module Vectorise.Generic.PAMethods
( buildPReprTyCon
, buildPAScAndMethods
) where
import Vectorise.Utils
import Vectorise.Monad
import Vectorise.Builtins
import Vectorise.Generic.Description
import CoreSyn
import CoreUtils
import FamInstEnv
import MkCore ( mkWildCase )
import TyCon
import Type
import OccName
import Coercion
import MkId
import DynFlags
import FastString
import MonadUtils
import Control.Monad
import Outputable
buildPReprTyCon :: TyCon -> TyCon -> SumRepr -> VM FamInst
buildPReprTyCon orig_tc vect_tc repr
= do name <- mkLocalisedName mkPReprTyConOcc (tyConName orig_tc)
rhs_ty <- sumReprType repr
prepr_tc <- builtin preprTyCon
return $ mkSynFamInst name tyvars prepr_tc instTys rhs_ty
where
tyvars = tyConTyVars vect_tc
instTys = [mkTyConApp vect_tc . mkTyVarTys $ tyConTyVars vect_tc]
type PAInstanceBuilder
= TyCon
-> CoAxiom
-> TyCon
-> TyCon
-> SumRepr
-> VM CoreExpr
buildPAScAndMethods :: VM [(String, PAInstanceBuilder)]
buildPAScAndMethods
= return [ ("toPRepr", buildToPRepr)
, ("fromPRepr", buildFromPRepr)
, ("toArrPRepr", buildToArrPRepr)
, ("fromArrPRepr", buildFromArrPRepr)
, ("toArrPReprs", buildToArrPReprs)
, ("fromArrPReprs", buildFromArrPReprs)]
buildToPRepr :: PAInstanceBuilder
buildToPRepr vect_tc repr_ax _ _ repr
= do let arg_ty = mkTyConApp vect_tc ty_args
res_ty <- mkPReprType arg_ty
arg <- newLocalVar (fsLit "x") arg_ty
result <- to_sum (Var arg) arg_ty res_ty repr
return $ Lam arg result
where
ty_args = mkTyVarTys (tyConTyVars vect_tc)
wrap_repr_inst = wrapTypeFamInstBody repr_ax ty_args
to_sum :: CoreExpr -> Type -> Type -> SumRepr -> VM CoreExpr
to_sum _ _ _ EmptySum
= do void <- builtin voidVar
return $ wrap_repr_inst $ Var void
to_sum arg arg_ty res_ty (UnarySum r)
= do (pat, vars, body) <- con_alt r
return $ mkWildCase arg arg_ty res_ty
[(pat, vars, wrap_repr_inst body)]
to_sum arg arg_ty res_ty (Sum { repr_sum_tc = sum_tc
, repr_con_tys = tys
, repr_cons = cons })
= do alts <- mapM con_alt cons
let alts' = [(pat, vars, wrap_repr_inst
$ mkConApp sum_con (map Type tys ++ [body]))
| ((pat, vars, body), sum_con)
<- zip alts (tyConDataCons sum_tc)]
return $ mkWildCase arg arg_ty res_ty alts'
con_alt (ConRepr con r)
= do (vars, body) <- to_prod r
return (DataAlt con, vars, body)
to_prod :: ProdRepr -> VM ([Var], CoreExpr)
to_prod EmptyProd
= do void <- builtin voidVar
return ([], Var void)
to_prod (UnaryProd comp)
= do var <- newLocalVar (fsLit "x") (compOrigType comp)
body <- to_comp (Var var) comp
return ([var], body)
to_prod (Prod { repr_tup_tc = tup_tc
, repr_comp_tys = tys
, repr_comps = comps })
= do vars <- newLocalVars (fsLit "x") (map compOrigType comps)
exprs <- zipWithM to_comp (map Var vars) comps
let [tup_con] = tyConDataCons tup_tc
return (vars, mkConApp tup_con (map Type tys ++ exprs))
to_comp :: CoreExpr -> CompRepr -> VM CoreExpr
to_comp expr (Keep _ _) = return expr
to_comp expr (Wrap ty) = wrapNewTypeBodyOfWrap expr ty
buildFromPRepr :: PAInstanceBuilder
buildFromPRepr vect_tc repr_ax _ _ repr
= do
arg_ty <- mkPReprType res_ty
arg <- newLocalVar (fsLit "x") arg_ty
result <- from_sum (unwrapTypeFamInstScrut repr_ax ty_args (Var arg))
repr
return $ Lam arg result
where
