# python-constraint Allequal

This question is about the python package constraint (see http://labix.org/python-constraint), in particular the built-in "AllEqualConstraint". In a problem involving 4 variables, I would like to enforce the first two and the second two to be equal, i.e.:

``````p = Problem()
``````

I only get two solutions:

``````for sol in p.getSolutions():
print sol

> {1: 1, 2: 1, 3: 1, 4: 1}
> {1: 0, 2: 0, 3: 0, 4: 0}
``````

where I would expect to see four, namely:

``````> {1: 1, 2: 1, 3: 1, 4: 1}
> {1: 1, 2: 1, 3: 0, 4: 0}
> {1: 0, 2: 0, 3: 1, 4: 1}
> {1: 0, 2: 0, 3: 0, 4: 0}
``````

My question is: Can anyone confirm that this is what the package intends to compute and what the reasoning behind it is?

Ps: I have contacted the authors of this package, but got no reply yet. I know that this package is fairly well known and that there have been questions about it on StackOverflow before.

In answer to LVC: The constraint does not always apply the constraint to all variables:

``````p = Problem()
``````

gives

``````> {1: 1, 2: 1, 3: 1}
> {1: 1, 2: 1, 3: 0}
> {1: 0, 2: 0, 3: 1}
> {1: 0, 2: 0, 3: 0}
``````

as expected. If the `AllEqualConstraint` didn't respect variables, it would be very limited.

-

The module's source code contains this in how it enforeces `AllEqualConstraint`:

``````def __call__(self, variables, domains, assignments, forwardcheck=False,
_unassigned=Unassigned):
singlevalue = _unassigned
for value in assignments.values():
if singlevalue is _unassigned:
singlevalue = value
elif value != singlevalue:
return False
``````

The code that calls this in each `Solver` does this:

``````for constraint, variables in vconstraints[variable]:
if not constraint(variables, domains, assignments,
pushdomains):
# Value is not good.
break
``````

`assignments` contains all assignments for all variables, not just the variables affected by the constraint. This means that `AllEqualConstraint` doesn't care about the variables you put in `addConstraint` - it always tests that all the variables in the potential solution are equal, which is why you're missing the two solutions where that isn't the case.

The only time `AllEqualConstraint` looks at the `variables` argument is when it is called with `forwardcheck` being truthy. In that case, it does this:

``````if forwardcheck and singlevalue is not _unassigned:
for variable in variables:
if variable not in assignments:
domain = domains[variable]
if singlevalue not in domain:
return False
for value in domain[:]:
if value != singlevalue:
domain.hideValue(value)
``````

But none of the provided solvers appear to ever call a constraint with any `forwardcheck` value other than the default - which, in the case of `AllEqualConstraint` is `False`.

So, you will have to specify your own manual constraint - but this isn't too hard, since they can just be functions that take the appropriate number of variables (it gets wrapped in a `FunctionConstraint`, so you don't need to care about all the other stuff that gets passed to `Constraint.__call__`).

What you want as a Constraint, therefore, is a function that takes two variables, and returns whether they are equal. `operator.eq` fits the bill nicely:

``````p.addConstraint(operator.eq, [1, 2])
``````

Should give you the result you're looking for.

So scale this to more than two variables, you can write your own function:

``````def all_equal(a, b, c):
return a == b == c
``````

Or, more generally:

``````def all_equal(*vars):
if not vars:
return True
return all(var == var[0] for var in vars)
``````
-
Good stuff. I know about the `FunctionConstraint`. Its just that if I have the choice of using a built-in constraint or the equivalent function constraint, I would always go for the built-in version. But you're right: In this case I would have to use a function constraint. –  Leevi L Aug 29 '12 at 13:04
The `AllEqualConstraint` does respect variables, see edit of my question. –  Leevi L Aug 29 '12 at 13:27
@LeeviL are you using a different solver than the provided ones by any chance? If not, then I have no idea how the `AllEqualConstraint` is working in the example you give - as far as my ability to follow the code goes (at least, this side of local midnight..), the `AllEqualConstraint` will respect variables only sometimes (and I've updated my answer with all the gory details), but none of the solvers in that module will call it that way. –  lvc Aug 29 '12 at 14:39
Have you tried it? I didn't change the solver. –  Leevi L Aug 29 '12 at 14:53

[Too long for a comment.]

The edit you made doesn't show that `AllEqualConstraint` respects the variable restrictions, only that it doesn't always manage to ignore them completely. The code segment that @lvc noted does what he said it does. If you instrument it, you can see (using `a`,`b`,`c`,`d` as variable names for clarity) that

``````from constraint import *
p = Problem()
print p.getSolutions()
``````

eventually produces

``````variables: ['c', 'd']
domains: {'a': [0, 1], 'c': [0, 1], 'b': [1], 'd': [1, 0]}
assignments: {'a': 1, 'c': 0, 'b': 1}
forwardcheck: [[1, 0]]
_unassigned: Unassigned
setting singlevalue to 1 from variable a
returning False because assigned variable c with value 0 != 1
``````

And indeed, as @lvc said, it's imposing a constraint that `a` should equal `c`, even though it shouldn't. I think the relevant loop should be something more like

``````    for key, value in assignments.items():
if key not in variables: continue
``````

which produces

``````[{'a': 1, 'c': 1, 'b': 1, 'd': 1}, {'a': 1, 'c': 0, 'b': 1, 'd': 0},
{'a': 0, 'c': 1, 'b': 0, 'd': 1}, {'a': 0, 'c': 0, 'b': 0, 'd': 0}]
``````

although I don't know how the code really works so it's hard to be sure. This feels like a bug to me. That may seem unlikely, but it doesn't look like `AllEqualConstraint` is used anywhere in the code base (in none of the examples) except in its own docstring, where the example tests a case where every variable participates in the constraint, and so the bug wouldn't appear.

-
I agree that it feels like a bug, given that loop guarded by `if forwarcheck...` does pay attention to variables. It should either respect them or ignore them - changing its mind sometimes certainly sounds buggy! –  lvc Aug 29 '12 at 14:45
Especially when you compare the logic of `AllEqualConstraint` to `AllDifferentConstraint`. `ADC` explicitly does a `for variable in variables:` loop in exactly the place where I think `AEC` should.. –  DSM Aug 29 '12 at 14:46