- Documentation
- Reference manual
- The SWI-Prolog library
- library(clpfd): CLP(FD): Constraint Logic Programming over Finite Domains
- Introduction
- Arithmetic constraints
- Declarative integer arithmetic
- Example: Factorial relation
- Combinatorial constraints
- Domains
- Example: Sudoku
- Residual goals
- Core relations and search
- Example: Eight queens puzzle
- Optimisation
- Reification
- Enabling monotonic CLP(FD)
- Custom constraints
- Applications
- Acknowledgments
- CLP(FD) predicate index
- Closing and opening words about CLP(FD)
- library(clpfd): CLP(FD): Constraint Logic Programming over Finite Domains
- The SWI-Prolog library
- Packages
- Reference manual
A.8.11 Optimisation
We can use labeling/2
to minimize or maximize the value of a CLP(FD) expression, and generate
solutions in increasing or decreasing order of the value. See the
labeling options min(Expr)
and max(Expr)
,
respectively.
Again, to easily try different labeling options in connection with
optimisation, we recommend to introduce a dedicated predicate for
posting constraints, and to use labeling/2
in a separate
goal. This way, we can observe properties of the core relation in
isolation, and try different labeling options without recompiling our
code.
If necessary, we can use once/1
to commit to the first
optimal solution. However, it is often very valuable to see alternative
solutions that are also optimal, so that we can choose among
optimal solutions by other criteria. For the sake of
https://www.metalevel.at/prolog/puritypurity and completeness, we
recommend to avoid once/1
and other constructs that lead to
impurities in CLP(FD) programs.
Related to optimisation with CLP(FD) constraints are
http://eu.swi-prolog.org/man/simplex.htmllibrary(simplex)
and CLP(Q) which reason about linear constraints over rational
numbers.