scuffed-code/icu4c/source/test/intltest/numfmtst.cpp

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/********************************************************************
* COPYRIGHT:
* Copyright (c) 1997-1999, International Business Machines Corporation and
* others. All Rights Reserved.
********************************************************************/
/* Modification History:
1999-08-16 21:50:52 +00:00
* Date Name Description
* 07/15/99 helena Ported to HPUX 10/11 CC.
*/
#include "numfmtst.h"
#include "unicode/dcfmtsym.h"
#include "unicode/decimfmt.h"
#include "unicode/locid.h"
#include <float.h>
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// *****************************************************************************
// class NumberFormatTest
// *****************************************************************************
#define CASE(id,test) case id: name = #test; if (exec) { logln(#test "---"); logln((UnicodeString)""); test(); } break
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#define CHECK(status,str) if (U_FAILURE(status)) { errln(UnicodeString("FAIL: ") + str); return; }
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void NumberFormatTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ )
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{
// if (exec) logln((UnicodeString)"TestSuite DateFormatTest");
switch (index) {
CASE(0,TestCurrencySign);
CASE(1,TestCurrency);
CASE(2,TestParse);
CASE(3,TestRounding487);
CASE(4,TestQuotes);
CASE(5,TestExponential);
CASE(6,TestPatterns);
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// Upgrade to alphaWorks - liu 5/99
CASE(7,TestExponent);
CASE(8,TestScientific);
CASE(9,TestPad);
CASE(10,TestPatterns2);
CASE(11,TestSecondaryGrouping);
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default: name = ""; break;
}
}
// -------------------------------------
// Test various patterns
void
NumberFormatTest::TestPatterns(void)
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{
UErrorCode status = U_ZERO_ERROR;
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DecimalFormatSymbols sym(Locale::US, status);
if (U_FAILURE(status)) { errln("FAIL: Could not construct DecimalFormatSymbols"); return; }
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const char* pat[] = { "#.#", "#.", ".#", "#" };
int32_t pat_length = sizeof(pat) / sizeof(pat[0]);
const char* newpat[] = { "#0.#", "#0.", "#.0", "#" };
const char* num[] = { "0", "0.", ".0", "0" };
for (int32_t i=0; i<pat_length; ++i)
{
status = U_ZERO_ERROR;
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DecimalFormat fmt(pat[i], sym, status);
if (U_FAILURE(status)) { errln((UnicodeString)"FAIL: DecimalFormat constructor failed for " + pat[i]); continue; }
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UnicodeString newp; fmt.toPattern(newp);
if (!(newp == newpat[i]))
errln((UnicodeString)"FAIL: Pattern " + pat[i] + " should transmute to " + newpat[i] +
"; " + newp + " seen instead");
UnicodeString s; (*(NumberFormat*)&fmt).format((int32_t)0, s);
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if (!(s == num[i]))
{
errln((UnicodeString)"FAIL: Pattern " + pat[i] + " should format zero as " + num[i] +
"; " + s + " seen instead");
logln((UnicodeString)"Min integer digits = " + fmt.getMinimumIntegerDigits());
}
}
}
// -------------------------------------
// Test exponential pattern
void
NumberFormatTest::TestExponential(void)
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{
UErrorCode status = U_ZERO_ERROR;
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DecimalFormatSymbols sym(Locale::US, status);
if (U_FAILURE(status)) { errln("FAIL: Bad status returned by DecimalFormatSymbols ct"); return; }
const char* pat[] = { "0.####E0", "00.000E00", "##0.######E000", "0.###E0;[0.###E0]" };
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int32_t pat_length = sizeof(pat) / sizeof(pat[0]);
// The following #if statements allow this test to be built and run on
// platforms that do not have standard IEEE numerics. For example,
// S/390 doubles have an exponent range of -78 to +75. For the
// following #if statements to work, float.h must define
// DBL_MAX_10_EXP to be a compile-time constant.
// This section may be expanded as needed.
