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|
{-
(c) The University of Glasgow 2006-2008
(c) The GRASP/AQUA Project, Glasgow University, 1993-1998
-}
{-# LANGUAGE CPP, NondecreasingIndentation #-}
-- | Module for constructing @ModIface@ values (interface files),
-- writing them to disk and comparing two versions to see if
-- recompilation is required.
module MkIface (
mkUsedNames,
mkDependencies,
mkIface, -- Build a ModIface from a ModGuts,
-- including computing version information
mkIfaceTc,
mkIfaceDirect,
writeIfaceFile, -- Write the interface file
checkOldIface, -- See if recompilation is required, by
-- comparing version information
RecompileRequired(..), recompileRequired,
tyThingToIfaceDecl -- Converting things to their Iface equivalents
) where
{-
-----------------------------------------------
Recompilation checking
-----------------------------------------------
A complete description of how recompilation checking works can be
found in the wiki commentary:
http://ghc.haskell.org/trac/ghc/wiki/Commentary/Compiler/RecompilationAvoidance
Please read the above page for a top-down description of how this all
works. Notes below cover specific issues related to the implementation.
Basic idea:
* In the mi_usages information in an interface, we record the
fingerprint of each free variable of the module
* In mkIface, we compute the fingerprint of each exported thing A.f.
For each external thing that A.f refers to, we include the fingerprint
of the external reference when computing the fingerprint of A.f. So
if anything that A.f depends on changes, then A.f's fingerprint will
change.
Also record any dependent files added with
* addDependentFile
* #include
* -optP-include
* In checkOldIface we compare the mi_usages for the module with
the actual fingerprint for all each thing recorded in mi_usages
-}
#include "HsVersions.h"
import IfaceSyn
import LoadIface
import FlagChecker
import Id
import IdInfo
import Demand
import Coercion( tidyCo )
import Annotations
import CoreSyn
import Class
import Kind
import TyCon
import CoAxiom
import ConLike
import DataCon
import PatSyn
import Type
import TcType
import TysPrim ( alphaTyVars )
import InstEnv
import FamInstEnv
import TcRnMonad
import HsSyn
import HscTypes
import Finder
import DynFlags
import VarEnv
import VarSet
import Var
import Name
import Avail
import RdrName
import NameEnv
import NameSet
import Module
import BinIface
import ErrUtils
import Digraph
import SrcLoc
import Outputable
import BasicTypes hiding ( SuccessFlag(..) )
import UniqFM
import Unique
import Util hiding ( eqListBy )
import FastString
import FastStringEnv
import Maybes
import ListSetOps
import Binary
import Fingerprint
import Exception
import Control.Monad
import Data.Function
import Data.List
import Data.Map (Map)
import qualified Data.Map as Map
import Data.Ord
import Data.IORef
import System.Directory
import System.FilePath
{-
************************************************************************
* *
\subsection{Completing an interface}
* *
************************************************************************
-}
mkIface :: HscEnv
-> Maybe Fingerprint -- The old fingerprint, if we have it
-> ModDetails -- The trimmed, tidied interface
-> ModGuts -- Usages, deprecations, etc
-> IO (ModIface, -- The new one
Bool) -- True <=> there was an old Iface, and the
-- new one is identical, so no need
-- to write it
mkIface hsc_env maybe_old_fingerprint mod_details
ModGuts{ mg_module = this_mod,
mg_hsc_src = hsc_src,
mg_used_names = used_names,
mg_used_th = used_th,
mg_deps = deps,
mg_dir_imps = dir_imp_mods,
mg_rdr_env = rdr_env,
mg_fix_env = fix_env,
mg_warns = warns,
mg_hpc_info = hpc_info,
mg_safe_haskell = safe_mode,
mg_trust_pkg = self_trust,
mg_dependent_files = dependent_files
}
= mkIface_ hsc_env maybe_old_fingerprint
this_mod hsc_src used_names used_th deps rdr_env fix_env
warns hpc_info dir_imp_mods self_trust dependent_files
safe_mode mod_details
-- | Make an interface from a manually constructed 'ModIface'. We use
-- this when we are merging 'ModIface's. We assume that the 'ModIface'
-- has accurate entries but not accurate fingerprint information (so,
-- like @intermediate_iface@ in 'mkIface_'.)
mkIfaceDirect :: HscEnv
-> Maybe Fingerprint
-> ModIface
-> IO (ModIface, Bool)
mkIfaceDirect hsc_env maybe_old_fingerprint iface0 = do
-- Sort some things to make sure we're deterministic
let intermediate_iface = iface0 {
mi_exports = mkIfaceExports (mi_exports iface0),
mi_insts = sortBy cmp_inst (mi_insts iface0),
mi_fam_insts = sortBy cmp_fam_inst (mi_fam_insts iface0),
mi_rules = sortBy cmp_rule (mi_rules iface0)
}
dflags = hsc_dflags hsc_env
(final_iface, no_change_at_all)
<- {-# SCC "versioninfo" #-}
addFingerprints hsc_env maybe_old_fingerprint
intermediate_iface
(map snd (mi_decls iface0))
-- Debug printing
dumpIfSet_dyn dflags Opt_D_dump_hi "FINAL INTERFACE"
(pprModIface final_iface)
return (final_iface, no_change_at_all)
-- | make an interface from the results of typechecking only. Useful
-- for non-optimising compilation, or where we aren't generating any
-- object code at all ('HscNothing').
mkIfaceTc :: HscEnv
-> Maybe Fingerprint -- The old fingerprint, if we have it
-> SafeHaskellMode -- The safe haskell mode
-> ModDetails -- gotten from mkBootModDetails, probably
-> TcGblEnv -- Usages, deprecations, etc
-> IO (ModIface, Bool)
mkIfaceTc hsc_env maybe_old_fingerprint safe_mode mod_details
tc_result@TcGblEnv{ tcg_mod = this_mod,
tcg_src = hsc_src,
tcg_imports = imports,
tcg_rdr_env = rdr_env,
tcg_fix_env = fix_env,
tcg_warns = warns,
tcg_hpc = other_hpc_info,
tcg_th_splice_used = tc_splice_used,
tcg_dependent_files = dependent_files
}
= do
let used_names = mkUsedNames tc_result
deps <- mkDependencies tc_result
let hpc_info = emptyHpcInfo other_hpc_info
used_th <- readIORef tc_splice_used
dep_files <- (readIORef dependent_files)
mkIface_ hsc_env maybe_old_fingerprint
this_mod hsc_src used_names
used_th deps rdr_env
fix_env warns hpc_info (imp_mods imports)
(imp_trust_own_pkg imports) dep_files safe_mode mod_details
mkUsedNames :: TcGblEnv -> NameSet
mkUsedNames TcGblEnv{ tcg_dus = dus } = allUses dus
-- | Extract information from the rename and typecheck phases to produce
-- a dependencies information for the module being compiled.
mkDependencies :: TcGblEnv -> IO Dependencies
mkDependencies
TcGblEnv{ tcg_mod = mod,
tcg_imports = imports,
tcg_th_used = th_var
}
= do
-- Template Haskell used?
th_used <- readIORef th_var
let dep_mods = eltsUFM (delFromUFM (imp_dep_mods imports) (moduleName mod))
-- M.hi-boot can be in the imp_dep_mods, but we must remove
-- it before recording the modules on which this one depends!
-- (We want to retain M.hi-boot in imp_dep_mods so that
-- loadHiBootInterface can see if M's direct imports depend
-- on M.hi-boot, and hence that we should do the hi-boot consistency
-- check.)
pkgs | th_used = insertList thUnitId (imp_dep_pkgs imports)
| otherwise = imp_dep_pkgs imports
-- Set the packages required to be Safe according to Safe Haskell.
-- See Note [RnNames . Tracking Trust Transitively]
sorted_pkgs = sortBy stableUnitIdCmp pkgs
trust_pkgs = imp_trust_pkgs imports
dep_pkgs' = map (\x -> (x, x `elem` trust_pkgs)) sorted_pkgs
return Deps { dep_mods = sortBy (stableModuleNameCmp `on` fst) dep_mods,
dep_pkgs = dep_pkgs',
dep_orphs = sortBy stableModuleCmp (imp_orphs imports),
dep_finsts = sortBy stableModuleCmp (imp_finsts imports) }
-- sort to get into canonical order
-- NB. remember to use lexicographic ordering
mkIface_ :: HscEnv -> Maybe Fingerprint -> Module -> HscSource
-> NameSet -> Bool -> Dependencies -> GlobalRdrEnv
-> NameEnv FixItem -> Warnings -> HpcInfo
-> ImportedMods -> Bool
-> [FilePath]
-> SafeHaskellMode
-> ModDetails
-> IO (ModIface, Bool)
mkIface_ hsc_env maybe_old_fingerprint
this_mod hsc_src used_names used_th deps rdr_env fix_env src_warns
hpc_info dir_imp_mods pkg_trust_req dependent_files safe_mode
ModDetails{ md_insts = insts,
md_fam_insts = fam_insts,
md_rules = rules,
md_anns = anns,
md_vect_info = vect_info,
md_types = type_env,
md_exports = exports }
-- NB: notice that mkIface does not look at the bindings
-- only at the TypeEnv. The previous Tidy phase has
-- put exactly the info into the TypeEnv that we want
-- to expose in the interface
= do
usages <- mkUsageInfo hsc_env this_mod dir_imp_mods used_names dependent_files
let entities = typeEnvElts type_env
decls = [ tyThingToIfaceDecl entity
| entity <- entities,
let name = getName entity,
not (isImplicitTyThing entity),
-- No implicit Ids and class tycons in the interface file
not (isWiredInName name),
-- Nor wired-in things; the compiler knows about them anyhow
nameIsLocalOrFrom this_mod name ]
-- Sigh: see Note [Root-main Id] in TcRnDriver
fixities = [(occ,fix) | FixItem occ fix <- nameEnvElts fix_env]
warns = src_warns
iface_rules = map coreRuleToIfaceRule rules
iface_insts = map instanceToIfaceInst $ fixSafeInstances safe_mode insts
iface_fam_insts = map famInstToIfaceFamInst fam_insts
iface_vect_info = flattenVectInfo vect_info
trust_info = setSafeMode safe_mode
annotations = map mkIfaceAnnotation anns
sig_of = getSigOf dflags (moduleName this_mod)
intermediate_iface = ModIface {
mi_module = this_mod,
mi_sig_of = sig_of,
mi_hsc_src = hsc_src,
mi_deps = deps,
mi_usages = usages,
mi_exports = mkIfaceExports exports,
-- Sort these lexicographically, so that
-- the result is stable across compilations
mi_insts = sortBy cmp_inst iface_insts,
mi_fam_insts = sortBy cmp_fam_inst iface_fam_insts,
mi_rules = sortBy cmp_rule iface_rules,
mi_vect_info = iface_vect_info,
mi_fixities = fixities,
mi_warns = warns,
mi_anns = annotations,
mi_globals = maybeGlobalRdrEnv rdr_env,
-- Left out deliberately: filled in by addFingerprints
mi_iface_hash = fingerprint0,
mi_mod_hash = fingerprint0,
mi_flag_hash = fingerprint0,
mi_exp_hash = fingerprint0,
mi_used_th = used_th,
mi_orphan_hash = fingerprint0,
mi_orphan = False, -- Always set by addFingerprints, but
-- it's a strict field, so we can't omit it.
