Revision 759
trunk/src/linad99/derch.cpp (revision 759)  

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} 
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while (j > 0) 
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{ 
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//cout << "\nEntering derivative checker.\n";


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cout << "\n Enter index (1 ... "<< n <<") of derivative to check.";


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cout << " To check all derivatives, enter 0: ";


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cout << " To quit enter 1: "; 

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cout << "\nEntering derivative checker.\n"; 

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cout << " Enter index (1 ... "<< n <<") of derivative to check.\n";


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cout << " To check all derivatives, enter 0;\n";


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cout << " To quit enter 1: ";


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flush(cout); 
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cin >> j; 
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if (j == 1) 
...  ...  
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n1 = j; 
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n2 = j; 
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} 
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cout << " Enter step size (to quit derivative checker, enter 0): "; 

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cout << " Enter step size.\n"; 

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cout << " To quit derivative checker enter 1;\n"; 

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cout << " to check for unitialized variables enter 0): "; 

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flush(cout); 
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# if defined(__BORLANDC__) 
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char mystring[1000]; 
...  ...  
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# else 
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cin >> s; 
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# endif 
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// cout << "\n X Function Analytical Finite Diff; Index\n"; 

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if (s <= 0) ad_exit(0);


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if (s < 0) ad_exit(0); 

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if (j==0) 
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{ 
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cout << endl << " If you want the derivatives approximated in order" 
...  ...  
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else 
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order_flag=0; 
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} 
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cout << "\n X Function Analytical Finite Diff; Index" 

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else 

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{ 

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cout << "\n X Function Analytical Finite Diff; Index" 

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<< endl; 
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} 

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for (ii=n1; ii<=n2; ii++) 
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{ 
...  ...  
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f2 = f; 
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f = fsave; 
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x(i)=xsave; 
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g2=(f1f2)/(2.*s); 

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derchflag=0; 

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double perr= fabs(g2g(i))/(fabs(g(i))+1.e6); 

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if (pofs) 

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if (s==0.0) 

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{ 
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if (perr > 1.e3) 

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(*pofs) << " ** "; 

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if (fabs(f1f2)>0.0) 

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{ 

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cout << "There appear to be uninitialized variables in " 

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<< "the objective function " << endl 

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<< " f1 = " << setprecision(15) << f1 

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<< " f2 = " << setprecision(15) << f2 << endl; 

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} 

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else 
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(*pofs) << " "; 

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(*pofs) << " " << setw(4) << i 

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<< " " << setw(12) << g(i) 

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<< " " << setw(12) << g2 

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<< " " << setw(12) << perr 

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<< endl; 

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{ 

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cout << "There do not appear to be uninitialized variables in" << endl 

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<< "the objective function " << endl; 

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} 

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} 
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if (ad_printf)


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else


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{ 
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(*ad_printf)(" %12.5e %12.5e %12.5e %12.5e ; %5d \n", 

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x(i), f, g(i), g2, i); 

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fflush(stdout); 

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g2=(f1f2)/(2.*s); 

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derchflag=0; 

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double perr= fabs(g2g(i))/(fabs(g(i))+1.e6); 

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if (pofs) 

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{ 

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if (perr > 1.e3) 

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(*pofs) << " ** "; 

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else 
Also available in: Unified diff