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skia / external / github.com / unicode-org / icu / 249e03ccd6909a7528afdd0cbf8814a0ae9e3801 / . / icu4c / source / test / intltest / numbertest_stringbuilder.cpp
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// © 2017 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 "putilimp.h"
#include "numbertest.h"
static const char16_t *EXAMPLE_STRINGS[] = {
u"",
u"xyz",
u"The quick brown fox jumps over the lazy dog",
u"😁",
u"mixed 😇 and ASCII",
u"with combining characters like 🇦🇧🇨🇩",
u"A very very very very very very very very very very long string to force heap"};
void NumberStringBuilderTest::runIndexedTest(int32_t index, UBool exec, const char *&name, char *) {
if (exec) {
logln("TestSuite NumberStringBuilderTest: ");
}
TESTCASE_AUTO_BEGIN;
TESTCASE_AUTO(testInsertAppendUnicodeString);
TESTCASE_AUTO(testSplice);
TESTCASE_AUTO(testInsertAppendCodePoint);
TESTCASE_AUTO(testCopy);
TESTCASE_AUTO(testFields);
TESTCASE_AUTO(testUnlimitedCapacity);
TESTCASE_AUTO(testCodePoints);
TESTCASE_AUTO_END;
}
void NumberStringBuilderTest::testInsertAppendUnicodeString() {
UErrorCode status = U_ZERO_ERROR;
UnicodeString sb1;
NumberStringBuilder sb2;
for (const char16_t* strPtr : EXAMPLE_STRINGS) {
UnicodeString str(strPtr);
NumberStringBuilder sb3;
sb1.append(str);
// Note: UNUM_FIELD_COUNT is like passing null in Java
sb2.append(str, UNUM_FIELD_COUNT, status);
assertSuccess("Appending to sb2", status);
sb3.append(str, UNUM_FIELD_COUNT, status);
assertSuccess("Appending to sb3", status);
assertEqualsImpl(sb1, sb2);
assertEqualsImpl(str, sb3);
UnicodeString sb4;
NumberStringBuilder sb5;
sb4.append(u"😇");
sb4.append(str);
sb4.append(u"xx");
sb5.append(u"😇xx", UNUM_FIELD_COUNT, status);
assertSuccess("Appending to sb5", status);
sb5.insert(2, str, UNUM_FIELD_COUNT, status);
assertSuccess("Inserting into sb5", status);
assertEqualsImpl(sb4, sb5);
int start = uprv_min(1, str.length());
int end = uprv_min(10, str.length());
sb4.insert(3, str, start, end - start); // UnicodeString uses length instead of end index
sb5.insert(3, str, start, end, UNUM_FIELD_COUNT, status);
assertSuccess("Inserting into sb5 again", status);
assertEqualsImpl(sb4, sb5);
UnicodeString sb4cp(sb4);
NumberStringBuilder sb5cp(sb5);
sb4.append(sb4cp);
sb5.append(sb5cp, status);
assertSuccess("Appending again to sb5", status);
assertEqualsImpl(sb4, sb5);
}
}
void NumberStringBuilderTest::testSplice() {
static const struct TestCase {
const char16_t* input;
const int32_t startThis;
const int32_t endThis;
} cases[] = {
{ u"", 0, 0 },
{ u"abc", 0, 0 },
{ u"abc", 1, 1 },
{ u"abc", 1, 2 },
{ u"abc", 0, 2 },
{ u"abc", 0, 3 },
{ u"lorem ipsum dolor sit amet", 8, 8 },
{ u"lorem ipsum dolor sit amet", 8, 11 }, // 3 chars, equal to replacement "xyz"
{ u"lorem ipsum dolor sit amet", 8, 18 } }; // 10 chars, larger than several replacements
UErrorCode status = U_ZERO_ERROR;
UnicodeString sb1;
NumberStringBuilder sb2;
for (auto cas : cases) {
for (const char16_t* replacementPtr : EXAMPLE_STRINGS) {
UnicodeString replacement(replacementPtr);
// Test replacement with full string
sb1.remove();
sb1.append(cas.input);
sb1.replace(cas.startThis, cas.endThis - cas.startThis, replacement);
