
log_data_err("unable to open " UCASE_DATA_NAME "." UCASE_DATA_TYPE ": %s\n",
u_errorName(errorCode));
return;
}
csp=ucase_openBinary((const uint8_t *)pData->pHeader, -1, &errorCode);
if(U_FAILURE(errorCode)) {
log_err("ucase_openBinary() fails for the contents of " UCASE_DATA_NAME "." UCASE_DATA_TYPE ": %s\n",
u_errorName(errorCode));
udata_close(pData);
return;
}
if(UCASE_LOWER!=ucase_getType(csp, 0xdf)) {
log_err("ucase_openBinary() does not seem to return working UCaseProps\n");
}
ucase_close(csp);
udata_close(pData);
errorCode=U_ZERO_ERROR;
ccsp=ucase_getDummy(&errorCode);
if(ucase_tolower(ccsp, 0x41)!=0x41) {
log_err("ucase_tolower(dummy, A)!=A\n");
}
#endif
}
static void TestUBiDiProps() {
#if !HARDCODED_DATA_4497
UDataMemory *pData;
UBiDiProps *bdp;
const UBiDiProps *cbdp;
UErrorCode errorCode;
errorCode=U_ZERO_ERROR;
pData=udata_open(NULL, UBIDI_DATA_TYPE, UBIDI_DATA_NAME, &errorCode);
if(U_FAILURE(errorCode)) {
log_data_err("unable to open " UBIDI_DATA_NAME "." UBIDI_DATA_TYPE ": %s\n",
u_errorName(errorCode));
return;
}
bdp=ubidi_openBinary((const uint8_t *)pData->pHeader, -1, &errorCode);
if(U_FAILURE(errorCode)) {
log_err("ubidi_openBinary() fails for the contents of " UBIDI_DATA_NAME "." UBIDI_DATA_TYPE ": %s\n",
u_errorName(errorCode));
udata_close(pData);
return;
}
if(0x2215!=ubidi_getMirror(bdp, 0x29F5)) {
log_err("ubidi_openBinary() does not seem to return working UBiDiProps\n");
}
ubidi_closeProps(bdp);
udata_close(pData);
errorCode=U_ZERO_ERROR;
cbdp=ubidi_getDummy(&errorCode);
if(ubidi_getClass(cbdp, 0x20)!=0) {
log_err("ubidi_getClass(dummy, space)!=0\n");
}
#endif
}
enum {
CF_SIMPLE=1,
CF_FULL=2,
CF_TURKIC=4,
CF_ALL=7
};
static void
testFold(UChar32 c, int which,
UChar32 simple, UChar32 turkic,
const UChar *full, int32_t fullLength,
const UChar *turkicFull, int32_t turkicFullLength) {
UChar s[2], t[32];
UChar32 c2;
int32_t length, length2;
UErrorCode errorCode=U_ZERO_ERROR;
length=0;
U16_APPEND_UNSAFE(s, length, c);
if((which&CF_SIMPLE)!=0 && (c2=u_foldCase(c, 0))!=simple) {
log_err("u_foldCase(U+%04lx, default)=U+%04lx != U+%04lx\n", (long)c, (long)c2, (long)simple);
}
if((which&CF_FULL)!=0) {
length2=u_strFoldCase(t, LENGTHOF(t), s, length, 0, &errorCode);
if(length2!=fullLength || 0!=u_memcmp(t, full, fullLength)) {
log_err("u_strFoldCase(U+%04lx, default) does not fold properly\n", (long)c);
}
}
if((which&CF_TURKIC)!=0) {
if((c2=u_foldCase(c, U_FOLD_CASE_EXCLUDE_SPECIAL_I))!=turkic) {
log_err("u_foldCase(U+%04lx, turkic)=U+%04lx != U+%04lx\n", (long)c, (long)c2, (long)simple);
}
length2=u_strFoldCase(t, LENGTHOF(t), s, length, U_FOLD_CASE_EXCLUDE_SPECIAL_I, &errorCode);
if(length2!=turkicFullLength || 0!=u_memcmp(t, turkicFull, length2)) {
log_err("u_strFoldCase(U+%04lx, turkic) does not fold properly\n", (long)c);
}
}
}
static void
testFoldToSelf(UChar32 c, int which) {
UChar s[2];
int32_t length;
length=0;
U16_APPEND_UNSAFE(s, length, c);
