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|
implementation module postparse
import StdEnv
import syntax, parse, utilities, containers, StdCompare
import genericsupport
:: *CollectAdmin =
{ ca_error :: !*ParseErrorAdmin
, ca_fun_count :: !Int
, ca_rev_fun_defs :: ![FunDef]
, ca_hash_table :: !*HashTable
}
cIsAGlobalDef :== True
cIsNotAGlobalDef :== False
predef_ident_expr :: Int -> ParsedExpr
predef_ident_expr index
= PE_Ident predefined_idents.[index]
optGuardedAltToRhs :: OptGuardedAlts -> Rhs
optGuardedAltToRhs optGuardedAlt
= { rhs_alts = optGuardedAlt
, rhs_locals = LocalParsedDefs []
}
exprToRhs expr
:== { rhs_alts = UnGuardedExpr (exprToExprWithLocalDefs expr)
, rhs_locals = LocalParsedDefs []
}
exprToExprWithLocalDefs expr
:== { ewl_nodes = []
, ewl_expr = expr
, ewl_locals = LocalParsedDefs []
, ewl_position= NoPos
}
prefixAndPositionToIdent :: !String !LineAndColumn !*CollectAdmin -> (!Ident, !*CollectAdmin)
prefixAndPositionToIdent prefix {lc_line, lc_column} ca=:{ca_hash_table}
# ({boxed_ident=ident}, ca_hash_table) = putIdentInHashTable (prefix +++ ";" +++ toString lc_line +++ ";" +++ toString lc_column) IC_Expression ca_hash_table
= (ident, { ca & ca_hash_table = ca_hash_table } )
prefixAndPositionToIdentExp :: !String !LineAndColumn !*CollectAdmin -> (!ParsedExpr, !*CollectAdmin)
prefixAndPositionToIdentExp prefix {lc_line, lc_column} ca=:{ca_hash_table}
# ({boxed_ident=ident}, ca_hash_table) = putIdentInHashTable (prefix +++ ";" +++ toString lc_line +++ ";" +++ toString lc_column) IC_Expression ca_hash_table
= (PE_Ident ident, { ca & ca_hash_table = ca_hash_table } )
(`) infixl 9
(`) f a
:== apply f (toParsedExpr a)
// apply :: ParsedExpr ParsedExpr -> ParsedExpr
apply :: ParsedExpr ParsedExpr -> ParsedExpr
apply (PE_List application) a
= PE_List (application ++ [a])
apply f a
= PE_List [f, a]
class toParsedExpr a :: !a -> ParsedExpr
instance toParsedExpr [a] | toParsedExpr a where
toParsedExpr []
= predef_ident_expr PD_NilSymbol
toParsedExpr [hd:tl]
= predef_ident_expr PD_ConsSymbol ` hd ` tl
instance toParsedExpr ParsedExpr where
toParsedExpr x
= x
instance toParsedExpr Int where
toParsedExpr x
= PE_Basic (BVInt x)
postParseError :: Position {#Char} *CollectAdmin -> *CollectAdmin
postParseError pos msg ps=:{ca_error={pea_file}}
# (filename, line, funname) = get_file_and_line_nr pos
pea_file = pea_file <<< "Error [" <<< filename <<< "," <<< line
pea_file = case funname of
Yes name -> pea_file <<< "," <<< name
No -> pea_file
pea_file = pea_file <<< "]: " <<< msg <<< ".\n"
= {ps & ca_error = { pea_file = pea_file, pea_ok = False }}
where
get_file_and_line_nr :: Position -> (FileName, LineNr, Optional FunctName)
get_file_and_line_nr (FunPos filename linenr funname)
= (filename, linenr, Yes funname)
get_file_and_line_nr (LinePos filename linenr)
= (filename, linenr, No)
addFunctionsRange :: [FunDef] *CollectAdmin -> (IndexRange, *CollectAdmin)
addFunctionsRange fun_defs ca
# (frm, ca) = ca!ca_fun_count
ca = foldSt add_function fun_defs ca
(to, ca) = ca!ca_fun_count
= ({ir_from = frm, ir_to = to}, ca)
where
add_function :: FunDef !*CollectAdmin -> *CollectAdmin
add_function fun_def ca=:{ca_fun_count, ca_rev_fun_defs}
= {ca & ca_fun_count = ca.ca_fun_count + 1
, ca_rev_fun_defs = [fun_def : ca.ca_rev_fun_defs]
}
MakeNewImpOrDefFunction name arity body kind prio opt_type pos
:== { fun_ident = name, fun_arity = arity, fun_priority = prio, fun_type = opt_type, fun_kind = kind,
fun_body = ParsedBody body, fun_pos = pos, fun_lifted = 0, fun_info = EmptyFunInfo }
class collectFunctions a :: a Bool !*CollectAdmin -> (a, !*CollectAdmin)
instance collectFunctions ParsedExpr
where
collectFunctions (PE_List exprs) icl_module ca
# (exprs, ca) = collectFunctions exprs icl_module ca
= (PE_List exprs, ca)
collectFunctions (PE_Bound bound_expr) icl_module ca
# (bound_expr, ca) = collectFunctions bound_expr icl_module ca
= (PE_Bound bound_expr, ca)
collectFunctions (PE_Lambda lam_ident args res pos) icl_module ca
# ((args,res), ca) = collectFunctions (args,res) icl_module ca
# (range, ca) = addFunctionsRange [transformLambda lam_ident args res pos] ca
= (PE_Let cIsStrict (CollectedLocalDefs { loc_functions = range, loc_nodes = [], loc_in_icl_module=icl_module })
(PE_Ident lam_ident), ca)
collectFunctions (PE_Record rec_expr type_ident fields) icl_module ca
# ((rec_expr,fields), ca) = collectFunctions (rec_expr,fields) icl_module ca
= (PE_Record rec_expr type_ident fields, ca)
collectFunctions (PE_Tuple exprs) icl_module ca
# (exprs, ca) = collectFunctions exprs icl_module ca
= (PE_Tuple exprs, ca)
collectFunctions (PE_Selection is_unique expr selectors) icl_module ca
# ((expr, selectors), ca) = collectFunctions (expr, selectors) icl_module ca
= (PE_Selection is_unique expr selectors, ca)
collectFunctions (PE_Update expr1 updates expr2) icl_module ca
# ((expr1, (updates, expr2)), ca) = collectFunctions (expr1, (updates, expr2)) icl_module ca
= (PE_Update expr1 updates expr2, ca)
collectFunctions (PE_Case case_ident pattern_expr case_alts) icl_module ca
# ((pattern_expr,case_alts), ca) = collectFunctions (pattern_expr,case_alts) icl_module ca
= (PE_Case case_ident pattern_expr case_alts, ca)
collectFunctions (PE_If if_ident c t e) icl_module ca
# case_alts = [ {calt_pattern = PE_Basic (BVB True), calt_rhs = exprToRhs t, calt_position=NoPos}
, {calt_pattern = PE_WildCard , calt_rhs = exprToRhs e, calt_position=NoPos}]
(c, ca) = collectFunctions c icl_module ca
(case_alts, ca) = collectFunctions case_alts icl_module ca
= (PE_Case if_ident c case_alts, ca)
collectFunctions (PE_Let strict locals in_expr) icl_module ca
# ((node_defs,in_expr), ca) = collectFunctions (locals,in_expr) icl_module ca
= (PE_Let strict node_defs in_expr, ca)
collectFunctions (PE_ListCompr predef_cons_index predef_nil_index expr qualifiers) icl_module ca
# (compr, ca) = transformListComprehension predef_cons_index predef_nil_index expr qualifiers ca
= collectFunctions compr icl_module ca
collectFunctions (PE_ArrayCompr array_kind expr qualifiers) icl_module ca
# (compr, ca) = transformArrayComprehension array_kind expr qualifiers ca
= collectFunctions compr icl_module ca
collectFunctions (PE_UpdateComprehension expr updateExpr identExpr qualifiers) icl_module ca
# (compr, ca) = transformUpdateComprehension [expr] [updateExpr] [identExpr] identExpr qualifiers ca
= collectFunctions compr icl_module ca
collectFunctions (PE_Sequ sequence) icl_module ca
= collectFunctions (transformSequence sequence) icl_module ca
collectFunctions (PE_ArrayDenot array_kind exprs) icl_module ca
= collectFunctions (transformArrayDenot array_kind exprs) icl_module ca
collectFunctions (PE_Dynamic exprs opt_dyn_type) icl_module ca
# (exprs, ca) = collectFunctions exprs icl_module ca
= (PE_Dynamic exprs opt_dyn_type, ca)
collectFunctions (PE_TypeSignature array_kind expr) icl_module ca
# (expr, ca) = collectFunctions expr icl_module ca
= (PE_TypeSignature array_kind expr,ca)
collectFunctions expr icl_module ca
= (expr, ca)
instance collectFunctions [a] | collectFunctions a
where
collectFunctions l icl_module ca
// = mapSt collectFunctions l icl_module ca
= map_st l ca
where
map_st [x : xs] s
# (x, s) = collectFunctions x icl_module s
(xs, s) = map_st xs s
#! s = s
= ([x : xs], s)
map_st [] s
= ([], s)
instance collectFunctions (a,b) | collectFunctions a & collectFunctions b
where
collectFunctions (x,y) icl_module ca
# (x, ca) = collectFunctions x icl_module ca
(y, ca) = collectFunctions y icl_module ca
= ((x,y), ca)
instance collectFunctions Qualifier
where
collectFunctions qual=:{qual_generators,qual_let_defs,qual_filter} icl_module ca
# (qual_let_defs, ca) = collectFunctions qual_let_defs icl_module ca
# ((qual_generators,qual_filter), ca) = collectFunctions (qual_generators,qual_filter) icl_module ca
= ({ qual & qual_generators = qual_generators, qual_filter = qual_filter }, ca)
instance collectFunctions Generator
where
collectFunctions gen=:{gen_pattern,gen_expr} icl_module ca
# ((gen_pattern,gen_expr), ca) = collectFunctions (gen_pattern,gen_expr) icl_module ca
= ({gen & gen_pattern = gen_pattern, gen_expr = gen_expr}, ca)
instance collectFunctions (Optional a) | collectFunctions a
where
collectFunctions (Yes expr) icl_module ca
# (expr, ca) = collectFunctions expr icl_module ca
= (Yes expr, ca)
collectFunctions No icl_module ca
= (No, ca)
instance collectFunctions ParsedSelection
where
collectFunctions (PS_Array index_expr) icl_module ca
# (index_expr, ca) = collectFunctions index_expr icl_module ca
= (PS_Array index_expr, ca)
collectFunctions expr icl_module ca
= (expr, ca)
instance collectFunctions CaseAlt
where
collectFunctions calt=:{calt_pattern,calt_rhs} icl_module ca
# ((calt_pattern,calt_rhs), ca) = collectFunctions (calt_pattern,calt_rhs) icl_module ca
= ({calt & calt_pattern = calt_pattern, calt_rhs = calt_rhs}, ca)
instance collectFunctions (Bind a b) | collectFunctions a & collectFunctions b
where
collectFunctions bind=:{bind_src,bind_dst} icl_module ca
# ((bind_src,bind_dst), ca) = collectFunctions (bind_src,bind_dst) icl_module ca
= ({bind & bind_src = bind_src, bind_dst = bind_dst }, ca)
instance collectFunctions OptGuardedAlts
where
collectFunctions (GuardedAlts guarded_exprs (Yes def_expr)) icl_module ca
