/******************************************************************** * COPYRIGHT: * Copyright (c) 1997-2006, International Business Machines Corporation and * others. All Rights Reserved. ********************************************************************/ #include "tsputil.h" #include // DBL_MAX, DBL_MIN #include "putilimp.h" #define CASE(id,test) case id: name = #test; if (exec) { logln(#test "---"); logln((UnicodeString)""); test(); } break; void PUtilTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ ) { //if (exec) logln("TestSuite PUtilTest: "); switch (index) { CASE(0, testMaxMin) CASE(1, testNaN) CASE(2, testPositiveInfinity) CASE(3, testNegativeInfinity) CASE(4, testZero) CASE(5, testU_INLINE) // CASE(, testIEEEremainder) default: name = ""; break; //needed to end loop } } #if 0 void PUtilTest::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); #ifndef OS390 // ### TODO: // The following tests fails on S/390 with IEEE support in release builds; // debug builds work. // The functioning of ChoiceFormat is not affected by this bug. remainderTest(-7.0, 2.5, 0.5); remainderTest(-7.0, -2.5, 0.5); #endif remainderTest(5.0, 3.0, -1.0); // this should work //remainderTest(43.7, 2.5, 1.25); /* // infinity and real remainderTest(pinf, 1.0, 1.25); remainderTest(1.0, pinf, 1.0); remainderTest(ninf, 1.0, 1.25); remainderTest(1.0, ninf, 1.0); // test infinity and nan remainderTest(ninf, pinf, 1.25); remainderTest(ninf, nan, 1.25); remainderTest(pinf, nan, 1.25); // test infinity and zero remainderTest(pinf, pzero, 1.25); remainderTest(pinf, nzero, 1.25); remainderTest(ninf, pzero, 1.25); remainderTest(ninf, nzero, 1.25); */ } void PUtilTest::remainderTest(double x, double y, double exp) { double result = uprv_IEEEremainder(x,y); if( uprv_isNaN(result) && ! ( uprv_isNaN(x) || uprv_isNaN(y))) { errln(UnicodeString("FAIL: got NaN as result without NaN as argument")); errln(UnicodeString(" IEEEremainder(") + x + ", " + y + ") is " + result + ", expected " + exp); } else if(result != exp) errln(UnicodeString("FAIL: IEEEremainder(") + x + ", " + y + ") is " + result + ", expected " + exp); else logln(UnicodeString("OK: IEEEremainder(") + x + ", " + y + ") is " + result); } #endif void PUtilTest::testMaxMin() { double pinf = uprv_getInfinity(); double ninf = -uprv_getInfinity(); double nan = uprv_getNaN(); double pzero = 0.0; double nzero = 0.0; nzero *= -1; // +Inf with -Inf maxMinTest(pinf, ninf, pinf, TRUE); maxMinTest(pinf, ninf, ninf, FALSE); // +Inf with +0 and -0 maxMinTest(pinf, pzero, pinf, TRUE); maxMinTest(pinf, pzero, pzero, FALSE); maxMinTest(pinf, nzero, pinf, TRUE); maxMinTest(pinf, nzero, nzero, FALSE); // -Inf with +0 and -0 maxMinTest(ninf, pzero, pzero, TRUE); maxMinTest(ninf, pzero, ninf, FALSE); maxMinTest(ninf, nzero, nzero, TRUE); maxMinTest(ninf, nzero, ninf, FALSE); // NaN with +Inf and -Inf maxMinTest(pinf, nan, nan, TRUE); maxMinTest(pinf, nan, nan, FALSE); maxMinTest(ninf, nan, nan, TRUE); maxMinTest(ninf, nan, nan, FALSE); // NaN with NaN maxMinTest(nan, nan, nan, TRUE); maxMinTest(nan, nan, nan, FALSE); // NaN with +0 and -0 maxMinTest(nan, pzero, nan, TRUE); maxMinTest(nan, pzero, nan, FALSE); maxMinTest(nan, nzero, nan, TRUE); maxMinTest(nan, nzero, nan, FALSE); // +Inf with DBL_MAX and DBL_MIN