/* module owner: Ronny Wichers Schreur */ implementation module frontend import scanner, parse, postparse, check, type, trans, convertcases, overloading, utilities, convertDynamics, convertimportedtypes, /*checkKindCorrectness, */ compilerSwitches, analtypes, generics1 //import print :: FrontEndOptions = { feo_up_to_phase :: !FrontEndPhase , feo_generics :: !Bool , feo_fusion :: !Bool } :: FrontEndSyntaxTree = { fe_icl :: !IclModule , fe_dcls :: !{#DclModule} , fe_components :: !{!Group} , fe_arrayInstances :: !ArrayAndListInstances } // trace macro (-*->) infixl (-*->) value trace :== value // ---> trace :: FrontEndPhase = FrontEndPhaseCheck | FrontEndPhaseTypeCheck | FrontEndPhaseConvertDynamics | FrontEndPhaseTransformGroups | FrontEndPhaseConvertModules | FrontEndPhaseAll instance == FrontEndPhase where (==) a b = equal_constructor a b frontSyntaxTree cached_dcl_macros cached_dcl_mods n_functions_and_macros_in_dcl_modules main_dcl_module_n predef_symbols hash_table files error io out tcl_file icl_mod dcl_mods fun_defs components array_instances heaps :== (Yes { fe_icl = {icl_mod & icl_functions=fun_defs } , fe_dcls = dcl_mods , fe_components = components , fe_arrayInstances = array_instances },cached_dcl_macros,cached_dcl_mods,n_functions_and_macros_in_dcl_modules,main_dcl_module_n,predef_symbols,hash_table,files,error,io,out,tcl_file,heaps ) // import StdDebug frontEndInterface :: !FrontEndOptions !Ident !SearchPaths !{#DclModule} !*{#*{#FunDef}} !(Optional Bool) !*PredefinedSymbols !*HashTable (ModTimeFunction *Files) !*Files !*File !*File !*File !(Optional *File) !*Heaps -> ( !Optional *FrontEndSyntaxTree,!*{#*{#FunDef}},!{#DclModule},!Int,!Int,!*PredefinedSymbols, !*HashTable, !*Files, !*File, !*File, !*File, !Optional *File, !*Heaps) frontEndInterface options mod_ident search_paths cached_dcl_modules functions_and_macros list_inferred_types predef_symbols hash_table modtimefunction files error io out tcl_file heaps // # files = trace_n ("Compiling "+++mod_ident.id_name) files # (ok, mod, hash_table, error, files) = wantModule cWantIclFile mod_ident NoPos options.feo_generics(hash_table /* ---> ("Parsing:", mod_ident)*/) error search_paths modtimefunction files | not ok = (No,{},{},0,0,predef_symbols, hash_table, files, error, io, out, tcl_file, heaps) # cached_module_idents = [dcl_mod.dcl_name \\ dcl_mod<-:cached_dcl_modules] # (ok, mod, global_fun_range, mod_functions, optional_dcl_mod, modules, dcl_module_n_in_cache,n_functions_and_macros_in_dcl_modules,hash_table, error, files) = scanModule (mod -*-> "Scanning") cached_module_idents options.feo_generics hash_table error search_paths modtimefunction files /* JVG: */ // # hash_table = {hash_table & hte_entries={}} # hash_table = remove_icl_symbols_from_hash_table hash_table /**/ | not ok = (No,{},{},0,0,predef_symbols, hash_table, files, error, io, out, tcl_file, heaps) # symbol_table = hash_table.hte_symbol_heap #! n_cached_dcl_modules=size cached_dcl_modules # (ok, icl_mod, dcl_mods, components, cached_dcl_macros,main_dcl_module_n,heaps, predef_symbols, symbol_table, error, directly_imported_dcl_modules) = checkModule mod global_fun_range mod_functions n_functions_and_macros_in_dcl_modules dcl_module_n_in_cache optional_dcl_mod modules cached_dcl_modules functions_and_macros predef_symbols (symbol_table -*-> "Checking") error heaps hash_table = { hash_table & hte_symbol_heap = symbol_table} | not ok = (No,{},dcl_mods,0,main_dcl_module_n,predef_symbols, hash_table, files, error, io, out, tcl_file, heaps) #! (icl_functions,icl_mod) = select_and_remove_icl_functions_from_record icl_mod with select_and_remove_icl_functions_from_record :: !