implementation module checksupport import StdEnv, compare_constructor import syntax, predef, containers import utilities from check import checkFunctions //import RWSDebug :: VarHeap :== Heap VarInfo cUndef :== -1 CS_NotChecked :== -1 NotFound :== -1 cModuleScope :== 0 cGlobalScope :== 1 cIsNotADclModule :== False cIsADclModule :== True cNeedStdArray :== 1 cNeedStdEnum :== 2 cNeedStdDynamics:== 4 cNeedStdGeneric :== 8 // AA :: Heaps = { hp_var_heap ::!.VarHeap , hp_expression_heap ::!.ExpressionHeap , hp_type_heaps ::!.TypeHeaps } :: ErrorAdmin = { ea_file :: !.File, ea_loc :: ![IdentPos], ea_ok :: !Bool } :: CheckState = { cs_symbol_table :: !.SymbolTable, cs_predef_symbols :: !.PredefinedSymbols, cs_error :: !.ErrorAdmin, cs_x :: !CheckStateX } :: CheckStateX = {x_needed_modules :: !BITVECT,x_main_dcl_module_n :: !Int /* TD */, x_is_dcl_module :: !Bool, x_type_var_position :: !Int } :: ConversionTable :== {# .{# Int }} cTypeDefs :== 0 cConstructorDefs :== 1 cSelectorDefs :== 2 cClassDefs :== 3 cMemberDefs :== 4 cGenericDefs :== 5 // AA cInstanceDefs :== 6 cFunctionDefs :== 7 cMacroDefs :== 8 cConversionTableSize :== 9 // AA instance toInt STE_Kind where toInt STE_Type = cTypeDefs toInt STE_Constructor = cConstructorDefs toInt (STE_Field _) = cSelectorDefs toInt STE_Class = cClassDefs toInt STE_Generic = cGenericDefs toInt STE_Member = cMemberDefs toInt (STE_Instance _) = cInstanceDefs toInt STE_DclFunction = cFunctionDefs toInt (STE_FunctionOrMacro _) = cMacroDefs toInt _ = NoIndex :: CommonDefs = { com_type_defs :: !.{# CheckedTypeDef} , com_unexpanded_type_defs :: !{# CheckedTypeDef} , com_cons_defs :: !.{# ConsDef} , com_selector_defs :: !.{# SelectorDef} , com_class_defs :: !.{# ClassDef} , com_member_defs :: !.{# MemberDef} , com_instance_defs :: !.{# ClassInstance} , com_generic_defs :: !.{# GenericDef} // AA } :: Declarations = { dcls_import ::!{!Declaration} , dcls_local ::![Declaration] , dcls_local_for_import ::!{!Declaration} } :: *ExplImpInfos :== *{!*{!*ExplImpInfo}} :: ExplImpInfo = ExplImpInfo Ident !.DeclaringModulesSet | TemporarilyFetchedAway :: DeclaringModulesSet :== IntKeyHashtable DeclarationInfo :: DeclarationInfo = { di_decl :: !Declaration , di_instances :: ![Declaration] , di_belonging :: !NumberSet } :: IclModule = { icl_name :: !Ident , icl_functions :: !.{# FunDef } , icl_instances :: !IndexRange , icl_specials :: !IndexRange , icl_common :: !.CommonDefs // , icl_declared :: !Declarations , icl_import :: !{!Declaration} , icl_imported_objects :: ![ImportedObject] , icl_used_module_numbers :: !NumberSet } :: DclModule = { dcl_name :: !Ident , dcl_functions :: !{# FunType } , dcl_instances :: !IndexRange , dcl_macros :: !IndexRange , dcl_specials :: !IndexRange , dcl_common :: !CommonDefs , dcl_sizes :: !{# Int} , dcl_declared :: !Declarations , dcl_conversions :: !Optional ConversionTable , dcl_is_system :: !Bool , dcl_imported_module_numbers :: !NumberSet } class Erroradmin state // PK... where pushErrorAdmin :: !IdentPos *state -> *state setErrorAdmin :: !IdentPos *state -> *state popErrorAdmin :: *state -> *state instance Erroradmin ErrorAdmin where pushErrorAdmin pos error=:{ea_loc} = { error & ea_loc = [pos : ea_loc] } setErrorAdmin pos error = { error & ea_loc = [pos] } popErrorAdmin error=:{ea_loc = [_:ea_locs]} = { error & ea_loc = ea_locs } instance Erroradmin CheckState