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cobalt / cobalt / 308ed6b84664d59944cd65f4b4359c28a2443be6 / . / src / third_party / icu / source / test / cintltst / cnmdptst.c
blob: 8b3cbd61d245c5f14d2662cd81df209a1f0c95b9 [file] [log] [blame]
/********************************************************************
* COPYRIGHT:
* Copyright (c) 1997-2014, International Business Machines Corporation
* and others. All Rights Reserved.
********************************************************************/
/*******************************************************************************
*
* File CNMDPTST.C
*
* Madhu Katragadda Creation
* Modification History:
*
* Date Name Description
* 06/24/99 helena Integrated Alan's NF enhancements and Java2 bug fixes
*******************************************************************************
*/
/* C DEPTH TEST FOR NUMBER FORMAT */
#include "unicode/utypes.h"
#if !UCONFIG_NO_FORMATTING
#include "unicode/ucurr.h"
#include "unicode/uloc.h"
#include "unicode/unum.h"
#include "unicode/ustring.h"
#include "cintltst.h"
#include "cnmdptst.h"
#include "cmemory.h"
#include "cstring.h"
#include "ulist.h"
#define CHECK(status,str) if (U_FAILURE(status)) { log_err("FAIL: %s\n", str); return; }
void addNumFrDepTest(TestNode** root);
static void TestCurrencyPreEuro(void);
static void TestCurrencyObject(void);
void addNumFrDepTest(TestNode** root)
{
addTest(root, &TestPatterns, "tsformat/cnmdptst/TestPatterns");
addTest(root, &TestQuotes, "tsformat/cnmdptst/TestQuotes");
addTest(root, &TestExponential, "tsformat/cnmdptst/TestExponential");
addTest(root, &TestCurrencySign, "tsformat/cnmdptst/TestCurrencySign");
addTest(root, &TestCurrency, "tsformat/cnmdptst/TestCurrency");
addTest(root, &TestCurrencyPreEuro, "tsformat/cnmdptst/TestCurrencyPreEuro");
addTest(root, &TestCurrencyObject, "tsformat/cnmdptst/TestCurrencyObject");
addTest(root, &TestRounding487, "tsformat/cnmdptst/TestRounding487");
addTest(root, &TestDoubleAttribute, "tsformat/cnmdptst/TestDoubleAttribute");
addTest(root, &TestSecondaryGrouping, "tsformat/cnmdptst/TestSecondaryGrouping");
addTest(root, &TestCurrencyKeywords, "tsformat/cnmdptst/TestCurrencyKeywords");
addTest(root, &TestRounding5350, "tsformat/cnmdptst/TestRounding5350");
addTest(root, &TestGetKeywordValuesForLocale, "tsformat/cnmdptst/TestGetKeywordValuesForLocale");
}
/*Test Various format patterns*/
static void TestPatterns(void)
{
int32_t pat_length, i, lneed;
UNumberFormat *fmt;
UChar upat[5];
UChar unewpat[5];
UChar unum[5];
UChar *unewp=NULL;
UChar *str=NULL;
UErrorCode status = U_ZERO_ERROR;
const char* pat[] = { "#.#", "#.", ".#", "#" };
const char* newpat[] = { "#0.#", "#0.", "#.0", "#" };
const char* num[] = { "0", "0.", ".0", "0" };
log_verbose("\nTesting different format patterns\n");
pat_length = sizeof(pat) / sizeof(pat[0]);
for (i=0; i < pat_length; ++i)
{
status = U_ZERO_ERROR;
u_uastrcpy(upat, pat[i]);
fmt= unum_open(UNUM_IGNORE,upat, u_strlen(upat), "en_US",NULL, &status);
if (U_FAILURE(status)) {
log_err_status(status, "FAIL: Number format constructor failed for pattern %s -> %s\n", pat[i], u_errorName(status));
continue;
}
lneed=0;
lneed=unum_toPattern(fmt, FALSE, NULL, lneed, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status= U_ZERO_ERROR;
unewp=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
unum_toPattern(fmt, FALSE, unewp, lneed+1, &status);
}
if(U_FAILURE(status)){
log_err("FAIL: Number format extracting the pattern failed for %s\n", pat[i]);
}
u_uastrcpy(unewpat, newpat[i]);
if(u_strcmp(unewp, unewpat) != 0)
log_err("FAIL: Pattern %s should be transmute to %s; %s seen instead\n", pat[i], newpat[i], austrdup(unewp) );
lneed=0;
lneed=unum_format(fmt, 0, NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
str=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
unum_format(fmt, 0, str, lneed+1, NULL, &status);
}
if(U_FAILURE(status)) {
log_err("Error in formatting using unum_format(.....): %s\n", myErrorName(status) );
}
u_uastrcpy(unum, num[i]);
if (u_strcmp(str, unum) != 0)
{
log_err("FAIL: Pattern %s should format zero as %s; %s Seen instead\n", pat[i], num[i], austrdup(str) );
}
free(unewp);
free(str);
unum_close(fmt);
}
}
/* Test the handling of quotes*/
static void TestQuotes(void)
{
int32_t lneed;
UErrorCode status=U_ZERO_ERROR;
UChar pat[15];
UChar res[15];
UChar *str=NULL;
UNumberFormat *fmt;
char tempBuf[256];
log_verbose("\nTestting the handling of quotes in number format\n");
u_uastrcpy(pat, "a'fo''o'b#");
fmt =unum_open(UNUM_IGNORE,pat, u_strlen(pat), "en_US",NULL, &status);
if(U_FAILURE(status)){
log_err_status(status, "Error in number format costruction using pattern \"a'fo''o'b#\" -> %s\n", u_errorName(status));
