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// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/********************************************************************
* COPYRIGHT:
* Copyright (c) 1998-2016, International Business Machines Corporation and
* others. All Rights Reserved.
********************************************************************/
/*
* File putiltst.c (Tests the API in putil)
*
* Modification History:
*
* Date Name Description
* 07/12/2000 Madhu Creation
*******************************************************************************
*/
#include "unicode/utypes.h"
#include "cintltst.h"
#include "cmemory.h"
#include "unicode/putil.h"
#include "unicode/ustring.h"
#include "unicode/icudataver.h"
#include "cstring.h"
#include "putilimp.h"
#include "toolutil.h"
#include "uinvchar.h"
#include <stdio.h>
#if U_PLATFORM_USES_ONLY_WIN32_API
#include "wintz.h"
#endif
/* See the comments on U_SIGNED_RIGHT_SHIFT_IS_ARITHMETIC. */
static void TestSignedRightShiftIsArithmetic(void) {
int32_t x=0xfff5fff3;
int32_t m=-1;
int32_t x4=x>>4;
int32_t m1=m>>1;
UBool signedRightShiftIsArithmetic= (x4==(int32_t)0xffff5fff && m1==-1);
if(signedRightShiftIsArithmetic==U_SIGNED_RIGHT_SHIFT_IS_ARITHMETIC) {
log_info("signed right shift is Arithmetic Shift Right: %d\n",
signedRightShiftIsArithmetic);
} else {
log_err("error: unexpected signed right shift is Arithmetic Shift Right: %d\n"
" You need to change the value of U_SIGNED_RIGHT_SHIFT_IS_ARITHMETIC "
"for your platform.\n",
signedRightShiftIsArithmetic);
}
}
static UBool compareWithNAN(double x, double y);
static void doAssert(double expect, double got, const char *message);
static void TestPUtilAPI(void){
double n1=0.0, y1=0.0, expn1, expy1;
double value1 = 0.021;
char *str=0;
UBool isTrue=FALSE;
log_verbose("Testing the API uprv_modf()\n");
y1 = uprv_modf(value1, &n1);
expn1=0;
expy1=0.021;
if(y1 != expy1 || n1 != expn1){
log_err("Error in uprv_modf. Expected IntegralValue=%f, Got=%f, \n Expected FractionalValue=%f, Got=%f\n",
expn1, n1, expy1, y1);
}
if(getTestOption(VERBOSITY_OPTION)){
log_verbose("[float] x = %f n = %f y = %f\n", value1, n1, y1);
}
log_verbose("Testing the API uprv_fmod()\n");
expn1=uprv_fmod(30.50, 15.00);
doAssert(expn1, 0.5, "uprv_fmod(30.50, 15.00) failed.");
log_verbose("Testing the API uprv_ceil()\n");
expn1=uprv_ceil(value1);
doAssert(expn1, 1, "uprv_ceil(0.021) failed.");
log_verbose("Testing the API uprv_floor()\n");
expn1=uprv_floor(value1);
doAssert(expn1, 0, "uprv_floor(0.021) failed.");
log_verbose("Testing the API uprv_fabs()\n");
expn1=uprv_fabs((2.02-1.345));
doAssert(expn1, 0.675, "uprv_fabs(2.02-1.345) failed.");
log_verbose("Testing the API uprv_fmax()\n");
doAssert(uprv_fmax(2.4, 1.2), 2.4, "uprv_fmax(2.4, 1.2) failed.");
log_verbose("Testing the API uprv_fmax() with x value= NaN\n");
expn1=uprv_fmax(uprv_getNaN(), 1.2);
doAssert(expn1, uprv_getNaN(), "uprv_fmax(uprv_getNaN(), 1.2) failed. when one parameter is NaN");