maxMinTest(pinf, DBL_MAX, pinf, TRUE); maxMinTest(pinf, -DBL_MAX, pinf, TRUE); maxMinTest(pinf, DBL_MIN, pinf, TRUE); maxMinTest(pinf, -DBL_MIN, pinf, TRUE); maxMinTest(pinf, DBL_MIN, DBL_MIN, FALSE); maxMinTest(pinf, -DBL_MIN, -DBL_MIN, FALSE); maxMinTest(pinf, DBL_MAX, DBL_MAX, FALSE); maxMinTest(pinf, -DBL_MAX, -DBL_MAX, FALSE); // -Inf with DBL_MAX and DBL_MIN maxMinTest(ninf, DBL_MAX, DBL_MAX, TRUE); maxMinTest(ninf, -DBL_MAX, -DBL_MAX, TRUE); maxMinTest(ninf, DBL_MIN, DBL_MIN, TRUE); maxMinTest(ninf, -DBL_MIN, -DBL_MIN, TRUE); maxMinTest(ninf, DBL_MIN, ninf, FALSE); maxMinTest(ninf, -DBL_MIN, ninf, FALSE); maxMinTest(ninf, DBL_MAX, ninf, FALSE); maxMinTest(ninf, -DBL_MAX, ninf, FALSE); // +0 with DBL_MAX and DBL_MIN maxMinTest(pzero, DBL_MAX, DBL_MAX, TRUE); maxMinTest(pzero, -DBL_MAX, pzero, TRUE); maxMinTest(pzero, DBL_MIN, DBL_MIN, TRUE); maxMinTest(pzero, -DBL_MIN, pzero, TRUE); maxMinTest(pzero, DBL_MIN, pzero, FALSE); maxMinTest(pzero, -DBL_MIN, -DBL_MIN, FALSE); maxMinTest(pzero, DBL_MAX, pzero, FALSE); maxMinTest(pzero, -DBL_MAX, -DBL_MAX, FALSE); // -0 with DBL_MAX and DBL_MIN maxMinTest(nzero, DBL_MAX, DBL_MAX, TRUE); maxMinTest(nzero, -DBL_MAX, nzero, TRUE); maxMinTest(nzero, DBL_MIN, DBL_MIN, TRUE); maxMinTest(nzero, -DBL_MIN, nzero, TRUE); maxMinTest(nzero, DBL_MIN, nzero, FALSE); maxMinTest(nzero, -DBL_MIN, -DBL_MIN, FALSE); maxMinTest(nzero, DBL_MAX, nzero, FALSE); maxMinTest(nzero, -DBL_MAX, -DBL_MAX, FALSE); } void PUtilTest::maxMinTest(double a, double b, double exp, UBool max) { double result = 0.0; if(max) result = uprv_fmax(a, b); else result = uprv_fmin(a, b); UBool nanResultOK = (uprv_isNaN(a) || uprv_isNaN(b)); if(uprv_isNaN(result) && ! nanResultOK) { errln(UnicodeString("FAIL: got NaN as result without NaN as argument")); if(max) errln(UnicodeString(" max(") + a + ", " + b + ") is " + result + ", expected " + exp); else errln(UnicodeString(" min(") + a + ", " + b + ") is " + result + ", expected " + exp); } else if(result != exp && ! (uprv_isNaN(result) || uprv_isNaN(exp))) if(max) errln(UnicodeString("FAIL: max(") + a + ", " + b + ") is " + result + ", expected " + exp); else errln(UnicodeString("FAIL: min(") + a + ", " + b + ") is " + result + ", expected " + exp); else { if (verbose) { if(max) logln(UnicodeString("OK: max(") + a + ", " + b + ") is " + result); else logln(UnicodeString("OK: min(") + a + ", " + b + ") is " + result); } } } //============================== // NaN is weird- comparisons with NaN _always_ return false, with the // exception of !=, which _always_ returns true void PUtilTest::testNaN(void) { logln("NaN tests may show that the expected NaN!=NaN etc. is not true on some"); logln("platforms; however, ICU does not rely on them because it defines"); logln("and uses uprv_isNaN(). Therefore, most failing NaN tests only report warnings."); PUtilTest::testIsNaN(); PUtilTest::NaNGT(); PUtilTest::NaNLT(); PUtilTest::NaNGTE(); PUtilTest::NaNLTE(); PUtilTest::NaNE(); PUtilTest::NaNNE(); logln("End of NaN tests."); } //============================== void PUtilTest::testPositiveInfinity(void) { double pinf = uprv_getInfinity(); double ninf = -uprv_getInfinity(); double ten = 10.0; if(uprv_isInfinite(pinf) != TRUE) { errln("FAIL: isInfinite(+Infinity) returned FALSE, should be TRUE."); } if(uprv_isPositiveInfinity(pinf) != TRUE) { errln("FAIL: isPositiveInfinity(+Infinity) returned FALSE, should be TRUE."); } if(uprv_isNegativeInfinity(pinf) != FALSE) { errln("FAIL: isNegativeInfinity(+Infinity) returned