testFold(c, which, c, c, s, length, s, length);
}
struct CaseFoldingData {
USet *notSeen;
UChar32 prev, prevSimple;
UChar prevFull[32];
int32_t prevFullLength;
int which;
};
typedef struct CaseFoldingData CaseFoldingData;
static void U_CALLCONV
caseFoldingLineFn(void *context,
char *fields[][2], int32_t fieldCount,
UErrorCode *pErrorCode) {
CaseFoldingData *pData=(CaseFoldingData *)context;
char *end;
UChar full[32];
UChar32 c, prev, simple;
int32_t count;
int which;
char status;
const char *s=u_skipWhitespace(fields[0][0]);
if(0==strncmp(s, "0000..10FFFF", 12)) {
return;
}
c=(UChar32)strtoul(s, &end, 16);
end=(char *)u_skipWhitespace(end);
if(end<=fields[0][0] || end!=fields[0][1]) {
log_err("syntax error in CaseFolding.txt field 0 at %s\n", fields[0][0]);
*pErrorCode=U_PARSE_ERROR;
return;
}
status=*u_skipWhitespace(fields[1][0]);
if(status!='C' && status!='S' && status!='F' && status!='T') {
log_err("unrecognized status field in CaseFolding.txt at %s\n", fields[0][0]);
*pErrorCode=U_PARSE_ERROR;
return;
}
count=u_parseString(fields[2][0], full, 32, (uint32_t *)&simple, pErrorCode);
if(U_FAILURE(*pErrorCode)) {
log_err("error parsing CaseFolding.txt mapping at %s\n", fields[0][0]);
return;
}
if(count==0 || count>2 || (count==2 && U16_IS_SINGLE(full[1]))) {
simple=c;
}
if(c!=(prev=pData->prev)) {
UChar prevString[2];
int32_t length;
length=0;
U16_APPEND_UNSAFE(prevString, length, prev);
testFold(prev, (~pData->which)&CF_ALL,
prev, pData->prevSimple,
prevString, length,
pData->prevFull, pData->prevFullLength);
pData->prev=pData->prevSimple=c;
length=0;
U16_APPEND_UNSAFE(pData->prevFull, length, c);
pData->prevFullLength=length;
pData->which=0;
}
switch(status) {
case 'C':
which=CF_SIMPLE|CF_FULL;
pData->prevSimple=simple;
u_memcpy(pData->prevFull, full, count);
pData->prevFullLength=count;
break;
case 'S':
which=CF_SIMPLE;
pData->prevSimple=simple;
break;
case 'F':
which=CF_FULL;
u_memcpy(pData->prevFull, full, count);
pData->prevFullLength=count;
break;
case 'T':
which=CF_TURKIC;
break;
default:
which=0;
break;
}
testFold(c, which, simple, simple, full, count, full, count);
pData->which|=which;
uset_remove(pData->notSeen, c);
}
static void
TestCaseFolding() {
CaseFoldingData data={ NULL };
char *fields[3][2];
UErrorCode errorCode;
static char *lastLine= (char *)"10FFFF; C; 10FFFF;";
errorCode=U_ZERO_ERROR;
data.notSeen=uset_open(0, 0x1ffff);
data.prevFullLength=1;
parseUCDFile("CaseFolding.txt", fields, 3, caseFoldingLineFn, &data, &errorCode);
if(U_SUCCESS(errorCode)) {
int32_t i, start, end;
fields[0][0]=lastLine;
fields[0][1]=lastLine+6;
fields[1][0]=lastLine+7;
fields[1][1]=lastLine+9;
fields[2][0]=lastLine+10;
fields[2][1]=lastLine+17;
caseFoldingLineFn(&data, fields, 3, &errorCode);
for(i=0;
0==uset_getItem(data.notSeen, i, &start, &end, NULL, 0, &errorCode) &&
U_SUCCESS(errorCode);
++i
) {
do {
testFoldToSelf(start, CF_ALL);
} while(++start<=end);
}
}
uset_close(data.notSeen);
}