icu4c/source/test/cintltst/uformattedvaluetst.c - external/github.com/unicode-org/icu - Git at Google

 // © 2018 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 "unicode/uformattedvalue.h"
 #include "unicode/unum.h"
 #include "unicode/ustring.h"
 #include "cformtst.h"
 #include "cintltst.h"
 #include "cmemory.h"
 #include "cstring.h"
 #include "uassert.h"

 static void TestBasic(void);
 static void TestSetters(void);

 static void AssertAllPartsEqual(
     const char* messagePrefix,
     const UConstrainedFieldPosition* ucfpos,
     int32_t matching,
     UFieldCategory category,
     int32_t field,
     int32_t start,
     int32_t limit,
     int64_t context);

 void addUFormattedValueTest(TestNode** root);

 #define TESTCASE(x) addTest(root, &x, "tsformat/uformattedvalue/" #x)

 void addUFormattedValueTest(TestNode** root) {
     TESTCASE(TestBasic);
     TESTCASE(TestSetters);
 }


 static void TestBasic() {
     UErrorCode status = U_ZERO_ERROR;
     UConstrainedFieldPosition* ucfpos = ucfpos_open(&status);
     assertSuccess("opening ucfpos", &status);
     assertTrue("ucfpos should not be null", ucfpos != NULL);

     AssertAllPartsEqual(
         "basic",
         ucfpos,
         7,
         UFIELD_CATEGORY_UNDEFINED,
         0,
         0,
         0,
         0LL);

     ucfpos_close(ucfpos);
 }

 void TestSetters() {
     UErrorCode status = U_ZERO_ERROR;
     UConstrainedFieldPosition* ucfpos = ucfpos_open(&status);
     assertSuccess("opening ucfpos", &status);
     assertTrue("ucfpos should not be null", ucfpos != NULL);

     ucfpos_constrainCategory(ucfpos, UFIELD_CATEGORY_DATE, &status);
     assertSuccess("setters 0", &status);
     AssertAllPartsEqual(
         "setters 0",
         ucfpos,
         4,
         UFIELD_CATEGORY_DATE,
         0,
         0,
         0,
         0LL);

     ucfpos_constrainField(ucfpos, UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD, &status);
     assertSuccess("setters 1", &status);
     AssertAllPartsEqual(
         "setters 1",
         ucfpos,
         2,
         UFIELD_CATEGORY_NUMBER,
         UNUM_COMPACT_FIELD,
         0,
         0,
         0LL);

     ucfpos_setInt64IterationContext(ucfpos, 42424242424242LL, &status);
     assertSuccess("setters 2", &status);
     AssertAllPartsEqual(
         "setters 2",
         ucfpos,
         2,
         UFIELD_CATEGORY_NUMBER,
         UNUM_COMPACT_FIELD,
         0,
         0,
         42424242424242LL);

     ucfpos_setState(ucfpos, UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD, 5, 10, &status);
     assertSuccess("setters 3", &status);
     AssertAllPartsEqual(
         "setters 3",
         ucfpos,
         2,
         UFIELD_CATEGORY_NUMBER,
         UNUM_COMPACT_FIELD,
         5,
         10,
         42424242424242LL);

     ucfpos_reset(ucfpos, &status);
     assertSuccess("setters 4", &status);
     AssertAllPartsEqual(
         "setters 4",
         ucfpos,
         7,
         UFIELD_CATEGORY_UNDEFINED,
         0,
         0,
         0,
         0LL);

     ucfpos_close(ucfpos);
 }

 /** For matching, turn on these bits:
  *
  * 1 = UNUM_INTEGER_FIELD
  * 2 = UNUM_COMPACT_FIELD
  * 4 = UDAT_AM_PM_FIELD
  */
 static void AssertAllPartsEqual(
         const char* messagePrefix,
         const UConstrainedFieldPosition* ucfpos,
         int32_t matching,
         UFieldCategory category,
         int32_t field,
         int32_t start,
         int32_t limit,
         int64_t context) {