mi_finsts = False, -- Ditto
mi_decls = deliberatelyOmitted "decls",
mi_hash_fn = deliberatelyOmitted "hash_fn",
mi_hpc = isHpcUsed hpc_info,
mi_trust = trust_info,
mi_trust_pkg = pkg_trust_req,
-- And build the cached values
mi_warn_fn = mkIfaceWarnCache warns,
mi_fix_fn = mkIfaceFixCache fixities }
(new_iface, no_change_at_all)
<- {-# SCC "versioninfo" #-}
addFingerprints hsc_env maybe_old_fingerprint
intermediate_iface decls
-- Debug printing
dumpIfSet_dyn dflags Opt_D_dump_hi "FINAL INTERFACE"
(pprModIface new_iface)
-- bug #1617: on reload we weren't updating the PrintUnqualified
-- correctly. This stems from the fact that the interface had
-- not changed, so addFingerprints returns the old ModIface
-- with the old GlobalRdrEnv (mi_globals).
let final_iface = new_iface{ mi_globals = maybeGlobalRdrEnv rdr_env }
return (final_iface, no_change_at_all)
where
dflags = hsc_dflags hsc_env
-- We only fill in mi_globals if the module was compiled to byte
-- code. Otherwise, the compiler may not have retained all the
-- top-level bindings and they won't be in the TypeEnv (see
-- Desugar.addExportFlagsAndRules). The mi_globals field is used
-- by GHCi to decide whether the module has its full top-level
-- scope available. (#5534)
maybeGlobalRdrEnv :: GlobalRdrEnv -> Maybe GlobalRdrEnv
maybeGlobalRdrEnv rdr_env
| targetRetainsAllBindings (hscTarget dflags) = Just rdr_env
| otherwise = Nothing
deliberatelyOmitted :: String -> a
deliberatelyOmitted x = panic ("Deliberately omitted: " ++ x)
flattenVectInfo (VectInfo { vectInfoVar = vVar
, vectInfoTyCon = vTyCon
, vectInfoParallelVars = vParallelVars
, vectInfoParallelTyCons = vParallelTyCons
}) =
IfaceVectInfo
{ ifaceVectInfoVar = [Var.varName v | (v, _ ) <- varEnvElts vVar]
, ifaceVectInfoTyCon = [tyConName t | (t, t_v) <- nameEnvElts vTyCon, t /= t_v]
, ifaceVectInfoTyConReuse = [tyConName t | (t, t_v) <- nameEnvElts vTyCon, t == t_v]
, ifaceVectInfoParallelVars = [Var.varName v | v <- varSetElems vParallelVars]
, ifaceVectInfoParallelTyCons = nameSetElems vParallelTyCons
}
cmp_rule :: IfaceRule -> IfaceRule -> Ordering
cmp_rule = comparing ifRuleName
-- Compare these lexicographically by OccName, *not* by unique,
-- because the latter is not stable across compilations:
cmp_inst :: IfaceClsInst -> IfaceClsInst -> Ordering
cmp_inst = comparing (nameOccName . ifDFun)
cmp_fam_inst :: IfaceFamInst -> IfaceFamInst -> Ordering
cmp_fam_inst = comparing (nameOccName . ifFamInstFam)
-----------------------------
writeIfaceFile :: DynFlags -> FilePath -> ModIface -> IO ()
writeIfaceFile dflags hi_file_path new_iface
= do createDirectoryIfMissing True (takeDirectory hi_file_path)
writeBinIface dflags hi_file_path new_iface
-- -----------------------------------------------------------------------------
-- Look up parents and versions of Names
-- This is like a global version of the mi_hash_fn field in each ModIface.
-- Given a Name, it finds the ModIface, and then uses mi_hash_fn to get
-- the parent and version info.
mkHashFun
:: HscEnv -- needed to look up versions
-> ExternalPackageState -- ditto
-> (Name -> Fingerprint)
mkHashFun hsc_env eps
= \name ->
let
mod = ASSERT2( isExternalName name, ppr name ) nameModule name
occ = nameOccName name
iface = lookupIfaceByModule (hsc_dflags hsc_env) hpt pit mod `orElse`
pprPanic "lookupVers2" (ppr mod <+> ppr occ)
in
snd (mi_hash_fn iface occ `orElse`
pprPanic "lookupVers1" (ppr mod <+> ppr occ))
where
hpt = hsc_HPT hsc_env
pit = eps_PIT eps
-- ---------------------------------------------------------------------------
-- Compute fingerprints for the interface
addFingerprints
:: HscEnv
-> Maybe Fingerprint -- the old fingerprint, if any
-> ModIface -- The new interface (lacking decls)
-> [IfaceDecl] -- The new decls
-> IO (ModIface, -- Updated interface
Bool) -- True <=> no changes at all;
-- no need to write Iface
addFingerprints hsc_env mb_old_fingerprint iface0 new_decls
= do
eps <- hscEPS hsc_env
let
-- The ABI of a declaration represents everything that is made
-- visible about the declaration that a client can depend on.
-- see IfaceDeclABI below.
declABI :: IfaceDecl -> IfaceDeclABI
declABI decl = (this_mod, decl, extras)
where extras = declExtras fix_fn ann_fn non_orph_rules non_orph_insts
non_orph_fis decl
edges :: [(IfaceDeclABI, Unique, [Unique])]
edges = [ (abi, getUnique (ifName decl), out)
| decl <- new_decls
, let abi = declABI decl
, let out = localOccs $ freeNamesDeclABI abi
]
name_module n = ASSERT2( isExternalName n, ppr n ) nameModule n
localOccs = map (getUnique . getParent . getOccName)
. filter ((== this_mod) . name_module)
. nameSetElems
where getParent occ = lookupOccEnv parent_map occ `orElse` occ
-- maps OccNames to their parents in the current module.
-- e.g. a reference to a constructor must be turned into a reference
-- to the TyCon for the purposes of calculating dependencies.
parent_map :: OccEnv OccName
parent_map = foldr extend emptyOccEnv new_decls
where extend d env =
extendOccEnvList env [ (b,n) | b <- ifaceDeclImplicitBndrs d ]
where n = ifName d
-- strongly-connected groups of declarations, in dependency order
groups = stronglyConnCompFromEdgedVertices edges
global_hash_fn = mkHashFun hsc_env eps
-- how to output Names when generating the data to fingerprint.
-- Here we want to output the fingerprint for each top-level
-- Name, whether it comes from the current module or another
-- module. In this way, the fingerprint for a declaration will
-- change if the fingerprint for anything it refers to (transitively)
-- changes.
mk_put_name :: (OccEnv (OccName,Fingerprint))
-> BinHandle -> Name -> IO ()
mk_put_name local_env bh name
| isWiredInName name = putNameLiterally bh name
-- wired-in names don't have fingerprints
| otherwise
= ASSERT2( isExternalName name, ppr name )
let hash | nameModule name /= this_mod = global_hash_fn name
| otherwise = snd (lookupOccEnv local_env (getOccName name)
`orElse` pprPanic "urk! lookup local fingerprint"
(ppr name)) -- (undefined,fingerprint0))
-- This panic indicates that we got the dependency
-- analysis wrong, because we needed a fingerprint for
-- an entity that wasn't in the environment. To debug
-- it, turn the panic into a trace, uncomment the
-- pprTraces below, run the compile again, and inspect
-- the output and the generated .hi file with
-- --show-iface.
in put_ bh hash
-- take a strongly-connected group of declarations and compute
-- its fingerprint.
fingerprint_group :: (OccEnv (OccName,Fingerprint),
[(Fingerprint,IfaceDecl)])
-> SCC IfaceDeclABI
-> IO (OccEnv (OccName,Fingerprint),
[(Fingerprint,IfaceDecl)])
fingerprint_group (local_env, decls_w_hashes) (AcyclicSCC abi)
= do let hash_fn = mk_put_name local_env
decl = abiDecl abi
-- pprTrace "fingerprinting" (ppr (ifName decl) ) $ do
hash <- computeFingerprint hash_fn abi
env' <- extend_hash_env local_env (hash,decl)
return (env', (hash,decl) : decls_w_hashes)
fingerprint_group (local_env, decls_w_hashes) (CyclicSCC abis)
= do let decls = map abiDecl abis
local_env1 <- foldM extend_hash_env local_env
(zip (repeat fingerprint0) decls)
let hash_fn = mk_put_name local_env1
-- pprTrace "fingerprinting" (ppr (map ifName decls) ) $ do
let stable_abis = sortBy cmp_abiNames abis
-- put the cycle in a canonical order
hash <- computeFingerprint hash_fn stable_abis
let pairs = zip (repeat hash) decls
local_env2 <- foldM extend_hash_env local_env pairs
return (local_env2, pairs ++ decls_w_hashes)
-- we have fingerprinted the whole declaration, but we now need
-- to assign fingerprints to all the OccNames that it binds, to
-- use when referencing those OccNames in later declarations.
