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skia / external / github.com / unicode-org / icu / d7db6c1f8655bb53153695b09a50029fd04a8364 / . / icu4c / source / test / intltest / listformattertest.cpp
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// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/*
*******************************************************************************
*
* Copyright (C) 2012-2016, International Business Machines
* Corporation and others. All Rights Reserved.
*
*******************************************************************************
* file name: listformattertest.cpp
* encoding: UTF-8
* tab size: 8 (not used)
* indentation:4
*
* created on: 2012aug27
* created by: Umesh P. Nair
*/
#include "listformattertest.h"
#include "unicode/ulistformatter.h"
#include "cmemory.h"
#include <string.h>
#if !UCONFIG_NO_FORMATTING
void ListFormatterTest::runIndexedTest(int32_t index, UBool exec,
const char* &name, char* /*par */) {
TESTCASE_AUTO_BEGIN;
TESTCASE_AUTO(TestRoot);
TESTCASE_AUTO(TestBogus);
TESTCASE_AUTO(TestEnglish);
TESTCASE_AUTO(TestEnglishUS);
TESTCASE_AUTO(TestRussian);
TESTCASE_AUTO(TestMalayalam);
TESTCASE_AUTO(TestZulu);
TESTCASE_AUTO(TestOutOfOrderPatterns);
TESTCASE_AUTO(Test9946);
TESTCASE_AUTO(TestEnglishGB);
TESTCASE_AUTO(TestNynorsk);
TESTCASE_AUTO(TestChineseTradHK);
TESTCASE_AUTO(TestFieldPositionIteratorWith1Item);
TESTCASE_AUTO(TestFieldPositionIteratorWith2Items);
TESTCASE_AUTO(TestFieldPositionIteratorWith2ItemsPatternShift);
TESTCASE_AUTO(TestFieldPositionIteratorWith3Items);
TESTCASE_AUTO(TestFieldPositionIteratorWith3ItemsPatternShift);
TESTCASE_AUTO(TestFormattedValue);
TESTCASE_AUTO(TestDifferentStyles);
TESTCASE_AUTO(TestCreateStyled);
TESTCASE_AUTO(TestContextual);
TESTCASE_AUTO(TestNextPosition);
TESTCASE_AUTO(TestInt32Overflow);
TESTCASE_AUTO_END;
}
namespace {
const char* attrString(int32_t attrId) {
switch (attrId) {
case ULISTFMT_LITERAL_FIELD: return "literal";
case ULISTFMT_ELEMENT_FIELD: return "element";
default: return "xxx";
}
}
} // namespace
void ListFormatterTest::ExpectPositions(
const FormattedList& iter,
int32_t *values,
int32_t tupleCount,
UErrorCode& status) {
UBool found[10];
ConstrainedFieldPosition cfp;
cfp.constrainCategory(UFIELD_CATEGORY_LIST);
if (tupleCount > 10) {
assertTrue("internal error, tupleCount too large", FALSE);
} else {
for (int i = 0; i < tupleCount; ++i) {
found[i] = FALSE;
}
}
while (iter.nextPosition(cfp, status)) {
UBool ok = FALSE;
int32_t id = cfp.getField();
int32_t start = cfp.getStart();
int32_t limit = cfp.getLimit();
char buf[128];
sprintf(buf, "%24s %3d %3d %3d", attrString(id), id, start, limit);
logln(buf);
for (int i = 0; i < tupleCount; ++i) {
if (found[i]) {
continue;
}
if (values[i*3] == id && values[i*3+1] == start && values[i*3+2] == limit) {
found[i] = ok = TRUE;
break;
}
}
assertTrue((UnicodeString)"found [" + attrString(id) + "," + start + "," + limit + "]", ok);
}
// check that all were found
UBool ok = TRUE;
for (int i = 0; i < tupleCount; ++i) {
if (!found[i]) {
ok = FALSE;
assertTrue((UnicodeString) "missing [" + attrString(values[i*3]) + "," + values[i*3+1] +
"," + values[i*3+2] + "]", found[i]);
}
}
assertTrue("no expected values were missing", ok);
}
ListFormatterTest::ListFormatterTest() :
prefix("Prefix: ", -1, US_INV),
one("Alice", -1, US_INV), two("Bob", -1, US_INV),
three("Charlie", -1, US_INV), four("Delta", -1, US_INV) {
}
void ListFormatterTest::CheckFormatting(const ListFormatter* formatter, UnicodeString data[], int32_t dataSize,
const UnicodeString& expected_result, const char* testName) {
UnicodeString actualResult(prefix);
IcuTestErrorCode errorCode(*this, testName);
formatter->format(data, dataSize, actualResult, errorCode);
UnicodeString expectedStringWithPrefix = prefix + expected_result;