TRUE, should be FALSE."); } if(pinf > DBL_MAX != TRUE) { errln("FAIL: +Infinity > DBL_MAX returned FALSE, should be TRUE."); } if(pinf > DBL_MIN != TRUE) { errln("FAIL: +Infinity > DBL_MIN returned FALSE, should be TRUE."); } if(pinf > ninf != TRUE) { errln("FAIL: +Infinity > -Infinity returned FALSE, should be TRUE."); } if(pinf > ten != TRUE) { errln("FAIL: +Infinity > 10.0 returned FALSE, should be TRUE."); } } //============================== void PUtilTest::testNegativeInfinity(void) { double pinf = uprv_getInfinity(); double ninf = -uprv_getInfinity(); double ten = 10.0; if(uprv_isInfinite(ninf) != TRUE) { errln("FAIL: isInfinite(-Infinity) returned FALSE, should be TRUE."); } if(uprv_isNegativeInfinity(ninf) != TRUE) { errln("FAIL: isNegativeInfinity(-Infinity) returned FALSE, should be TRUE."); } if(uprv_isPositiveInfinity(ninf) != FALSE) { errln("FAIL: isPositiveInfinity(-Infinity) returned TRUE, should be FALSE."); } if(ninf < DBL_MAX != TRUE) { errln("FAIL: -Infinity < DBL_MAX returned FALSE, should be TRUE."); } if(ninf < DBL_MIN != TRUE) { errln("FAIL: -Infinity < DBL_MIN returned FALSE, should be TRUE."); } if(ninf < pinf != TRUE) { errln("FAIL: -Infinity < +Infinity returned FALSE, should be TRUE."); } if(ninf < ten != TRUE) { errln("FAIL: -Infinity < 10.0 returned FALSE, should be TRUE."); } } //============================== // notes about zero: // -0.0 == 0.0 == TRUE // -0.0 < 0.0 == FALSE // generating -0.0 must be done at runtime. compiler apparently ignores sign? void PUtilTest::testZero(void) { // volatile is used to fake out the compiler optimizer. We really want to divide by 0. volatile double pzero = 0.0; volatile double nzero = 0.0; nzero *= -1; if(pzero == nzero != TRUE) { errln("FAIL: 0.0 == -0.0 returned FALSE, should be TRUE."); } if(pzero > nzero != FALSE) { errln("FAIL: 0.0 > -0.0 returned TRUE, should be FALSE."); } if(pzero >= nzero != TRUE) { errln("FAIL: 0.0 >= -0.0 returned FALSE, should be TRUE."); } if(pzero < nzero != FALSE) { errln("FAIL: 0.0 < -0.0 returned TRUE, should be FALSE."); } if(pzero <= nzero != TRUE) { errln("FAIL: 0.0 <= -0.0 returned FALSE, should be TRUE."); } #ifndef OS400 /* OS/400 will generate divide by zero exception MCH1214 */ if(uprv_isInfinite(1/pzero) != TRUE) { errln("FAIL: isInfinite(1/0.0) returned FALSE, should be TRUE."); } if(uprv_isInfinite(1/nzero) != TRUE) { errln("FAIL: isInfinite(1/-0.0) returned FALSE, should be TRUE."); } if(uprv_isPositiveInfinity(1/pzero) != TRUE) { errln("FAIL: isPositiveInfinity(1/0.0) returned FALSE, should be TRUE."); } if(uprv_isNegativeInfinity(1/nzero) != TRUE) { errln("FAIL: isNegativeInfinity(1/-0.0) returned FALSE, should be TRUE."); } #endif } //============================== void PUtilTest::testIsNaN(void) { double pinf = uprv_getInfinity(); double ninf = -uprv_getInfinity(); double nan = uprv_getNaN(); double ten = 10.0; if(uprv_isNaN(nan) == FALSE) { errln("FAIL: isNaN() returned FALSE for NaN."); } if(uprv_isNaN(pinf) == TRUE) { errln("FAIL: isNaN() returned TRUE for +Infinity."); } if(uprv_isNaN(ninf) == TRUE) { errln("FAIL: isNaN() returned TRUE for -Infinity."); } if(uprv_isNaN(ten) == TRUE) { errln("FAIL: isNaN() returned TRUE for 10.0."); } } //============================== void PUtilTest::NaNGT(void) { double pinf = uprv_getInfinity(); double ninf = -uprv_getInfinity(); double nan = uprv_getNaN(); double