}
lneed=0;
lneed=unum_format(fmt, 123, NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
str=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
unum_format(fmt, 123, str, lneed+1, NULL, &status);
}
if(U_FAILURE(status) || !str) {
log_err_status(status, "Error in formatting using unum_format(.....): %s\n", myErrorName(status) );
return;
}
log_verbose("Pattern \"%s\" \n", u_austrcpy(tempBuf, pat) );
log_verbose("Format 123 -> %s\n", u_austrcpy(tempBuf, str) );
u_uastrcpy(res, "afo'ob123");
if(u_strcmp(str, res) != 0)
log_err("FAIL: Expected afo'ob123");
free(str);
unum_close(fmt);
u_uastrcpy(pat, "");
u_uastrcpy(pat, "a''b#");
fmt =unum_open(UNUM_IGNORE,pat, u_strlen(pat), "en_US",NULL, &status);
if(U_FAILURE(status)){
log_err("Error in number format costruction using pattern \"a''b#\"\n");
}
lneed=0;
lneed=unum_format(fmt, 123, NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
str=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
unum_format(fmt, 123, str, lneed+1, NULL, &status);
}
if(U_FAILURE(status)) {
log_err("Error in formatting using unum_format(.....): %s\n", myErrorName(status) );
}
log_verbose("Pattern \"%s\" \n", u_austrcpy(tempBuf, pat) );
log_verbose("Format 123 -> %s\n", u_austrcpy(tempBuf, str) );
u_uastrcpy(res, "");
u_uastrcpy(res, "a'b123");
if(u_strcmp(str, res) != 0)
log_err("FAIL: Expected a'b123\n");
free(str);
unum_close(fmt);
}
/* Test exponential pattern*/
static void TestExponential(void)
{
int32_t pat_length, val_length, lval_length;
int32_t ival, ilval, p, v, lneed;
UNumberFormat *fmt;
int32_t ppos;
UChar *upat;
UChar pattern[20];
UChar *str=NULL;
UChar uvalfor[20], ulvalfor[20];
char tempMsgBug[256];
double a;
UErrorCode status = U_ZERO_ERROR;
#if U_PLATFORM == U_PF_OS390
static const double val[] = { 0.01234, 123456789, 1.23e75, -3.141592653e-78 };
#else
static const double val[] = { 0.01234, 123456789, 1.23e300, -3.141592653e-271 };
#endif
static const char* pat[] = { "0.####E0", "00.000E00", "##0.######E000", "0.###E0;[0.###E0]" };
static const int32_t lval[] = { 0, -1, 1, 123456789 };
static const char* valFormat[] =
{
"1.234E-2", "1.2346E8", "1.23E300", "-3.1416E-271",
"12.340E-03", "12.346E07", "12.300E299", "-31.416E-272",
"12.34E-003", "123.4568E006", "1.23E300", "-314.1593E-273",
"1.234E-2", "1.235E8", "1.23E300", "[3.142E-271]"
};
static const char* lvalFormat[] =
{
"0E0", "-1E0", "1E0", "1.2346E8",
"00.000E00", "-10.000E-01", "10.000E-01", "12.346E07",
"0E000", "-1E000", "1E000", "123.4568E006",
"0E0", "[1E0]", "1E0", "1.235E8"
};
static const double valParse[] =
{
#if U_PLATFORM == U_PF_OS390
0.01234, 123460000, 1.23E75, -3.1416E-78,
0.01234, 123460000, 1.23E75, -3.1416E-78,
0.01234, 123456800, 1.23E75, -3.141593E-78,
0.01234, 123500000, 1.23E75, -3.142E-78
#else
/* We define the whole IEEE 754 number in the 4th column because
Visual Age 7 has a bug in rounding numbers. */
0.01234, 123460000, 1.23E300, -3.1415999999999999E-271,
0.01234, 123460000, 1.23E300, -3.1415999999999999E-271,
0.01234, 123456800, 1.23E300, -3.1415929999999999E-271,
0.01234, 123500000, 1.23E300, -3.1420000000000001E-271
#endif
};
static const int32_t lvalParse[] =
{
0, -1, 1, 123460000,
0, -1, 1, 123460000,
0, -1, 1, 123456800,
0, -1, 1, 123500000
};
pat_length = sizeof(pat) / sizeof(pat[0]);
val_length = sizeof(val) / sizeof(val[0]);
lval_length = sizeof(lval) / sizeof(lval[0]);
ival = 0;
ilval = 0;
for (p=0; p < pat_length; ++p)
{
upat=(UChar*)malloc(sizeof(UChar) * (strlen(pat[p])+1) );
u_uastrcpy(upat, pat[p]);
fmt=unum_open(UNUM_IGNORE,upat, u_strlen(upat), "en_US",NULL, &status);
if (U_FAILURE(status)) {
log_err_status(status, "FAIL: Bad status returned by Number format construction with pattern %s -> %s\n", pat[p], u_errorName(status));
continue;
}
lneed= u_strlen(upat) + 1;
unum_toPattern(fmt, FALSE, pattern, lneed, &status);
log_verbose("Pattern \" %s \" -toPattern-> \" %s \" \n", upat, u_austrcpy(tempMsgBug, pattern) );
for (v=0; v<val_length; ++v)
{
/*format*/
lneed=0;
lneed=unum_formatDouble(fmt, val[v], NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
str=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
unum_formatDouble(fmt, val[v], str, lneed+1, NULL, &status);
}
if(U_FAILURE(status)) {
log_err("Error in formatting using unum_format(.....): %s\n", myErrorName(status) );
}
u_uastrcpy(uvalfor, valFormat[v+ival]);
if(u_strcmp(str, uvalfor) != 0)
log_verbose("FAIL: Expected %s ( %s )\n", valFormat[v+ival], u_austrcpy(tempMsgBug, uvalfor) );
/*parsing*/
ppos=0;
a=unum_parseDouble(fmt, str, u_strlen(str), &ppos, &status);
if (ppos== u_strlen(str)) {
if (a != valParse[v+ival])
log_err("FAIL: Expected: %e, Got: %g\n", valParse[v+ival], a);
}
else