# ((guarded_exprs, def_expr), ca) = collectFunctions (guarded_exprs, def_expr) icl_module ca
= (GuardedAlts guarded_exprs (Yes def_expr), ca)
collectFunctions (GuardedAlts guarded_exprs No) icl_module ca
# (guarded_exprs, ca) = collectFunctions guarded_exprs icl_module ca
= (GuardedAlts guarded_exprs No, ca)
collectFunctions (UnGuardedExpr unguarded_expr) icl_module ca
# (unguarded_expr, ca) = collectFunctions unguarded_expr icl_module ca
= (UnGuardedExpr unguarded_expr, ca)
instance collectFunctions GuardedExpr
where
collectFunctions alt=:{alt_nodes,alt_guard,alt_expr} icl_module ca
# ((alt_nodes, (alt_guard, alt_expr)), ca) =
collectFunctions (alt_nodes, (alt_guard, alt_expr)) icl_module ca
= ({alt & alt_nodes = alt_nodes, alt_guard = alt_guard, alt_expr = alt_expr}, ca)
instance collectFunctions ExprWithLocalDefs
where
collectFunctions expr=:{ewl_nodes, ewl_expr,ewl_locals} icl_module ca
# ((ewl_nodes, (ewl_expr, ewl_locals)), ca) = collectFunctions (ewl_nodes, (ewl_expr, ewl_locals)) icl_module ca
= ({expr & ewl_nodes = ewl_nodes, ewl_expr = ewl_expr, ewl_locals = ewl_locals}, ca)
instance collectFunctions NodeDefWithLocals
where
collectFunctions node_def=:{ndwl_def, ndwl_locals} icl_module ca
# (( ndwl_def, ndwl_locals), ca) = collectFunctions (ndwl_def, ndwl_locals) icl_module ca
= ({node_def & ndwl_def = ndwl_def, ndwl_locals = ndwl_locals}, ca)
instance collectFunctions Rhs
where
collectFunctions {rhs_alts, rhs_locals} icl_module ca
# ((rhs_alts, rhs_locals), ca) = collectFunctions (rhs_alts, rhs_locals) icl_module ca
= ({rhs_alts = rhs_alts, rhs_locals = rhs_locals}, ca)
instance collectFunctions LocalDefs
where
collectFunctions (LocalParsedDefs locals) icl_module ca
# (fun_defs, node_defs, ca) = reorganiseLocalDefinitions locals ca
(node_defs, ca) = collect_functions_in_node_defs node_defs ca
(fun_defs, ca) = collectFunctions fun_defs icl_module ca
(range, ca) = addFunctionsRange fun_defs ca
= (CollectedLocalDefs { loc_functions = range, loc_nodes = node_defs, loc_in_icl_module=icl_module }, ca)
where
reorganiseLocalDefinitions :: [ParsedDefinition] *CollectAdmin -> ([FunDef],[NodeDef ParsedExpr],*CollectAdmin)
reorganiseLocalDefinitions [PD_NodeDef pos pattern {rhs_alts,rhs_locals} : defs] ca
# (fun_defs, node_defs, ca) = reorganiseLocalDefinitions defs ca
= (fun_defs, [{ nd_dst = pattern, nd_alts = rhs_alts, nd_locals = rhs_locals, nd_position = pos } : node_defs], ca)
reorganiseLocalDefinitions [PD_Function pos name is_infix [] {rhs_alts, rhs_locals} FK_NodeDefOrFunction : defs] ca
# (fun_defs, node_defs, ca) = reorganiseLocalDefinitions defs ca
= (fun_defs, [{ nd_dst = PE_Ident name, nd_alts = rhs_alts, nd_locals = rhs_locals, nd_position = pos } : node_defs], ca)
reorganiseLocalDefinitions [PD_Function pos name is_infix args rhs fun_kind : defs] ca
# prio = if is_infix DefaultPriority NoPrio
fun_arity = length args
(bodies, fun_kind, defs, ca) = collectFunctionBodies name fun_arity prio fun_kind defs ca
(fun_defs, node_defs, ca) = reorganiseLocalDefinitions defs ca
fun = MakeNewImpOrDefFunction name fun_arity [{ pb_args = args, pb_rhs = rhs, pb_position = pos } : bodies ] fun_kind prio No pos
= ([ fun : fun_defs ], node_defs, ca)
reorganiseLocalDefinitions [PD_TypeSpec pos1 name1 prio type specials : defs] ca
= case defs of
[PD_Function pos name is_infix args rhs fun_kind : othe] // PK ..
| fun_kind == FK_Caf
# ca = postParseError pos "No typespecification for local graph definitions allowed" ca // .. PK
-> reorganiseLocalDefinitions (tl defs) ca
| belongsToTypeSpec name1 prio name is_infix
# fun_arity = determineArity args type
# (bodies, fun_kind, defs, ca) = collectFunctionBodies name1 fun_arity prio fun_kind defs ca
(fun_defs, node_defs, ca) = reorganiseLocalDefinitions defs ca
fun = MakeNewImpOrDefFunction name fun_arity bodies fun_kind prio type pos1
-> ([fun : fun_defs], node_defs, ca)
-> reorganiseLocalDefinitions defs (postParseError pos "function body expected" ca)
[PD_NodeDef pos pattern=:(PE_Ident id) rhs : defs]
| not (belongsToTypeSpec name1 prio id False)
-> reorganiseLocalDefinitions defs (postParseError pos "function body expected" ca)
| arity type<>0
-> reorganiseLocalDefinitions defs (postParseError pos "this alternative has not enough arguments" ca)
# (fun_defs, node_defs, ca) = reorganiseLocalDefinitions defs ca
fun = MakeNewImpOrDefFunction id 0
[{ pb_args = [], pb_rhs = rhs, pb_position = pos }]
(FK_Function cNameNotLocationDependent) prio type pos1
-> ([fun : fun_defs], node_defs, ca)
_
-> reorganiseLocalDefinitions defs (postParseError pos1 "function body expected" ca)
where
arity (Yes {st_arity}) = st_arity
arity No = 2 // it was specified as infix
reorganiseLocalDefinitions [] ca
= ([], [], ca)
collect_functions_in_node_defs :: [NodeDef ParsedExpr] *CollectAdmin -> ([NodeDef ParsedExpr],*CollectAdmin)
collect_functions_in_node_defs [ bind : node_defs ] ca
# (bind, ca) = collectFunctions bind icl_module ca
(node_defs, ca) = collect_functions_in_node_defs node_defs ca
= ([bind:node_defs], ca)
collect_functions_in_node_defs [] ca
= ([], ca)
// RWS ... +++ remove recollection
collectFunctions locals icl_module ca
= (locals, ca)
// ... RWS
instance collectFunctions (NodeDef a) | collectFunctions a
where
collectFunctions node_def=:{nd_dst,nd_alts,nd_locals} icl_module ca
# ((nd_dst,(nd_alts,nd_locals)), ca) = collectFunctions (nd_dst,(nd_alts,nd_locals)) icl_module ca
= ({ node_def & nd_dst = nd_dst, nd_alts = nd_alts, nd_locals = nd_locals }, ca)
instance collectFunctions Ident
where
collectFunctions e icl_module ca
= (e, ca)
instance collectFunctions FieldNameOrQualifiedFieldName
where
collectFunctions e icl_module ca
= (e, ca)
instance collectFunctions (ScannedInstanceAndMembersR FunDef) where
collectFunctions inst=:{sim_members} icl_module ca
# (sim_members, ca) = collectFunctions sim_members icl_module ca
= ({inst & sim_members = sim_members }, ca)
instance collectFunctions GenericCaseDef where
collectFunctions gc=:{gc_body=GCB_FunDef fun_def} icl_module ca
# (fun_def, ca) = collectFunctions fun_def icl_module ca
= ({gc & gc_body = GCB_FunDef fun_def}, ca)
collectFunctions gc=:{gc_body=GCB_None} icl_module ca
= (gc, ca)
instance collectFunctions FunDef where
collectFunctions fun_def=:{fun_body = ParsedBody bodies} icl_module ca
# (bodies, ca) = collectFunctions bodies icl_module ca
= ({fun_def & fun_body = ParsedBody bodies}, ca)
instance collectFunctions ParsedBody where
collectFunctions pb=:{pb_rhs} icl_module ca
# (pb_rhs, ca) = collectFunctions pb_rhs icl_module ca
= ({ pb & pb_rhs = pb_rhs }, ca)
NoCollectedLocalDefs :== CollectedLocalDefs { loc_functions = { ir_from = 0, ir_to = 0 }, loc_nodes = [], loc_in_icl_module=True }
transformLambda :: Ident [ParsedExpr] ParsedExpr Position -> FunDef
transformLambda lam_ident args result pos
# lam_rhs = { rhs_alts = UnGuardedExpr { ewl_nodes = [], ewl_expr = result, ewl_locals = NoCollectedLocalDefs, ewl_position = NoPos },
rhs_locals = NoCollectedLocalDefs }
lam_body = [{pb_args = args, pb_rhs = lam_rhs, pb_position = pos }]
= MakeNewImpOrDefFunction lam_ident (length args) lam_body (FK_Function cNameLocationDependent) NoPrio No pos
makeConsExpressionForGenerator :: GeneratorKind ParsedExpr ParsedExpr *CollectAdmin -> (ParsedExpr,*CollectAdmin)
makeConsExpressionForGenerator gen_kind a1 a2 ca
#! cons_id = predefined_idents.[case gen_kind of IsListGenerator -> PD_ConsSymbol ; _ -> PD_OverloadedConsSymbol]
= (PE_List [PE_Ident cons_id, a1, a2], ca)
makeNilExpression :: Int *CollectAdmin -> (ParsedExpr,*CollectAdmin)
makeNilExpression predef_nil_index ca
#! nil_id = predefined_idents.[predef_nil_index]
= (PE_Ident nil_id, ca)
makeConsExpression :: Int ParsedExpr ParsedExpr *CollectAdmin -> (ParsedExpr,*CollectAdmin)
makeConsExpression predef_cons_index a1 a2 ca
#! cons_id = predefined_idents.[predef_cons_index]
= (PE_List [PE_Ident cons_id, a1, a2], ca)
//get_predef_id :: Int -> Ident
get_predef_id predef_index :== predefined_idents.[predef_index]
// +++ change to accessor functions
:: TransformedGenerator =
{ tg_expr :: ([ParsedDefinition],[ParsedExpr])
, tg_lhs_arg :: [ParsedExpr]
, tg_case_end_expr :: ParsedExpr
, tg_case_end_pattern :: ParsedExpr
, tg_element :: ParsedExpr
, tg_element_is_uselect :: !Bool
, tg_pattern :: ParsedExpr
, tg_rhs_continuation :: [ParsedExpr]
, tg_case1 :: Ident
, tg_case2 :: Ident
}
:: IndexGenerator :== Optional (ParsedExpr,[([ParsedDefinition],ParsedExpr,ParsedExpr)])
is_zero_expression (PE_Basic (BVI "0")) = True
is_zero_expression (PE_Basic (BVInt 0)) = True
is_zero_expression _ = False
is_overloaded_list_generator IsOverloadedListGenerator = True
is_overloaded_list_generator _ = False
transformGenerator :: Generator String IndexGenerator *CollectAdmin -> (!TransformedGenerator,!IndexGenerator,!Int,!*CollectAdmin)
transformGenerator {gen_kind=IsArrayGenerator, gen_expr, gen_pattern, gen_position} qual_filename index_generator ca
# (array, ca) = prefixAndPositionToIdentExp "g_a" gen_position ca
(n, ca) = prefixAndPositionToIdentExp "g_s" gen_position ca
(n2, ca) = prefixAndPositionToIdentExp "g_s2" gen_position ca
(a2, ca) = prefixAndPositionToIdentExp "g_a2" gen_position ca