*IclModule -> (!.{#FunDef},!.IclModule) select_and_remove_icl_functions_from_record icl_mod=:{icl_functions} = (icl_functions,{icl_mod & icl_functions={}}) # {icl_global_functions,icl_instances,icl_gencases, icl_specials, icl_common,icl_import,icl_name,icl_imported_objects,icl_used_module_numbers,icl_copied_from_dcl} = icl_mod /* (_,f,files) = fopen "components" FWriteText files (components, icl_functions, f) = showComponents components 0 True icl_functions f /* (n_functions,icl_functions) = usize icl_functions (icl_functions,f) = showFunctions {ir_from=0,ir_to=n_functions} icl_functions f (cached_dcl_macros,f) = showMacros cached_dcl_macros f */ (ok,files) = fclose f files | ok<>ok = abort ""; */ // # dcl_mods = {{dcl_mod & dcl_declared={dcls_import={},dcls_local=[],dcls_local_for_import={},dcls_explicit={}}}\\ dcl_mod<-:dcl_mods} # var_heap = heaps.hp_var_heap gen_heap = heaps.hp_generic_heap type_heaps = heaps.hp_type_heaps fun_defs = icl_functions | options.feo_up_to_phase == FrontEndPhaseCheck # array_instances = {ali_array_first_instance_indices=[],ali_list_first_instance_indices=[],ali_tail_strict_list_first_instance_indices=[],ali_instances_range={ir_from=0,ir_to=0}} = frontSyntaxTree cached_dcl_macros dcl_mods n_functions_and_macros_in_dcl_modules main_dcl_module_n predef_symbols hash_table files error io out tcl_file icl_mod dcl_mods fun_defs components array_instances heaps # error_admin = {ea_file = error, ea_loc = [], ea_ok = True } /* # (ti_common_defs, dcl_mods) = get_common_defs dcl_mods ti_common_defs = { ti_common_defs & [main_dcl_module_n] = icl_common } */ # (cached_dcl_mods, dcl_mods) = copy_dcl_modules dcl_mods # (type_groups, ti_common_defs, td_infos, icl_common, dcl_mods, type_heaps, error_admin) = partionateAndExpandTypes icl_used_module_numbers main_dcl_module_n icl_common dcl_mods type_heaps error_admin ti_common_defs = { ti_common_defs & [main_dcl_module_n] = icl_common } # (td_infos, th_vars, error_admin) = analyseTypeDefs ti_common_defs type_groups td_infos type_heaps.th_vars error_admin /* (fun_defs, dcl_mods, th_vars, td_infos, error_admin) = checkKindCorrectness main_dcl_module_n nr_of_cached_functions_and_macros icl_instances ti_common_defs n_cached_dcl_modules fun_defs dcl_mods type_heaps.th_vars td_infos error_admin */ (class_infos, td_infos, th_vars, error_admin) = determineKindsOfClasses icl_used_module_numbers ti_common_defs td_infos th_vars error_admin # (fun_defs, dcl_mods, td_infos, th_vars, gen_heap, error_admin) = checkKindsOfCommonDefsAndFunctions n_cached_dcl_modules main_dcl_module_n icl_used_module_numbers icl_global_functions ti_common_defs fun_defs dcl_mods td_infos class_infos th_vars gen_heap error_admin type_heaps = { type_heaps & th_vars = th_vars } # heaps = { heaps & hp_type_heaps = type_heaps, hp_generic_heap = gen_heap } # (saved_main_dcl_common, ti_common_defs) = replace (dcl_common_defs dcl_mods) main_dcl_module_n icl_common with dcl_common_defs :: .{#DclModule} -> .