log_verbose("Testing the API uprv_fmin()\n");
doAssert(uprv_fmin(2.4, 1.2), 1.2, "uprv_fmin(2.4, 1.2) failed.");
log_verbose("Testing the API uprv_fmin() with x value= NaN\n");
expn1=uprv_fmin(uprv_getNaN(), 1.2);
doAssert(expn1, uprv_getNaN(), "uprv_fmin(uprv_getNaN(), 1.2) failed. when one parameter is NaN");
log_verbose("Testing the API uprv_max()\n");
doAssert(uprv_max(4, 2), 4, "uprv_max(4, 2) failed.");
log_verbose("Testing the API uprv_min()\n");
doAssert(uprv_min(-4, 2), -4, "uprv_min(-4, 2) failed.");
log_verbose("Testing the API uprv_trunc()\n");
doAssert(uprv_trunc(12.3456), 12, "uprv_trunc(12.3456) failed.");
doAssert(uprv_trunc(12.234E2), 1223, "uprv_trunc(12.234E2) failed.");
doAssert(uprv_trunc(uprv_getNaN()), uprv_getNaN(), "uprv_trunc(uprv_getNaN()) failed. with parameter=NaN");
doAssert(uprv_trunc(uprv_getInfinity()), uprv_getInfinity(), "uprv_trunc(uprv_getInfinity()) failed. with parameter=Infinity");
log_verbose("Testing the API uprv_pow10()\n");
doAssert(uprv_pow10(4), 10000, "uprv_pow10(4) failed.");
log_verbose("Testing the API uprv_isNegativeInfinity()\n");
isTrue=uprv_isNegativeInfinity(uprv_getInfinity() * -1);
if(isTrue != TRUE){
log_err("ERROR: uprv_isNegativeInfinity failed.\n");
}
log_verbose("Testing the API uprv_isPositiveInfinity()\n");
isTrue=uprv_isPositiveInfinity(uprv_getInfinity());
if(isTrue != TRUE){
log_err("ERROR: uprv_isPositiveInfinity failed.\n");
}
log_verbose("Testing the API uprv_isInfinite()\n");
isTrue=uprv_isInfinite(uprv_getInfinity());
if(isTrue != TRUE){
log_err("ERROR: uprv_isInfinite failed.\n");
}
log_verbose("Testing the APIs uprv_add32_overflow and uprv_mul32_overflow\n");
int32_t overflow_result;
doAssert(FALSE, uprv_add32_overflow(INT32_MAX - 2, 1, &overflow_result), "should not overflow");
doAssert(INT32_MAX - 1, overflow_result, "should equal INT32_MAX - 1");
doAssert(FALSE, uprv_add32_overflow(INT32_MAX - 2, 2, &overflow_result), "should not overflow");
doAssert(INT32_MAX, overflow_result, "should equal exactly INT32_MAX");
doAssert(TRUE, uprv_add32_overflow(INT32_MAX - 2, 3, &overflow_result), "should overflow");
doAssert(FALSE, uprv_mul32_overflow(INT32_MAX / 5, 4, &overflow_result), "should not overflow");
doAssert(INT32_MAX / 5 * 4, overflow_result, "should equal INT32_MAX / 5 * 4");
doAssert(TRUE, uprv_mul32_overflow(INT32_MAX / 5, 6, &overflow_result), "should overflow");
// Test on negative numbers:
doAssert(FALSE, uprv_add32_overflow(-3, -2, &overflow_result), "should not overflow");
doAssert(-5, overflow_result, "should equal -5");
#if 0
log_verbose("Testing the API uprv_digitsAfterDecimal()....\n");
doAssert(uprv_digitsAfterDecimal(value1), 3, "uprv_digitsAfterDecimal() failed.");
doAssert(uprv_digitsAfterDecimal(1.2345E2), 2, "uprv_digitsAfterDecimal(1.2345E2) failed.");
doAssert(uprv_digitsAfterDecimal(1.2345E-2), 6, "uprv_digitsAfterDecimal(1.2345E-2) failed.");