(gen_var_case1, ca) = prefixAndPositionToIdent "g_c1" gen_position ca
(gen_var_case2, ca) = prefixAndPositionToIdent "g_c2" gen_position ca
less_or_equal = get_predef_id PD_LessOrEqualFun
sub = get_predef_id PD_SubFun
usize = get_predef_id PD_UnqArraySizeFun
pattern = PE_Tuple [gen_pattern, array]
= case index_generator of
No
# (i, ca) = prefixAndPositionToIdentExp "g_i" gen_position ca
inc = get_predef_id PD_IncFun
# dec_n = PE_List [n,PE_Ident sub,PE_Basic (BVInt 1)]
# transformed_generator
= { tg_expr = ([PD_NodeDef (LinePos qual_filename gen_position.lc_line) (PE_Tuple [n,a2]) (exprToRhs (PE_List [PE_Ident usize, gen_expr]))],
[PE_Basic (BVInt 0),dec_n,a2])
, tg_lhs_arg = [i, n, array]
, tg_case_end_expr = PE_List [i,PE_Ident less_or_equal, n]
, tg_case_end_pattern = PE_Basic (BVB True)
, tg_element = PE_Selection (ParsedUniqueSelector True) array [PS_Array i]
, tg_element_is_uselect=True
, tg_pattern = pattern
, tg_rhs_continuation = [PE_List [PE_Ident inc, i], n, array]
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
-> (transformed_generator,Yes (i,[([],dec_n,n2)]),2,ca)
Yes (i,[])
# inc = get_predef_id PD_IncFun
# dec_n = PE_List [n,PE_Ident sub,PE_Basic (BVInt 1)]
# transformed_generator
= { tg_expr = ([PD_NodeDef (LinePos qual_filename gen_position.lc_line) (PE_Tuple [n,a2]) (exprToRhs (PE_List [PE_Ident usize, gen_expr]))],
[dec_n,a2])
, tg_lhs_arg = [n,array]
, tg_case_end_expr = PE_List [i,PE_Ident less_or_equal, n]
, tg_case_end_pattern = PE_Basic (BVB True)
, tg_element = PE_Selection (ParsedUniqueSelector True) array [PS_Array i]
, tg_element_is_uselect=True
, tg_pattern = pattern
, tg_rhs_continuation = [n,array]
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
-> (transformed_generator,Yes (i,[([],dec_n,n2)]),1,ca)
Yes (i,size_expressions)
# transformed_generator
= { tg_expr = ([],[a2])
, tg_lhs_arg = [array]
, tg_case_end_expr = PE_Empty
, tg_case_end_pattern = PE_Empty
, tg_element = PE_Selection (ParsedUniqueSelector True) array [PS_Array i]
, tg_element_is_uselect=True
, tg_pattern = pattern
, tg_rhs_continuation = [array]
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
# size_expression
=([PD_NodeDef (LinePos qual_filename gen_position.lc_line) (PE_Tuple [n,a2]) (exprToRhs (PE_List [PE_Ident usize, gen_expr]))],
(PE_List [n,PE_Ident sub,PE_Basic (BVInt 1)]),n2)
-> (transformed_generator,Yes (i,[size_expression:size_expressions]),0,ca)
transformGenerator {gen_kind, gen_expr=PE_Sequ (SQ_FromTo pd_from_to_index from_exp to_exp), gen_pattern, gen_position} qual_filename index_generator ca
| is_overloaded_list_generator gen_kind || pd_from_to_index==PD_FromTo
# (n, ca) = prefixAndPositionToIdentExp "g_s" gen_position ca
(gen_var_case1, ca) = prefixAndPositionToIdent "g_c1" gen_position ca
(gen_var_case2, ca) = prefixAndPositionToIdent "g_c2" gen_position ca
| is_zero_expression from_exp
= case index_generator of
No
# (i, ca) = prefixAndPositionToIdentExp "g_i" gen_position ca
# inc = get_predef_id PD_IncFun
less_or_equal = get_predef_id PD_LessOrEqualFun
# transformed_generator
= { tg_expr = ([],[from_exp,to_exp])
, tg_lhs_arg = [i,n]
, tg_case_end_expr = PE_List [i,PE_Ident less_or_equal,n]
, tg_case_end_pattern = PE_Basic (BVB True)
, tg_element = i
, tg_element_is_uselect=False
, tg_pattern = gen_pattern
, tg_rhs_continuation = [PE_List [PE_Ident inc, i], n]
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
-> (transformed_generator,Yes (i,[([],to_exp,n)]),2,ca)
Yes (i,[])
# inc = get_predef_id PD_IncFun
less_or_equal = get_predef_id PD_LessOrEqualFun
# transformed_generator
= { tg_expr = ([],[to_exp])
, tg_lhs_arg = [n]
, tg_case_end_expr = PE_List [i,PE_Ident less_or_equal,n]
, tg_case_end_pattern = PE_Basic (BVB True)
, tg_element = i
, tg_element_is_uselect=False
, tg_pattern = gen_pattern
, tg_rhs_continuation = [n]
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
-> (transformed_generator,Yes (i,[([],to_exp,n)]),1,ca)
Yes (i,size_expressions)
# transformed_generator
= { tg_expr = ([],[])
, tg_lhs_arg = []
, tg_case_end_expr = PE_Empty
, tg_case_end_pattern = PE_Empty
, tg_element = i
, tg_element_is_uselect=False
, tg_pattern = gen_pattern
, tg_rhs_continuation = []
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
-> (transformed_generator,Yes (i,[([],to_exp,n):size_expressions]),0,ca)
# (i, ca) = prefixAndPositionToIdentExp "g_i" gen_position ca
# inc = get_predef_id PD_IncFun
less_or_equal = get_predef_id PD_LessOrEqualFun
# transformed_generator
= { tg_expr = ([],[from_exp,to_exp])
, tg_lhs_arg = [i,n]
, tg_case_end_expr = PE_List [i,PE_Ident less_or_equal,n]
, tg_case_end_pattern = PE_Basic (BVB True)
, tg_element = i
, tg_element_is_uselect=False
, tg_pattern = gen_pattern
, tg_rhs_continuation = [PE_List [PE_Ident inc, i], n]
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
= (transformed_generator,index_generator,0,ca)
transformGenerator {gen_kind, gen_expr=PE_Sequ (SQ_From pd_from_index from_exp), gen_pattern, gen_position} qual_filename index_generator ca
| is_overloaded_list_generator gen_kind || pd_from_index==PD_From
# (gen_var_case1, ca) = prefixAndPositionToIdent "g_c1" gen_position ca
(gen_var_case2, ca) = prefixAndPositionToIdent "g_c2" gen_position ca
| is_zero_expression from_exp
= case index_generator of
No
# (i, ca) = prefixAndPositionToIdentExp "g_i" gen_position ca
# inc = get_predef_id PD_IncFun
# transformed_generator
= { tg_expr = ([],[from_exp])
, tg_lhs_arg = [i]
, tg_case_end_expr = PE_Empty
, tg_case_end_pattern = PE_Empty
, tg_element = i
, tg_element_is_uselect=False
, tg_pattern = gen_pattern
, tg_rhs_continuation = [PE_List [PE_Ident inc, i]]
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
-> (transformed_generator,Yes (i,[]),0,ca)
Yes (i,size_expressions)
# transformed_generator
= { tg_expr = ([],[])
, tg_lhs_arg = []
, tg_case_end_expr = PE_Empty
, tg_case_end_pattern = PE_Empty
, tg_element = i
, tg_element_is_uselect=False
, tg_pattern = gen_pattern
, tg_rhs_continuation = []
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
-> (transformed_generator,index_generator,0,ca)
# (i, ca) = prefixAndPositionToIdentExp "g_i" gen_position ca
# inc = get_predef_id PD_IncFun
# transformed_generator
= { tg_expr = ([],[from_exp])
, tg_lhs_arg = [i]
, tg_case_end_expr = PE_Empty
, tg_case_end_pattern = PE_Empty
, tg_element = i
, tg_element_is_uselect=False
, tg_pattern = gen_pattern
, tg_rhs_continuation = [PE_List [PE_Ident inc, i]]
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
= (transformed_generator,index_generator,0,ca)
transformGenerator {gen_kind, gen_expr, gen_pattern, gen_position} qual_filename index_generator ca
# (list, ca) = prefixAndPositionToIdentExp "g_l" gen_position ca
(hd, ca) = prefixAndPositionToIdentExp "g_h" gen_position ca
(tl, ca) = prefixAndPositionToIdentExp "g_t" gen_position ca
(gen_var_case1, ca) = prefixAndPositionToIdent "g_c1" gen_position ca
(gen_var_case2, ca) = prefixAndPositionToIdent "g_c2" gen_position ca
(cons, ca) = makeConsExpressionForGenerator gen_kind hd tl ca
# transformed_generator
= { tg_expr = ([],[gen_expr])
, tg_lhs_arg = [list]
, tg_case_end_expr = list
, tg_case_end_pattern = cons
, tg_element = hd
, tg_element_is_uselect=False
, tg_pattern = gen_pattern
, tg_rhs_continuation = [tl]
, tg_case1 = gen_var_case1, tg_case2 = gen_var_case2
}
= (transformed_generator,index_generator,0,ca)
transformGenerators :: [Generator] String IndexGenerator *CollectAdmin -> (![TransformedGenerator],!IndexGenerator,!*CollectAdmin)
transformGenerators [generator:generators] qual_filename index_generator ca
# (transformed_generator,index_generator,index_argument_n,ca) = transformGenerator generator qual_filename index_generator ca
| index_argument_n>0
# (transformed_generators,index_generator,ca) = transformGenerators generators qual_filename index_generator ca
# (node_defs,size_exp,_,ca) = compute_minimum_of_sizes index_generator generator.gen_position qual_filename ca
# transformed_generator = store_minimum_of_sizes_in_generator node_defs size_exp index_argument_n transformed_generator
= ([transformed_generator:transformed_generators],index_generator,ca)
# (transformed_generators,index_generator,ca) = transformGenerators generators qual_filename index_generator ca
= ([transformed_generator:transformed_generators],index_generator,ca)
transformGenerators [] qual_filename index_generator ca
= ([],index_generator,ca)
transformGeneratorsAndReturnSize :: [Generator] String IndexGenerator ParsedExpr *CollectAdmin -> (![TransformedGenerator],!IndexGenerator,!ParsedExpr,!*CollectAdmin)
transformGeneratorsAndReturnSize [generator:generators] qual_filename index_generator size_exp ca
# (transformed_generator,index_generator,index_argument_n,ca) = transformGenerator generator qual_filename index_generator ca
| index_argument_n>0
# (transformed_generators,index_generator,_,ca) = transformGeneratorsAndReturnSize generators qual_filename index_generator size_exp ca
# (node_defs,size_exp,ident,ca) = compute_minimum_of_sizes index_generator generator.gen_position qual_filename ca
# (node_defs,size_exp) = case size_exp of
PE_Ident _
-> (node_defs,size_exp)
_
-> (node_defs++[PD_NodeDef (LinePos qual_filename generator.gen_position.lc_line) ident (exprToRhs size_exp)],ident)