if (expectedStringWithPrefix != actualResult) {
errln(UnicodeString("Expected: |") + expectedStringWithPrefix + "|, Actual: |" + actualResult + "|");
}
}
void ListFormatterTest::CheckFourCases(const char* locale_string, UnicodeString one, UnicodeString two,
UnicodeString three, UnicodeString four, UnicodeString results[4], const char* testName) {
IcuTestErrorCode errorCode(*this, testName);
LocalPointer<ListFormatter> formatter(ListFormatter::createInstance(Locale(locale_string), errorCode));
if (U_FAILURE(errorCode)) {
dataerrln("ListFormatter::createInstance(Locale(\"%s\"), errorCode) failed in CheckFourCases: %s", locale_string, u_errorName(errorCode));
return;
}
UnicodeString input1[] = {one};
CheckFormatting(formatter.getAlias(), input1, 1, results[0], testName);
UnicodeString input2[] = {one, two};
CheckFormatting(formatter.getAlias(), input2, 2, results[1], testName);
UnicodeString input3[] = {one, two, three};
CheckFormatting(formatter.getAlias(), input3, 3, results[2], testName);
UnicodeString input4[] = {one, two, three, four};
CheckFormatting(formatter.getAlias(), input4, 4, results[3], testName);
}
UBool ListFormatterTest::RecordFourCases(const Locale& locale, UnicodeString one, UnicodeString two,
UnicodeString three, UnicodeString four, UnicodeString results[4], const char* testName) {
IcuTestErrorCode errorCode(*this, testName);
LocalPointer<ListFormatter> formatter(ListFormatter::createInstance(locale, errorCode));
if (U_FAILURE(errorCode)) {
dataerrln("ListFormatter::createInstance(\"%s\", errorCode) failed in RecordFourCases: %s", locale.getName(), u_errorName(errorCode));
return FALSE;
}
UnicodeString input1[] = {one};
formatter->format(input1, 1, results[0], errorCode);
UnicodeString input2[] = {one, two};
formatter->format(input2, 2, results[1], errorCode);
UnicodeString input3[] = {one, two, three};
formatter->format(input3, 3, results[2], errorCode);
UnicodeString input4[] = {one, two, three, four};
formatter->format(input4, 4, results[3], errorCode);
if (U_FAILURE(errorCode)) {
errln("RecordFourCases failed: %s", u_errorName(errorCode));
return FALSE;
}
return TRUE;
}
void ListFormatterTest::TestRoot() {
UnicodeString results[4] = {
one,
one + ", " + two,
one + ", " + two + ", " + three,
one + ", " + two + ", " + three + ", " + four
};
CheckFourCases("", one, two, three, four, results, "TestRoot()");
}
// Bogus locale should fallback to root.
void ListFormatterTest::TestBogus() {
UnicodeString results[4];
if (RecordFourCases(Locale::getDefault(), one, two, three, four, results, "TestBogus()")) {
CheckFourCases("ex_PY", one, two, three, four, results, "TestBogus()");
}
}
// Formatting in English.
// "and" is used before the last element, and all elements up to (and including) the penultimate are followed by a comma.
void ListFormatterTest::TestEnglish() {
UnicodeString results[4] = {
one,
one + " and " + two,
one + ", " + two + ", and " + three,
one + ", " + two + ", " + three + ", and " + four
};
CheckFourCases("en", one, two, three, four, results, "TestEnglish()");
}
void ListFormatterTest::Test9946() {
IcuTestErrorCode errorCode(*this, "Test9946()");
LocalPointer<ListFormatter> formatter(ListFormatter::createInstance(Locale("en"), errorCode));
if (U_FAILURE(errorCode)) {
dataerrln(
"ListFormatter::createInstance(Locale(\"en\"), errorCode) failed in Test9946: %s",
u_errorName(errorCode));
return;
}
UnicodeString data[3] = {"{0}", "{1}", "{2}"};
UnicodeString actualResult;
formatter->format(data, 3, actualResult, errorCode);
if (U_FAILURE(errorCode)) {
dataerrln(
"ListFormatter::createInstance(Locale(\"en\"), errorCode) failed in Test9946: %s",
u_errorName(errorCode));
return;
}
UnicodeString expected("{0}, {1}, and {2}");
if (expected != actualResult) {
