Language/Copilot/Analyser.hs

{-# OPTIONS_GHC -XRelaxedPolyRec #-}

-- | This module provides a way to check that a /Copilot/ specification is
-- compilable
module Language.Copilot.Analyser(
        -- * Main error checking functions
        check, Error(..), SpecSet(..),
        -- * Varied other things
        getExternalVars, ExtVars(..)
        {-
        -- * Dependency Graphs (experimental)
        Weight, Node(..), DependencyGraph,
        mkDepGraph, showDG -}
    ) where

import Language.Copilot.Core

import qualified Language.Atom as A

import Data.List

type Weight = Int

-- | Used for representing an error in the specification, detected by @'check'@
data Error =
      BadSyntax String Var -- ^ the BNF is not respected
    | BadDrop Int Var -- ^ A drop expression of less than 0 is used
    | BadSamplingPhase Var Var Phase -- ^ if an external variable is sampled at
                                     -- phase 0 then there is no time for the
                                     -- stream to be updated
    | BadSamplingArrPhase Var Var Phase -- ^ if an external variable is sampled at
                                        -- phase 0 then there is no time for the
                                        -- stream to be updated
    | BadPArrSpec Var Var String -- ^ External array indexes can only take
                                 -- variables or constants as indexes.
    | BadType Var Var -- ^ either a variable is not defined, or not with the
                      -- good type ; there is no implicit conversion of types in
                      -- /Copilot/
    | NonNegativeWeightedClosedPath [Var] Weight -- ^ The algorithm to compile
                                                 -- /Copilot/ specification can
                                                 -- only work if there is no
                                                 -- negative weighted closed
                                                 -- path in the specification,
                                                 -- as described in the original
                                                 -- research paper
    | DependsOnClosePast [Var] Var Weight Weight -- ^ Could be compiled, but
                                                 -- would need bigger
                                                 -- prophecyArrays
    | DependsOnFuture [Var] Var Weight -- ^ If an output depends of a future of
                                       -- an input it will be hard to compile to
                                       -- say the least

instance Show Error where
    show (BadSyntax s v) =
       unlines 
        ["Error syntax : " ++ s ++ " is not allowed in that position in stream " 
         ++ v ++ "."]
    show (BadDrop i v) =
       unlines
        [ "Error : a Drop in stream " ++ v ++ " drops the number " ++ show i ++
          "of elements.\n" 
        , show i ++ " is negative, and Drop only accepts positive arguments.\n"
        ]
    show (BadSamplingPhase v v' ph) =
       unlines
        [ "Error : the external variable " ++ v' ++ " is sampled at phase " ++ 
          show ph ++ " in the stream " ++ v ++ "." 
        , "Sampling can only occur from phase 1 onwards.\n"
        ]
    show (BadSamplingArrPhase v arr ph) =
       unlines
        [ "Error : the external array " ++ arr ++ " is sampled at phase " ++ 
          show ph ++ " in the stream " ++ v ++ "."
        , " Sampling can only occur from phase 1 onwards.\n"
        ]
    show (BadPArrSpec v arr idx) = 
       unlines
        [ "Error : the index into an external array can only take a "
            ++ "variable or a constant.  The index\n"  
        ,   idx ++ "\n\n in external array "
            ++ arr ++ "in the definition of stream " ++ v ++ " is not of that "
            ++ "form.\n"
        ]
    show (BadType v v') =
       unlines
        [ "Error : the monitor variable " ++ v ++ ", called in the stream " 
          ++ v' ++ ", either"
        , "does not exist, or don't have the right type (there is no implicit " 
          ++ "conversion).\n"
        ]
    show (NonNegativeWeightedClosedPath vs w) =
       unlines 
        [ "Error : the following path is closed in the dependency graph of the "
            ++ "specification and has" 
        , "weight " ++ show w ++ " which is positive (append decreases the weight, "
          ++ "while drop increases it)."  
        , "This is forbidden to avoid streams which could take 0 or several different"
          ++ " values."
        , "Try adding some initial elements (e.g., [0,0,0] ++ ...) "
            ++ "to the offending streams."
        , "Path : " ++ show (reverse vs) ++ "\n"
        ]
    show (DependsOnClosePast vs v w len) =
       unlines
        [ "Error : the following path is of weight " ++ show w ++ " ending in "
          ++ "the external variable " ++ v 
        , "while the first variable of that path has a prophecy array of length " 
          ++ show len ++ "," 
        , "which is strictly greater than the weight. This is forbidden."
        , "Path : " ++ show (reverse vs) ++ "\n"
        ]
    show (DependsOnFuture vs v w) =
       unlines
        [ "Error : the following path is of weight " ++ show w 
          ++ " which is strictly positive."
        , "This means that the first variable depends on the future of the "
          ++ "external variable " ++ v 
        , "which is quoted in the last variable of the path.  This is "
          ++ "obviously impossible."
        , "Path : " ++ show (reverse vs) ++ "\n"
        ]

