2 % (c) The GRASP/AQUA Project, Glasgow University, 1993-2000
5 \section[GHC_Main]{Main driver for Glasgow Haskell compiler}
8 module HscMain ( HscResult(..), hscMain,
12 initPersistentCompilerState ) where
14 #include "HsVersions.h"
17 import ByteCodeGen ( byteCodeGen )
18 import CoreTidy ( tidyCoreExpr )
19 import CorePrep ( corePrepExpr )
20 import Rename ( renameStmt, renameRdrName )
21 import RdrName ( mkUnqual, mkQual )
22 import RdrHsSyn ( RdrNameStmt )
23 import OccName ( varName, dataName, tcClsName )
25 import Id ( Id, idName, setGlobalIdDetails )
26 import IdInfo ( GlobalIdDetails(VanillaGlobal) )
27 import HscTypes ( InteractiveContext(..) )
28 import PrelNames ( iNTERACTIVE )
29 import StringBuffer ( stringToStringBuffer )
30 import FastString ( mkFastString )
31 import Char ( isUpper )
32 import DriverUtil ( split_longest_prefix )
38 import IdInfo ( CafInfo(..), CgInfoEnv, CgInfo(..) )
39 import StringBuffer ( hGetStringBuffer, freeStringBuffer )
41 import Lex ( PState(..), ParseResult(..) )
42 import SrcLoc ( mkSrcLoc )
43 import Finder ( findModule )
44 import Rename ( checkOldIface, renameModule, closeIfaceDecls )
45 import Rules ( emptyRuleBase )
46 import PrelInfo ( wiredInThingEnv, wiredInThings )
47 import PrelNames ( knownKeyNames )
48 import MkIface ( mkFinalIface )
50 import InstEnv ( emptyInstEnv )
53 import CoreUtils ( coreBindsSize )
54 import CoreTidy ( tidyCorePgm )
55 import CorePrep ( corePrepPgm )
57 import CoreToStg ( coreToStg )
58 import SimplStg ( stg2stg )
59 import CodeGen ( codeGen )
60 import CodeOutput ( codeOutput )
62 import Module ( ModuleName, moduleName, mkHomeModule,
65 import ErrUtils ( dumpIfSet_dyn, showPass, printError )
66 import Util ( unJust )
67 import UniqSupply ( mkSplitUniqSupply )
69 import Bag ( emptyBag )
72 import HscStats ( ppSourceStats )
74 import FiniteMap ( FiniteMap, plusFM, emptyFM, addToFM )
75 import OccName ( OccName )
76 import Name ( Name, nameModule, nameOccName, getName, isGlobalName )
77 import NameEnv ( emptyNameEnv, mkNameEnv )
78 import Module ( Module )
80 import IOExts ( newIORef, readIORef, writeIORef, unsafePerformIO )
83 import Maybe ( isJust, fromJust, catMaybes )
86 import MkExternalCore ( emitExternalCore )
90 %************************************************************************
92 \subsection{The main compiler pipeline}
94 %************************************************************************
99 = HscFail PersistentCompilerState -- updated PCS
100 -- concluded that it wasn't necessary
101 | HscNoRecomp PersistentCompilerState -- updated PCS
102 ModDetails -- new details (HomeSymbolTable additions)
103 ModIface -- new iface (if any compilation was done)
105 | HscRecomp PersistentCompilerState -- updated PCS
106 ModDetails -- new details (HomeSymbolTable additions)
107 ModIface -- new iface (if any compilation was done)
108 Bool -- stub_h exists
109 Bool -- stub_c exists
111 (Maybe ([UnlinkedBCO],ItblEnv)) -- interpreted code, if any
113 (Maybe ()) -- no interpreted code whatsoever
116 -- no errors or warnings; the individual passes
117 -- (parse/rename/typecheck) print messages themselves
123 -> ModuleLocation -- location info
124 -> Bool -- True <=> source unchanged
125 -> Bool -- True <=> have an object file (for msgs only)
126 -> Maybe ModIface -- old interface, if available
127 -> HomeSymbolTable -- for home module ModDetails
129 -> PersistentCompilerState -- IN: persistent compiler state
132 hscMain ghci_mode dflags mod location source_unchanged have_object
133 maybe_old_iface hst hit pcs
135 showPass dflags ("Checking old interface for hs = "
136 ++ show (ml_hs_file location)
137 ++ ", hspp = " ++ show (ml_hspp_file location));
139 (pcs_ch, errs_found, (recomp_reqd, maybe_checked_iface))
140 <- _scc_ "checkOldIface"