errln("Expected " + expected + ", got " + actualResult);
}
}
void ListFormatterTest::TestEnglishUS() {
UnicodeString results[4] = {
one,
one + " and " + two,
one + ", " + two + ", and " + three,
one + ", " + two + ", " + three + ", and " + four
};
CheckFourCases("en_US", one, two, three, four, results, "TestEnglishUS()");
}
// Tests resource loading and inheritance when region sublocale
// has only partial data for the listPattern element (overriding
// some of the parent data). #12994
void ListFormatterTest::TestEnglishGB() {
UnicodeString results[4] = {
one,
one + " and " + two,
one + ", " + two + " and " + three,
one + ", " + two + ", " + three + " and " + four
};
CheckFourCases("en_GB", one, two, three, four, results, "TestEnglishGB()");
}
void ListFormatterTest::RunTestFieldPositionIteratorWithFormatter(
ListFormatter* formatter,
UnicodeString data[], int32_t n, int32_t expected[], int32_t tupleCount,
const char16_t *expectedFormatted,
const char* testName) {
IcuTestErrorCode errorCode(*this, testName);
FormattedList fl = formatter->formatStringsToValue(data, n, errorCode);
UnicodeString actual = fl.toString(errorCode);
if (U_FAILURE(errorCode)) {
dataerrln(
"ListFormatter::format(data, %d, &iter, errorCode) "
"failed in %s: %s", n, testName, u_errorName(errorCode));
return;
}
if (actual != expectedFormatted) {
errln(UnicodeString("Expected: |") + expectedFormatted + "|, Actual: |" + actual + "|");
}
ExpectPositions(fl, expected, tupleCount, errorCode);
}
void ListFormatterTest::RunTestFieldPositionIteratorWithNItemsPatternShift(
UnicodeString data[], int32_t n, int32_t expected[], int32_t tupleCount,
const char16_t *expectedFormatted,
const char* testName) {
IcuTestErrorCode errorCode(*this, testName);
LocalPointer<ListFormatter> formatter(ListFormatter::createInstance(
Locale("ur", "IN"),
ULISTFMT_TYPE_UNITS,
ULISTFMT_WIDTH_NARROW,
errorCode));
if (U_FAILURE(errorCode)) {
dataerrln(
"ListFormatter::createInstance(Locale(\"ur\", \"IN\"), \"unit-narrow\", errorCode) failed in "
"%s: %s", testName, u_errorName(errorCode));
return;
}
RunTestFieldPositionIteratorWithFormatter(
formatter.getAlias(),
data, n, expected, tupleCount, expectedFormatted, testName);
}
void ListFormatterTest::RunTestFieldPositionIteratorWithNItems(
UnicodeString data[], int32_t n, int32_t expected[], int32_t tupleCount,
const char16_t *expectedFormatted,
const char* testName) {
IcuTestErrorCode errorCode(*this, testName);
LocalPointer<ListFormatter> formatter(
ListFormatter::createInstance(Locale("en"), errorCode));
if (U_FAILURE(errorCode)) {
dataerrln(
"ListFormatter::createInstance(Locale(\"en\"), errorCode) failed in "
"%s: %s", testName, u_errorName(errorCode));
return;
}
RunTestFieldPositionIteratorWithFormatter(
formatter.getAlias(),
data, n, expected, tupleCount, expectedFormatted, testName);
}
void ListFormatterTest::TestFieldPositionIteratorWith3Items() {
// 0 1
// 012345678901234
// "a, bbb, and cc"
UnicodeString data[3] = {"a", "bbb", "cc"};
int32_t expected[] = {
ULISTFMT_ELEMENT_FIELD, 0, 1,
ULISTFMT_LITERAL_FIELD, 1, 3,
ULISTFMT_ELEMENT_FIELD, 3, 6,
ULISTFMT_LITERAL_FIELD, 6, 12,
ULISTFMT_ELEMENT_FIELD, 12, 14
};
int32_t tupleCount = sizeof(expected)/(3 * sizeof(*expected));
RunTestFieldPositionIteratorWithNItems(
data, 3, expected, tupleCount,
u"a, bbb, and cc",
"TestFieldPositionIteratorWith3Items");
}
void ListFormatterTest::TestFieldPositionIteratorWith3ItemsPatternShift() {
// 0 1
// 012345678901234
// "cc bbb a"
UnicodeString data[3] = {"a", "bbb", "cc"};
int32_t expected[] = {
ULISTFMT_ELEMENT_FIELD, 7, 8,
ULISTFMT_LITERAL_FIELD, 6, 7,
ULISTFMT_ELEMENT_FIELD, 3, 6,
ULISTFMT_LITERAL_FIELD, 2, 3,
ULISTFMT_ELEMENT_FIELD, 0, 2
};
int32_t tupleCount = sizeof(expected)/(3 * sizeof(*expected));
RunTestFieldPositionIteratorWithNItemsPatternShift(