#if DBL_MAX_10_EXP > 300
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double val[] = { 0.01234, 123456789, 1.23e300, -3.141592653e-271 };
int32_t val_length = sizeof(val) / sizeof(val[0]);
const char* valFormat[] =
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{
// 0.####E0
"1.234E-2", "1.2346E8", "1.23E300", "-3.1416E-271",
// 00.000E00
"12.340E-03", "12.346E07", "12.300E299", "-31.416E-272",
// ##0.######E000
"12.34E-003", "123.4568E006", "1.23E300", "-314.1593E-273",
// 0.###E0;[0.###E0]
"1.234E-2", "1.235E8", "1.23E300", "[3.142E-271]"
};
double valParse[] =
{
0.01234, 123460000, 1.23E300, -3.1416E-271,
0.01234, 123460000, 1.23E300, -3.1416E-271,
0.01234, 123456800, 1.23E300, -3.141593E-271,
0.01234, 123500000, 1.23E300, -3.142E-271,
};
#elif DBL_MAX_10_EXP > 70
double val[] = { 0.01234, 123456789, 1.23e70, -3.141592653e-71 };
int32_t val_length = sizeof(val) / sizeof(val[0]);
char* valFormat[] =
{
// 0.####E0
"1.234E-2", "1.2346E8", "1.23E70", "-3.1416E-71",
// 00.000E00
"12.340E-03", "12.346E07", "12.300E69", "-31.416E-72",
// ##0.######E000
"12.34E-003", "123.4568E006", "12.3E069", "-31.41593E-072",
// 0.###E0;[0.###E0]
"1.234E-2", "1.235E8", "1.23E70", "[3.142E-71]"
};
double valParse[] =
{
0.01234, 123460000, 1.23E70, -3.1416E-71,
0.01234, 123460000, 1.23E70, -3.1416E-71,
0.01234, 123456800, 1.23E70, -3.141593E-71,
0.01234, 123500000, 1.23E70, -3.142E-71,
};
#else
// Don't test double conversion
double* val = 0;
int32_t val_length = 0;
char** valFormat = 0;
double* valParse = 0;
logln("Warning: Skipping double conversion tests");
#endif
int32_t lval[] = { 0, -1, 1, 123456789 };
int32_t lval_length = sizeof(lval) / sizeof(lval[0]);
const char* lvalFormat[] =
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{
// 0.####E0
"0E0", "-1E0", "1E0", "1.2346E8",
// 00.000E00
"00.000E00", "-10.000E-01", "10.000E-01", "12.346E07",
// ##0.######E000
"0E000", "-1E000", "1E000", "123.4568E006",
// 0.###E0;[0.###E0]
"0E0", "[1E0]", "1E0", "1.235E8"
};
int32_t lvalParse[] =
{
0, -1, 1, 123460000,
0, -1, 1, 123460000,
0, -1, 1, 123456800,
0, -1, 1, 123500000,
};
int32_t ival = 0, ilval = 0;
for (int32_t p=0; p<pat_length; ++p)
{
DecimalFormat fmt(pat[p], sym, status);
if (U_FAILURE(status)) { errln("FAIL: Bad status returned by DecimalFormat ct"); continue; }
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UnicodeString pattern;
logln((UnicodeString)"Pattern \"" + pat[p] + "\" -toPattern-> \"" +
fmt.toPattern(pattern) + "\"");
int32_t v;
for (v=0; v<val_length; ++v)
{
UnicodeString s; (*(NumberFormat*)&fmt).format(val[v], s);
logln((UnicodeString)" " + val[v] + " -format-> " + s);
if (s != valFormat[v+ival])
errln((UnicodeString)"FAIL: Expected " + valFormat[v+ival]);
ParsePosition pos(0);
Formattable af;
fmt.parse(s, af, pos);
double a;
UBool useEpsilon = FALSE;
if (af.getType() == Formattable::kLong)
a = af.getLong();
else if (af.getType() == Formattable::kDouble) {
a = af.getDouble();
#if defined(OS390)
// S/390 will show a failure like this:
//| -3.141592652999999e-271 -format-> -3.1416E-271
//| -parse-> -3.1416e-271
//| FAIL: Expected -3.141599999999999e-271
// To compensate, we use an epsilon-based equality
// test on S/390 only. We don't want to do this in
// general because it's less exacting.