141 checkOldIface ghci_mode dflags hit hst pcs (ml_hi_file location)
142 source_unchanged maybe_old_iface;
145 return (HscFail pcs_ch)
148 let no_old_iface = not (isJust maybe_checked_iface)
149 what_next | recomp_reqd || no_old_iface = hscRecomp
150 | otherwise = hscNoRecomp
152 what_next ghci_mode dflags have_object mod location
153 maybe_checked_iface hst hit pcs_ch
157 -- we definitely expect to have the old interface available
158 hscNoRecomp ghci_mode dflags have_object
159 mod location (Just old_iface) hst hit pcs_ch
160 | ghci_mode == OneShot
162 hPutStrLn stderr "compilation IS NOT required";
163 let { bomb = panic "hscNoRecomp:OneShot" };
164 return (HscNoRecomp pcs_ch bomb bomb)
168 when (verbosity dflags >= 1) $
169 hPutStrLn stderr ("Skipping " ++
170 compMsg have_object mod location);
173 (pcs_cl, closure_errs, cl_hs_decls)
174 <- closeIfaceDecls dflags hit hst pcs_ch old_iface ;
176 return (HscFail pcs_cl)
181 <- typecheckIface dflags pcs_cl hst old_iface cl_hs_decls;
183 case maybe_tc_result of {
184 Nothing -> return (HscFail pcs_cl);
185 Just (pcs_tc, new_details) ->
187 return (HscNoRecomp pcs_tc new_details old_iface)
190 compMsg use_object mod location =
191 mod_str ++ take (max 0 (16 - length mod_str)) (repeat ' ')
192 ++" ( " ++ unJust "hscRecomp" (ml_hs_file location) ++ ", "
194 then unJust "hscRecomp" (ml_obj_file location)
197 where mod_str = moduleUserString mod
200 hscRecomp ghci_mode dflags have_object
201 mod location maybe_checked_iface hst hit pcs_ch
203 -- what target are we shooting for?
204 ; let toInterp = dopt_HscLang dflags == HscInterpreted
205 ; let toNothing = dopt_HscLang dflags == HscNothing
207 ; when (verbosity dflags >= 1) $
208 hPutStrLn stderr ("Compiling " ++
209 compMsg (not toInterp) mod location);
214 ; maybe_parsed <- myParseModule dflags
215 (unJust "hscRecomp:hspp" (ml_hspp_file location))
216 ; case maybe_parsed of {
217 Nothing -> return (HscFail pcs_ch);
218 Just rdr_module -> do {
219 ; let this_mod = mkHomeModule (hsModuleName rdr_module)
224 ; (pcs_rn, print_unqualified, maybe_rn_result)
226 renameModule dflags hit hst pcs_ch this_mod rdr_module
227 ; case maybe_rn_result of {
228 Nothing -> return (HscFail pcs_ch{-was: pcs_rn-});
229 Just (is_exported, new_iface, rn_hs_decls) -> do {
231 -- In interactive mode, we don't want to discard any top-level entities at
232 -- all (eg. do not inline them away during simplification), and retain them
233 -- all in the TypeEnv so they are available from the command line.
235 -- isGlobalName separates the user-defined top-level names from those
236 -- introduced by the type checker.
237 ; let dont_discard | ghci_mode == Interactive = isGlobalName
238 | otherwise = is_exported
244 <- _scc_ "TypeCheck" typecheckModule dflags pcs_rn hst new_iface
245 print_unqualified rn_hs_decls
246 ; case maybe_tc_result of {
247 Nothing -> return (HscFail pcs_ch{-was: pcs_rn-});
248 Just (pcs_tc, tc_result) -> do {
253 ; (ds_details, foreign_stuff)
255 deSugar dflags pcs_tc hst this_mod print_unqualified tc_result
258 <- if ghci_mode == OneShot
259 then do init_pcs <- initPersistentCompilerState
260 init_prs <- initPersistentRenamerState
262 rules = pcs_rules pcs_tc
263 orig_tc = prsOrig (pcs_PRS pcs_tc)
264 new_prs = init_prs{ prsOrig=orig_tc }
266 orig_tc `seq` rules `seq` new_prs `seq`
267 return init_pcs{ pcs_PRS = new_prs,
276 core2core dflags pcs_middle hst dont_discard ds_details
281 ; cg_info_ref <- newIORef Nothing ;
282 ; let cg_info :: CgInfoEnv
283 cg_info = unsafePerformIO $ do {
284 maybe_cg_env <- readIORef cg_info_ref ;
286 Just env -> return env
287 Nothing -> do { printError "Urk! Looked at CgInfo too early!";
288 return emptyNameEnv } }
289 -- cg_info_ref will be filled in just after restOfCodeGeneration
290 -- Meanwhile, tidyCorePgm is careful not to look at cg_info!