sb2.clear();
sb2.append(cas.input, UNUM_FIELD_COUNT, status);
sb2.splice(cas.startThis, cas.endThis, replacement, 0, replacement.length(), UNUM_FIELD_COUNT, status);
assertSuccess("Splicing into sb2 first time", status);
assertEqualsImpl(sb1, sb2);
// Test replacement with partial string
if (replacement.length() <= 2) {
continue;
}
sb1.remove();
sb1.append(cas.input);
sb1.replace(cas.startThis, cas.endThis - cas.startThis, UnicodeString(replacement, 1, 2));
sb2.clear();
sb2.append(cas.input, UNUM_FIELD_COUNT, status);
sb2.splice(cas.startThis, cas.endThis, replacement, 1, 3, UNUM_FIELD_COUNT, status);
assertSuccess("Splicing into sb2 second time", status);
assertEqualsImpl(sb1, sb2);
}
}
}
void NumberStringBuilderTest::testInsertAppendCodePoint() {
static const UChar32 cases[] = {
0, 1, 60, 127, 128, 0x7fff, 0x8000, 0xffff, 0x10000, 0x1f000, 0x10ffff};
UErrorCode status = U_ZERO_ERROR;
UnicodeString sb1;
NumberStringBuilder sb2;
for (UChar32 cas : cases) {
NumberStringBuilder sb3;
sb1.append(cas);
sb2.appendCodePoint(cas, UNUM_FIELD_COUNT, status);
assertSuccess("Appending to sb2", status);
sb3.appendCodePoint(cas, UNUM_FIELD_COUNT, status);
assertSuccess("Appending to sb3", status);
assertEqualsImpl(sb1, sb2);
assertEquals("Length of sb3", U16_LENGTH(cas), sb3.length());
assertEquals("Code point count of sb3", 1, sb3.codePointCount());
assertEquals(
"First code unit in sb3",
!U_IS_SUPPLEMENTARY(cas) ? (char16_t) cas : U16_LEAD(cas),
sb3.charAt(0));
UnicodeString sb4;
NumberStringBuilder sb5;
sb4.append(u"😇xx");
sb4.insert(2, cas);
sb5.append(u"😇xx", UNUM_FIELD_COUNT, status);
assertSuccess("Appending to sb5", status);
sb5.insertCodePoint(2, cas, UNUM_FIELD_COUNT, status);
assertSuccess("Inserting into sb5", status);
assertEqualsImpl(sb4, sb5);
}
}
void NumberStringBuilderTest::testCopy() {
UErrorCode status = U_ZERO_ERROR;
for (UnicodeString str : EXAMPLE_STRINGS) {
NumberStringBuilder sb1;
sb1.append(str, UNUM_FIELD_COUNT, status);
assertSuccess("Appending to sb1 first time", status);
NumberStringBuilder sb2(sb1);
assertTrue("Content should equal itself", sb1.contentEquals(sb2));
sb1.append("12345", UNUM_FIELD_COUNT, status);
assertSuccess("Appending to sb1 second time", status);
assertFalse("Content should no longer equal itself", sb1.contentEquals(sb2));
}
}
void NumberStringBuilderTest::testFields() {
UErrorCode status = U_ZERO_ERROR;
// Note: This is a C++11 for loop that calls the UnicodeString constructor on each iteration.
for (UnicodeString str : EXAMPLE_STRINGS) {
NumberStringBuilder sb;
sb.append(str, UNUM_FIELD_COUNT, status);
assertSuccess("Appending to sb", status);
sb.append(str, UNUM_CURRENCY_FIELD, status);
assertSuccess("Appending to sb", status);
assertEquals("Reference string copied twice", str.length() * 2, sb.length());
for (int32_t i = 0; i < str.length(); i++) {
assertEquals("Null field first", (Field) UNUM_FIELD_COUNT, sb.fieldAt(i));
assertEquals("Currency field second", (Field) UNUM_CURRENCY_FIELD, sb.fieldAt(i + str.length()));
}
// Very basic FieldPosition test. More robust tests happen in NumberFormatTest.
// Let NumberFormatTest also take care of FieldPositionIterator material.
