src/third_party/icu/source/test/cintltst/tracetst.c - cobalt - Git at Google

 /********************************************************************
  * COPYRIGHT:
  * Copyright (c) 2003-2013, International Business Machines Corporation and
  * others. All Rights Reserved.
  ********************************************************************/
 /*
  * File tracetst.c
  *
  */


 #include "unicode/utypes.h"
 #include "unicode/utrace.h"
 #include "unicode/uclean.h"
 #include "unicode/uchar.h"
 #include "unicode/ures.h"
 #include "unicode/ucnv.h"
 #include "cintltst.h"
 #include <stdlib.h>
 #include <stdio.h>
 #include <string.h>

 /* We define the following to always test tracing, even when it's off in the library. */
 #if U_ENABLE_TRACING
 #define ENABLE_TRACING_ORIG_VAL 1
 #else
 #define ENABLE_TRACING_ORIG_VAL 0
 #endif
 #undef U_ENABLE_TRACING
 #define U_ENABLE_TRACING 1
 #include "utracimp.h"


 static void TestTraceAPI(void);


 void
 addUTraceTest(TestNode** root);

 void
 addUTraceTest(TestNode** root)
 {
     addTest(root, &TestTraceAPI,            "tsutil/TraceTest/TestTraceAPI"  );
 }


 /*
  * Macro for assert style tests.
  */
 #define TEST_ASSERT(expr) \
 if (!(expr)) { \
     log_err("FAILED Assertion \"" #expr "\" at  %s:%d.\n", __FILE__, __LINE__); \
 }


 /*
  *  test_format.   Helper function for checking the results of a formatting
  *                 operation.  Executes the format op and compares actual
  *                 results with the expected results.
  *
  *       params:   format:  the format to be applied.
  *                 bufCap   buffer size to pass to formatter.
  *                 indent:  indent value to give to formatter
  *                 result   expected result.  Do not truncate for short bufCap -
  *                          this function will do it.
  *                 line     __LINE__, so we can report where failure happened.
  *                 ...      variable args to pass to formatter
  *
  */
 static void test_format(const char *format, int32_t bufCap, int32_t indent,
                         const char *result, int32_t line, ...) {
     int32_t  len;
     va_list  args;
     char  buf[300];
     char  expectedResult[300];

     /* check that local buffers are big enough for the test case */
     if (sizeof(buf) <= bufCap) {
         log_err("At file:line %s:%d, requested bufCap too large.\n");
         return;
     }
     if (strlen(result) >= sizeof(expectedResult)) {
         log_err("At file:line %s:%d, expected result too large.\n");
         return;
     }

    /* Guarantee a nul term if buffer is smaller than output */
     strcpy(expectedResult, result);
     expectedResult[bufCap] = 0;

     /* run the formatter */
     va_start(args, line);
     memset(buf, 0, sizeof(buf));
     len = utrace_vformat(buf, bufCap, indent, format, args);
     (void)len;    /* Suppress set but not used warning. */

     /* Check results.   */
     if (strcmp(expectedResult, buf) != 0) {
         log_err("At file:line %s:%d  Expected \"%s\", got \"%s\"  \n",
              __FILE__, line, expectedResult, buf);
     }
     va_end(args);
 }


 /*
  *  define trace functions for use in this test.
  */
 static int    gTraceEntryCount;
 static int    gTraceExitCount;
 static int    gTraceDataCount;
 static UBool  gFnNameError   = FALSE;
 static UBool  gFnFormatError = FALSE;

 static void U_CALLCONV testTraceEntry(const void *context, int32_t fnNumber) {
     const char *fnName;
     const char *bogusFnName;

     gTraceEntryCount++;

     /* Verify that a name is available for the fnNumber passed to us */
     bogusFnName = utrace_functionName(-1);
     fnName = utrace_functionName(fnNumber);
     if (strcmp(fnName, bogusFnName) == 0) {
         gFnNameError = TRUE;
     }
     /* printf("%s() Enter\n", fnName); */