--
extend_hash_env :: OccEnv (OccName,Fingerprint)
-> (Fingerprint,IfaceDecl)
-> IO (OccEnv (OccName,Fingerprint))
extend_hash_env env0 (hash,d) = do
return (foldr (\(b,fp) env -> extendOccEnv env b (b,fp)) env0
(ifaceDeclFingerprints hash d))
--
(local_env, decls_w_hashes) <-
foldM fingerprint_group (emptyOccEnv, []) groups
-- when calculating fingerprints, we always need to use canonical
-- ordering for lists of things. In particular, the mi_deps has various
-- lists of modules and suchlike, so put these all in canonical order:
let sorted_deps = sortDependencies (mi_deps iface0)
-- the export hash of a module depends on the orphan hashes of the
-- orphan modules below us in the dependency tree. This is the way
-- that changes in orphans get propagated all the way up the
-- dependency tree. We only care about orphan modules in the current
-- package, because changes to orphans outside this package will be
-- tracked by the usage on the ABI hash of package modules that we import.
let orph_mods
= filter (/= this_mod) -- Note [Do not update EPS with your own hi-boot]
. filter ((== this_pkg) . moduleUnitId)
$ dep_orphs sorted_deps
dep_orphan_hashes <- getOrphanHashes hsc_env orph_mods
-- Note [Do not update EPS with your own hi-boot]
-- ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
-- (See also Trac #10182). When your hs-boot file includes an orphan
-- instance declaration, you may find that the dep_orphs of a module you
-- import contains reference to yourself. DO NOT actually load this module
-- or add it to the orphan hashes: you're going to provide the orphan
-- instances yourself, no need to consult hs-boot; if you do load the
-- interface into EPS, you will see a duplicate orphan instance.
orphan_hash <- computeFingerprint (mk_put_name local_env)
(map ifDFun orph_insts, orph_rules, orph_fis)
-- the export list hash doesn't depend on the fingerprints of
-- the Names it mentions, only the Names themselves, hence putNameLiterally.
export_hash <- computeFingerprint putNameLiterally
(mi_exports iface0,
orphan_hash,
dep_orphan_hashes,
dep_pkgs (mi_deps iface0),
-- dep_pkgs: see "Package Version Changes" on
-- wiki/Commentary/Compiler/RecompilationAvoidance
mi_trust iface0)
-- Make sure change of Safe Haskell mode causes recomp.
-- put the declarations in a canonical order, sorted by OccName
let sorted_decls = Map.elems $ Map.fromList $
[(ifName d, e) | e@(_, d) <- decls_w_hashes]
-- the flag hash depends on:
-- - (some of) dflags
-- it returns two hashes, one that shouldn't change
-- the abi hash and one that should
flag_hash <- fingerprintDynFlags dflags this_mod putNameLiterally
-- the ABI hash depends on:
-- - decls
-- - export list
-- - orphans
-- - deprecations
-- - vect info
-- - flag abi hash
mod_hash <- computeFingerprint putNameLiterally
(map fst sorted_decls,
export_hash, -- includes orphan_hash
mi_warns iface0,
mi_vect_info iface0)
-- The interface hash depends on:
-- - the ABI hash, plus
-- - the module level annotations,
-- - usages
-- - deps (home and external packages, dependent files)
-- - hpc
iface_hash <- computeFingerprint putNameLiterally
(mod_hash,
ann_fn (mkVarOcc "module"), -- See mkIfaceAnnCache
mi_usages iface0,
sorted_deps,
mi_hpc iface0)
let
no_change_at_all = Just iface_hash == mb_old_fingerprint
final_iface = iface0 {
mi_mod_hash = mod_hash,
mi_iface_hash = iface_hash,
mi_exp_hash = export_hash,
mi_orphan_hash = orphan_hash,
mi_flag_hash = flag_hash,
mi_orphan = not ( all ifRuleAuto orph_rules
-- See Note [Orphans and auto-generated rules]
&& null orph_insts
&& null orph_fis
&& isNoIfaceVectInfo (mi_vect_info iface0)),
mi_finsts = not . null $ mi_fam_insts iface0,
mi_decls = sorted_decls,
mi_hash_fn = lookupOccEnv local_env }
--
return (final_iface, no_change_at_all)
where
this_mod = mi_module iface0
dflags = hsc_dflags hsc_env
this_pkg = thisPackage dflags
(non_orph_insts, orph_insts) = mkOrphMap ifInstOrph (mi_insts iface0)
(non_orph_rules, orph_rules) = mkOrphMap ifRuleOrph (mi_rules iface0)
(non_orph_fis, orph_fis) = mkOrphMap ifFamInstOrph (mi_fam_insts iface0)
fix_fn = mi_fix_fn iface0
ann_fn = mkIfaceAnnCache (mi_anns iface0)
getOrphanHashes :: HscEnv -> [Module] -> IO [Fingerprint]
getOrphanHashes hsc_env mods = do
eps <- hscEPS hsc_env
let
hpt = hsc_HPT hsc_env
pit = eps_PIT eps
dflags = hsc_dflags hsc_env
get_orph_hash mod =
case lookupIfaceByModule dflags hpt pit mod of
Nothing -> pprPanic "moduleOrphanHash" (ppr mod)
Just iface -> mi_orphan_hash iface
--
return (map get_orph_hash mods)
sortDependencies :: Dependencies -> Dependencies
sortDependencies d
= Deps { dep_mods = sortBy (compare `on` (moduleNameFS.fst)) (dep_mods d),
dep_pkgs = sortBy (stableUnitIdCmp `on` fst) (dep_pkgs d),
dep_orphs = sortBy stableModuleCmp (dep_orphs d),
dep_finsts = sortBy stableModuleCmp (dep_finsts d) }
-- | Creates cached lookup for the 'mi_anns' field of ModIface
-- Hackily, we use "module" as the OccName for any module-level annotations
mkIfaceAnnCache :: [IfaceAnnotation] -> OccName -> [AnnPayload]
mkIfaceAnnCache anns
= \n -> lookupOccEnv env n `orElse` []
where
pair (IfaceAnnotation target value) =
(case target of
NamedTarget occn -> occn
ModuleTarget _ -> mkVarOcc "module"
, [value])
-- flipping (++), so the first argument is always short
env = mkOccEnv_C (flip (++)) (map pair anns)
{-
************************************************************************
* *
The ABI of an IfaceDecl
* *
************************************************************************
Note [The ABI of an IfaceDecl]
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
The ABI of a declaration consists of:
(a) the full name of the identifier (inc. module and package,
because these are used to construct the symbol name by which
the identifier is known externally).
(b) the declaration itself, as exposed to clients. That is, the
definition of an Id is included in the fingerprint only if
it is made available as an unfolding in the interface.
(c) the fixity of the identifier
(d) for Ids: rules
(e) for classes: instances, fixity & rules for methods
(f) for datatypes: instances, fixity & rules for constrs
Items (c)-(f) are not stored in the IfaceDecl, but instead appear
elsewhere in the interface file. But they are *fingerprinted* with
the declaration itself. This is done by grouping (c)-(f) in IfaceDeclExtras,
and fingerprinting that as part of the declaration.
-}
type IfaceDeclABI = (Module, IfaceDecl, IfaceDeclExtras)
data IfaceDeclExtras
= IfaceIdExtras IfaceIdExtras
| IfaceDataExtras
Fixity -- Fixity of the tycon itself
[IfaceInstABI] -- Local class and family instances of this tycon
-- See Note [Orphans] in InstEnv
[AnnPayload] -- Annotations of the type itself
[IfaceIdExtras] -- For each constructor: fixity, RULES and annotations
| IfaceClassExtras
Fixity -- Fixity of the class itself
[IfaceInstABI] -- Local instances of this class *or*
-- of its associated data types
-- See Note [Orphans] in InstEnv
[AnnPayload] -- Annotations of the type itself
[IfaceIdExtras] -- For each class method: fixity, RULES and annotations
| IfaceSynonymExtras Fixity [AnnPayload]
| IfaceFamilyExtras Fixity [IfaceInstABI] [AnnPayload]
| IfaceOtherDeclExtras
data IfaceIdExtras
= IdExtras
Fixity -- Fixity of the Id
[IfaceRule] -- Rules for the Id
[AnnPayload] -- Annotations for the Id
-- When hashing a class or family instance, we hash only the
-- DFunId or CoAxiom, because that depends on all the
-- information about the instance.