data, 3, expected, tupleCount,
u"cc bbb a",
"TestFieldPositionIteratorWith3ItemsPatternShift");
}
void ListFormatterTest::TestFieldPositionIteratorWith2Items() {
// 0 1
// 01234567890
// "bbb and cc"
UnicodeString data[2] = {"bbb", "cc"};
int32_t expected[] = {
ULISTFMT_ELEMENT_FIELD, 0, 3,
ULISTFMT_LITERAL_FIELD, 3, 8,
ULISTFMT_ELEMENT_FIELD, 8, 10
};
int32_t tupleCount = sizeof(expected)/(3 * sizeof(*expected));
RunTestFieldPositionIteratorWithNItems(
data, 2, expected, tupleCount,
u"bbb and cc",
"TestFieldPositionIteratorWith2Items");
}
void ListFormatterTest::TestFieldPositionIteratorWith2ItemsPatternShift() {
// 0 1
// 01234567890
// "cc bbb"
UnicodeString data[2] = {"bbb", "cc"};
int32_t expected[] = {
ULISTFMT_ELEMENT_FIELD, 3, 6,
ULISTFMT_LITERAL_FIELD, 2, 3,
ULISTFMT_ELEMENT_FIELD, 0, 2
};
int32_t tupleCount = sizeof(expected)/(3 * sizeof(*expected));
RunTestFieldPositionIteratorWithNItemsPatternShift(
data, 2, expected, tupleCount,
u"cc bbb",
"TestFieldPositionIteratorWith2ItemsPatternShift");
}
void ListFormatterTest::TestFieldPositionIteratorWith1Item() {
// 012
// "cc"
UnicodeString data[1] = {"cc"};
int32_t expected[] = {
ULISTFMT_ELEMENT_FIELD, 0, 2
};
int32_t tupleCount = sizeof(expected)/(3 * sizeof(*expected));
RunTestFieldPositionIteratorWithNItems(
data, 1, expected, tupleCount,
u"cc",
"TestFieldPositionIteratorWith1Item");
}
// Tests resource loading and inheritance when region sublocale
// has only partial data for the listPattern element (overriding
// some of the parent data). #12994
void ListFormatterTest::TestNynorsk() {
UnicodeString results[4] = {
one,
one + " og " + two,
one + ", " + two + " og " + three,
one + ", " + two + ", " + three + " og " + four
};
CheckFourCases("nn", one, two, three, four, results, "TestNynorsk()");
}
// Tests resource loading and inheritance when region sublocale
// has only partial data for the listPattern element (overriding
// some of the parent data). #12994
void ListFormatterTest::TestChineseTradHK() {
UnicodeString and_string = UnicodeString("\\u53CA", -1, US_INV).unescape();
UnicodeString comma_string = UnicodeString("\\u3001", -1, US_INV).unescape();
UnicodeString results[4] = {
one,
one + and_string + two,
one + comma_string + two + and_string + three,
one + comma_string + two + comma_string + three + and_string + four
};
CheckFourCases("zh_Hant_HK", one, two, three, four, results, "TestChineseTradHK()");
}
// Formatting in Russian.
// "\\u0438" is used before the last element, and all elements up to (but not including) the penultimate are followed by a comma.
void ListFormatterTest::TestRussian() {
UnicodeString and_string = UnicodeString(" \\u0438 ", -1, US_INV).unescape();
UnicodeString results[4] = {
one,
one + and_string + two,
one + ", " + two + and_string + three,
one + ", " + two + ", " + three + and_string + four
};
CheckFourCases("ru", one, two, three, four, results, "TestRussian()");
}
// Formatting in Malayalam.
// For two elements, "\\u0d15\\u0d42\\u0d1f\\u0d3e\\u0d24\\u0d46" is inserted in between.
// For more than two elements, comma is inserted between all elements up to (and including) the penultimate,
// and the word \\u0d0e\\u0d28\\u0d4d\\u0d28\\u0d3f\\u0d35 is inserted in the end.
void ListFormatterTest::TestMalayalam() {
UnicodeString pair_string = UnicodeString(" \\u0d15\\u0d42\\u0d1f\\u0d3e\\u0d24\\u0d46 ", -1, US_INV).unescape();
UnicodeString total_string = UnicodeString(" \\u0d0e\\u0d28\\u0d4d\\u0d28\\u0d3f\\u0d35", -1, US_INV).unescape();
UnicodeString results[4] = {
one,
one + pair_string + two,
one + ", " + two + ", " + three + total_string,
one + ", " + two + ", " + three + ", " + four + total_string
};
CheckFourCases("ml", one, two, three, four, results, "TestMalayalam()");
}
// Formatting in Zulu.