 }

 static void U_CALLCONV testTraceExit(const void *context, int32_t fnNumber,
                    const char *fmt, va_list args) {
     char        buf[1000];
     const char *fnName;
     const char *bogusFnName;

     gTraceExitCount++;

     /* Verify that a name is available for the fnNumber passed to us */
     bogusFnName = utrace_functionName(-1);
     fnName = utrace_functionName(fnNumber);
     if (strcmp(fnName, bogusFnName) == 0) {
         gFnNameError = TRUE;
     }

     /* Verify that the format can be used.  */
     buf[0] = 0;
     utrace_vformat(buf, sizeof(buf), 0, fmt, args);
     if (strlen(buf) == 0) {
         gFnFormatError = TRUE;
     }

     /* printf("%s() %s\n", fnName, buf); */

 }

 static void U_CALLCONV testTraceData(const void *context, int32_t fnNumber, int32_t level,
                    const char *fmt, va_list args) {
     char        buf[1000];
     const char *fnName;
     const char *bogusFnName;

     gTraceDataCount++;

     /* Verify that a name is available for the fnNumber passed to us */
     bogusFnName = utrace_functionName(-1);
     fnName = utrace_functionName(fnNumber);
     if (strcmp(fnName, bogusFnName) == 0) {
         gFnNameError = TRUE;
     }

     /* Verify that the format can be used.  */
     buf[0] = 0;
     utrace_vformat(buf, sizeof(buf), 0, fmt, args);
     if (strlen(buf) == 0) {
         gFnFormatError = TRUE;
     }

     /* printf("  %s()   %s\n", fnName, buf); */
 }

 static UConverter * psuedo_ucnv_open(const char *name, UErrorCode * err)
 {
     UTRACE_ENTRY_OC(UTRACE_UCNV_LOAD);

     UTRACE_DATA2(UTRACE_OPEN_CLOSE, "error code is %s for %s", u_errorName(*err), name);

     UTRACE_EXIT_PTR_STATUS(NULL, *err);
     return NULL;
 }
 static void psuedo_ucnv_close(UConverter * cnv)
 {
     UTRACE_ENTRY_OC(UTRACE_UCNV_UNLOAD);
     UTRACE_DATA1(UTRACE_OPEN_CLOSE, "unload converter %p", cnv);
     UTRACE_EXIT_VALUE((int32_t)TRUE);
 }


 /*
  *   TestTraceAPI
  */
 static void TestTraceAPI() {


     UTraceEntry   *originalTEntryFunc;
     UTraceExit    *originalTExitFunc;
     UTraceData    *originalTDataFunc;
     const void    *originalTContext;
     int32_t        originalLevel;

     /*
      * Save the original tracing state so that we can restore it after the test.
      */
     utrace_getFunctions(&originalTContext, &originalTEntryFunc, &originalTExitFunc,
                         &originalTDataFunc);
     originalLevel = utrace_getLevel();


     /* verify that set/get of tracing functions returns what was set.  */
     {
         UTraceEntry *e;
         UTraceExit  *x;
         UTraceData  *d;
         const void  *context;
         const void  *newContext = (const char *)originalTContext + 1;

         TEST_ASSERT(originalTEntryFunc != testTraceEntry);
         TEST_ASSERT(originalTExitFunc != testTraceExit);
         TEST_ASSERT(originalTDataFunc != testTraceData);

         utrace_setFunctions(newContext, testTraceEntry, testTraceExit, testTraceData);
         utrace_getFunctions(&context, &e, &x, &d);
         TEST_ASSERT(e == testTraceEntry);
         TEST_ASSERT(x == testTraceExit);
         TEST_ASSERT(d == testTraceData);
         TEST_ASSERT(context == newContext);
     }

     /* verify that set/get level work as a pair, and that the level
      * identifiers all exist.
      */