where pushErrorAdmin pos cs=:{cs_error} = {cs & cs_error = pushErrorAdmin pos cs_error } setErrorAdmin pos cs=:{cs_error} = {cs & cs_error = setErrorAdmin pos cs_error } popErrorAdmin cs=:{cs_error} = {cs & cs_error = popErrorAdmin cs_error } //...PK newPosition :: !Ident !Position -> IdentPos newPosition id (FunPos file_name line_nr _) = { ip_ident = id, ip_line = line_nr, ip_file = file_name } newPosition id (LinePos file_name line_nr) = { ip_ident = id, ip_line = line_nr, ip_file = file_name } newPosition id (PreDefPos file_name) = { ip_ident = id, ip_line = cNotALineNumber, ip_file = file_name.id_name } newPosition id NoPos = { ip_ident = id, ip_line = cNotALineNumber, ip_file = "???" } checkError :: !a !b !*ErrorAdmin -> *ErrorAdmin | <<< a & <<< b // PK checkError id mess error=:{ea_file,ea_loc=[]} = { error & ea_file = ea_file <<< "Error " <<< "\"" <<< id <<< "\" " <<< mess <<< '\n', ea_ok = False } checkError id mess error=:{ea_file,ea_loc} = { error & ea_file = ea_file <<< "Error " <<< hd ea_loc <<< ":\"" <<< id <<< "\" " <<< mess <<< '\n', ea_ok = False } checkWarning :: !a !b !*ErrorAdmin -> *ErrorAdmin | <<< a & <<< b // PK checkWarning id mess error=:{ea_file,ea_loc=[]} = { error & ea_file = ea_file <<< "Warning " <<< "\"" <<< id <<< "\" " <<< mess <<< '\n' } checkWarning id mess error=:{ea_file,ea_loc} = { error & ea_file = ea_file <<< "Warning " <<< hd ea_loc <<< ":\"" <<< id <<< "\" " <<< mess <<< '\n' } checkErrorWithIdentPos :: !IdentPos !a !*ErrorAdmin -> .ErrorAdmin | <<< a; checkErrorWithIdentPos ident_pos mess error=:{ea_file} = { error & ea_file = ea_file <<< "Error " <<< ident_pos <<< ":" <<< mess <<< '\n', ea_ok = False } class envLookUp a :: !a !(Env Ident .b) -> (!Bool,.b) instance envLookUp TypeVar where envLookUp var [bind:binds] | var.tv_name == bind.bind_src = (True, bind.bind_dst) = envLookUp var binds envLookUp var [] = (False, abort "illegal value") instance envLookUp AttributeVar where envLookUp var [bind:binds] | var.av_name == bind.bind_src = (True, bind.bind_dst) = envLookUp var binds envLookUp var [] = (False, abort "illegal value") instance envLookUp ATypeVar where envLookUp var=:{atv_variable} [bind:binds] | atv_variable.tv_name == bind.bind_src = (True, bind.bind_dst) = envLookUp var binds envLookUp var [] = (False, abort "illegal value") :: ExpressionInfo = { ef_type_defs :: !.{# CheckedTypeDef} , ef_selector_defs :: !.{# SelectorDef} , ef_cons_defs :: !.{# ConsDef} , ef_member_defs :: !.{# MemberDef} , ef_class_defs :: !.{# ClassDef} , ef_generic_defs :: !.{# GenericDef} // AA , ef_modules :: !.{# DclModule} , ef_is_macro_fun :: !Bool } checkLocalFunctions :: !Index !Level !LocalDefs !*{#FunDef} !*ExpressionInfo !*Heaps !*CheckState -> (!.{#FunDef},!.ExpressionInfo,!.Heaps,!.CheckState); checkLocalFunctions mod_index level (CollectedLocalDefs {loc_functions={ir_from,ir_to}}) fun_defs e_info heaps cs = checkFunctions mod_index level ir_from ir_to fun_defs e_info heaps cs convertIndex :: !Index !Index !(Optional ConversionTable) -> !Index convertIndex index table_index (Yes tables) = tables.[table_index].