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#include<stdio.h>
#include<math.h>

int main ()
{
    FILE *fp;
    fp=fopen("output","w");
    float t,y=0,x=0,e=5,f=1,w=1;
    for (t=0;t<10;t=t+0.01)
    {
        if( y==inf && y== nan) 
            break;
        fprintf(fp,"%lf\t%lf\n",y,x);
        y = y + ((e*(1 - x*x)*y) - x + f*cos(w*t))*t;
        x = x + y*t;
    }
    return 0;
}

Why is the ouput giving infinite and NAN values?

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1  
Although this was tagged C++, isn't it C99? I can't see a single C++ feature used... –  Yacoby Apr 26 '10 at 15:54
    
but will that make any difference to the output? –  Hick Apr 26 '10 at 15:55
    
Could you use more meaningful variable names? It will be helpful for us to understand your code better. –  the_drow Apr 26 '10 at 16:11
    
@the_drow, I found these names meaningful, this is some kind of wave function, so in my opinion there is nothing wrong with short variable names. –  Yossarian Apr 26 '10 at 16:16
    
FYI, y == nan will always (i.e. "defined") be false, even if y is nan. –  KennyTM Apr 26 '10 at 17:49
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8 Answers

up vote 4 down vote accepted

Others have pointed out that you are having nan/inf problems which is true, but here is how to fix your code to give you the results that I believe you are looking for.

Since no one else has really pointed it out (that I've noticed), you are trying to solve a system of differential equations using the Euler method. The coupled differential equations that you are solving are:

dy/dt = e*(1 - x * x) * y - x + f * cos(w * t)

dx/dt = y

However, your solution is faulty which gives huge numerical instability (and the wrong answer). These two lines:

    y = y + ((e*(1 - x*x)*y) - x + f*cos(w*t))*t;
    x = x + y*t;

should be:

    y = y + ((e*(1 - x*x)*y) - x + f*cos(w*t))*.01;
    x = x + y*.01;

where I have changed t to your delta t (time step) because that's what Euler's method calls for. I would make a new variable called delt or something like that so that you can easily change the time step. The solution is beautifully stable now and plotting x vs. t and y vs. t gives some very nice plots. I'd post them, but I have a feeling that this might be homework.

Also, if with different equations you need more stability, you can use smaller time steps or some better numerical ODE methods like Runge-Kutta or implicit methods.

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Your calculation is blowing up. Just look at the values printed out for x and y and you will see they start to get very large and then turn info inf. Because your conditional is wrong, you wind up using inf in the calculation which turns into nan.

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Comparing to inf or nan is done via isnan() and isinf() functions, not this way.
%lf is for double, not float.

And, for god's sake, fclose() your file! (first X lines are some meaningful numbers.)

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@AndreyT:actually, %lf is for a double with scanf. With printf, %f converts a double, and %lf isn't defined at all. Most implementations seem to accept it to provide some degree of symmetry with scanf, but they're not required to (and arguably shouldn't). –  Jerry Coffin Apr 26 '10 at 16:13
    
God, if she exists, doesn't care whether he closes his file or not. But I feel your pain @Yossarian. –  High Performance Mark Apr 26 '10 at 16:13
    
@Jerry Coffin: You are right. Actually, it is defined (in C99 at least) as having no effect on %f specifier, i.e. %lf is equivalent to %f. C89/90 indeed says that the behavior is undefined. –  AndreyT Apr 26 '10 at 16:16
    
My fault, I knew that float is converted to double, but I write %lf and thought that is has some meaning.. Just for clarity. :-) –  Yossarian Apr 26 '10 at 16:18
    
Actually, as long as C++ is based on C89/90 specification of fprintf, using %lf with fprintf leads to undefined behavior (as Jerry noted). %lf is formally usable with fprintf in C99 only. –  AndreyT Apr 26 '10 at 16:19
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Be aware also that every comparison involving NaN returns false regardless of what operator you use (<, <=, etc) and what you compare it against.

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Perhaps the conditional statement should be if (y == inf || y == nan)? y cannot be both inf and NaN at the same time.

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no i want to know why is this code giving inf or NAN as output in the first case? –  Hick Apr 26 '10 at 15:57
    
y == nan is always false, for any value of y (even nan). –  Stephen Canon Apr 26 '10 at 18:14
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Because the break will never happen, as toft pointed out, and you never close the file, no data is written and then it all breaks down when the exception actually happens. Try to flush the data to the file in the for loop.

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by using fflush? –  Hick Apr 26 '10 at 16:06
1  
I am not sure about the actual method you have to call. Why don't you use streaming? cplusplus.com/reference/iostream/ostream/flush –  Florian Gerhardt Apr 26 '10 at 16:09
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I plugged your equations into Excel and when t gets to 0.39 x and y are 2E+270 and 5.2E+270 respetively. After that, they're too big for Excel to handle. Here is a trace of the other values if you're interested (lousy formatting, I know):

t   x       y
0.00    0       0
0.01    9.9995E-05  0.0099995
0.02    0.000719864 0.03099345
0.03    0.002688085 0.065607372
0.04    0.007431658 0.118589309
0.05    0.017321769 0.197802239
0.06    0.036281294 0.315992075
0.07    0.070850729 0.493849065
0.08    0.132072044 0.765266446
0.09    0.238828626 1.186184238
0.10    0.423641428 1.848128022
0.11    0.741634646 2.89084744
0.12    1.277397835 4.464693237
0.13    2.107123319 6.382503724
0.14    3.048840735 6.726552977
0.15    3.361369798 2.083527082
0.16    3.297988472 -0.396133288
0.17    3.231095608 -0.393487431
0.18    3.156811159 -0.412691383
0.19    3.07386543  -0.436556472
0.20    2.980485636 -0.466898968
0.21    2.874086586 -0.506662146
0.22    2.750700903 -0.56084401
0.23    2.603841953 -0.638517177
0.24    2.42203123  -0.757544679
0.25    2.18283838  -0.9567714
0.26    1.836632623 -1.331560601
0.27    1.255566799 -2.152095647
0.28    0.052253914 -4.297546016
0.29    -2.923971917    -10.2628477
0.30    -2.375067218    1.82968233
0.31    -1.600801299    2.497631996
0.32    0.082957072 5.261744912
0.33    4.774399642 14.21649263
0.34    -20.07952886    -73.09978971
0.35    3522.569432 10121.85417
0.36    -16277355468    -45214886085
0.37    1.64003E+30 4.43252E+30
0.38    -1.72156E+90    -4.53043E+90
0.39    2.0423E+270 5.2366E+270
0.40    #NUM!       #NUM!

So I guess the question is what is it this code is supposed to calculate?

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Among other issues that others have addressed, the conditional break will never be triggered. y == nan is false for every value y, including NaN, so the condition is just (y == inf && false), which is, of course, false.

If you want to break when y is inf or nan, you should use:

if (isinf(y) || isnan(y)) break;

Or, if you want to use comparisons instead:

if (fabs(y) == inf || y != y) break;

(The fabs is included because you -- presumably -- also want to break if y is -inf.)

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