--
type IfaceInstABI = IfExtName -- Name of DFunId or CoAxiom that is evidence for the instance
abiDecl :: IfaceDeclABI -> IfaceDecl
abiDecl (_, decl, _) = decl
cmp_abiNames :: IfaceDeclABI -> IfaceDeclABI -> Ordering
cmp_abiNames abi1 abi2 = ifName (abiDecl abi1) `compare`
ifName (abiDecl abi2)
freeNamesDeclABI :: IfaceDeclABI -> NameSet
freeNamesDeclABI (_mod, decl, extras) =
freeNamesIfDecl decl `unionNameSet` freeNamesDeclExtras extras
freeNamesDeclExtras :: IfaceDeclExtras -> NameSet
freeNamesDeclExtras (IfaceIdExtras id_extras)
= freeNamesIdExtras id_extras
freeNamesDeclExtras (IfaceDataExtras _ insts _ subs)
= unionNameSets (mkNameSet insts : map freeNamesIdExtras subs)
freeNamesDeclExtras (IfaceClassExtras _ insts _ subs)
= unionNameSets (mkNameSet insts : map freeNamesIdExtras subs)
freeNamesDeclExtras (IfaceSynonymExtras _ _)
= emptyNameSet
freeNamesDeclExtras (IfaceFamilyExtras _ insts _)
= mkNameSet insts
freeNamesDeclExtras IfaceOtherDeclExtras
= emptyNameSet
freeNamesIdExtras :: IfaceIdExtras -> NameSet
freeNamesIdExtras (IdExtras _ rules _) = unionNameSets (map freeNamesIfRule rules)
instance Outputable IfaceDeclExtras where
ppr IfaceOtherDeclExtras = Outputable.empty
ppr (IfaceIdExtras extras) = ppr_id_extras extras
ppr (IfaceSynonymExtras fix anns) = vcat [ppr fix, ppr anns]
ppr (IfaceFamilyExtras fix finsts anns) = vcat [ppr fix, ppr finsts, ppr anns]
ppr (IfaceDataExtras fix insts anns stuff) = vcat [ppr fix, ppr_insts insts, ppr anns,
ppr_id_extras_s stuff]
ppr (IfaceClassExtras fix insts anns stuff) = vcat [ppr fix, ppr_insts insts, ppr anns,
ppr_id_extras_s stuff]
ppr_insts :: [IfaceInstABI] -> SDoc
ppr_insts _ = ptext (sLit "<insts>")
ppr_id_extras_s :: [IfaceIdExtras] -> SDoc
ppr_id_extras_s stuff = vcat (map ppr_id_extras stuff)
ppr_id_extras :: IfaceIdExtras -> SDoc
ppr_id_extras (IdExtras fix rules anns) = ppr fix $$ vcat (map ppr rules) $$ vcat (map ppr anns)
-- This instance is used only to compute fingerprints
instance Binary IfaceDeclExtras where
get _bh = panic "no get for IfaceDeclExtras"
put_ bh (IfaceIdExtras extras) = do
putByte bh 1; put_ bh extras
put_ bh (IfaceDataExtras fix insts anns cons) = do
putByte bh 2; put_ bh fix; put_ bh insts; put_ bh anns; put_ bh cons
put_ bh (IfaceClassExtras fix insts anns methods) = do
putByte bh 3; put_ bh fix; put_ bh insts; put_ bh anns; put_ bh methods
put_ bh (IfaceSynonymExtras fix anns) = do
putByte bh 4; put_ bh fix; put_ bh anns
put_ bh (IfaceFamilyExtras fix finsts anns) = do
putByte bh 5; put_ bh fix; put_ bh finsts; put_ bh anns
put_ bh IfaceOtherDeclExtras = putByte bh 6
instance Binary IfaceIdExtras where
get _bh = panic "no get for IfaceIdExtras"
put_ bh (IdExtras fix rules anns)= do { put_ bh fix; put_ bh rules; put_ bh anns }
declExtras :: (OccName -> Fixity)
-> (OccName -> [AnnPayload])
-> OccEnv [IfaceRule]
-> OccEnv [IfaceClsInst]
-> OccEnv [IfaceFamInst]
-> IfaceDecl
-> IfaceDeclExtras
declExtras fix_fn ann_fn rule_env inst_env fi_env decl
= case decl of
IfaceId{} -> IfaceIdExtras (id_extras n)
IfaceData{ifCons=cons} ->
IfaceDataExtras (fix_fn n)
(map ifFamInstAxiom (lookupOccEnvL fi_env n) ++
map ifDFun (lookupOccEnvL inst_env n))
(ann_fn n)
(map (id_extras . ifConOcc) (visibleIfConDecls cons))
IfaceClass{ifSigs=sigs, ifATs=ats} ->
IfaceClassExtras (fix_fn n)
(map ifDFun $ (concatMap at_extras ats)
++ lookupOccEnvL inst_env n)
-- Include instances of the associated types
-- as well as instances of the class (Trac #5147)
(ann_fn n)
[id_extras op | IfaceClassOp op _ _ <- sigs]
IfaceSynonym{} -> IfaceSynonymExtras (fix_fn n)
(ann_fn n)
IfaceFamily{} -> IfaceFamilyExtras (fix_fn n)
(map ifFamInstAxiom (lookupOccEnvL fi_env n))
(ann_fn n)
_other -> IfaceOtherDeclExtras
where
n = ifName decl
id_extras occ = IdExtras (fix_fn occ) (lookupOccEnvL rule_env occ) (ann_fn occ)
at_extras (IfaceAT decl _) = lookupOccEnvL inst_env (ifName decl)
lookupOccEnvL :: OccEnv [v] -> OccName -> [v]
lookupOccEnvL env k = lookupOccEnv env k `orElse` []
-- used when we want to fingerprint a structure without depending on the
-- fingerprints of external Names that it refers to.
putNameLiterally :: BinHandle -> Name -> IO ()
putNameLiterally bh name = ASSERT( isExternalName name )
do
put_ bh $! nameModule name
put_ bh $! nameOccName name
{-
-- for testing: use the md5sum command to generate fingerprints and
-- compare the results against our built-in version.
fp' <- oldMD5 dflags bh
if fp /= fp' then pprPanic "computeFingerprint" (ppr fp <+> ppr fp')
else return fp
oldMD5 dflags bh = do
tmp <- newTempName dflags "bin"
writeBinMem bh tmp
tmp2 <- newTempName dflags "md5"
let cmd = "md5sum " ++ tmp ++ " >" ++ tmp2
r <- system cmd
case r of
ExitFailure _ -> throwGhcExceptionIO (PhaseFailed cmd r)
ExitSuccess -> do
hash_str <- readFile tmp2
return $! readHexFingerprint hash_str
-}
----------------------
-- mkOrphMap partitions instance decls or rules into
-- (a) an OccEnv for ones that are not orphans,
-- mapping the local OccName to a list of its decls
-- (b) a list of orphan decls
mkOrphMap :: (decl -> IsOrphan) -- Extract orphan status from decl
-> [decl] -- Sorted into canonical order
-> (OccEnv [decl], -- Non-orphan decls associated with their key;
-- each sublist in canonical order
[decl]) -- Orphan decls; in canonical order
mkOrphMap get_key decls
= foldl go (emptyOccEnv, []) decls
where
go (non_orphs, orphs) d
| NotOrphan occ <- get_key d
= (extendOccEnv_Acc (:) singleton non_orphs occ d, orphs)
| otherwise = (non_orphs, d:orphs)
{-
************************************************************************
* *
Keeping track of what we've slurped, and fingerprints
* *
************************************************************************
-}
mkUsageInfo :: HscEnv -> Module -> ImportedMods -> NameSet -> [FilePath] -> IO [Usage]
mkUsageInfo hsc_env this_mod dir_imp_mods used_names dependent_files
= do
eps <- hscEPS hsc_env
hashes <- mapM getFileHash dependent_files
let mod_usages = mk_mod_usage_info (eps_PIT eps) hsc_env this_mod
dir_imp_mods used_names
let usages = mod_usages ++ [ UsageFile { usg_file_path = f
, usg_file_hash = hash }
| (f, hash) <- zip dependent_files hashes ]
usages `seqList` return usages
-- seq the list of Usages returned: occasionally these
-- don't get evaluated for a while and we can end up hanging on to
-- the entire collection of Ifaces.
mk_mod_usage_info :: PackageIfaceTable
-> HscEnv
-> Module
-> ImportedMods
-> NameSet
-> [Usage]
mk_mod_usage_info pit hsc_env this_mod direct_imports used_names
= mapMaybe mkUsage usage_mods
where
hpt = hsc_HPT hsc_env
dflags = hsc_dflags hsc_env
this_pkg = thisPackage dflags
used_mods = moduleEnvKeys ent_map
dir_imp_mods = moduleEnvKeys direct_imports
all_mods = used_mods ++ filter (`notElem` used_mods) dir_imp_mods
usage_mods = sortBy stableModuleCmp all_mods
-- canonical order is imported, to avoid interface-file
-- wobblage.
-- ent_map groups together all the things imported and used
-- from a particular module
ent_map :: ModuleEnv [OccName]
ent_map = foldNameSet add_mv emptyModuleEnv used_names
where
add_mv name mv_map
| isWiredInName name = mv_map -- ignore wired-in names
| otherwise
= case nameModule_maybe name of
Nothing -> ASSERT2( isSystemName name, ppr name ) mv_map
-- See Note [Internal used_names]
Just mod -> -- This lambda function is really just a
-- specialised (++); originally came about to
-- avoid quadratic behaviour (trac #2680)
extendModuleEnvWith (\_ xs -> occ:xs) mv_map mod [occ]
where occ = nameOccName name
-- We want to create a Usage for a home module if
-- a) we used something from it; has something in used_names
-- b) we imported it, even if we used nothing from it
-- (need to recompile if its export list changes: export_fprint)
mkUsage :: Module -> Maybe Usage
mkUsage mod
| isNothing maybe_iface -- We can't depend on it if we didn't
-- load its interface.
|| mod == this_mod -- We don't care about usages of
-- things in *this* module
= Nothing
| moduleUnitId mod /= this_pkg
= Just UsagePackageModule{ usg_mod = mod,
usg_mod_hash = mod_hash,
usg_safe = imp_safe }
-- for package modules, we record the module hash only
| (null used_occs
&& isNothing export_hash
&& not is_direct_import
&& not finsts_mod)
= Nothing -- Record no usage info
-- for directly-imported modules, we always want to record a usage
-- on the orphan hash. This is what triggers a recompilation if
-- an orphan is added or removed somewhere below us in the future.
| otherwise
= Just UsageHomeModule {
usg_mod_name = moduleName mod,
usg_mod_hash = mod_hash,
usg_exports = export_hash,
usg_entities = Map.toList ent_hashs,
usg_safe = imp_safe }
where
maybe_iface = lookupIfaceByModule dflags hpt pit mod
-- In one-shot mode, the interfaces for home-package
-- modules accumulate in the PIT not HPT. Sigh.
Just iface = maybe_iface
finsts_mod = mi_finsts iface
hash_env = mi_hash_fn iface
mod_hash = mi_mod_hash iface
export_hash | depend_on_exports = Just (mi_exp_hash iface)
| otherwise = Nothing
(is_direct_import, imp_safe)
= case lookupModuleEnv direct_imports mod of
Just ((_,_,_,safe):_xs) -> (True, safe)
Just _ -> pprPanic "mkUsage: empty direct import" Outputable.empty
Nothing -> (False, safeImplicitImpsReq dflags)
-- Nothing case is for implicit imports like 'System.IO' when 'putStrLn'
-- is used in the source code. We require them to be safe in Safe Haskell
used_occs = lookupModuleEnv ent_map mod `orElse` []
-- Making a Map here ensures that (a) we remove duplicates
-- when we have usages on several subordinates of a single parent,
-- and (b) that the usages emerge in a canonical order, which
-- is why we use Map rather than OccEnv: Map works
-- using Ord on the OccNames, which is a lexicographic ordering.
ent_hashs :: Map OccName Fingerprint
ent_hashs = Map.fromList (map lookup_occ used_occs)
lookup_occ occ =
case hash_env occ of
Nothing -> pprPanic "mkUsage" (ppr mod <+> ppr occ <+> ppr used_names)
Just r -> r
depend_on_exports = is_direct_import
{- True
Even if we used 'import M ()', we have to register a
usage on the export list because we are sensitive to
changes in orphan instances/rules.
False
In GHC 6.8.x we always returned true, and in
fact it recorded a dependency on *all* the
modules underneath in the dependency tree. This
happens to make orphans work right, but is too
expensive: it'll read too many interface files.
The 'isNothing maybe_iface' check above saved us
from generating many of these usages (at least in
one-shot mode), but that's even more bogus!