log_err(" FAIL: Partial parse ( %d chars ) -> %e\n", ppos, a);
free(str);
}
for (v=0; v<lval_length; ++v)
{
/*format*/
lneed=0;
lneed=unum_formatDouble(fmt, lval[v], NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
str=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
unum_formatDouble(fmt, lval[v], str, lneed+1, NULL, &status);
}
if(U_FAILURE(status)) {
log_err("Error in formatting using unum_format(.....): %s\n", myErrorName(status) );
}
/*printf(" Format %e -> %s\n", lval[v], austrdup(str) );*/
u_uastrcpy(ulvalfor, lvalFormat[v+ilval]);
if(u_strcmp(str, ulvalfor) != 0)
log_err("FAIL: Expected %s ( %s )\n", valFormat[v+ilval], austrdup(ulvalfor) );
/*parsing*/
ppos=0;
a=unum_parseDouble(fmt, str, u_strlen(str), &ppos, &status);
if (ppos== u_strlen(str)) {
/*printf(" Parse -> %e\n", a);*/
if (a != lvalParse[v+ilval])
log_err("FAIL: Expected : %e\n", valParse[v+ival]);
}
else
log_err(" FAIL: Partial parse ( %d chars ) -> %e\n", ppos, a);
free(str);
}
ival += val_length;
ilval += lval_length;
unum_close(fmt);
free(upat);
}
}
/**
* Test the handling of the currency symbol in patterns.
*/
static void TestCurrencySign(void)
{
int32_t lneed;
UNumberFormat *fmt;
UChar *pattern=NULL;
UChar *str=NULL;
UChar *pat=NULL;
UChar *res=NULL;
UErrorCode status = U_ZERO_ERROR;
char tempBuf[256];
pattern=(UChar*)malloc(sizeof(UChar) * (strlen("*#,##0.00;-*#,##0.00") + 1) );
u_uastrcpy(pattern, "*#,##0.00;-*#,##0.00");
pattern[0]=pattern[11]=0xa4; /* insert latin-1 currency symbol */
fmt = unum_open(UNUM_IGNORE,pattern, u_strlen(pattern), "en_US",NULL, &status);
if(U_FAILURE(status)){
log_err_status(status, "Error in number format construction with pattern \"\\xA4#,##0.00;-\\xA4#,##0.00\\\" -> %s\n", u_errorName(status));
}
lneed=0;
lneed=unum_formatDouble(fmt, 1234.56, NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
str=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
unum_formatDouble(fmt, 1234.56, str, lneed+1, NULL, &status);
}
if(U_FAILURE(status)) {
log_err_status(status, "Error in formatting using unum_format(.....): %s\n", myErrorName(status) );
}
lneed=0;
lneed=unum_toPattern(fmt, FALSE, NULL, lneed, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
pat=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
unum_formatDouble(fmt, FALSE, pat, lneed+1, NULL, &status);
}
log_verbose("Pattern \" %s \" \n", u_austrcpy(tempBuf, pat));
log_verbose("Format 1234.56 -> %s\n", u_austrcpy(tempBuf, str) );
if(U_SUCCESS(status) && str) {
res=(UChar*)malloc(sizeof(UChar) * (strlen("$1,234.56")+1) );
u_uastrcpy(res, "$1,234.56");
if (u_strcmp(str, res) !=0) log_data_err("FAIL: Expected $1,234.56\n");
} else {
log_err_status(status, "Error formatting -> %s\n", u_errorName(status));
}
free(str);
free(res);
free(pat);
lneed=0;
lneed=unum_formatDouble(fmt, -1234.56, NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
str=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
unum_formatDouble(fmt, -1234.56, str, lneed+1, NULL, &status);
}
if(U_FAILURE(status)) {
log_err_status(status, "Error in formatting using unum_format(.....): %s\n", myErrorName(status) );
}
if(str) {
res=(UChar*)malloc(sizeof(UChar) * (strlen("-$1,234.56")+1) );
u_uastrcpy(res, "-$1,234.56");
if (u_strcmp(str, res) != 0) log_data_err("FAIL: Expected -$1,234.56\n");
free(str);
free(res);
}
unum_close(fmt);
free(pattern);
}
/**
* Test localized currency patterns.
*/
static void TestCurrency(void)
{
UNumberFormat *currencyFmt;
UChar *str;
int32_t lneed, i;
UFieldPosition pos;
UChar res[100];
UErrorCode status = U_ZERO_ERROR;
const char* locale[]={"fr_CA", "de_DE_PREEURO", "fr_FR_PREEURO"};
const char* result[]={"1,50\\u00a0$", "1,50\\u00a0DM", "1,50\\u00a0F"};
log_verbose("\nTesting the number format with different currency patterns\n");
for(i=0; i < 3; i++)
{
str=NULL;
currencyFmt = unum_open(UNUM_CURRENCY, NULL,0,locale[i],NULL, &status);
if(U_FAILURE(status)){
log_data_err("Error in the construction of number format with style currency: %s (Are you missing data?)\n",
myErrorName(status));
} else {
lneed=0;
lneed= unum_formatDouble(currencyFmt, 1.50, NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
str=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
pos.field = 0;
unum_formatDouble(currencyFmt, 1.50, str, lneed+1, &pos, &status);
}
if(U_FAILURE(status)) {
log_err("Error in formatting using unum_formatDouble(.....): %s\n", myErrorName(status) );
} else {
u_unescape(result[i], res, (int32_t)strlen(result[i])+1);
if (u_strcmp(str, res) != 0){
log_err("FAIL: Expected %s Got: %s for locale: %s\n", result[i], aescstrdup(str, -1), locale[i]);
}
}
}
unum_close(currencyFmt);
free(str);
}
}
/**
* Test localized currency patterns for PREEURO variants.
