During my fluid simulation, the physical time is marching as
0, 0.001, 0.002, ..., 4.598, 4.599, 4.6, 4.601, 4.602, .... Now I want to choose time =
0.1, 0.2, ..., 4.5, 4.6, ... from this time series and then do the further analysis. So I wrote the following code to judge if the
fractpart hits zero.
But I am so surprised that I found the following two division methods are getting two different results, what should I do?
double param, fractpart, intpart; double org = 4.6; double ddd = 0.1; // This is the correct one I need. I got intpart=46 and fractpart=0 // param = org*(1/ddd); // This is not what I want. I got intpart=45 and fractpart=1 param = org/ddd; fractpart = modf(param , &intpart); Info<< "\n\nfractpart\t=\t" << fractpart << "\nAnd intpart\t=\t" << intpart << endl;
Why does it happen in this way?
And if you guys tolerate me a little bit, can I shout loudly: "Could C++ committee do something about this? Because this is confusing." :)
What is the best way to get a correct remainder to avoid the cut-off error effect? Is fmod a better solution? Thanks
Respond to the answer of
double aTmp = 1; double bTmp = 2; double cTmp = 3; double AAA = bTmp/cTmp; double BBB = bTmp*(aTmp/cTmp); Info<< "\n2/3\t=\t" << AAA << "\n2*(1/3)\t=\t" << BBB << endl;
And I got both ,
2/3 = 0.666667 2*(1/3) = 0.666667