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skia / external / github.com / unicode-org / icu / 3dd1ca10df1f4b5015c034f57b0f9ce34aa5c0ce / . / icu4c / source / test / intltest / formattedvaluetest.cpp
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// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
#include "unicode/utypes.h"
#if !UCONFIG_NO_FORMATTING
#include <set>
#include "unicode/formattedvalue.h"
#include "unicode/unum.h"
#include "unicode/udat.h"
#include "intltest.h"
#include "itformat.h"
class FormattedValueTest : public IntlTest {
public:
void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par=0);
private:
void testBasic();
void testSetters();
void testLocalPointer();
void assertAllPartsEqual(
UnicodeString messagePrefix,
const ConstrainedFieldPosition& cfpos,
int32_t matching,
UFieldCategory category,
int32_t field,
int32_t start,
int32_t limit,
int64_t context);
};
void FormattedValueTest::runIndexedTest(int32_t index, UBool exec, const char *&name, char *) {
if (exec) {
logln("TestSuite FormattedValueTest: ");
}
TESTCASE_AUTO_BEGIN;
TESTCASE_AUTO(testBasic);
TESTCASE_AUTO(testSetters);
TESTCASE_AUTO(testLocalPointer);
TESTCASE_AUTO_END;
}
void FormattedValueTest::testBasic() {
IcuTestErrorCode status(*this, "testBasic");
ConstrainedFieldPosition cfpos;
assertAllPartsEqual(
u"basic",
cfpos,
7,
UFIELD_CATEGORY_UNDEFINED,
0,
0,
0,
0LL);
}
void FormattedValueTest::testSetters() {
IcuTestErrorCode status(*this, "testSetters");
ConstrainedFieldPosition cfpos;
cfpos.constrainCategory(UFIELD_CATEGORY_DATE);
assertAllPartsEqual(
u"setters 0",
cfpos,
4,
UFIELD_CATEGORY_DATE,
0,
0,
0,
0LL);
cfpos.constrainField(UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD);
assertAllPartsEqual(
u"setters 1",
cfpos,
2,
UFIELD_CATEGORY_NUMBER,
UNUM_COMPACT_FIELD,
0,
0,
0LL);
cfpos.setInt64IterationContext(42424242424242LL);
assertAllPartsEqual(
u"setters 2",
cfpos,
2,
UFIELD_CATEGORY_NUMBER,
UNUM_COMPACT_FIELD,
0,
0,
42424242424242LL);
cfpos.setState(UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD, 5, 10);
assertAllPartsEqual(
u"setters 3",
cfpos,
2,
UFIELD_CATEGORY_NUMBER,
UNUM_COMPACT_FIELD,
5,
10,
42424242424242LL);
cfpos.reset();
assertAllPartsEqual(
u"setters 4",
cfpos,
7,
UFIELD_CATEGORY_UNDEFINED,
0,
0,
0,
0LL);
}
void FormattedValueTest::testLocalPointer() {
UErrorCode status = U_ZERO_ERROR;
LocalUConstrainedFieldPositionPointer ucfpos(ucfpos_open(&status));
assertSuccess("Openining LocalUConstrainedFieldPositionPointer", status);
assertEquals(u"Test that object is valid",
0LL,
ucfpos_getInt64IterationContext(ucfpos.getAlias(), &status));
assertSuccess("Using LocalUConstrainedFieldPositionPointer", status);
}
/** For matching, turn on these bits:
*
* 1 = UNUM_INTEGER_FIELD
* 2 = UNUM_COMPACT_FIELD
* 4 = UDAT_AM_PM_FIELD
*/
void FormattedValueTest::assertAllPartsEqual(
UnicodeString messagePrefix,
const ConstrainedFieldPosition& cfpos,
int32_t matching,
UFieldCategory category,
int32_t field,
int32_t start,
int32_t limit,
int64_t context) {
assertEquals(messagePrefix + u": category",
category, cfpos.getCategory());
assertEquals(messagePrefix + u": field",
field, cfpos.getField());
assertEquals(messagePrefix + u": start",
start, cfpos.getStart());
assertEquals(messagePrefix + u": limit",
limit, cfpos.getLimit());
assertEquals(messagePrefix + u": context",
context, cfpos.getInt64IterationContext());