doAssert(uprv_digitsAfterDecimal(1.2345E2), 2, "uprv_digitsAfterDecimal(1.2345E2) failed.");
doAssert(uprv_digitsAfterDecimal(-1.2345E-20), 24, "uprv_digitsAfterDecimal(1.2345E-20) failed.");
doAssert(uprv_digitsAfterDecimal(1.2345E20), 0, "uprv_digitsAfterDecimal(1.2345E20) failed.");
doAssert(uprv_digitsAfterDecimal(-0.021), 3, "uprv_digitsAfterDecimal(-0.021) failed.");
doAssert(uprv_digitsAfterDecimal(23.0), 0, "uprv_digitsAfterDecimal(23.0) failed.");
doAssert(uprv_digitsAfterDecimal(0.022223333321), 9, "uprv_digitsAfterDecimal(0.022223333321) failed.");
#endif
log_verbose("Testing the API u_errorName()...\n");
str=(char*)u_errorName((UErrorCode)0);
if(strcmp(str, "U_ZERO_ERROR") != 0){
log_err("ERROR: u_getVersion() failed. Expected: U_ZERO_ERROR Got=%s\n", str);
}
log_verbose("Testing the API u_errorName()...\n");
str=(char*)u_errorName((UErrorCode)-127);
if(strcmp(str, "U_USING_DEFAULT_WARNING") != 0){
log_err("ERROR: u_getVersion() failed. Expected: U_USING_DEFAULT_WARNING Got=%s\n", str);
}
log_verbose("Testing the API u_errorName().. with BOGUS ERRORCODE...\n");
str=(char*)u_errorName((UErrorCode)200);
if(strcmp(str, "[BOGUS UErrorCode]") != 0){
log_err("ERROR: u_getVersion() failed. Expected: [BOGUS UErrorCode] Got=%s\n", str);
}
{
const char* dataDirectory;
int32_t dataDirectoryLen;
UChar *udataDir=0;
UChar temp[100];
char *charvalue=0;
log_verbose("Testing chars to UChars\n");
/* This cannot really work on a japanese system. u_uastrcpy will have different results than */
/* u_charsToUChars when there is a backslash in the string! */
/*dataDirectory=u_getDataDirectory();*/
dataDirectory="directory1"; /*no backslashes*/
dataDirectoryLen=(int32_t)strlen(dataDirectory);
udataDir=(UChar*)malloc(sizeof(UChar) * (dataDirectoryLen + 1));
u_charsToUChars(dataDirectory, udataDir, (dataDirectoryLen + 1));
u_uastrcpy(temp, dataDirectory);
if(u_strcmp(temp, udataDir) != 0){
log_err("ERROR: u_charsToUChars failed. Expected %s, Got %s\n", austrdup(temp), austrdup(udataDir));
}
log_verbose("Testing UChars to chars\n");
charvalue=(char*)malloc(sizeof(char) * (u_strlen(udataDir) + 1));
u_UCharsToChars(udataDir, charvalue, (u_strlen(udataDir)+1));
if(strcmp(charvalue, dataDirectory) != 0){
log_err("ERROR: u_UCharsToChars failed. Expected %s, Got %s\n", charvalue, dataDirectory);
}
free(charvalue);
free(udataDir);
}
log_verbose("Testing uprv_timezone()....\n");
{
int32_t tzoffset = uprv_timezone();
log_verbose("Value returned from uprv_timezone = %d\n", tzoffset);
if (tzoffset != 28800) {
log_verbose("***** WARNING: If testing in the PST timezone, t_timezone should return 28800! *****");
}
if ((tzoffset % 1800 != 0)) {
log_info("Note: t_timezone offset of %ld (for %s : %s) is not a multiple of 30min.", tzoffset, uprv_tzname(0), uprv_tzname(1));
}
/*tzoffset=uprv_getUTCtime();*/
}
#if U_PLATFORM_USES_ONLY_WIN32_API
log_verbose("Testing uprv_detectWindowsTimeZone() ....\n");
{
const char* timezone = uprv_detectWindowsTimeZone();