useEpsilon = TRUE;
#endif
}
else {
errln((UnicodeString)"FAIL: Non-numeric Formattable returned");
continue;
}
if (pos.getIndex() == s.length())
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{
logln((UnicodeString)" -parse-> " + a);
// Use epsilon comparison as necessary
if ((useEpsilon &&
(uprv_fabs(a - valParse[v+ival]) / a > (2*DBL_EPSILON))) ||
(!useEpsilon && a != valParse[v+ival]))
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errln((UnicodeString)"FAIL: Expected " + valParse[v+ival]);
}
else
errln((UnicodeString)"FAIL: Partial parse (" + pos.getIndex() + " chars) -> " + a);
}
for (v=0; v<lval_length; ++v)
{
UnicodeString s; (*(NumberFormat*)&fmt).format(lval[v], s);
logln((UnicodeString)" " + lval[v] + "L -format-> " + s);
if (s != lvalFormat[v+ilval])
errln((UnicodeString)"ERROR: Expected " + lvalFormat[v+ilval]);
ParsePosition pos(0);
Formattable af;
fmt.parse(s, af, pos);
if (af.getType() == Formattable::kLong) {
int32_t a = af.getLong();
if (pos.getIndex() == s.length())
{
logln((UnicodeString)" -parse-> " + a);
if (a != lvalParse[v+ilval])
errln((UnicodeString)"FAIL: Expected " + lvalParse[v+ilval]);
}
else
errln((UnicodeString)"FAIL: Partial parse (" + pos.getIndex() + " chars) -> " + a);
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}
else
errln((UnicodeString)"FAIL: Non-long Formattable returned");
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}
ival += val_length;
ilval += lval_length;
}
}
// -------------------------------------
// Test the handling of quotes
void
NumberFormatTest::TestQuotes(void)
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{
UErrorCode status = U_ZERO_ERROR;
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UnicodeString *pat;
DecimalFormatSymbols *sym = new DecimalFormatSymbols(Locale::US, status);
pat = new UnicodeString("a'fo''o'b#");
DecimalFormat *fmt = new DecimalFormat(*pat, *sym, status);
UnicodeString s;
((NumberFormat*)fmt)->format((int32_t)123, s);
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logln((UnicodeString)"Pattern \"" + *pat + "\"");
logln((UnicodeString)" Format 123 -> " + escape(s));
if (!(s=="afo'ob123"))
errln((UnicodeString)"FAIL: Expected afo'ob123");
s.truncate(0);
delete fmt;
delete pat;
pat = new UnicodeString("a''b#");
fmt = new DecimalFormat(*pat, *sym, status);
((NumberFormat*)fmt)->format((int32_t)123, s);
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logln((UnicodeString)"Pattern \"" + *pat + "\"");
logln((UnicodeString)" Format 123 -> " + escape(s));
if (!(s=="a'b123"))
errln((UnicodeString)"FAIL: Expected a'b123");
delete fmt;
delete pat;
delete sym;
}
/**
* Test the handling of the currency symbol in patterns.
*/
void
NumberFormatTest::TestCurrencySign(void)
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{
UErrorCode status = U_ZERO_ERROR;
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DecimalFormatSymbols* sym = new DecimalFormatSymbols(Locale::US, status);
UnicodeString pat;
UChar currency = 0x00A4;
// "\xA4#,##0.00;-\xA4#,##0.00"
pat.append(currency).append("#,##0.00;-").
append(currency).append("#,##0.00");
DecimalFormat *fmt = new DecimalFormat(pat, *sym, status);
UnicodeString s; ((NumberFormat*)fmt)->format(1234.56, s);
pat.truncate(0);
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logln((UnicodeString)"Pattern \"" + fmt->toPattern(pat) + "\"");
logln((UnicodeString)" Format " + 1234.56 + " -> " + escape(s));
if (s != "$1,234.56") errln((UnicodeString)"FAIL: Expected $1,234.56");
s.truncate(0);
((NumberFormat*)fmt)->format(- 1234.56, s);
logln((UnicodeString)" Format " + (-1234.56) + " -> " + escape(s));
if (s != "-$1,234.56") errln((UnicodeString)"FAIL: Expected -$1,234.56");
delete fmt;
pat.truncate(0);
// "\xA4\xA4 #,##0.00;\xA4\xA4 -#,##0.00"
pat.append(currency).append(currency).
append(" #,##0.00;").
append(currency).append(currency).