292 ; (pcs_simpl, tidy_details)
294 tidyCorePgm dflags this_mod pcs_middle cg_info simpl_details
296 ; pcs_final <- if ghci_mode == OneShot then initPersistentCompilerState
297 else return pcs_simpl
299 -- alive at this point:
303 ; emitExternalCore dflags new_iface tidy_details
305 -- PREPARE FOR CODE GENERATION
307 -- Do saturation and convert to A-normal form
308 ; prepd_details <- _scc_ "CorePrep" corePrepPgm dflags tidy_details
311 -- CONVERT TO STG and COMPLETE CODE GENERATION
314 ModDetails{md_binds=binds, md_types=env_tc} = prepd_details
316 local_tycons = typeEnvTyCons env_tc
317 local_classes = typeEnvClasses env_tc
319 imported_module_names = map ideclName (hsModuleImports rdr_module)
321 mod_name_to_Module nm
322 = do m <- findModule nm ; return (fst (fromJust m))
324 (h_code,c_code,fe_binders) = foreign_stuff
326 ; imported_modules <- mapM mod_name_to_Module imported_module_names
328 ; (stub_h_exists, stub_c_exists, maybe_bcos, final_iface )
332 ----------------- Generate byte code ------------------
333 (bcos,itbl_env) <- byteCodeGen dflags binds
334 local_tycons local_classes
336 -- Fill in the code-gen info
337 writeIORef cg_info_ref (Just emptyNameEnv)
339 ------------------ BUILD THE NEW ModIface ------------
340 final_iface <- _scc_ "MkFinalIface"
341 mkFinalIface ghci_mode dflags location
342 maybe_checked_iface new_iface tidy_details
344 return ( False, False, Just (bcos,itbl_env), final_iface )
346 then error "GHC not compiled with interpreter"
350 ----------------- Convert to STG ------------------
351 (stg_binds, cost_centre_info, stg_back_end_info)
353 myCoreToStg dflags this_mod binds
355 -- Fill in the code-gen info for the earlier tidyCorePgm
356 writeIORef cg_info_ref (Just stg_back_end_info)
358 ------------------ BUILD THE NEW ModIface ------------
359 final_iface <- _scc_ "MkFinalIface"
360 mkFinalIface ghci_mode dflags location
361 maybe_checked_iface new_iface tidy_details
365 return (False, False, Nothing, final_iface)
367 ------------------ Code generation ------------------
368 abstractC <- _scc_ "CodeGen"
369 codeGen dflags this_mod imported_modules
370 cost_centre_info fe_binders
371 local_tycons stg_binds
373 ------------------ Code output -----------------------
374 (stub_h_exists, stub_c_exists)
375 <- codeOutput dflags this_mod local_tycons
377 c_code h_code abstractC
379 return (stub_h_exists, stub_c_exists, Nothing, final_iface)
381 ; let final_details = tidy_details {md_binds = []}
384 -- and the answer is ...
385 ; return (HscRecomp pcs_final
388 stub_h_exists stub_c_exists
392 myParseModule dflags src_filename
393 = do -------------------------- Parser ----------------
394 showPass dflags "Parser"
397 buf <- hGetStringBuffer True{-expand tabs-} src_filename
399 let glaexts | dopt Opt_GlasgowExts dflags = 1#
402 case parseModule buf PState{ bol = 0#, atbol = 1#,
403 context = [], glasgow_exts = glaexts,
404 loc = mkSrcLoc (_PK_ src_filename) 1 } of {
406 PFailed err -> do { hPutStrLn stderr (showSDoc err);
407 freeStringBuffer buf;
410 POk _ rdr_module@(HsModule mod_name _ _ _ _ _ _) -> do {
412 dumpIfSet_dyn dflags Opt_D_dump_parsed "Parser" (ppr rdr_module) ;
414 dumpIfSet_dyn dflags Opt_D_source_stats "Source Statistics"
415 (ppSourceStats False rdr_module) ;
417 return (Just rdr_module)
418 -- ToDo: free the string buffer later.