{#CommonDefs} // needed for Clean 2.0 to disambiguate overloading dcl_common_defs dcl_mods = {dcl_common \\ {dcl_common} <-: dcl_mods } #! (ti_common_defs, components, fun_defs, generic_ranges, td_infos, heaps, hash_table, predef_symbols, dcl_mods, error_admin) = SwitchGenerics (case options.feo_generics of True -> convertGenerics main_dcl_module_n icl_used_module_numbers ti_common_defs components fun_defs td_infos heaps hash_table predef_symbols dcl_mods error_admin False -> (ti_common_defs, components, fun_defs, [], td_infos, heaps, hash_table, predef_symbols, dcl_mods, error_admin) ) (ti_common_defs, components, fun_defs, [], td_infos, heaps, hash_table, predef_symbols, dcl_mods, error_admin) # (icl_common, ti_common_defs) = replace copied_ti_common_defs main_dcl_module_n saved_main_dcl_common with copied_ti_common_defs :: .{#CommonDefs} // needed for Clean 2.0 to disambiguate overloading of replace copied_ti_common_defs = {x \\ x <-: ti_common_defs} # dcl_mods = { {dcl_mod & dcl_common = common} \\ dcl_mod <-: dcl_mods & common <-: ti_common_defs } # icl_mod = {icl_mod & icl_common = icl_common} # error = error_admin.ea_file /* # (_,genout,files) = fopen "c:\\Generics\\genout.icl" FWriteText files # (fun_defs, genout) = printFunDefs fun_defs genout # (ok,files) = fclose genout files | not ok = abort "could not write genout.icl" */ #! ok = error_admin.ea_ok | not ok = (No,{},{},0,main_dcl_module_n,predef_symbols, hash_table, files, error, io, out, tcl_file, heaps) # (ok, fun_defs, array_instances, type_code_instances, common_defs, imported_funs, type_def_infos, heaps, predef_symbols, error,out) = typeProgram (components -*-> "Typing") main_dcl_module_n fun_defs/*icl_functions*/ icl_specials list_inferred_types icl_common [a\\a<-:icl_import] dcl_mods icl_used_module_numbers td_infos heaps predef_symbols error out dcl_mods | not ok = (No,{},{},0,main_dcl_module_n,predef_symbols, hash_table, files, error, io, out, tcl_file, heaps) # (fun_def_size, fun_defs) = usize fun_defs # (components, fun_defs) = partitionateFunctions (fun_defs -*-> "partitionateFunctions") (icl_global_functions++icl_instances ++ [icl_specials] ++ icl_gencases ++ generic_ranges) // (components, fun_defs, error) = showTypes components 0 fun_defs error // (components, fun_defs, out) = showComponents components 0 True fun_defs out // (fun_defs, error) = showFunctions array_instances fun_defs error | options.feo_up_to_phase == FrontEndPhaseTypeCheck = frontSyntaxTree cached_dcl_macros cached_dcl_mods n_functions_and_macros_in_dcl_modules main_dcl_module_n predef_symbols hash_table files error io out tcl_file icl_mod dcl_mods fun_defs components array_instances heaps # (components, fun_defs, predef_symbols, dcl_types, used_conses_in_dynamics, var_heap, type_heaps, expression_heap, tcl_file) = convertDynamicPatternsIntoUnifyAppls type_code_instances common_defs main_dcl_module_n (components -*-> "convertDynamics") fun_defs predef_symbols heaps.hp_var_heap heaps.hp_type_heaps heaps.hp_expression_heap tcl_file dcl_mods icl_mod directly_imported_dcl_modules // # (components, fun_defs, error) = showComponents3 components 0 False fun_defs error // (components, fun_defs, error) = showComponents components 0 True fun_defs error | options.feo_up_to_phase == FrontEndPhaseConvertDynamics # heaps = {hp_var_heap=var_heap, hp_type_heaps=type_heaps, hp_expression_heap=expression_heap, hp_generic_heap=newHeap} = frontSyntaxTree