     {
         int32_t  level;

         utrace_setLevel(UTRACE_OFF);
         level = utrace_getLevel();
         TEST_ASSERT(level==UTRACE_OFF);
         utrace_setLevel(UTRACE_VERBOSE);
         level = utrace_getLevel();
         TEST_ASSERT(level==UTRACE_VERBOSE);
         utrace_setLevel(UTRACE_ERROR);
         utrace_setLevel(UTRACE_WARNING);
         utrace_setLevel(UTRACE_OPEN_CLOSE);
         utrace_setLevel(UTRACE_INFO);
     }

     /*
      * Open and close a converter with tracing enabled.
      *   Verify that our tracing callback functions get called.
      */
     {
         UErrorCode  status = U_ZERO_ERROR;
         UConverter *cnv;

         gTraceEntryCount = 0;
         gTraceExitCount  = 0;
         gTraceDataCount  = 0;
         gFnNameError     = FALSE;
         gFnFormatError   = FALSE;
         utrace_setLevel(UTRACE_OPEN_CLOSE);
 #if ENABLE_TRACING_ORIG_VAL
         cnv = ucnv_open(NULL, &status);
         TEST_ASSERT(U_SUCCESS(status));
         ucnv_close(cnv);
 #else
         cnv = psuedo_ucnv_open(NULL, &status);
         TEST_ASSERT(U_SUCCESS(status));
         psuedo_ucnv_close(cnv);
 #endif
         TEST_ASSERT(gTraceEntryCount > 0);
         TEST_ASSERT(gTraceExitCount  > 0);
         TEST_ASSERT(gTraceDataCount  > 0);
         TEST_ASSERT(gFnNameError   == FALSE);
         TEST_ASSERT(gFnFormatError == FALSE);
     }


     /*
      * trace data formatter operation.
      */
     {
         UChar s1[] = {0x41fe, 0x42, 0x43, 00};
         const char  *a1[] = {"s1", "s2", "s3"};
         void  *ptr;

         test_format("hello, world", 50, 0, "hello, world", __LINE__);
         test_format("hello, world", 50, 4, "    hello, world", __LINE__);
         test_format("hello, world", 3, 0,  "hello, world", __LINE__);

         test_format("a character %c", 50, 0, "a character x", __LINE__, 'x');
         test_format("a string %s ", 50, 0, "a string hello ", __LINE__, "hello");
         test_format("uchars %S ", 50, 0, "uchars 41fe 0042 0043 0000  ", __LINE__, s1, -1);
         test_format("uchars %S ", 50, 0, "uchars 41fe 0042  ", __LINE__, s1, 2);

         test_format("a byte %b--", 50, 0, "a byte dd--", __LINE__, 0xdd);
         test_format("a 16 bit val %h", 50, 0, "a 16 bit val 1234", __LINE__, 0x1234);
         test_format("a 32 bit val %d...", 50, 0, "a 32 bit val 6789abcd...", __LINE__, 0x6789abcd);
         test_format("a 64 bit val %l", 50, 0, "a 64 bit val 123456780abcdef0"
             , __LINE__, INT64_C(0x123456780abcdef0));

         if (sizeof(void *) == 4) {
             ptr = (void *)0xdeadbeef;
             test_format("a 32 bit ptr %p", 50, 0, "a 32 bit ptr deadbeef", __LINE__, ptr);
         } else if (sizeof(void *) == 8) {
             ptr = (void *) INT64_C(0x1000200030004000);
             test_format("a 64 bit ptr %p", 50, 0, "a 64 bit ptr 1000200030004000", __LINE__, ptr);
         } else if (sizeof(void *) == 16) {
             /* iSeries */
             union {
                 int32_t arr[4];
                 void *ptr;
             } massiveBigEndianPtr = {{ 0x10002000, 0x30004000, 0x50006000, 0x70008000 }};
             ptr = massiveBigEndianPtr.ptr;
             test_format("a 128 bit ptr %p", 50, 0, "a 128 bit ptr 10002000300040005000600070008000", __LINE__, ptr);
         } else {
             TEST_ASSERT(FALSE);
             /*  TODO:  others? */
         }

         test_format("%vc", 100, 0, "abc[ffffffff]", __LINE__, "abc", -1);
         test_format("%vs", 100, 0, "s1\ns2\n[00000002]", __LINE__, a1, 2);
         test_format("%vs", 100, 4, "    s1\n    s2\n    [00000002]", __LINE__, a1, 2);

         test_format("%vb", 100, 0, "41 42 43 [00000003]", __LINE__, "\x41\x42\x43", 3);