// "and" is used before the last element, and all elements up to (and including) the penultimate are followed by a comma.
void ListFormatterTest::TestZulu() {
UnicodeString results[4] = {
one,
one + " ne-" + two,
one + ", " + two + ", ne-" + three,
one + ", " + two + ", " + three + ", ne-" + four
};
CheckFourCases("zu", one, two, three, four, results, "TestZulu()");
}
void ListFormatterTest::TestOutOfOrderPatterns() {
UnicodeString results[4] = {
one,
two + " after " + one,
three + " in the last after " + two + " after the first " + one,
four + " in the last after " + three + " after " + two + " after the first " + one
};
IcuTestErrorCode errorCode(*this, "TestOutOfOrderPatterns()");
Locale locale("en");
ListFormatData data("{1} after {0}", "{1} after the first {0}",
"{1} after {0}", "{1} in the last after {0}", locale);
ListFormatter formatter(data, errorCode);
UnicodeString input1[] = {one};
CheckFormatting(&formatter, input1, 1, results[0], "TestOutOfOrderPatterns()");
UnicodeString input2[] = {one, two};
CheckFormatting(&formatter, input2, 2, results[1], "TestOutOfOrderPatterns()");
UnicodeString input3[] = {one, two, three};
CheckFormatting(&formatter, input3, 3, results[2], "TestOutOfOrderPatterns()");
UnicodeString input4[] = {one, two, three, four};
CheckFormatting(&formatter, input4, 4, results[3], "TestOutOfOrderPatterns()");
}
void ListFormatterTest::TestFormattedValue() {
IcuTestErrorCode status(*this, "TestFormattedValue");
{
LocalPointer<ListFormatter> fmt(ListFormatter::createInstance("en", status));
if (status.errIfFailureAndReset()) { return; }
const char16_t* message = u"Field position test 1";
const char16_t* expectedString = u"hello, wonderful, and world";
const UnicodeString inputs[] = {
u"hello",
u"wonderful",
u"world"
};
FormattedList result = fmt->formatStringsToValue(inputs, UPRV_LENGTHOF(inputs), status);
static const UFieldPositionWithCategory expectedFieldPositions[] = {
// field, begin index, end index
{UFIELD_CATEGORY_LIST_SPAN, 0, 0, 5},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 0, 5},
{UFIELD_CATEGORY_LIST, ULISTFMT_LITERAL_FIELD, 5, 7},
{UFIELD_CATEGORY_LIST_SPAN, 1, 7, 16},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 7, 16},
{UFIELD_CATEGORY_LIST, ULISTFMT_LITERAL_FIELD, 16, 22},
{UFIELD_CATEGORY_LIST_SPAN, 2, 22, 27},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 22, 27}};
checkMixedFormattedValue(
message,
result,
expectedString,
expectedFieldPositions,
UPRV_LENGTHOF(expectedFieldPositions));
}
{
LocalPointer<ListFormatter> fmt(ListFormatter::createInstance("zh", ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_SHORT, status));
if (status.errIfFailureAndReset()) { return; }
const char16_t* message = u"Field position test 2 (ICU-21340)";
const char16_t* expectedString = u"aabbbbbbbccc";
const UnicodeString inputs[] = {
u"aa",
u"bbbbbbb",
u"ccc"
};
FormattedList result = fmt->formatStringsToValue(inputs, UPRV_LENGTHOF(inputs), status);
static const UFieldPositionWithCategory expectedFieldPositions[] = {
// field, begin index, end index
{UFIELD_CATEGORY_LIST_SPAN, 0, 0, 2},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 0, 2},
{UFIELD_CATEGORY_LIST_SPAN, 1, 2, 9},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 2, 9},
{UFIELD_CATEGORY_LIST_SPAN, 2, 9, 12},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 9, 12}};
checkMixedFormattedValue(
message,
result,
expectedString,
expectedFieldPositions,
UPRV_LENGTHOF(expectedFieldPositions));
}
{
LocalPointer<ListFormatter> fmt(ListFormatter::createInstance("en", ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_SHORT, status));
if (status.errIfFailureAndReset()) { return; }
const char16_t* message = u"ICU-21383 Long list";
const char16_t* expectedString = u"a, b, c, d, e, f, g, h, i";
