implementation module unitype
import StdEnv
import syntax, analunitypes, type, utilities, checktypes,
compilerSwitches //, RWSDebug
// import cheat
AttrUni :== 0
AttrMulti :== 1
/*
FirstAttrVar :== 2
*/
AttrExi :== 2
FirstAttrVar :== 3
:: CoercionTree = CT_Node !Int !CoercionTree !CoercionTree | CT_Empty | CT_Unique | CT_NonUnique | CT_Existential
:: Coercions = { coer_demanded :: !.{! .CoercionTree}, coer_offered :: !.{! .CoercionTree }}
:: AttributePartition :== {# Int}
:: PartitioningInfo =
{ pi_marks :: !.AttributePartition
, pi_next_num :: !Int
, pi_groups :: !.[[Int]]
, pi_deps :: ![Int]
}
uniquenessError :: !CoercionPosition !String !*ErrorAdmin -> *ErrorAdmin
uniquenessError position mess err=:{ea_file,ea_loc}
# ea_file = ea_file <<< "Uniqueness error " <<< hd ea_loc <<< ": \"" <<< position <<< '\"' <<< mess <<< '\n'
= { err & ea_file = ea_file, ea_ok = False}
:: BOOLVECT :== Int
BITINDEX temp_var_id :== temp_var_id >> 5
BITNUMBER temp_var_id :== temp_var_id bitand 31
isPositive :: !TempVarId !{# BOOLVECT } -> Bool
isPositive var_id cons_vars
= cons_vars.[BITINDEX var_id] bitand (1 << BITNUMBER var_id) <> 0
determineAttributeCoercions :: !AType !AType !Bool !u:{! Type} !*Coercions !{# CommonDefs }
!{# BOOLVECT } !*TypeDefInfos !*TypeHeaps
-> (!Optional (TypePosition, AType), !u:{! Type}, !*Coercions, !*TypeDefInfos, !*TypeHeaps)
determineAttributeCoercions off_type dem_type coercible subst coercions defs cons_vars td_infos type_heaps
# (_, exp_off_type, es) = expandType defs cons_vars off_type (subst, { es_type_heaps = type_heaps, es_td_infos = td_infos})
(_, exp_dem_type, (subst, {es_td_infos,es_type_heaps})) = expandType defs cons_vars dem_type es
(result, {crc_type_heaps, crc_coercions, crc_td_infos}) = coerce (if coercible PositiveSign TopSign) defs cons_vars [] exp_off_type exp_dem_type
{ crc_type_heaps = es_type_heaps, crc_coercions = coercions, crc_td_infos = es_td_infos}
= case result of
No
-> (No, subst, crc_coercions, crc_td_infos, crc_type_heaps)
Yes pos
-> (Yes (pos, exp_off_type), subst, crc_coercions, crc_td_infos, crc_type_heaps)
/*
= case result of
No
# (crc_coercions, copy_crc_coercions) = uniqueCopy crc_coercions
format = { form_properties = cMarkAttribute, form_attr_position = Yes ([], copy_crc_coercions) }
| file_to_true (stderr <:: (format, exp_off_type,No) <:: (format, exp_dem_type,No) <<< '\n')
---> ("determineAttributeCoercions (OK)", off_type, exp_off_type, ('\n', dem_type, exp_dem_type))
-> (No, subst, crc_coercions, crc_td_infos, crc_type_heaps)
-> undef
// -> (No, subst, crc_coercions, crc_td_infos, crc_type_heaps)
Yes pos
# (crc_coercions, copy_crc_coercions) = uniqueCopy crc_coercions
format = { form_properties = cMarkAttribute, form_attr_position = Yes ([], copy_crc_coercions) }
| file_to_true (stderr <:: (format, exp_off_type,No) <:: (format, exp_dem_type,No) <<< '\n')
---> ("determineAttributeCoercions (NOK)", off_type, exp_off_type, ('\n', dem_type, exp_dem_type))
-> (Yes (pos, exp_off_type), subst, crc_coercions, crc_td_infos, crc_type_heaps)
-> undef
file_to_true :: !File -> Bool
file_to_true file = code {
.inline file_to_true
pop_b 2
pushB TRUE
.end
}
*/
NotChecked :== -1
DummyAttrNumber :== -1
:: AttributeGroups :== {! [Int]}
partitionateAttributes :: !{! CoercionTree} !{! *CoercionTree} -> (!AttributePartition, !*{! CoercionTree})
partitionateAttributes coer_offered coer_demanded
#! max_attr_nr = size coer_offered
# partitioning_info = { pi_marks = createArray max_attr_nr NotChecked, pi_deps = [], pi_next_num = 0, pi_groups = [] }
# {pi_marks,pi_groups} = partitionate_attributes FirstAttrVar max_attr_nr coer_offered partitioning_info
(nr_of_groups, groups) = reverse_and_length pi_groups 0 []
partition = build_partition 0 groups pi_marks
# demanded = { CT_Empty \\ i <- [0 .. nr_of_groups - 1] }
= (partition, adjust_coercions 0 groups partition coer_offered coer_demanded demanded)
where
visit_attributes :: !CoercionTree !Int !Int !{! CoercionTree} !*PartitioningInfo -> *(!Int, !*PartitioningInfo)
visit_attributes (CT_Node attr left right) max_attr_nr min_dep coer_offered pi=:{pi_marks}
#! mark = pi_marks.[attr]
| mark == NotChecked
# (mark, pi) = partitionate_attribute attr max_attr_nr coer_offered pi
(min_dep, pi) = visit_attributes left max_attr_nr (min min_dep mark) coer_offered pi
= visit_attributes right max_attr_nr min_dep coer_offered pi
# (min_dep, pi) = visit_attributes left max_attr_nr (min min_dep mark) coer_offered pi
= visit_attributes right max_attr_nr min_dep coer_offered pi
visit_attributes tree max_attr_nr min_dep coer_offered pi
= (min_dep, pi)
reverse_and_length :: !*[a] !Int ![a] -> (!Int, ![a])
reverse_and_length [] length list = (length, list)
reverse_and_length [ x : xs ] length list = reverse_and_length xs (inc length) [x : list]
partitionate_attributes :: !Int !Int !{!CoercionTree} !*PartitioningInfo -> *PartitioningInfo
partitionate_attributes from_index max_attr_nr coer_offered pi=:{pi_marks}
| from_index == max_attr_nr
= pi
| pi_marks.[from_index] == NotChecked
# (_, pi) = partitionate_attribute from_index max_attr_nr coer_offered pi
= partitionate_attributes (inc from_index) max_attr_nr coer_offered pi