append(" -#,##0.00");
fmt = new DecimalFormat(pat, *sym, status);
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s.truncate(0);
((NumberFormat*)fmt)->format(1234.56, s);
logln((UnicodeString)"Pattern \"" + fmt->toPattern(pat) + "\"");
logln((UnicodeString)" Format " + 1234.56 + " -> " + escape(s));
if (s != "USD 1,234.56") errln((UnicodeString)"FAIL: Expected USD 1,234.56");
s.truncate(0);
((NumberFormat*)fmt)->format(-1234.56, s);
logln((UnicodeString)" Format " + (-1234.56) + " -> " + escape(s));
if (s != "USD -1,234.56") errln((UnicodeString)"FAIL: Expected USD -1,234.56");
delete fmt;
delete sym;
if (U_FAILURE(status)) errln((UnicodeString)"FAIL: Status " + (int32_t)status);
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}
// -------------------------------------
static UChar toHexString(int32_t i) { return (UChar)(i + (i < 10 ? 0x30 : (0x41 - 10))); }
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UnicodeString&
NumberFormatTest::escape(UnicodeString& s)
{
UnicodeString buf;
for (int32_t i=0; i<s.length(); ++i)
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{
UChar c = s[(UTextOffset)i];
if (c <= (UChar)0x7F) buf += c;
else {
buf += (UChar)0x5c; buf += (UChar)0x55;
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buf += toHexString((c & 0xF000) >> 12);
buf += toHexString((c & 0x0F00) >> 8);
buf += toHexString((c & 0x00F0) >> 4);
buf += toHexString(c & 0x000F);
}
}
return (s = buf);
}
// -------------------------------------
/**
* Test localized currency patterns.
*/
void
NumberFormatTest::TestCurrency(void)
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{
UErrorCode status = U_ZERO_ERROR;
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NumberFormat* currencyFmt = NumberFormat::createCurrencyInstance(Locale::CANADA_FRENCH, status);
UnicodeString s; currencyFmt->format(1.50, s);
logln((UnicodeString)"Un pauvre ici a..........." + s);
if (!(s=="1,50 $")) errln((UnicodeString)"FAIL: Expected 1,50 $");
delete currencyFmt;
s.truncate(0);
currencyFmt = NumberFormat::createCurrencyInstance(Locale::GERMANY, status);
currencyFmt->format(1.50, s);
logln((UnicodeString)"Un pauvre en Allemagne a.." + s);
if (!(s=="1,50 DM")) errln((UnicodeString)"FAIL: Expected 1,50 DM");
delete currencyFmt;
s.truncate(0);
currencyFmt = NumberFormat::createCurrencyInstance(Locale::FRANCE, status);
currencyFmt->format(1.50, s);
logln((UnicodeString)"Un pauvre en France a....." + s);
if (!(s=="1,50 F")) errln((UnicodeString)"FAIL: Expected 1,50 F");
delete currencyFmt;
if (U_FAILURE(status)) errln((UnicodeString)"FAIL: Status " + (int32_t)status);
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}
// -------------------------------------
/**
* Do rudimentary testing of parsing.
*/
void
NumberFormatTest::TestParse(void)
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{
UErrorCode status = U_ZERO_ERROR;
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UnicodeString arg("0");
DecimalFormat* format = new DecimalFormat("00", status);
//try {
Formattable n; format->parse(arg, n, status);
logln((UnicodeString)"parse(" + arg + ") = " + n.getLong());
if (n.getType() != Formattable::kLong ||
n.getLong() != 0) errln((UnicodeString)"FAIL: Expected 0");
delete format;
if (U_FAILURE(status)) errln((UnicodeString)"FAIL: Status " + (int32_t)status);
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//}
//catch(Exception e) {
// errln((UnicodeString)"Exception caught: " + e);
//}
}
// -------------------------------------
/**
* Test proper rounding by the format method.
*/
void
NumberFormatTest::TestRounding487(void)
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{
UErrorCode status = U_ZERO_ERROR;
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NumberFormat *nf = NumberFormat::createInstance(status);
roundingTest(*nf, 0.00159999, 4, "0.0016");
roundingTest(*nf, 0.00995, 4, "0.01");
roundingTest(*nf, 12.3995, 3, "12.4");
roundingTest(*nf, 12.4999, 0, "12");
roundingTest(*nf, - 19.5, 0, "-20");
delete nf;
if (U_FAILURE(status)) errln((UnicodeString)"FAIL: Status " + (int32_t)status);
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}
/**
* Test the functioning of the secondary grouping value.
