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So I have a program that implements an adaptive 2D trapezoidal rule on the function x^2 + y^2 < 1, but it seems that the recursion isn't working -- the program here is a modified form of a (working) 1D trapezoidal method so I'm not sure where the code breaks down, it should return PI:

double trapezoidal(d_fp_d f,
                   double a, double b,
                   double c, double d) { //helper function
    return 0.25*(b-a)*(d-c)*
    (f(a, c)+f(a, d) +
     f(b, c)+f(b, d));
}

double atrap( double a, double b, double c, double d, d_fp_d f, double tol )
 {// helper function

 return atrap1(a, b, c, d, f, tol );
 }
double atrap1( double a, double b, double c, double d, d_fp_d f, double tol)
{
 //implements 2D trap rule 
    static int level = 0;
    const static int minLevel = 4;
    const static int maxLevel = 30;
    ++level;
    double m1 = (a + b)/2.0;
    double m2 = (c + d)/2.0;
    double coarse = trapezoidal(f,a,b,c,d);
    double fine = 
      trapezoidal(f, a, m1, c, m2)
    + trapezoidal(f, a, m1, m2, d)
    + trapezoidal(f, m1, b, c, m2)
    + trapezoidal(f, m1, b, m2, d);
    ++fnEvals;
    if( level< minLevel
       || ( abs( fine - coarse ) > 3.0*tol && level < maxLevel ) ){

            fine =  atrap1( a, m1, c, m2, f,tol/4.0)
            + atrap1( a, m1, m2, d, f, tol/4.0)
            + atrap1(m1, b, c, m2, f, tol/4.0)
            + atrap1(m1, b, m2, d, f,tol/4.0);

        }

    --level;
    return fine;
}

where the function is given by

double ucircle( double x, double y)
{
    return x*x + y*y < 1 ? 1.0 : 0.0;
}

and my main function is

int main()
{
   double a, b, c, d;
    cout << "Enter a: " <<endl;
    cin >> a;
    cout << "Enter b: " <<endl;
    cin >> b;
    cout << "Enter c: " <<endl;
    cin >> c;
    cout << "Enter d: " <<endl;
    cin >> d;

    cout << "The approximate integral is: " << atrap( a, b, c, d, ucircle, 1.0e-5) << endl;

    return 0;
}
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1  
Do you have a question? –  Kerrek SB Oct 20 '12 at 23:55
    
the program won't work, I was wondering where I went wrong. –  Emir Oct 20 '12 at 23:58
    
Did you do any debugging? What did you learn? –  Kerrek SB Oct 21 '12 at 0:00
    
The code runs indefinitely. –  Emir Oct 21 '12 at 0:03
    
It's supposed to run for up to maxLevel = 30 levels of recursion (and no fewer than minlevel = 6 levels) –  Emir Oct 21 '12 at 0:05
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2 Answers

Like BigBoss already wrote, your program should finish, it would just take a long time since 30 recursions mean 4^30 function calls for atrap1, which is 1152921504606846976. Just let that number sink in.

Here are some more things to consider:

  • You probably wanted to use fabs instead of abs in the "break condition". (I think you should get a warning for integer conversion - or something similar - for this) abs may return unpredictable values for float or double parameters. Very high values.

  • tol seems to be a variable that represents a target precision value. However, with each recursion you further increase this target precision. At the 10th recursion it's already about 1E-11. Not sure this is intended. Whatever tol means.

    You probably don't want the /4.0 (the .0 is redundant by the way) in your recursive calls.

  • You do compile this with optimization, right?

  • trapezoidal, minLevel, maxLevel could be macros.

  • Your function does not like threaded execution due to level being static. You should make it a parameter for atrap1.

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It will not actually run forever, but it actually run for a very long time that you think it is running for ever and that is the reason: in first run level is one and function enter your if and it call itself 4 times, now consider first time: it is also enter the if and call itself 4 more times and it continue ... for correctly chosen input like one specified by you, condition abs(fine - coarse) is always true so only thing that can stop the flow from entering the if is level that will be increased and then decreased so your function will be called almost 4^30 and that's really a big number that you can't see its end in an hour or 2!

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but level is a static int -- it should increase when atrap1 calls itself in the recursion, right? –  Emir Oct 21 '12 at 1:51
    
Of course, but you decrease it each time that you return from function. So its depth can't be more than 30 but it doesn't mean it can grow to that number(4^30) with an structure like tree! just test it for a level of 3 and you see what is happening with 30 –  BigBoss Oct 21 '12 at 2:13
    
ah, you're right -- how else do you recommend I track the recursion? –  Emir Oct 21 '12 at 2:30
    
Sorry I don't understand your algorithm and its purpose, I just know C++. But as far as I understand from your code you need a lot of actions, so try finding another algorithm for this –  BigBoss Oct 21 '12 at 3:18
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