*/
static void TestCurrencyPreEuro(void)
{
UNumberFormat *currencyFmt;
UChar *str=NULL, *res=NULL;
int32_t lneed, i;
UFieldPosition pos;
UErrorCode status = U_ZERO_ERROR;
const char* locale[]={
"ca_ES_PREEURO", "de_LU_PREEURO", "en_IE_PREEURO", "fi_FI_PREEURO", "fr_LU_PREEURO", "it_IT_PREEURO",
"pt_PT_PREEURO", "de_AT_PREEURO", "el_GR_PREEURO", "es_ES_PREEURO", "fr_BE_PREEURO", "ga_IE_PREEURO",
"nl_BE_PREEURO", "de_DE_PREEURO", "en_BE_PREEURO", "eu_ES_PREEURO", "fr_FR_PREEURO", "gl_ES_PREEURO",
"nl_NL_PREEURO",
};
const char* result[]={
"\\u20A7\\u00A02", "2\\u00A0F", "IEP1.50", "1,50\\u00A0mk", "2\\u00A0F", "ITL\\u00A02",
"1$50\\u00A0\\u200B", "\\u00F6S\\u00A01,50", "1,50\\u00A0\\u0394\\u03C1\\u03C7", "2\\u00A0\\u20A7", "1,50\\u00A0FB", "IEP1.50",
"1,50\\u00A0BEF", "1,50\\u00A0DM", "1,50\\u00A0BEF", "\\u20A7\\u00A02", "1,50\\u00A0F", "2\\u00A0\\u20A7",
"NLG\\u00A01,50"
};
log_verbose("\nTesting the number format with different currency patterns\n");
for(i=0; i < 19; i++)
{
char curID[256] = {0};
uloc_canonicalize(locale[i], curID, 256, &status);
if(U_FAILURE(status)){
log_data_err("Could not canonicalize %s. Error: %s (Are you missing data?)\n", locale[i], u_errorName(status));
continue;
}
currencyFmt = unum_open(UNUM_CURRENCY, NULL,0,curID,NULL, &status);
if(U_FAILURE(status)){
log_data_err("Error in the construction of number format with style currency: %s (Are you missing data?)\n",
myErrorName(status));
} else {
lneed=0;
lneed= unum_formatDouble(currencyFmt, 1.50, NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
str=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
pos.field = 0;
unum_formatDouble(currencyFmt, 1.50, str, lneed+1, &pos, &status);
}
if(U_FAILURE(status)) {
log_err("Error in formatting using unum_formatDouble(.....): %s\n", myErrorName(status) );
} else {
res=(UChar*)malloc(sizeof(UChar) * (strlen(result[i])+1) );
u_unescape(result[i],res,(int32_t)(strlen(result[i])+1));
if (u_strcmp(str, res) != 0){
log_err("FAIL: Expected %s Got: %s for locale: %s\n", result[i],aescstrdup(str, -1),locale[i]);
}
}
}
unum_close(currencyFmt);
free(str);
free(res);
}
}
/**
* Test currency "object" (we use this name to match the other C++
* test name and the Jave name). Actually, test ISO currency code
* support in the C API.
*/
static void TestCurrencyObject(void)
{
UNumberFormat *currencyFmt;
UChar *str=NULL, *res=NULL;
int32_t lneed, i;
UFieldPosition pos;
UErrorCode status = U_ZERO_ERROR;
const char* locale[]={
"fr_FR",
"fr_FR",
};
const char* currency[]={
"",
"JPY",
};
const char* result[]={
"1\\u00A0234,56\\u00A0\\u20AC",
"1\\u00A0235\\u00A0JPY",
};
log_verbose("\nTesting the number format with different currency codes\n");
for(i=0; i < 2; i++)
{
char cStr[20]={0};
UChar isoCode[16]={0};
currencyFmt = unum_open(UNUM_CURRENCY, NULL,0,locale[i],NULL, &status);
if(U_FAILURE(status)){
log_data_err("Error in the construction of number format with style currency: %s (Are you missing data?)\n",
myErrorName(status));
} else {
if (*currency[i]) {
u_uastrcpy(isoCode, currency[i]);
unum_setTextAttribute(currencyFmt, UNUM_CURRENCY_CODE,
isoCode, u_strlen(isoCode), &status);
if(U_FAILURE(status)) {
log_err("FAIL: can't set currency code %s\n", myErrorName(status) );
}
}
unum_getTextAttribute(currencyFmt, UNUM_CURRENCY_CODE,
isoCode, sizeof(isoCode), &status);
if(U_FAILURE(status)) {
log_err("FAIL: can't get currency code %s\n", myErrorName(status) );
}
u_UCharsToChars(isoCode,cStr,u_strlen(isoCode));
log_verbose("ISO code %s\n", cStr);
if (*currency[i] && uprv_strcmp(cStr, currency[i])) {
log_err("FAIL: currency should be %s, but is %s\n", currency[i], cStr);
}
lneed=0;
lneed= unum_formatDouble(currencyFmt, 1234.56, NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
str=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
pos.field = 0;
unum_formatDouble(currencyFmt, 1234.56, str, lneed+1, &pos, &status);
}
if(U_FAILURE(status)) {
log_err("Error in formatting using unum_formatDouble(.....): %s\n", myErrorName(status) );
} else {
res=(UChar*)malloc(sizeof(UChar) * (strlen(result[i])+1) );
u_unescape(result[i],res, (int32_t)(strlen(result[i])+1));
if (u_strcmp(str, res) != 0){
log_err("FAIL: Expected %s Got: %s for locale: %s\n", result[i],aescstrdup(str, -1),locale[i]);
}
}
}
unum_close(currencyFmt);
free(str);
free(res);
}
}
/**
* Test proper rounding by the format method.