if (timezone == NULL) {
log_err("ERROR: uprv_detectWindowsTimeZone failed (returned NULL).\n");
} else {
log_verbose("Detected TimeZone = %s\n", timezone);
}
}
#endif
}
static void TestVersion(void)
{
UVersionInfo versionArray = {0x01, 0x00, 0x02, 0x02};
UVersionInfo versionArray2 = {0x01, 0x00, 0x02, 0x02};
char versionString[17]; /* xxx.xxx.xxx.xxx\0 */
UChar versionUString[] = { 0x0031, 0x002E, 0x0030, 0x002E,
0x0032, 0x002E, 0x0038, 0x0000 }; /* 1.0.2.8 */
UVersionInfo version;
UErrorCode status = U_ZERO_ERROR;
log_verbose("Testing the API u_versionToString().....\n");
u_versionToString(versionArray, versionString);
if(strcmp(versionString, "1.0.2.2") != 0){
log_err("ERROR: u_versionToString() failed. Expected: 1.0.2.2, Got=%s\n", versionString);
}
log_verbose("Testing the API u_versionToString().....with versionArray=NULL\n");
u_versionToString(NULL, versionString);
if(strcmp(versionString, "") != 0){
log_err("ERROR: u_versionToString() failed. with versionArray=NULL. It should just return\n");
}
log_verbose("Testing the API u_versionToString().....with versionArray=NULL\n");
u_versionToString(NULL, versionString);
if(strcmp(versionString, "") != 0){
log_err("ERROR: u_versionToString() failed . It should just return\n");
}
log_verbose("Testing the API u_versionToString().....with versionString=NULL\n");
u_versionToString(versionArray, NULL);
if(strcmp(versionString, "") != 0){
log_err("ERROR: u_versionToString() failed. with versionArray=NULL It should just return\n");
}
versionArray[0] = 0x0a;
log_verbose("Testing the API u_versionToString().....\n");
u_versionToString(versionArray, versionString);
if(strcmp(versionString, "10.0.2.2") != 0){
log_err("ERROR: u_versionToString() failed. Expected: 10.0.2.2, Got=%s\n", versionString);
}
versionArray[0] = 0xa0;
u_versionToString(versionArray, versionString);
if(strcmp(versionString, "160.0.2.2") != 0){
log_err("ERROR: u_versionToString() failed. Expected: 160.0.2.2, Got=%s\n", versionString);
}
versionArray[0] = 0xa0;
versionArray[1] = 0xa0;
u_versionToString(versionArray, versionString);
if(strcmp(versionString, "160.160.2.2") != 0){
log_err("ERROR: u_versionToString() failed. Expected: 160.160.2.2, Got=%s\n", versionString);
}
versionArray[0] = 0x01;
versionArray[1] = 0x0a;
u_versionToString(versionArray, versionString);
if(strcmp(versionString, "1.10.2.2") != 0){
log_err("ERROR: u_versionToString() failed. Expected: 160.160.2.2, Got=%s\n", versionString);
}
log_verbose("Testing the API u_versionFromString() ....\n");
u_versionFromString(versionArray, "1.3.5.6");
u_versionToString(versionArray, versionString);
if(strcmp(versionString, "1.3.5.6") != 0){
log_err("ERROR: u_getVersion() failed. Expected: 1.3.5.6, Got=%s\n", versionString);
}
log_verbose("Testing the API u_versionFromString() where versionArray=NULL....\n");
u_versionFromString(NULL, "1.3.5.6");
u_versionToString(versionArray, versionString);
if(strcmp(versionString, "1.3.5.6") != 0){