= partitionate_attributes (inc from_index) max_attr_nr coer_offered pi
partitionate_attribute :: !Int !Int !{!CoercionTree} !*PartitioningInfo -> *(!Int, !*PartitioningInfo)
partitionate_attribute attr max_attr_nr coer_offered=:{ [attr] = off_attributes } pi=:{pi_next_num}
# (min_dep, pi) = visit_attributes off_attributes max_attr_nr max_attr_nr coer_offered (push_on_dep_stack attr pi)
= try_to_close_group attr pi_next_num min_dep max_attr_nr pi
where
push_on_dep_stack attr pi=:{pi_deps,pi_marks,pi_next_num}
= { pi & pi_deps = [attr : pi_deps], pi_marks = { pi_marks & [attr] = pi_next_num }, pi_next_num = inc pi_next_num}
try_to_close_group attr attr_nr min_dep max_attr_nr pi=:{pi_marks, pi_deps, pi_groups}
| attr_nr <= min_dep
# (pi_deps, pi_marks, group) = close_group attr pi_deps pi_marks [] max_attr_nr
= (max_attr_nr, { pi & pi_deps = pi_deps, pi_marks = pi_marks, pi_groups = [group : pi_groups] })
= (min_dep, pi)
where
close_group attr [d:ds] marks group max_attr_nr
# marks = { marks & [d] = max_attr_nr }
| d == attr
= (ds, marks, [d : group])
= close_group attr ds marks [d : group] max_attr_nr
build_partition group_nr [] partition
= partition
build_partition group_nr [group : groups] partition
= build_partition (inc group_nr) groups (build_partition_of_group group_nr group partition)
where
build_partition_of_group group_nr [attr : attrs] partition
= build_partition_of_group group_nr attrs { partition & [attr] = group_nr }
build_partition_of_group group_nr [] partition
= partition
adjust_coercions group_index [group : groups] partition coer_offered coer_demanded demanded
# (combined_tree, coer_demanded) = combine_coercion_trees group_index group partition CT_Empty coer_offered coer_demanded
= adjust_coercions (inc group_index) groups partition coer_offered coer_demanded { demanded & [ group_index ] = combined_tree }
adjust_coercions group_index [] partition coer_offered coer_demanded demanded
= demanded
combine_coercion_trees group_index [ attr : attrs ] partition merged_tree coer_offered coer_demanded
| isNonUnique coer_offered.[attr]
= (CT_NonUnique, coer_demanded)
# (next_tree, coer_demanded) = replace coer_demanded attr CT_Empty
| isUnique next_tree
= (CT_Unique, coer_demanded)
# merged_tree = rebuild_tree group_index partition next_tree merged_tree
= combine_coercion_trees group_index attrs partition merged_tree coer_offered coer_demanded
combine_coercion_trees group_index [ ] partition merged_tree coer_offered coer_demanded
= (merged_tree, coer_demanded)
rebuild_tree :: !Index !AttributePartition !*CoercionTree !*CoercionTree -> *CoercionTree
rebuild_tree group_index partition (CT_Node attr left right) tree
# tree = rebuild_tree group_index partition left tree
tree = rebuild_tree group_index partition right tree
#! attr_nr = partition.[attr]
| attr_nr == group_index
= tree
# { tree } = insert partition.[attr] tree
= tree
where
insert :: !Int !*CoercionTree -> *CoercionTreeRecord
insert new_attr CT_Empty
= { tree = CT_Node new_attr CT_Empty CT_Empty }
insert new_attr (CT_Node this_attr ct_less ct_greater)
| new_attr < this_attr
# { tree } = insert new_attr ct_less
= { tree = CT_Node this_attr tree ct_greater }
| new_attr > this_attr
# { tree } = insert new_attr ct_greater
= { tree = CT_Node this_attr ct_less tree }
= { tree = CT_Node this_attr ct_less ct_greater }
rebuild_tree group_index partition empty_tree tree
= tree
:: CoercionTreeRecord = { tree :: !.CoercionTree }
liftSubstitution :: !*{! Type} !{# CommonDefs } !{# BOOLVECT } !Int !*TypeHeaps !*TypeDefInfos -> (*{! Type}, !Int, !*TypeHeaps, !*TypeDefInfos)
liftSubstitution subst modules cons_vars attr_store type_heaps td_infos
# ls = { ls_next_attr = attr_store, ls_td_infos = td_infos, ls_type_heaps = type_heaps}
= lift_substitution 0 modules cons_vars subst ls
where
lift_substitution var_index modules cons_vars subst ls
| var_index < size subst
# (type, subst) = subst![var_index]
# (_, type, subst, ls) = lift modules cons_vars type subst ls
= lift_substitution (inc var_index) modules cons_vars { subst & [var_index] = type } ls
= (subst, ls.ls_next_attr, ls.ls_type_heaps, ls.ls_td_infos)
adjustSignClass :: !SignClassification !Int -> SignClassification
adjustSignClass {sc_pos_vect,sc_neg_vect} arity
= { sc_pos_vect = sc_pos_vect >> arity, sc_neg_vect = sc_neg_vect >> arity }
//adjustPropClass :: !PropClassification !Int -> PropClassification
adjustPropClass prop_class arity :== prop_class >> arity
:: LiftState =
{ ls_next_attr :: !Int
, ls_type_heaps :: !.TypeHeaps
, ls_td_infos :: !.TypeDefInfos
}
liftTempTypeVariable :: !{# CommonDefs } !{# BOOLVECT } !TempVarId !*{! Type} !*LiftState
-> (!Bool, !Type, !*{! Type}, !*LiftState)
liftTempTypeVariable modules cons_vars tv_number subst ls
# (type, subst) = subst![tv_number]
= case type of
TE
-> (False, TempV tv_number, subst, ls)
_
# (_, type, subst, ls) = lift modules cons_vars type subst ls
-> (True, type, subst, ls)
typeIsNonCoercible _ (TempV _)
= True
typeIsNonCoercible _ (TempQV _)
= True
typeIsNonCoercible _ (_ --> _)
= True
//AA..
typeIsNonCoercible _ TArrow
= True
typeIsNonCoercible _ (TArrow1 t)
= True
//AA..