-}
mkIfaceAnnotation :: Annotation -> IfaceAnnotation
mkIfaceAnnotation (Annotation { ann_target = target, ann_value = payload })
= IfaceAnnotation {
ifAnnotatedTarget = fmap nameOccName target,
ifAnnotatedValue = payload
}
mkIfaceExports :: [AvailInfo] -> [IfaceExport] -- Sort to make canonical
mkIfaceExports exports
= sortBy stableAvailCmp (map sort_subs exports)
where
sort_subs :: AvailInfo -> AvailInfo
sort_subs (Avail n) = Avail n
sort_subs (AvailTC n [] fs) = AvailTC n [] (sort_flds fs)
sort_subs (AvailTC n (m:ms) fs)
| n==m = AvailTC n (m:sortBy stableNameCmp ms) (sort_flds fs)
| otherwise = AvailTC n (sortBy stableNameCmp (m:ms)) (sort_flds fs)
-- Maintain the AvailTC Invariant
sort_flds = sortBy (stableNameCmp `on` flSelector)
{-
Note [Orignal module]
~~~~~~~~~~~~~~~~~~~~~
Consider this:
module X where { data family T }
module Y( T(..) ) where { import X; data instance T Int = MkT Int }
The exported Avail from Y will look like
X.T{X.T, Y.MkT}
That is, in Y,
- only MkT is brought into scope by the data instance;
- but the parent (used for grouping and naming in T(..) exports) is X.T
- and in this case we export X.T too
In the result of MkIfaceExports, the names are grouped by defining module,
so we may need to split up a single Avail into multiple ones.
Note [Internal used_names]
~~~~~~~~~~~~~~~~~~~~~~~~~~
Most of the used_names are External Names, but we can have Internal
Names too: see Note [Binders in Template Haskell] in Convert, and
Trac #5362 for an example. Such Names are always
- Such Names are always for locally-defined things, for which we
don't gather usage info, so we can just ignore them in ent_map
- They are always System Names, hence the assert, just as a double check.
************************************************************************
* *
Load the old interface file for this module (unless
we have it already), and check whether it is up to date
* *
************************************************************************
-}
data RecompileRequired
= UpToDate
-- ^ everything is up to date, recompilation is not required
| MustCompile
-- ^ The .hs file has been touched, or the .o/.hi file does not exist
| RecompBecause String
-- ^ The .o/.hi files are up to date, but something else has changed
-- to force recompilation; the String says what (one-line summary)
deriving Eq
recompileRequired :: RecompileRequired -> Bool
recompileRequired UpToDate = False
recompileRequired _ = True
-- | Top level function to check if the version of an old interface file
-- is equivalent to the current source file the user asked us to compile.
-- If the same, we can avoid recompilation. We return a tuple where the
-- first element is a bool saying if we should recompile the object file
-- and the second is maybe the interface file, where Nothng means to
-- rebuild the interface file not use the exisitng one.
checkOldIface
:: HscEnv
-> ModSummary
-> SourceModified
-> Maybe ModIface -- Old interface from compilation manager, if any
-> IO (RecompileRequired, Maybe ModIface)
checkOldIface hsc_env mod_summary source_modified maybe_iface
= do let dflags = hsc_dflags hsc_env
showPass dflags $
"Checking old interface for " ++
(showPpr dflags $ ms_mod mod_summary)
initIfaceCheck hsc_env $
check_old_iface hsc_env mod_summary source_modified maybe_iface
check_old_iface
:: HscEnv
-> ModSummary
-> SourceModified
-> Maybe ModIface
-> IfG (RecompileRequired, Maybe ModIface)
check_old_iface hsc_env mod_summary src_modified maybe_iface
= let dflags = hsc_dflags hsc_env
getIface =
case maybe_iface of
Just _ -> do
traceIf (text "We already have the old interface for" <+>
ppr (ms_mod mod_summary))
return maybe_iface
Nothing -> loadIface
loadIface = do
let iface_path = msHiFilePath mod_summary
read_result <- readIface (ms_mod mod_summary) iface_path
case read_result of
Failed err -> do
traceIf (text "FYI: cannot read old interface file:" $$ nest 4 err)
return Nothing
Succeeded iface -> do
traceIf (text "Read the interface file" <+> text iface_path)
return $ Just iface
src_changed
| gopt Opt_ForceRecomp (hsc_dflags hsc_env) = True
| SourceModified <- src_modified = True
| otherwise = False
in do
when src_changed $
traceHiDiffs (nest 4 $ text "Source file changed or recompilation check turned off")
case src_changed of
-- If the source has changed and we're in interactive mode,
-- avoid reading an interface; just return the one we might
-- have been supplied with.
True | not (isObjectTarget $ hscTarget dflags) ->
return (MustCompile, maybe_iface)
-- Try and read the old interface for the current module
-- from the .hi file left from the last time we compiled it
True -> do
maybe_iface' <- getIface
return (MustCompile, maybe_iface')
False -> do
maybe_iface' <- getIface
case maybe_iface' of
-- We can't retrieve the iface
Nothing -> return (MustCompile, Nothing)
-- We have got the old iface; check its versions
-- even in the SourceUnmodifiedAndStable case we
-- should check versions because some packages
-- might have changed or gone away.
Just iface -> checkVersions hsc_env mod_summary iface
-- | Check if a module is still the same 'version'.
--
-- This function is called in the recompilation checker after we have
-- determined that the module M being checked hasn't had any changes
-- to its source file since we last compiled M. So at this point in general
-- two things may have changed that mean we should recompile M:
-- * The interface export by a dependency of M has changed.
-- * The compiler flags specified this time for M have changed
-- in a manner that is significant for recompilaiton.
-- We return not just if we should recompile the object file but also
-- if we should rebuild the interface file.
checkVersions :: HscEnv
-> ModSummary
-> ModIface -- Old interface
-> IfG (RecompileRequired, Maybe ModIface)
checkVersions hsc_env mod_summary iface
= do { traceHiDiffs (text "Considering whether compilation is required for" <+>
ppr (mi_module iface) <> colon)
; recomp <- checkFlagHash hsc_env iface
; if recompileRequired recomp then return (recomp, Nothing) else do {
; if getSigOf (hsc_dflags hsc_env) (moduleName (mi_module iface))
/= mi_sig_of iface
then return (RecompBecause "sig-of changed", Nothing) else do {
; recomp <- checkDependencies hsc_env mod_summary iface
; if recompileRequired recomp then return (recomp, Just iface) else do {
-- Source code unchanged and no errors yet... carry on
--
-- First put the dependent-module info, read from the old
-- interface, into the envt, so that when we look for
-- interfaces we look for the right one (.hi or .hi-boot)
--
-- It's just temporary because either the usage check will succeed
-- (in which case we are done with this module) or it'll fail (in which
-- case we'll compile the module from scratch anyhow).
--
-- We do this regardless of compilation mode, although in --make mode
-- all the dependent modules should be in the HPT already, so it's
-- quite redundant
; updateEps_ $ \eps -> eps { eps_is_boot = mod_deps }
; recomp <- checkList [checkModUsage this_pkg u | u <- mi_usages iface]
; return (recomp, Just iface)
}}}}
where
this_pkg = thisPackage (hsc_dflags hsc_env)
-- This is a bit of a hack really
mod_deps :: ModuleNameEnv (ModuleName, IsBootInterface)
mod_deps = mkModDeps (dep_mods (mi_deps iface))
-- | Check the flags haven't changed
checkFlagHash :: HscEnv -> ModIface -> IfG RecompileRequired
checkFlagHash hsc_env iface = do
let old_hash = mi_flag_hash iface
new_hash <- liftIO $ fingerprintDynFlags (hsc_dflags hsc_env)
(mi_module iface)
putNameLiterally
case old_hash == new_hash of
True -> up_to_date (ptext $ sLit "Module flags unchanged")
False -> out_of_date_hash "flags changed"
(ptext $ sLit " Module flags have changed")
old_hash new_hash
-- If the direct imports of this module are resolved to targets that
-- are not among the dependencies of the previous interface file,
-- then we definitely need to recompile. This catches cases like
-- - an exposed package has been upgraded
-- - we are compiling with different package flags
-- - a home module that was shadowing a package module has been removed
-- - a new home module has been added that shadows a package module
-- See bug #1372.
--
-- Returns True if recompilation is required.
checkDependencies :: HscEnv -> ModSummary -> ModIface -> IfG RecompileRequired
checkDependencies hsc_env summary iface
= checkList (map dep_missing (ms_imps summary ++ ms_srcimps summary))
where
prev_dep_mods = dep_mods (mi_deps iface)
prev_dep_pkgs = dep_pkgs (mi_deps iface)
this_pkg = thisPackage (hsc_dflags hsc_env)
dep_missing (mb_pkg, L _ mod) = do
find_res <- liftIO $ findImportedModule hsc_env mod (mb_pkg)
let reason = moduleNameString mod ++ " changed"
case find_res of
Found _ mod
| pkg == this_pkg
-> if moduleName mod `notElem` map fst prev_dep_mods
then do traceHiDiffs $
text "imported module " <> quotes (ppr mod) <>
text " not among previous dependencies"
return (RecompBecause reason)
else
return UpToDate
| otherwise
-> if pkg `notElem` (map fst prev_dep_pkgs)
then do traceHiDiffs $
text "imported module " <> quotes (ppr mod) <>
text " is from package " <> quotes (ppr pkg) <>
text ", which is not among previous dependencies"
return (RecompBecause reason)
else
return UpToDate
where pkg = moduleUnitId mod
_otherwise -> return (RecompBecause reason)
needInterface :: Module -> (ModIface -> IfG RecompileRequired)
-> IfG RecompileRequired
needInterface mod continue
= do -- Load the imported interface if possible
let doc_str = sep [ptext (sLit "need version info for"), ppr mod]
traceHiDiffs (text "Checking usages for module" <+> ppr mod)
mb_iface <- loadInterface doc_str mod ImportBySystem
-- Load the interface, but don't complain on failure;
-- Instead, get an Either back which we can test
case mb_iface of
Failed _ -> do
traceHiDiffs (sep [ptext (sLit "Couldn't load interface for module"),
ppr mod])
return MustCompile
-- Couldn't find or parse a module mentioned in the
-- old interface file. Don't complain: it might
-- just be that the current module doesn't need that
-- import and it's been deleted
Succeeded iface -> continue iface
-- | Given the usage information extracted from the old
-- M.hi file for the module being compiled, figure out
-- whether M needs to be recompiled.