         /* Null ptrs for strings, vectors  */
         test_format("Null string - %s", 50, 0, "Null string - *NULL*", __LINE__, NULL);
         test_format("Null string - %S", 50, 0, "Null string - *NULL*", __LINE__, NULL);
         test_format("Null vector - %vc", 50, 0, "Null vector - *NULL* [00000002]", __LINE__, NULL, 2);
         test_format("Null vector - %vC", 50, 0, "Null vector - *NULL* [00000002]", __LINE__, NULL, 2);
         test_format("Null vector - %vd", 50, 0, "Null vector - *NULL* [00000002]", __LINE__, NULL, 2);

     }

     /*
      * utrace_format.  Only need a minimal test to see that the function works at all.
      *                 Full functionality is tested via utrace_vformat.
      */
     {
         char      buf[100];
         int32_t   x;
         x = utrace_format(buf, 100, 0, "%s", "Hello, World.");
         TEST_ASSERT(strcmp(buf, "Hello, World.") == 0);
         TEST_ASSERT(x == 14);
     }

     /*
      * utrace_functionName.  Just spot-check a couple of them.
      */
     {
         const char   *name;
         name = utrace_functionName(UTRACE_U_INIT);
         TEST_ASSERT(strcmp(name, "u_init") == 0);
         name = utrace_functionName(UTRACE_UCNV_OPEN);
         TEST_ASSERT(strcmp(name, "ucnv_open") == 0);
         name = utrace_functionName(UTRACE_UCOL_GET_SORTKEY);
         TEST_ASSERT(strcmp(name, "ucol_getSortKey") == 0);
     }


     /*  Restore the trace function settings to their original values. */
     utrace_setFunctions(originalTContext, originalTEntryFunc, originalTExitFunc, originalTDataFunc);
     utrace_setLevel(originalLevel);
 }
	/********************************************************************
	* COPYRIGHT:
	* Copyright (c) 2003-2013, International Business Machines Corporation and
	* others. All Rights Reserved.
	********************************************************************/
	/*
	* File tracetst.c
	*
	*/


	#include "unicode/utypes.h"
	#include "unicode/utrace.h"
	#include "unicode/uclean.h"
	#include "unicode/uchar.h"
	#include "unicode/ures.h"
	#include "unicode/ucnv.h"
	#include "cintltst.h"
	#include <stdlib.h>
	#include <stdio.h>
	#include <string.h>

	/* We define the following to always test tracing, even when it's off in the library. */
	#if U_ENABLE_TRACING
	#define ENABLE_TRACING_ORIG_VAL 1
	#else
	#define ENABLE_TRACING_ORIG_VAL 0
	#endif
	#undef U_ENABLE_TRACING
	#define U_ENABLE_TRACING 1
	#include "utracimp.h"


	static void TestTraceAPI(void);


	void
	addUTraceTest(TestNode** root);

	void
	addUTraceTest(TestNode** root)
	{
	addTest(root, &TestTraceAPI, "tsutil/TraceTest/TestTraceAPI" );
	}


	/*
	* Macro for assert style tests.
	*/
	#define TEST_ASSERT(expr) \
	if (!(expr)) { \
	log_err("FAILED Assertion \"" #expr "\" at %s:%d.\n", __FILE__, __LINE__); \
	}


	/*
	* test_format. Helper function for checking the results of a formatting
	* operation. Executes the format op and compares actual
	* results with the expected results.
	*
	* params: format: the format to be applied.
	* bufCap buffer size to pass to formatter.
	* indent: indent value to give to formatter
	* result expected result. Do not truncate for short bufCap -
	* this function will do it.
	* line __LINE__, so we can report where failure happened.
	* ... variable args to pass to formatter
	*
	*/
	static void test_format(const char *format, int32_t bufCap, int32_t indent,
	const char *result, int32_t line, ...) {
	int32_t len;
	va_list args;
	char buf[300];
	char expectedResult[300];