# transformed_generator = store_minimum_of_sizes_in_generator node_defs size_exp index_argument_n transformed_generator
# inc = get_predef_id PD_IncFun
# size_exp = PE_List [PE_Ident inc,size_exp]
= ([transformed_generator:transformed_generators],index_generator,size_exp,ca)
# (transformed_generators,index_generator,size_exp,ca) = transformGeneratorsAndReturnSize generators qual_filename index_generator size_exp ca
= ([transformed_generator:transformed_generators],index_generator,size_exp,ca)
transformGeneratorsAndReturnSize [] qual_filename index_generator size_exp ca
= ([],index_generator,size_exp,ca)
compute_minimum_of_sizes :: IndexGenerator LineAndColumn String *CollectAdmin -> *(![ParsedDefinition],!ParsedExpr,!ParsedExpr,!*CollectAdmin);
compute_minimum_of_sizes (Yes (i,sizes)) gen_position qual_filename ca
= compute_minimum (reverse sizes) 1 ca
where
compute_minimum [(node_defs,exp,ident)] n ca
= (node_defs,exp,ident,ca)
compute_minimum [(node_defs1,exp1,ident1):sizes] n ca
# (node_defs2,exp2,ident2,ca) = compute_minimum sizes (n+1) ca
# node_defs=node_defs1++node_defs2
# (to_exp,ca)=minimum exp1 exp2 ca
with
minimum ident1=:(PE_Ident _) ident2=:(PE_Ident _) ca
= minimum_of_idents ident1 ident2 ca
minimum exp1 ident2=:(PE_Ident _) ca
# node_def1 = PD_NodeDef (LinePos qual_filename gen_position.lc_line) ident1 (exprToRhs exp1)
# (min_exp,ca) = minimum_of_idents ident1 ident2 ca
= (PE_Let cIsNotStrict (LocalParsedDefs [node_def1]) min_exp,ca)
minimum ident1=:(PE_Ident _) exp2 ca
# node_def2 = PD_NodeDef (LinePos qual_filename gen_position.lc_line) ident2 (exprToRhs exp2)
# (min_exp,ca) = minimum_of_idents ident1 ident2 ca
= (PE_Let cIsNotStrict (LocalParsedDefs [node_def2]) min_exp,ca)
minimum exp1 exp2 ca
# pos = LinePos qual_filename gen_position.lc_line
# node_def1 = PD_NodeDef pos ident1 (exprToRhs exp1)
# node_def2 = PD_NodeDef pos ident2 (exprToRhs exp2)
# (min_exp,ca) = minimum_of_idents ident1 ident2 ca
= (PE_Let cIsNotStrict (LocalParsedDefs [node_def1,node_def2]) min_exp,ca)
minimum_of_idents ident1 ident2 ca
# smaller_fun = get_predef_id PD_SmallerFun
# (case_ident,ca) = prefixAndPositionToIdent ("g_s"+++toString n) gen_position ca
# pos = LinePos qual_filename gen_position.lc_line
= (PE_Case case_ident (PE_List [ident1,PE_Ident smaller_fun,ident2])
[{calt_pattern = PE_Basic (BVB True), calt_rhs = exprToRhs ident1, calt_position=pos},
{calt_pattern = PE_WildCard, calt_rhs = exprToRhs ident2, calt_position=pos}],ca)
= (node_defs,to_exp,ident1,ca)
store_minimum_of_sizes_in_generator :: [ParsedDefinition] ParsedExpr Int TransformedGenerator -> TransformedGenerator;
store_minimum_of_sizes_in_generator node_defs size_exp index_argument_n generator=:{tg_expr=(exp_node_defs,exps)}
# exps=replace_exp_n index_argument_n exps
with
replace_exp_n 1 [e:l] = [size_exp:l]
replace_exp_n n [e:l] = [e: replace_exp_n (n-1) l]
= {generator & tg_expr=(node_defs++exp_node_defs,exps)}
:: TransformedQualifier =
{ tq_generators :: [TransformedGenerator]
, tq_call :: ParsedExpr
, tq_lhs_args :: [ParsedExpr]
, tq_let_defs :: LocalDefs
, tq_filter :: Optional ParsedExpr
, tq_continue :: ParsedExpr
, tq_success :: ParsedExpr
, tq_end :: ParsedExpr
, tq_fun_id :: Ident
, tq_fun_pos :: !Position
}
rhs_continuation_args_from_generators generators
= [arg \\ generator<-generators, arg<-generator.tg_rhs_continuation]
expr_args_from_generators generators
= [arg \\ {tg_expr=(_,args)}<-generators, arg<-args]
lhs_args_from_generators generators
= [arg \\ generator<-generators, arg<-generator.tg_lhs_arg]
add_node_defs_to_exp [] exp
= exp
add_node_defs_to_exp [{tg_expr=([],_)}:generators] exp
= add_node_defs_to_exp generators exp
add_node_defs_to_exp [{tg_expr=(node_defs,_)}:generators] exp
= PE_Let cIsNotStrict (LocalParsedDefs node_defs) (add_node_defs_to_exp generators exp)
transformQualifier :: Qualifier *CollectAdmin -> (TransformedQualifier, *CollectAdmin)
transformQualifier {qual_generators,qual_let_defs,qual_filter, qual_position, qual_filename} ca
# (transformedGenerators,index_generator,ca) = transformGenerators qual_generators qual_filename No ca
# (qual_fun_id, ca) = prefixAndPositionToIdent "c" qual_position ca
= ({ tq_generators = transformedGenerators
, tq_call = add_node_defs_to_exp transformedGenerators (PE_List [PE_Ident qual_fun_id : expr_args_from_generators transformedGenerators])
, tq_lhs_args = lhs_args_from_generators transformedGenerators
, tq_let_defs = qual_let_defs
, tq_filter = qual_filter
, tq_continue = PE_List [PE_Ident qual_fun_id : rhs_continuation_args_from_generators transformedGenerators]
, tq_success = PE_Empty
, tq_end = PE_Empty
, tq_fun_id = qual_fun_id
, tq_fun_pos = LinePos qual_filename qual_position.lc_line
}, ca)
// =array&callArray are misnomers (can also be records)
transformUpdateQualifier :: [ParsedExpr] [ParsedExpr] Qualifier *CollectAdmin -> (TransformedQualifier, *CollectAdmin)
transformUpdateQualifier array callArray {qual_generators,qual_let_defs,qual_filter, qual_position, qual_filename} ca
# (transformedGenerators,index_generator,ca) = transformGenerators qual_generators qual_filename No ca
= CreateTransformedQualifierFromTransformedGenerators transformedGenerators array callArray qual_let_defs qual_filter qual_position qual_filename ca
CreateTransformedQualifierFromTransformedGenerators transformedGenerators array callArray qual_let_defs qual_filter qual_position qual_filename ca
# (qual_fun_id, ca) = prefixAndPositionToIdent "cu" qual_position ca
= ({ tq_generators = transformedGenerators
, tq_call = add_node_defs_to_exp transformedGenerators (PE_List [PE_Ident qual_fun_id : callArray ++ expr_args_from_generators transformedGenerators])
, tq_lhs_args = array ++ lhs_args_from_generators transformedGenerators
, tq_let_defs=qual_let_defs
, tq_filter = qual_filter
, tq_continue = PE_List [PE_Ident qual_fun_id : array ++ rhs_continuation_args_from_generators transformedGenerators]
, tq_success = PE_Empty
, tq_end = PE_Empty
, tq_fun_id = qual_fun_id
, tq_fun_pos = LinePos qual_filename qual_position.lc_line
}, ca)
transformListComprehension :: Int Int ParsedExpr [Qualifier] *CollectAdmin -> (ParsedExpr, *CollectAdmin)
transformListComprehension predef_cons_index predef_nil_index expr qualifiers ca
# (transformed_qualifiers, ca) = mapSt transformQualifier qualifiers ca
(success, ca) = makeConsExpression predef_cons_index expr (last transformed_qualifiers).tq_continue ca
(nil, ca) = makeNilExpression predef_nil_index ca
transformed_qualifiers
= [ {qual & tq_success = success, tq_end = end}
\\ qual <- transformed_qualifiers
& success <- [qual.tq_call \\ qual <- tl transformed_qualifiers] ++ [success]
& end <- [nil : [qual.tq_continue \\ qual <- transformed_qualifiers]]
]
= makeComprehensions transformed_qualifiers success [] ca
transformArrayComprehension :: ArrayKind ParsedExpr [Qualifier] *CollectAdmin -> (ParsedExpr, *CollectAdmin)
transformArrayComprehension array_kind expr qualifiers ca
# [hd_qualifier:_] = qualifiers
qual_position = hd_qualifier.qual_position
(c_i_ident_exp, ca) = prefixAndPositionToIdentExp "c_i" qual_position ca
(c_a_ident_exp, ca) = prefixAndPositionToIdentExp "c_a" qual_position ca
create_array_expr = predef_ident_expr PD__CreateArrayFun
| same_index_for_update_and_array_generators qualifiers
# index_generator = {gen_kind=IsListGenerator, gen_pattern=c_i_ident_exp, gen_expr=PE_Sequ (SQ_From PD_From (PE_Basic (BVInt 0))), gen_position=qual_position}
# update = PE_Update c_a_ident_exp [PS_Array c_i_ident_exp] expr
| size_of_generators_can_be_computed_quickly qualifiers
# {qual_generators,qual_let_defs,qual_filter,qual_position,qual_filename} = hd_qualifier
# qual_generators = [index_generator : qual_generators]
# (transformedGenerators,index_generator,size_exp,ca) = transformGeneratorsAndReturnSize qual_generators qual_filename No PE_Empty ca
# new_array = PE_List [create_array_expr,size_exp]
new_array = cast_array_kind array_kind new_array
# (transformed_qualifier,ca) = CreateTransformedQualifierFromTransformedGenerators transformedGenerators [c_a_ident_exp] [new_array] qual_let_defs qual_filter qual_position qual_filename ca
= makeUpdateComprehensionFromTransFormedQualifiers [update] [c_a_ident_exp] c_a_ident_exp [transformed_qualifier] ca
# (length, ca) = computeSize qualifiers qual_position hd_qualifier.qual_filename ca
# new_array = PE_List [create_array_expr,length]
new_array = cast_array_kind array_kind new_array
qualifiers = [{hd_qualifier & qual_generators = [index_generator : hd_qualifier.qual_generators] }]
= transformUpdateComprehension [new_array] [update] [c_a_ident_exp] c_a_ident_exp qualifiers ca
# (length, ca) = computeSize qualifiers qual_position hd_qualifier.qual_filename ca
# new_array = PE_List [create_array_expr,length]
new_array = cast_array_kind array_kind new_array
# inc = get_predef_id PD_IncFun
new_array_and_index = [new_array,PE_Basic (BVInt 0)]
update = [PE_Update c_a_ident_exp [PS_Array c_i_ident_exp] expr,PE_List [PE_Ident inc,c_i_ident_exp]]
= transformUpdateComprehension new_array_and_index update [c_a_ident_exp,c_i_ident_exp] c_a_ident_exp qualifiers ca
All p l :== all l
where
all [] = True
all [b : tl] = p b && all tl
pattern_will_always_match (PE_Ident _)