*/
static void TestRounding487(void)
{
UNumberFormat *nnf;
UErrorCode status = U_ZERO_ERROR;
/* this is supposed to open default date format, but later on it treats it like it is "en_US"
- very bad if you try to run the tests on machine where default locale is NOT "en_US" */
/* nnf = unum_open(UNUM_DEFAULT, NULL, &status); */
nnf = unum_open(UNUM_DEFAULT, NULL,0,"en_US",NULL, &status);
if(U_FAILURE(status)){
log_data_err("FAIL: failure in the construction of number format: %s (Are you missing data?)\n", myErrorName(status));
} else {
roundingTest(nnf, 0.00159999, 4, "0.0016");
roundingTest(nnf, 0.00995, 4, "0.01");
roundingTest(nnf, 12.3995, 3, "12.4");
roundingTest(nnf, 12.4999, 0, "12");
roundingTest(nnf, - 19.5, 0, "-20");
}
unum_close(nnf);
}
/*-------------------------------------*/
static void roundingTest(UNumberFormat* nf, double x, int32_t maxFractionDigits, const char* expected)
{
UChar *out = NULL;
UChar *res;
UFieldPosition pos;
UErrorCode status;
int32_t lneed;
status=U_ZERO_ERROR;
unum_setAttribute(nf, UNUM_MAX_FRACTION_DIGITS, maxFractionDigits);
lneed=0;
lneed=unum_formatDouble(nf, x, NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
out=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
pos.field=0;
unum_formatDouble(nf, x, out, lneed+1, &pos, &status);
}
if(U_FAILURE(status)) {
log_err("Error in formatting using unum_formatDouble(.....): %s\n", myErrorName(status) );
}
/*Need to use log_verbose here. Problem with the float*/
/*printf("%f format with %d fraction digits to %s\n", x, maxFractionDigits, austrdup(out) );*/
res=(UChar*)malloc(sizeof(UChar) * (strlen(expected)+1) );
u_uastrcpy(res, expected);
if (u_strcmp(out, res) != 0)
log_err("FAIL: Expected: %s or %s\n", expected, austrdup(res) );
free(res);
if(out != NULL) {
free(out);
}
}
/*
* Testing unum_getDoubleAttribute and unum_setDoubleAttribute()
*/
static void TestDoubleAttribute(void)
{
double mydata[] = { 1.11, 22.22, 333.33, 4444.44, 55555.55, 666666.66, 7777777.77, 88888888.88, 999999999.99};
double dvalue;
int i;
UErrorCode status=U_ZERO_ERROR;
UNumberFormatAttribute attr;
UNumberFormatStyle style= UNUM_DEFAULT;
UNumberFormat *def;
log_verbose("\nTesting get and set DoubleAttributes\n");
def=unum_open(style, NULL,0,NULL,NULL, &status);
if (U_FAILURE(status)) {
log_data_err("Fail: error creating a default number formatter -> %s (Are you missing data?)\n", u_errorName(status));
} else {
attr=UNUM_ROUNDING_INCREMENT;
dvalue=unum_getDoubleAttribute(def, attr);
for (i = 0; i<9 ; i++)
{
dvalue = mydata[i];
unum_setDoubleAttribute(def, attr, dvalue);
if(unum_getDoubleAttribute(def,attr)!=mydata[i])
log_err("Fail: error in setting and getting double attributes for UNUM_ROUNDING_INCREMENT\n");
else
log_verbose("Pass: setting and getting double attributes for UNUM_ROUNDING_INCREMENT works fine\n");
}
}
unum_close(def);
}
/**
* Test the functioning of the secondary grouping value.
*/
static void TestSecondaryGrouping(void) {
UErrorCode status = U_ZERO_ERROR;
UNumberFormat *f = NULL, *g= NULL;
UNumberFormat *us = unum_open(UNUM_DECIMAL,NULL,0, "en_US", NULL,&status);
UFieldPosition pos;
UChar resultBuffer[512];
int32_t l = 1876543210L;
UBool ok = TRUE;
UChar buffer[512];
int32_t i;
UBool expectGroup = FALSE, isGroup = FALSE;
u_uastrcpy(buffer, "#,##,###");
f = unum_open(UNUM_IGNORE,buffer, -1, "en_US",NULL, &status);
if (U_FAILURE(status)) {
log_data_err("Error DecimalFormat ct -> %s (Are you missing data?)\n", u_errorName(status));
return;
}
pos.field = 0;
unum_format(f, (int32_t)123456789L, resultBuffer, 512 , &pos, &status);
u_uastrcpy(buffer, "12,34,56,789");
if ((u_strcmp(resultBuffer, buffer) != 0) || U_FAILURE(status))
{
log_err("Fail: Formatting \"#,##,###\" pattern with 123456789 got %s, expected %s\n", resultBuffer, "12,34,56,789");
}
if (pos.beginIndex != 0 && pos.endIndex != 12) {
log_err("Fail: Formatting \"#,##,###\" pattern pos = (%d, %d) expected pos = (0, 12)\n", pos.beginIndex, pos.endIndex);
}
memset(resultBuffer,0, sizeof(UChar)*512);
unum_toPattern(f, FALSE, resultBuffer, 512, &status);
u_uastrcpy(buffer, "#,##,###");
if ((u_strcmp(resultBuffer, buffer) != 0) || U_FAILURE(status))