ty_args = mkTyVarTys (tyConTyVars vect_tc)
res_ty = mkTyConApp vect_tc ty_args
from_sum _ EmptySum
= do dummy <- builtin fromVoidVar
return $ Var dummy `App` Type res_ty
from_sum expr (UnarySum r) = from_con expr r
from_sum expr (Sum { repr_sum_tc = sum_tc
, repr_con_tys = tys
, repr_cons = cons })
= do vars <- newLocalVars (fsLit "x") tys
es <- zipWithM from_con (map Var vars) cons
return $ mkWildCase expr (exprType expr) res_ty
[(DataAlt con, [var], e)
| (con, var, e) <- zip3 (tyConDataCons sum_tc) vars es]
from_con expr (ConRepr con r)
= from_prod expr (mkConApp con $ map Type ty_args) r
from_prod _ con EmptyProd = return con
from_prod expr con (UnaryProd r)
= do e <- from_comp expr r
return $ con `App` e
from_prod expr con (Prod { repr_tup_tc = tup_tc
, repr_comp_tys = tys
, repr_comps = comps
})
= do vars <- newLocalVars (fsLit "y") tys
es <- zipWithM from_comp (map Var vars) comps
let [tup_con] = tyConDataCons tup_tc
return $ mkWildCase expr (exprType expr) res_ty
[(DataAlt tup_con, vars, con `mkApps` es)]
from_comp expr (Keep _ _) = return expr
from_comp expr (Wrap ty) = unwrapNewTypeBodyOfWrap expr ty
buildToArrPRepr :: PAInstanceBuilder
buildToArrPRepr vect_tc repr_co pdata_tc _ r
= do arg_ty <- mkPDataType el_ty
res_ty <- mkPDataType =<< mkPReprType el_ty
arg <- newLocalVar (fsLit "xs") arg_ty
pdata_co <- mkBuiltinCo pdataTyCon
let co = mkAppCo pdata_co
. mkSymCo
$ mkAxInstCo repr_co ty_args
scrut = unwrapFamInstScrut pdata_tc ty_args (Var arg)
(vars, result) <- to_sum r
return . Lam arg
$ mkWildCase scrut (mkTyConApp pdata_tc ty_args) res_ty
[(DataAlt pdata_dc, vars, mkCast result co)]
where
ty_args = mkTyVarTys $ tyConTyVars vect_tc
el_ty = mkTyConApp vect_tc ty_args
[pdata_dc] = tyConDataCons pdata_tc
to_sum ss
= case ss of
EmptySum -> builtin pvoidVar >>= \pvoid -> return ([], Var pvoid)
UnarySum r -> to_con r
Sum{}
-> do let psum_tc = repr_psum_tc ss
let [psum_con] = tyConDataCons psum_tc
(vars, exprs) <- mapAndUnzipM to_con (repr_cons ss)
sel <- newLocalVar (fsLit "sel") (repr_sel_ty ss)
return ( sel : concat vars
, wrapFamInstBody psum_tc (repr_con_tys ss)
$ mkConApp psum_con
$ map Type (repr_con_tys ss) ++ (Var sel : exprs))
to_prod ss
= case ss of
EmptyProd -> builtin pvoidVar >>= \pvoid -> return ([], Var pvoid)
UnaryProd r
-> do pty <- mkPDataType (compOrigType r)
var <- newLocalVar (fsLit "x") pty
expr <- to_comp (Var var) r
return ([var], expr)
Prod{}
-> do let [ptup_con] = tyConDataCons (repr_ptup_tc ss)
ptys <- mapM (mkPDataType . compOrigType) (repr_comps ss)
vars <- newLocalVars (fsLit "x") ptys
exprs <- zipWithM to_comp (map Var vars) (repr_comps ss)
return ( vars
, wrapFamInstBody (repr_ptup_tc ss) (repr_comp_tys ss)
$ mkConApp ptup_con
$ map Type (repr_comp_tys ss) ++ exprs)
to_con (ConRepr _ r) = to_prod r
to_comp expr (Keep _ _) = return expr
to_comp expr (Wrap ty) = wrapNewTypeBodyOfPDataWrap expr ty
buildFromArrPRepr :: PAInstanceBuilder
buildFromArrPRepr vect_tc repr_co pdata_tc _ r
= do arg_ty <- mkPDataType =<< mkPReprType el_ty
res_ty <- mkPDataType el_ty
arg <- newLocalVar (fsLit "xs") arg_ty
pdata_co <- mkBuiltinCo pdataTyCon
let co = mkAppCo pdata_co
$ mkAxInstCo repr_co var_tys
let scrut = mkCast (Var arg) co
