simplex.simplex."saddle.distn" has a method for the function print."simplex" are implemented as a list with the following
components.
x which optimize the objective function under the specified
constraints provided those constraints are jointly feasible.
}
-1 indicates that
no feasible solution could be found. A value of 0 that the maximum number
of iterations was reached without termination of the second stage. This may
indicate an unbounded function or simply that more iterations are needed.
A value of 1 indicates that an optimal solution has been found.
}
soln.
}
NULL if a feasible solution is found. Otherwise it is a positive
value giving the value of the auxiliary objective function when it was
minimized.
}
NULL if a feasible solution is found. Otherwise it is the
re-expressed auxiliary objective function at the termination of the first
phase of the simplex method.
}
m1+m2+m3 by n+m1+m2, where the final m1+m2 columns correspond to slack
and surplus variables. If no feasible solution is found there will be an
additional m1+m2+m3 columns for the artificial variables introduced to solve
the first phase of the problem.
}
n+1 and n+m1 correspond to slack variables, those between n+m1+1
and n+m2 correspond to surplus variables and those greater than n+m2 are
artificial variables. Indices greater than n+m2 should occur only if solved
is -1 as the artificial variables are discarded in the second stage of the
simplex method.
}
m1 slack variables which arise when the "<=" constraints="" are="" re-expressed="" as="" the="" equalities="" m2 surplus variables which arise when the "<=" constraints="" are="" re-expressed="" as="" the="" equalities="" m1+m2+m3 artificial variables which
minimize their sum subject to the original constraints. A feasible solution
exists only if all of the artificial variables can be made 0 simultaneously.
}
print.simplex, simplex