*/
void NumberFormatTest::TestSecondaryGrouping(void) {
UErrorCode status = U_ZERO_ERROR;
DecimalFormatSymbols US(Locale::US, status);
CHECK(status, "DecimalFormatSymbols ct");
DecimalFormat f("#,##,###", US, status);
CHECK(status, "DecimalFormat ct");
expect(f, (int32_t)123456789L, "12,34,56,789");
expectPat(f, "#,##,###");
f.applyPattern("#,###", status);
CHECK(status, "applyPattern");
f.setSecondaryGroupingSize(4);
expect(f, (int32_t)123456789L, "12,3456,789");
expectPat(f, "#,####,###");
NumberFormat *g = NumberFormat::createInstance(Locale("hi", "IN"), status);
CHECK(status, "createInstance(hi_IN)");
UnicodeString out;
int32_t l = 1876543210L;
g->format(l, out);
delete g;
// expect "1,87,65,43,210", but with Hindi digits
// 01234567890123
UBool ok = TRUE;
if (out.length() != 14) {
ok = FALSE;
} else {
for (int32_t i=0; i<out.length(); ++i) {
UBool 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.
UBool isGroup = (out.charAt(i) == 0x002C);
if (isGroup != expectGroup) {
ok = FALSE;
break;
}
}
}
if (!ok) {
errln((UnicodeString)"FAIL Expected " + l +
" x hi_IN -> \"1,87,65,43,210\" (with Hindi digits), got \"" +
escape(out) + "\"");
} else {
logln((UnicodeString)"Ok " + l +
" x hi_IN -> \"" +
escape(out) + "\"");
}
}
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// -------------------------------------
void
NumberFormatTest::roundingTest(NumberFormat& nf, double x, int32_t maxFractionDigits, const char* expected)
{
nf.setMaximumFractionDigits(maxFractionDigits);
UnicodeString out; nf.format(x, out);
logln((UnicodeString)"" + x + " formats with " + maxFractionDigits + " fractional digits to " + out);
if (!(out==expected)) errln((UnicodeString)"FAIL: Expected " + expected);
}
/**
* Upgrade to alphaWorks
*/
void NumberFormatTest::expect(NumberFormat& fmt, const UnicodeString& str, int32_t n) {
UErrorCode status = U_ZERO_ERROR;
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Formattable num;
fmt.parse(str, num, status);
CHECK(status, "NumberFormat.parse");
UnicodeString pat;
((DecimalFormat*) &fmt)->toPattern(pat);
if (num.getType() == Formattable::kLong &&
num.getLong() == n) {
logln(UnicodeString("Ok \"") + str + "\" x " +
pat + " = " +
toString(num));
} else {
errln(UnicodeString("FAIL \"") + str + "\" x " +
pat + " = " +
toString(num) + ", expected " + n + "L");
}
}
/**
* Upgrade to alphaWorks
*/
void NumberFormatTest::expect(NumberFormat& fmt, const Formattable& n,
const UnicodeString& exp) {
UnicodeString saw;
FieldPosition pos;
UErrorCode status = U_ZERO_ERROR;
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fmt.format(n, saw, pos, status);
CHECK(status, "format");
UnicodeString pat;
((DecimalFormat*) &fmt)->toPattern(pat);
if (saw == exp) {
logln(UnicodeString("Ok ") + toString(n) + " x " +
pat + " = \"" +
saw + "\"");
} else {
errln(UnicodeString("FAIL ") + toString(n) + " x " +
pat + " = \"" +
saw + "\", expected \"" + exp + "\"");
}
}
void NumberFormatTest::expect(NumberFormat* fmt, const Formattable& n,
const UnicodeString& exp,
UErrorCode status) {
CHECK(status, "construct format");
expect(*fmt, n, exp);
delete fmt;
}
/**
* Upgrade to alphaWorks
*/
void NumberFormatTest::TestExponent(void) {
UErrorCode status = U_ZERO_ERROR;
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DecimalFormatSymbols US(Locale::US, status);
CHECK(status, "DecimalFormatSymbols constructor");
DecimalFormat fmt1(UnicodeString("0.###E0"), US, status);
CHECK(status, "DecimalFormat(0.###E0)");
DecimalFormat fmt2(UnicodeString("0.###E+0"), US, status);
CHECK(status, "DecimalFormat(0.###E+0)");
int32_t n = 1234;
expect(fmt1, n, "1.234E3");
expect(fmt2, n, "1.234E+3");
expect(fmt1, "1.234E3", n);
expect(fmt1, "1.234E+3", n); // Either format should parse "E+3"
expect(fmt2, "1.234E+3", n);
}
/**