log_err("ERROR: u_getVersion() failed. Expected: 1.3.5.6, Got=%s\n", versionString);
}
log_verbose("Testing the API u_getVersion().....\n");
u_getVersion(versionArray);
u_versionToString(versionArray, versionString);
if(strcmp(versionString, U_ICU_VERSION) != 0){
log_err("ERROR: u_getVersion() failed. Got=%s, expected %s\n", versionString, U_ICU_VERSION);
}
/* test unicode */
log_verbose("Testing u_versionFromUString...\n");
u_versionFromString(versionArray,"1.0.2.8");
u_versionFromUString(versionArray2, versionUString);
u_versionToString(versionArray2, versionString);
if(memcmp(versionArray, versionArray2, sizeof(UVersionInfo))) {
log_err("FAIL: u_versionFromUString produced a different result - not 1.0.2.8 but %s [%x.%x.%x.%x]\n",
versionString,
(int)versionArray2[0],
(int)versionArray2[1],
(int)versionArray2[2],
(int)versionArray2[3]);
}
else {
log_verbose(" from UString: %s\n", versionString);
}
/* Test the data version API for better code coverage */
u_getDataVersion(version, &status);
if (U_FAILURE(status)) {
log_data_err("ERROR: Unable to get data version. %s\n", u_errorName(status));
}
}
static void TestCompareVersions(void)
{
/* use a 1d array to be palatable to java */
const char *testCases[] = {
/* v1 <|=|> v2 */
"0.0.0.0", "=", "0.0.0.0",
"3.1.2.0", ">", "3.0.9.0",
"3.2.8.6", "<", "3.4",
"4.0", ">", "3.2",
NULL, NULL, NULL
};
const char *v1str;
const char *opstr;
const char *v2str;
int32_t op, invop, got, invgot;
UVersionInfo v1, v2;
int32_t j;
log_verbose("Testing memcmp()\n");
for(j=0;testCases[j]!=NULL;j+=3) {
v1str = testCases[j+0];
opstr = testCases[j+1];
v2str = testCases[j+2];
switch(opstr[0]) {
case '-':
case '<': op = -1; break;
case '0':
case '=': op = 0; break;
case '+':
case '>': op = 1; break;
default: log_err("Bad operator at j/3=%d\n", (j/3)); return;
}
invop = 0-op; /* inverse operation: with v1 and v2 switched */
u_versionFromString(v1, v1str);
u_versionFromString(v2, v2str);
got = memcmp(v1, v2, sizeof(UVersionInfo));
invgot = memcmp(v2, v1, sizeof(UVersionInfo)); /* Opposite */
if((got <= 0 && op <= 0) || (got >= 0 && op >= 0)) {
log_verbose("%d: %s %s %s, OK\n", (j/3), v1str, opstr, v2str);
} else {
log_err("%d: %s %s %s: wanted values of the same sign, %d got %d\n", (j/3), v1str, opstr, v2str, op, got);
}
if((invgot >= 0 && invop >= 0) || (invgot <= 0 && invop <= 0)) {
log_verbose("%d: %s (%d) %s, OK (inverse)\n", (j/3), v2str, invop, v1str);
} else {
log_err("%d: %s (%d) %s: wanted values of the same sign, %d got %d\n", (j/3), v2str, invop, v1str, invop, invgot);
}
}
}
#if 0
static void testIEEEremainder()
{
double pinf = uprv_getInfinity();
double ninf = -uprv_getInfinity();
double nan = uprv_getNaN();
/* double pzero = 0.0;*/
/* double nzero = 0.0;
nzero *= -1;*/
/* simple remainder checks*/
remainderTest(7.0, 2.5, -0.5);
remainderTest(7.0, -2.5, -0.5);
/* this should work
remainderTest(43.7, 2.5, 1.2);
*/
/* infinity and real*/
remainderTest(1.0, pinf, 1.0);