let mk_result args
= wrapFamInstBody pdata_tc var_tys
$ mkConApp pdata_con
$ map Type var_tys ++ args
(expr, _) <- fixV $ \ ~(_, args) ->
from_sum res_ty (mk_result args) scrut r
return $ Lam arg expr
where
var_tys = mkTyVarTys $ tyConTyVars vect_tc
el_ty = mkTyConApp vect_tc var_tys
[pdata_con] = tyConDataCons pdata_tc
from_sum res_ty res expr ss
= case ss of
EmptySum -> return (res, [])
UnarySum r -> from_con res_ty res expr r
Sum {}
-> do let psum_tc = repr_psum_tc ss
let [psum_con] = tyConDataCons psum_tc
sel <- newLocalVar (fsLit "sel") (repr_sel_ty ss)
ptys <- mapM mkPDataType (repr_con_tys ss)
vars <- newLocalVars (fsLit "xs") ptys
(res', args) <- fold from_con res_ty res (map Var vars) (repr_cons ss)
let scrut = unwrapFamInstScrut psum_tc (repr_con_tys ss) expr
let body = mkWildCase scrut (exprType scrut) res_ty
[(DataAlt psum_con, sel : vars, res')]
return (body, Var sel : args)
from_prod res_ty res expr ss
= case ss of
EmptyProd -> return (res, [])
UnaryProd r -> from_comp res_ty res expr r
Prod {}
-> do let ptup_tc = repr_ptup_tc ss
let [ptup_con] = tyConDataCons ptup_tc
ptys <- mapM mkPDataType (repr_comp_tys ss)
vars <- newLocalVars (fsLit "ys") ptys
(res', args) <- fold from_comp res_ty res (map Var vars) (repr_comps ss)
let scrut = unwrapFamInstScrut ptup_tc (repr_comp_tys ss) expr
let body = mkWildCase scrut (exprType scrut) res_ty
[(DataAlt ptup_con, vars, res')]
return (body, args)
from_con res_ty res expr (ConRepr _ r) = from_prod res_ty res expr r
from_comp _ res expr (Keep _ _) = return (res, [expr])
from_comp _ res expr (Wrap ty) = do { expr' <- unwrapNewTypeBodyOfPDataWrap expr ty
; return (res, [expr'])
}
fold f res_ty res exprs rs
= foldrM f' (res, []) (zip exprs rs)
where
f' (expr, r) (res, args)
= do (res', args') <- f res_ty res expr r
return (res', args' ++ args)
buildToArrPReprs :: PAInstanceBuilder
buildToArrPReprs vect_tc repr_co _ pdatas_tc r
= do
arg_ty <- mkPDatasType el_ty
res_ty <- mkPDatasType =<< mkPReprType el_ty
varg <- newLocalVar (fsLit "xss") arg_ty
pdatas_co <- mkBuiltinCo pdatasTyCon
let co = mkAppCo pdatas_co
. mkSymCo
$ mkAxInstCo repr_co ty_args
let scrut = unwrapFamInstScrut pdatas_tc ty_args (Var varg)
(vars, result) <- to_sum r
return $ Lam varg
$ mkWildCase scrut (mkTyConApp pdatas_tc ty_args) res_ty
[(DataAlt pdatas_dc, vars, mkCast result co)]
where
ty_args = mkTyVarTys $ tyConTyVars vect_tc
el_ty = mkTyConApp vect_tc ty_args
[pdatas_dc] = tyConDataCons pdatas_tc
to_sum ss
= case ss of
EmptySum -> do dflags <- getDynFlags
return ([], errorEmptyPDatas dflags el_ty)
UnarySum r -> do dflags <- getDynFlags
to_con (errorEmptyPDatas dflags el_ty) r
Sum{}
-> do let psums_tc = repr_psums_tc ss
let [psums_con] = tyConDataCons psums_tc
sels <- newLocalVar (fsLit "sels") (repr_sels_ty ss)
let xSums = App (repr_selsLength_v ss) (Var sels)
(vars, exprs) <- mapAndUnzipM (to_con xSums) (repr_cons ss)
return ( sels : concat vars
, wrapFamInstBody psums_tc (repr_con_tys ss)
$ mkConApp psums_con
$ map Type (repr_con_tys ss) ++ (Var sels : exprs))
to_prod xSums ss
= case ss of
EmptyProd
-> do pvoids <- builtin pvoidsVar
return ([], App (Var pvoids) xSums )
UnaryProd r