     UErrorCode status = U_ZERO_ERROR;

     char message[256];
     uprv_strncpy(message, messagePrefix, 256);
     int32_t prefixEnd = (int32_t)uprv_strlen(messagePrefix);
     message[prefixEnd++] = ':';
     message[prefixEnd++] = ' ';
     U_ASSERT(prefixEnd < 256);

 #define AAPE_MSG(suffix) (uprv_strncpy(message+prefixEnd, suffix, 256-prefixEnd)-prefixEnd)

     UFieldCategory _category = ucfpos_getCategory(ucfpos, &status);
     assertSuccess(AAPE_MSG("_"), &status);
     assertIntEquals(AAPE_MSG("category"), category, _category);

     int32_t _field = ucfpos_getField(ucfpos, &status);
     assertSuccess(AAPE_MSG("field"), &status);
     assertIntEquals(AAPE_MSG("field"), field, _field);

     int32_t _start, _limit;
     ucfpos_getIndexes(ucfpos, &_start, &_limit, &status);
     assertSuccess(AAPE_MSG("indexes"), &status);
     assertIntEquals(AAPE_MSG("start"), start, _start);
     assertIntEquals(AAPE_MSG("limit"), limit, _limit);

     int64_t _context = ucfpos_getInt64IterationContext(ucfpos, &status);
     assertSuccess(AAPE_MSG("context"), &status);
     assertIntEquals(AAPE_MSG("context"), context, _context);

     UBool _matchesInteger = ucfpos_matchesField(ucfpos, UFIELD_CATEGORY_NUMBER, UNUM_INTEGER_FIELD, &status);
     assertSuccess(AAPE_MSG("integer field"), &status);
     assertTrue(AAPE_MSG("integer field"),
         ((matching & 1) != 0) ? _matchesInteger : !_matchesInteger);

     UBool _matchesCompact = ucfpos_matchesField(ucfpos, UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD, &status);
     assertSuccess(AAPE_MSG("compact field"), &status);
     assertTrue(AAPE_MSG("compact field"),
         ((matching & 2) != 0) ? _matchesCompact : !_matchesCompact);

     UBool _matchesDate = ucfpos_matchesField(ucfpos, UFIELD_CATEGORY_DATE, UDAT_AM_PM_FIELD, &status);
     assertSuccess(AAPE_MSG("date field"), &status);
     assertTrue(AAPE_MSG("date field"),
         ((matching & 4) != 0) ? _matchesDate : !_matchesDate);
 }


 static void checkFormattedValueString(
         const char* message,
         const UFormattedValue* fv,
         const UChar* expectedString,
         UErrorCode* ec) {
     int32_t length;
     const UChar* actualString = ufmtval_getString(fv, &length, ec);
     assertSuccess(message, ec);
     // The string is guaranteed to be NUL-terminated.
     int32_t actualLength = u_strlen(actualString);
     assertIntEquals(message, actualLength, length);
     assertUEquals(message, expectedString, actualString);
 }

 // Declared in cformtst.h
 void checkFormattedValue(
         const char* message,
         const UFormattedValue* fv,
         const UChar* expectedString,
         UFieldCategory expectedCategory,
         const UFieldPosition* expectedFieldPositions,
         int32_t expectedFieldPositionsLength) {
     UErrorCode ec = U_ZERO_ERROR;
     checkFormattedValueString(message, fv, expectedString, &ec);
     if (U_FAILURE(ec)) { return; }