= True;
pattern_will_always_match (PE_Tuple tuple_args)
= All pattern_will_always_match tuple_args
pattern_will_always_match _
= False
patterns_in_generator_will_always_match {gen_pattern}
= pattern_will_always_match gen_pattern
same_index_for_update_and_array_generators [{qual_generators,qual_filter=No}]
= All patterns_in_generator_will_always_match qual_generators
same_index_for_update_and_array_generators _
= False
transformUpdateQualifiers :: [ParsedExpr] [ParsedExpr] [Qualifier] *CollectAdmin -> *(![TransformedQualifier],!*CollectAdmin);
transformUpdateQualifiers identExprs exprs [first_qualifier:rest_qualifiers] ca
# (transformed_first_qualifier,ca) = transformUpdateQualifier identExprs exprs first_qualifier ca
(transformed_rest_qualifiers,ca) = mapSt (transformUpdateQualifier identExprs identExprs) rest_qualifiers ca
= ([transformed_first_qualifier : transformed_rest_qualifiers],ca)
makeUpdateOrSizeComprehension transformed_qualifiers success identExprs result_expr ca
# transformed_qualifiers
= [ {qual & tq_success = success, tq_end = end}
\\ qual <- transformed_qualifiers
& success <- [qual.tq_call \\ qual <- tl transformed_qualifiers] ++ [success]
& end <- [result_expr : [qual.tq_continue \\ qual <- transformed_qualifiers]]
]
= makeComprehensions transformed_qualifiers success identExprs ca
size_of_generator_can_be_computed_quickly {gen_pattern,gen_kind=IsArrayGenerator}
= pattern_will_always_match gen_pattern
size_of_generator_can_be_computed_quickly {gen_pattern,gen_kind=IsListGenerator,gen_expr=PE_Sequ (SQ_FromTo PD_FromTo (PE_Basic (BVInt 0)) to_exp)}
= pattern_will_always_match gen_pattern
size_of_generator_can_be_computed_quickly {gen_pattern,gen_kind=IsListGenerator,gen_expr=PE_Sequ (SQ_From PD_From from_exp)}
= pattern_will_always_match gen_pattern
size_of_generator_can_be_computed_quickly {gen_pattern,gen_kind=IsOverloadedListGenerator,gen_expr=PE_Sequ (SQ_FromTo _ (PE_Basic (BVInt 0)) to_exp)}
= pattern_will_always_match gen_pattern
size_of_generator_can_be_computed_quickly {gen_pattern,gen_kind=IsOverloadedListGenerator,gen_expr=PE_Sequ (SQ_From _ from_exp)}
= pattern_will_always_match gen_pattern
size_of_generator_can_be_computed_quickly _
= False
size_of_generators_can_be_computed_quickly qualifiers=:[qualifier=:{qual_generators,qual_filter=No}]
= All size_of_generator_can_be_computed_quickly qual_generators && not (All is_from_generator qual_generators)
where
is_from_generator {gen_pattern,gen_kind=IsListGenerator,gen_expr=PE_Sequ (SQ_From _ from_exp)}
= True
is_from_generator {gen_pattern,gen_kind=IsOverloadedListGenerator,gen_expr=PE_Sequ (SQ_From _ from_exp)}
= True
is_from_generator _
= False
size_of_generators_can_be_computed_quickly _
= False
computeSize :: [Qualifier] LineAndColumn FileName *CollectAdmin -> (!ParsedExpr,!*CollectAdmin)
computeSize qualifiers qual_position qual_filename ca
# (counter_ident_exp, ca) = prefixAndPositionToIdentExp "c_l_i" qual_position ca
(transformed_qualifiers,ca) = transformUpdateQualifiers [counter_ident_exp] [PE_Basic (BVInt 0)] qualifiers ca
inc = get_predef_id PD_IncFun
success = insert_inc_in_inner_loop (last transformed_qualifiers).tq_continue
with
insert_inc_in_inner_loop (PE_List [f, a : args])
= PE_List [f, PE_List [PE_Ident inc,a] : args]
= makeUpdateOrSizeComprehension transformed_qualifiers success [counter_ident_exp] counter_ident_exp ca
transformUpdateComprehension :: [ParsedExpr] [ParsedExpr] [ParsedExpr] ParsedExpr [Qualifier] *CollectAdmin -> (!ParsedExpr,!*CollectAdmin)
transformUpdateComprehension exprs updateExprs identExprs result_expr qualifiers ca
# (transformed_qualifiers,ca) = transformUpdateQualifiers identExprs exprs qualifiers ca
= makeUpdateComprehensionFromTransFormedQualifiers updateExprs identExprs result_expr transformed_qualifiers ca
makeUpdateComprehensionFromTransFormedQualifiers :: [ParsedExpr] [ParsedExpr] ParsedExpr [TransformedQualifier] *CollectAdmin -> *(!ParsedExpr,!*CollectAdmin);
makeUpdateComprehensionFromTransFormedQualifiers updateExprs identExprs result_expr transformed_qualifiers ca
# success
// +++ remove hack
= this_is_definitely_a_hack (last transformed_qualifiers).tq_continue updateExprs
with
this_is_definitely_a_hack (PE_List [f : args]) updateExprs
= PE_List [f : replace_args updateExprs args]
with
replace_args [] args = args
replace_args [e:l] [a:args] = [e:replace_args l args]
= makeUpdateOrSizeComprehension transformed_qualifiers success identExprs result_expr ca
// +++ rewrite threading
makeComprehensions :: [TransformedQualifier] ParsedExpr [ParsedExpr] *CollectAdmin -> (ParsedExpr, *CollectAdmin)
makeComprehensions [] success _ ca
= (success, ca)
makeComprehensions [{tq_generators,tq_let_defs,tq_filter, tq_end, tq_call, tq_lhs_args, tq_fun_id, tq_fun_pos} : qualifiers] success threading ca
# (success, ca) = makeComprehensions qualifiers success threading ca
# failure = PE_List [PE_Ident tq_fun_id : threading ++ rhs_continuation_args_from_generators tq_generators]
rhs = build_rhs tq_generators success tq_let_defs tq_filter failure tq_end tq_fun_pos
parsed_def = MakeNewParsedDef tq_fun_id tq_lhs_args rhs tq_fun_pos
= (PE_Let cIsStrict (LocalParsedDefs [parsed_def]) tq_call, ca)
where
build_rhs :: [TransformedGenerator] ParsedExpr LocalDefs (Optional ParsedExpr) ParsedExpr ParsedExpr Position -> Rhs
build_rhs [generator : generators] success let_defs optional_filter failure end fun_pos
# rhs2 = foldr (case_end end)
(case_with_default generator.tg_case2 generator.tg_element generator.tg_element_is_uselect generator.tg_pattern
(foldr (case_pattern failure) rhs generators)
failure)
generators
= case_with_default generator.tg_case1 generator.tg_case_end_expr False generator.tg_case_end_pattern rhs2 end
where
rhs
= case optional_filter of
Yes filter
-> {rhs_alts = GuardedAlts [
{alt_nodes = [], alt_guard = filter, alt_expr = UnGuardedExpr
{ewl_nodes = [], ewl_expr = success, ewl_locals = LocalParsedDefs [], ewl_position = NoPos },
alt_ident = { id_name ="_f;" +++ toString line_nr +++ ";", id_info = nilPtr },
alt_position = NoPos}] No
, rhs_locals = let_defs}
No
-> {rhs_alts=UnGuardedExpr {ewl_nodes=[],ewl_expr=success,ewl_locals=LocalParsedDefs [],ewl_position=NoPos},rhs_locals=let_defs}
(LinePos _ line_nr) = fun_pos
case_end :: ParsedExpr TransformedGenerator Rhs -> Rhs
case_end end {tg_case1, tg_case_end_expr, tg_case_end_pattern} rhs
= case_with_default tg_case1 tg_case_end_expr False tg_case_end_pattern rhs end
case_pattern :: ParsedExpr TransformedGenerator Rhs -> Rhs
case_pattern failure {tg_case2, tg_element,tg_element_is_uselect, tg_pattern} rhs
= case_with_default tg_case2 tg_element tg_element_is_uselect tg_pattern rhs failure
case_with_default :: Ident ParsedExpr Bool ParsedExpr Rhs ParsedExpr -> Rhs
case_with_default case_ident expr expr_is_uselect pattern=:(PE_Ident ident) rhs=:{rhs_alts=UnGuardedExpr ung_exp=:{ewl_nodes,ewl_expr,ewl_locals=LocalParsedDefs [],ewl_position},rhs_locals=LocalParsedDefs []} default_rhs
# new_node={ndwl_strict=False,ndwl_def={bind_src=expr,bind_dst=pattern},ndwl_locals=LocalParsedDefs [],ndwl_position=ewl_position}
= {rhs & rhs_alts=UnGuardedExpr {ung_exp & ewl_nodes=[new_node:ewl_nodes]}}
case_with_default case_ident expr True pattern=:(PE_Tuple [PE_Ident ident1,ident2_exp=:PE_Ident ident2]) rhs=:{rhs_alts=UnGuardedExpr ung_exp=:{ewl_nodes,ewl_expr,ewl_locals=LocalParsedDefs [],ewl_position},rhs_locals=LocalParsedDefs []} default_rhs
# new_node1={ndwl_strict=False,ndwl_def={bind_src=expr,bind_dst=pattern},ndwl_locals=LocalParsedDefs [],ndwl_position=ewl_position}
# new_node2={ndwl_strict=True,ndwl_def={bind_src=ident2_exp,bind_dst=ident2_exp},ndwl_locals=LocalParsedDefs [],ndwl_position=ewl_position}
= {rhs & rhs_alts=UnGuardedExpr {ung_exp & ewl_nodes=[new_node1,new_node2:ewl_nodes]}}
case_with_default case_ident expr expr_is_uselect PE_Empty rhs default_rhs
= rhs
case_with_default case_ident expr expr_is_uselect pattern rhs default_rhs
= exprToRhs (PE_Case case_ident expr
[ {calt_pattern = pattern, calt_rhs = rhs, calt_position=NoPos}
, {calt_pattern = PE_WildCard, calt_rhs = exprToRhs default_rhs, calt_position=NoPos}
])
transformSequence :: Sequence -> ParsedExpr
transformSequence (SQ_FromThen pd_from_then frm then)
= predef_ident_expr pd_from_then ` frm ` then
transformSequence (SQ_FromThenTo pd_from_then_to frm then to)
= predef_ident_expr pd_from_then_to ` frm ` then ` to
transformSequence (SQ_From pd_from frm)
= predef_ident_expr pd_from ` frm
transformSequence (SQ_FromTo pd_from_to frm to)
= predef_ident_expr pd_from_to ` frm ` to
transformArrayUpdate :: ParsedExpr [Bind ParsedExpr ParsedExpr] -> ParsedExpr
transformArrayUpdate expr updates
= foldr (update (predef_ident_expr PD_ArrayUpdateFun)) expr updates
where
update :: ParsedExpr (Bind ParsedExpr ParsedExpr) ParsedExpr -> ParsedExpr
update updateIdent {bind_src=value, bind_dst=index} expr
= updateIdent ` expr ` index ` value
transformArrayDenot :: ArrayKind [ParsedExpr] -> ParsedExpr
transformArrayDenot array_kind exprs
# create_array_call=cast_array_kind array_kind (predef_ident_expr PD__CreateArrayFun ` length exprs)
= transformArrayUpdate
create_array_call
[{bind_dst=toParsedExpr i, bind_src=expr} \\ expr <- exprs & i <- [0..]]
