Automatic Proof Search (Auto)

Agda supports (since version 2.2.6) the command Auto, that searches for type inhabitants and fills a hole when one is found. The type inhabitant found is not necessarily unique.

Auto can be used as an aid when interactively constructing terms in Agda. In a system with dependent types it can be meaningful to use such a tool for finding fragments of, not only proofs, but also programs. For instance, giving the type signature of the map function over vectors, you will get the desired function as the first solution.

The tool is based on a term search implementation independent of Agda called Agsy. Agsy is a general purpose search algorithm for a dependently typed language similar to Agda. One should not expect it to handle large problems of any particular kind, but small enough problems of almost any kind.

Any solution coming from Auto is checked by Agda. Also, the main search algorithm has a timeout mechanism. Therefore, there is little harm in trying Auto and it might save you key presses.

Usage

The tool is invoked by placing the cursor on a hole and choosing Auto in the goal menu or pressing C-c C-a. Agsy’s behaviour can be changed by using various options which are passed directly in the hole.

Option

Meaning

-t N

Set timeout to N seconds

-c

Allow Agsy to use case-split

-d

Attempt to disprove the goal

ID

Use definition ID as a hint

-m

Use the definitions in the current module as hints

-r

Use the unqualified definitions in scope as hints

-l

List up to ten solutions, does not commit to any

-s N

Commit to the N th solution

Giving no arguments is fine and results in a search with default parameters. The search carries on until either a (not necessarily unique) solution is found, the search space is fully (and unsuccessfully) explored or it times out (one second by default). Here follows a list of the different modes and parameters.

Case split

Auto normally only tries to find a term that could replace the current hole. However, if the hole constitutes the entire RHS of the clause (same as for the make-case command), you can instruct Auto to try case splitting by writing (since version 2.2.8) -c.

Note that if a solution is found the whole file will be reloaded (as for make-case) resulting in a delay. Case splitting cannot yet be combined with -l or -s <n>.

Equality reasoning

If the constants _≡_ begin_ _≡⟨_⟩_ _∎ sym cong from the standard library are in scope, then Auto will do equality reasoning using these constructs. However, it will not do anything more clever than things like not nesting several sym or cong. Hence long chains of equalities should not be expected and required arithmetical rules have to be given as hints.

Hints

Auto does not by default try using constants in scope. If there is a lemma around that might help in constructing the term you can include it in the search by giving hints. There are two ways of doing this. One way is to provide the exact list of constants to include. Such a list is given by writing a number of constant names separated by space: <hint1> <hint2> ....

The other way is to write -m. This includes all constants in scope which are defined or postulated in the innermost module surrounding the current hole. It is also possible to combine -m with a list of named constants (not included by -m).

There are a few exceptions to what you have to specify as hints:

  • Datatypes and constants that can be deduced by unifying the two sides of an equality constraint can be omitted.

    E.g., if the constraint ? = List A occurs during the search, then refining ? to List ... will happen without having to provide List as a hint. The constants that you can leave out overlap more or less with the ones appearing in hidden arguments, i.e. you wouldn’t have written them when giving the term by hand either.

  • Constructors and projection functions are automatically tried, so should never be given as hints.

  • Recursive calls, although currently only the function itself, not all functions in the same mutual block.

Timeout

The timeout is one second by default but can be changed by adding -t <n> to the parameters, where <n> is the number of seconds.

Listing and choosing among several solutions

Normally, Auto replaces the hole with the first solution found. If you are not happy with that particular solution, you can list the ten (at most) first solutions encountered by including the flag -l.

You can then pick a particular solution by writing -s <n> where <n> is the number of solutions to skip (as well as the number appearing before the solution in the list). The options -l and -s <n> can be combined to list solutions other than the ten first ones.

Disproving

If you are uncertain about the validity of what you are trying to prove, you can use Auto to try to find a counterproof. The flag -d makes Auto negate the current goal and search for a term disproving it. If such a term is found, it will be displayed in the info buffer. The flag -d can be combined with -l and -l -s <n>.

Auto refine / suggest

There is a special mode for searching (part of) the scope of constants for possible refinement candidates. The flag -r chooses this mode. By default all constants which are in scope unqualified are included.

The constants that matches the current goal are sorted in order of how many constructs their result type contains. This means that the constants which in some sense match the goal most specifically will appear first and the most general ones last. By default, Auto will present a list of candidates, rather than refining using the topmost constant. To select one of them for refinement, combine -r with -s <n>. In order to list constants other than the ten first ones, write -r -l -s <n>.

The auto refine feature has little to do with the rest of the Auto tool. If it turns out to be useful it could be improved and made into a separate Emacs mode command.

Dependencies between meta variables

If the goal type or type of local variables contain meta variables, then the constraints for these are also included in the search. If a solution is found it means that Auto has also found solutions for the occurring meta variables. Those solutions will be inserted into your file along with that of the hole from where you called Auto. Also, any unsolved equality constraints that contain any of the involved meta variables are respected in the search.

Limitations

  • Irrelevance is not yet respected. Agsy will happily use a parameter marked as irrelevant and does not disregard irrelevant arguments when comparing terms.

  • Records that lack a constructor name are still deconstructed when case splitting, but the name of the record type is used instead of a constructor name in the resulting pattern.

  • Literals representing natural numbers are supported (but any generated natural number will be given in constructor form). Apart from this, literals are not supported.

  • Primitive functions are not supported.

  • Termination checking for recursive calls is done locally, so a non-terminating set of clauses might be sent back to Agda.

  • Agsy currently does not automatically pick a datatype when instantiating types. A frequently occurring situation is when you try to disprove a generic property. Then Agsy must come up with a particular type as part of the disproof. You can either fix your generic type to e.g. Nat or Fin n (for an arbitrary n if you wish), or you give Nat or Fin as a hint to the search.

  • Case split mode currently does not do case on expressions (with).

  • Case split mode sometimes gives a unnecessarily complex RHS for some clause when the solution consists of several clauses.

  • Agsy has universe subtyping, so sometimes suggests solutions not accepted by Agda.

  • Universe polymorphism is only partially supported. Agsy may fail when trying to construct universe polymorphic definitions, but will probably succeed (with respect to this) when constructing terms which refer to, or whose type is defined in terms of, universe polymorphic definitions.

  • In case split and disproving modes, the current goal may not depend on any other meta variables. For disproving mode this means that there may be implicitly universally quantified but not existentially quantified stuff.

  • Searching for simultaneous solutions of several holes does not combine well with parameterised modules and recursive calls.

User feedback

When sending bug reports, please use Agda’s bug tracker. Apart from that, receiving nice examples (via the bug tracker) would be much appreciated. Both such examples which Auto does not solve, but you have a feeling it’s not larger than for that to be possible. And examples that Auto only solves by increasing timeout. The examples sent in will be used for tuning the heuristics and hopefully improving the performance.