typeIsNonCoercible cons_vars (TempCV tmp_var_id :@: _)
= not (isPositive tmp_var_id cons_vars)
typeIsNonCoercible cons_vars (_ :@: _)
= True
typeIsNonCoercible _ _
= False
class lift a :: !{# CommonDefs } !{# BOOLVECT } !a !*{! Type} !*LiftState -> (!Bool,!a, !*{! Type}, !*LiftState)
liftTypeApplication modules cons_vars t0=:(TA cons_id=:{type_name,type_index={glob_object,glob_module},type_arity,type_prop=type_prop0} cons_args) subst ls
# ({tdi_kinds}, ls) = ls!ls_td_infos.[glob_module].[glob_object]
# (changed,cons_args, sign_classes, prop_classes, subst, ls=:{ls_type_heaps}) = lift_list modules cons_vars cons_args tdi_kinds subst ls
| changed
# (type_prop, th_vars, ls_td_infos) = typeProperties glob_object glob_module sign_classes prop_classes modules ls_type_heaps.th_vars ls.ls_td_infos
ls = { ls & ls_td_infos = ls_td_infos, ls_type_heaps = {ls_type_heaps & th_vars = th_vars}}
| equal_type_prop type_prop type_prop0
= (True, TA cons_id cons_args, subst, ls)
= (True, TA { cons_id & type_prop = type_prop } cons_args, subst, ls)
# (type_prop, th_vars, ls_td_infos) = typeProperties glob_object glob_module sign_classes prop_classes modules ls_type_heaps.th_vars ls.ls_td_infos
ls = { ls & ls_td_infos = ls_td_infos, ls_type_heaps = {ls_type_heaps & th_vars = th_vars}}
| equal_type_prop type_prop type_prop0
= (False, t0, subst, ls)
= (True, TA { cons_id & type_prop = type_prop } cons_args, subst, ls)
liftTypeApplication modules cons_vars t0=:(TAS cons_id=:{type_name,type_index={glob_object,glob_module},type_arity,type_prop=type_prop0} cons_args strictness) subst ls
# ({tdi_kinds}, ls) = ls!ls_td_infos.[glob_module].[glob_object]
# (changed,cons_args, sign_classes, prop_classes, subst, ls=:{ls_type_heaps}) = lift_list modules cons_vars cons_args tdi_kinds subst ls
| changed
# (type_prop, th_vars, ls_td_infos) = typeProperties glob_object glob_module sign_classes prop_classes modules ls_type_heaps.th_vars ls.ls_td_infos
ls = { ls & ls_td_infos = ls_td_infos, ls_type_heaps = {ls_type_heaps & th_vars = th_vars}}
| equal_type_prop type_prop type_prop0
= (True, TAS cons_id cons_args strictness, subst, ls)
= (True, TAS { cons_id & type_prop = type_prop } cons_args strictness, subst, ls)
# (type_prop, th_vars, ls_td_infos) = typeProperties glob_object glob_module sign_classes prop_classes modules ls_type_heaps.th_vars ls.ls_td_infos
ls = { ls & ls_td_infos = ls_td_infos, ls_type_heaps = {ls_type_heaps & th_vars = th_vars}}
| equal_type_prop type_prop type_prop0
= (False, t0, subst, ls)
= (True, TAS { cons_id & type_prop = type_prop } cons_args strictness, subst, ls)
liftTypeApplication modules cons_vars type subst ls
= lift modules cons_vars type subst ls
lift_list :: !{#CommonDefs} !{# BOOLVECT } ![AType] ![TypeKind] !*{!Type} !*LiftState
-> (!Bool,![AType], ![SignClassification], ![PropClassification], !*{!Type}, !*LiftState)
lift_list modules cons_vars [] _ subst ls
= (False, [], [], [], subst, ls)
lift_list modules cons_vars ts0=:[t0:ts] [tk : tks] subst ls
# (changed, t, subst, ls) = lift modules cons_vars t0 subst ls
| changed
# (_, ts, sign_classes, prop_classes, subst, ls) = lift_list modules cons_vars ts tks subst ls
| IsArrowKind tk
# (sign_classes,prop_classes) = add_sign_and_prop_of_arrow_kind_in_lift t.at_type cons_vars sign_classes prop_classes
= (True,[t:ts],sign_classes,prop_classes,subst,ls)
= (True,[t:ts],sign_classes,prop_classes,subst,ls)
# (changed, ts, sign_classes, prop_classes, subst, ls) = lift_list modules cons_vars ts tks subst ls
| changed
| IsArrowKind tk
# (sign_classes,prop_classes) = add_sign_and_prop_of_arrow_kind_in_lift t.at_type cons_vars sign_classes prop_classes
= (True, [t0:ts], sign_classes,prop_classes, subst, ls)
= (True, [t:ts], sign_classes, prop_classes, subst, ls)
| IsArrowKind tk
# (sign_classes,prop_classes) = add_sign_and_prop_of_arrow_kind_in_lift t.at_type cons_vars sign_classes prop_classes
= (False, ts0, sign_classes, prop_classes, subst, ls)
= (False, ts0, sign_classes, prop_classes, subst, ls)
add_sign_and_prop_of_arrow_kind_in_lift (TA {type_arity,type_prop} _) cons_vars sign_classes prop_classes
= ([adjustSignClass type_prop.tsp_sign type_arity : sign_classes], [adjustPropClass type_prop.tsp_propagation type_arity : prop_classes])
add_sign_and_prop_of_arrow_kind_in_lift (TAS {type_arity,type_prop} _ _) cons_vars sign_classes prop_classes
= ([adjustSignClass type_prop.tsp_sign type_arity : sign_classes], [adjustPropClass type_prop.tsp_propagation type_arity : prop_classes])
add_sign_and_prop_of_arrow_kind_in_lift (TempV tmp_var_id) cons_vars sign_classes prop_classes
| isPositive tmp_var_id cons_vars
= ([PostiveSignClass : sign_classes], [PropClass : prop_classes])
= ([TopSignClass : sign_classes], [NoPropClass : prop_classes])
add_sign_and_prop_of_arrow_kind_in_lift _ cons_vars sign_classes prop_classes
= ([TopSignClass : sign_classes], [PropClass : prop_classes])
instance lift Type
where
lift modules cons_vars (TempV temp_var) subst ls
= liftTempTypeVariable modules cons_vars temp_var subst ls
lift modules cons_vars type=:(arg_type0 --> res_type0) subst ls
# (changed, arg_type, subst, ls) = lift modules cons_vars arg_type0 subst ls
| changed
# (changed, res_type, subst, ls) = lift modules cons_vars res_type0 subst ls
| changed
= (True, arg_type --> res_type, subst, ls)
= (True, arg_type --> res_type0, subst, ls)
# (changed, res_type, subst, ls) = lift modules cons_vars res_type0 subst ls
| changed
= (True, arg_type0 --> res_type, subst, ls)
= (False, type, subst, ls)
//AA..
lift modules cons_vars type=:(TArrow1 arg_type) subst ls
# (changed, arg_type, subst, ls) = lift modules cons_vars arg_type subst ls
| changed
= (True, TArrow1 arg_type, subst, ls)
= (False, type, subst, ls)
//..AA
lift modules cons_vars type=:(TA cons_id cons_args) subst ls=:{ls_type_heaps}
# (_, type, ls_type_heaps) = tryToExpand type TA_Multi modules ls_type_heaps
= liftTypeApplication modules cons_vars type subst {ls & ls_type_heaps = ls_type_heaps}
lift modules cons_vars type=:(TAS cons_id cons_args _) subst ls=:{ls_type_heaps}
# (_, type, ls_type_heaps) = tryToExpand type TA_Multi modules ls_type_heaps
= liftTypeApplication modules cons_vars type subst {ls & ls_type_heaps = ls_type_heaps}
lift modules cons_vars type=:(TempCV temp_var :@: types) subst ls
# (changed, var_type, subst, ls) = liftTempTypeVariable modules cons_vars temp_var subst ls
(changed_types, types, subst, ls) = lift_list modules cons_vars types subst ls
| changed || changed_types
= case var_type of
TA type_cons cons_args
-> (True, TA { type_cons & type_arity = type_cons.type_arity + length types } (cons_args ++ types), subst, ls)
TAS type_cons cons_args strictness
-> (True, TAS { type_cons & type_arity = type_cons.type_arity + length types } (cons_args ++ types) strictness, subst, ls)
TempV tv_number
-> (True, TempCV tv_number :@: types, subst, ls)
TempQV tv_number
-> (True, TempQCV tv_number :@: types, subst, ls)
cons_var :@: cv_types
-> (True, cons_var :@: (cv_types ++ types), subst, ls)
// AA..