remainderTest(1.0, ninf, 1.0);
/*test infinity and real*/
remainderTest(nan, 1.0, nan);
remainderTest(1.0, nan, nan);
/*test infinity and nan*/
remainderTest(ninf, nan, nan);
remainderTest(pinf, nan, nan);
/* test infinity and zero */
/* remainderTest(pinf, pzero, 1.25);
remainderTest(pinf, nzero, 1.25);
remainderTest(ninf, pzero, 1.25);
remainderTest(ninf, nzero, 1.25); */
}
static void remainderTest(double x, double y, double exp)
{
double result = uprv_IEEEremainder(x,y);
if( uprv_isNaN(result) &&
! ( uprv_isNaN(x) || uprv_isNaN(y))) {
log_err("FAIL: got NaN as result without NaN as argument");
log_err(" IEEEremainder(%f, %f) is %f, expected %f\n", x, y, result, exp);
}
else if(!compareWithNAN(result, exp)) {
log_err("FAIL: IEEEremainder(%f, %f) is %f, expected %f\n", x, y, result, exp);
} else{
log_verbose("OK: IEEEremainder(%f, %f) is %f\n", x, y, result);
}
}
#endif
static UBool compareWithNAN(double x, double y)
{
if( uprv_isNaN(x) || uprv_isNaN(y) ) {
if(!uprv_isNaN(x) || !uprv_isNaN(y) ) {
return FALSE;
}
}
else if (y != x) { /* no NaN's involved */
return FALSE;
}
return TRUE;
}
static void doAssert(double got, double expect, const char *message)
{
if(! compareWithNAN(expect, got) ) {
log_err("ERROR : %s. Expected : %lf, Got: %lf\n", message, expect, got);
}
}
#define _CODE_ARR_LEN 8
static const UErrorCode errorCode[_CODE_ARR_LEN] = {
U_USING_FALLBACK_WARNING,
U_STRING_NOT_TERMINATED_WARNING,
U_ILLEGAL_ARGUMENT_ERROR,
U_STATE_TOO_OLD_ERROR,
U_BAD_VARIABLE_DEFINITION,
U_RULE_MASK_ERROR,
U_UNEXPECTED_TOKEN,
U_UNSUPPORTED_ATTRIBUTE
};
static const char* str[] = {
"U_USING_FALLBACK_WARNING",
"U_STRING_NOT_TERMINATED_WARNING",
"U_ILLEGAL_ARGUMENT_ERROR",
"U_STATE_TOO_OLD_ERROR",
"U_BAD_VARIABLE_DEFINITION",
"U_RULE_MASK_ERROR",
"U_UNEXPECTED_TOKEN",
"U_UNSUPPORTED_ATTRIBUTE"
};
static void TestErrorName(void){
int32_t code=0;
const char* errorName ;
for(;code<U_ERROR_LIMIT;code++){
errorName = u_errorName((UErrorCode)code);
if(!errorName || errorName[0] == 0) {
log_err("Error: u_errorName(0x%X) failed.\n",code);
}
}
for(code=0;code<_CODE_ARR_LEN; code++){
errorName = u_errorName(errorCode[code]);
if(uprv_strcmp(str[code],errorName )!=0){
log_err("Error : u_errorName failed. Expected: %s Got: %s \n",str[code],errorName);
}
}
}
#define AESTRNCPY_SIZE 13
static const char * dump_binline(uint8_t *bytes) {
static char buf[512];
int32_t i;
for(i=0;i<13;i++) {
sprintf(buf+(i*3), "%02x ", bytes[i]);
}
return buf;
}
static void Test_aestrncpy(int32_t line, const uint8_t *expect, const uint8_t *src, int32_t len)
{
uint8_t str_buf[AESTRNCPY_SIZE] = { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
uint8_t *ret;
log_verbose("\n%s:%d: Beginning test of uprv_aestrncpy(dst, src, %d)\n", __FILE__, line, len);
ret = uprv_aestrncpy(str_buf, src, len);
if(ret != str_buf) {
log_err("\n%s:%d: FAIL: uprv_aestrncpy returned %p expected %p\n", __FILE__, line, (void*)ret, (void*)str_buf);
}