422 myCoreToStg dflags this_mod tidy_binds
424 () <- coreBindsSize tidy_binds `seq` return ()
425 -- TEMP: the above call zaps some space usage allocated by the
426 -- simplifier, which for reasons I don't understand, persists
427 -- thoroughout code generation
429 stg_binds <- _scc_ "Core2Stg" coreToStg dflags tidy_binds
431 (stg_binds2, cost_centre_info)
432 <- _scc_ "Core2Stg" stg2stg dflags this_mod stg_binds
434 let env_rhs :: CgInfoEnv
435 env_rhs = mkNameEnv [ (idName bndr, CgInfo (stgRhsArity rhs) caf_info)
436 | (bind,_) <- stg_binds2,
438 | stgBindHasCafRefs bind = MayHaveCafRefs
439 | otherwise = NoCafRefs,
440 (bndr,rhs) <- stgBindPairs bind ]
442 return (stg_binds2, cost_centre_info, env_rhs)
444 stgBindPairs (StgNonRec _ b r) = [(b,r)]
445 stgBindPairs (StgRec _ prs) = prs
451 %************************************************************************
453 \subsection{Compiling a do-statement}
455 %************************************************************************
463 -> PersistentCompilerState -- IN: persistent compiler state
464 -> InteractiveContext -- Context for compiling
465 -> String -- The statement
466 -> Bool -- just treat it as an expression
467 -> IO ( PersistentCompilerState,
473 When the UnlinkedBCOExpr is linked you get an HValue of type
475 When you run it you get a list of HValues that should be
476 the same length as the list of names; add them to the ClosureEnv.
478 A naked expression returns a singleton Name [it].
480 What you type The IO [HValue] that hscStmt returns
481 ------------- ------------------------------------
482 let pat = expr ==> let pat = expr in return [coerce HVal x, coerce HVal y, ...]
485 pat <- expr ==> expr >>= \ pat -> return [coerce HVal x, coerce HVal y, ...]
488 expr (of IO type) ==> expr >>= \ v -> return [v]
489 [NB: result not printed] bindings: [it]
492 expr (of non-IO type,
493 result showable) ==> let v = expr in print v >> return [v]
496 expr (of non-IO type,
497 result not showable) ==> error
500 hscStmt dflags hst hit pcs0 icontext stmt just_expr
504 ic_type_env = type_env,
505 ic_module = scope_mod } = icontext
507 do { maybe_stmt <- hscParseStmt dflags stmt
509 Nothing -> return (pcs0, Nothing)
510 Just parsed_stmt -> do {
512 let { notExprStmt (ExprStmt _ _ _) = False;
516 if (just_expr && notExprStmt parsed_stmt)
517 then do hPutStrLn stderr ("not an expression: `" ++ stmt ++ "'")
518 return (pcs0, Nothing)
522 (pcs1, print_unqual, maybe_renamed_stmt)
523 <- renameStmt dflags hit hst pcs0 scope_mod
524 iNTERACTIVE rn_env parsed_stmt
526 ; case maybe_renamed_stmt of
527 Nothing -> return (pcs0, Nothing)
528 Just (bound_names, rn_stmt) -> do {
533 then case rn_stmt of { (ExprStmt e _ _, decls) ->
534 typecheckExpr dflags pcs1 hst type_env
535 print_unqual iNTERACTIVE (e,decls) }
536 else typecheckStmt dflags pcs1 hst type_env
537 print_unqual iNTERACTIVE bound_names rn_stmt
539 ; case maybe_tc_return of
540 Nothing -> return (pcs0, Nothing)
541 Just (pcs2, tc_expr, bound_ids, ty) -> do {
544 ds_expr <- deSugarExpr dflags pcs2 hst iNTERACTIVE print_unqual tc_expr
547 ; simpl_expr <- simplifyExpr dflags pcs2 hst ds_expr
549 -- Tidy it (temporary, until coreSat does cloning)
550 ; tidy_expr <- tidyCoreExpr simpl_expr
552 -- Prepare for codegen
553 ; prepd_expr <- corePrepExpr dflags tidy_expr
556 ; bcos <- coreExprToBCOs dflags prepd_expr
559 -- Make all the bound ids "global" ids, now that
560 -- they're notionally top-level bindings. This is
561 -- important: otherwise when we come to compile an expression
562 -- using these ids later, the byte code generator will consider
563 -- the occurrences to be free rather than global.
