implementation module coredump import classify from CoclSystemDependent import DirectorySeparator from filesystem import ensureDirectoryExists dumpCore :: !*{! Group} Int [IndexRange] !.IclModule !.DclModule !*{# FunDef} {!ConsClasses} .Int .Int *Files -> *(!*{! Group},!*{# FunDef},!*Files) dumpCore components start_rule_index exported_global_functions {icl_name,icl_global_functions,icl_instances,icl_specials,icl_gencases} {dcl_instances,dcl_specials,dcl_gencases} fun_defs acc_args def_min def_max files # dump_folder = "Dumps" # (ok,files) = ensureDirectoryExists "Dumps" files | not ok = abort ("can't create folder \"" +++ dump_folder +++"\"\n") # (ok1,f,files) = fopen (dump_folder+++{DirectorySeparator}+++icl_name.id_name+++".dump") FWriteText files # [icl_exported_global_functions,icl_not_exported_global_functions:_] = icl_global_functions # f = showRanges "icl_global_functions" icl_global_functions f # f = showRanges "icl_instances" icl_instances f # f = showRanges "icl_specials" [icl_specials] f # f = showRanges "icl_gencases" icl_gencases f # f = showRanges "icl_exported_global_functions" icl_exported_global_functions f # f = showRanges "start_rule_index" start_rule_index f # f = showRanges "exported_global_functions" exported_global_functions f # f = showRanges "dcl_instances" dcl_instances f # f = showRanges "dcl_specials" dcl_specials f # f = showRanges "dcl_gencases" dcl_gencases f # (components, fun_defs, acc_args, f) = showComponents2 components 0 fun_defs acc_args def_min def_max f (components, fun_defs, f) = showComponents3 components 0 True fun_defs f (ok2,files) = fclose f files = (components,fun_defs,files) where showRanges name range file # file = file <<< name <<< ":\n" # file = file <<< range # file = file <<< '\n' = file showComponents2 :: !*{! Group} !Int !*{# FunDef} !u:{! ConsClasses} !Int !Int !*File -> (!*{! Group},!*{# FunDef},!u:{! ConsClasses},!*File) showComponents2 comps comp_index fun_defs acc_args acc_min acc_max file | comp_index >= (size comps) = (comps, fun_defs, acc_args, file) # (comp, comps) = comps![comp_index] # (fun_defs, acc_args, file) = show_component comp.group_members fun_defs acc_args file = showComponents2 comps (inc comp_index) fun_defs acc_args acc_min acc_max file where show_component :: ![Int] !*{# FunDef} !u:{! ConsClasses} !*File -> (!*{# FunDef}, !u:{! ConsClasses}, !*File) show_component [] fun_defs acc_args file = (fun_defs, acc_args, file <<< '\n') show_component [fun:funs] fun_defs acc_args file # (fd, fun_defs) = fun_defs![fun] | fun >= acc_max && fun < acc_min # file = file <<< fd.fun_ident <<< '@' <<< fun <<< " ???" = show_component funs fun_defs acc_args file # file = file <<< fd.fun_ident <<< '@' <<< fun <<< " (" # (acc_arg,acc_args) = case fun < acc_min of True -> acc_args![fun] _ -> acc_args![fun-acc_min+acc_max] # file = show_producer_status acc_arg.cc_producer file # file = show_accumulating_arguments acc_arg.cc_args file # file = show_linear_arguments acc_arg.