const UnicodeString inputs[] = {
u"a",
u"b",
u"c",
u"d",
u"e",
u"f",
u"g",
u"h",
u"i",
};
FormattedList result = fmt->formatStringsToValue(inputs, UPRV_LENGTHOF(inputs), status);
static const UFieldPositionWithCategory expectedFieldPositions[] = {
// field, begin index, end index
{UFIELD_CATEGORY_LIST_SPAN, 0, 0, 1},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 0, 1},
{UFIELD_CATEGORY_LIST, ULISTFMT_LITERAL_FIELD, 1, 3},
{UFIELD_CATEGORY_LIST_SPAN, 1, 3, 4},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 3, 4},
{UFIELD_CATEGORY_LIST, ULISTFMT_LITERAL_FIELD, 4, 6},
{UFIELD_CATEGORY_LIST_SPAN, 2, 6, 7},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 6, 7},
{UFIELD_CATEGORY_LIST, ULISTFMT_LITERAL_FIELD, 7, 9},
{UFIELD_CATEGORY_LIST_SPAN, 3, 9, 10},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 9, 10},
{UFIELD_CATEGORY_LIST, ULISTFMT_LITERAL_FIELD, 10, 12},
{UFIELD_CATEGORY_LIST_SPAN, 4, 12, 13},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 12, 13},
{UFIELD_CATEGORY_LIST, ULISTFMT_LITERAL_FIELD, 13, 15},
{UFIELD_CATEGORY_LIST_SPAN, 5, 15, 16},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 15, 16},
{UFIELD_CATEGORY_LIST, ULISTFMT_LITERAL_FIELD, 16, 18},
{UFIELD_CATEGORY_LIST_SPAN, 6, 18, 19},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 18, 19},
{UFIELD_CATEGORY_LIST, ULISTFMT_LITERAL_FIELD, 19, 21},
{UFIELD_CATEGORY_LIST_SPAN, 7, 21, 22},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 21, 22},
{UFIELD_CATEGORY_LIST, ULISTFMT_LITERAL_FIELD, 22, 24},
{UFIELD_CATEGORY_LIST_SPAN, 8, 24, 25},
{UFIELD_CATEGORY_LIST, ULISTFMT_ELEMENT_FIELD, 24, 25},
};
checkMixedFormattedValue(
message,
result,
expectedString,
expectedFieldPositions,
UPRV_LENGTHOF(expectedFieldPositions));
}
}
void ListFormatterTest::DoTheRealListStyleTesting(
Locale locale,
UnicodeString items[],
int itemCount,
UListFormatterType type,
UListFormatterWidth width,
const char* expected,
IcuTestErrorCode status) {
LocalPointer<ListFormatter> formatter(
ListFormatter::createInstance(locale, type, width, status));
UnicodeString actualResult;
formatter->format(items, itemCount, actualResult, status);
assertEquals(Int64ToUnicodeString(type) + "-" + Int64ToUnicodeString(width),
UnicodeString(expected), actualResult);
}
void ListFormatterTest::TestDifferentStyles() {
Locale locale("fr");
UnicodeString input[4] = { u"rouge", u"jaune", u"bleu", u"vert" };
IcuTestErrorCode status(*this, "TestDifferentStyles()");
DoTheRealListStyleTesting(locale, input, 4, ULISTFMT_TYPE_AND, ULISTFMT_WIDTH_WIDE, "rouge, jaune, bleu et vert", status);
DoTheRealListStyleTesting(locale, input, 4, ULISTFMT_TYPE_OR, ULISTFMT_WIDTH_WIDE, "rouge, jaune, bleu ou vert", status);
DoTheRealListStyleTesting(locale, input, 4, ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_WIDE, "rouge, jaune, bleu et vert", status);
DoTheRealListStyleTesting(locale, input, 4, ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_NARROW, "rouge jaune bleu vert", status);
DoTheRealListStyleTesting(locale, input, 4, ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_SHORT, "rouge, jaune, bleu et vert", status);
}
void ListFormatterTest::TestCreateStyled() {
IcuTestErrorCode status(*this, "TestCreateStyled");
// Locale en has interesting data
struct TestCase {
const char* locale;
UListFormatterType type;
UListFormatterWidth width;
const char16_t* expected3;
const char16_t* expected2;
const char16_t* expected1;
} cases[] = {
{ "pt", ULISTFMT_TYPE_AND, ULISTFMT_WIDTH_WIDE, u"A, B e C", u"A e B", u"A" },
{ "pt", ULISTFMT_TYPE_AND, ULISTFMT_WIDTH_SHORT, u"A, B e C", u"A e B", u"A" },
{ "pt", ULISTFMT_TYPE_AND, ULISTFMT_WIDTH_NARROW, u"A, B, C", u"A, B", u"A" },
{ "pt", ULISTFMT_TYPE_OR, ULISTFMT_WIDTH_WIDE, u"A, B ou C", u"A ou B", u"A" },
