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/*
* Scilab ( http://www.scilab.org/ ) - This file is part of Scilab
* Copyright (C) 2008-2008 - INRIA - Bruno JOFRET
*
* This file must be used under the terms of the CeCILL.
* This source file is licensed as described in the file COPYING, which
* you should have received as part of this distribution. The terms
* are also available at
* http://www.cecill.info/licences/Licence_CeCILL_V2-en.txt
*
*/
/* FIXME : Must improve isnan rules and remove define. */
#define NDEBUG
#include "testIsNan.h"
int sisnansTest() {
int result = 0;
float fA=0.0f;
float fB=0.0f;
float nan = fA / fB;
float full = 1.23456789f;
printf(">> Float \n");
if ((bool)sisnans(nan) == false) {
printf("ERROR ! : Test Failed (Must be nan)\n");
result = ERROR;
}
assert (sisnans(nan) == true);
if ((bool)sisnans(full) == true) {
printf("ERROR ! : Test Failed (Must not be nan)\n");
result = ERROR;
}
assert(sisnans(full) == false);
return result;
}
int disnansTest() {
int result = 0;
double dA = 0.;
double dB = 0.;
double nan = dA / dB;
double full = 1.456789321861;
printf(">> Double\n");
if ((bool)disnans(nan) == false) {
printf("ERROR ! : Test Failed (Must be nan)\n");
result = ERROR;
}
assert(disnans(nan) == true);
if ((bool)disnans(full) == true) {
printf("ERROR ! : Test Failed (non nan array)\n");
result = ERROR;
}
assert(disnans(full) == false);
return result;
}
int cisnansTest() {
int result = 0;
float fA = 0.;
float fB = 0.;
floatComplex nan_nan = FloatComplex(fA/fB, fA/fB);
floatComplex nan_real = FloatComplex(fA/fB, 1.123456789f);
floatComplex real_nan = FloatComplex(1.123456789f, fA/fB);
floatComplex full = FloatComplex(0.0f,1.0f);
printf(">> Float Complex\n");
if ((bool)cisnans(nan_nan) == false) {
printf("ERROR ! : Test Failed (Must be nan)\n");
result = ERROR;
}
assert (cisnans(nan_nan) == true);
if ((bool)cisnans(nan_real) == true) {
printf("ERROR ! : Test Failed (Must not be nan)\n");
result = ERROR;
}
assert(cisnans(nan_real) == false);
if ((bool)cisnans(real_nan) == true) {
printf("ERROR ! : Test Failed (Must not be nan)\n");
result = ERROR;
}
assert(cisnans(real_nan) == false);
if ((bool)cisnans(full) == true) {
printf("ERROR ! : Test Failed (Must not be nan)\n");
result = ERROR;
}
assert(cisnans(full) == false);
return result;
}
int zisnansTest() {
int result = 0;
float fA = 0.;
float fB = 0.;
floatComplex nan_nan = FloatComplex(fA/fB, fA/fB);
floatComplex nan_real = FloatComplex(fA/fB, 1.123456789f);
floatComplex real_nan = FloatComplex(1.123456789f , fA/fB);
floatComplex full = FloatComplex(0.0f,1.0f);
printf(">> Double Complex\n");
if ((bool)cisnans(nan_nan) == false) {
printf("ERROR ! : Test Failed (Must be nan)\n");
result = ERROR;
}
assert (cisnans(nan_nan) == true);
if ((bool)cisnans(nan_real) == true) {
printf("ERROR ! : Test Failed (Must not be nan)\n");
result = ERROR;
}
assert(cisnans(nan_real) == false);
if ((bool)cisnans(real_nan) == true) {
printf("ERROR ! : Test Failed (Must not be nan)\n");
result = ERROR;
}
assert(cisnans(real_nan) == false);
if ((bool)cisnans(full) == true) {
printf("ERROR ! : Test Failed (Must not be nan)\n");
result = ERROR;
}
assert(cisnans(full) == false);
return result;
}
int testIsNan() {
int sisnansTestStatus, disnansTestStatus = 0;
int cisnansTestStatus, zisnansTestStatus = 0;
printf("\n>>>> IsNan Tests\n");
sisnansTestStatus = sisnansTest();
disnansTestStatus = disnansTest();
cisnansTestStatus = cisnansTest();
zisnansTestStatus = zisnansTest();
return (sisnansTestStatus + disnansTestStatus +
cisnansTestStatus + zisnansTestStatus);
}
int main(void) {
assert(testIsNan() == 0);
return 0;
}
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