Solved: Re: how can i read parameters value automatically?

dali74 · Posted 11-24-2017 01:25 PM

I have this problem and its works ok, but it´s possible read paramerts in data statement?

proc optmodel;
   var x {1..3};
   max z1 = (2*x[1]-3*x[2]+5*x[3])**3/(x[1]+5*x[2]+x[3]**2);
   con c1: -1<=x[1]<= 3;
   con c2: 1.5<=x[2]<= 2;
   con c3: 1.2<=x[3]<= 2.2;
   solve with nlp/multistart ;
   print x;
quit;

Edit: I want to put in data statement:

-1<=x[1]<= 3;...

RobPratt · Posted 11-24-2017 03:47 PM

data bounds;
   input lb ub;
   datalines;
-1   3
 1.5 2
 1.2 2.2
;

proc optmodel;
   var x {1..3};
   max z1 = (2*x[1]-3*x[2]+5*x[3])**3/(x[1]+5*x[2]+x[3]**2);
   read data bounds into [_N_] x.lb=lb x.ub=ub;
   solve with nlp/multistart ;
   print x;
quit;

View solution in original post

RobPratt · Posted 11-24-2017 03:47 PM

data bounds;
   input lb ub;
   datalines;
-1   3
 1.5 2
 1.2 2.2
;

proc optmodel;
   var x {1..3};
   max z1 = (2*x[1]-3*x[2]+5*x[3])**3/(x[1]+5*x[2]+x[3]**2);
   read data bounds into [_N_] x.lb=lb x.ub=ub;
   solve with nlp/multistart ;
   print x;
quit;

dali74 · Posted 11-25-2017 01:16 PM

if it will be possible to read coeficientes that multiplies x too?

RobPratt · Posted 11-26-2017 03:02 PM

data bounds;
   input lb ub a b;
   datalines;
-1   3    2 1
 1.5 2   -3 5
 1.2 2.2  5 1
;

proc optmodel;
   var x {1..3};
   num a {1..3};
   num b {1..3};
   max z1 = (sum {j in 1..3} a[j]*x[j])**3/(b[1]*x[1]+b[2]*x[2]+b[3]*x[3]**2);
   read data bounds into [_N_] x.lb=lb x.ub=ub a b;
   solve with nlp/multistart ;
   print x;
quit;

dali74 · Posted 11-26-2017 03:18 PM

edit: it works too

thanks rob!



data bounds;
   input lb ub a b;
   datalines;
-1   3    2 1
 1.5 2   -3 5
 1.2 2.2  5 1
;

proc optmodel;
   var x {1..3};
   num a {1..3};
   num b {1..3};
   max z1 = (sum {j in 1..3} a[j]*x[j])**3/ (sum {j in 1..3} b[j]*x[j]);
   read data bounds into [_N_] x.lb=lb x.ub=ub a b;
   solve with nlp/multistart ;
   print x;
quit;

RobPratt · Posted 11-27-2017 11:22 AM

Note that your original objective function had x[3]**2 in the denominator. With your latest change, it is now just x[3]. If that is what you want, here's a way to make the code more data-driven (without hard-coding 1..3):

proc optmodel;
   set OBS;
   var x {OBS};
   num a {OBS};
   num b {OBS};
   max z1 = (sum {j in OBS} a[j]*x[j])**3/ (sum {j in OBS} b[j]*x[j]);
   read data bounds into OBS=[_N_] x.lb=lb x.ub=ub a b;
   solve with nlp/multistart ;
   print x;
quit;

This way, you can run again with different data without changing the PROC OPTMODEL code. Such separation of model and data is a best practice enabled by the use of an algebraic modeling language.