FieldPosition fp(UNUM_CURRENCY_FIELD);
sb.nextFieldPosition(fp, status);
assertSuccess("Populating the FieldPosition", status);
assertEquals("Currency start position", str.length(), fp.getBeginIndex());
assertEquals("Currency end position", str.length() * 2, fp.getEndIndex());
if (str.length() > 0) {
sb.insertCodePoint(2, 100, UNUM_INTEGER_FIELD, status);
assertSuccess("Inserting code point into sb", status);
assertEquals("New length", str.length() * 2 + 1, sb.length());
assertEquals("Integer field", (Field) UNUM_INTEGER_FIELD, sb.fieldAt(2));
}
NumberStringBuilder old(sb);
sb.append(old, status);
assertSuccess("Appending to myself", status);
int32_t numNull = 0;
int32_t numCurr = 0;
int32_t numInt = 0;
for (int32_t i = 0; i < sb.length(); i++) {
Field field = sb.fieldAt(i);
assertEquals("Field should equal location in old", old.fieldAt(i % old.length()), field);
if (field == UNUM_FIELD_COUNT) {
numNull++;
} else if (field == UNUM_CURRENCY_FIELD) {
numCurr++;
} else if (field == UNUM_INTEGER_FIELD) {
numInt++;
} else {
errln("Encountered unknown field");
}
}
assertEquals("Number of null fields", str.length() * 2, numNull);
assertEquals("Number of currency fields", numNull, numCurr);
assertEquals("Number of integer fields", str.length() > 0 ? 2 : 0, numInt);
}
}
void NumberStringBuilderTest::testUnlimitedCapacity() {
UErrorCode status = U_ZERO_ERROR;
NumberStringBuilder builder;
// The builder should never fail upon repeated appends.
for (int i = 0; i < 1000; i++) {
UnicodeString message("Iteration #");
message += Int64ToUnicodeString(i);
assertEquals(message, builder.length(), i);
builder.appendCodePoint(u'x', UNUM_FIELD_COUNT, status);
assertSuccess(message, status);
assertEquals(message, builder.length(), i + 1);
}
}
void NumberStringBuilderTest::testCodePoints() {
UErrorCode status = U_ZERO_ERROR;
NumberStringBuilder nsb;
assertEquals("First is -1 on empty string", -1, nsb.getFirstCodePoint());
assertEquals("Last is -1 on empty string", -1, nsb.getLastCodePoint());
assertEquals("Length is 0 on empty string", 0, nsb.codePointCount());
nsb.append(u"q", UNUM_FIELD_COUNT, status);
assertSuccess("Spot 1", status);
assertEquals("First is q", u'q', nsb.getFirstCodePoint());
assertEquals("Last is q", u'q', nsb.getLastCodePoint());
assertEquals("0th is q", u'q', nsb.codePointAt(0));
assertEquals("Before 1st is q", u'q', nsb.codePointBefore(1));
assertEquals("Code point count is 1", 1, nsb.codePointCount());
// 🚀 is two char16s
nsb.append(u"🚀", UNUM_FIELD_COUNT, status);
assertSuccess("Spot 2" ,status);
assertEquals("First is still q", u'q', nsb.getFirstCodePoint());
assertEquals("Last is space ship", 128640, nsb.getLastCodePoint());
assertEquals("1st is space ship", 128640, nsb.codePointAt(1));
assertEquals("Before 1st is q", u'q', nsb.codePointBefore(1));
assertEquals("Before 3rd is space ship", 128640, nsb.codePointBefore(3));
assertEquals("Code point count is 2", 2, nsb.codePointCount());
}
void NumberStringBuilderTest::assertEqualsImpl(const UnicodeString &a, const NumberStringBuilder &b) {
// TODO: Why won't this compile without the IntlTest:: qualifier?
IntlTest::assertEquals("Lengths should be the same", a.length(), b.length());
IntlTest::assertEquals("Code point counts should be the same", a.countChar32(), b.codePointCount());
if (a.length() != b.length()) {
return;
}
for (int32_t i = 0; i < a.length(); i++) {
IntlTest::assertEquals(
UnicodeString(u"Char at position ") + Int64ToUnicodeString(i) +
UnicodeString(u" in \"") + a + UnicodeString("\" versus \"") +
b.toUnicodeString() + UnicodeString("\""), a.charAt(i), b.charAt(i));
}
}
#endif /* #if !UCONFIG_NO_FORMATTING */