(&&>) :: Maybe a -> Maybe a -> Maybe a
m &&> m' =
    case m of
        Just _ -> m
        Nothing -> m'

(||>) :: Bool -> a -> Maybe a
b ||> x =
    if b
        then Nothing
        else Just x

infixr 2 ||>
infixr 1 &&>

-- | Check a /Copilot/ specification.
-- If it is not compilable, then returns an error describing the issue.
-- Else, returns @Nothing@
check :: StreamableMaps Spec -> Maybe Error
check streams =
    syntaxCheck streams &&> defCheck streams

-- Represents all the kind of specs that are authorized after a given operator.
data SpecSet = AllSpecSet | FunSpecSet | DropSpecSet | PArrSet 
             deriving Eq

-- Check that the AST of the copilot specification match the BNF
-- Could have been verified by the type checker if the type of Spec had been cut
-- But then there would have been quite a lot construction/deconstruction to do everywhere.
-- Hence the compact type for Spec and this extra check.
syntaxCheck :: StreamableMaps Spec -> Maybe Error
syntaxCheck streams =
    foldStreamableMaps (checkSyntaxSpec AllSpecSet) streams Nothing
    where
        checkSyntaxSpec :: Streamable a 
                        => SpecSet -> Var -> Spec a -> Maybe Error -> Maybe Error
        checkSyntaxSpec set v s e =
            e &&>
                case s of
                    Var _ -> Nothing
                    Const _ -> Nothing
                    PVar _ v' ph -> ph > 0 ||> BadSamplingPhase v v' ph
                    PArr _ (arr,s0) ph -> checkIndex v arr s0 
                      &&> ph > 0 ||> BadSamplingArrPhase v arr ph 
                      &&> checkSyntaxSpec PArrSet v s0 Nothing
                    F _ _ s0 -> set /= DropSpecSet ||> BadSyntax "F" v 
                      &&> checkSyntaxSpec FunSpecSet v s0 Nothing
                    F2 _ _ s0 s1 -> set /= DropSpecSet ||> BadSyntax "F2" v 
                      &&> checkSyntaxSpec FunSpecSet v s0 Nothing
                      &&> checkSyntaxSpec FunSpecSet v s1 Nothing
                    F3 _ _ s0 s1 s2 -> set /= DropSpecSet ||> BadSyntax "F3" v 
                      &&> checkSyntaxSpec FunSpecSet v s0 Nothing
                      &&> checkSyntaxSpec FunSpecSet v s1 Nothing
                      &&> checkSyntaxSpec FunSpecSet v s2 Nothing
                    Append _ s0 -> set == AllSpecSet ||> BadSyntax "Append" v 
                      &&> checkSyntaxSpec AllSpecSet v s0 Nothing
                    Drop i s0 -> (0 <= i) ||> BadDrop i v 
                      &&> checkSyntaxSpec DropSpecSet v s0 Nothing
        checkIndex _ _ (Var _)      = Nothing
        checkIndex _ _ (Const _)    = Nothing
        checkIndex v arr idx = Just $ BadPArrSpec v arr (show idx)

-- | Checks that streams are well defined (i.e., can be compiled).
defCheck :: StreamableMaps Spec -> Maybe Error
defCheck streams =
    let checkPathsFromSpec :: Streamable a => Var -> Spec a -> Maybe Error -> Maybe Error
        checkPathsFromSpec v0 s0 e =
            e &&> checkPath 0 [v0] s0
            where
                prophecyArrayLength s =
                    case s of
                        Append ls s' -> length ls + prophecyArrayLength s'
                        _ -> 0
                checkPath :: Streamable a => Int -> [Var] -> Spec a -> Maybe Error
                checkPath n vs s =
                    case s of
                        PVar t v _ -> case () of
                                () | n > 0 -> Just $ DependsOnFuture vs v n
                                   | n > negate (prophecyArrayLength s0) -> 
                                           Just $ DependsOnClosePast vs v n 
                                                    (prophecyArrayLength s0)
                                   | t /= getAtomType s -> Just $ BadType v (head vs)
                                _ -> Nothing
                        PArr t (arr, idx) _ 
                                   | n > 0 -> Just $ DependsOnFuture vs arr n
                                   | n > negate (prophecyArrayLength idx) -> 
                                           Just $ DependsOnClosePast vs arr n 
                                                    (prophecyArrayLength idx)
                                   | t /= getAtomType s -> Just $ BadType arr (head vs)
                                   | otherwise -> 
                                       case idx of
                                         Const _ -> checkPath n vs idx
                                         Var _   -> checkPath n vs idx
                                         _       -> Just $ BadPArrSpec v0 arr (show idx)
                        Var v -> 
                            if elem v vs
                                then if n >= 0
                                    then Just $ NonNegativeWeightedClosedPath vs n
                                    else Nothing
                                else
                                    let spec = getMaybeElem v streams in
                                    case spec of
                                        Nothing -> Just $ BadType v (head vs)
                                        Just s' -> checkPath n (v:vs) (s' `asTypeOf` s)
                        Const _ -> Nothing
                        F _ _ s1 -> checkPath n vs s1
                        F2 _ _ s1 s2 -> checkPath n vs s1 &&> checkPath n vs s2
                        F3 _ _ s1 s2 s3 -> checkPath n vs s1 &&> checkPath n vs s2 
                                             &&> checkPath n vs s3
                        Append l s' -> checkPath (n - length l) vs s'
                        Drop i s' -> checkPath (n + i) vs s'
    in foldStreamableMaps checkPathsFromSpec streams Nothing