[index] convertIndex index table_index No = index retrieveGlobalDefinition :: !SymbolTableEntry !STE_Kind !Index -> (!Index, !Index) retrieveGlobalDefinition {ste_kind = STE_Imported kind decl_index, ste_def_level, ste_index} requ_kind mod_index | kind == requ_kind = (ste_index, decl_index) = (NotFound, mod_index) retrieveGlobalDefinition {ste_kind,ste_def_level,ste_index} requ_kind mod_index | ste_kind == requ_kind && ste_def_level == cGlobalScope = (ste_index, mod_index) = (NotFound, mod_index) getBelongingSymbols :: !Declaration !v:{#DclModule} -> (!BelongingSymbols, !v:{#DclModule}) getBelongingSymbols (Declaration {decl_kind=STE_Imported STE_Type def_mod_index, decl_index}) dcl_modules # ({td_rhs}, dcl_modules) = dcl_modules![def_mod_index].dcl_common.com_type_defs.[decl_index] = case td_rhs of AlgType constructors -> (BS_Constructors constructors, dcl_modules) RecordType {rt_fields} -> (BS_Fields rt_fields, dcl_modules) _ -> (BS_Nothing, dcl_modules) getBelongingSymbols (Declaration {decl_kind=STE_Imported STE_Class def_mod_index, decl_index}) dcl_modules # ({class_members}, dcl_modules) = dcl_modules![def_mod_index].dcl_common.com_class_defs.[decl_index] = (BS_Members class_members, dcl_modules) getBelongingSymbols _ dcl_modules = (BS_Nothing, dcl_modules) nrOfBelongingSymbols :: !BelongingSymbols -> Int nrOfBelongingSymbols (BS_Constructors constructors) = length constructors nrOfBelongingSymbols (BS_Fields fields) = size fields nrOfBelongingSymbols (BS_Members members) = size members nrOfBelongingSymbols BS_Nothing = 0 :: BelongingSymbols = BS_Constructors ![DefinedSymbol] | BS_Fields !{#FieldSymbol} | BS_Members !{#DefinedSymbol} | BS_Nothing removeImportsAndLocalsOfModuleFromSymbolTable :: !Declarations !*(Heap SymbolTableEntry) -> .Heap SymbolTableEntry removeImportsAndLocalsOfModuleFromSymbolTable {dcls_import,dcls_local_for_import} symbol_table # symbol_table = remove_declared_symbols_in_array 0 dcls_import symbol_table = remove_declared_symbols_in_array 0 dcls_local_for_import symbol_table where remove_declared_symbols_in_array :: !Int !{!Declaration} !*SymbolTable -> !*SymbolTable remove_declared_symbols_in_array symbol_index symbols symbol_table | symbol_index cModuleScope = remove_declared_symbols_in_array (symbol_index+1) symbols symbol_table # symbol_table = symbol_table <:= (id_info, entry.ste_previous) = case ste_kind of STE_Field selector_id #! declaration = symbols.[symbol_index] # (Declaration {decl_index}) = declaration -> remove_declared_symbols_in_array (symbol_index+1) symbols (removeFieldFromSelectorDefinition selector_id NoIndex decl_index symbol_table) STE_Imported (STE_Field selector_id) def_mod #! declaration = symbols.[symbol_index] # (Declaration {decl_index}) = declaration -> remove_declared_symbols_in_array (symbol_index+1) symbols (removeFieldFromSelectorDefinition selector_id def_mod decl_index symbol_table) _ -> remove_declared_symbols_in_array (symbol_index+1) symbols symbol_table = symbol_table addLocalFunctionDefsToSymbolTable :: !Level !Index !Index !Bool !*{#FunDef} !*SymbolTable !*ErrorAdmin -> (!*{# FunDef}, !*SymbolTable, !*ErrorAdmin) addLocalFunctionDefsToSymbolTable level from_index to_index is_macro_fun fun_defs symbol_table error | from_index == to_index = (fun_defs, symbol_table, error) # (fun_def, fun_defs) = fun_defs![from_index] # (symbol_table, error) = addDefToSymbolTable level from_index fun_def.fun_symb (STE_FunctionOrMacro []) symbol_table error | is_macro_fun # fun_defs = {fun_defs & [from_index].fun_info.fi_properties = fun_def.fun_info.fi_properties bitor FI_IsMacroFun } = addLocalFunctionDefsToSymbolTable level (inc from_index) to_index is_macro_fun fun_defs symbol_table error = addLocalFunctionDefsToSymbolTable level (inc from_index) to_index is_macro_fun fun_defs symbol_table error NewEntry symbol_table symb_ptr def_kind def_index level previous :== symbol_table <:= (symb_ptr,{ ste_kind = def_kind, ste_index = def_index, ste_def_level = level, ste_previous = previous }) addDefToSymbolTable :: !Level !Index !Ident !STE_Kind !