The FlatZinc interpreter described here is based on “Specification of FlatZinc, version 1.6”, available at http://www.g12.csse.unimelb.edu.au/minizinc/specifications.html.
A FlatZinc program can be run directly using
fzn_run_stream/[1,2]. For example, a program for solving the
4 Queens problem, located in
can be run by the following goal:
| ?- fzn_run_file(library('zinc/examples/queen4')).
The following solution is then written on the current output stream:
q = array1d(1..4, [2, 4, 1, 3]); ----------
Note the ten consecutive dashes after the solution.
The following goal can be used to find all solutions:
| ?- fzn_run_file(library('zinc/examples/queen4'), [solutions(all)]).
The following solutions are then written on the current output stream:
q = array1d(1..4, [2, 4, 1, 3]); ---------- q = array1d(1..4, [3, 1, 4, 2]); ---------- ==========
Note the ten consecutive equal signs after all solutions have been found.
FlatZinc programs are not intended to be written (or read) by humans,
but rather to be automatically generated. One way to generate a FlatZinc
program is by using a MiniZinc-to-FlatZinc translator, such as
mzn2fzn, provided by the G12 project. One usage of this
translator is to first generate a FlatZinc program from a MiniZinc
program, e.g. by the following command line (
queen4.dat can be found in
mzn2fzn --data queen4.dat --output-to-file queen4.fzn queen.mzn
The resulting FlatZinc program
queen4.fzn can then be run as
described above. If a generated FlatZinc program is not desired, another
usage of mzn2fzn is to pipe its result directly to a SICStus
process, e.g. by the following command line:
mzn2fzn --data queen4.dat --output-to-stdout queen.mzn | sicstus --goal 'use_module(library(zinc)), fzn_run_stream(user_input), halt.'
Please note: The translator mzn2fzn should be made aware
of the SICStus specific global constraint definitions, located in
library('zinc/globals'). This can for example be done by passing
the path to
library('zinc/globals') using the --search-dir
option of mzn2fzn. This is necessary in order for the
MiniZinc-to-FlatZinc translation to be SICStus specific. If this
is not done the SICStus interpreter may run the resulting FlatZinc
program significantly slower.
It is also possible to just load a FlatZinc program into SICStus by
fzn_load_stream/2. The loaded FlatZinc
program can then be processed further from within SICStus, e.g. by
retrieving some FlatZinc variables using
library(clpfd) constraints or applying a
Prolog labeling predicate on those variables.
Finally, it is also possible to load and run MiniZinc programs directly from within SICStus by using the predicates described in MiniZinc. These predicates all rely on the availability of an external MiniZinc-to-FlatZinc translator such as mzn2fzn, as well as an external solution printer such as solns2out (see MiniZinc).