-> do pty <- mkPDatasType (compOrigType r)
var <- newLocalVar (fsLit "x") pty
expr <- to_comp (Var var) r
return ([var], expr)
Prod{}
-> do let [ptups_con] = tyConDataCons (repr_ptups_tc ss)
ptys <- mapM (mkPDatasType . compOrigType) (repr_comps ss)
vars <- newLocalVars (fsLit "x") ptys
exprs <- zipWithM to_comp (map Var vars) (repr_comps ss)
return ( vars
, wrapFamInstBody (repr_ptups_tc ss) (repr_comp_tys ss)
$ mkConApp ptups_con
$ map Type (repr_comp_tys ss) ++ exprs)
to_con xSums (ConRepr _ r)
= to_prod xSums r
to_comp expr (Keep _ _) = return expr
to_comp expr (Wrap ty) = wrapNewTypeBodyOfPDatasWrap expr ty
buildFromArrPReprs :: PAInstanceBuilder
buildFromArrPReprs vect_tc repr_co _ pdatas_tc r
= do
arg_ty <- mkPDatasType =<< mkPReprType el_ty
res_ty <- mkPDatasType el_ty
varg <- newLocalVar (fsLit "xss") arg_ty
pdatas_co <- mkBuiltinCo pdatasTyCon
let co = mkAppCo pdatas_co
$ mkAxInstCo repr_co var_tys
let scrut = mkCast (Var varg) co
let mk_result args
= wrapFamInstBody pdatas_tc var_tys
$ mkConApp pdatas_con
$ map Type var_tys ++ args
(expr, _) <- fixV $ \ ~(_, args) ->
from_sum res_ty (mk_result args) scrut r
return $ Lam varg expr
where
ty_args = mkTyVarTys $ tyConTyVars vect_tc
el_ty = mkTyConApp vect_tc ty_args
var_tys = mkTyVarTys $ tyConTyVars vect_tc
[pdatas_con] = tyConDataCons pdatas_tc
from_sum res_ty res expr ss
= case ss of
EmptySum -> do dflags <- getDynFlags
return (res, errorEmptyPDatas dflags el_ty)
UnarySum r -> from_con res_ty res expr r
Sum {}
-> do let psums_tc = repr_psums_tc ss
let [psums_con] = tyConDataCons psums_tc
sel <- newLocalVar (fsLit "sels") (repr_sels_ty ss)
ptys <- mapM mkPDatasType (repr_con_tys ss)
vars <- newLocalVars (fsLit "xs") ptys
(res', args) <- fold from_con res_ty res (map Var vars) (repr_cons ss)
let scrut = unwrapFamInstScrut psums_tc (repr_con_tys ss) expr
let body = mkWildCase scrut (exprType scrut) res_ty
[(DataAlt psums_con, sel : vars, res')]
return (body, Var sel : args)
from_prod res_ty res expr ss
= case ss of
EmptyProd -> return (res, [])
UnaryProd r -> from_comp res_ty res expr r
Prod {}
-> do let ptups_tc = repr_ptups_tc ss
let [ptups_con] = tyConDataCons ptups_tc
ptys <- mapM mkPDatasType (repr_comp_tys ss)
vars <- newLocalVars (fsLit "ys") ptys
(res', args) <- fold from_comp res_ty res (map Var vars) (repr_comps ss)
let scrut = unwrapFamInstScrut ptups_tc (repr_comp_tys ss) expr
let body = mkWildCase scrut (exprType scrut) res_ty
[(DataAlt ptups_con, vars, res')]
return (body, args)
from_con res_ty res expr (ConRepr _ r)
= from_prod res_ty res expr r
from_comp _ res expr (Keep _ _) = return (res, [expr])
from_comp _ res expr (Wrap ty) = do { expr' <- unwrapNewTypeBodyOfPDatasWrap expr ty
; return (res, [expr'])
}
fold f res_ty res exprs rs
= foldrM f' (res, []) (zip exprs rs)
where
f' (expr, r) (res, args)
= do (res', args') <- f res_ty res expr r
return (res', args' ++ args)
errorEmptyPDatas :: DynFlags -> Type -> a
errorEmptyPDatas dflags tc
= cantVectorise dflags "Vectorise.PAMethods"
$ vcat [ text "Cannot vectorise data type with no parallel data " <> quotes (ppr tc)
, text "Data types to be vectorised must contain at least one constructor"
, text "with at least one field." ]