Package zerodim
This article is about a function from ApCoCoA-2. If you are looking for the ApCoCoA-1 version of it, see Category:ApCoCoA-1:Package ZeroDim. |
This page describes the zerodim package. For a complete list of functions, see Category:Package zerodim.
This package contains various functions for computing algebraic invariants of zero-dimensional schemes and related computations.
The basic idea behind this package is to make the linear optimization program GLPK usable in/with ApCoCoA. The package GLPK contains various functions that let you make use of the GLPK library, rather the stand-alone LP/MIP Solver glpsol.
Important: For usage under linux, the GLPK-Program glpsol must be in the ApCoCoA package directory under packages/binaries/glpk/examples/glpsol
and you must have the permissions to read and write in this directory. For Windows, the glsol.exe has to be in the folder packages\binaries\glpk\w64\glpsol.exe
. If you installed ApCoCoA-2 together with the GUI, this should already be the case.
The source code of GLPK can be downloaded at [1].
Optimizing Linear Systems Of Equations
- See also: GLPK.LPSolve
Let and . Let be linear polynomials and let . Let be the system of polynomial (in)equations
Then the function GLPK.LPSolve
can be used to find solution to such that in the following way.
- Let
EQ
be the list , letLE
be the list , and letGE
be the list . - Let
l
andu
be the lists containing the upper and lower bounds for the withl[i]
andu[i]
, if both are rational numbers. Instead of and , writel[i] = ""
oru[i] = ""
. SetB := [ [l[1],u[1]], [l[2],u[2]], ..., [l[n],u[n]] ]
. - Choose a string
Method
from[ "InterP", "Simplex" ]
depending on the method you want GLPK to use for solving the problem ("InterP"
stands for the inter-point-method and"Simplex"
for the simplex method) - Choose a string
MinMax
from[ "Min", "Max" ]
depending on whether you want to fulfill or .
Then call
GLPK.LPSolve(c,EQ,LE,GE,B,Method,MinMax)
to get the desired solution as a list b = [b1,...,bn]
or the empty list []
if the given system of (in)equalities is unsatisfiable.
Solving Mixed Integer Problems
- See also: GLPK.MIPSolve
Let be disjoint sets. If additionally, a solution with for and for is searched, then one can use the function GLPK.MIPSolve
. Together with c
, EQ
, LE
, GE
, B
and MinMax
from above, the code
GLPK.MIPSolve(c,EQ,LE,GE,B,I,J,MinMax)
produces the desired solution or []
if the given system has no such solution.