/******************************************************************** * COPYRIGHT: * Copyright (c) 1998-2001, 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 "cstring.h" static UBool compareWithNAN(double x, double y); static void doAssert(double expect, double got, const char *message); static void TestPUtilAPI(){ double n1=0.0, y1=0.0, expn1, expy1; double value1 = 0.021; int32_t hi=0; uint32_t lo=0; UVersionInfo versionArray = {0x01, 0x00, 0x02, 0x02}; char versionString[17]; /* xxx.xxx.xxx.xxx\0 */ 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(VERBOSITY){ 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_log10()\n"); doAssert(uprv_log10(3456), 3, "uprv_log10(3456) failed."); #ifdef OS390 doAssert(uprv_log10(1.0e55), 55, "uprv_log10(1.0e55) failed."); #else doAssert(uprv_log10(1.0e300), 300, "uprv_log10(1.0e300) failed."); #endif 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 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."); 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); } 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; 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*/ udataDir=(UChar*)uprv_malloc(sizeof(UChar) * (strlen(dataDirectory) + 1)); u_charsToUChars(dataDirectory, udataDir, (strlen(dataDirectory)+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*)uprv_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); } uprv_free(charvalue); uprv_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_err("FAIL: t_timezone may be incorrect. It is not a multiple of 30min."); } tzoffset=uprv_getUTCtime(); } /* We can deprecate the test code right away; the API itself goes 2002-Jun-30 */ #ifdef ICU_ENABLE_DEPRECATED_NEXTDOUBLE log_verbose("Testing uprv_nextDouble() where the value is NaN ...\n"); expn1=uprv_nextDouble(uprv_getNaN(), TRUE); doAssert(expn1, uprv_getNaN(), "uprv_nextDouble(uprv_getNaN(), TRUE) failed."); #if defined(OS400) /* This is oddly enough the same value as DBL_MIN on Windows. */ /* This number is used because really small IEEE 754 numbers get an underflow exception on this platform */ y1=2.2250738585072014e-308; #elif IEEE_754 /* OS390 may define IEEE_754, so check it first */ y1=4.9406564584125e-324; #elif defined(OS390) || defined(XP_MAC) y1=4.9406564584125e-78; #else /* This is the default IEEE754 value. The test should fail if it's not correct. */ y1=4.9406564584125e-324; #endif doAssert(uprv_nextDouble(0, TRUE), y1, "uprv_nextDouble(0, TRUE) failed."); doAssert(uprv_nextDouble(0, FALSE), -y1, "uprv_nextDouble(0, FALSE) failed."); expn1=uprv_nextDouble(1.0, TRUE); if(expn1 < 1.0 || expn1 > 1.0001){ log_err("ERROR: uprv_nextDouble failed. Expected : %lf, Got: %f\n", y1, expn1); } expn1=uprv_nextDouble(1.0, FALSE); if(expn1 > 1.0 || expn1 < 0.9999){ log_err("ERROR: uprv_nextDouble failed. Expected : %lf, Got: %f\n", y1, expn1); } #endif } #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(){ int32_t code=0; const char* errorName ; for(;code