checkModUsage :: UnitId -> Usage -> IfG RecompileRequired
checkModUsage _this_pkg UsagePackageModule{
usg_mod = mod,
usg_mod_hash = old_mod_hash }
= needInterface mod $ \iface -> do
let reason = moduleNameString (moduleName mod) ++ " changed"
checkModuleFingerprint reason old_mod_hash (mi_mod_hash iface)
-- We only track the ABI hash of package modules, rather than
-- individual entity usages, so if the ABI hash changes we must
-- recompile. This is safe but may entail more recompilation when
-- a dependent package has changed.
checkModUsage this_pkg UsageHomeModule{
usg_mod_name = mod_name,
usg_mod_hash = old_mod_hash,
usg_exports = maybe_old_export_hash,
usg_entities = old_decl_hash }
= do
let mod = mkModule this_pkg mod_name
needInterface mod $ \iface -> do
let
new_mod_hash = mi_mod_hash iface
new_decl_hash = mi_hash_fn iface
new_export_hash = mi_exp_hash iface
reason = moduleNameString mod_name ++ " changed"
-- CHECK MODULE
recompile <- checkModuleFingerprint reason old_mod_hash new_mod_hash
if not (recompileRequired recompile)
then return UpToDate
else do
-- CHECK EXPORT LIST
checkMaybeHash reason maybe_old_export_hash new_export_hash
(ptext (sLit " Export list changed")) $ do
-- CHECK ITEMS ONE BY ONE
recompile <- checkList [ checkEntityUsage reason new_decl_hash u
| u <- old_decl_hash]
if recompileRequired recompile
then return recompile -- This one failed, so just bail out now
else up_to_date (ptext (sLit " Great! The bits I use are up to date"))
checkModUsage _this_pkg UsageFile{ usg_file_path = file,
usg_file_hash = old_hash } =
liftIO $
handleIO handle $ do
new_hash <- getFileHash file
if (old_hash /= new_hash)
then return recomp
else return UpToDate
where
recomp = RecompBecause (file ++ " changed")
handle =
#ifdef DEBUG
\e -> pprTrace "UsageFile" (text (show e)) $ return recomp
#else
\_ -> return recomp -- if we can't find the file, just recompile, don't fail
#endif
------------------------
checkModuleFingerprint :: String -> Fingerprint -> Fingerprint
-> IfG RecompileRequired
checkModuleFingerprint reason old_mod_hash new_mod_hash
| new_mod_hash == old_mod_hash
= up_to_date (ptext (sLit "Module fingerprint unchanged"))
| otherwise
= out_of_date_hash reason (ptext (sLit " Module fingerprint has changed"))
old_mod_hash new_mod_hash
------------------------
checkMaybeHash :: String -> Maybe Fingerprint -> Fingerprint -> SDoc
-> IfG RecompileRequired -> IfG RecompileRequired
checkMaybeHash reason maybe_old_hash new_hash doc continue
| Just hash <- maybe_old_hash, hash /= new_hash
= out_of_date_hash reason doc hash new_hash
| otherwise
= continue
------------------------
checkEntityUsage :: String
-> (OccName -> Maybe (OccName, Fingerprint))
-> (OccName, Fingerprint)
-> IfG RecompileRequired
checkEntityUsage reason new_hash (name,old_hash)
= case new_hash name of
Nothing -> -- We used it before, but it ain't there now
out_of_date reason (sep [ptext (sLit "No longer exported:"), ppr name])
Just (_, new_hash) -- It's there, but is it up to date?
| new_hash == old_hash -> do traceHiDiffs (text " Up to date" <+> ppr name <+> parens (ppr new_hash))
return UpToDate
| otherwise -> out_of_date_hash reason (ptext (sLit " Out of date:") <+> ppr name)
old_hash new_hash
up_to_date :: SDoc -> IfG RecompileRequired
up_to_date msg = traceHiDiffs msg >> return UpToDate
out_of_date :: String -> SDoc -> IfG RecompileRequired
out_of_date reason msg = traceHiDiffs msg >> return (RecompBecause reason)
out_of_date_hash :: String -> SDoc -> Fingerprint -> Fingerprint -> IfG RecompileRequired
out_of_date_hash reason msg old_hash new_hash
= out_of_date reason (hsep [msg, ppr old_hash, ptext (sLit "->"), ppr new_hash])
----------------------
checkList :: [IfG RecompileRequired] -> IfG RecompileRequired
-- This helper is used in two places
checkList [] = return UpToDate
checkList (check:checks) = do recompile <- check
if recompileRequired recompile
then return recompile
else checkList checks
{-
************************************************************************
* *
Converting things to their Iface equivalents
* *
************************************************************************
-}
tyThingToIfaceDecl :: TyThing -> IfaceDecl
tyThingToIfaceDecl (AnId id) = idToIfaceDecl id
tyThingToIfaceDecl (ATyCon tycon) = snd (tyConToIfaceDecl emptyTidyEnv tycon)
tyThingToIfaceDecl (ACoAxiom ax) = coAxiomToIfaceDecl ax
tyThingToIfaceDecl (AConLike cl) = case cl of
RealDataCon dc -> dataConToIfaceDecl dc -- for ppr purposes only
PatSynCon ps -> patSynToIfaceDecl ps
--------------------------
idToIfaceDecl :: Id -> IfaceDecl
-- The Id is already tidied, so that locally-bound names
-- (lambdas, for-alls) already have non-clashing OccNames
-- We can't tidy it here, locally, because it may have
-- free variables in its type or IdInfo
idToIfaceDecl id
= IfaceId { ifName = getOccName id,
ifType = toIfaceType (idType id),
ifIdDetails = toIfaceIdDetails (idDetails id),
ifIdInfo = toIfaceIdInfo (idInfo id) }
--------------------------
dataConToIfaceDecl :: DataCon -> IfaceDecl
dataConToIfaceDecl dataCon
= IfaceId { ifName = getOccName dataCon,
ifType = toIfaceType (dataConUserType dataCon),
ifIdDetails = IfVanillaId,
ifIdInfo = NoInfo }
--------------------------
patSynToIfaceDecl :: PatSyn -> IfaceDecl
patSynToIfaceDecl ps
= IfacePatSyn { ifName = getOccName . getName $ ps
, ifPatMatcher = to_if_pr (patSynMatcher ps)
, ifPatBuilder = fmap to_if_pr (patSynBuilder ps)
, ifPatIsInfix = patSynIsInfix ps
, ifPatUnivTvs = toIfaceTvBndrs univ_tvs'
, ifPatExTvs = toIfaceTvBndrs ex_tvs'
, ifPatProvCtxt = tidyToIfaceContext env2 prov_theta
, ifPatReqCtxt = tidyToIfaceContext env2 req_theta
, ifPatArgs = map (tidyToIfaceType env2) args
, ifPatTy = tidyToIfaceType env2 rhs_ty
}
where
(univ_tvs, req_theta, ex_tvs, prov_theta, args, rhs_ty) = patSynSig ps
(env1, univ_tvs') = tidyTyVarBndrs emptyTidyEnv univ_tvs
(env2, ex_tvs') = tidyTyVarBndrs env1 ex_tvs
to_if_pr (id, needs_dummy) = (idName id, needs_dummy)
--------------------------
coAxiomToIfaceDecl :: CoAxiom br -> IfaceDecl
-- We *do* tidy Axioms, because they are not (and cannot
-- conveniently be) built in tidy form
coAxiomToIfaceDecl ax@(CoAxiom { co_ax_tc = tycon, co_ax_branches = branches
, co_ax_role = role })
= IfaceAxiom { ifName = name
, ifTyCon = toIfaceTyCon tycon
, ifRole = role
, ifAxBranches = map (coAxBranchToIfaceBranch tycon
(map coAxBranchLHS branch_list))
branch_list }
where
branch_list = fromBranches branches
name = getOccName ax
-- 2nd parameter is the list of branch LHSs, for conversion from incompatible branches
-- to incompatible indices
-- See Note [Storing compatibility] in CoAxiom
coAxBranchToIfaceBranch :: TyCon -> [[Type]] -> CoAxBranch -> IfaceAxBranch
coAxBranchToIfaceBranch tc lhs_s
branch@(CoAxBranch { cab_incomps = incomps })
= (coAxBranchToIfaceBranch' tc branch) { ifaxbIncomps = iface_incomps }
where
iface_incomps = map (expectJust "iface_incomps"
. (flip findIndex lhs_s
. eqTypes)
. coAxBranchLHS) incomps
-- use this one for standalone branches without incompatibles
coAxBranchToIfaceBranch' :: TyCon -> CoAxBranch -> IfaceAxBranch
coAxBranchToIfaceBranch' tc (CoAxBranch { cab_tvs = tvs, cab_lhs = lhs
, cab_roles = roles, cab_rhs = rhs })
= IfaceAxBranch { ifaxbTyVars = toIfaceTvBndrs tv_bndrs
, ifaxbLHS = tidyToIfaceTcArgs env1 tc lhs
, ifaxbRoles = roles
, ifaxbRHS = tidyToIfaceType env1 rhs
, ifaxbIncomps = [] }
where
(env1, tv_bndrs) = tidyTyClTyVarBndrs emptyTidyEnv tvs
-- Don't re-bind in-scope tyvars
-- See Note [CoAxBranch type variables] in CoAxiom
-----------------
tyConToIfaceDecl :: TidyEnv -> TyCon -> (TidyEnv, IfaceDecl)
-- We *do* tidy TyCons, because they are not (and cannot
-- conveniently be) built in tidy form
-- The returned TidyEnv is the one after tidying the tyConTyVars
tyConToIfaceDecl env tycon
| Just clas <- tyConClass_maybe tycon
= classToIfaceDecl env clas
| Just syn_rhs <- synTyConRhs_maybe tycon
= ( tc_env1
, IfaceSynonym { ifName = getOccName tycon,
ifTyVars = if_tc_tyvars,
ifRoles = tyConRoles tycon,
ifSynRhs = if_syn_type syn_rhs,
ifSynKind = tidyToIfaceType tc_env1 (tyConResKind tycon)
})
| Just fam_flav <- famTyConFlav_maybe tycon
= ( tc_env1
, IfaceFamily { ifName = getOccName tycon,
ifTyVars = if_tc_tyvars,
ifResVar = if_res_var,
ifFamFlav = to_if_fam_flav fam_flav,
ifFamKind = tidyToIfaceType tc_env1 (tyConResKind tycon),
ifFamInj = familyTyConInjectivityInfo tycon
})
| isAlgTyCon tycon
= ( tc_env1
, IfaceData { ifName = getOccName tycon,
ifCType = tyConCType tycon,
ifTyVars = if_tc_tyvars,
ifRoles = tyConRoles tycon,
ifCtxt = tidyToIfaceContext tc_env1 (tyConStupidTheta tycon),
ifCons = ifaceConDecls (algTyConRhs tycon) (algTcFields tycon),
ifRec = boolToRecFlag (isRecursiveTyCon tycon),
ifGadtSyntax = isGadtSyntaxTyCon tycon,
ifPromotable = isJust (promotableTyCon_maybe tycon),
ifParent = parent })
| otherwise -- FunTyCon, PrimTyCon, promoted TyCon/DataCon
-- For pretty printing purposes only.