cast_array_kind OverloadedArray array_expr = array_expr
cast_array_kind array_kind array_expr = PE_TypeSignature array_kind array_expr
scanModules :: [ParsedImport] [ScannedModule] [Ident] SearchPaths Bool Bool (ModTimeFunction *Files) *Files *CollectAdmin -> (Bool, [ScannedModule],*Files, *CollectAdmin)
scanModules [] parsed_modules cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
= (True, parsed_modules,files, ca)
scanModules [{import_module,import_file_position} : mods] parsed_modules cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
| in_cache import_module cached_modules
= scanModules mods parsed_modules cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
# (found_module,mod_type) = try_to_find import_module parsed_modules
| found_module
= case mod_type of
MK_NoMainDcl
# ca = postParseError import_file_position ("main module \'"+++import_module.id_name+++"\' does not have a definition module") ca
# (_,parsed_modules,files,ca) = scanModules mods parsed_modules cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
-> (False,parsed_modules,files,ca)
_
-> scanModules mods parsed_modules cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
# (succ, parsed_modules,files, ca)
= parseAndScanDclModule import_module import_file_position parsed_modules cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
(mods_succ, parsed_modules,files, ca)
= scanModules mods parsed_modules cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
= (succ && mods_succ, parsed_modules,files, ca)
where
in_cache mod_id []
= False
in_cache mod_id [cached_module_ident : pmods]
| mod_id==cached_module_ident
=True
= in_cache mod_id pmods
try_to_find :: Ident [ScannedModule] -> (Bool,ModuleKind)
try_to_find mod_id []
= (False,MK_None)
try_to_find mod_id [pmod : pmods]
| mod_id == pmod.mod_ident
= (True,pmod.mod_type)
= try_to_find mod_id pmods
MakeEmptyModule name mod_type
:== { mod_ident = name, mod_modification_time = "", mod_type = mod_type, mod_imports = [], mod_imported_objects = [],mod_foreign_exports=[],mod_defs =
{ def_types = [], def_constructors = [], def_selectors = [], def_classes = [], def_macro_indices={ir_from=0,ir_to=0},
def_macros=[],def_members = [], def_funtypes = [], def_instances = [],
def_generics = [], def_generic_cases = []} }
parseAndScanDclModule :: !Ident !Position ![ScannedModule] ![Ident] !SearchPaths !Bool Bool (ModTimeFunction *Files) !*Files !*CollectAdmin
-> *(!Bool, ![ScannedModule],!*Files, !*CollectAdmin)
parseAndScanDclModule dcl_module import_file_position parsed_modules cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
# {ca_error, ca_hash_table} = ca
# (parse_ok,dynamic_type_used,mod, ca_hash_table, err_file, files) = wantModule cWantDclFile dcl_module import_file_position support_generics ca_hash_table ca_error.pea_file searchPaths modtimefunction files
# ca = {ca & ca_hash_table=ca_hash_table, ca_error={pea_file=err_file,pea_ok=True} }
| parse_ok
= scan_dcl_module dcl_module mod parsed_modules searchPaths modtimefunction files ca
= (False, [MakeEmptyModule mod.mod_ident MK_None: parsed_modules],files, ca)
where
scan_dcl_module :: Ident ParsedModule [ScannedModule] !SearchPaths (ModTimeFunction *Files) *Files *CollectAdmin -> (Bool, [ScannedModule],*Files, *CollectAdmin)
scan_dcl_module dcl_module mod=:{mod_defs = pdefs} parsed_modules searchPaths modtimefunction files ca
# (_, defs, imports, imported_objects,foreign_exports,ca)
= reorganiseDefinitionsAndAddTypes dcl_module support_dynamics False pdefs ca
(def_macros, ca) = collectFunctions defs.def_macros False {ca & ca_fun_count=0,ca_rev_fun_defs=[]}
(range, ca) = addFunctionsRange def_macros ca
(rev_fun_defs,ca) = ca!ca_rev_fun_defs
ca = {ca & ca_rev_fun_defs=[]}
(pea_ok,ca) = ca!ca_error.pea_ok
mod = { mod & mod_imports = imports, mod_imported_objects = imported_objects, mod_defs = { defs & def_macros=reverse rev_fun_defs,def_macro_indices = range }}
ca = {ca & ca_rev_fun_defs=[]}
(import_ok, parsed_modules,files, ca)
= scanModules imports [mod : parsed_modules] cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
= (pea_ok && import_ok, parsed_modules,files, ca)
scanModule :: !ParsedModule ![Ident] !Bool !Bool !*HashTable !*File !SearchPaths (ModTimeFunction *Files) !*Files
-> (!Bool, !ScannedModule, !IndexRange, ![FunDef], !Optional ScannedModule, ![ScannedModule],!Int,!*HashTable, !*File, !*Files)
scanModule mod=:{mod_ident,mod_type,mod_defs = pdefs} cached_modules support_generics support_dynamics hash_table err_file searchPaths /*predefs*/ modtimefunction files
# predefIdents = predefined_idents
# ca = { ca_error = {pea_file = err_file, pea_ok = True}
, ca_fun_count = 0
, ca_rev_fun_defs = []
, ca_hash_table = hash_table
}
(fun_defs, defs, imports, imported_objects,foreign_exports,ca) = reorganiseDefinitionsAndAddTypes mod_ident support_dynamics True pdefs ca
(reorganise_icl_ok, ca) = ca!ca_error.pea_ok
(import_dcl_ok, optional_parsed_dcl_mod,dcl_module_n,parsed_modules, cached_modules,files, ca)
= scan_main_dcl_module mod_ident mod_type modtimefunction files ca
(import_dcls_ok, parsed_modules, files, ca)
= scanModules imports parsed_modules cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
(pea_dcl_ok,optional_dcl_mod,ca) = collect_main_dcl_module optional_parsed_dcl_mod dcl_module_n ca
modules = case (reverse parsed_modules) of
[{mod_type=MK_NoMainDcl}:modules]
-> modules
modules
-> modules
import_dcl_ok = import_dcl_ok && pea_dcl_ok;
ca = {ca & ca_hash_table=set_hte_mark 1 ca.ca_hash_table}
n_global_functions = length fun_defs
(fun_defs, ca) = collectFunctions fun_defs True {ca & ca_fun_count=n_global_functions,ca_rev_fun_defs=[]}
// (fun_range, ca) = addFunctionsRange fun_defs ca
(macro_defs, ca) = collectFunctions defs.def_macros True ca
(macro_range, ca) = addFunctionsRange macro_defs ca
(def_instances, ca) = collectFunctions defs.def_instances True ca
(def_generic_cases, ca) = collectFunctions defs.def_generic_cases True ca
{ ca_error = {pea_file = err_file,pea_ok}, ca_rev_fun_defs, ca_hash_table } = ca
mod = { mod & mod_imports = imports, mod_imported_objects = imported_objects, mod_foreign_exports = foreign_exports,
mod_defs = { defs & def_instances = def_instances,
def_generic_cases = def_generic_cases,
def_macro_indices = macro_range }}
hash_table = set_hte_mark 0 ca_hash_table
fun_defs = fun_defs++reverse ca_rev_fun_defs
fun_range = {ir_from=0,ir_to=n_global_functions}
= (reorganise_icl_ok && pea_ok && import_dcl_ok && import_dcls_ok, mod, fun_range, fun_defs, optional_dcl_mod, modules, dcl_module_n,hash_table, err_file, files)
where
scan_main_dcl_module :: Ident ModuleKind (ModTimeFunction *Files) *Files *CollectAdmin -> (!Bool,!Optional (Module (CollectedDefinitions (ScannedInstanceAndMembersR FunDef))),!Int,![ScannedModule],![Ident],!*Files,!*CollectAdmin)
scan_main_dcl_module mod_ident MK_Main _ files ca
= (True, No,NoIndex,[MakeEmptyModule mod_ident MK_NoMainDcl], cached_modules,files, ca)
scan_main_dcl_module mod_ident MK_None _ files ca
= (True, No,NoIndex,[], cached_modules,files, ca)
scan_main_dcl_module mod_ident kind modtimefunction files ca
# module_n_in_cache = in_cache 0 cached_modules;
with
in_cache module_n []
= NoIndex
in_cache module_n [cached_module_ident : pmods]
| mod_ident==cached_module_ident
= module_n
= in_cache (module_n+1) pmods
| module_n_in_cache<>NoIndex
= (True,No,module_n_in_cache,[],cached_modules,files,ca)
# {ca_error, ca_hash_table} = ca
# (parse_ok,dynamic_type_used,mod, hash_table, err_file, /*predefs,*/ files) = wantModule cWantDclFile mod_ident NoPos support_generics ca_hash_table ca_error.pea_file searchPaths modtimefunction files
# ca = {ca & ca_hash_table=hash_table, ca_error={pea_file=err_file,pea_ok=True}}
| not parse_ok
= (False, No,NoIndex, [],cached_modules, files, ca)
# pdefs = mod.mod_defs
# (_, defs, imports, imported_objects,foreign_exports,ca) = reorganiseDefinitionsAndAddTypes mod_ident support_dynamics False pdefs ca
# mod = { mod & mod_imports = imports, mod_imported_objects = imported_objects, mod_defs = defs}
# cached_modules = [mod.mod_ident:cached_modules]
# (import_ok, parsed_modules,files, ca) = scanModules imports [] cached_modules searchPaths support_generics support_dynamics modtimefunction files ca
= (import_ok, Yes mod, NoIndex,parsed_modules, cached_modules,files, ca)
collect_main_dcl_module (Yes mod=:{mod_defs=defs}) dcl_module_n ca
# (macro_defs, ca) = collectFunctions defs.def_macros False {ca & ca_fun_count=0,ca_rev_fun_defs=[]}
(range, ca) = addFunctionsRange macro_defs ca
(rev_fun_defs,ca) = ca!ca_rev_fun_defs
ca = {ca & ca_rev_fun_defs=[]}
(pea_ok,ca) = ca!ca_error.pea_ok
mod = { mod & mod_defs = { defs & def_macros=reverse rev_fun_defs,def_macro_indices = range }}
= (pea_ok,Yes mod,ca)
collect_main_dcl_module No dcl_module_n ca
| dcl_module_n==NoIndex
= (True,Yes (MakeEmptyModule mod_ident MK_None),ca)
= (True,No,ca)
MakeNewParsedDef ident args rhs pos
:== PD_Function pos ident False args rhs (FK_Function cNameLocationDependent)
collectFunctionBodies :: !Ident !Int !Priority !FunKind ![ParsedDefinition] !*CollectAdmin
-> (![ParsedBody], !FunKind, ![ParsedDefinition], !*CollectAdmin)
collectFunctionBodies fun_name fun_arity fun_prio fun_kind all_defs=:[PD_Function pos name is_infix args rhs new_fun_kind : defs] ca
| belongsToTypeSpec fun_name fun_prio name is_infix
# (new_fun_kind, ca) = combine_fun_kinds pos fun_kind new_fun_kind ca
(bodies, new_fun_kind, rest_defs, ca) = collectFunctionBodies fun_name fun_arity fun_prio new_fun_kind defs ca
act_arity = length args
| fun_arity == act_arity
= ([{ pb_args = args, pb_rhs = rhs, pb_position = pos } : bodies ], new_fun_kind, rest_defs, ca)
= ([{ pb_args = args, pb_rhs = rhs, pb_position = pos } : bodies ], new_fun_kind, rest_defs,
postParseError pos ("This alternative has " + toString act_arity +
(if (act_arity == 1)" argument instead of " " arguments instead of ") + toString fun_arity
) ca
)
= ([], fun_kind, all_defs, ca)
where
combine_fun_kinds :: Position FunKind FunKind *CollectAdmin -> (FunKind, *CollectAdmin)
combine_fun_kinds pos FK_Unknown fun_kind ca
= (fun_kind, ca)
combine_fun_kinds pos fun_kind new_fun_kind ca
| fun_kind == new_fun_kind
= (fun_kind, ca)
= (fun_kind, postParseError pos "illegal combination of function alternatives" ca)
collectFunctionBodies fun_name fun_arity fun_prio fun_kind defs ca
= ([], fun_kind, defs, ca)
collectGenericBodies :: !GenericCaseDef ![ParsedDefinition] !*CollectAdmin
-> (![ParsedBody], ![ParsedDefinition],!*CollectAdmin)
collectGenericBodies first_case all_defs=:[PD_GenericCase gc : defs] ca
| first_case.gc_ident == gc.gc_ident && first_case.gc_type_cons == gc.gc_type_cons