ten = 10.0; if(nan > nan != FALSE) { logln("WARNING: NaN > NaN returned TRUE, should be FALSE"); } if(nan > pinf != FALSE) { logln("WARNING: NaN > +Infinity returned TRUE, should be FALSE"); } if(nan > ninf != FALSE) { logln("WARNING: NaN > -Infinity returned TRUE, should be FALSE"); } if(nan > ten != FALSE) { logln("WARNING: NaN > 10.0 returned TRUE, should be FALSE"); } } //============================== void PUtilTest::NaNLT(void) { double pinf = uprv_getInfinity(); double ninf = -uprv_getInfinity(); double nan = uprv_getNaN(); double ten = 10.0; if(nan < nan != FALSE) { logln("WARNING: NaN < NaN returned TRUE, should be FALSE"); } if(nan < pinf != FALSE) { logln("WARNING: NaN < +Infinity returned TRUE, should be FALSE"); } if(nan < ninf != FALSE) { logln("WARNING: NaN < -Infinity returned TRUE, should be FALSE"); } if(nan < ten != FALSE) { logln("WARNING: NaN < 10.0 returned TRUE, should be FALSE"); } } //============================== void PUtilTest::NaNGTE(void) { double pinf = uprv_getInfinity(); double ninf = -uprv_getInfinity(); double nan = uprv_getNaN(); double ten = 10.0; if(nan >= nan != FALSE) { logln("WARNING: NaN >= NaN returned TRUE, should be FALSE"); } if(nan >= pinf != FALSE) { logln("WARNING: NaN >= +Infinity returned TRUE, should be FALSE"); } if(nan >= ninf != FALSE) { logln("WARNING: NaN >= -Infinity returned TRUE, should be FALSE"); } if(nan >= ten != FALSE) { logln("WARNING: NaN >= 10.0 returned TRUE, should be FALSE"); } } //============================== void PUtilTest::NaNLTE(void) { double pinf = uprv_getInfinity(); double ninf = -uprv_getInfinity(); double nan = uprv_getNaN(); double ten = 10.0; if(nan <= nan != FALSE) { logln("WARNING: NaN <= NaN returned TRUE, should be FALSE"); } if(nan <= pinf != FALSE) { logln("WARNING: NaN <= +Infinity returned TRUE, should be FALSE"); } if(nan <= ninf != FALSE) { logln("WARNING: NaN <= -Infinity returned TRUE, should be FALSE"); } if(nan <= ten != FALSE) { logln("WARNING: NaN <= 10.0 returned TRUE, should be FALSE"); } } //============================== void PUtilTest::NaNE(void) { double pinf = uprv_getInfinity(); double ninf = -uprv_getInfinity(); double nan = uprv_getNaN(); double ten = 10.0; if(nan == nan != FALSE) { logln("WARNING: NaN == NaN returned TRUE, should be FALSE"); } if(nan == pinf != FALSE) { logln("WARNING: NaN == +Infinity returned TRUE, should be FALSE"); } if(nan == ninf != FALSE) { logln("WARNING: NaN == -Infinity returned TRUE, should be FALSE"); } if(nan == ten != FALSE) { logln("WARNING: NaN == 10.0 returned TRUE, should be FALSE"); } } //============================== void PUtilTest::NaNNE(void) { double pinf = uprv_getInfinity(); double ninf = -uprv_getInfinity(); double nan = uprv_getNaN(); double ten = 10.0; if(nan != nan != TRUE) { logln("WARNING: NaN != NaN returned FALSE, should be TRUE"); } if(nan != pinf != TRUE) { logln("WARNING: NaN != +Infinity returned FALSE, should be TRUE"); } if(nan != ninf != TRUE) { logln("WARNING: NaN != -Infinity returned FALSE, should be TRUE"); } if(nan != ten != TRUE) { logln("WARNING: NaN != 10.0 returned FALSE, should be TRUE"); } } U_INLINE int32_t inlineTriple(int32_t x) { return 3*x; } // "code" coverage test for Jitterbug 4515 RFE: in C++, use U_INLINE=inline void PUtilTest::testU_INLINE() { if(inlineTriple(2)!=6 || inlineTriple(-55)!=-165) { errln("inlineTriple() failed"); } }