     // Basic loop over the fields (more rigorous testing in C++)
     UConstrainedFieldPosition* ucfpos = ucfpos_open(&ec);
     int32_t i = 0;
     while (ufmtval_nextPosition(fv, ucfpos, &ec)) {
         assertIntEquals("category",
             expectedCategory, ucfpos_getCategory(ucfpos, &ec));
         assertIntEquals("field",
             expectedFieldPositions[i].field, ucfpos_getField(ucfpos, &ec));
         int32_t start, limit;
         ucfpos_getIndexes(ucfpos, &start, &limit, &ec);
         assertIntEquals("start",
             expectedFieldPositions[i].beginIndex, start);
         assertIntEquals("limit",
             expectedFieldPositions[i].endIndex, limit);
         i++;
     }
     assertTrue("After loop", !ufmtval_nextPosition(fv, ucfpos, &ec));
     assertSuccess("After loop", &ec);
     ucfpos_close(ucfpos);
 }

 void checkMixedFormattedValue(
         const char* message,
         const UFormattedValue* fv,
         const UChar* expectedString,
         const UFieldPositionWithCategory* expectedFieldPositions,
         int32_t length) {
     UErrorCode ec = U_ZERO_ERROR;
     checkFormattedValueString(message, fv, expectedString, &ec);
     if (U_FAILURE(ec)) { return; }

     // Basic loop over the fields (more rigorous testing in C++)
     UConstrainedFieldPosition* ucfpos = ucfpos_open(&ec);
     int32_t i = 0;
     while (ufmtval_nextPosition(fv, ucfpos, &ec)) {
         assertIntEquals("category",
             expectedFieldPositions[i].category, ucfpos_getCategory(ucfpos, &ec));
         assertIntEquals("field",
             expectedFieldPositions[i].field, ucfpos_getField(ucfpos, &ec));
         int32_t start, limit;
         ucfpos_getIndexes(ucfpos, &start, &limit, &ec);
         assertIntEquals("start",
             expectedFieldPositions[i].beginIndex, start);
         assertIntEquals("limit",
             expectedFieldPositions[i].endIndex, limit);
         i++;
     }
     assertTrue("After loop", !ufmtval_nextPosition(fv, ucfpos, &ec));
     assertSuccess("After loop", &ec);
     ucfpos_close(ucfpos);
 }


 #endif /* #if !UCONFIG_NO_FORMATTING */
	// © 2018 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 "unicode/uformattedvalue.h"
	#include "unicode/unum.h"
	#include "unicode/ustring.h"
	#include "cformtst.h"
	#include "cintltst.h"
	#include "cmemory.h"
	#include "cstring.h"
	#include "uassert.h"

	static void TestBasic(void);
	static void TestSetters(void);

	static void AssertAllPartsEqual(
	const char* messagePrefix,
	const UConstrainedFieldPosition* ucfpos,
	int32_t matching,
	UFieldCategory category,
	int32_t field,
	int32_t start,
	int32_t limit,
	int64_t context);

	void addUFormattedValueTest(TestNode** root);

	#define TESTCASE(x) addTest(root, &x, "tsformat/uformattedvalue/" #x)

	void addUFormattedValueTest(TestNode** root) {
	TESTCASE(TestBasic);
	TESTCASE(TestSetters);
	}


	static void TestBasic() {
	UErrorCode status = U_ZERO_ERROR;
	UConstrainedFieldPosition* ucfpos = ucfpos_open(&status);
	assertSuccess("opening ucfpos", &status);
	assertTrue("ucfpos should not be null", ucfpos != NULL);

	AssertAllPartsEqual(
	"basic",
	ucfpos,
	7,
	UFIELD_CATEGORY_UNDEFINED,
	0,
	0,
	0,
	0LL);

	ucfpos_close(ucfpos);
	}

	void TestSetters() {
	UErrorCode status = U_ZERO_ERROR;
	UConstrainedFieldPosition* ucfpos = ucfpos_open(&status);
	assertSuccess("opening ucfpos", &status);
	assertTrue("ucfpos should not be null", ucfpos != NULL);

	ucfpos_constrainCategory(ucfpos, UFIELD_CATEGORY_DATE, &status);
	assertSuccess("setters 0", &status);
	AssertAllPartsEqual(
	"setters 0",
	ucfpos,
	4,
	UFIELD_CATEGORY_DATE,
	0,
	0,
	0,
	0LL);