= ( env
, IfaceData { ifName = getOccName tycon,
ifCType = Nothing,
ifTyVars = funAndPrimTyVars,
ifRoles = tyConRoles tycon,
ifCtxt = [],
ifCons = IfDataTyCon [] False [],
ifRec = boolToRecFlag False,
ifGadtSyntax = False,
ifPromotable = False,
ifParent = IfNoParent })
where
(tc_env1, tc_tyvars) = tidyTyClTyVarBndrs env (tyConTyVars tycon)
if_tc_tyvars = toIfaceTvBndrs tc_tyvars
if_syn_type ty = tidyToIfaceType tc_env1 ty
if_res_var = getFS `fmap` tyConFamilyResVar_maybe tycon
funAndPrimTyVars = toIfaceTvBndrs $ take (tyConArity tycon) alphaTyVars
parent = case tyConFamInstSig_maybe tycon of
Just (tc, ty, ax) -> IfDataInstance (coAxiomName ax)
(toIfaceTyCon tc)
(tidyToIfaceTcArgs tc_env1 tc ty)
Nothing -> IfNoParent
to_if_fam_flav OpenSynFamilyTyCon = IfaceOpenSynFamilyTyCon
to_if_fam_flav (ClosedSynFamilyTyCon (Just ax))
= IfaceClosedSynFamilyTyCon (Just (axn, ibr))
where defs = fromBranches $ coAxiomBranches ax
ibr = map (coAxBranchToIfaceBranch' tycon) defs
axn = coAxiomName ax
to_if_fam_flav (ClosedSynFamilyTyCon Nothing)
= IfaceClosedSynFamilyTyCon Nothing
to_if_fam_flav AbstractClosedSynFamilyTyCon
= IfaceAbstractClosedSynFamilyTyCon
to_if_fam_flav (BuiltInSynFamTyCon {})
= IfaceBuiltInSynFamTyCon
ifaceConDecls (NewTyCon { data_con = con }) flds = IfNewTyCon (ifaceConDecl con) (ifaceOverloaded flds) (ifaceFields flds)
ifaceConDecls (DataTyCon { data_cons = cons }) flds = IfDataTyCon (map ifaceConDecl cons) (ifaceOverloaded flds) (ifaceFields flds)
ifaceConDecls (DataFamilyTyCon {}) _ = IfDataFamTyCon
ifaceConDecls (TupleTyCon { data_con = con }) _ = IfDataTyCon [ifaceConDecl con] False []
ifaceConDecls (AbstractTyCon distinct) _ = IfAbstractTyCon distinct
-- The AbstractTyCon case happens when a TyCon has been trimmed
-- during tidying.
-- Furthermore, tyThingToIfaceDecl is also used in TcRnDriver
-- for GHCi, when browsing a module, in which case the
-- AbstractTyCon and TupleTyCon cases are perfectly sensible.
-- (Tuple declarations are not serialised into interface files.)
ifaceConDecl data_con
= IfCon { ifConOcc = getOccName (dataConName data_con),
ifConInfix = dataConIsInfix data_con,
ifConWrapper = isJust (dataConWrapId_maybe data_con),
ifConExTvs = toIfaceTvBndrs ex_tvs',
ifConEqSpec = map to_eq_spec eq_spec,
ifConCtxt = tidyToIfaceContext con_env2 theta,
ifConArgTys = map (tidyToIfaceType con_env2) arg_tys,
ifConFields = map (nameOccName . flSelector)
(dataConFieldLabels data_con),
ifConStricts = map (toIfaceBang con_env2)
(dataConImplBangs data_con),
ifConSrcStricts = map toIfaceSrcBang
(dataConSrcBangs data_con)}
where
(univ_tvs, ex_tvs, eq_spec, theta, arg_tys, _) = dataConFullSig data_con
-- Tidy the univ_tvs of the data constructor to be identical
-- to the tyConTyVars of the type constructor. This means
-- (a) we don't need to redundantly put them into the interface file
-- (b) when pretty-printing an Iface data declaration in H98-style syntax,
-- we know that the type variables will line up
-- The latter (b) is important because we pretty-print type constructors
-- by converting to IfaceSyn and pretty-printing that
con_env1 = (fst tc_env1, mkVarEnv (zipEqual "ifaceConDecl" univ_tvs tc_tyvars))
-- A bit grimy, perhaps, but it's simple!
(con_env2, ex_tvs') = tidyTyVarBndrs con_env1 ex_tvs
to_eq_spec (tv,ty) = (toIfaceTyVar (tidyTyVar con_env2 tv), tidyToIfaceType con_env2 ty)
ifaceOverloaded flds = case fsEnvElts flds of
fl:_ -> flIsOverloaded fl
[] -> False
ifaceFields flds = sort $ map flLabel $ fsEnvElts flds
-- We need to sort the labels because they come out
-- of FastStringEnv in arbitrary order, because
-- FastStringEnv is keyed on Uniques.
-- Sorting FastString is ok here, because Uniques
-- are only used for equality checks in the Ord
-- instance for FastString.
-- See Note [Unique Determinism] in Unique.
toIfaceBang :: TidyEnv -> HsImplBang -> IfaceBang
toIfaceBang _ HsLazy = IfNoBang
toIfaceBang _ (HsUnpack Nothing) = IfUnpack
toIfaceBang env (HsUnpack (Just co)) = IfUnpackCo (toIfaceCoercion (tidyCo env co))
toIfaceBang _ HsStrict = IfStrict
toIfaceSrcBang :: HsSrcBang -> IfaceSrcBang
toIfaceSrcBang (HsSrcBang _ unpk bang) = IfSrcBang unpk bang
classToIfaceDecl :: TidyEnv -> Class -> (TidyEnv, IfaceDecl)
classToIfaceDecl env clas
= ( env1
, IfaceClass { ifCtxt = tidyToIfaceContext env1 sc_theta,
ifName = getOccName (classTyCon clas),
ifTyVars = toIfaceTvBndrs clas_tyvars',
ifRoles = tyConRoles (classTyCon clas),
ifFDs = map toIfaceFD clas_fds,
ifATs = map toIfaceAT clas_ats,
ifSigs = map toIfaceClassOp op_stuff,
ifMinDef = fmap getFS (classMinimalDef clas),
ifRec = boolToRecFlag (isRecursiveTyCon tycon) })
where
(clas_tyvars, clas_fds, sc_theta, _, clas_ats, op_stuff)
= classExtraBigSig clas
tycon = classTyCon clas
(env1, clas_tyvars') = tidyTyVarBndrs env clas_tyvars
toIfaceAT :: ClassATItem -> IfaceAT
toIfaceAT (ATI tc def)
= IfaceAT if_decl (fmap (tidyToIfaceType env2 . fst) def)
where
(env2, if_decl) = tyConToIfaceDecl env1 tc
toIfaceClassOp (sel_id, def_meth)
= ASSERT(sel_tyvars == clas_tyvars)
IfaceClassOp (getOccName sel_id) (toDmSpec def_meth)
(tidyToIfaceType env1 op_ty)
where
-- Be careful when splitting the type, because of things
-- like class Foo a where
-- op :: (?x :: String) => a -> a
-- and class Baz a where
-- op :: (Ord a) => a -> a
(sel_tyvars, rho_ty) = splitForAllTys (idType sel_id)
op_ty = funResultTy rho_ty
toDmSpec NoDefMeth = NoDM
toDmSpec (GenDefMeth _) = GenericDM
toDmSpec (DefMeth _) = VanillaDM
toIfaceFD (tvs1, tvs2) = (map (getFS . tidyTyVar env1) tvs1,
map (getFS . tidyTyVar env1) tvs2)
--------------------------
tidyToIfaceType :: TidyEnv -> Type -> IfaceType
tidyToIfaceType env ty = toIfaceType (tidyType env ty)
tidyToIfaceTcArgs :: TidyEnv -> TyCon -> [Type] -> IfaceTcArgs
tidyToIfaceTcArgs env tc tys = toIfaceTcArgs tc (tidyTypes env tys)
tidyToIfaceContext :: TidyEnv -> ThetaType -> IfaceContext
tidyToIfaceContext env theta = map (tidyToIfaceType env) theta
tidyTyClTyVarBndrs :: TidyEnv -> [TyVar] -> (TidyEnv, [TyVar])
tidyTyClTyVarBndrs env tvs = mapAccumL tidyTyClTyVarBndr env tvs
tidyTyClTyVarBndr :: TidyEnv -> TyVar -> (TidyEnv, TyVar)
-- If the type variable "binder" is in scope, don't re-bind it
-- In a class decl, for example, the ATD binders mention
-- (amd must mention) the class tyvars
tidyTyClTyVarBndr env@(_, subst) tv
| Just tv' <- lookupVarEnv subst tv = (env, tv')
| otherwise = tidyTyVarBndr env tv
tidyTyVar :: TidyEnv -> TyVar -> TyVar
tidyTyVar (_, subst) tv = lookupVarEnv subst tv `orElse` tv
-- TcType.tidyTyVarOcc messes around with FlatSkols
getFS :: NamedThing a => a -> FastString
getFS x = occNameFS (getOccName x)
--------------------------
instanceToIfaceInst :: ClsInst -> IfaceClsInst
instanceToIfaceInst (ClsInst { is_dfun = dfun_id, is_flag = oflag
, is_cls_nm = cls_name, is_cls = cls
, is_tcs = mb_tcs
, is_orphan = orph })
= ASSERT( cls_name == className cls )
IfaceClsInst { ifDFun = dfun_name,
ifOFlag = oflag,
ifInstCls = cls_name,
ifInstTys = map do_rough mb_tcs,
ifInstOrph = orph }
where
do_rough Nothing = Nothing
do_rough (Just n) = Just (toIfaceTyCon_name n)
dfun_name = idName dfun_id
--------------------------
famInstToIfaceFamInst :: FamInst -> IfaceFamInst
famInstToIfaceFamInst (FamInst { fi_axiom = axiom,
fi_fam = fam,
fi_tcs = roughs })
= IfaceFamInst { ifFamInstAxiom = coAxiomName axiom
, ifFamInstFam = fam
, ifFamInstTys = map do_rough roughs
, ifFamInstOrph = orph }
where
do_rough Nothing = Nothing
do_rough (Just n) = Just (toIfaceTyCon_name n)