cached_dcl_macros cached_dcl_mods n_functions_and_macros_in_dcl_modules main_dcl_module_n predef_symbols hash_table files error io out tcl_file icl_mod dcl_mods fun_defs components array_instances heaps // (components, fun_defs, error) = showComponents components 0 True fun_defs error # (stdStrictLists_module_n,predef_symbols) = get_StdStrictLists_module_n predef_symbols with get_StdStrictLists_module_n predef_symbols # (pre_mod,predef_symbols) = predef_symbols![PD_StdStrictLists] | pre_mod.pds_def<>NoIndex = (pre_mod.pds_def,predef_symbols) = (-1,predef_symbols) # (cleanup_info, acc_args, components, fun_defs, var_heap, expression_heap) = analyseGroups common_defs imported_funs array_instances.ali_instances_range main_dcl_module_n stdStrictLists_module_n (components -*-> "Analyse") fun_defs var_heap expression_heap // # (components, fun_defs, error) = showComponents2 components 0 fun_defs acc_args error (components, fun_defs, dcl_types, used_conses, var_heap, type_heaps, expression_heap, acc_args) = transformGroups cleanup_info main_dcl_module_n stdStrictLists_module_n (components -*-> "Transform") fun_defs acc_args common_defs imported_funs dcl_types used_conses_in_dynamics type_def_infos var_heap type_heaps expression_heap options.feo_fusion | options.feo_up_to_phase == FrontEndPhaseTransformGroups # heaps = {hp_var_heap=var_heap, hp_type_heaps=type_heaps, hp_expression_heap=expression_heap,hp_generic_heap=heaps.hp_generic_heap} = frontSyntaxTree cached_dcl_macros cached_dcl_mods n_functions_and_macros_in_dcl_modules main_dcl_module_n predef_symbols hash_table files error io out tcl_file icl_mod dcl_mods fun_defs components array_instances heaps # (dcl_types, used_conses, var_heap, type_heaps) = convertIclModule main_dcl_module_n common_defs (dcl_types -*-> "Convert icl") used_conses var_heap type_heaps # (dcl_types, used_conses, var_heap, type_heaps) = convertDclModule main_dcl_module_n dcl_mods common_defs (dcl_types -*-> "Convert dcl") used_conses var_heap type_heaps // (components, fun_defs, out) = showComponents components 0 False fun_defs out | options.feo_up_to_phase == FrontEndPhaseConvertModules # heaps = {hp_var_heap=var_heap, hp_type_heaps=type_heaps, hp_expression_heap=expression_heap,hp_generic_heap=heaps.hp_generic_heap} = frontSyntaxTree cached_dcl_macros cached_dcl_mods n_functions_and_macros_in_dcl_modules main_dcl_module_n predef_symbols hash_table files error io out tcl_file icl_mod dcl_mods fun_defs components array_instances heaps // (components, fun_defs, out) = showComponents components 0 False fun_defs out # (used_funs, components, fun_defs, dcl_types, used_conses, var_heap, type_heaps, expression_heap) = convertCasesOfFunctions components main_dcl_module_n imported_funs common_defs fun_defs (dcl_types -*-> "Convert cases") used_conses var_heap type_heaps expression_heap #! (dcl_types, type_heaps, var_heap) = convertImportedTypeSpecifications main_dcl_module_n dcl_mods imported_funs common_defs used_conses used_funs (dcl_types -*-> "Convert types") type_heaps var_heap // # (components, fun_defs, error) = showTypes components 0 fun_defs error // # (dcl_mods, out) = showDclModules dcl_mods out // # (components, fun_defs, out) = showComponents components 0 False fun_defs out /* # (_,f,files) = fopen "components2" FWriteText