	ucfpos_constrainField(ucfpos, UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD, &status);
	assertSuccess("setters 1", &status);
	AssertAllPartsEqual(
	"setters 1",
	ucfpos,
	2,
	UFIELD_CATEGORY_NUMBER,
	UNUM_COMPACT_FIELD,
	0,
	0,
	0LL);

	ucfpos_setInt64IterationContext(ucfpos, 42424242424242LL, &status);
	assertSuccess("setters 2", &status);
	AssertAllPartsEqual(
	"setters 2",
	ucfpos,
	2,
	UFIELD_CATEGORY_NUMBER,
	UNUM_COMPACT_FIELD,
	0,
	0,
	42424242424242LL);

	ucfpos_setState(ucfpos, UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD, 5, 10, &status);
	assertSuccess("setters 3", &status);
	AssertAllPartsEqual(
	"setters 3",
	ucfpos,
	2,
	UFIELD_CATEGORY_NUMBER,
	UNUM_COMPACT_FIELD,
	5,
	10,
	42424242424242LL);

	ucfpos_reset(ucfpos, &status);
	assertSuccess("setters 4", &status);
	AssertAllPartsEqual(
	"setters 4",
	ucfpos,
	7,
	UFIELD_CATEGORY_UNDEFINED,
	0,
	0,
	0,
	0LL);

	ucfpos_close(ucfpos);
	}

	/** For matching, turn on these bits:
	*
	* 1 = UNUM_INTEGER_FIELD
	* 2 = UNUM_COMPACT_FIELD
	* 4 = UDAT_AM_PM_FIELD
	*/
	static void AssertAllPartsEqual(
	const char* messagePrefix,
	const UConstrainedFieldPosition* ucfpos,
	int32_t matching,
	UFieldCategory category,
	int32_t field,
	int32_t start,
	int32_t limit,
	int64_t context) {

	UErrorCode status = U_ZERO_ERROR;

	char message[256];
	uprv_strncpy(message, messagePrefix, 256);
	int32_t prefixEnd = (int32_t)uprv_strlen(messagePrefix);
	message[prefixEnd++] = ':';
	message[prefixEnd++] = ' ';
	U_ASSERT(prefixEnd < 256);

	#define AAPE_MSG(suffix) (uprv_strncpy(message+prefixEnd, suffix, 256-prefixEnd)-prefixEnd)

	UFieldCategory _category = ucfpos_getCategory(ucfpos, &status);
	assertSuccess(AAPE_MSG("_"), &status);
	assertIntEquals(AAPE_MSG("category"), category, _category);

	int32_t _field = ucfpos_getField(ucfpos, &status);
	assertSuccess(AAPE_MSG("field"), &status);
	assertIntEquals(AAPE_MSG("field"), field, _field);

	int32_t _start, _limit;
	ucfpos_getIndexes(ucfpos, &_start, &_limit, &status);
	assertSuccess(AAPE_MSG("indexes"), &status);
	assertIntEquals(AAPE_MSG("start"), start, _start);
	assertIntEquals(AAPE_MSG("limit"), limit, _limit);

	int64_t _context = ucfpos_getInt64IterationContext(ucfpos, &status);
	assertSuccess(AAPE_MSG("context"), &status);
	assertIntEquals(AAPE_MSG("context"), context, _context);

	UBool _matchesInteger = ucfpos_matchesField(ucfpos, UFIELD_CATEGORY_NUMBER, UNUM_INTEGER_FIELD, &status);
	assertSuccess(AAPE_MSG("integer field"), &status);
	assertTrue(AAPE_MSG("integer field"),
	((matching & 1) != 0) ? _matchesInteger : !_matchesInteger);

