decis03.gms : Test of correctness for levels and marginals of LP

Description

```This model is an extension of DECIS02 to allow duplicate blocks.
Test of correctness of the levels and marginals returned.
All cases are considered, e.g.
1) =L=, =G=, =E= constraints (should we add =N=?)
2) variables at lower and upper bound, and not at bound
3) min or max
4) special attention paid to the form of the obj. constraint, i.e.
cz * z = cx + b where cz and b take different values

The unique wrinkles with this model are:
1. It is set up to be a trivial 2-stage model: s2 is the only 2nd-stage var,
s2con the only 2nd-stage constraint.  Any LP solver can solve the
core model given here, and we formulate the deterministic version
so that each scenario is identical and we can test results from
stochastic solvers since we know the expected result.
2. The model is made up of duplicate blocks so the size can be
adjusted easily.  The set I controls the duplicate blocks.

Author: Steven Dirkse, March 2007
```

Small Model of Type : LP

Category : GAMS Test library

Main file : decis03.gms

``````\$title 'Test of correctness for levels & marginals of LP' (DECIS03,SEQ=375)

\$ontext
This model is an extension of DECIS02 to allow duplicate blocks.
Test of correctness of the levels and marginals returned.
All cases are considered, e.g.
1) =L=, =G=, =E= constraints (should we add =N=?)
2) variables at lower and upper bound, and not at bound
3) min or max
4) special attention paid to the form of the obj. constraint, i.e.
cz * z = cx + b where cz and b take different values

The unique wrinkles with this model are:
1. It is set up to be a trivial 2-stage model: s2 is the only 2nd-stage var,
s2con the only 2nd-stage constraint.  Any LP solver can solve the
core model given here, and we formulate the deterministic version
so that each scenario is identical and we can test results from
stochastic solvers since we know the expected result.
2. The model is made up of duplicate blocks so the size can be
adjusted easily.  The set I controls the duplicate blocks.

Author: Steven Dirkse, March 2007
\$offtext

\$if not set MTYPE   \$set MTYPE lp
\$if not set TESTTOL \$set TESTTOL 1e-6
scalar mchecks / 0 /;
\$if not %QPMCHECKS% == 0 mchecks = 1;

scalar failed / 0 /;
\$escape =
\$echo if{%=1, display '%=1 failed', '%=2'; failed=1}; > gtest.gms
\$escape %

* FYI, m=n=8*(card(I)) + 1
* where for each I, 7 cons are first level and 1 second level
*                   7 vars are first level and 1 second level
\$if not set isize \$set isize 40
\$if set demo \$set isize 3
\$if not set lictest \$set isize 3

set I 'size control: duplicate vars/constraints for each i' /
i1 * i%isize%
/;
set J / j1 * j7 /;
set GT / gt1 * gt2 /;
set LT / lt1 * lt2 /;
set EQ / eq1 * eq3 /;

scalars
n  'number of duplicate blocks in the model'
cz,
cb;

n = card(I);

parameters
c(J) / j1   -1
j2   1
j3   5
j4   -6
j5   6
j6   -1
j7   1 /
bgt(GT) /
gt1  2
gt2  4 /,
blt(LT) /
lt1  -17
lt2  10 /,
beq(EQ) /
eq1  9
eq2  0
eq3  0  /,
s2conRHS  / 2 /;

table Agt(GT,J)
j1      j2
gt1     1       1
gt2     4       1 ;

table Alt(LT,J)
j3      j4
lt1     -6      1
lt2     1       2 ;

parameter Aeq(EQ,J) /
eq2.j5  2
eq2.j7  2
eq3.j1  -1
eq3.j4  -2
eq3.j6  1
/;
Aeq('eq1',j)\$(ord(j) le 7) = 1;

variable
s2(I)
x(I,J)
z;

* these bounds should never be active - but they help the global solvers
x.lo(I,J) = -2;
x.up(I,J) =  5;
s2.lo(I)  = -2;
s2.up(I)  = 5;

* these are active and tested to be so
x.lo(I,'j5') = 1;
x.up(I,'j6') = 3;

* intentionally mix up first-stage rows with obj and second-stage row
equations
gte(I,GT)
s2con
lte(I,LT)
obj
eqe(I,EQ)
;

obj..   cz*z =E=  cb + sum{I, sum{J,c(J)*x(I,J)} + s2(I)};
gte(I,GT)..  sum{J, Agt(GT,J)*x(I,J)} =G= bgt(GT);
lte(I,LT)..  sum{J, Alt(LT,J)*x(I,J)} =L= blt(LT);
eqe(I,EQ)..  sum{J, Aeq(EQ,J)*x(I,J)} =E= beq(EQ);
s2con(I)..   x(I,'j5') + s2(I) =G= s2conRHS;

model m / all /;

* DECIS requires setting the stage for each row/col,
* apart from the objective row/col which can be skipped
x.stage(I,j) = 1;
s2.stage(I) = 2;

gte.stage(I,GT) = 1;
lte.stage(I,LT) = 1;
eqe.stage(I,EQ) = 1;
s2con.stage(I)  = 2;

* DECIS requires a stage file describing the stochastic parameters