assertEquals(messagePrefix + u": integer field",
(UBool) ((matching & 1) != 0), cfpos.matchesField(UFIELD_CATEGORY_NUMBER, UNUM_INTEGER_FIELD));
assertEquals(messagePrefix + u": compact field",
(UBool) ((matching & 2) != 0), cfpos.matchesField(UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD));
assertEquals(messagePrefix + u": date field",
(UBool) ((matching & 4) != 0), cfpos.matchesField(UFIELD_CATEGORY_DATE, UDAT_AM_PM_FIELD));
}
void IntlTestWithFieldPosition::checkFormattedValue(
const char16_t* message,
const FormattedValue& fv,
UnicodeString expectedString,
UFieldCategory expectedCategory,
const UFieldPosition* expectedFieldPositions,
int32_t length) {
LocalArray<UFieldPositionWithCategory> converted(new UFieldPositionWithCategory[length]);
for (int32_t i=0; i<length; i++) {
converted[i].category = expectedCategory;
converted[i].field = expectedFieldPositions[i].field;
converted[i].beginIndex = expectedFieldPositions[i].beginIndex;
converted[i].endIndex = expectedFieldPositions[i].endIndex;
}
checkMixedFormattedValue(message, fv, expectedString, converted.getAlias(), length);
}
UnicodeString CFPosToUnicodeString(const ConstrainedFieldPosition& cfpos) {
UnicodeString sb;
sb.append(u"CFPos[");
sb.append(Int64ToUnicodeString(cfpos.getStart()));
sb.append(u'-');
sb.append(Int64ToUnicodeString(cfpos.getLimit()));
sb.append(u' ');
sb.append(Int64ToUnicodeString(cfpos.getCategory()));
sb.append(u':');
sb.append(Int64ToUnicodeString(cfpos.getField()));
sb.append(u']');
return sb;
}
void IntlTestWithFieldPosition::checkMixedFormattedValue(
const char16_t* message,
const FormattedValue& fv,
UnicodeString expectedString,
const UFieldPositionWithCategory* expectedFieldPositions,
int32_t length) {
IcuTestErrorCode status(*this, "checkMixedFormattedValue");
UnicodeString baseMessage = UnicodeString(message) + u": " + fv.toString(status) + u": ";
// Check string values
assertEquals(baseMessage + u"string", expectedString, fv.toString(status));
assertEquals(baseMessage + u"temp string", expectedString, fv.toTempString(status));
// The temp string is guaranteed to be NUL-terminated
UnicodeString readOnlyAlias = fv.toTempString(status);
if (!status.errIfFailureAndReset()) {
assertEquals(baseMessage + u"NUL-terminated",
0, readOnlyAlias.getBuffer()[readOnlyAlias.length()]);
}
// Check nextPosition over all fields
ConstrainedFieldPosition cfpos;
for (int32_t i = 0; i < length; i++) {
assertTrue(baseMessage + u"A has next position @ " + Int64ToUnicodeString(i),
fv.nextPosition(cfpos, status));
int32_t expectedCategory = expectedFieldPositions[i].category;
int32_t expectedField = expectedFieldPositions[i].field;
int32_t expectedStart = expectedFieldPositions[i].beginIndex;
int32_t expectedLimit = expectedFieldPositions[i].endIndex;
assertEquals(baseMessage + u"A category @ " + Int64ToUnicodeString(i),
expectedCategory, cfpos.getCategory());
assertEquals(baseMessage + u"A field @ " + Int64ToUnicodeString(i),
expectedField, cfpos.getField());
assertEquals(baseMessage + u"A start @ " + Int64ToUnicodeString(i),
expectedStart, cfpos.getStart());
assertEquals(baseMessage + u"A limit @ " + Int64ToUnicodeString(i),
expectedLimit, cfpos.getLimit());
}
UBool afterLoopResult = fv.nextPosition(cfpos, status);
assertFalse(baseMessage + u"A after loop: " + CFPosToUnicodeString(cfpos), afterLoopResult);
afterLoopResult = fv.nextPosition(cfpos, status);