{
log_err("Fail: toPattern() got %s, expected %s\n", resultBuffer, "#,##,###");
}
memset(resultBuffer,0, sizeof(UChar)*512);
u_uastrcpy(buffer, "#,###");
unum_applyPattern(f, FALSE, buffer, -1,NULL,NULL);
if (U_FAILURE(status))
{
log_err("Fail: applyPattern call failed\n");
}
unum_setAttribute(f, UNUM_SECONDARY_GROUPING_SIZE, 4);
unum_format(f, (int32_t)123456789L, resultBuffer, 512 , &pos, &status);
u_uastrcpy(buffer, "12,3456,789");
if ((u_strcmp(resultBuffer, buffer) != 0) || U_FAILURE(status))
{
log_err("Fail: Formatting \"#,###\" pattern with 123456789 got %s, expected %s\n", resultBuffer, "12,3456,789");
}
memset(resultBuffer,0, sizeof(UChar)*512);
unum_toPattern(f, FALSE, resultBuffer, 512, &status);
u_uastrcpy(buffer, "#,####,###");
if ((u_strcmp(resultBuffer, buffer) != 0) || U_FAILURE(status))
{
log_err("Fail: toPattern() got %s, expected %s\n", resultBuffer, "#,####,###");
}
memset(resultBuffer,0, sizeof(UChar)*512);
g = unum_open(UNUM_DECIMAL, NULL,0,"hi_IN",NULL, &status);
if (U_FAILURE(status))
{
log_err("Fail: Cannot create UNumberFormat for \"hi_IN\" locale.\n");
}
unum_format(g, l, resultBuffer, 512, &pos, &status);
unum_close(g);
/* expect "1,87,65,43,210", but with Hindi digits */
/* 01234567890123 */
if (u_strlen(resultBuffer) != 14) {
ok = FALSE;
} else {
for (i=0; i<u_strlen(resultBuffer); ++i) {
expectGroup = FALSE;
switch (i) {
case 1:
case 4:
case 7:
case 10:
expectGroup = TRUE;
break;
}
/* Later -- fix this to get the actual grouping */
/* character from the resource bundle. */
isGroup = (UBool)(resultBuffer[i] == 0x002C);
if (isGroup != expectGroup) {
ok = FALSE;
break;
}
}
}
if (!ok) {
log_err("FAIL Expected %s x hi_IN -> \"1,87,65,43,210\" (with Hindi digits), got %s\n", "1876543210L", resultBuffer);
}
unum_close(f);
unum_close(us);
}
static void TestCurrencyKeywords(void)
{
static const char * const currencies[] = {
"ADD", "ADP", "AED", "AFA", "AFN", "AIF", "ALK", "ALL", "ALV", "ALX", "AMD",
"ANG", "AOA", "AOK", "AON", "AOR", "AOS", "ARA", "ARM", "ARP", "ARS", "ATS",
"AUD", "AUP", "AWG", "AZM", "BAD", "BAM", "BAN", "BBD", "BDT", "BEC", "BEF",
"BEL", "BGL", "BGM", "BGN", "BGO", "BGX", "BHD", "BIF", "BMD", "BMP", "BND",
"BOB", "BOL", "BOP", "BOV", "BRB", "BRC", "BRE", "BRL", "BRN", "BRR", "BRZ",
"BSD", "BSP", "BTN", "BTR", "BUK", "BUR", "BWP", "BYB", "BYL", "BYR", "BZD",
"BZH", "CAD", "CDF", "CDG", "CDL", "CFF", "CHF", "CKD", "CLC", "CLE", "CLF",
"CLP", "CMF", "CNP", "CNX", "CNY", "COB", "COF", "COP", "CRC", "CSC", "CSK",
"CUP", "CUX", "CVE", "CWG", "CYP", "CZK", "DDM", "DEM", "DES", "DJF", "DKK",
"DOP", "DZD", "DZF", "DZG", "ECS", "ECV", "EEK", "EGP", "ERN", "ESP", "ETB",
"ETD", "EUR", "FIM", "FIN", "FJD", "FJP", "FKP", "FOK", "FRF", "FRG", "GAF",
"GBP", "GEK", "GEL", "GHC", "GHO", "GHP", "GHR", "GIP", "GLK", "GMD", "GMP",
"GNF", "GNI", "GNS", "GPF", "GQE", "GQF", "GQP", "GRD", "GRN", "GTQ", "GUF",
"GWE", "GWM", "GWP", "GYD", "HKD", "HNL", "HRD", "HRK", "HTG", "HUF", "IBP",
"IDG", "IDJ", "IDN", "IDR", "IEP", "ILL", "ILP", "ILS", "IMP", "INR", "IQD",
"IRR", "ISK", "ITL", "JEP", "JMD", "JMP", "JOD", "JPY", "KES", "KGS", "KHO",
"KHR", "KID", "KMF", "KPP", "KPW", "KRH", "KRO", "KRW", "KWD", "KYD", "KZR",
"KZT", "LAK", "LBP", "LIF", "LKR", "LNR", "LRD", "LSL", "LTL", "LTT", "LUF",
"LVL", "LVR", "LYB", "LYD", "LYP", "MAD", "MAF", "MCF", "MCG", "MDC", "MDL",
"MDR", "MGA", "MGF", "MHD", "MKD", "MKN", "MLF", "MMK", "MMX", "MNT", "MOP",
"MQF", "MRO", "MTL", "MTP", "MUR", "MVP", "MVR", "MWK", "MWP", "MXN", "MXP",
"MXV", "MYR", "MZE", "MZM", "NAD", "NCF", "NGN", "NGP", "NHF", "NIC", "NIG",
"NIO", "NLG", "NOK", "NPR", "NZD", "NZP", "OMR", "OMS", "PAB", "PDK", "PDN",
"PDR", "PEI", "PEN", "PES", "PGK", "PHP", "PKR", "PLN", "PLX", "PLZ", "PSP",
"PTC", "PTE", "PYG", "QAR", "REF", "ROL", "RON", "RUB", "RUR", "RWF", "SAR",
"SAS", "SBD", "SCR", "SDD", "SDP", "SEK", "SGD", "SHP", "SIB", "SIT", "SKK",
"SLL", "SML", "SOS", "SQS", "SRG", "SSP", "STD", "STE", "SUN", "SUR", "SVC",
"SYP", "SZL", "TCC", "TDF", "THB", "TJR", "TJS", "TMM", "TND", "TOP", "TOS",
"TPE", "TPP", "TRL", "TTD", "TTO", "TVD", "TWD", "TZS", "UAH", "UAK", "UGS",