	/* check that local buffers are big enough for the test case */
	if (sizeof(buf) <= bufCap) {
	log_err("At file:line %s:%d, requested bufCap too large.\n");
	return;
	}
	if (strlen(result) >= sizeof(expectedResult)) {
	log_err("At file:line %s:%d, expected result too large.\n");
	return;
	}

	/* Guarantee a nul term if buffer is smaller than output */
	strcpy(expectedResult, result);
	expectedResult[bufCap] = 0;

	/* run the formatter */
	va_start(args, line);
	memset(buf, 0, sizeof(buf));
	len = utrace_vformat(buf, bufCap, indent, format, args);
	(void)len; /* Suppress set but not used warning. */

	/* Check results. */
	if (strcmp(expectedResult, buf) != 0) {
	log_err("At file:line %s:%d Expected \"%s\", got \"%s\" \n",
	__FILE__, line, expectedResult, buf);
	}
	va_end(args);
	}


	/*
	* define trace functions for use in this test.
	*/
	static int gTraceEntryCount;
	static int gTraceExitCount;
	static int gTraceDataCount;
	static UBool gFnNameError = FALSE;
	static UBool gFnFormatError = FALSE;

	static void U_CALLCONV testTraceEntry(const void *context, int32_t fnNumber) {
	const char *fnName;
	const char *bogusFnName;

	gTraceEntryCount++;

	/* Verify that a name is available for the fnNumber passed to us */
	bogusFnName = utrace_functionName(-1);
	fnName = utrace_functionName(fnNumber);
	if (strcmp(fnName, bogusFnName) == 0) {
	gFnNameError = TRUE;
	}
	/* printf("%s() Enter\n", fnName); */

	}

	static void U_CALLCONV testTraceExit(const void *context, int32_t fnNumber,
	const char *fmt, va_list args) {
	char buf[1000];
	const char *fnName;
	const char *bogusFnName;

	gTraceExitCount++;

	/* Verify that a name is available for the fnNumber passed to us */
	bogusFnName = utrace_functionName(-1);
	fnName = utrace_functionName(fnNumber);
	if (strcmp(fnName, bogusFnName) == 0) {
	gFnNameError = TRUE;
	}

	/* Verify that the format can be used. */
	buf[0] = 0;
	utrace_vformat(buf, sizeof(buf), 0, fmt, args);
	if (strlen(buf) == 0) {
	gFnFormatError = TRUE;
	}

	/* printf("%s() %s\n", fnName, buf); */

	}

	static void U_CALLCONV testTraceData(const void *context, int32_t fnNumber, int32_t level,
	const char *fmt, va_list args) {
	char buf[1000];
	const char *fnName;
	const char *bogusFnName;

	gTraceDataCount++;

	/* Verify that a name is available for the fnNumber passed to us */
	bogusFnName = utrace_functionName(-1);
	fnName = utrace_functionName(fnNumber);
	if (strcmp(fnName, bogusFnName) == 0) {
	gFnNameError = TRUE;
	}

	/* Verify that the format can be used. */
	buf[0] = 0;
	utrace_vformat(buf, sizeof(buf), 0, fmt, args);
	if (strlen(buf) == 0) {
	gFnFormatError = TRUE;
	}

	/* printf(" %s() %s\n", fnName, buf); */
	}

	static UConverter * psuedo_ucnv_open(const char name, UErrorCode err)
	{
	UTRACE_ENTRY_OC(UTRACE_UCNV_LOAD);

	UTRACE_DATA2(UTRACE_OPEN_CLOSE, "error code is %s for %s", u_errorName(*err), name);