TArrow -> case types of
[t1, t2] -> (True, t1 --> t2, subst, ls)
[t1] -> (True, TArrow1 t1, subst, ls)
_ -> (False, type, subst, ls)
(TArrow1 t1) -> case types of
[t2] -> (True, t1 --> t2, subst, ls)
_ -> (False, type, subst, ls)
// ..AA
= (False, type, subst, ls)
where
lift_list :: !{#CommonDefs} !{# BOOLVECT } ![a] !*{!Type} !*LiftState -> (!Bool,![a], !*{!Type}, !*LiftState) | lift a
lift_list modules cons_vars [] subst ls
= (False, [], subst, ls)
lift_list modules cons_vars ts0=:[t0:ts] subst ls
# (changed,t, subst, ls) = lift modules cons_vars t0 subst ls
| changed
# (_, ts, subst, ls) = lift_list modules cons_vars ts subst ls
= (True,[t:ts], subst, ls)
# (changed, ts, subst, ls) = lift_list modules cons_vars ts subst ls
| changed
= (True, [t0:ts], subst, ls)
= (False, ts0, subst, ls)
lift modules cons_vars (TFA vars type) subst ls
= abort "lift (TFA) (unitype.icl)"
lift modules cons_vars type subst ls
= (False, type, subst, ls)
instance lift AType
where
lift modules cons_vars attr_type=:{at_attribute,at_type} subst ls
# (changed, at_type, subst, ls) = lift modules cons_vars at_type subst ls
| changed
| typeIsNonCoercible cons_vars at_type
= (True, {attr_type & at_type = at_type },subst, ls)
= (True, {attr_type & at_attribute = TA_TempVar ls.ls_next_attr, at_type = at_type}, subst, {ls & ls_next_attr = inc ls.ls_next_attr})
| typeIsNonCoercible cons_vars at_type
= (False, attr_type,subst, ls)
= (True, {attr_type & at_attribute = TA_TempVar ls.ls_next_attr}, subst, {ls & ls_next_attr = inc ls.ls_next_attr})
:: ExpansionState =
{ es_type_heaps :: !.TypeHeaps
, es_td_infos :: !.TypeDefInfos
}
class expandType a :: !{# CommonDefs } !{# BOOLVECT } !a !*(!u:{! Type}, !*ExpansionState) -> (!Bool,!a, !*(!u:{! Type}, !*ExpansionState))
instance expandType AType
where
expandType modules cons_vars attr_type=:{at_type, at_attribute} (subst, es=:{es_type_heaps})
# (changed, at_attribute, th_attrs) = expand_attribute at_attribute es_type_heaps.th_attrs
| changed
# (_, at_type, subst_and_es) = expandType modules cons_vars at_type (subst, {es & es_type_heaps = { es_type_heaps & th_attrs = th_attrs }})
= (True, { attr_type & at_type = at_type, at_attribute = at_attribute }, subst_and_es)
# (changed, at_type, subst_and_es) = expandType modules cons_vars at_type (subst, {es & es_type_heaps = { es_type_heaps & th_attrs = th_attrs }})
| changed
= (True, { attr_type & at_type = at_type }, subst_and_es)
= (False, attr_type, subst_and_es)
where
expand_attribute :: TypeAttribute *(Heap AttrVarInfo) -> (!.Bool,TypeAttribute,!.Heap AttrVarInfo);
expand_attribute (TA_Var {av_name,av_info_ptr}) attr_var_heap
= case (readPtr av_info_ptr attr_var_heap) of
(AVI_Attr attr, attr_var_heap)
-> (True, attr, attr_var_heap)
(info, attr_var_heap)
-> abort ("expand_attribute (unitype.icl)" )//---> (av_name <<- info ))
expand_attribute attr attr_var_heap
= (False, attr, attr_var_heap)
expandTempTypeVariable :: !TempVarId !*(!u:{! Type}, !*ExpansionState) -> (!Bool, !Type, !*(!u:{! Type}, !*ExpansionState))
expandTempTypeVariable tv_number (subst, es)
# (type, subst) = subst![tv_number]
= case type of
TE
-> (False, TempV tv_number, (subst, es))
_
-> (True, type, (subst, es))
IsArrowKind (KindArrow _) = True
IsArrowKind _ = False
equal_type_prop {tsp_sign=sign0,tsp_propagation=prop0,tsp_coercible=coerc0} {tsp_sign=sign1,tsp_propagation=prop1,tsp_coercible=coerc1}
= prop0==prop1 && coerc0==coerc1 && sign0.sc_pos_vect==sign1.sc_pos_vect && sign0.sc_neg_vect==sign1.sc_neg_vect
instance expandType Type
where
expandType modules cons_vars (TempV tv_number) est
= expandTempTypeVariable tv_number est
expandType modules cons_vars (TV {tv_info_ptr}) (subst, es=:{es_type_heaps})
# (TVI_Type type, th_vars) = readPtr tv_info_ptr es_type_heaps.th_vars
= (True,type, (subst, {es & es_type_heaps = { es_type_heaps & th_vars = th_vars }}))
expandType modules cons_vars t0=:(arg_type0 --> res_type0) es
# (changed,arg_type, es) = expandType modules cons_vars arg_type0 es
| changed
# (changed,res_type, es) = expandType modules cons_vars res_type0 es
| changed
= (True,arg_type --> res_type, es)
= (True,arg_type --> res_type0, es)
# (changed,res_type, es) = expandType modules cons_vars res_type0 es
| changed
= (True,arg_type0 --> res_type, es)
= (False,t0, es)
//AA..