* Upgrade to alphaWorks
*/
void NumberFormatTest::TestScientific(void) {
UErrorCode status = U_ZERO_ERROR;
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DecimalFormatSymbols US(Locale::US, status);
CHECK(status, "DecimalFormatSymbols constructor");
// Test pattern round-trip
const char* PAT[] = { "#E0", "0.####E0", "00.000E00", "##0.####E000",
"0.###E0;[0.###E0]" };
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int32_t PAT_length = sizeof(PAT) / sizeof(PAT[0]);
int32_t DIGITS[] = {
// min int, max int, min frac, max frac
0, 1, 0, 0, // "#E0"
1, 1, 0, 4, // "0.####E0"
2, 2, 3, 3, // "00.000E00"
1, 3, 0, 4, // "##0.####E000"
1, 1, 0, 3, // "0.###E0;[0.###E0]"
};
for (int32_t i=0; i<PAT_length; ++i) {
UnicodeString pat(PAT[i]);
DecimalFormat df(pat, US, status);
CHECK(status, "DecimalFormat constructor");
UnicodeString pat2;
df.toPattern(pat2);
if (pat == pat2) {
logln(UnicodeString("Ok Pattern rt \"") +
pat + "\" -> \"" +
pat2 + "\"");
} else {
errln(UnicodeString("FAIL Pattern rt \"") +
pat + "\" -> \"" +
pat2 + "\"");
}
// Make sure digit counts match what we expect
if (df.getMinimumIntegerDigits() != DIGITS[4*i] ||
df.getMaximumIntegerDigits() != DIGITS[4*i+1] ||
df.getMinimumFractionDigits() != DIGITS[4*i+2] ||
df.getMaximumFractionDigits() != DIGITS[4*i+3]) {
errln(UnicodeString("FAIL \"" + pat +
"\" min/max int; min/max frac = ") +
df.getMinimumIntegerDigits() + "/" +
df.getMaximumIntegerDigits() + ";" +
df.getMinimumFractionDigits() + "/" +
df.getMaximumFractionDigits() + ", expect " +
DIGITS[4*i] + "/" +
DIGITS[4*i+1] + ";" +
DIGITS[4*i+2] + "/" +
DIGITS[4*i+3]);
}
}
expect(new DecimalFormat("#E0", US, status),
12345.0,
"1.2345E4", status);
expect(new DecimalFormat("0E0", US, status),
12345.0,
"1E4", status);
expect(NumberFormat::createScientificInstance(Locale::US, status),
12345.678901,
"1.2345678901E4", status);
expect(new DecimalFormat("##0.###E0", US, status),
12345.0,
"12.34E3", status);
expect(new DecimalFormat("##0.###E0", US, status),
12345.00001,
"12.35E3", status);
expect(new DecimalFormat("##0.####E0", US, status),
(int32_t) 12345,
"12.345E3", status);
expect(NumberFormat::createScientificInstance(Locale::FRANCE, status),
12345.678901,
"1,2345678901E4", status);
expect(new DecimalFormat("##0.####E0", US, status),
789.12345e-9,
"789.12E-9", status);
expect(new DecimalFormat("##0.####E0", US, status),
780.e-9,
"780E-9", status);
expect(new DecimalFormat(".###E0", US, status),
45678.0,
".457E5", status);
expect(new DecimalFormat(".###E0", US, status),
(int32_t) 0,
".0E0", status);
/*
expect(new DecimalFormat[] { new DecimalFormat("#E0", US),
new DecimalFormat("##E0", US),
new DecimalFormat("####E0", US),
new DecimalFormat("0E0", US),
new DecimalFormat("00E0", US),
new DecimalFormat("000E0", US),
},
new Long(45678000),
new String[] { "4.5678E7",
"45.678E6",
"4567.8E4",
"5E7",
"46E6",
"457E5",
}
);
!
! Unroll this test into individual tests below...
!
*/
expect(new DecimalFormat("#E0", US, status),
(int32_t) 45678000, "4.5678E7", status);
expect(new DecimalFormat("##E0", US, status),
(int32_t) 45678000, "45.678E6", status);
expect(new DecimalFormat("####E0", US, status),
(int32_t) 45678000, "4567.8E4", status);
expect(new DecimalFormat("0E0", US, status),
(int32_t) 45678000, "5E7", status);
expect(new DecimalFormat("00E0", US, status),
(int32_t) 45678000, "46E6", status);
expect(new DecimalFormat("000E0", US, status),
(int32_t) 45678000, "457E5", status);
/*
expect(new DecimalFormat("###E0", US, status),
new Object[] { new Double(0.0000123), "12.3E-6",
new Double(0.000123), "123E-6",
new Double(0.00123), "1.23E-3",
new Double(0.0123), "12.3E-3",
new Double(0.123), "123E-3",
new Double(1.23), "1.23E0",
new Double(12.3), "12.3E0",
new Double(123), "123E0",
new Double(1230), "1.23E3",
});
!