"UGX", "USD", "USN", "USS", "UYF", "UYP", "UYU", "UZC", "UZS", "VAL", "VDD",
"VDN", "VDP", "VEB", "VGD", "VND", "VNN", "VNR", "VNS", "VUV", "WSP", "WST",
"XAD", "XAF", "XAM", "XAU", "XBA", "XBB", "XBC", "XBD", "XCD", "XCF", "XDR",
"XEF", "XEU", "XFO", "XFU", "XID", "XMF", "XNF", "XOF", "XPF", "XPS", "XSS",
"XTR", "YDD", "YEI", "YER", "YUD", "YUF", "YUG", "YUM", "YUN", "YUO", "YUR",
"ZAL", "ZAP", "ZAR", "ZMK", "ZMP", "ZRN", "ZRZ", "ZWD"
};
UErrorCode status = U_ZERO_ERROR;
int32_t i = 0, j = 0;
int32_t noLocales = uloc_countAvailable();
char locale[256];
char currLoc[256];
UChar result[4];
UChar currBuffer[256];
for(i = 0; i < noLocales; i++) {
strcpy(currLoc, uloc_getAvailable(i));
for(j = 0; j < sizeof(currencies)/sizeof(currencies[0]); j++) {
strcpy(locale, currLoc);
strcat(locale, "@currency=");
strcat(locale, currencies[j]);
ucurr_forLocale(locale, result, 4, &status);
u_charsToUChars(currencies[j], currBuffer, 3);
currBuffer[3] = 0;
if(u_strcmp(currBuffer, result) != 0) {
log_err("Didn't get the right currency for %s\n", locale);
}
}
}
}
static void TestGetKeywordValuesForLocale(void) {
#define PREFERRED_SIZE 12
#define MAX_NUMBER_OF_KEYWORDS 4
const char *PREFERRED[PREFERRED_SIZE][MAX_NUMBER_OF_KEYWORDS] = {
{ "root", "USD", "USN", NULL },
{ "und", "USD", "USN", NULL },
/* { "und_ZZ", "USD", NULL, NULL }, -- temporarily remove as this locale now has 15 entries */
{ "en_US", "USD", "USN", NULL },
{ "en_029", "USD", "USN", NULL },
{ "en_TH", "THB", NULL, NULL },
{ "de", "EUR", NULL, NULL },
{ "de_DE", "EUR", NULL, NULL },
{ "ar", "EGP", NULL, NULL },
{ "ar_PS", "ILS", "JOD", NULL },
{ "en@currency=CAD", "USD", "USN", NULL },
{ "fr@currency=zzz", "EUR", NULL, NULL },
{ "de_DE@currency=DEM", "EUR", NULL, NULL },
};
const int32_t EXPECTED_SIZE[PREFERRED_SIZE] = {
2, 2, 2, 2, 1, 1, 1, 1, 2, 2, 1, 1
};
UErrorCode status = U_ZERO_ERROR;
int32_t i, j, size;
UEnumeration *pref, *all;
const char *loc = NULL;
UBool matchPref, matchAll;
const char *value = NULL;
int32_t valueLength = 0;
UList *ALLList = NULL;
UEnumeration *ALL = ucurr_getKeywordValuesForLocale("currency", uloc_getDefault(), FALSE, &status);
if (ALL == NULL) {
log_err_status(status, "ERROR getting keyword value for default locale. -> %s\n", u_errorName(status));
return;
}
for (i = 0; i < PREFERRED_SIZE; i++) {
pref = NULL;
all = NULL;
loc = PREFERRED[i][0];
pref = ucurr_getKeywordValuesForLocale("currency", loc, TRUE, &status);
matchPref = FALSE;
matchAll = FALSE;
size = uenum_count(pref, &status);
if (size == EXPECTED_SIZE[i]) {
matchPref = TRUE;
for (j = 0; j < size; j++) {
if ((value = uenum_next(pref, &valueLength, &status)) != NULL && U_SUCCESS(status)) {
if (uprv_strcmp(value, PREFERRED[i][j+1]) != 0) {
log_err("ERROR: locale %s got keywords #%d %s expected %s\n", loc, j, value, PREFERRED[i][j+1]);
matchPref = FALSE;
break;
}
} else {
matchPref = FALSE;
log_err("ERROR getting keyword value for locale \"%s\"\n", loc);
break;
}
}
} else {
log_err("FAIL: size of locale \"%s\" %d does not match expected size %d\n", loc, size, EXPECTED_SIZE[i]);
}
if (!matchPref) {
log_err("FAIL: Preferred values for locale \"%s\" does not match expected.\n", loc);
break;
}
uenum_close(pref);
all = ucurr_getKeywordValuesForLocale("currency", loc, FALSE, &status);
size = uenum_count(all, &status);
if (U_SUCCESS(status) && size == uenum_count(ALL, &status)) {
matchAll = TRUE;
ALLList = ulist_getListFromEnum(ALL);
for (j = 0; j < size; j++) {
if ((value = uenum_next(all, &valueLength, &status)) != NULL && U_SUCCESS(status)) {
if (!ulist_containsString(ALLList, value, uprv_strlen(value))) {
log_err("Locale %s have %s not in ALL\n", loc, value);
matchAll = FALSE;
break;
}
} else {
matchAll = FALSE;
log_err("ERROR getting \"all\" keyword value for locale \"%s\"\n", loc);
break;
}
}
if (!matchAll) {
log_err("FAIL: All values for locale \"%s\" does not match expected.\n", loc);
}
} else {
if(U_FAILURE(status)) {
log_err("ERROR: %s\n", u_errorName(status));
} else if(size!=uenum_count(ALL, &status)) {
log_err("ERROR: got size of %d, wanted %d\n", size, uenum_count(ALL, &status));
}
}
uenum_close(all);
}
uenum_close(ALL);
}
/**
* Test proper handling of rounding modes.