{ "pt", ULISTFMT_TYPE_OR, ULISTFMT_WIDTH_SHORT, u"A, B ou C", u"A ou B", u"A" },
{ "pt", ULISTFMT_TYPE_OR, ULISTFMT_WIDTH_NARROW, u"A, B ou C", u"A ou B", u"A" },
{ "pt", ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_WIDE, u"A, B e C", u"A e B", u"A" },
{ "pt", ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_SHORT, u"A, B e C", u"A e B", u"A" },
{ "pt", ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_NARROW, u"A B C", u"A B", u"A" },
{ "en", ULISTFMT_TYPE_AND, ULISTFMT_WIDTH_WIDE, u"A, B, and C", u"A and B", u"A" },
{ "en", ULISTFMT_TYPE_AND, ULISTFMT_WIDTH_SHORT, u"A, B, & C", u"A & B", u"A" },
{ "en", ULISTFMT_TYPE_AND, ULISTFMT_WIDTH_NARROW, u"A, B, C", u"A, B", u"A" },
{ "en", ULISTFMT_TYPE_OR, ULISTFMT_WIDTH_WIDE, u"A, B, or C", u"A or B", u"A" },
{ "en", ULISTFMT_TYPE_OR, ULISTFMT_WIDTH_SHORT, u"A, B, or C", u"A or B", u"A" },
{ "en", ULISTFMT_TYPE_OR, ULISTFMT_WIDTH_NARROW, u"A, B, or C", u"A or B", u"A" },
{ "en", ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_WIDE, u"A, B, C", u"A, B", u"A" },
{ "en", ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_SHORT, u"A, B, C", u"A, B", u"A" },
{ "en", ULISTFMT_TYPE_UNITS, ULISTFMT_WIDTH_NARROW, u"A B C", u"A B", u"A" },
};
for (auto cas : cases) {
LocalPointer<ListFormatter> fmt(
ListFormatter::createInstance(cas.locale, cas.type, cas.width, status),
status);
if (status.errIfFailureAndReset()) {
continue;
}
UnicodeString message = UnicodeString(u"TestCreateStyled loc=")
+ cas.locale + u" type="
+ Int64ToUnicodeString(cas.type) + u" width="
+ Int64ToUnicodeString(cas.width);
const UnicodeString inputs3[] = {
u"A",
u"B",
u"C"
};
FormattedList result = fmt->formatStringsToValue(inputs3, UPRV_LENGTHOF(inputs3), status);
assertEquals(message, cas.expected3, result.toTempString(status));
const UnicodeString inputs2[] = {
u"A",
u"B"
};
result = fmt->formatStringsToValue(inputs2, UPRV_LENGTHOF(inputs2), status);
assertEquals(message, cas.expected2, result.toTempString(status));
const UnicodeString inputs1[] = {
u"A"
};
result = fmt->formatStringsToValue(inputs1, UPRV_LENGTHOF(inputs1), status);
assertEquals(message, cas.expected1, result.toTempString(status));
}
}
void ListFormatterTest::TestContextual() {
IcuTestErrorCode status(*this, "TestContextual");
std::vector<std::string> es = { "es", "es_419" , "es_PY", "es_DO" };
std::vector<std::string> he = { "he", "he_IL", "iw", "iw_IL" };
UListFormatterWidth widths [] = {
ULISTFMT_WIDTH_WIDE, ULISTFMT_WIDTH_SHORT, ULISTFMT_WIDTH_NARROW
};
struct TestCase {
std::vector<std::string> locales;
UListFormatterType type;
const char16_t* expected;
const char16_t* data1;
const char16_t* data2;
const char16_t* data3;
} cases[] = {
{ es, ULISTFMT_TYPE_AND, u"fascinante e increíblemente",
u"fascinante", u"increíblemente", nullptr },
{ es, ULISTFMT_TYPE_AND, u"Comunicaciones Industriales e IIoT",
u"Comunicaciones Industriales", u"IIoT", nullptr },
{ es, ULISTFMT_TYPE_AND, u"España e Italia", u"España", u"Italia", nullptr },
{ es, ULISTFMT_TYPE_AND, u"hijas intrépidas e hijos solidarios",
u"hijas intrépidas", u"hijos solidarios", nullptr },
{ es, ULISTFMT_TYPE_AND, u"a un hombre e hirieron a otro",
u"a un hombre", u"hirieron a otro", nullptr },
{ es, ULISTFMT_TYPE_AND, u"hija e hijo", u"hija", u"hijo", nullptr },
{ es, ULISTFMT_TYPE_AND, u"esposa, hija e hijo", u"esposa", u"hija", u"hijo" },
// For 'y' exception
{ es, ULISTFMT_TYPE_AND, u"oro y hierro", u"oro", u"hierro", nullptr },
{ es, ULISTFMT_TYPE_AND, u"agua y hielo", u"agua", u"hielo", nullptr },
{ es, ULISTFMT_TYPE_AND, u"colágeno y hialurónico", u"colágeno", u"hialurónico", nullptr },
{ es, ULISTFMT_TYPE_OR, u"desierto u oasis", u"desierto", u"oasis", nullptr },
{ es, ULISTFMT_TYPE_OR, u"oasis, desierto u océano", u"oasis", u"desierto", u"océano" },