	UTRACE_EXIT_PTR_STATUS(NULL, *err);
	return NULL;
	}
	static void psuedo_ucnv_close(UConverter * cnv)
	{
	UTRACE_ENTRY_OC(UTRACE_UCNV_UNLOAD);
	UTRACE_DATA1(UTRACE_OPEN_CLOSE, "unload converter %p", cnv);
	UTRACE_EXIT_VALUE((int32_t)TRUE);
	}


	/*
	* TestTraceAPI
	*/
	static void TestTraceAPI() {


	UTraceEntry *originalTEntryFunc;
	UTraceExit *originalTExitFunc;
	UTraceData *originalTDataFunc;
	const void *originalTContext;
	int32_t originalLevel;

	/*
	* Save the original tracing state so that we can restore it after the test.
	*/
	utrace_getFunctions(&originalTContext, &originalTEntryFunc, &originalTExitFunc,
	&originalTDataFunc);
	originalLevel = utrace_getLevel();


	/* verify that set/get of tracing functions returns what was set. */
	{
	UTraceEntry *e;
	UTraceExit *x;
	UTraceData *d;
	const void *context;
	const void newContext = (const char )originalTContext + 1;

	TEST_ASSERT(originalTEntryFunc != testTraceEntry);
	TEST_ASSERT(originalTExitFunc != testTraceExit);
	TEST_ASSERT(originalTDataFunc != testTraceData);

	utrace_setFunctions(newContext, testTraceEntry, testTraceExit, testTraceData);
	utrace_getFunctions(&context, &e, &x, &d);
	TEST_ASSERT(e == testTraceEntry);
	TEST_ASSERT(x == testTraceExit);
	TEST_ASSERT(d == testTraceData);
	TEST_ASSERT(context == newContext);
	}

	/* verify that set/get level work as a pair, and that the level
	* identifiers all exist.
	*/

	{
	int32_t level;

	utrace_setLevel(UTRACE_OFF);
	level = utrace_getLevel();
	TEST_ASSERT(level==UTRACE_OFF);
	utrace_setLevel(UTRACE_VERBOSE);
	level = utrace_getLevel();
	TEST_ASSERT(level==UTRACE_VERBOSE);
	utrace_setLevel(UTRACE_ERROR);
	utrace_setLevel(UTRACE_WARNING);
	utrace_setLevel(UTRACE_OPEN_CLOSE);
	utrace_setLevel(UTRACE_INFO);
	}

	/*
	* Open and close a converter with tracing enabled.
	* Verify that our tracing callback functions get called.
	*/
	{
	UErrorCode status = U_ZERO_ERROR;
	UConverter *cnv;

	gTraceEntryCount = 0;
	gTraceExitCount = 0;
	gTraceDataCount = 0;
	gFnNameError = FALSE;
	gFnFormatError = FALSE;
	utrace_setLevel(UTRACE_OPEN_CLOSE);
	#if ENABLE_TRACING_ORIG_VAL
	cnv = ucnv_open(NULL, &status);
	TEST_ASSERT(U_SUCCESS(status));
	ucnv_close(cnv);
	#else
	cnv = psuedo_ucnv_open(NULL, &status);
	TEST_ASSERT(U_SUCCESS(status));
	psuedo_ucnv_close(cnv);
	#endif
	TEST_ASSERT(gTraceEntryCount > 0);
	TEST_ASSERT(gTraceExitCount > 0);
	TEST_ASSERT(gTraceDataCount > 0);
	TEST_ASSERT(gFnNameError == FALSE);
	TEST_ASSERT(gFnFormatError == FALSE);
	}