expandType modules cons_vars type=:(TArrow1 arg_type) es
# (changed,arg_type, es) = expandType modules cons_vars arg_type es
| changed
= (True, TArrow1 arg_type, es)
= (False, type, es)
//..AA
expandType modules cons_vars t0=:(TA cons_id=:{type_name, type_index={glob_object,glob_module},type_prop=type_prop0} cons_args) (subst, es)
# ({tdi_kinds}, es) = es!es_td_infos.[glob_module].[glob_object]
(changed,cons_args, hio_signs, hio_props, (subst,es=:{es_td_infos,es_type_heaps})) = expand_type_list modules cons_vars cons_args tdi_kinds (subst, es)
| changed
# (type_prop, th_vars, es_td_infos) = typeProperties glob_object glob_module hio_signs hio_props modules es_type_heaps.th_vars es_td_infos
| equal_type_prop type_prop type_prop0
# es = { es & es_td_infos = es_td_infos, es_type_heaps = { es_type_heaps & th_vars = th_vars }}
= (True,TA cons_id cons_args, (subst, es))
# es = { es & es_td_infos = es_td_infos, es_type_heaps = { es_type_heaps & th_vars = th_vars }}
= (True,TA { cons_id & type_prop = type_prop } cons_args, (subst, es))
# (type_prop, th_vars, es_td_infos) = typeProperties glob_object glob_module hio_signs hio_props modules es_type_heaps.th_vars es_td_infos
| equal_type_prop type_prop type_prop0
# es = { es & es_td_infos = es_td_infos, es_type_heaps = { es_type_heaps & th_vars = th_vars }}
= (False,t0, (subst, es))
# es = { es & es_td_infos = es_td_infos, es_type_heaps = { es_type_heaps & th_vars = th_vars }}
= (True,TA { cons_id & type_prop = type_prop } cons_args, (subst, es))
expandType modules cons_vars t0=:(TAS cons_id=:{type_name, type_index={glob_object,glob_module},type_prop=type_prop0} cons_args strictness) (subst, es)
# ({tdi_kinds}, es) = es!es_td_infos.[glob_module].[glob_object]
(changed,cons_args, hio_signs, hio_props, (subst,es=:{es_td_infos,es_type_heaps})) = expand_type_list modules cons_vars cons_args tdi_kinds (subst, es)
| changed
# (type_prop, th_vars, es_td_infos) = typeProperties glob_object glob_module hio_signs hio_props modules es_type_heaps.th_vars es_td_infos
| equal_type_prop type_prop type_prop0
# es = { es & es_td_infos = es_td_infos, es_type_heaps = { es_type_heaps & th_vars = th_vars }}
= (True,TAS cons_id cons_args strictness, (subst, es))
# es = { es & es_td_infos = es_td_infos, es_type_heaps = { es_type_heaps & th_vars = th_vars }}
= (True,TAS { cons_id & type_prop = type_prop } cons_args strictness, (subst, es))
# (type_prop, th_vars, es_td_infos) = typeProperties glob_object glob_module hio_signs hio_props modules es_type_heaps.th_vars es_td_infos
| equal_type_prop type_prop type_prop0
# es = { es & es_td_infos = es_td_infos, es_type_heaps = { es_type_heaps & th_vars = th_vars }}
= (False,t0, (subst, es))
# es = { es & es_td_infos = es_td_infos, es_type_heaps = { es_type_heaps & th_vars = th_vars }}
= (True,TAS { cons_id & type_prop = type_prop } cons_args strictness, (subst, es))
expandType modules cons_vars type=:(TempCV temp_var :@: types) es
# (changed_type, var_type, es) = expandTempTypeVariable temp_var es
(changed_types, types, es) = expandType modules cons_vars types es
| changed_type || changed_types
= case var_type of
TA type_cons=:{type_arity} cons_args
# nr_of_new_args = length types
-> (True, TA { type_cons & type_arity = type_arity + nr_of_new_args } (cons_args ++ types), es)
TAS type_cons=:{type_arity} cons_args strictness
# nr_of_new_args = length types
-> (True, TAS { type_cons & type_arity = type_arity + nr_of_new_args } (cons_args ++ types) strictness, es)
TempV tv_number
-> (True, TempCV tv_number :@: types, es)
TempQV tv_number
-> (True, TempQCV tv_number :@: types, es)
cons_var :@: cv_types
-> (True, cons_var :@: (cv_types ++ types), es)
// AA..
TArrow -> case types of
[t1, t2] -> (True, t1 --> t2, es)
[t1] -> (True, TArrow1 t1, es)
_ -> (False, type, es)
(TArrow1 t1) -> case types of
[t2] -> (True, t1 --> t2, es)
_ -> (False, type, es)
//..AA
= (False, type, es)
expandType modules cons_vars type es
= (False, type, es)
expand_type_list :: !{#CommonDefs} !{# BOOLVECT } ![AType] ![TypeKind] !(!u:{!Type}, !*ExpansionState)
-> (!Bool,![AType], ![SignClassification], ![PropClassification], !(!u:{!Type}, !*ExpansionState))
expand_type_list modules cons_vars [] _ es
= (False,[], [], [], es)
expand_type_list modules cons_vars ts0=:[t0:ts] [tk : tks] es
# (changed,t, es) = expandType modules cons_vars t0 es
| changed
# (_,ts, sign_classes, prop_classes, es) = expand_type_list modules cons_vars ts tks es
| IsArrowKind tk
# (sign_classes,prop_classes) = add_sign_and_prop_of_arrow_kind_in_expand t.at_type cons_vars sign_classes prop_classes;
= (True,[t:ts], sign_classes, prop_classes, es)
= (True,[t:ts], sign_classes, prop_classes, es)
# (changed,ts, sign_classes, prop_classes, es) = expand_type_list modules cons_vars ts tks es
| changed
| IsArrowKind tk
# (sign_classes,prop_classes) = add_sign_and_prop_of_arrow_kind_in_expand t.at_type cons_vars sign_classes prop_classes;
= (True,[t0:ts], sign_classes, prop_classes, es)
= (True,[t0:ts], sign_classes, prop_classes, es)
| IsArrowKind tk
# (sign_classes,prop_classes) = add_sign_and_prop_of_arrow_kind_in_expand t.at_type cons_vars sign_classes prop_classes;
= (False,ts0, sign_classes, prop_classes, es)
= (False,ts0, sign_classes, prop_classes, es)
add_sign_and_prop_of_arrow_kind_in_expand (TA {type_arity,type_prop} _) cons_vars sign_classes prop_classes
=([adjustSignClass type_prop.tsp_sign type_arity : sign_classes],[adjustPropClass type_prop.tsp_propagation type_arity : prop_classes])
add_sign_and_prop_of_arrow_kind_in_expand (TAS {type_arity,type_prop} _ _) cons_vars sign_classes prop_classes
=([adjustSignClass type_prop.tsp_sign type_arity : sign_classes],[adjustPropClass type_prop.tsp_propagation type_arity : prop_classes])
add_sign_and_prop_of_arrow_kind_in_expand ( TempV tmp_var_id) cons_vars sign_classes prop_classes
| isPositive tmp_var_id cons_vars
= ([PostiveSignClass : sign_classes], [PropClass : prop_classes])
= ([TopSignClass : sign_classes], [NoPropClass : prop_classes])
add_sign_and_prop_of_arrow_kind_in_expand _ cons_vars sign_classes prop_classes
= ([TopSignClass : sign_classes], [PropClass : prop_classes])
instance expandType [a] | expandType a
where
expandType modules cons_vars [] es
= (False,[],es)
expandType modules cons_vars types0=:[type0:types] es
# (changed, type, es) = expandType modules cons_vars type0 es
| changed
# (_, types, es) = expandType modules cons_vars types es
= (True, [type:types], es)
# (changed, types, es) = expandType modules cons_vars types es
| changed
= (True, [type0:types], es)
= (False, types0, es)
instance toInt TypeAttribute
where
toInt TA_Unique = AttrUni
toInt (TA_TempVar av_number) = av_number
toInt TA_Multi = AttrMulti
toInt TA_None = AttrMulti
toInt TA_PA_BUG = PA_BUG AttrExi (abort "toInt TA_PA_BUG")
:: CoercionState =
{ crc_type_heaps :: !.TypeHeaps
, crc_coercions :: !.Coercions
, crc_td_infos :: !.TypeDefInfos
}
:: TypePosition :== [Int]
/*
'coerceAttributes offered_attribute offered_attribute sign coercions' coerce offered_attribute to
offered_attribute according to sign. Failure is indicated by returning False as a result.