if(!uprv_memcmp(str_buf, expect, AESTRNCPY_SIZE)) {
log_verbose("\n%s:%d: OK - compared OK.", __FILE__, line);
log_verbose("\n%s:%d: expected: %s", __FILE__, line, dump_binline((uint8_t *)expect));
log_verbose("\n%s:%d: got : %s\n", __FILE__, line, dump_binline(str_buf));
} else {
log_err ("\n%s:%d: FAIL: uprv_aestrncpy output differs", __FILE__, line);
log_err ("\n%s:%d: expected: %s", __FILE__, line, dump_binline((uint8_t *)expect));
log_err ("\n%s:%d: got : %s\n", __FILE__, line, dump_binline(str_buf));
}
}
static void TestString(void)
{
uint8_t str_tst[AESTRNCPY_SIZE] = { 0x81, 0x4b, 0x5c, 0x82, 0x25, 0x00, 0x7f, 0x7f, 0x7f, 0x7f, 0x7f, 0x7f, 0x7f };
uint8_t str_exp1[AESTRNCPY_SIZE] = { 0x61, 0x2e, 0x2a, 0x62, 0x0a, 0x00, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
uint8_t str_exp2[AESTRNCPY_SIZE] = { 0x61, 0x2e, 0x2a, 0x62, 0x0a, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
uint8_t str_exp3[AESTRNCPY_SIZE] = { 0x61, 0x2e, 0x2a, 0x62, 0x0a, 0x00, 0x00, 0x00, 0xff, 0xff, 0xff, 0xff, 0xff };
/* test #1- copy with -1 length */
Test_aestrncpy(__LINE__, str_exp1, str_tst, -1);
Test_aestrncpy(__LINE__, str_exp1, str_tst, 6);
Test_aestrncpy(__LINE__, str_exp2, str_tst, 5);
Test_aestrncpy(__LINE__, str_exp3, str_tst, 8);
}
void addPUtilTest(TestNode** root);
static void addToolUtilTests(TestNode** root);
void
addPUtilTest(TestNode** root)
{
addTest(root, &TestVersion, "putiltst/TestVersion");
addTest(root, &TestCompareVersions, "putiltst/TestCompareVersions");
/* addTest(root, &testIEEEremainder, "putiltst/testIEEEremainder"); */
addTest(root, &TestErrorName, "putiltst/TestErrorName");
addTest(root, &TestPUtilAPI, "putiltst/TestPUtilAPI");
addTest(root, &TestString, "putiltst/TestString");
addToolUtilTests(root);
}
/* Tool Util Tests ================ */
#define TOOLUTIL_TESTBUF_SIZE 2048
static char toolutil_testBuf[TOOLUTIL_TESTBUF_SIZE];
static const char *NULLSTR="NULL";
/**
* Normalize NULL to 'NULL' for testing
*/
#define STRNULL(x) ((x)?(x):NULLSTR)
static void toolutil_findBasename(void)
{
struct {
const char *inBuf;
const char *expectResult;
} testCases[] = {
{
U_FILE_SEP_STRING "usr" U_FILE_SEP_STRING "bin" U_FILE_SEP_STRING "pkgdata",
"pkgdata"
},
{
U_FILE_SEP_STRING "usr" U_FILE_SEP_STRING "bin" U_FILE_SEP_STRING,
""
},
{
U_FILE_ALT_SEP_STRING "usr" U_FILE_ALT_SEP_STRING "bin" U_FILE_ALT_SEP_STRING "pkgdata",
"pkgdata"
},
{
U_FILE_ALT_SEP_STRING "usr" U_FILE_ALT_SEP_STRING "bin" U_FILE_ALT_SEP_STRING,
""
},
};
int32_t count=UPRV_LENGTHOF(testCases);
int32_t i;
log_verbose("Testing findBaseName()\n");
for(i=0;i<count;i++) {
const char *result;
const char *input = STRNULL(testCases[i].inBuf);
const char *expect = STRNULL(testCases[i].expectResult);
log_verbose("Test case [%d/%d]: %s\n", i, count-1, input);
result = STRNULL(findBasename(testCases[i].inBuf));
if(result==expect||!strcmp(result,expect)) {
log_verbose(" -> %s PASS\n", result);
} else {
