failfree: A tool for verifying fail-free Curry programs

Basic idea of the tool:

The objective is this tool is to verify that all operations are non-failing, i.e., their evaluation does not result in a failure, if they are called with arguments satisfying the non-failing precondition of the operation.

Example:

-- The operation `head` does not fail if this precondition is satisfied:
head'nonfail xs = not (null xs)

head (x:xs) = x

Note that the non-failing precondition is not a precondition for head, i.e., it is still allowed to use head in a logical setting. However, it can be used to verify that the following operation is non-failing:

readCommand = do
  putStr "Input a command:"
  s <- getLine
  let ws = words s
  if null ws then readCommand
             else processCommand (head ws) (tail ws)

A detailed description can be found in the PPDP 2018 paper. Basically, the following techniques are used to verify non-failing properties:

Test whether the operation is pattern-completely defined (i.e., branches on all patterns in all or-branches) for all inputs satisfying the non-failing precondition. If this is not the case, the operation is possibly failing.
Test whether the operations called in the right-hand side are used with satisfied non-failing preconditions for all inputs satisfying the non-failing precondition.
Test whether a call to Prelude.failed is unreachable, e.g., in

abs x = if x>=0 then x else if x<0 then (0 - x) else failed

Note that this might be the result translating the following definition:

   abs x | x>=0 = x
         | x<0  = 0 - x

This requires reasoning on integer arithmetic, as supported by SMT solvers.

Depending on the state of the operation error, this could also avoid the occurrence of run-time errors:

readLine = do
  putStr "Input a non-empty string:"
  s <- getLine
  if null s then error "Empty input!"
            else do putStr "First char: "
                    putStrLn (head s)

If error is considered as an always failing operation (which is done if the option --error is set), readLine cannot be verified as non-failing. However, this requires also a careful analysis of all external operations (like readFile) which might raise exceptions.

Current restrictions:

The non-fail condition should be a Boolean formula, i.e., not a function with pattern matching or local definitions. Furthermore, it should be a first-order equation, i.e., in eta-expanded form.

Notes:

Contracts and non-fail conditions can also be stored in separate files. When checking a module m, if there is a Curry module m_SPEC in the load path for module m or in the package directory include, the contents of m_SPEC is added to m before it is checked.
Non-fail conditions for operators can also be specified by operations named by op_xh1...hn', where each hi is a two digit hexadecimal number and the name of the operator corresponds to the ord values of h1...hn. For instance, the non-fail condition for &> can be named op_x263E'nonfail. To generate such names automatically, one can use the option --name of the tool.
Operations defining contracts and properties are not verified.

Directories of the package:

examples: some examples (and test suite)
include: an include file for the SMT solver and non-fail conditions for various system modules
src: source code of the implementation