* in this case, the RHS of s2con takes two identical values, each with
* probability 1/2.
file stg / MODEL.STG /;
put stg;

put "INDEP DISCRETE" /;
loop{I,
put "RHS s2con ", I.tl, " ", s2conRHS, " period2 0.5" /;
put "RHS s2con ", I.tl, " ", s2conRHS, " period2 0.5" /;
}
putclose;

* output a MINOS option file in case we run old DECISM
file mopt / MINOS.SPC /;
put mopt;
put "begin"/;
put "rows 250"/;
put "columns 250"/;
put "elements 10000"/;
put "end"/;
putclose;

set czvals 'obj multipliers' /
'cz=1',
'cz=0.5'
'cz=3'
'cz=-1'
'cz=-0.5'
'cz=-3'
/;
parameter czv(czvals) /
'cz=1'          1
'cz=0.5'        0.5
'cz=3'          3
'cz=-1'                -1
'cz=-0.5'       -0.5
'cz=-3'                -3
/;

set cbvals 'obj constants' /
'cb=0'
'cb=2'
'cb=-2'
/;
parameter cbv(cbvals) /
'cb=0'          0
'cb=2'          2
'cb=-2'                -2
/;

scalars
isMin   /    0 /,
tol     /    %TESTTOL% /,
obj_l   /    0.0 /
obj_m   /    1.0 /
objval  /   12.0 /;

parameters
x_l(J)    / j1       1.0
j2       1.0
j3       3.0
j4       1.0
j5       1.0
j6       3.0
j7       -1.0 /
x_m(J)    / j1       0.0
j2       0.0
j3       0.0
j4       0.0
j5       4.0
j6       -2.0
j7       0.0 /
s2_l      / 1 /,
s2_m      / 0 /,
gte_l(GT) / gt1      2.0
gt2      5.0 /
gte_m(GT) / gt1      2.0
gt2      0.0 /
lte_l(LT) / lt1      -17.0
lt2      5.0 /
lte_m(LT) / lt1      -1.0
lt2      0.0 /
eqe_l(EQ) / eq1      9.0
eq2      0
eq3      0  /
eqe_m(EQ) / eq1      -1.0
eq2      1
eq3      2  /;

\$set cond <=INF
\$if set lictest \$set cond =1

loop {czvals\$[ord(czvals) %cond%],
cz = czv(czvals);
loop {cbvals\$[ord(cbvals) %cond%],
cb = cbv(cbvals);
if {(cz > 0),
isMin = 1;
solve m using %MTYPE% min z;
else
isMin = -1;
solve m using %MTYPE% max z;
};

\$if not set lictest \$goto skiplicstuff
*fix for decism
m.solvestat\$(m.solvestat = 0) = %solvestat.System Failure%;
\$if     set expectfail abort\$(not ((m.solvestat = %solvestat.LicensingProblems% or m.solvestat = %solvestat.SetupFailure% or m.solvestat = %solvestat.System Failure%) and (m.modelstat = %modelstat.LicensingProblem% or m.modelstat = %modelstat.ErrorNoSolution% or m.modelstat = %ModelStat.ErrorUnknown%))) 'Expected license failure';
\$if not set expectfail abort\$(    ((m.solvestat = %solvestat.LicensingProblems% or m.solvestat = %solvestat.SetupFailure% or m.solvestat = %solvestat.System Failure%) and (m.modelstat = %modelstat.LicensingProblem% or m.modelstat = %modelstat.ErrorNoSolution% or m.modelstat = %ModelStat.ErrorUnknown%))) 'Expected working license';
}}
\$exit

\$label skiplicstuff
*  abort\$1 "just one solve for now";
\$ batinclude gtest "( m.solvestat <> %solvestat.NormalCompletion% or (m.modelstat > %modelstat.LocallyOptimal% and m.modelstat <> %modelstat.FeasibleSolution%))" "wrong status codes"

\$ batinclude gtest "(abs(cz*z.l-cb-objval*n) > tol)"           "bad z.l"
\$ batinclude gtest "(abs(z.m) > tol)"                          "bad z.m"

\$ batinclude gtest "(abs(obj.l-cb) > tol)"                     "bad obj.l"
loop{I,
\$   batinclude gtest "(smax(J, abs(x.l(I,j)-x_l(j))) > tol)"       "bad x.l"
\$   batinclude gtest "(abs(s2.l(I)-s2_l) > tol)"                   "bad s2.l"
\$   batinclude gtest "(smax(GT,abs(gte.l(I,GT)-gte_l(GT))) > tol)" "bad gte.l"
\$   batinclude gtest "(smax(LT,abs(lte.l(I,LT)-lte_l(LT))) > tol)" "bad lte.l"
\$   batinclude gtest "(smax(EQ,abs(eqe.l(I,EQ)-eqe_l(EQ))) > tol)" "bad eqe.l"
};

if {mchecks,
\$   batinclude gtest "(abs(cz*obj.m-obj_m) > tol)"                  "bad obj.m"
* \$   batinclude gtest "(smax(J, abs(cz*x.m(j)-x_m(j))) > tol)"       "bad x.m"
loop{I,
\$     batinclude gtest "(abs(cz*s2.m(I)-s2_m) > tol)"                    "bad s2.m"
\$     batinclude gtest "(smax(GT,abs(cz*gte.m(I,GT)-gte_m(GT))) > tol)"  "bad gte.m"
\$     batinclude gtest "(smax(LT,abs(cz*lte.m(I,LT)-lte_m(LT))) > tol)"  "bad lte.m"
\$     batinclude gtest "(smax(EQ,abs(cz*eqe.m(I,EQ)-eqe_m(EQ))) > tol)"  "bad eqe.m"
};
};

\$if set doscalar
if (failed, option %MTYPE%=convert; if {(cz > 0), solve m using %MTYPE% min z; else solve m using %MTYPE% max z;})
abort\$failed 'test failed', cz, cb;

};
};
``````
GAMS Development Corp.
GAMS Software GmbH

General Information and Sales
U.S. (+1) 202 342-0180
Europe: (+49) 221 949-9170