*/
coerceAttributes :: !.TypeAttribute !.TypeAttribute !.Sign *Coercions -> (!Bool,.Coercions);
/* Just Temporary */
coerceAttributes TA_PA_BUG dem_attr _ coercions
= PA_BUG (True, coercions) (abort "coerceAttributes TA_PA_BUG")
coerceAttributes _ TA_PA_BUG _ coercions
= PA_BUG (True, coercions) (abort "coerceAttributes TA_PA_BUG")
/* ... remove this !!!! */
coerceAttributes TA_Unique dem_attr {neg_sign} coercions
| not neg_sign
= (True, coercions)
coerceAttributes off_attr TA_Unique {pos_sign} coercions
| not pos_sign
= (True, coercions)
coerceAttributes off_attr TA_Multi {neg_sign} coercions
| not neg_sign
= (True, coercions)
coerceAttributes TA_Multi dem_attr {pos_sign} coercions
| not pos_sign
= (True, coercions)
coerceAttributes (TA_TempVar av_number) dem_attr {neg_sign} coercions=:{coer_demanded}
| not neg_sign && isUnique coer_demanded.[av_number]
= (True, coercions)
coerceAttributes off_attr (TA_TempVar av_number) {pos_sign} coercions=:{coer_demanded}
| not pos_sign && isUnique coer_demanded.[av_number]
= (True, coercions)
coerceAttributes (TA_TempVar av_number1) (TA_TempVar av_number2) {pos_sign,neg_sign} coercions
| av_number1 == av_number2
= (True, coercions)
| pos_sign
| neg_sign
# (ok, coercions) = new_inequality av_number1 av_number2 coercions
| ok
= new_inequality av_number2 av_number1 coercions
= (False, coercions)
= new_inequality av_number1 av_number2 coercions
| neg_sign
= new_inequality av_number2 av_number1 coercions
= (True, coercions)
where
new_inequality :: !Int !Int !*Coercions -> (!Bool, !*Coercions)
new_inequality off_attr dem_attr coercions=:{coer_demanded, coer_offered}
| isNonUnique coer_offered.[off_attr]
| isUnique coer_demanded.[dem_attr]
= (False, coercions)
= (True, makeNonUnique dem_attr coercions)
| isUnique coer_demanded.[dem_attr]
= (True, makeUnique off_attr coercions)
| isNonUnique coer_offered.[dem_attr] || isUnique coer_demanded.[off_attr]
= (True, coercions)
= (True, newInequality off_attr dem_attr coercions)
coerceAttributes TA_Unique (TA_TempVar av_number) {neg_sign} coercions=:{coer_offered}
| isNonUnique coer_offered.[av_number]
= (False, coercions)
= (True, makeUnique av_number coercions)// ---> "*** 1 ***"
coerceAttributes (TA_TempVar av_number) TA_Unique {pos_sign} coercions=:{coer_offered}
| isNonUnique coer_offered.[av_number]
= (False, coercions)
= (True, makeUnique av_number coercions)// ---> "*** 2 ***"
coerceAttributes TA_Multi (TA_TempVar av_number) {pos_sign} coercions=:{coer_demanded}
| isUnique coer_demanded.[av_number]
= (False, coercions)
= (True, makeNonUnique av_number coercions)
coerceAttributes (TA_TempVar av_number) TA_Multi {neg_sign} coercions=:{coer_demanded}
| isUnique coer_demanded.[av_number]
= (False, coercions)
= (True, makeNonUnique av_number coercions)
coerceAttributes TA_Unique TA_Multi _ coercions
= (False, coercions)
coerceAttributes TA_Multi TA_Unique _ coercions
= (False, coercions)
coerceAttributes off_attr dem_attr _ coercions
= (True, coercions)
newInequality :: !Int !Int !*Coercions -> *Coercions
newInequality off_attr dem_attr coercions=:{coer_demanded, coer_offered}
# (dem_coercions, coer_demanded) = replace coer_demanded off_attr CT_Empty
(succ, dem_coercions) = insert dem_attr dem_coercions
coer_demanded = { coer_demanded & [off_attr] = dem_coercions }
| succ
# (off_coercions, coer_offered) = replace coer_offered dem_attr CT_Empty
(succ, off_coercions) = insert off_attr off_coercions
coer_offered = { coer_offered & [dem_attr] = off_coercions }
= {coer_demanded = coer_demanded, coer_offered = coer_offered}
= {coer_demanded = coer_demanded, coer_offered = coer_offered}
where
insert :: !Int !*CoercionTree -> (!Bool, !*CoercionTree)
insert new_attr CT_Empty
= (True, CT_Node new_attr CT_Empty CT_Empty)
insert new_attr (CT_Node this_attr ct_less ct_greater)
| new_attr < this_attr
# (succ, ct_less) = insert new_attr ct_less
= (succ, CT_Node this_attr ct_less ct_greater)
| new_attr > this_attr
# (succ, ct_greater) = insert new_attr ct_greater
= (succ, CT_Node this_attr ct_less ct_greater)
= (False, CT_Node this_attr ct_less ct_greater)
isNonUnique :: !CoercionTree -> Bool
isNonUnique CT_NonUnique = True
isNonUnique _ = False
isUnique :: !CoercionTree -> Bool
isUnique CT_Unique = True
isUnique _ = False
isExistential :: !CoercionTree -> Bool
isExistential CT_Existential = True
isExistential _ = False
isUniqueAttribute :: !Int !Coercions -> Bool
isUniqueAttribute attr_number {coer_demanded}
= isUnique coer_demanded.[attr_number]
isNonUniqueAttribute :: !Int !Coercions -> Bool
isNonUniqueAttribute attr_number {coer_offered}
= isNonUnique coer_offered.[attr_number]
makeUnique :: !Int !*Coercions -> *Coercions
makeUnique attr {coer_demanded, coer_offered}
# (off_coercions, coer_offered) = replace coer_offered attr CT_Empty
coer_demanded = { coer_demanded & [attr] = CT_Unique }
= make_unique off_coercions {coer_offered = coer_offered, coer_demanded = coer_demanded}// ---> ("makeUnique :", attr)
where
// JVG added type:
make_unique :: !CoercionTree !*Coercions -> *Coercions;
make_unique (CT_Node this_attr ct_less ct_greater) coercions
# coercions = makeUnique this_attr coercions
coercions = make_unique ct_less coercions
coercions = make_unique ct_greater coercions
= coercions
make_unique tree coercions
= coercions
tryToMakeUnique :: !Int !*Coercions -> (!Bool, !*Coercions)
tryToMakeUnique attr coercions=:{coer_offered}
| isNonUnique coer_offered.[attr]
= (False, coercions)
= (True, makeUnique attr coercions)
makeNonUnique :: !Int !*Coercions -> *Coercions
makeNonUnique attr {coer_demanded, coer_offered}
# (dem_coercions, coer_demanded) = replace coer_demanded attr CT_Empty
coer_offered = { coer_offered & [attr] = CT_NonUnique }
= make_non_unique dem_coercions {coer_offered = coer_offered, coer_demanded = coer_demanded}
// ---> ("makeNonUnique", attr)
where
// JVG added type:
make_non_unique :: !CoercionTree !*Coercions -> *Coercions;
make_non_unique (CT_Node this_attr ct_less ct_greater) coercions
# coercions = makeNonUnique this_attr coercions
coercions = make_non_unique ct_less coercions
coercions = make_non_unique ct_greater coercions
= coercions
make_non_unique tree coercions
= coercions
tryToMakeNonUnique :: !Int !*Coercions -> (!Bool, !*Coercions)
tryToMakeNonUnique attr coercions=:{coer_demanded}
#! s = size coer_demanded
| isUnique coer_demanded.[attr]
// -?-> (s <= attr, ("tryToMakeNonUnique", s, attr))]
= (False, coercions)
= (True, makeNonUnique attr coercions)
// ---> ("tryToMakeNonUnique", attr)
class coerce a :: !Sign !{# CommonDefs} !{# BOOLVECT} !TypePosition !a !a !*CoercionState -> (!Optional TypePosition, !*CoercionState)
Success No = True
Success (Yes _) = False
instance coerce AType
where
coerce sign defs cons_vars tpos at1=:{at_attribute=attr1, at_type = type1} at2=:{at_attribute=attr2} cs=:{crc_coercions}
#!attr_sign = adjust_sign sign type1 cons_vars
(succ, crc_coercions) = coerceAttributes attr1 attr2 attr_sign crc_coercions
| succ
# (succ, cs) = coerceTypes sign defs cons_vars tpos at1 at2 { cs & crc_coercions = crc_coercions }
| Success succ
# (succ1, crc_coercions) = add_propagation_inequalities cons_vars attr1 type1 cs.crc_coercions
(succ2, crc_coercions) = add_propagation_inequalities cons_vars attr2 at2.at_type crc_coercions
= (if (succ1 && succ2) No (Yes tpos), { cs & crc_coercions = crc_coercions })
= (succ, cs)
= (Yes tpos, { cs & crc_coercions = crc_coercions })
where
adjust_sign :: !Sign !Type {# BOOLVECT} -> Sign
adjust_sign sign (TempV _) cons_vars
= TopSign
adjust_sign sign (TempQV _) cons_vars
= TopSign
adjust_sign sign (_ --> _) cons_vars
= TopSign
//AA..