fam_decl = tyConName $ coAxiomTyCon axiom
mod = ASSERT( isExternalName (coAxiomName axiom) )
nameModule (coAxiomName axiom)
is_local name = nameIsLocalOrFrom mod name
lhs_names = filterNameSet is_local (orphNamesOfCoCon axiom)
orph | is_local fam_decl
= NotOrphan (nameOccName fam_decl)
| otherwise
= chooseOrphanAnchor $ nameSetElems lhs_names
--------------------------
toIfaceLetBndr :: Id -> IfaceLetBndr
toIfaceLetBndr id = IfLetBndr (occNameFS (getOccName id))
(toIfaceType (idType id))
(toIfaceIdInfo (idInfo id))
-- Put into the interface file any IdInfo that CoreTidy.tidyLetBndr
-- has left on the Id. See Note [IdInfo on nested let-bindings] in IfaceSyn
--------------------------
toIfaceIdDetails :: IdDetails -> IfaceIdDetails
toIfaceIdDetails VanillaId = IfVanillaId
toIfaceIdDetails (DFunId {}) = IfDFunId
toIfaceIdDetails (RecSelId { sel_naughty = n
, sel_tycon = tc }) = IfRecSelId (toIfaceTyCon tc) n
-- Currently we don't persist these three "advisory" IdInfos
-- through interface files. We easily could if it mattered
toIfaceIdDetails PatSynId = IfVanillaId
toIfaceIdDetails ReflectionId = IfVanillaId
toIfaceIdDetails DefMethId = IfVanillaId
-- The remaining cases are all "implicit Ids" which don't
-- appear in interface files at all
toIfaceIdDetails other = pprTrace "toIfaceIdDetails" (ppr other)
IfVanillaId -- Unexpected; the other
toIfaceIdInfo :: IdInfo -> IfaceIdInfo
toIfaceIdInfo id_info
= case catMaybes [arity_hsinfo, caf_hsinfo, strict_hsinfo,
inline_hsinfo, unfold_hsinfo] of
[] -> NoInfo
infos -> HasInfo infos
-- NB: strictness and arity must appear in the list before unfolding
-- See TcIface.tcUnfolding
where
------------ Arity --------------
arity_info = arityInfo id_info
arity_hsinfo | arity_info == 0 = Nothing
| otherwise = Just (HsArity arity_info)
------------ Caf Info --------------
caf_info = cafInfo id_info
caf_hsinfo = case caf_info of
NoCafRefs -> Just HsNoCafRefs
_other -> Nothing
------------ Strictness --------------
-- No point in explicitly exporting TopSig
sig_info = strictnessInfo id_info
strict_hsinfo | not (isNopSig sig_info) = Just (HsStrictness sig_info)
| otherwise = Nothing
------------ Unfolding --------------
unfold_hsinfo = toIfUnfolding loop_breaker (unfoldingInfo id_info)
loop_breaker = isStrongLoopBreaker (occInfo id_info)
------------ Inline prag --------------
inline_prag = inlinePragInfo id_info
inline_hsinfo | isDefaultInlinePragma inline_prag = Nothing
| otherwise = Just (HsInline inline_prag)
--------------------------
toIfUnfolding :: Bool -> Unfolding -> Maybe IfaceInfoItem
toIfUnfolding lb (CoreUnfolding { uf_tmpl = rhs
, uf_src = src
, uf_guidance = guidance })
= Just $ HsUnfold lb $
case src of
InlineStable
-> case guidance of
UnfWhen {ug_arity = arity, ug_unsat_ok = unsat_ok, ug_boring_ok = boring_ok }
-> IfInlineRule arity unsat_ok boring_ok if_rhs
_other -> IfCoreUnfold True if_rhs
InlineCompulsory -> IfCompulsory if_rhs
InlineRhs -> IfCoreUnfold False if_rhs
-- Yes, even if guidance is UnfNever, expose the unfolding
-- If we didn't want to expose the unfolding, TidyPgm would
-- have stuck in NoUnfolding. For supercompilation we want
-- to see that unfolding!
where
if_rhs = toIfaceExpr rhs
toIfUnfolding lb (DFunUnfolding { df_bndrs = bndrs, df_args = args })
= Just (HsUnfold lb (IfDFunUnfold (map toIfaceBndr bndrs) (map toIfaceExpr args)))
-- No need to serialise the data constructor;
-- we can recover it from the type of the dfun
toIfUnfolding _ _
= Nothing
--------------------------
coreRuleToIfaceRule :: CoreRule -> IfaceRule
coreRuleToIfaceRule (BuiltinRule { ru_fn = fn})
= pprTrace "toHsRule: builtin" (ppr fn) $
bogusIfaceRule fn
coreRuleToIfaceRule (Rule { ru_name = name, ru_fn = fn,
ru_act = act, ru_bndrs = bndrs,
ru_args = args, ru_rhs = rhs,
ru_orphan = orph, ru_auto = auto })
= IfaceRule { ifRuleName = name, ifActivation = act,
ifRuleBndrs = map toIfaceBndr bndrs,
ifRuleHead = fn,
ifRuleArgs = map do_arg args,
ifRuleRhs = toIfaceExpr rhs,
ifRuleAuto = auto,
ifRuleOrph = orph }
where
-- For type args we must remove synonyms from the outermost
-- level. Reason: so that when we read it back in we'll
-- construct the same ru_rough field as we have right now;
-- see tcIfaceRule
do_arg (Type ty) = IfaceType (toIfaceType (deNoteType ty))
do_arg (Coercion co) = IfaceCo (toIfaceCoercion co)
do_arg arg = toIfaceExpr arg
bogusIfaceRule :: Name -> IfaceRule
bogusIfaceRule id_name
= IfaceRule { ifRuleName = fsLit "bogus", ifActivation = NeverActive,
ifRuleBndrs = [], ifRuleHead = id_name, ifRuleArgs = [],
ifRuleRhs = IfaceExt id_name, ifRuleOrph = IsOrphan,
ifRuleAuto = True }
---------------------
toIfaceExpr :: CoreExpr -> IfaceExpr
toIfaceExpr (Var v) = toIfaceVar v
toIfaceExpr (Lit l) = IfaceLit l
toIfaceExpr (Type ty) = IfaceType (toIfaceType ty)
toIfaceExpr (Coercion co) = IfaceCo (toIfaceCoercion co)
toIfaceExpr (Lam x b) = IfaceLam (toIfaceBndr x, toIfaceOneShot x) (toIfaceExpr b)
toIfaceExpr (App f a) = toIfaceApp f [a]
toIfaceExpr (Case s x ty as)
| null as = IfaceECase (toIfaceExpr s) (toIfaceType ty)
| otherwise = IfaceCase (toIfaceExpr s) (getFS x) (map toIfaceAlt as)
toIfaceExpr (Let b e) = IfaceLet (toIfaceBind b) (toIfaceExpr e)
toIfaceExpr (Cast e co) = IfaceCast (toIfaceExpr e) (toIfaceCoercion co)
toIfaceExpr (Tick t e)
| Just t' <- toIfaceTickish t = IfaceTick t' (toIfaceExpr e)
| otherwise = toIfaceExpr e
toIfaceOneShot :: Id -> IfaceOneShot
toIfaceOneShot id | isId id
, OneShotLam <- oneShotInfo (idInfo id)
= IfaceOneShot
| otherwise
= IfaceNoOneShot
---------------------
toIfaceTickish :: Tickish Id -> Maybe IfaceTickish
toIfaceTickish (ProfNote cc tick push) = Just (IfaceSCC cc tick push)
toIfaceTickish (HpcTick modl ix) = Just (IfaceHpcTick modl ix)
toIfaceTickish (SourceNote src names) = Just (IfaceSource src names)
toIfaceTickish (Breakpoint {}) = Nothing
-- Ignore breakpoints, since they are relevant only to GHCi, and
-- should not be serialised (Trac #8333)
---------------------
toIfaceBind :: Bind Id -> IfaceBinding
toIfaceBind (NonRec b r) = IfaceNonRec (toIfaceLetBndr b) (toIfaceExpr r)
toIfaceBind (Rec prs) = IfaceRec [(toIfaceLetBndr b, toIfaceExpr r) | (b,r) <- prs]
---------------------
toIfaceAlt :: (AltCon, [Var], CoreExpr)
-> (IfaceConAlt, [FastString], IfaceExpr)
toIfaceAlt (c,bs,r) = (toIfaceCon c, map getFS bs, toIfaceExpr r)
---------------------
toIfaceCon :: AltCon -> IfaceConAlt
toIfaceCon (DataAlt dc) = IfaceDataAlt (getName dc)
toIfaceCon (LitAlt l) = IfaceLitAlt l
toIfaceCon DEFAULT = IfaceDefault
---------------------
toIfaceApp :: Expr CoreBndr -> [Arg CoreBndr] -> IfaceExpr
toIfaceApp (App f a) as = toIfaceApp f (a:as)
toIfaceApp (Var v) as
= case isDataConWorkId_maybe v of
-- We convert the *worker* for tuples into IfaceTuples
Just dc | saturated
, Just tup_sort <- tyConTuple_maybe tc
-> IfaceTuple tup_sort tup_args
where
val_args = dropWhile isTypeArg as
saturated = val_args `lengthIs` idArity v
tup_args = map toIfaceExpr val_args
tc = dataConTyCon dc
_ -> mkIfaceApps (toIfaceVar v) as
toIfaceApp e as = mkIfaceApps (toIfaceExpr e) as
mkIfaceApps :: IfaceExpr -> [CoreExpr] -> IfaceExpr
mkIfaceApps f as = foldl (\f a -> IfaceApp f (toIfaceExpr a)) f as
---------------------
toIfaceVar :: Id -> IfaceExpr
toIfaceVar v
| Just fcall <- isFCallId_maybe v = IfaceFCall fcall (toIfaceType (idType v))
-- Foreign calls have special syntax
| isExternalName name = IfaceExt name
| otherwise = IfaceLcl (getFS name)
where name = idName v
|