souffle-haskell: Souffle Datalog bindings for Haskell

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Souffle Datalog bindings for Haskell.

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Versions [RSS] [faq] 0.0.1, 0.1.0, 0.2.0, 0.2.1, 0.2.2, 0.2.3, 1.0.0, 1.1.0, 2.0.0, 2.0.1, 2.1.0, 3.0.0, 3.1.0
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Dependencies base (>=4.12 && <5), mtl (>=2.0 && <3), template-haskell (==2.*), text (>=1.0 && <2), type-errors-pretty (>= && <1), vector (<=1.0) [details]
License MIT
Copyright 2019 Luc Tielen
Author Luc Tielen
Category Logic Programming, Foreign Binding, Bindings
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Source repo head: git clone
Uploaded by luc_tielen at 2019-12-21T10:45:55Z
Distributions NixOS:3.0.0
Downloads 1749 total (67 in the last 30 days)
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Maintainer's Corner

For package maintainers and hackage trustees


Readme for souffle-haskell-0.1.0

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License: MIT Hackage

This repo provides Haskell bindings for performing analyses with the Souffle Datalog language. It does this by binding directly to an "embedded" Souffle program (previously generated with souffle -g).

Fun fact: this library combines both functional programming (Haskell), logic programming (Datalog / Souffle) and imperative / OO programming (C / C++).

Motivating example

Let's first write a datalog program that can check if 1 point is reachable from another:

// We define 2 data types:
.decl edge(n: symbol, m: symbol)
.decl reachable(n: symbol, m: symbol)

// We indicate we are interested in "reachable" facts.
// NOTE: If you forget to add outputs, the souffle compiler will
//       try to be smart and remove most generated code!
.output reachable

// We write down some pre-defined facts on the datalog side.
edge("a", "b").
edge("b", "c").
edge("c", "e").
edge("e", "f").
edge("c", "d").

// And we tell datalog how to check if 1 point is reachable from another.
reachable(x, y) :- edge(x, y).                  // base rule
reachable(x, z) :- edge(x, y), reachable(y, z). // inductive rule

Now that we have the datalog code, we can generate a path.cpp from it using souffle -g path.cpp path.dl. souffle-haskell can bind to this program in the following way:

-- Enable some necessary extensions:
{-# LANGUAGE TemplateHaskell, ScopedTypeVariables, DataKinds, TypeFamilies, DeriveGeneric #-}

module Main ( main ) where

import Data.Foldable ( traverse_ )
import Control.Monad.IO.Class
import GHC.Generics
import Data.Vector
import qualified Language.Souffle.TH as Souffle
import qualified Language.Souffle as Souffle

-- We only use template haskell for directly embedding the .cpp file into this file.
-- If we do not do this, it will link incorrectly due to the way the
-- C++ code is generated.
Souffle.embedProgram "/path/to/path.cpp"

-- We define a data type representing our datalog program.
data Path = Path

-- Facts are represent in Haskell as simple product types,
-- Numbers map to Int32, symbols to Strings / Text.

data Edge = Edge String String
  deriving (Eq, Show, Generic)

data Reachable = Reachable String String
  deriving (Eq, Show, Generic)

-- By making Path an instance of Program, we provide Haskell with information
-- about the datalog program. It uses this to perform compile-time checks to
-- limit the amount of possible programmer errors to a minimum.
instance Souffle.Program Path where
  type ProgramFacts Path = [Edge, Reachable]
  programName = const "path"

-- By making a data type an instance of Edge, we give Haskell the
-- necessary information to bind to the datalog fact.
instance Souffle.Fact Edge where
  factName = const "edge"

instance Souffle.Fact Reachable where
  factName = const "reachable"

-- For simple product types, we can automatically generate the
-- marshalling/unmarshalling code of data between Haskell and datalog.
instance Souffle.Marshal Edge
instance Souffle.Marshal Reachable

main :: IO ()
main = Souffle.runSouffle $ do
  maybeProgram <- Souffle.init Path  -- Initializes the Souffle program.
  case maybeProgram of
    Nothing -> liftIO $ putStrLn "Failed to load program."
    Just prog -> do
      Souffle.addFact prog $ Edge "d" "i"   -- Adding a single fact from Haskell side
      Souffle.addFacts prog [ Edge "e" "f"  -- Adding multiple facts
                            , Edge "f" "g"
                            , Edge "f" "g"
                            , Edge "f" "h"
                            , Edge "g" "i"
                            ] prog  -- Run the Souffle program

      -- NOTE: You can change type param to fetch different relations
      --       Here it requires an annotation since we directly print it
      --       to stdout, but if passed to another function, it can infer
      --       the correct type automatically.
      --       A list of facts can also be returned here.
      results :: Vector Reachable <- Souffle.getFacts prog
      liftIO $ traverse_ print results

      -- We can also look for a specific fact:
      maybeFact <- Souffle.findFact prog $ Reachable "a" "c"
      liftIO $ print $ maybeFact

For more examples of how to use the top level API, you can also take a look at the tests.

Getting started

This library assumes that the Souffle include paths are properly set. This is needed in order for the C++ code to be compiled correctly. The easiest way to do this (that I know of) is via Nix. Add souffle to the build inputs of your derivation and everything will be set correctly. Without Nix, you will have to follow the manual install instructions on the Souffle website.

In your package.yaml / *.cabal file, make sure to add the following options (assuming package.yaml here):

# ...

# ...

This will instruct the Souffle compiler to compile the C++ in such a way that it can be linked with other languages (including Haskell!).


TLDR: Nix-based project; the Makefile contains the most commonly used commands.

Long version:

The project makes use of Nix to setup the development environment. Setup your environment by entering the following command:

$ nix-shell

After this command, you can build the project:

$ make configure  # configures the project
$ make build      # builds the haskell code
$ make lint       # runs the linter
$ make hoogle     # starts a local hoogle webserver


Found an issue or missing a piece of functionality? Please open an issue with a description of the problem.