log_err("FAIL: Test case [%d/%d]: %s -> %s but expected %s\n", i, count-1, input, result, expect);
}
}
}
static void toolutil_findDirname(void)
{
int i;
struct {
const char *inBuf;
int32_t outBufLen;
UErrorCode expectStatus;
const char *expectResult;
} testCases[] = {
{
U_FILE_SEP_STRING "usr" U_FILE_SEP_STRING "bin" U_FILE_SEP_STRING "pkgdata",
200,
U_ZERO_ERROR,
U_FILE_SEP_STRING "usr" U_FILE_SEP_STRING "bin",
},
{
U_FILE_SEP_STRING "usr" U_FILE_SEP_STRING "bin" U_FILE_SEP_STRING "pkgdata",
2,
U_BUFFER_OVERFLOW_ERROR,
NULL
},
{
U_FILE_ALT_SEP_STRING "usr" U_FILE_ALT_SEP_STRING "bin" U_FILE_ALT_SEP_STRING "pkgdata",
200,
U_ZERO_ERROR,
U_FILE_ALT_SEP_STRING "usr" U_FILE_ALT_SEP_STRING "bin"
},
{
U_FILE_ALT_SEP_STRING "usr" U_FILE_ALT_SEP_STRING "bin" U_FILE_ALT_SEP_STRING "pkgdata",
2,
U_BUFFER_OVERFLOW_ERROR,
NULL
},
{
U_FILE_ALT_SEP_STRING "usr" U_FILE_ALT_SEP_STRING "bin" U_FILE_SEP_STRING "pkgdata",
200,
U_ZERO_ERROR,
U_FILE_ALT_SEP_STRING "usr" U_FILE_ALT_SEP_STRING "bin"
},
{
U_FILE_ALT_SEP_STRING "usr" U_FILE_SEP_STRING "bin" U_FILE_ALT_SEP_STRING "pkgdata",
200,
U_ZERO_ERROR,
U_FILE_ALT_SEP_STRING "usr" U_FILE_SEP_STRING "bin"
},
{
U_FILE_ALT_SEP_STRING "usr" U_FILE_ALT_SEP_STRING "bin" U_FILE_ALT_SEP_STRING "pkgdata",
2,
U_BUFFER_OVERFLOW_ERROR,
NULL
},
{
U_FILE_ALT_SEP_STRING "vmlinuz",
200,
U_ZERO_ERROR,
U_FILE_ALT_SEP_STRING
},
{
U_FILE_SEP_STRING "vmlinux",
200,
U_ZERO_ERROR,
U_FILE_SEP_STRING
},
{
"pkgdata",
0,
U_BUFFER_OVERFLOW_ERROR,
NULL
},
{
"pkgdata",
2,
U_ZERO_ERROR,
""
}
};
int32_t count=UPRV_LENGTHOF(testCases);
log_verbose("Testing findDirname()\n");
for(i=0;i<count;i++) {
const char *result;
const char *input = STRNULL(testCases[i].inBuf);
const char *expect = STRNULL(testCases[i].expectResult);
UErrorCode status = U_ZERO_ERROR;
uprv_memset(toolutil_testBuf, 0x55, TOOLUTIL_TESTBUF_SIZE);
log_verbose("Test case [%d/%d]: %s\n", i, count-1, input);
result = STRNULL(findDirname(testCases[i].inBuf, toolutil_testBuf, testCases[i].outBufLen, &status));
log_verbose(" -> %s, \n", u_errorName(status));
if(status != testCases[i].expectStatus) {
log_verbose("FAIL: Test case [%d/%d]: %s got error code %s but expected %s\n", i, count-1, input, u_errorName(status), u_errorName(testCases[i].expectStatus));
}
if(result==expect||!strcmp(result,expect)) {
log_verbose(" = -> %s \n", result);
} else {
log_err("FAIL: Test case [%d/%d]: %s -> %s but expected %s\n", i, count-1, input, result, expect);
}
}
}
static void addToolUtilTests(TestNode** root) {
addTest(root, &toolutil_findBasename, "putiltst/toolutil/findBasename");
addTest(root, &toolutil_findDirname, "putiltst/toolutil/findDirname");
addTest(root, &TestSignedRightShiftIsArithmetic, "putiltst/toolutil/TestSignedRightShiftIsArithmetic");
/*
Not yet tested:
addTest(root, &toolutil_getLongPathname, "putiltst/toolutil/getLongPathname");
addTest(root, &toolutil_getCurrentYear, "putiltst/toolutil/getCurrentYear");
addTest(root, &toolutil_UToolMemory, "putiltst/toolutil/UToolMemory");
*/
}