type Exs = (A.Type, Var, ExtVars)

data ExtVars = ExtV Phase 
             | ExtA Phase String
  deriving Eq

getExternalVars :: StreamableMaps Spec -> [Exs]
getExternalVars streams =
    nub $ foldStreamableMaps decl streams []
    where
        decl :: Streamable a 
             => Var -> Spec a -> [Exs] -> [Exs]
        decl _ s ls =
            case s of
                PVar t v ph -> (t, v, ExtV ph) : ls
                PArr t (arr, s0) ph -> (t, arr, ExtA ph (show s0)) : ls
                F _ _ s0 -> decl undefined s0 ls
                F2 _ _ s0 s1 -> decl undefined s0 $ decl undefined s1 ls
                F3 _ _ s0 s1 s2 -> decl undefined s0 $ decl undefined s1 
                                     $ decl undefined s2 ls
                Drop _ s' -> decl undefined s' ls
                Append _ s' -> decl undefined s' ls
                _ -> ls


---- Dependency graphs (for next version of nNWCP, and for scheduling)
{-
type Weight = Int
data Node =
    InternalVar Var [(Weight, Node)]
    | ExternalVar Var Phase
    deriving Show -- for debug

instance Eq Node where
    InternalVar v _ == InternalVar v' _ = v == v'
    ExternalVar v ph == ExternalVar v' ph' = v == v' && ph == ph'
    _ == _ = False

type DependencyGraph = [Node]

showDG :: DependencyGraph -> [String]
showDG dG = map show dG

mkDepGraph :: StreamableMaps Spec -> DependencyGraph
mkDepGraph streams =
    dGFixpoint
    where
        dGFixpoint :: DependencyGraph
        dGFixpoint = foldStreamableMaps mkNode streams []
        mkNode :: Streamable a => Var -> Spec a -> DependencyGraph -> DependencyGraph
        mkNode v s dG =
            let edges = mkEdges 0 s
                externalNodes = mkExternalNodes s in
            (InternalVar v edges) : (nub $ externalNodes ++ dG)
        -- TODO : the following functions can probably be fused together
        mkExternalNodes :: Spec a -> [Node]
        mkExternalNodes s =
            case s of
                PVar _ v ph -> [ExternalVar v ph]
                Var _ -> []
                Const _ -> []
                F _ _ s0 -> mkExternalNodes s0
                F2 _ _ s0 s1 -> mkExternalNodes s0 ++ mkExternalNodes s1
                F3 _ _ s0 s1 s2 -> mkExternalNodes s0 ++ mkExternalNodes s1 ++ mkExternalNodes s2
                Append _ s0 -> mkExternalNodes s0
                Drop _ s0 -> mkExternalNodes s0
        mkEdges :: Weight -> Spec a -> [(Weight, Node)]
        mkEdges w s =
            case s of
                PVar _ v ph -> [(w, getNode v $ Just ph)]
                Var v -> [(w, getNode v Nothing)]
                Const _ -> []
                F _ _ s0 -> mkEdges w s0
                F2 _ _ s0 s1 -> mkEdges w s0 ++ mkEdges w s1
                F3 _ _ s0 s1 s2 -> mkEdges w s0 ++ mkEdges w s1 ++ mkEdges w s2
                Append ls s0 -> mkEdges (w - length ls) s0
                Drop i s0 -> mkEdges (w + i) s0
        getNode :: Var -> Maybe Phase -> Node
        getNode v mp =
             case mp of
                Nothing -> fromJust $ find ((==) (InternalVar v [])) dGFixpoint
                Just ph -> fromJust $ find ((==) (ExternalVar v ph)) dGFixpoint -}