! Unroll this test into individual tests below...
!
*/
expect(new DecimalFormat("###E0", US, status),
0.0000123, "12.3E-6", status);
expect(new DecimalFormat("###E0", US, status),
0.000123, "123E-6", status);
expect(new DecimalFormat("###E0", US, status),
0.00123, "1.23E-3", status);
expect(new DecimalFormat("###E0", US, status),
0.0123, "12.3E-3", status);
expect(new DecimalFormat("###E0", US, status),
0.123, "123E-3", status);
expect(new DecimalFormat("###E0", US, status),
1.23, "1.23E0", status);
expect(new DecimalFormat("###E0", US, status),
12.3, "12.3E0", status);
expect(new DecimalFormat("###E0", US, status),
123.0, "123E0", status);
expect(new DecimalFormat("###E0", US, status),
1230.0, "1.23E3", status);
/*
expect(new DecimalFormat("0.#E+00", US, status),
new Object[] { new Double(0.00012), "1.2E-04",
new Long(12000), "1.2E+04",
});
!
! Unroll this test into individual tests below...
!
*/
expect(new DecimalFormat("0.#E+00", US, status),
0.00012, "1.2E-04", status);
expect(new DecimalFormat("0.#E+00", US, status),
(int32_t) 12000, "1.2E+04", status);
}
/**
* Upgrade to alphaWorks
*/
void NumberFormatTest::TestPad(void) {
UErrorCode status = U_ZERO_ERROR;
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DecimalFormatSymbols US(Locale::US, status);
CHECK(status, "DecimalFormatSymbols constructor");
expect(new DecimalFormat("*^##.##", US, status),
int32_t(0), "^^^^0", status);
expect(new DecimalFormat("*^##.##", US, status),
-1.3, "^-1.3", status);
expect(new DecimalFormat("##0.0####E0*_ g-m/s^2", US, status),
int32_t(0), "0.0E0______ g-m/s^2", status);
expect(new DecimalFormat("##0.0####E0*_ g-m/s^2", US, status),
1.0/3, "333.333E-3_ g-m/s^2", status);
expect(new DecimalFormat("##0.0####*_ g-m/s^2", US, status),
int32_t(0), "0.0______ g-m/s^2", status);
expect(new DecimalFormat("##0.0####*_ g-m/s^2", US, status),
1.0/3, "0.33333__ g-m/s^2", status);
//testing the setPadCharacter(UnicodeString) and getPadCharacterString()
DecimalFormat fmt("#", US, status);
CHECK(status, "DecimalFormat constructor");
UnicodeString padString("P");
fmt.setPadCharacter(padString);
expectPad(fmt, "*P##.##", DecimalFormat::kPadBeforePrefix, 5, padString);
fmt.setPadCharacter((UnicodeString)"^");
expectPad(fmt, "*^#", DecimalFormat::kPadBeforePrefix, 1, (UnicodeString)"^");
//commented untill implementation is complete
/* fmt.setPadCharacter((UnicodeString)"^^^");
expectPad(fmt, "*^^^#", DecimalFormat::kPadBeforePrefix, 3, (UnicodeString)"^^^");
padString.remove();
padString.append((UChar)0x0061);
padString.append((UChar)0x0302);
fmt.setPadCharacter(padString);
UChar patternChars[]={0x002a, 0x0061, 0x0302, 0x0061, 0x0302, 0x0023, 0x0000};
UnicodeString pattern(patternChars);
expectPad(fmt, pattern , DecimalFormat::kPadBeforePrefix, 4, padString);
*/
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}
/**
* Upgrade to alphaWorks
*/
void NumberFormatTest::TestPatterns2(void) {
UErrorCode status = U_ZERO_ERROR;
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DecimalFormatSymbols US(Locale::US, status);
CHECK(status, "DecimalFormatSymbols constructor");
DecimalFormat fmt("#", US, status);
CHECK(status, "DecimalFormat constructor");
UChar hat = 0x005E; /*^*/
expectPad(fmt, "*^#", DecimalFormat::kPadBeforePrefix, 1, hat);
expectPad(fmt, "$*^#", DecimalFormat::kPadAfterPrefix, 2, hat);
expectPad(fmt, "#*^", DecimalFormat::kPadBeforeSuffix, 1, hat);
expectPad(fmt, "#$*^", DecimalFormat::kPadAfterSuffix, 2, hat);