*/
static void TestRounding5350(void)
{
UNumberFormat *nnf;
UErrorCode status = U_ZERO_ERROR;
/* this is supposed to open default date format, but later on it treats it like it is "en_US"
- very bad if you try to run the tests on machine where default locale is NOT "en_US" */
/* nnf = unum_open(UNUM_DEFAULT, NULL, &status); */
nnf = unum_open(UNUM_DEFAULT, NULL,0,"en_US",NULL, &status);
if(U_FAILURE(status)){
log_data_err("FAIL: failure in the construction of number format: %s (Are you missing data?)\n", myErrorName(status));
return;
}
unum_setAttribute(nnf, UNUM_MAX_FRACTION_DIGITS, 2);
roundingTest2(nnf, -0.125, UNUM_ROUND_CEILING, "-0.12");
roundingTest2(nnf, -0.125, UNUM_ROUND_FLOOR, "-0.13");
roundingTest2(nnf, -0.125, UNUM_ROUND_DOWN, "-0.12");
roundingTest2(nnf, -0.125, UNUM_ROUND_UP, "-0.13");
roundingTest2(nnf, 0.125, UNUM_FOUND_HALFEVEN, "0.12");
roundingTest2(nnf, 0.135, UNUM_ROUND_HALFDOWN, "0.13");
roundingTest2(nnf, 0.125, UNUM_ROUND_HALFUP, "0.13");
roundingTest2(nnf, 0.135, UNUM_FOUND_HALFEVEN, "0.14");
/* The following are exactly represented, and shouldn't round */
roundingTest2(nnf, 1.00, UNUM_ROUND_UP, "1");
roundingTest2(nnf, 24.25, UNUM_ROUND_UP, "24.25");
roundingTest2(nnf, 24.25, UNUM_ROUND_CEILING, "24.25");
roundingTest2(nnf, -24.25, UNUM_ROUND_UP, "-24.25");
/* Differences pretty far out there */
roundingTest2(nnf, 1.0000001, UNUM_ROUND_CEILING, "1.01");
roundingTest2(nnf, 1.0000001, UNUM_ROUND_FLOOR, "1");
roundingTest2(nnf, 1.0000001, UNUM_ROUND_DOWN, "1");
roundingTest2(nnf, 1.0000001, UNUM_ROUND_UP, "1.01");
roundingTest2(nnf, 1.0000001, UNUM_FOUND_HALFEVEN, "1");
roundingTest2(nnf, 1.0000001, UNUM_ROUND_HALFDOWN, "1");
roundingTest2(nnf, 1.0000001, UNUM_ROUND_HALFUP, "1");
roundingTest2(nnf, -1.0000001, UNUM_ROUND_CEILING, "-1");
roundingTest2(nnf, -1.0000001, UNUM_ROUND_FLOOR, "-1.01");
roundingTest2(nnf, -1.0000001, UNUM_ROUND_DOWN, "-1");
roundingTest2(nnf, -1.0000001, UNUM_ROUND_UP, "-1.01");
roundingTest2(nnf, -1.0000001, UNUM_FOUND_HALFEVEN, "-1");
roundingTest2(nnf, -1.0000001, UNUM_ROUND_HALFDOWN, "-1");
roundingTest2(nnf, -1.0000001, UNUM_ROUND_HALFUP, "-1");
unum_close(nnf);
}
/*-------------------------------------*/
static void roundingTest2(UNumberFormat* nf, double x, int32_t roundingMode, const char* expected)
{
UChar *out = NULL;
UChar *res;
UFieldPosition pos;
UErrorCode status;
int32_t lneed;
status=U_ZERO_ERROR;
unum_setAttribute(nf, UNUM_ROUNDING_MODE, roundingMode);
lneed=0;
lneed=unum_formatDouble(nf, x, NULL, lneed, NULL, &status);
if(status==U_BUFFER_OVERFLOW_ERROR){
status=U_ZERO_ERROR;
out=(UChar*)malloc(sizeof(UChar) * (lneed+1) );
pos.field=0;
unum_formatDouble(nf, x, out, lneed+1, &pos, &status);
}
if(U_FAILURE(status)) {
log_err("Error in formatting using unum_formatDouble(.....): %s\n", myErrorName(status) );
}
/*Need to use log_verbose here. Problem with the float*/
/*printf("%f format with %d fraction digits to %s\n", x, maxFractionDigits, austrdup(out) );*/
res=(UChar*)malloc(sizeof(UChar) * (strlen(expected)+1) );
u_uastrcpy(res, expected);
if (u_strcmp(out, res) != 0)
log_err("FAIL: Expected: \"%s\" Got: \"%s\"\n", expected, austrdup(out) );
free(res);
if(out != NULL) {
free(out);
}
}
#endif /* #if !UCONFIG_NO_FORMATTING */