We have to solve a difficult problem where we need to check a lot of complex rules from multiple sources against a system in order to decide if the system satisfy those rules or how it should be changed to satisfy them.

We initially started using Constraint Satisfaction Problems algorithms (using Choco) to try to solve it but since the number of rules and variables would be smaller than anticipated, we are looking to build a list of all possibles configurations on a database and using multiple requests based on the rules to filter this list and find the solutions this way.

Is there limitations or disadvantages of doing a systematic search compared to using a CSP solver algorithms for a reasonable number of rules and variables? Will it impact performances significantly? Will it reduce the kind of constraints we can implement?

**As examples** :

You have to imagine it with a much bigger number of variables, much bigger domains of definition (but always discrete) and bigger number of rules (and some much more complex) but instead of describing the problem as :

```
x in (1,6,9)
y in (2,7)
z in (1,6)
y = x + 1
z = x if x < 5 OR z = y if x > 5
```

And giving it to a solver we would build a table :

```
X | Y | Z
1 2 1
6 2 1
9 2 1
1 7 1
6 7 1
9 7 1
1 2 6
6 2 6
9 2 6
1 7 6
6 7 6
9 7 6
```

And use queries like (this is just an example to help understand, actually we would use SPARQL against a semantic database) :

```
SELECT X, Y, Z WHERE Y = X + 1
INTERSECT
SELECT X, Y, Z WHERE (Z = X AND X < 5) OR (Z = Y AND X > 5)
```

4more comments