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expectPad(fmt, "$*^$#", ILLEGAL);
expectPad(fmt, "#$*^$", ILLEGAL);
expectPad(fmt, "'pre'#,##0*x'post'", DecimalFormat::kPadBeforeSuffix,
12, (UChar)0x0078 /*x*/);
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expectPad(fmt, "''#0*x", DecimalFormat::kPadBeforeSuffix,
3, (UChar)0x0078 /*x*/);
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expectPad(fmt, "'I''ll'*a###.##", DecimalFormat::kPadAfterPrefix,
10, (UChar)0x0061 /*a*/);
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fmt.applyPattern("AA#,##0.00ZZ", status);
CHECK(status, "applyPattern");
fmt.setPadCharacter(hat);
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fmt.setFormatWidth(10);
fmt.setPadPosition(DecimalFormat::kPadBeforePrefix);
expectPat(fmt, "*^AA#,##0.00ZZ");
fmt.setPadPosition(DecimalFormat::kPadBeforeSuffix);
expectPat(fmt, "AA#,##0.00*^ZZ");
fmt.setPadPosition(DecimalFormat::kPadAfterSuffix);
expectPat(fmt, "AA#,##0.00ZZ*^");
// 12 3456789012
UnicodeString exp("AA*^#,##0.00ZZ", "");
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fmt.setFormatWidth(12);
fmt.setPadPosition(DecimalFormat::kPadAfterPrefix);
expectPat(fmt, exp);
fmt.setFormatWidth(13);
// 12 34567890123
expectPat(fmt, "AA*^##,##0.00ZZ");
fmt.setFormatWidth(14);
// 12 345678901234
expectPat(fmt, "AA*^###,##0.00ZZ");
fmt.setFormatWidth(15);
// 12 3456789012345
expectPat(fmt, "AA*^####,##0.00ZZ"); // This is the interesting case
fmt.setFormatWidth(16);
// 12 34567890123456
expectPat(fmt, "AA*^#,###,##0.00ZZ");
}
void NumberFormatTest::expectPad(DecimalFormat& fmt, const UnicodeString& pat,
int32_t pos) {
expectPad(fmt, pat, pos, 0, (UnicodeString)"");
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}
void NumberFormatTest::expectPad(DecimalFormat& fmt, const UnicodeString& pat,
int32_t pos, int32_t width, UChar pad) {
expectPad(fmt, pat, pos, width, UnicodeString(pad));
}
void NumberFormatTest::expectPad(DecimalFormat& fmt, const UnicodeString& pat,
int32_t pos, int32_t width, const UnicodeString& pad) {
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int32_t apos = 0, awidth = 0;
UnicodeString apadStr="";
UErrorCode status = U_ZERO_ERROR;
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fmt.applyPattern(pat, status);
if (U_SUCCESS(status)) {
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apos = fmt.getPadPosition();
awidth = fmt.getFormatWidth();
apadStr=fmt.getPadCharacterString();
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} else {
apos = -1;
awidth = width;
apadStr = pad;
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}
if (apos == pos && awidth == width && apadStr == pad) {
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logln(UnicodeString("Ok \"") + pat + "\" pos=" + apos +
((pos == ILLEGAL) ? UnicodeString() :
(UnicodeString(" width=") + awidth + " pad=" + apadStr)));
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} else {
errln(UnicodeString("FAIL \"") + pat + "\" pos=" + apos +
" width=" + awidth + " pad=" + apadStr +
", expected " + pos + " " + width + " " + pad);
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}
}
void NumberFormatTest::expectPat(DecimalFormat& fmt, const UnicodeString& exp) {
UnicodeString pat;
fmt.toPattern(pat);
if (pat == exp) {
logln(UnicodeString("Ok \"") + pat + "\"");
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} else {
errln(UnicodeString("FAIL \"") + pat + "\", expected \"" + exp + "\"");
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}
}