files (components, fun_defs, f) = showComponents components 0 False fun_defs f (ok,files) = fclose f files | ok<>ok = abort ""; */ // # (fun_defs,out,var_heap,predef_symbols) = sa components main_dcl_module_n dcl_mods fun_defs out var_heap predef_symbols; # heaps = {hp_var_heap = var_heap, hp_expression_heap=expression_heap, hp_type_heaps=type_heaps,hp_generic_heap=heaps.hp_generic_heap} # fe ={ fe_icl = // {icl_mod & icl_functions=fun_defs } {icl_functions=fun_defs,icl_global_functions=icl_global_functions,icl_instances=icl_instances,icl_specials=icl_specials, icl_common=icl_common,icl_import=icl_import, icl_gencases = icl_gencases ++ generic_ranges, icl_name=icl_name,icl_imported_objects=icl_imported_objects,icl_used_module_numbers=icl_used_module_numbers, icl_copied_from_dcl=icl_copied_from_dcl,icl_modification_time=icl_mod.icl_modification_time} , fe_dcls = dcl_mods , fe_components = components , fe_arrayInstances = array_instances } = (Yes fe,cached_dcl_macros,cached_dcl_mods,n_functions_and_macros_in_dcl_modules,main_dcl_module_n,predef_symbols,hash_table,files,error,io,out,tcl_file,heaps) where copy_dcl_modules dcl_mods #! nr_of_dcl_mods = size dcl_mods = arrayCopyBegin dcl_mods nr_of_dcl_mods newSymbolTable :: !Int -> *{# SymbolTableEntry} newSymbolTable size = createArray size { ste_index = NoIndex, ste_def_level = -1, ste_kind = STE_Empty, ste_previous = abort "PreviousPlaceholder"} showFunctions :: !IndexRange !*{# FunDef} !*File -> (!*{# FunDef},!*File) showFunctions {ir_from, ir_to} fun_defs file = iFoldSt show_function ir_from ir_to (fun_defs, file) where show_function fun_index (fun_defs, file) # (fd, fun_defs) = fun_defs![fun_index] = (fun_defs, file <<< fun_index <<< fd <<< '\n') showMacros :: !*{#*{#FunDef}} !*File -> (!*{#*{#FunDef}},!*File) showMacros macro_defs file #! n_dcl_modules=size macro_defs = iFoldSt showMacrosInModule 0 n_dcl_modules (macro_defs,file) showMacrosInModule :: !Int (!*{#*{#FunDef}},!*File) -> (!*{#*{#FunDef}},!*File) showMacrosInModule dcl_index (macro_defs,file) # file=file <<< dcl_index <<< '\n' #! n_macros=size macro_defs.[dcl_index] = iFoldSt show_macro 0 n_macros (macro_defs,file) where show_macro macro_index (macro_defs, file) # (macro,macro_defs) = macro_defs![dcl_index,macro_index] = (macro_defs, file <<< macro_index <<< macro <<< '\n') showComponents :: !*{! Group} !Int !Bool !*{# FunDef} !*File -> (!*{! Group}, !*{# FunDef},!*File) showComponents comps comp_index show_types fun_defs file | comp_index >= size comps = (comps, fun_defs, file) # (comp, comps) = comps![comp_index] # (fun_defs, file) = show_component comp.group_members show_types fun_defs (file <<< "component " <<< comp_index <<< '\n') = showComponents comps (inc comp_index) show_types fun_defs file where show_component [] show_types fun_defs file = (fun_defs, file <<< '\n') show_component [fun:funs] show_types fun_defs file # (fun_def, fun_defs) = fun_defs![fun] # file=file<< (!*{! Group},!*{# FunDef},!*File) showComponents2 comps comp_index fun_defs acc_args file | comp_index >= (size comps) = (comps, fun_defs, file) # (comp, comps) = comps![comp_index] # (fun_defs, file) = show_component comp.group_members fun_defs acc_args file = showComponents2 comps (inc comp_index) fun_defs acc_args file where show_component [] fun_defs _ file = (fun_defs, file <<< '\n') show_component [fun:funs] fun_defs acc_args file # (fd, fun_defs) = fun_defs![fun] | fun >= size acc_args # file = file <<< fd.fun_symb <<< '.' <<< fun <<< " ???" = show_component funs fun_defs acc_args file # file = file <<< fd.fun_symb <<< '.' <<< fun <<< " (" # file = show_producer_status acc_args.