% Please revise the following items when a new process is created.  
 algebraic;
 model_home:='"/auto/home48/fdc/fdc96/model/bepc2003s/"; 
 model_home:='"/home/fdc33/pwa/model/kkpp3/"; 
 rocess_name:='"$J/\psi \rightarrow pi^* pi^- \pi^0$";        
 process_author:='"Jian-xiong Wang";                
 process_time:='"Sept. 27, 2002";                    
% namel:='(ef efb pr5 pr5b pr6)$
 namel:='(ef efb pr3 pr3b pr4)$
 inpl:='(1 1 -1 -1 -1)$
 ncolor:='1$ 
% n_background:='5;
% nv_fix:='(20);
% resonance_diag_only:='1;
change_parameters:='( 
); 
 input_list:='(
   (ec         3.097)  %center mass energy
   (hm         120.0)   %the parameters could be changed in this way 
   (acc1       0.01)    %acurcy of grid optimization in bases  
   (acc2       0.01)    %acurcy of integration in bases  
   (itmx1      10)      %number of iteration for grid optimization 
   (itmx2      10)      %number of iteration for integration
   (ncall      10000)    %number of sample point in each iteration. 
   (mxdim      50)      %number of maxium integration dimension. 
%  (pr1m       1.9)
   (akapa       1.0)
   (mc_num       26830)
   (da_num       5000)
   (iter         1000)
 );  
%approximation_rules:={fme=>0,f73=>0,f74=>0};
mass_drop_list:='((fme 0));

 histograms:={
    {1,sqrts(p3,p4),50,"M(pi+ and pi-)"},
    {2,sqrts(p3,p5),50,"M(pi+ and pi0)"},
    {3,sqrts(p4,p5),50,"M(pi- and pi0)"},
    {4,wcos(p3+p4,z),50,"cos of (P(pi+)+P(pi-) and beam"}, 
    {5,wcos_lorentz(p3,p5,p3+p4),50,"cos of pi+ and pi0 in CMS of pi+ and pi-"}, 
    {6,wcos_lorentz(p3,p4,p3+p5),50,"cos of pi+ and pi- in CMS of pi+ and pi0"}, 
    {7,wcos_lorentz(p4,p3,p4+p5),50,"cos of pi+ and pi- in CMS of pi- and pi0"} 
     };
    
 scatters:={
   {1,s(p3,p4),s(p3,p5),30,30,0,9,0,9,"Daliz plot of S34, S35"},
   {2,s(p3,p4),s(p4,p5),30,30,0,9,0,9,"Daliz plot of S34, S45"},
   {3,s(p3,p5),s(p4,p5),30,30,0,9,0,9,"Daliz plot of S34, S45"}
 };  
 mkfit:='yes; 
 
end;