-----------------------------------------------------------------------------
-- |
-- Module      :  Language.Haskell.Exts.Build
-- Copyright   :  (c) The GHC Team, 1997-2000,
--                (c) Niklas Broberg 2004
-- License     :  BSD-style (see the file LICENSE.txt)
--
-- Maintainer  :  Niklas Broberg, d00nibro@chalmers.se
-- Stability   :  experimental
-- Portability :  portable
--
-- This module contains combinators to use when building
-- Haskell source trees programmatically, as opposed to
-- parsing them from a string. The contents here are quite
-- experimental and will likely receive a lot of attention
-- when the rest has stabilised.
--
-----------------------------------------------------------------------------

module Language.Haskell.Exts.Build (

    -- * Syntax building functions
    name,       -- :: String -> Name
    sym,        -- :: String -> Name
    var,        -- :: Name -> Exp
    op,         -- :: Name -> QOp
    qvar,       -- :: Module -> Name -> Exp
    pvar,       -- :: Name -> Pat
    app,        -- :: Exp -> Exp -> Exp
    infixApp,   -- :: Exp -> QOp -> Exp -> Exp
    appFun,     -- :: Exp -> [Exp] -> Exp
    pApp,       -- :: Name -> [Pat] -> Pat
    tuple,      -- :: [Exp] -> Exp
    pTuple,     -- :: [Pat] -> Pat
    varTuple,   -- :: [Name] -> Exp
    pvarTuple,  -- :: [Name] -> Pat
    function,   -- :: String -> Exp
    strE,       -- :: String -> Exp
    charE,      -- :: Char -> Exp
    intE,       -- :: Integer -> Exp
    strP,       -- :: String -> Pat
    charP,      -- :: Char -> Pat
    intP,       -- :: Integer -> Pat
    doE,        -- :: [Stmt] -> Exp
    lamE,       -- :: SrcLoc -> [Pat] -> Exp -> Exp
    letE,       -- :: [Decl] -> Exp -> Exp
    caseE,      -- :: Exp -> [Alt] -> Exp
    alt,        -- :: SrcLoc -> Pat -> Exp -> Alt
    altGW,      -- :: SrcLoc -> Pat -> [Stmt] -> Exp -> Binds -> Alt
    listE,      -- :: [Exp] -> Exp
    eList,      -- :: Exp
    peList,     -- :: Pat
    paren,      -- :: Exp -> Exp
    pParen,     -- :: Pat -> Pat
    qualStmt,   -- :: Exp -> Stmt
    genStmt,    -- :: SrcLoc -> Pat -> Exp -> Stmt
    letStmt,    -- :: [Decl] -> Stmt
    binds,      -- :: [Decl] -> Binds
    noBinds,    -- :: Binds
    wildcard,   -- :: Pat
    genNames,   -- :: String -> Int -> [Name]

    -- * More advanced building
    sfun,           -- :: SrcLoc -> Name -> [Name] -> Rhs -> Binds -> Decl
    simpleFun,      -- :: SrcLoc -> Name -> Name -> Exp -> Decl
    patBind,        -- :: SrcLoc -> Pat -> Exp -> Decl
    patBindWhere,   -- :: SrcLoc -> Pat -> Exp -> [Decl] -> Decl
    nameBind,       -- :: SrcLoc -> Name -> Exp -> Decl
    metaFunction,   -- :: String -> [Exp] -> Exp
    metaConPat      -- :: String -> [Pat] -> Pat
  ) where

import Language.Haskell.Exts.Syntax

-----------------------------------------------------------------------------
-- Help functions for Abstract syntax

-- | An identifier with the given string as its name.
--   The string should be a valid Haskell identifier.
name :: String -> Name
name = Ident

-- | A symbol identifier. The string should be a valid
--   Haskell symbol identifier.
sym :: String -> Name
sym = Symbol

-- | A local variable as expression.
var :: Name -> Exp
var = Var . UnQual

-- | Use the given identifier as an operator.
op :: Name -> QOp
op = QVarOp . UnQual

-- | A qualified variable as expression.
qvar :: ModuleName -> Name -> Exp
qvar m n = Var $ Qual m n

-- | A pattern variable.
pvar :: Name -> Pat
pvar = PVar

-- | Application of expressions by juxtaposition.
app :: Exp -> Exp -> Exp
app = App

-- | Apply an operator infix.
infixApp :: Exp -> QOp -> Exp -> Exp
infixApp = InfixApp

-- | Apply a function to a list of arguments.
appFun :: Exp -> [Exp] -> Exp
appFun f [] = f
appFun f (a:as) = appFun (app f a) as

-- | A constructor pattern, with argument patterns.
pApp :: Name -> [Pat] -> Pat
pApp n ps = PApp (UnQual n) ps

-- | A tuple expression.
tuple :: [Exp] -> Exp
tuple = Tuple Boxed

-- | A tuple pattern.
pTuple :: [Pat] -> Pat
pTuple = PTuple Boxed

-- | A tuple expression consisting of variables only.
varTuple :: [Name] -> Exp
varTuple ns = tuple $ map var ns

-- | A tuple pattern consisting of variables only.
pvarTuple :: [Name] -> Pat
pvarTuple ns = pTuple $ map pvar ns