[fun].cc_producer file # file = show_accumulating_arguments acc_args.[fun].cc_args file # file = show_linear_arguments acc_args.[fun].cc_linear_bits file = show_component funs fun_defs acc_args (file <<< ") ") show_producer_status pc file | pc == True = file <<< "+:" = file <<< "-:" show_accumulating_arguments [ cc : ccs] file | cc == cPassive = show_accumulating_arguments ccs (file <<< 'p') | cc == cActive = show_accumulating_arguments ccs (file <<< 'c') | cc == cAccumulating = show_accumulating_arguments ccs (file <<< 'a') | cc == cVarOfMultimatchCase = show_accumulating_arguments ccs (file <<< 'm') = show_accumulating_arguments ccs (file <<< '?') show_accumulating_arguments [] file = file show_linear_arguments [ cc : ccs] file | cc == True = show_linear_arguments ccs (file <<< 'l') = show_linear_arguments ccs (file <<< 'n') show_linear_arguments [] file = file //show_components comps fun_defs = map (show_component fun_defs) comps show_component fun_defs [] = [] show_component fun_defs [fun:funs] = [fun_defs.[fun ---> fun] : show_component fun_defs funs] showTypes :: !*{! Group} !Int !*{# FunDef} !*File -> (!*{! Group}, !*{# FunDef},!*File) showTypes comps comp_index fun_defs file | comp_index >= size comps = (comps, fun_defs, file) # (comp, comps) = comps![comp_index] # (fun_defs, file) = show_types comp.group_members fun_defs (file <<< "component " <<< comp_index <<< '\n') = showTypes comps (inc comp_index) fun_defs file where show_types [] fun_defs file = (fun_defs, file <<< '\n') show_types [fun:funs] fun_defs file # (fun_def, fun_defs) = fun_defs![fun] # properties = { form_properties = cAttributed bitor cAnnotated, form_attr_position = No } (Yes ftype) = fun_def.fun_type = show_types funs fun_defs (file <<< fun_def.fun_symb <<< " :: " <:: (properties, ftype, No) <<< '\n' ) showDclModules :: !u:{#DclModule} !*File -> (!u:{#DclModule}, !*File) showDclModules dcl_mods file = show_dcl_mods 0 dcl_mods file where show_dcl_mods mod_index dcl_mods file # (size_dcl_mods, dcl_mods) = usize dcl_mods | mod_index == size_dcl_mods = (dcl_mods, file) | otherwise # (dcl_mod, dcl_mods) = dcl_mods ! [mod_index] # file = show_dcl_mod dcl_mod file = (dcl_mods, file) show_dcl_mod {dcl_name, dcl_functions} file # file = file <<< dcl_name <<< ":\n" # file = show_dcl_functions 0 dcl_functions file = file <<< "\n" show_dcl_functions fun_index dcl_functions file | fun_index == size dcl_functions = file | otherwise # file = show_dcl_function dcl_functions.[fun_index] file = show_dcl_functions (inc fun_index) dcl_functions file show_dcl_function {ft_symb, ft_type} file = file <<< ft_symb <<< " :: " <<< ft_type <<< "\n" :: ListTypesKind = ListTypesNone | ListTypesInferred | ListTypesStrictExports | ListTypesAll :: ListTypesOption = { lto_showAttributes :: Bool , lto_listTypesKind :: ListTypesKind } instance == ListTypesKind where (==) ListTypesNone ListTypesNone = True (==) ListTypesInferred ListTypesInferred = True (==) ListTypesStrictExports ListTypesStrictExports = True (==) ListTypesAll ListTypesAll = True (==) _ _ = False