adjust_sign sign TArrow cons_vars
= TopSign
adjust_sign sign (TArrow1 _) cons_vars
= TopSign
//..AA
adjust_sign sign (TempCV tmp_var_id :@: _) cons_vars
| isPositive tmp_var_id cons_vars
= sign
= TopSign
adjust_sign sign (_ :@: _) cons_vars
= TopSign
adjust_sign sign (TA {type_name, type_prop={tsp_coercible}} _) cons_vars
| tsp_coercible
= sign
= TopSign
adjust_sign sign (TAS {type_name, type_prop={tsp_coercible}} _ _) cons_vars
| tsp_coercible
= sign
= TopSign
adjust_sign sign _ cons_vars
= sign
add_propagation_inequalities cons_vars attr (TA {type_prop={tsp_propagation}} cons_args) coercions
= add_inequalities_for_TA tsp_propagation attr cons_args coercions
add_propagation_inequalities cons_vars attr (TAS {type_prop={tsp_propagation}} cons_args _) coercions
= add_inequalities_for_TA tsp_propagation attr cons_args coercions
add_propagation_inequalities cons_vars attr (TempCV tmp_var_id :@: types) coercions
| isPositive tmp_var_id cons_vars
= add_inequalities attr types coercions
= (True, coercions)
where
add_inequalities attr [] coercions
= (True, coercions)
add_inequalities attr [{at_attribute} : args] coercions
# (succ, coercions) = coerceAttributes attr at_attribute PositiveSign coercions
| succ
= add_inequalities attr args coercions
= (False, coercions)
add_propagation_inequalities cons_vars attr type coercions
= (True, coercions)
add_inequalities_for_TA prop_class attr [] coercions
= (True, coercions)
add_inequalities_for_TA prop_class attr [{at_attribute} : args] coercions
| (prop_class bitand 1) == 0
= add_inequalities_for_TA (prop_class >> 1) attr args coercions
# (succ, coercions) = coerceAttributes attr at_attribute PositiveSign coercions
| succ
= add_inequalities_for_TA (prop_class >> 1) attr args coercions
= (False, coercions)
tryToExpandTypeSyn :: !{#CommonDefs} !{#BOOLVECT} !Type !TypeSymbIdent ![AType] !TypeAttribute !*TypeHeaps !*TypeDefInfos
-> (!Bool, !Type, !*TypeHeaps, !*TypeDefInfos)
tryToExpandTypeSyn defs cons_vars type cons_id=:{type_index={glob_object,glob_module}} type_args attribute type_heaps td_infos
# {td_rhs,td_args,td_attribute,td_name} = defs.[glob_module].com_type_defs.[glob_object]
= case td_rhs of
SynType {at_type}
# type_heaps = bindTypeVarsAndAttributes td_attribute attribute td_args type_args type_heaps
(_, expanded_type, (_, {es_type_heaps, es_td_infos})) = expandType defs cons_vars at_type
({}, { es_type_heaps = type_heaps, es_td_infos = td_infos })
-> (True, expanded_type, clearBindingsOfTypeVarsAndAttributes attribute td_args es_type_heaps, es_td_infos)
_
-> (False, type/*TA cons_id type_args*/, type_heaps, td_infos)
coerceTypes :: !Sign !{# CommonDefs} !{# BOOLVECT} !TypePosition !AType !AType !*CoercionState -> (!Optional TypePosition, !*CoercionState)
coerceTypes sign defs cons_vars tpos dem_type=:{at_type=type1=:TA dem_cons dem_args} off_type=:{at_type=type2=:TA off_cons off_args} cs=:{crc_type_heaps, crc_td_infos}
| dem_cons == off_cons
= coercions_of_arg_types sign defs cons_vars tpos dem_args off_args dem_cons.type_prop.tsp_sign 0 cs
# (_, exp_dem_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type1 dem_cons dem_args dem_type.at_attribute crc_type_heaps crc_td_infos
(_, exp_off_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type2 off_cons off_args off_type.at_attribute crc_type_heaps crc_td_infos
= coerceTypes sign defs cons_vars tpos { dem_type & at_type = exp_dem_type } { off_type & at_type = exp_off_type }
{ cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos }
coerceTypes sign defs cons_vars tpos dem_type=:{at_type=type1=:TA dem_cons dem_args} off_type=:{at_type=type2=:TAS off_cons off_args _} cs=:{crc_type_heaps, crc_td_infos}
| dem_cons == off_cons
= coercions_of_arg_types sign defs cons_vars tpos dem_args off_args dem_cons.type_prop.tsp_sign 0 cs
# (_, exp_dem_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type1 dem_cons dem_args dem_type.at_attribute crc_type_heaps crc_td_infos
(_, exp_off_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type2 off_cons off_args off_type.at_attribute crc_type_heaps crc_td_infos
= coerceTypes sign defs cons_vars tpos { dem_type & at_type = exp_dem_type } { off_type & at_type = exp_off_type }
{ cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos }
coerceTypes sign defs cons_vars tpos dem_type=:{at_type=type1=:TAS dem_cons dem_args _} off_type=:{at_type=type2=:TA off_cons off_args} cs=:{crc_type_heaps, crc_td_infos}
| dem_cons == off_cons
= coercions_of_arg_types sign defs cons_vars tpos dem_args off_args dem_cons.type_prop.tsp_sign 0 cs
# (_, exp_dem_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type1 dem_cons dem_args dem_type.at_attribute crc_type_heaps crc_td_infos
(_, exp_off_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type2 off_cons off_args off_type.at_attribute crc_type_heaps crc_td_infos
= coerceTypes sign defs cons_vars tpos { dem_type & at_type = exp_dem_type } { off_type & at_type = exp_off_type }
{ cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos }
coerceTypes sign defs cons_vars tpos dem_type=:{at_type=type1=:TAS dem_cons dem_args _} off_type=:{at_type=type2=:TAS off_cons off_args _} cs=:{crc_type_heaps, crc_td_infos}
| dem_cons == off_cons
= coercions_of_arg_types sign defs cons_vars tpos dem_args off_args dem_cons.type_prop.tsp_sign 0 cs
# (_, exp_dem_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type1 dem_cons dem_args dem_type.at_attribute crc_type_heaps crc_td_infos
(_, exp_off_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type2 off_cons off_args off_type.at_attribute crc_type_heaps crc_td_infos