-- | A function with a given name.
function :: String -> Exp
function = var . Ident

-- | A literal string expression.
strE :: String -> Exp
strE = Lit . String

-- | A literal character expression.
charE :: Char -> Exp
charE = Lit . Char

-- | A literal integer expression.
intE :: Integer -> Exp
intE = Lit . Int

-- | A literal string pattern.
strP :: String -> Pat
strP = PLit . String

-- | A literal character pattern.
charP :: Char -> Pat
charP = PLit . Char

-- | A literal integer pattern.
intP :: Integer -> Pat
intP = PLit . Int

-- | A do block formed by the given statements.
--   The last statement in the list should be
--   a 'Qualifier' expression.
doE :: [Stmt] -> Exp
doE = Do

-- | Lambda abstraction, given a list of argument
--   patterns and an expression body.
lamE :: SrcLoc -> [Pat] -> Exp -> Exp
lamE = Lambda

-- | A @let@ ... @in@ block.
letE :: [Decl] -> Exp -> Exp
letE ds e = Let (binds ds) e

-- | A @case@ expression.
caseE :: Exp -> [Alt] -> Exp
caseE = Case

-- | An unguarded alternative in a @case@ expression.
alt :: SrcLoc -> Pat -> Exp -> Alt
alt s p e = Alt s p (unGAlt e) noBinds

-- | An alternative with a single guard in a @case@ expression.
altGW :: SrcLoc -> Pat -> [Stmt] -> Exp -> Binds -> Alt
altGW s p gs e w = Alt s p (gAlt s gs e) w

-- | An unguarded righthand side of a @case@ alternative.
unGAlt :: Exp -> GuardedAlts
unGAlt = UnGuardedAlt

-- | An list of guarded righthand sides for a @case@ alternative.
gAlts :: SrcLoc -> [([Stmt],Exp)] -> GuardedAlts
gAlts s as = GuardedAlts $ map (\(gs,e) -> GuardedAlt s gs e) as

-- | A single guarded righthand side for a @case@ alternative.
gAlt :: SrcLoc -> [Stmt] -> Exp -> GuardedAlts
gAlt s gs e = gAlts s [(gs,e)]

-- | A list expression.
listE :: [Exp] -> Exp
listE = List

-- | The empty list expression.
eList :: Exp
eList = List []

-- | The empty list pattern.
peList :: Pat
peList = PList []

-- | Put parentheses around an expression.
paren :: Exp -> Exp
paren = Paren

-- | Put parentheses around a pattern.
pParen :: Pat -> Pat
pParen = PParen

-- | A qualifier expression statement.
qualStmt :: Exp -> Stmt
qualStmt = Qualifier

-- | A generator statement: /pat/ @<-@ /exp/
genStmt :: SrcLoc -> Pat -> Exp -> Stmt
genStmt = Generator

-- | A @let@ binding group as a statement.
letStmt :: [Decl] -> Stmt
letStmt ds = LetStmt $ binds ds

-- | Hoist a set of declarations to a binding group.
binds :: [Decl] -> Binds
binds = BDecls

-- | An empty binding group.
noBinds :: Binds
noBinds = binds []

-- | The wildcard pattern: @_@
wildcard :: Pat
wildcard = PWildCard

-- | Generate k names by appending numbers 1 through k to a given string.
genNames :: String -> Int -> [Name]
genNames s k = [ Ident $ s ++ show i | i <- [1..k] ]

-------------------------------------------------------------------------------
-- Some more specialised help functions

-- | A function with a single clause
sfun :: SrcLoc -> Name -> [Name] -> Rhs -> Binds -> Decl
sfun s f pvs rhs bs = FunBind [Match s f (map pvar pvs) Nothing rhs bs]

-- | A function with a single clause, a single argument, no guards
-- and no where declarations
simpleFun :: SrcLoc -> Name -> Name -> Exp -> Decl
simpleFun s f a e = let rhs = UnGuardedRhs e
             in sfun s f [a] rhs noBinds

-- | A pattern bind where the pattern is a variable, and where
-- there are no guards and no 'where' clause.
patBind :: SrcLoc -> Pat -> Exp -> Decl
patBind s p e = let rhs = UnGuardedRhs e
         in PatBind s p Nothing rhs noBinds

-- | A pattern bind where the pattern is a variable, and where
-- there are no guards, but with a 'where' clause.
patBindWhere :: SrcLoc -> Pat -> Exp -> [Decl] -> Decl
patBindWhere s p e ds = let rhs = UnGuardedRhs e
             in PatBind s p Nothing rhs (binds ds)

-- | Bind an identifier to an expression.
nameBind :: SrcLoc -> Name -> Exp -> Decl
nameBind s n e = patBind s (pvar n) e

-- | Apply function of a given name to a list of arguments.
metaFunction :: String -> [Exp] -> Exp
metaFunction s es = mf s (reverse es)
  where mf s []     = var $ name s
        mf s (e:es) = app (mf s es) e

-- | Apply a constructor of a given name to a list of pattern
--   arguments, forming a constructor pattern.
metaConPat :: String -> [Pat] -> Pat
metaConPat s ps = pApp (name s) ps