assertFalse(baseMessage + u"A after loop again: " + CFPosToUnicodeString(cfpos), afterLoopResult);
// Check nextPosition constrained over each category one at a time
for (int32_t category=0; category<UFIELD_CATEGORY_COUNT+1; category++) {
if (category == UFIELD_CATEGORY_COUNT+1) {
category = UFIELD_CATEGORY_LIST_SPAN;
}
cfpos.reset();
cfpos.constrainCategory(static_cast<UFieldCategory>(category));
for (int32_t i = 0; i < length; i++) {
if (expectedFieldPositions[i].category != category) {
continue;
}
assertTrue(baseMessage + u"B has next position @ " + Int64ToUnicodeString(i),
fv.nextPosition(cfpos, status));
int32_t expectedCategory = expectedFieldPositions[i].category;
int32_t expectedField = expectedFieldPositions[i].field;
int32_t expectedStart = expectedFieldPositions[i].beginIndex;
int32_t expectedLimit = expectedFieldPositions[i].endIndex;
assertEquals(baseMessage + u"B category @ " + Int64ToUnicodeString(i),
expectedCategory, cfpos.getCategory());
assertEquals(baseMessage + u"B field @ " + Int64ToUnicodeString(i),
expectedField, cfpos.getField());
assertEquals(baseMessage + u"B start @ " + Int64ToUnicodeString(i),
expectedStart, cfpos.getStart());
assertEquals(baseMessage + u"B limit @ " + Int64ToUnicodeString(i),
expectedLimit, cfpos.getLimit());
}
UBool afterLoopResult = fv.nextPosition(cfpos, status);
assertFalse(baseMessage + u"B after loop @ " + CFPosToUnicodeString(cfpos), afterLoopResult);
afterLoopResult = fv.nextPosition(cfpos, status);
assertFalse(baseMessage + u"B after loop again @ " + CFPosToUnicodeString(cfpos), afterLoopResult);
}
// Check nextPosition constrained over each field one at a time
std::set<std::pair<UFieldCategory, int32_t>> uniqueFields;
for (int32_t i = 0; i < length; i++) {
uniqueFields.insert({expectedFieldPositions[i].category, expectedFieldPositions[i].field});
}
for (std::pair<UFieldCategory, int32_t> categoryAndField : uniqueFields) {
cfpos.reset();
cfpos.constrainField(categoryAndField.first, categoryAndField.second);
for (int32_t i = 0; i < length; i++) {
if (expectedFieldPositions[i].category != categoryAndField.first) {
continue;
}
if (expectedFieldPositions[i].field != categoryAndField.second) {
continue;
}
assertTrue(baseMessage + u"C has next position @ " + Int64ToUnicodeString(i),
fv.nextPosition(cfpos, status));
int32_t expectedCategory = expectedFieldPositions[i].category;
int32_t expectedField = expectedFieldPositions[i].field;
int32_t expectedStart = expectedFieldPositions[i].beginIndex;
int32_t expectedLimit = expectedFieldPositions[i].endIndex;
assertEquals(baseMessage + u"C category @ " + Int64ToUnicodeString(i),
expectedCategory, cfpos.getCategory());
assertEquals(baseMessage + u"C field @ " + Int64ToUnicodeString(i),
expectedField, cfpos.getField());
assertEquals(baseMessage + u"C start @ " + Int64ToUnicodeString(i),
expectedStart, cfpos.getStart());
assertEquals(baseMessage + u"C limit @ " + Int64ToUnicodeString(i),
expectedLimit, cfpos.getLimit());
}
UBool afterLoopResult = fv.nextPosition(cfpos, status);
assertFalse(baseMessage + u"C after loop: " + CFPosToUnicodeString(cfpos), afterLoopResult);
afterLoopResult = fv.nextPosition(cfpos, status);
assertFalse(baseMessage + u"C after loop again: " + CFPosToUnicodeString(cfpos), afterLoopResult);
}
}
extern IntlTest *createFormattedValueTest() {
return new FormattedValueTest();
}
#endif /* !UCONFIG_NO_FORMATTING */