*SymbolTable !*ErrorAdmin -> (!* SymbolTable, !*ErrorAdmin) addDefToSymbolTable level def_index def_ident=:{id_info} def_kind symbol_table error #! entry = sreadPtr id_info symbol_table | entry.ste_kind == STE_Empty || entry.ste_def_level <> level # entry = {ste_index = def_index, ste_kind = def_kind, ste_def_level = level, ste_previous = entry } = (symbol_table <:= (id_info,entry), error) = (symbol_table, checkError def_ident " already defined" error) addDeclarationsOfDclModToSymbolTable :: .Int !{!Declaration} !{!Declaration} !*CheckState -> .CheckState; addDeclarationsOfDclModToSymbolTable ste_index locals imported cs # cs=add_imports_in_array_to_symbol_table 0 imported cs = addLocalSymbolsForImportToSymbolTable 0 locals ste_index cs where add_imports_in_array_to_symbol_table symbol_index symbols cs=:{cs_x} | symbol_index add_imports_in_array_to_symbol_table (symbol_index+1) symbols cs STE_FunctionOrMacro _ #! declaration = symbols.[symbol_index] # (Declaration {decl_index}) = declaration # (_, cs) = addImportedFunctionOrMacro No decl_ident decl_index cs -> add_imports_in_array_to_symbol_table (symbol_index+1) symbols cs = cs addLocalSymbolsForImportToSymbolTable :: !Int !{!Declaration} Int !*CheckState -> .CheckState; addLocalSymbolsForImportToSymbolTable symbol_index symbols mod_index cs | symbol_index addLocalSymbolsForImportToSymbolTable (symbol_index+1) symbols mod_index cs STE_Imported def_kind def_mod # (_, cs) = addSymbol No decl_ident decl_pos decl_kind def_kind decl_index mod_index cUndef cs -> addLocalSymbolsForImportToSymbolTable (symbol_index+1) symbols mod_index cs = cs addImportedFunctionOrMacro :: !(Optional IndexRange) !Ident !Int !*CheckState -> (!Bool, !.CheckState) addImportedFunctionOrMacro opt_dcl_macro_range ident=:{id_info} def_index cs=:{cs_symbol_table} #! entry = sreadPtr id_info cs_symbol_table = case entry.ste_kind of STE_Empty -> (True, { cs & cs_symbol_table = NewEntry cs.cs_symbol_table id_info (STE_FunctionOrMacro []) def_index cModuleScope entry}) STE_FunctionOrMacro _ | entry.ste_index == def_index || within_opt_range opt_dcl_macro_range def_index -> (False, cs) _ -> (False, { cs & cs_error = checkError ident "multiply defined" cs.cs_error}) where within_opt_range (Yes {ir_from, ir_to}) i = ir_from<=i && i .CheckState; addFieldToSelectorDefinition {id_info} glob_field_index cs=:{cs_symbol_table} # (entry, cs_symbol_table) = readPtr id_info cs_symbol_table cs = { cs & cs_symbol_table = cs_symbol_table } = case entry.ste_kind of STE_Selector selector_list -> { cs & cs_symbol_table = cs.cs_symbol_table <:= (id_info, { entry & ste_kind = STE_Selector [ glob_field_index : selector_list ] })} _ -> { cs & cs_symbol_table = NewEntry cs.cs_symbol_table id_info (STE_Selector [glob_field_index]) NoIndex cModuleScope entry } addSymbol :: !(Optional a) !Ident !Position !STE_Kind !STE_Kind !.Int !.Int !Int !