{ es, ULISTFMT_TYPE_OR, u"7 u 8", u"7", u"8", nullptr },
{ es, ULISTFMT_TYPE_OR, u"7 u 80", u"7", u"80", nullptr },
{ es, ULISTFMT_TYPE_OR, u"7 u 800", u"7", u"800", nullptr },
{ es, ULISTFMT_TYPE_OR, u"6, 7 u 8", u"6", u"7", u"8" },
{ es, ULISTFMT_TYPE_OR, u"10 u 11", u"10", u"11", nullptr },
{ es, ULISTFMT_TYPE_OR, u"10 o 111", u"10", u"111", nullptr },
{ es, ULISTFMT_TYPE_OR, u"10 o 11.2", u"10", u"11.2", nullptr },
{ es, ULISTFMT_TYPE_OR, u"9, 10 u 11", u"9", u"10", u"11" },
{ he, ULISTFMT_TYPE_AND, u"a, b ו-c", u"a", u"b", u"c" },
{ he, ULISTFMT_TYPE_AND, u"a ו-b", u"a", u"b", nullptr },
{ he, ULISTFMT_TYPE_AND, u"1, 2 ו-3", u"1", u"2", u"3" },
{ he, ULISTFMT_TYPE_AND, u"1 ו-2", u"1", u"2", nullptr },
{ he, ULISTFMT_TYPE_AND, u"אהבה ומקווה", u"אהבה", u"מקווה", nullptr },
{ he, ULISTFMT_TYPE_AND, u"אהבה, מקווה ואמונה", u"אהבה", u"מקווה", u"אמונה" },
};
for (auto width : widths) {
for (auto cas : cases) {
for (auto locale : cas.locales) {
LocalPointer<ListFormatter> fmt(
ListFormatter::createInstance(locale.c_str(), cas.type, width, status),
status);
if (status.errIfFailureAndReset()) {
continue;
}
UnicodeString message = UnicodeString(u"TestContextual loc=")
+ locale.c_str() + u" type="
+ Int64ToUnicodeString(cas.type) + u" width="
+ Int64ToUnicodeString(width);
if (cas.data3 == nullptr) {
const UnicodeString inputs2[] = { cas.data1, cas.data2 };
FormattedList result = fmt->formatStringsToValue(inputs2, UPRV_LENGTHOF(inputs2), status);
assertEquals(message, cas.expected, result.toTempString(status));
} else {
const UnicodeString inputs3[] = { cas.data1, cas.data2, cas.data3 };
FormattedList result = fmt->formatStringsToValue(inputs3, UPRV_LENGTHOF(inputs3), status);
assertEquals(message, cas.expected, result.toTempString(status));
}
}
}
}
}
void ListFormatterTest::TestNextPosition() {
IcuTestErrorCode status(*this, "TestNextPosition");
std::vector<std::string> locales = { "en", "es", "zh", "ja" };
UListFormatterWidth widths [] = {
ULISTFMT_WIDTH_WIDE, ULISTFMT_WIDTH_SHORT, ULISTFMT_WIDTH_NARROW
};
const char* widthStr [] = {"wide", "short", "narrow"};
UListFormatterType types [] = {
ULISTFMT_TYPE_AND, ULISTFMT_TYPE_OR, ULISTFMT_TYPE_UNITS
};
const char* typeStr [] = {"and", "or", "units"};
const UnicodeString inputs[] = { u"A1", u"B2", u"C3", u"D4" };
for (auto width : widths) {
for (auto type : types) {
for (auto locale : locales) {
LocalPointer<ListFormatter> fmt(
ListFormatter::createInstance(locale.c_str(), type, width, status),
status);
if (status.errIfFailureAndReset()) {
continue;
}
for (int32_t n = 1; n <= UPRV_LENGTHOF(inputs); n++) {
FormattedList result = fmt->formatStringsToValue(
inputs, n, status);
int32_t elements = 0;
icu::ConstrainedFieldPosition cfpos;
cfpos.constrainCategory(UFIELD_CATEGORY_LIST);
while (result.nextPosition(cfpos, status) && U_SUCCESS(status)) {
if (cfpos.getField() == ULISTFMT_ELEMENT_FIELD) {
elements++;
}
}
std::string msg = locale;
// Test that if there are n elements (n=1..4) in the input, then the
// nextPosition() should iterate through exactly n times
// with field == ULISTFMT_ELEMENT_FIELD.
assertEquals((msg
.append(" w=").append(widthStr[width])
.append(" t=").append(typeStr[type])).c_str(),
n, elements);
}
}
}
}
}
void ListFormatterTest::TestInt32Overflow() {
if (quick) {
return;
}
IcuTestErrorCode status(*this, "TestInt32Overflow");
LocalPointer<ListFormatter> fmt(ListFormatter::createInstance("en", status), status);
std::vector<UnicodeString> inputs;
UnicodeString input(0xAAAFF00, 0x00000042, 0xAAAFF00);
for (int32_t i = 0; i < 16; i++) {
inputs.push_back(input);
}
FormattedList result = fmt->formatStringsToValue(
inputs.data(), static_cast<int32_t>(inputs.size()), status);
status.expectErrorAndReset(U_INPUT_TOO_LONG_ERROR);
}
#endif /* #if !UCONFIG_NO_FORMATTING */