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') | cc == CUnusedLazy = show_accumulating_arguments ccs (file <<< 'u') | cc == CUnusedStrict = show_accumulating_arguments ccs (file <<< 's') = 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 // ----------------------------------------------------------------------------------------------------------------------- showComponents3 :: !*{! Group} !Int !Bool !*{# FunDef} !*File -> (!*{! Group}, !*{# FunDef},!*File) showComponents3 comps comp_index show_types fun_defs file # pp_state = InitPPState file # (comps,fun_defs,{file}) = showComponents4 comps comp_index show_types fun_defs pp_state = (comps,fun_defs,file) where showComponents4 comps comp_index show_types fun_defs pp_state | comp_index >= size comps = (comps, fun_defs, pp_state) # (comp, comps) = comps![comp_index] # (fun_defs, pp_state) = show_component comp.group_members show_types fun_defs (pp_state <#< "\ncomponent " <#< comp_index <#< '\n') = showComponents4 comps (inc comp_index) show_types fun_defs pp_state where show_component [] show_types fun_defs pp_state = (fun_defs, pp_state <#< '\n') show_component [fun:funs] show_types fun_defs pp_state # (fun_def, fun_defs) = fun_defs![fun] # pp_state = { pp_state & function_index = fun} | show_types = show_component funs show_types fun_defs (pp_state <#< fun_def.fun_type <#< '\n' <#< fun_def) = show_component funs show_types fun_defs (pp_state <#< fun_def) :: PPState = { file :: !.File , indent_level :: !Int , last_character_written_was_nl :: !Bool , write_indent :: !Bool , function_index :: !Int } InitPPState :: !*File -> *PPState InitPPState file = { PPState | file = file , indent_level = 0 , last_character_written_was_nl = False , write_indent = True , function_index = 0 } deltaIndent :== 4 IndentLevelForward pp_state=:{indent_level} # pp_state = { pp_state & indent_level = indent_level + deltaIndent } # pp_state = pp_state <#< '\n' = pp_state IndentLevelBackward pp_state=:{indent_level} # pp_state = { pp_state & indent_level = indent_level - deltaIndent } # pp_state = pp_state <#< '\n' = pp_state PPState_writes :: !{#.Char} !*PPState -> .PPState PPState_writes s pp_state #! (pp_state=:{file}) = write_indent_if_necessary pp_state #! file = fwrites s file = {pp_state & file = file, last_character_written_was_nl = False} where write_indent 0 file = file write_indent i file = write_indent (dec i) (fwritec ' ' file) class (<#<) infixl a :: !*PPState !a -> *PPState instance <#< {#Char} where (<#<) pp_state s #! (pp_state=:{file}) = write_indent_if_necessary pp_state # file = fwrites s file = { pp_state & file = file, last_character_written_was_nl = False } instance <#< Int where (<#<) pp_state i #! (pp_state=:{file}) = write_indent_if_necessary pp_state # file = fwrites (toString i) file = { pp_state & file = file, last_character_written_was_nl = False } instance <#< CheckedAlternative where (<#<) pp_state ca=:{ca_rhs,ca_position} = pp_state <#< ("CheckedAlternative",ca_rhs); write_indent_if_necessary pp_state=:{file,indent_level,write_indent=True} # file = write_indent indent_level file = {pp_state & file = file, write_indent = False} where write_indent 0 file = file write_indent i file = write_indent (dec i) (fwritec ' ' file) write_indent_if_necessary