*CheckState -> (!Bool, !.CheckState) addSymbol yes_for_icl_module ident pos decl_kind def_kind def_index def_mod importing_mod cs=:{cs_symbol_table} # (entry, cs_symbol_table) = readPtr ident.id_info cs_symbol_table = add_indirectly_imported_symbol yes_for_icl_module entry ident pos def_kind def_index def_mod importing_mod { cs & cs_symbol_table = cs_symbol_table } where add_indirectly_imported_symbol _ {ste_kind = STE_Empty} {id_info} _ def_kind def_index def_mod _ cs=:{cs_symbol_table} # (entry, cs_symbol_table) = readPtr id_info cs_symbol_table cs = { cs & cs_symbol_table = NewEntry cs_symbol_table id_info decl_kind def_index cModuleScope entry} = case def_kind of STE_Field selector_id -> (True, addFieldToSelectorDefinition selector_id { glob_module = def_mod, glob_object = def_index } cs) _ -> (True, cs) add_indirectly_imported_symbol _ {ste_kind = STE_Imported kind mod_index, ste_index} _ _ def_kind def_index def_mod _ cs | kind == def_kind && mod_index == def_mod && ste_index == def_index = (False, cs) add_indirectly_imported_symbol (Yes _) _ _ _ def_kind def_index def_mod _ cs | def_mod == cs.cs_x.x_main_dcl_module_n // an icl module imports one of it's definitions from the dcl module = (False, cs) add_indirectly_imported_symbol _ _ _ _ def_kind def_index def_mod importing_mod cs | importing_mod==def_mod // a dcl module imports a definition from itself (cycle) = (False, cs) add_indirectly_imported_symbol _ entry ident pos def_kind def_index def_mod _ cs=:{cs_error} = (False, { cs & cs_error = checkError ident "multiply defined" cs_error}) addGlobalDefinitionsToSymbolTable :: ![Declaration] !*CheckState -> .CheckState; addGlobalDefinitionsToSymbolTable decls cs = foldSt add_global_definition decls cs where add_global_definition (Declaration {decl_ident=ident=:{id_info},decl_pos,decl_kind,decl_index}) cs=:{cs_symbol_table} #! entry = sreadPtr id_info cs_symbol_table | entry.ste_def_level < cGlobalScope # cs = { cs & cs_symbol_table = NewEntry cs_symbol_table id_info decl_kind decl_index cGlobalScope entry } = case decl_kind of STE_Field selector_id -> addFieldToSelectorDefinition selector_id { glob_module = NoIndex, glob_object = decl_index } cs _ -> cs = { cs & cs_error = checkErrorWithIdentPos (newPosition ident decl_pos) " multiply defined" cs.cs_error} removeImportedSymbolsFromSymbolTable :: Declaration !*SymbolTable -> .SymbolTable removeImportedSymbolsFromSymbolTable (Declaration {decl_ident=decl_ident=:{id_info}, decl_index}) symbol_table # ({ste_kind,ste_def_level,ste_previous}, symbol_table) = readPtr id_info symbol_table symbol_table = symbol_table <:= (id_info, ste_previous) = case ste_kind of STE_Imported (STE_Field selector_id) def_mod -> removeFieldFromSelectorDefinition selector_id def_mod decl_index symbol_table _ -> symbol_table removeFieldFromSelectorDefinition :: !Ident .Int .Int !*(Heap SymbolTableEntry) -> .Heap SymbolTableEntry; removeFieldFromSelectorDefinition {id_info} field_mod field_index symbol_table # (entry, symbol_table) = readPtr id_info symbol_table = case entry.ste_kind of STE_Selector selector_list -> symbol_table <:= (id_info, { entry & ste_kind = STE_Selector (remove_field field_mod field_index selector_list) }) _ -> symbol_table where remove_field field_mod field_index [field=:{glob_module, glob_object} : fields] | field_mod == glob_module && field_index == glob_object = fields = [field : remove_field field_mod field_index fields] remove_field field_mod field_index [] = [] removeDeclarationsFromSymbolTable :: ![Declaration] !Int !