	/*
	* trace data formatter operation.
	*/
	{
	UChar s1[] = {0x41fe, 0x42, 0x43, 00};
	const char *a1[] = {"s1", "s2", "s3"};
	void *ptr;

	test_format("hello, world", 50, 0, "hello, world", __LINE__);
	test_format("hello, world", 50, 4, " hello, world", __LINE__);
	test_format("hello, world", 3, 0, "hello, world", __LINE__);

	test_format("a character %c", 50, 0, "a character x", __LINE__, 'x');
	test_format("a string %s ", 50, 0, "a string hello ", __LINE__, "hello");
	test_format("uchars %S ", 50, 0, "uchars 41fe 0042 0043 0000 ", __LINE__, s1, -1);
	test_format("uchars %S ", 50, 0, "uchars 41fe 0042 ", __LINE__, s1, 2);

	test_format("a byte %b--", 50, 0, "a byte dd--", __LINE__, 0xdd);
	test_format("a 16 bit val %h", 50, 0, "a 16 bit val 1234", __LINE__, 0x1234);
	test_format("a 32 bit val %d...", 50, 0, "a 32 bit val 6789abcd...", __LINE__, 0x6789abcd);
	test_format("a 64 bit val %l", 50, 0, "a 64 bit val 123456780abcdef0"
	, __LINE__, INT64_C(0x123456780abcdef0));

	if (sizeof(void *) == 4) {
	ptr = (void *)0xdeadbeef;
	test_format("a 32 bit ptr %p", 50, 0, "a 32 bit ptr deadbeef", __LINE__, ptr);
	} else if (sizeof(void *) == 8) {
	ptr = (void *) INT64_C(0x1000200030004000);
	test_format("a 64 bit ptr %p", 50, 0, "a 64 bit ptr 1000200030004000", __LINE__, ptr);
	} else if (sizeof(void *) == 16) {
	/* iSeries */
	union {
	int32_t arr[4];
	void *ptr;
	} massiveBigEndianPtr = {{ 0x10002000, 0x30004000, 0x50006000, 0x70008000 }};
	ptr = massiveBigEndianPtr.ptr;
	test_format("a 128 bit ptr %p", 50, 0, "a 128 bit ptr 10002000300040005000600070008000", __LINE__, ptr);
	} else {
	TEST_ASSERT(FALSE);
	/* TODO: others? */
	}

	test_format("%vc", 100, 0, "abc[ffffffff]", __LINE__, "abc", -1);
	test_format("%vs", 100, 0, "s1\ns2\n[00000002]", __LINE__, a1, 2);
	test_format("%vs", 100, 4, " s1\n s2\n [00000002]", __LINE__, a1, 2);

	test_format("%vb", 100, 0, "41 42 43 [00000003]", __LINE__, "\x41\x42\x43", 3);

	/* Null ptrs for strings, vectors */
	test_format("Null string - %s", 50, 0, "Null string - NULL", __LINE__, NULL);
	test_format("Null string - %S", 50, 0, "Null string - NULL", __LINE__, NULL);
	test_format("Null vector - %vc", 50, 0, "Null vector - NULL [00000002]", __LINE__, NULL, 2);
	test_format("Null vector - %vC", 50, 0, "Null vector - NULL [00000002]", __LINE__, NULL, 2);
	test_format("Null vector - %vd", 50, 0, "Null vector - NULL [00000002]", __LINE__, NULL, 2);

	}

	/*
	* utrace_format. Only need a minimal test to see that the function works at all.
	* Full functionality is tested via utrace_vformat.
	*/
	{
	char buf[100];
	int32_t x;
	x = utrace_format(buf, 100, 0, "%s", "Hello, World.");
	TEST_ASSERT(strcmp(buf, "Hello, World.") == 0);
	TEST_ASSERT(x == 14);
	}

	/*
	* utrace_functionName. Just spot-check a couple of them.
	*/
	{
	const char *name;
	name = utrace_functionName(UTRACE_U_INIT);
	TEST_ASSERT(strcmp(name, "u_init") == 0);
	name = utrace_functionName(UTRACE_UCNV_OPEN);
	TEST_ASSERT(strcmp(name, "ucnv_open") == 0);
	name = utrace_functionName(UTRACE_UCOL_GET_SORTKEY);
	TEST_ASSERT(strcmp(name, "ucol_getSortKey") == 0);
	}



	/* Restore the trace function settings to their original values. */
	utrace_setFunctions(originalTContext, originalTEntryFunc, originalTExitFunc, originalTDataFunc);
	utrace_setLevel(originalLevel);
	}