#! (bodies, rest_defs, ca) = collectGenericBodies first_case defs ca
# (GCB_ParsedBody args rhs) = gc.gc_body
#! body =
{ pb_args = args
, pb_rhs = rhs
, pb_position = gc.gc_pos
}
| first_case.gc_arity == gc.gc_arity
= ([body : bodies ], rest_defs, ca)
#! msg = "This generic alternative has " + toString gc.gc_arity + " argument"
+ (if (gc.gc_arity <> 1) "s" "")+" instead of " + toString first_case.gc_arity
#! ca = postParseError gc.gc_pos msg ca
= ([body : bodies ], rest_defs, ca)
= ([], all_defs, ca)
collectGenericBodies first_case defs ca
= ([], defs, ca)
strictness_from_fields :: ![ParsedSelector] -> StrictnessList
strictness_from_fields fields
= add_strictness_for_arguments fields 0 0 NotStrict
where
add_strictness_for_arguments :: ![ParsedSelector] !Int !Int !StrictnessList -> StrictnessList
add_strictness_for_arguments [] strictness_index strictness strictness_list
| strictness==0
= strictness_list
= append_strictness strictness strictness_list
add_strictness_for_arguments [{ps_field_annotation=AN_Strict}:fields] strictness_index strictness strictness_list
# (strictness_index,strictness,strictness_list) = add_next_strict strictness_index strictness strictness_list
= add_strictness_for_arguments fields strictness_index strictness strictness_list
add_strictness_for_arguments [{ps_field_annotation=AN_None}:fields] strictness_index strictness strictness_list
# (strictness_index,strictness,strictness_list) = add_next_not_strict strictness_index strictness strictness_list
= add_strictness_for_arguments fields strictness_index strictness strictness_list
reorganiseDefinitions :: Bool [ParsedDefinition] Index Index Index Index *CollectAdmin -> (![FunDef],!CollectedDefinitions (ScannedInstanceAndMembersR FunDef), ![ParsedImport], ![ImportedObject],![ParsedForeignExport],!*CollectAdmin)
reorganiseDefinitions icl_module [PD_Function pos name is_infix args rhs fun_kind : defs] cons_count sel_count mem_count type_count ca
# prio = if is_infix (Prio NoAssoc 9) NoPrio
fun_arity = length args
(bodies, fun_kind, defs, ca) = collectFunctionBodies name fun_arity prio fun_kind defs ca
(fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count ca
fun = MakeNewImpOrDefFunction name fun_arity [{ pb_args = args, pb_rhs = rhs, pb_position = pos } : bodies] fun_kind prio No pos
| fun_kind == FK_Macro
= (fun_defs, { c_defs & def_macros = [ fun : c_defs.def_macros ]}, imports, imported_objects,foreign_exports, ca)
= ([ fun : fun_defs ], c_defs, imports, imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_TypeSpec fun_pos fun_name prio No specials : defs] cons_count sel_count mem_count type_count ca
= case defs of
[PD_Function pos name is_infix args rhs fun_kind : defs]
| fun_name <> name
-> reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count (postParseError fun_pos ("function alternative for "+++fun_name.id_name+++" expected") ca)
| not (sameFixity prio is_infix)
-> reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count (postParseError fun_pos "infix of type specification and alternative should match" ca)
// | belongsToTypeSpec fun_name prio name is_infix
# fun_arity = length args
(bodies, fun_kind, defs, ca) = collectFunctionBodies name fun_arity prio fun_kind defs ca
(fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count ca
fun = MakeNewImpOrDefFunction name fun_arity [{ pb_args = args, pb_rhs = rhs, pb_position = pos } : bodies ] fun_kind prio No fun_pos
| fun_kind == FK_Macro
-> (fun_defs, { c_defs & def_macros = [ fun : c_defs.def_macros]}, imports, imported_objects,foreign_exports, ca)
-> ([ fun : fun_defs ], c_defs, imports, imported_objects,foreign_exports, ca)
// -> reorganiseDefinitions icl_module defs cons_count sel_count mem_count (postParseError fun_pos "function body expected (1)" ca)
_
-> reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count (postParseError fun_pos "function alternative expected (2)" ca)
reorganiseDefinitions icl_module [PD_TypeSpec pos name prio (Yes fun_type=:{st_arity}) specials : defs] cons_count sel_count mem_count type_count ca
# (bodies, fun_kind, defs, ca) = collectFunctionBodies name st_arity prio FK_Unknown defs ca
(fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count ca
| isEmpty bodies
# fun_type = MakeNewFunctionType name st_arity prio fun_type pos specials nilPtr
c_defs = { c_defs & def_funtypes = [ fun_type : c_defs.def_funtypes ]}
| icl_module
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, postParseError pos "function body expected" ca)
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
# fun = MakeNewImpOrDefFunction name fun_type.st_arity bodies fun_kind prio (Yes fun_type) pos
| icl_module
| case fun_kind of FK_Macro -> True; _ -> False
= ([fun : fun_defs], c_defs, imports, imported_objects,foreign_exports, postParseError pos "macro with function type not allowed" ca)
= ([fun : fun_defs], c_defs, imports, imported_objects,foreign_exports, ca)
= ([fun : fun_defs], c_defs, imports, imported_objects,foreign_exports, postParseError pos "function body not allowed in definition module" ca)
reorganiseDefinitions icl_module [PD_Type type_def=:{td_rhs = ConsList cons_defs} : defs] cons_count sel_count mem_count type_count ca
# (cons_symbs, cons_count) = determine_symbols_of_conses cons_defs cons_count
(fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count (type_count+1) ca
type_def = { type_def & td_rhs = AlgType cons_symbs }
c_defs = { c_defs & def_types = [type_def : c_defs.def_types], def_constructors = mapAppend ParsedConstructorToConsDef cons_defs c_defs.def_constructors }
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_Type type_def=:{td_rhs = NewTypeCons cons_def=:{pc_cons_ident,pc_cons_arity}} : defs] cons_count sel_count mem_count type_count ca
# cons_symb = { ds_ident = pc_cons_ident, ds_arity = pc_cons_arity, ds_index = cons_count }
cons_count = inc cons_count
(fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count (type_count+1) ca
type_def = { type_def & td_rhs = NewType cons_symb }
c_defs = { c_defs & def_types = [type_def : c_defs.def_types], def_constructors = [ParsedConstructorToConsDef cons_def : c_defs.def_constructors] }
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_Type type_def=:{td_ident, td_rhs = SelectorList rec_cons_id exivars is_boxed_record sel_defs, td_pos } : defs] cons_count sel_count mem_count type_count ca
# (sel_syms, new_count) = determine_symbols_of_selectors sel_defs sel_count
(fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs (inc cons_count) new_count mem_count (type_count+1) ca
cons_arity = new_count - sel_count
pc_arg_types = [ ps_field_type \\ {ps_field_type} <- sel_defs ]
cons_def = { pc_cons_ident = rec_cons_id, pc_cons_prio = NoPrio, pc_cons_arity = cons_arity, pc_cons_pos = td_pos,
pc_arg_types = pc_arg_types, pc_args_strictness=strictness_from_fields sel_defs,pc_exi_vars = exivars }
type_def = { type_def & td_rhs = RecordType {rt_constructor = { ds_ident = rec_cons_id, ds_arity = cons_arity, ds_index = cons_count },
rt_fields = { sel \\ sel <- sel_syms }, rt_is_boxed_record = is_boxed_record}}
c_defs = { c_defs & def_types = [type_def : c_defs.def_types], def_constructors = [ParsedConstructorToConsDef cons_def : c_defs.def_constructors],
def_selectors = mapAppend (ParsedSelectorToSelectorDef type_count) sel_defs c_defs.def_selectors }
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
where
determine_symbols_of_selectors :: [ParsedSelector] Index -> ([FieldSymbol], Index)
determine_symbols_of_selectors [{ps_field_ident,ps_field_var} : sels] next_selector_index
# field = { fs_ident = ps_field_ident, fs_var = ps_field_var, fs_index = next_selector_index }
(fields, next_selector_index) = determine_symbols_of_selectors sels (inc next_selector_index)
= ([field : fields], next_selector_index)
determine_symbols_of_selectors [] next_selector_index
= ([], next_selector_index)
reorganiseDefinitions icl_module [PD_Type type_def=:{td_rhs = TypeSpec type} : defs] cons_count sel_count mem_count type_count ca
# (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count (type_count+1) ca
type_def = { type_def & td_rhs = SynType type }
c_defs = { c_defs & def_types = [type_def : c_defs.def_types] }
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_Type type_def=:{td_rhs = EmptyRhs properties} : defs] cons_count sel_count mem_count type_count ca
# (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count (type_count+1) ca
type_def = { type_def & td_rhs = AbstractType properties }
c_defs = { c_defs & def_types = [type_def : c_defs.def_types] }
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_Type type_def=:{td_rhs = AbstractTypeSpec properties type} : defs] cons_count sel_count mem_count type_count ca
# (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count (type_count+1) ca
type_def = { type_def & td_rhs = AbstractSynType properties type }
c_defs = { c_defs & def_types = [type_def : c_defs.def_types] }
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_Class class_def=:{class_ident,class_arity,class_args} members : defs] cons_count sel_count mem_count type_count ca
# type_context = { tc_class = TCClass {glob_module = NoIndex, glob_object = {ds_ident = class_ident, ds_arity = class_arity, ds_index = NoIndex }},
tc_types = [ TV tv \\ tv <- class_args ], tc_var = nilPtr}
(mem_defs, mem_macros, ca) = check_symbols_of_class_members members type_context ca
(mem_symbs, mem_defs, class_size) = reorganise_member_defs mem_defs mem_count
(fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count (mem_count + class_size) type_count ca
class_def = { class_def & class_members = { member \\ member <- mem_symbs }}
c_defs = { c_defs & def_classes = [class_def : c_defs.def_classes], def_macros = mem_macros ++ c_defs.def_macros,
def_members = mem_defs ++ c_defs.def_members }
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
where
check_symbols_of_class_members :: ![ParsedDefinition] !TypeContext !*CollectAdmin -> (![MemberDef], ![FunDef], !*CollectAdmin)
check_symbols_of_class_members [PD_TypeSpec pos name prio opt_type=:(Yes type=:{st_context,st_arity}) specials : defs] type_context ca
# (bodies, fun_kind, defs, ca) = collectFunctionBodies name st_arity prio FK_Unknown defs ca
| isEmpty bodies
# mem_def = { me_ident = name, me_type = { type & st_context = [type_context : st_context ]}, me_pos = pos, me_priority = prio,
me_offset = NoIndex, me_class_vars = [], me_class = { glob_module = NoIndex, glob_object = NoIndex}, me_type_ptr = nilPtr }
( mem_defs, mem_macros, ca) = check_symbols_of_class_members defs type_context ca
= ([mem_def : mem_defs], mem_macros, ca)
# macro = MakeNewImpOrDefFunction name st_arity bodies FK_Macro prio opt_type pos
(mem_defs, mem_macros,ca) = check_symbols_of_class_members defs type_context ca