*SymbolTable -> *SymbolTable removeDeclarationsFromSymbolTable decls scope symbol_table = foldSt (remove_declaration scope) decls symbol_table where remove_declaration scope decl=:(Declaration {decl_ident={id_info}, decl_index}) symbol_table # ({ste_kind,ste_previous}, symbol_table) = readPtr id_info symbol_table = case ste_kind of STE_Field field_id # symbol_table = removeFieldFromSelectorDefinition field_id NoIndex decl_index symbol_table | ste_previous.ste_def_level == scope -> symbol_table <:= (id_info, ste_previous.ste_previous) -> symbol_table <:= (id_info, ste_previous) STE_Empty -> symbol_table _ | ste_previous.ste_def_level == scope -> symbol_table <:= (id_info, ste_previous.ste_previous) -> symbol_table <:= (id_info, ste_previous) removeLocalIdentsFromSymbolTable :: .Int !.[Ident] !*(Heap SymbolTableEntry) -> .Heap SymbolTableEntry; removeLocalIdentsFromSymbolTable level idents symbol_table = foldSt (removeIdentFromSymbolTable level) idents symbol_table removeIdentFromSymbolTable :: !.Int !Ident !*(Heap SymbolTableEntry) -> .Heap SymbolTableEntry; removeIdentFromSymbolTable level {id_name,id_info} symbol_table #! {ste_previous,ste_def_level} = sreadPtr id_info symbol_table | level <= ste_def_level = symbol_table <:= (id_info,ste_previous) // ---> ("removeIdentFromSymbolTable", id_name) = symbol_table // ---> ("NO removeIdentFromSymbolTable", id_name) removeLocalsFromSymbolTable :: !Level ![Ident] !LocalDefs !u:{# FunDef} !*(Heap SymbolTableEntry) -> (!u:{# FunDef}, !.Heap SymbolTableEntry) removeLocalsFromSymbolTable level loc_vars (CollectedLocalDefs {loc_functions={ir_from,ir_to}}) defs symbol_table = remove_defs_from_symbol_table level ir_from ir_to defs (removeLocalIdentsFromSymbolTable level loc_vars symbol_table) where remove_defs_from_symbol_table level from_index to_index defs symbol_table | from_index == to_index = (defs, symbol_table) #! def = defs.[from_index] id_info = (toIdent def).id_info entry = sreadPtr id_info symbol_table | level == entry.ste_def_level = remove_defs_from_symbol_table level (inc from_index) to_index defs (symbol_table <:= (id_info, entry.ste_previous)) = remove_defs_from_symbol_table level (inc from_index) to_index defs symbol_table newFreeVariable :: !FreeVar ![FreeVar] ->(!Bool, ![FreeVar]) newFreeVariable new_var vars=:[free_var=:{fv_def_level,fv_info_ptr}: free_vars] | new_var.fv_def_level > fv_def_level = (True, [new_var : vars]) | new_var.fv_def_level == fv_def_level | new_var.fv_info_ptr == fv_info_ptr = (False, vars) #! (free_var_added, free_vars) = newFreeVariable new_var free_vars = (free_var_added, [free_var : free_vars]) #! (free_var_added, free_vars) = newFreeVariable new_var free_vars = (free_var_added, [free_var : free_vars]) newFreeVariable new_var [] = (True, [new_var]) local_declaration_for_import :: !u:Declaration .Index -> v:Declaration, [u <= v] local_declaration_for_import decl=:(Declaration {decl_kind=STE_FunctionOrMacro _}) module_n = decl local_declaration_for_import decl=:(Declaration {decl_kind=STE_Imported _ _}) module_n = abort "local_declaration_for_import" local_declaration_for_import decl=:(Declaration declaration_record=:{decl_kind}) module_n = Declaration {declaration_record & decl_kind = STE_Imported decl_kind module_n} get_ident :: !ImportDeclaration -> Ident get_ident (ID_Function {ii_ident}) = ii_ident get_ident (ID_Class {ii_ident} _) = ii_ident get_ident (ID_Type {ii_ident} _) = ii_ident get_ident (ID_Record {ii_ident} _) = ii_ident get_ident (ID_Instance class_ident instance_ident _) = instance_ident getBelongingSymbolsFromID :: !ImportDeclaration -> Optional [ImportedIdent] getBelongingSymbolsFromID (ID_Class _ x) = x getBelongingSymbolsFromID (ID_Type _ x) = x getBelongingSymbolsFromID (ID_Record _ x) = x getBelongingSymbolsFromID _ = No class toIdent a :: !a -> Ident instance toIdent SymbIdent where toIdent symb = symb.symb_name instance toIdent TypeSymbIdent where toIdent type_symb = type_symb.type_name instance toIdent BoundVar where toIdent var = var.var_name instance toIdent TypeVar where toIdent tvar = tvar.tv_name instance toIdent ATypeVar where toIdent {atv_variable} = atv_variable.tv_name instance toIdent Ident where toIdent id = id instance toIdent ConsDef where toIdent cons = cons.cons_symb instance toIdent (TypeDef a) where toIdent td = td.td_name instance toIdent ClassDef where toIdent cl = cl.class_name instance toIdent MemberDef where toIdent me = me.me_symb instance toIdent FunDef where toIdent fun = fun.fun_symb instance toIdent SelectorDef where toIdent sd = sd.sd_symb /* instance toIdent DeltaRule where toIdent delta = delta.delta_name */ instance toIdent (a,b) | toIdent a where toIdent (x,y) = toIdent x instance == STE_Kind where (==) (STE_FunctionOrMacro _) STE_DclFunction = True (==) STE_DclFunction (STE_FunctionOrMacro _) = True (==) sk1 sk2 = equal_constructor sk1 sk2 instance <<< IdentPos where (<<<) file {ip_file,ip_line,ip_ident} | ip_line == cNotALineNumber = file <<< '[' <<< ip_file <<< ',' <<< ip_ident <<< ']' = file <<< '[' <<< ip_file <<< ',' <<< ip_line <<< ',' <<< ip_ident <<< ']' instance <<< ExplImpInfo where (<<<) file (ExplImpInfo eii_ident eii_declaring_modules) = file <<< eii_ident //<<< " is declared in " <<< eii_declaring_modules instance <<< DeclarationInfo where (<<<) file {di_decl, di_instances} = file <<< di_decl <<< di_instances import_ident :: Ident import_ident =: { id_name = "import", id_info = nilPtr } /* ste_kind_to_string :: STE_Kind -> String ste_kind_to_string ste_kind = case ste_kind of STE_FunctionOrMacro _ -> "STE_FunctionOrMacro" STE_Type -> "STE_Type" STE_Constructor -> "STE_Constructor" STE_Selector _ -> "STE_Selector" STE_Field _ -> "STE_Field" STE_Class -> "STE_Class" STE_Member -> "STE_Member" STE_Instance _ -> "STE_Instance" STE_Variable _ -> "STE_Variable" STE_TypeVariable _ -> "STE_TypeVariable" STE_TypeAttribute _ -> "STE_TypeAttribute" STE_BoundTypeVariable _ -> "STE_BoundTypeVariable" STE_Imported ste_kind2 _ -> "STE_Imported "+++ste_kind_to_string ste_kind2 STE_DclFunction -> "STE_DclFunction" STE_Module _ -> "STE_Module" STE_ClosedModule -> "STE_ClosedModule" STE_Empty -> "STE_Empty" STE_DictType _ -> "STE_DictType" STE_DictCons _ -> "STE_DictCons" STE_DictField _ -> "STE_DictField" STE_Called _ -> "STE_Called" STE_ExplImpSymbol _ -> "STE_ExplImpSymbol" STE_ExplImpComponentNrs _ _ -> "STE_ExplImpComponentNrs" STE_BelongingSymbol _ -> "STE_BelongingSymbol" */ restoreHeap :: !Ident !*SymbolTable -> .SymbolTable restoreHeap {id_info} cs_symbol_table # ({ste_previous}, cs_symbol_table) = readPtr id_info cs_symbol_table = writePtr id_info ste_previous cs_symbol_table