pp_state = pp_state instance <#< Char where (<#<) pp_state=:{file,indent_level,last_character_written_was_nl} '\n' #! file = case last_character_written_was_nl of True -> file _ # file = fwritec '\n' file -> file = { pp_state & file = file, last_character_written_was_nl = True, write_indent = True } where write_indent 0 file = file write_indent i file = write_indent (dec i) (fwritec ' ' file) (<#<) pp_state c #! (pp_state=:{file}) = write_indent_if_necessary pp_state # file = fwritec c file = { pp_state & file = file, last_character_written_was_nl = False } instance <#< Bool where (<#<) pp_state bool #! (pp_state=:{file}) = write_indent_if_necessary pp_state # file = fwrites (toString bool) file = { pp_state & file = file, last_character_written_was_nl = False } instance <#< (a,b) | <#< a & <#< b where (<#<) pp_state (x,y) = pp_state <#< '(' <#< x <#< ", " <#< y <#< ") " instance <#< (a,b,c) | <#< a & <#< b & <#< c where (<#<) pp_state (x,y,z) = pp_state <#< '(' <#< x <#< ", " <#< y <#< ", " <#< z <#< ") " instance <#< (a,b,c,d) | <#< a & <#< b & <#< c & <#< d where (<#<) pp_state (w,x,y,z) = pp_state <#< '(' <#< w <#< ", " <#< x <#< ", " <#< y <#< ", " <#< z <#< ") " instance <#< (a,b,c,d,e) | <#< a & <#< b & <#< c & <#< d & <#< e where (<#<) pp_state (v,w,x,y,z) = pp_state <#< '(' <#< v <#< ", " <#< w <#< ", " <#< x <#< ", " <#< y <#< ", " <#< z <#< ") " instance <#< (a,b,c,d,e,f,g) | <#< a & <#< b & <#< c & <#< d & <#< e & <#< f & <#< g where (<#<) pp_state (v,w,x,y,z,f,g) = pp_state <#< '(' <#< v <#< ", " <#< w <#< ", " <#< x <#< ", " <#< y <#< ", " <#< z <#< ", " <#< f <#< ", " <#< g <#< ") " instance <#< [a] | <#< a where (<#<) pp_state [] = pp_state (<#<) pp_state l = showTail (pp_state <#< "[") l where showTail f [x] = f <#< x <#< "] " showTail f [a:x] = showTail (f <#< a <#< ", ") x showTail f [] = f <#< "] " // COMPILER instance <#< BasicType where (<#<) pp_state BT_Int = pp_state <#< "Int" (<#<) pp_state BT_Char = pp_state <#< "Char" (<#<) pp_state BT_Real = pp_state <#< "Real" (<#<) pp_state BT_Bool = pp_state <#< "Bool" (<#<) pp_state (BT_String _) = pp_state <#< "String" (<#<) pp_state BT_Dynamic = pp_state <#< "Dynamic" (<#<) pp_state BT_File = pp_state <#< "File" (<#<) pp_state BT_World = pp_state <#< "World" instance <#< TypeVar where (<#<) pp_state varid = pp_state <#< varid.tv_ident instance <#< AttributeVar where (<#<) pp_state {av_ident,av_info_ptr} = pp_state <#< av_ident instance <#< AType where (<#<) pp_state {at_attribute,at_type} = pp_state <#< at_attribute <#< at_type instance <#< TypeAttribute where (<#<) pp_state ta = pp_state <#< toString ta instance <#< Annotation where (<#<) pp_state an = pp_state <#< toString an instance <#< ATypeVar where (<#<) pp_state {atv_attribute,atv_variable} = pp_state <#< atv_attribute <#< atv_variable instance <#< ConsVariable where (<#<) pp_state (CV tv) = pp_state <#< tv (<#<) pp_state (TempCV tv) = pp_state <#< "v" <#< tv <#< ' ' (<#<) pp_state (TempQCV tv) = pp_state <#< "q" <#< tv <#< ' ' instance <#< Type where (<#<) pp_state (TA consid types) = pp_state <#< consid <#< " " <#< types (<#<) pp_state (TAS consid types strictness) = pp_state <#< consid <#< " [" <#< strictness <#< "] "<#< types (<#<) pp_state (arg_type --> res_type) = pp_state <#< arg_type <#< " -> " <#< res_type (<#<) pp_state (TArrow) = pp_state <#< " (->) " (<#<) pp_state (TArrow1 arg_type) = pp_state <#< " ((->) " <#< arg_type <#<") " (<#<) pp_state (type :@: types) = pp_state <#< type <#< " @" <#< types (<#<) pp_state (TB tb) = pp_state <#< tb (<#<) pp_state (TFA vars types) = pp_state <#< "A." <#< vars <#< ':' <#< types (<#<) pp_state (GTV varid) = pp_state <#< varid (<#<) pp_state (TV varid) = pp_state <#< varid (<#<) pp_state (TempV tv_number) = pp_state <#< "TempV " <#< tv_number <#< ' ' (<#<) pp_state (TQV varid) = pp_state <#< "E." <#< varid (<#<) pp_state (TempQV tv_number) = pp_state <#< "E." <#< tv_number <#< ' ' (<#<) pp_state (TLifted varid) = pp_state <#< "TLifted " <#< varid (<#<) pp_state TE = pp_state <#< "TE" instance <#< StrictnessList where (<#<) pp_state NotStrict = pp_state <#< '.' (<#<) pp_state (Strict i) = pp_state <#< '!' <#< i (<#<) pp_state (StrictList i l) = pp_state <#< '!' <#< i <#< l instance <#< SymbolType where (<#<) pp_state st=:{st_vars,st_attr_vars,st_args_strictness} | st.st_arity == 0 = write_inequalities st.st_attr_env (write_contexts st.st_context (pp_state <#< '[' <#< st_vars <#< ',' <#< st_attr_vars <#< ']' <#< st.st_result)) = write_inequalities st.st_attr_env (write_contexts st.st_context (pp_state <#< '[' <#< st_vars <#< ',' <#< st_attr_vars <#< ']' <#< st.st_args <#< " -> " <#< st.st_result)) write_contexts [] pp_state = pp_state write_contexts [tc : tcs] pp_state = write_contexts2 tcs (pp_state <#< " | " <#< tc) where write_contexts2 [] pp_state = pp_state write_contexts2 [tc : tcs] pp_state = write_contexts2 tcs (pp_state <#< " & " <#< tc) instance <#< AttrInequality where (<#<) pp_state {ai_demanded,ai_offered} = pp_state <#< ai_offered <#< " <= " <#< ai_demanded write_inequalities [] pp_state = pp_state write_inequalities [ineq:ineqs] pp_state = write_remaining_inequalities ineqs (pp_state <#< ',' <#< ineq) where write_remaining_inequalities [] pp_state = pp_state write_remaining_inequalities [ineq:ineqs] pp_state = write_remaining_inequalities ineqs (pp_state <#< ' ' <#< ineq) instance <#< TypeContext where (<#<) pp_state co=:{tc_class,tc_types,tc_var} # pp_state = pp_state <#< "TC\n" # pp_state = pp_state <#< "tc_class: " <#< tc_class <#< "\n" # pp_state = pp_state <#< "tc_types: " <#< tc_types <#< "\n" # pp_state = pp_state <#< "tc_var: " <#< ptrToInt tc_var <#< "\n" = pp_state instance <#< SymbIdent where (<#<) pp_state symb=:{symb_kind = SK_Function symb_index } = pp_state <#< symb.symb_ident <#< '@' <#< symb_index (<#<) pp_state symb=:{symb_kind = SK_GeneratedFunction _ symb_index } = pp_state <#< symb.symb_ident <#< '@' <#< symb_index (<#<) pp_state symb=:{symb_kind = SK_OverloadedFunction symb_index } = pp_state <#< symb.symb_ident <#< "[o]@" <#< symb_index (<#<) pp_state symb=:{symb_kind = SK_LocalMacroFunction symb_index } = pp_state <#< symb.symb_ident <#< '@' <#< symb_index (<#<) pp_state symb = pp_state <#< symb.symb_ident <#< '?' instance <#< TypeSymbIdent where (<#<) pp_state symb = pp_state <#< symb.type_ident <#< '.' <#< symb.type_index instance <#< BoundVar where (<#<) pp_state {var_ident,var_info_ptr,var_expr_ptr} = pp_state <#< var_ident <#< '<' <#< ptrToInt var_info_ptr <#< '>' instance <#< (Bind a b) | <#< a & <#< b where (<#<) pp_state {bind_src,bind_dst} = pp_state <#< bind_dst <#< " = " <#< bind_src instance <#< LetBind where (<#<) pp_state {lb_dst,lb_src} = pp_state <#< lb_dst <#< " = " <#< lb_src instance <#< AlgebraicPattern where (<#<) pp_state g = pp_state <#< g.ap_symbol <#< g.ap_vars <#< " -> " <#< g.ap_expr instance <#< BasicPattern where (<#<) pp_state g # pp_state = pp_state <#< g.bp_value # pp_state = IndentLevelForward pp_state # pp_state = pp_state <#< "-> " <#< g.bp_expr # pp_state = IndentLevelBackward pp_state = pp_state instance <#< CasePatterns where (<#<) pp_state (AlgebraicPatterns type patterns) = pp_state <#< patterns (<#<) pp_state (BasicPatterns type patterns) = pp_state <# " <#< def_expr #! pp_state = IndentLevelBackward pp_state #! pp_state = IndentLevelBackward pp_state = pp_state (<#<) pp_state (BasicExpr basic_value) = pp_state <#< basic_value (<#<) pp_state (Conditional {if_cond,if_then,if_else}) = else_part (pp_state <#< "IF " <#< if_cond <#< '\n' <#< "THEN\n" <#< if_then) if_else where else_part pp_state No = pp_state <#< '\n' else_part pp_state (Yes else) = pp_state <#< '\n' <#< "ELSE\n" <#< else <#< '\n' (<#<) pp_state (Selection selector_kind expr selectors) = pp_state <#< expr <#< selector_kind <#< selectors (<#<) pp_state (Update expr1 selections expr2) = pp_state <#< '{' <#< expr1 <#< " & " <#< selections <#< " = " <#< expr2 <#< '}' (<#<) pp_state (RecordUpdate cons_symbol expression expressions) = pp_state <#< '{' <#< cons_symbol <#< ' ' <#< expression <#< " & " <#< expressions <#< '}' (<#<) pp_state (TupleSelect field field_nr expr) = pp_state <#< expr <#<'.' <#< field_nr (<#<) pp_state WildCard = pp_state <#< '_' (<#<) pp_state (MatchExpr cons expr) = pp_state <#< cons <#< " =: " <#< expr (<#<) pp_state EE = pp_state <#< "** E **" (<#<) pp_state (NoBind _) = pp_state <#< "** NB **" (<#<) pp_state (FailExpr id) = pp_state <#< "** FAIL " <#< id <#< " **" (<#<) pp_state (DynamicExpr {dyn_expr,dyn_type_code}) = pp_state <#< "**dynamic " <#< dyn_expr /*<#< " :: dyn_uni_vars"*/ /*) dyn_uni_vars*/ <#< '\n' //<#< "dyn_type_code=" <#< dyn_type_code (<#<) pp_state (TypeCodeExpression type_code) = pp_state <#< type_code (<#<) pp_state (Constant symb _ _ _) = pp_state <#< "** Constant **" <#< symb (<#<) pp_state (ABCCodeExpr code_sequence do_inline) = pp_state <#< (if do_inline "code inline\n" "code\n") <#< code_sequence (<#<) pp_state (AnyCodeExpr input output code_sequence) = pp_state <#< "code\n" <#< input <#< '\n' <#< "" <#< output <#< '\n' <#< "" <#< code_sequence (<#<) pp_state (FreeVar {fv_ident}) = pp_state <#< fv_ident (<#<) pp_state (ClassVariable info_ptr) = pp_state <#< "ClassVariable " <#< ptrToInt info_ptr (<#<) pp_state expr = abort ("<#< (Expression) [line 1290]" ) instance <#< SelectorKind where (<#<) pp_state NormalSelector = pp_state <#< '.' (<#<) pp_state NormalSelectorUniqueElementResult = pp_state <#< '?' (<#<) pp_state UniqueSelector = pp_state <#< '!' instance <#< ParsedSelectorKind where (<#<) pp_state ParsedNormalSelector = pp_state <#< '.' (<#<) pp_state (ParsedUniqueSelector True) = pp_state <#< '?' (<#<) pp_state (ParsedUniqueSelector False) = pp_state <#< '!' instance <#< TypeCase where (<#<) pp_state {type_case_dynamic,type_case_patterns,type_case_default} = pp_state <#< "typecase " <#< type_case_dynamic <#< "of\n" <#< type_case_patterns <#< type_case_default instance <#< DynamicPattern where (<#<) pp_state {dp_type_patterns_vars,dp_var,dp_rhs,dp_type_code} = writeVarPtrs (pp_state <#< dp_var <#< " :: ") dp_type_patterns_vars <#< dp_type_code <#< " = " <#< dp_rhs writeVarPtrs pp_state [] = pp_state writeVarPtrs pp_state vars = write_var_ptrs (pp_state <#< '<') vars <#< '>' where write_var_ptrs pp_state [var] = pp_state <#< ptrToInt var write_var_ptrs pp_state [var : vars] = write_var_ptrs (pp_state <#< ptrToInt var <#< '.') vars instance <#< TypeCodeExpression where (<#<) pp_state TCE_Empty = pp_state (<#<) pp_state (TCE_Var info_ptr) = pp_state <#< "TCE_Var " <#< ptrToInt info_ptr (<#<) pp_state (TCE_TypeTerm info_ptr) = pp_state <#< "TCE_TypeTerm " <#< ptrToInt info_ptr (<#<) pp_state (TCE_Constructor index _ exprs) = pp_state <#< "TCE_Constructor " <#< index <#< ' ' <#< exprs (<#<) pp_state (TCE_Selector selectors info_ptr) = pp_state <#< "TCE_Selector " <#< selectors <#< "VAR " <#< ptrToInt info_ptr (<#<) pp_state (TCE_UniType info_ptrs expr) = pp_state <#< "TCE_UniType " instance <#< Selection where (<#<) pp_state (RecordSelection selector _) = pp_state <#< selector (<#<) pp_state (ArraySelection _ _ index_expr) = pp_state <#< '[' <#< index_expr <#< ']' (<#<) pp_state (DictionarySelection var selections _ index_expr) = pp_state <#< '(' <#< var <#< '.' <#< selections <#< ')' <#< '[' <#< index_expr <#< ']' instance <#< FunKind where (<#<) pp_state (FK_Function False) = pp_state <#< "FK_Function" (<#<) pp_state (FK_Function True) = pp_state <#< "Lambda" (<#<) pp_state FK_Macro = pp_state <#< "FK_Macro" (<#<) pp_state FK_Caf = pp_state <#< "FK_Caf" (<#<) pp_state FK_Unknown = pp_state <#< "FK_Unknown" instance <#< FunDef where (<#<) pp_state=:{function_index} {fun_ident,fun_body=TransformedBody {tb_args,tb_rhs},fun_info={fi_free_vars,fi_def_level,fi_calls}} # pp_state = pp_state <#< "\nFunction: " <#< fun_ident <#< '@' <#< function_index <#< '\n' <#< tb_args <#< '[' <#< fi_calls <#< ']' <#< " = " # pp_state = IndentLevelForward pp_state # pp_state = pp_state <#< '\n' <#< tb_rhs <#< '\n' # pp_state = IndentLevelBackward pp_state = pp_state (<#<) pp_state=:{function_index} {fun_ident,fun_body=NoBody,fun_type=Yes type} = pp_state <#< type <#< '\n' <#< fun_ident <#< '.' <#< function_index <#< "Array function\n" (<#<) pp_state=:{function_index} {fun_ident,fun_body=Expanding vars,fun_type=Yes type} = pp_state <#< type <#< '\n' <#< fun_ident <#< '.' <#< function_index <#< "Expanding function\n" instance <#< FunCall where (<#<) pp_state (FunCall fc_index fc_level) = pp_state <#< fc_index <#< '.' <#< fc_level (<#<) pp_state (DclFunCall fc_module fc_index) = pp_state <#< fc_index <#< ':' <#< fc_module (<#<) pp_state (MacroCall index1 index2 level) = pp_state <#< index1 <#< '.' <#< index2 <#< '.' <#< level instance <#< FreeVar where (<#<) pp_state {fv_ident,fv_info_ptr,fv_count} = pp_state <#< fv_ident <#< '.' <#< fv_count <#< '<' <#< ptrToInt fv_info_ptr <#< '>' instance <#< DynamicType where (<#<) pp_state {dt_uni_vars,dt_type} | isEmpty dt_uni_vars = pp_state <#< "DynamicType" <#< dt_type = pp_state <#< "DynamicType" <#< "A." <#< dt_uni_vars <#< ":" <#< dt_type instance <#< SignClassification where (<#<) pp_state {sc_pos_vect,sc_neg_vect} = write_signs pp_state sc_pos_vect sc_neg_vect 0 where write_signs pp_state sc_pos_vect sc_neg_vect index | sc_pos_vect == 0 && sc_neg_vect == 0 = pp_state # index_bit = (1 << index) | sc_pos_vect bitand index_bit == 0 | sc_neg_vect bitand index_bit == 0 = write_signs (pp_state <#< 'O') sc_pos_vect sc_neg_vect (inc index) = write_signs (pp_state <#< '-') sc_pos_vect (sc_neg_vect bitand (bitnot index_bit)) (inc index) | sc_neg_vect bitand index_bit == 0 = write_signs (pp_state <#< '+') (sc_pos_vect bitand (bitnot index_bit)) sc_neg_vect (inc index) = write_signs (pp_state <#< 'T') (sc_pos_vect bitand (bitnot index_bit)) (sc_neg_vect bitand (bitnot index_bit)) (inc index) instance <#< TypeKind where (<#<) pp_state (KindVar _) = pp_state <#< "**" (<#<) pp_state KindConst = pp_state <#< '*' (<#<) pp_state (KindArrow arity) = pp_state <#< "TypeKind" //write_kinds pp_state arity where write_kinds pp_state 1 = pp_state <#< "* -> *" write_kinds pp_state n = write_kinds (pp_state <#< "* -> ") (dec n) instance <#< GlobalIndex where (<#<) pp_state {gi_module,gi_index} = pp_state <#< gi_module <#< ':' <#< gi_index instance <#< TypeDefInfo where (<#<) pp_state {tdi_group,tdi_group_vars,tdi_cons_vars} = pp_state <#< '[' <#< tdi_group <#< '=' <#< tdi_group_vars <#< '=' <#< tdi_cons_vars <#< ']' instance <#< DefinedSymbol where (<#<) pp_state {ds_ident,ds_index} = pp_state <#< ds_ident instance <#< (TypeDef a) | <#< a where (<#<) pp_state {td_ident, td_args, td_rhs} = pp_state <#< ":: " <#< td_ident <#< ' ' <#< td_args <#< td_rhs instance <#< TypeRhs where (<#<) pp_state (SynType type) = pp_state <#< " :== " <#< type (<#<) pp_state (AlgType data) = pp_state <#< " = " <#< data (<#<) pp_state (RecordType record) = pp_state <#< " = " <#< '{' <#< record <#< '}' (<#<) pp_state _ = pp_state instance <#< RecordType where (<#<) pp_state {rt_fields} = iFoldSt (\index pp_state -> pp_state <#< rt_fields.[index]) 0 (size rt_fields) pp_state instance <#< FieldSymbol where (<#<) pp_state {fs_ident} = pp_state <#< fs_ident instance <#< InstanceType where (<#<) pp_state it = write_contexts it.it_context (pp_state <#< it.it_types) instance <#< ModuleKind where (<#<) pp_state kind = pp_state instance <#< ConsDef where (<#<) pp_state {cons_ident,cons_type} = pp_state <#< cons_ident <#< " :: " <#< cons_type instance <#< SelectorDef where (<#<) pp_state {sd__ident} = pp_state <#< sd__ident instance <#< ClassDef where (<#<) pp_state {class_ident} = pp_state <#< class_ident instance <#< ClassInstance where (<#<) pp_state {ins_class,ins_type} = pp_state <#< ins_class <#< " :: " <#< ins_type instance <#< (Optional a) | <#< a where (<#<) pp_state (Yes x) = pp_state <#< x (<#<) pp_state No = pp_state instance <#< (Module a) | <#< a where (<#<) pp_state {mod_ident,mod_type,mod_defs} = pp_state <#< mod_type <#< mod_ident <#< mod_defs instance <#< (CollectedDefinitions a b) | <#< a & <#< b where (<#<) pp_state {def_types,def_constructors,def_selectors,def_macros,def_classes,def_members,def_instances} = pp_state instance <#< IndexRange where (<#<) pp_state {ir_from,ir_to} | ir_from == ir_to = pp_state = pp_state <#< ir_from <#< "---" <#< ir_to instance <#< Ident where // (<#<) pp_state {id_name,id_index} = pp_state <#< id_name <#< '@' <#< id_index (<#<) pp_state {id_name,id_info} = pp_state <#< id_name instance <#< (Global a) | <#< a where (<#<) pp_state {glob_object,glob_module} = pp_state <#< glob_object instance <#< Position where (<#<) pp_state (FunPos pp_state_name line func) = pp_state <#< '[' <#< pp_state_name <#< ',' <#< line <#< ',' <#< func <#< ']' (<#<) pp_state (LinePos pp_state_name line) = pp_state <#< '[' <#< pp_state_name <#< ',' <#< line <#< ']' (<#<) pp_state _ = pp_state instance <#< TypeVarInfo where (<#<) pp_state TVI_Empty = pp_state <#< "TVI_Empty" (<#<) pp_state (TVI_Type _) = pp_state <#< "TVI_Type" (<#<) pp_state (TVI_Forward _) = pp_state <#< "TVI_Forward" (<#<) pp_state (TVI_TypeKind _) = pp_state <#< "TVI_TypeKind" (<#<) pp_state (TVI_SignClass _ _ _) = pp_state <#< "TVI_SignClass" (<#<) pp_state (TVI_PropClass _ _ _) = pp_state <#< "TVI_PropClass" instance <#< (Import from_symbol) | <#< from_symbol where (<#<) pp_state {import_module, import_symbols} = pp_state <#< "import " <#< import_module <#< import_symbols instance <#< ImportDeclaration where (<#<) pp_state (ID_Function ident) = pp_state <#< ident (<#<) pp_state (ID_Class ident optIdents) = pp_state <#< "class " <#< ident <#< optIdents (<#<) pp_state (ID_Type ident optIdents) = pp_state <#< ":: " <#< ident <#< optIdents (<#<) pp_state (ID_Record ident optIdents) = pp_state <#< ident <#< " { " <#< optIdents <#< " } " (<#<) pp_state (ID_Instance i1 i2 tup) = pp_state <#< "instance " <#< i1 <#< i2 <#< tup // !ImportedIdent !Ident !(![Type],![TypeContext]) instance <#< ImportedIdent where (<#<) pp_state {ii_ident, ii_extended} = pp_state <#< ii_ident <#< ' ' <#< ii_extended instance <#< TCClass where (<#<) pp_state (TCClass class_sym) = pp_state <#< "C: " <#< class_sym (<#<) pp_state (TCGeneric gen_sym) = pp_state <#< "TCGeneric ..." instance <#< VarInfo where (<#<) pp_state VI_Empty = pp_state <#< "VI_Empty" (<#<) pp_state l = pp_state <#< "VarInfo (unimplemented <#< VarInfo)" instance <#< {!a} | <#< a /* // */ & select_u, size_u, <#< a /* Clean 1.3 only */ /* // /* */ */ where (<#<) pp_state array # list = [0..dec (size array)] = (foldSt f list (pp_state <#< "{")) <#< "}" where f index pp_state # pp_state = pp_state <#< array.[index] # pp_state = case (index < dec (size array)) of True -> pp_state <#< ","; False -> pp_state = pp_state