	UBool _matchesCompact = ucfpos_matchesField(ucfpos, UFIELD_CATEGORY_NUMBER, UNUM_COMPACT_FIELD, &status);
	assertSuccess(AAPE_MSG("compact field"), &status);
	assertTrue(AAPE_MSG("compact field"),
	((matching & 2) != 0) ? _matchesCompact : !_matchesCompact);

	UBool _matchesDate = ucfpos_matchesField(ucfpos, UFIELD_CATEGORY_DATE, UDAT_AM_PM_FIELD, &status);
	assertSuccess(AAPE_MSG("date field"), &status);
	assertTrue(AAPE_MSG("date field"),
	((matching & 4) != 0) ? _matchesDate : !_matchesDate);
	}


	static void checkFormattedValueString(
	const char* message,
	const UFormattedValue* fv,
	const UChar* expectedString,
	UErrorCode* ec) {
	int32_t length;
	const UChar* actualString = ufmtval_getString(fv, &length, ec);
	assertSuccess(message, ec);
	// The string is guaranteed to be NUL-terminated.
	int32_t actualLength = u_strlen(actualString);
	assertIntEquals(message, actualLength, length);
	assertUEquals(message, expectedString, actualString);
	}

	// Declared in cformtst.h
	void checkFormattedValue(
	const char* message,
	const UFormattedValue* fv,
	const UChar* expectedString,
	UFieldCategory expectedCategory,
	const UFieldPosition* expectedFieldPositions,
	int32_t expectedFieldPositionsLength) {
	UErrorCode ec = U_ZERO_ERROR;
	checkFormattedValueString(message, fv, expectedString, &ec);
	if (U_FAILURE(ec)) { return; }

	// Basic loop over the fields (more rigorous testing in C++)
	UConstrainedFieldPosition* ucfpos = ucfpos_open(&ec);
	int32_t i = 0;
	while (ufmtval_nextPosition(fv, ucfpos, &ec)) {
	assertIntEquals("category",
	expectedCategory, ucfpos_getCategory(ucfpos, &ec));
	assertIntEquals("field",
	expectedFieldPositions[i].field, ucfpos_getField(ucfpos, &ec));
	int32_t start, limit;
	ucfpos_getIndexes(ucfpos, &start, &limit, &ec);
	assertIntEquals("start",
	expectedFieldPositions[i].beginIndex, start);
	assertIntEquals("limit",
	expectedFieldPositions[i].endIndex, limit);
	i++;
	}
	assertTrue("After loop", !ufmtval_nextPosition(fv, ucfpos, &ec));
	assertSuccess("After loop", &ec);
	ucfpos_close(ucfpos);
	}

	void checkMixedFormattedValue(
	const char* message,
	const UFormattedValue* fv,
	const UChar* expectedString,
	const UFieldPositionWithCategory* expectedFieldPositions,
	int32_t length) {
	UErrorCode ec = U_ZERO_ERROR;
	checkFormattedValueString(message, fv, expectedString, &ec);
	if (U_FAILURE(ec)) { return; }

	// Basic loop over the fields (more rigorous testing in C++)
	UConstrainedFieldPosition* ucfpos = ucfpos_open(&ec);
	int32_t i = 0;
	while (ufmtval_nextPosition(fv, ucfpos, &ec)) {
	assertIntEquals("category",
	expectedFieldPositions[i].category, ucfpos_getCategory(ucfpos, &ec));
	assertIntEquals("field",
	expectedFieldPositions[i].field, ucfpos_getField(ucfpos, &ec));
	int32_t start, limit;
	ucfpos_getIndexes(ucfpos, &start, &limit, &ec);
	assertIntEquals("start",
	expectedFieldPositions[i].beginIndex, start);
	assertIntEquals("limit",
	expectedFieldPositions[i].endIndex, limit);
	i++;
	}
	assertTrue("After loop", !ufmtval_nextPosition(fv, ucfpos, &ec));
	assertSuccess("After loop", &ec);
	ucfpos_close(ucfpos);
	}


	#endif /* #if !UCONFIG_NO_FORMATTING */