564 global_bound_ids = map globaliseId bound_ids;
565 globaliseId id = setGlobalIdDetails id VanillaGlobal
567 ; return (pcs2, Just (global_bound_ids, ty, bcos))
571 hscParseStmt :: DynFlags -> String -> IO (Maybe RdrNameStmt)
572 hscParseStmt dflags str
573 = do -------------------------- Parser ----------------
574 showPass dflags "Parser"
577 buf <- stringToStringBuffer str
579 let glaexts | dopt Opt_GlasgowExts dflags = 1#
582 case parseStmt buf PState{ bol = 0#, atbol = 1#,
583 context = [], glasgow_exts = glaexts,
584 loc = mkSrcLoc SLIT("<interactive>") 1 } of {
586 PFailed err -> do { hPutStrLn stderr (showSDoc err);
587 -- Not yet implemented in <4.11 freeStringBuffer buf;
590 -- no stmt: the line consisted of just space or comments
591 POk _ Nothing -> return Nothing;
593 POk _ (Just rdr_stmt) -> do {
595 --ToDo: can't free the string buffer until we've finished this
596 -- compilation sweep and all the identifiers have gone away.
597 --freeStringBuffer buf;
598 dumpIfSet_dyn dflags Opt_D_dump_parsed "Parser" (ppr rdr_stmt);
599 return (Just rdr_stmt)
604 %************************************************************************
606 \subsection{Getting information about an identifer}
608 %************************************************************************
612 hscThing -- like hscStmt, but deals with a single identifier
616 -> PersistentCompilerState -- IN: persistent compiler state
617 -> InteractiveContext -- Context for compiling
618 -> String -- The identifier
619 -> IO ( PersistentCompilerState,
622 hscThing dflags hst hit pcs0 icontext str
626 ic_type_env = type_env,
627 ic_module = scope_mod } = icontext
631 = [ mkQual ns (fmod,fvar) | ns <- namespaces var ]
633 = [ mkUnqual ns fstr | ns <- namespaces str ]
634 where (mod,var) = split_longest_prefix str '.'
635 fmod = mkFastString mod
636 fvar = mkFastString var
637 fstr = mkFastString str
639 | isUpper c || c == ':' = [ tcClsName, dataName ]
640 | otherwise = [ varName ]
643 (pcs, unqual, maybe_rn_result) <-
644 renameRdrName dflags hit hst pcs0 scope_mod scope_mod
647 case maybe_rn_result of {
648 Nothing -> return (pcs, []);
649 Just (names, decls) -> do {
651 maybe_pcs <- typecheckExtraDecls dflags pcs hst unqual
655 Nothing -> return (pcs, []);
657 let maybe_ty_things = map (lookupType hst (pcs_PTE pcs)) names
659 return (pcs, catMaybes maybe_ty_things) }
664 %************************************************************************
666 \subsection{Initial persistent state}
668 %************************************************************************
671 initPersistentCompilerState :: IO PersistentCompilerState
672 initPersistentCompilerState
673 = do prs <- initPersistentRenamerState
675 PCS { pcs_PIT = emptyIfaceTable,
676 pcs_PTE = wiredInThingEnv,
677 pcs_insts = emptyInstEnv,
678 pcs_rules = emptyRuleBase,
683 initPersistentRenamerState :: IO PersistentRenamerState
684 = do us <- mkSplitUniqSupply 'r'
686 PRS { prsOrig = NameSupply { nsUniqs = us,
687 nsNames = initOrigNames,
689 prsDecls = (emptyNameEnv, 0),
690 prsInsts = (emptyBag, 0),
691 prsRules = (emptyBag, 0),
696 initOrigNames :: FiniteMap (ModuleName,OccName) Name
698 = grab knownKeyNames `plusFM` grab (map getName wiredInThings)
700 grab names = foldl add emptyFM names
702 = addToFM env (moduleName (nameModule name), nameOccName name) name