= (mem_defs, [macro : mem_macros], ca)
check_symbols_of_class_members [PD_TypeSpec fun_pos fun_name prio No specials : defs] type_context ca
= case defs of
[PD_Function pos name is_infix args rhs fun_kind : defs]
| belongsToTypeSpec fun_name prio name is_infix
# fun_arity = length args
(bodies, fun_kind, defs, ca) = collectFunctionBodies name fun_arity prio fun_kind defs ca
(mem_defs, mem_macros, ca) = check_symbols_of_class_members defs type_context ca
macro = MakeNewImpOrDefFunction name fun_arity bodies FK_Macro prio No fun_pos
-> (mem_defs, [macro : mem_macros], ca)
-> check_symbols_of_class_members defs type_context (postParseError fun_pos "macro body expected" ca)
_
-> check_symbols_of_class_members defs type_context (postParseError fun_pos "macro body expected" ca)
check_symbols_of_class_members [PD_Function fun_pos name is_infix args rhs fun_kind : defs] type_context ca
# prio = if is_infix (Prio NoAssoc 9) NoPrio
fun_arity = length args
(bodies, fun_kind, defs, ca) = collectFunctionBodies name fun_arity prio fun_kind defs ca
(mem_defs, mem_macros, ca) = check_symbols_of_class_members defs type_context ca
macro = MakeNewImpOrDefFunction name fun_arity [{ pb_args = args, pb_rhs = rhs, pb_position = fun_pos } : bodies] FK_Macro prio No fun_pos
= (mem_defs, [macro : mem_macros], ca)
check_symbols_of_class_members [def : _] type_context ca
= abort "postparse.check_symbols_of_class_members: unknown def" // <<- def
check_symbols_of_class_members [] type_context ca
= ([], [], ca)
reorganise_member_defs :: [MemberDef] Index -> ([DefinedSymbol], [MemberDef], Index)
reorganise_member_defs mem_defs first_mem_index
# mem_defs = sort mem_defs
= determine_indexes_of_class_members mem_defs first_mem_index 0
determine_indexes_of_class_members :: [MemberDef] Index Index -> ([DefinedSymbol], [MemberDef], Index)
determine_indexes_of_class_members [member=:{me_ident,me_type}:members] first_mem_index mem_offset
#! (member_symbols, member_defs, last_mem_offset) = determine_indexes_of_class_members members first_mem_index (inc mem_offset)
= ([{ds_ident = me_ident, ds_index = first_mem_index + mem_offset, ds_arity = me_type.st_arity } : member_symbols],
[ { member & me_offset = mem_offset } : member_defs], last_mem_offset)
determine_indexes_of_class_members [] first_mem_index last_mem_offset
= ([], [], last_mem_offset)
reorganiseDefinitions icl_module [PD_Instance class_instance=:{pim_members,pim_pi} : defs] cons_count sel_count mem_count type_count ca
# (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count ca
| icl_module || isEmpty pim_members
# (mem_defs, ca) = collect_member_instances pim_members ca
= (fun_defs, { c_defs & def_instances = [{sim_pi=class_instance.pim_pi, sim_members = mem_defs, sim_member_types=[]} : c_defs.def_instances] }, imports, imported_objects,foreign_exports, ca)
# (mem_types, ca) = collect_member_instance_types pim_members ca
= (fun_defs, { c_defs & def_instances = [{sim_pi=class_instance.pim_pi, sim_members = [], sim_member_types=mem_types} : c_defs.def_instances] }, imports, imported_objects,foreign_exports, ca)
where
collect_member_instances :: [ParsedDefinition] *CollectAdmin -> ([FunDef], *CollectAdmin)
collect_member_instances [PD_Function pos name is_infix args rhs fun_kind : defs] ca
# fun_arity = length args
prio = if is_infix (Prio NoAssoc 9) NoPrio
(bodies, fun_kind, defs, ca) = collectFunctionBodies name fun_arity prio fun_kind defs ca
(fun_defs, ca) = collect_member_instances defs ca
fun = MakeNewImpOrDefFunction name fun_arity [{ pb_args = args, pb_rhs = rhs, pb_position = pos } : bodies ] fun_kind prio No pos
= ([ fun : fun_defs ], ca)
collect_member_instances [PD_TypeSpec fun_pos fun_name prio type specials : defs] ca
= case defs of
[PD_Function pos name is_infix args rhs fun_kind : _]
| belongsToTypeSpec fun_name prio name is_infix
# fun_arity = determineArity args type
(bodies, fun_kind, defs, ca) = collectFunctionBodies name fun_arity prio fun_kind defs ca
(fun_defs, ca) = collect_member_instances defs ca
fun = MakeNewImpOrDefFunction name fun_arity bodies fun_kind prio type fun_pos
-> ([ fun : fun_defs ], ca)
_
-> collect_member_instances defs (postParseError fun_pos "function body expected" ca)
collect_member_instances [] ca
= ([], ca)
collect_member_instance_types :: [ParsedDefinition] *CollectAdmin -> (![FunType], !*CollectAdmin)
collect_member_instance_types [PD_TypeSpec fun_pos fun_name prio type specials : defs] ca
= case type of
Yes fun_type=:{st_arity}
# fun_type = MakeNewFunctionType fun_name st_arity prio fun_type fun_pos specials nilPtr
(fun_types, ca) = collect_member_instance_types defs ca
-> ([fun_type : fun_types], ca)
No
-> collect_member_instance_types defs (postParseError fun_pos "function body expected" ca)
collect_member_instance_types [] ca
= ([], ca)
reorganiseDefinitions icl_module [PD_Instances class_instances : defs] cons_count sel_count mem_count type_count ca
= reorganiseDefinitions icl_module ([PD_Instance class_instance \\ class_instance <- class_instances] ++ defs) cons_count sel_count mem_count type_count ca
reorganiseDefinitions icl_module [PD_Generic gen : defs] cons_count sel_count mem_count type_count ca
# (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count ca
c_defs = {c_defs & def_generics = [gen : c_defs.def_generics]}
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_GenericCase gc : defs] cons_count sel_count mem_count type_count ca
#! (bodies, defs, ca) = collectGenericBodies gc defs ca
#! (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
= reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count ca
# (GCB_ParsedBody args rhs) = gc.gc_body
# body =
{ pb_args = args
, pb_rhs = rhs
, pb_position = gc.gc_pos
}
#! bodies = [body : bodies ]
#! fun_name = genericIdentToFunIdent gc.gc_ident.id_name gc.gc_type_cons
#! fun = MakeNewImpOrDefFunction fun_name gc.gc_arity bodies (FK_Function cNameNotLocationDependent) NoPrio No gc.gc_pos
#! inst = { gc & gc_body = GCB_FunDef fun }
#! c_defs = {c_defs & def_generic_cases = [inst : c_defs.def_generic_cases]}
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_Derive derive_defs : defs] cons_count sel_count mem_count type_count ca
#! (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count (type_count+1) ca
#! c_defs = { c_defs & def_generic_cases = derive_defs ++ c_defs.def_generic_cases}
= (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_Import new_imports : defs] cons_count sel_count mem_count type_count ca
# (new_imports,hash_table) = make_implicit_qualified_imports_explicit new_imports ca.ca_hash_table
# ca = {ca & ca_hash_table=hash_table}
# (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count ca
= (fun_defs, c_defs, new_imports ++ imports, imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_ImportedObjects new_imported_objects : defs] cons_count sel_count mem_count type_count ca
# (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count ca
= (fun_defs, c_defs, imports, new_imported_objects ++ imported_objects,foreign_exports, ca)
reorganiseDefinitions icl_module [PD_ForeignExport new_foreign_export file_name line_n stdcall : defs] cons_count sel_count mem_count type_count ca
# (fun_defs, c_defs, imports, imported_objects,foreign_exports, ca) = reorganiseDefinitions icl_module defs cons_count sel_count mem_count type_count ca
= (fun_defs, c_defs, imports, imported_objects,[{pfe_ident=new_foreign_export,pfe_file=file_name,pfe_line=line_n,pfe_stdcall=stdcall}:foreign_exports], ca)
reorganiseDefinitions icl_module [def:defs] _ _ _ _ ca
= abort "reorganiseDefinitions does not match"
reorganiseDefinitions icl_module [] _ _ _ _ ca
= ([], { def_types = [], def_constructors = [], def_selectors = [], def_macros = [],def_macro_indices={ir_from=0,ir_to=0},def_classes = [], def_members = [],
def_instances = [], def_funtypes = [],
def_generics = [], def_generic_cases = []}, [], [], [], ca)
determine_symbols_of_conses :: [ParsedConstructor] Index -> ([DefinedSymbol], Index)
determine_symbols_of_conses [{pc_cons_ident,pc_cons_arity} : conses] next_cons_index
# cons = { ds_ident = pc_cons_ident, ds_arity = pc_cons_arity, ds_index = next_cons_index }
(conses, next_cons_index) = determine_symbols_of_conses conses (inc next_cons_index)
= ([cons : conses], next_cons_index)
determine_symbols_of_conses [] next_cons_index
= ([], next_cons_index)
make_implicit_qualified_imports_explicit [import_=:{import_qualified=Qualified,import_symbols=[],import_module,import_file_position}:imports] hash_table
# (qualified_idents,hash_table) = get_qualified_idents_from_hash_table import_module hash_table
# import_declarations = qualified_idents_to_import_declarations qualified_idents
# (imports,hash_table) = make_implicit_qualified_imports_explicit imports hash_table
= ([{import_ & import_symbols=import_declarations}:imports],hash_table)
make_implicit_qualified_imports_explicit [import_:imports] hash_table
# (imports,hash_table) = make_implicit_qualified_imports_explicit imports hash_table
= ([import_:imports],hash_table)
make_implicit_qualified_imports_explicit [] hash_table
= ([],hash_table)
qualified_idents_to_import_declarations (QualifiedIdents ident ident_class qualified_idents)
= [qualified_ident_to_import_declaration ident_class ident : qualified_idents_to_import_declarations qualified_idents]
qualified_idents_to_import_declarations NoQualifiedIdents
= []
qualified_ident_to_import_declaration IC_Expression ident
= ID_Function ident
qualified_ident_to_import_declaration IC_Type ident
= ID_Type ident No
qualified_ident_to_import_declaration IC_Class ident
= ID_Class ident No
qualified_ident_to_import_declaration IC_Selector ident
= abort "qualified_ident_to_import_declaration IC_Selector not yet implemented"
reorganiseDefinitionsAndAddTypes mod_ident support_dynamics icl_module defs ca
| support_dynamics
# clean_types_module_ident
= predefined_idents.[PD_CleanTypes]
# clean_types_module =
{ import_module = clean_types_module_ident
, import_symbols = []
, import_file_position = NoPos
, import_qualified = NotQualified
}
# imports = if (mod_ident == clean_types_module_ident) [] [clean_types_module]
= reorganiseDefinitions icl_module [PD_Import imports : defs] 0 0 0 0 ca
// otherwise
= reorganiseDefinitions icl_module defs 0 0 0 0 ca
belongsToTypeSpec name prio new_name is_infix :==
name == new_name && sameFixity prio is_infix
determineArity :: [ParsedExpr] (Optional SymbolType) -> Int
determineArity args (Yes {st_arity})
= st_arity
determineArity args No
= length args
sameFixity :: Priority Bool -> Bool
sameFixity (Prio _ _) is_infix
= is_infix
sameFixity NoPrio is_infix
= not is_infix
|