= coerceTypes sign defs cons_vars tpos { dem_type & at_type = exp_dem_type } { off_type & at_type = exp_off_type }
{ cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos }
coerceTypes sign defs cons_vars tpos dem_type=:{at_type=type=:TA dem_cons dem_args} off_type cs=:{crc_type_heaps, crc_td_infos}
# (succ, exp_dem_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type dem_cons dem_args dem_type.at_attribute crc_type_heaps crc_td_infos
| succ
= coerceTypes sign defs cons_vars tpos { dem_type & at_type = exp_dem_type } off_type
{ cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos }
= (No, { cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos })
coerceTypes sign defs cons_vars tpos dem_type=:{at_type=type=:TAS dem_cons dem_args _} off_type cs=:{crc_type_heaps, crc_td_infos}
# (succ, exp_dem_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type dem_cons dem_args dem_type.at_attribute crc_type_heaps crc_td_infos
| succ
= coerceTypes sign defs cons_vars tpos { dem_type & at_type = exp_dem_type } off_type
{ cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos }
= (No, { cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos })
coerceTypes sign defs cons_vars tpos dem_type off_type=:{at_type=type=:TAS off_cons off_args _} cs=:{crc_type_heaps, crc_td_infos}
# (succ, exp_off_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type off_cons off_args off_type.at_attribute crc_type_heaps crc_td_infos
| succ
= coerceTypes sign defs cons_vars tpos dem_type { off_type & at_type = exp_off_type }
{ cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos }
= (No, { cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos })
coerceTypes sign defs cons_vars tpos dem_type off_type=:{at_type=type=:TA off_cons off_args} cs=:{crc_type_heaps, crc_td_infos}
# (succ, exp_off_type, crc_type_heaps, crc_td_infos) = tryToExpandTypeSyn defs cons_vars type off_cons off_args off_type.at_attribute crc_type_heaps crc_td_infos
| succ
= coerceTypes sign defs cons_vars tpos dem_type { off_type & at_type = exp_off_type }
{ cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos }
= (No, { cs & crc_type_heaps = crc_type_heaps, crc_td_infos = crc_td_infos })
coerceTypes sign defs cons_vars tpos {at_type = arg_type1 --> res_type1} {at_type = arg_type2 --> res_type2} cs
# arg_sign = NegativeSign * sign
# (succ, cs) = coerce arg_sign defs cons_vars [0 : tpos] arg_type1 arg_type2 cs
| Success succ
= coerce sign defs cons_vars [1 : tpos] res_type1 res_type2 cs
= (succ, cs)
//AA..
coerceTypes sign defs cons_vars tpos {at_type = TArrow} {at_type = TArrow} cs
= (No, cs) // ???
coerceTypes sign defs cons_vars tpos {at_type = TArrow1 arg_type1} {at_type = TArrow1 arg_type2} cs
# arg_sign = NegativeSign * sign
= coerce arg_sign defs cons_vars [0 : tpos] arg_type1 arg_type2 cs
//..AA
coerceTypes sign defs cons_vars tpos {at_type = cons_var :@: types1} {at_type = _ :@: types2} cs
# sign = determine_sign_of_arg_types sign cons_var cons_vars
= coercions_of_type_list sign defs cons_vars tpos 0 types1 types2 cs
where
determine_sign_of_arg_types sign (TempCV tmp_var_id) cons_vars
| isPositive tmp_var_id cons_vars
= sign
= TopSign
determine_sign_of_arg_types _ _ cons_vars
= TopSign
coercions_of_type_list sign defs cons_vars tpos arg_number [t1 : ts1] [t2 : ts2] cs
# (succ, cs) = coerce sign defs cons_vars [arg_number : tpos] t1 t2 cs
| Success succ
= coercions_of_type_list sign defs cons_vars tpos (inc arg_number) ts1 ts2 cs
= (succ, cs)
coercions_of_type_list sign defs cons_vars tpos arg_number [] [] cs
= (No, cs)
coerceTypes sign defs cons_vars tpos _ _ cs
= (No, cs)
coercions_of_arg_types sign defs cons_vars tpos [t1 : ts1] [t2 : ts2] sign_class arg_number cs
# arg_sign = sign * signClassToSign sign_class arg_number
(succ, cs) = coerce arg_sign defs cons_vars [arg_number : tpos] t1 t2 cs
| Success succ
= coercions_of_arg_types sign defs cons_vars tpos ts1 ts2 sign_class (inc arg_number) cs
= (succ, cs)
coercions_of_arg_types sign defs cons_vars tpos [] [] _ _ cs
= (No, cs)
AttrRestricted :== 0
instance <<< CoercionTree
where
(<<<) file (CT_Node attr left right) = file <<< left <<< ' ' <<< attr <<< ' ' <<< right
(<<<) file CT_Unique = file <<< "CT_Unique"
(<<<) file CT_NonUnique = file <<< "CT_NonUnique"
(<<<) file CT_Empty = file <<< "##"
set_bit :: !Int !*{# BOOLVECT} -> .{# BOOLVECT}
set_bit var_number bitvects
# bit_index = BITINDEX var_number
(prev_vect, bitvects) = bitvects![bit_index]
= { bitvects & [bit_index] = prev_vect bitor (1 << BITNUMBER var_number) }
checkExistentionalAttributeVars :: [TempAttrId] !AttributePartition !*{! CoercionTree} -> (!Bool,!*{! CoercionTree})
checkExistentionalAttributeVars tmp_attr_vars partition coercions
= foldSt (check_existentional_attribute_var partition) tmp_attr_vars (True, coercions)
where
check_existentional_attribute_var partition tmp_attr (ok, coercions)
# av_group_nr = partition.[tmp_attr]
(coercion_tree,coercions) = coercions![av_group_nr]
= check_demanded_attribute_vars av_group_nr coercion_tree partition (ok, coercions)
check_demanded_attribute_vars av_group_nr (CT_Node dem_attr left right) partition (ok, coercions)
# (ok, coercions) = check_existentional_attribute_var partition dem_attr (ok, { coercions & [av_group_nr] = CT_Existential })
| ok
# ok_coercions = check_demanded_attribute_vars av_group_nr left partition (True, coercions)
= check_demanded_attribute_vars av_group_nr right partition ok_coercions
= (False, coercions)
check_demanded_attribute_vars av_group_nr CT_Empty partition ok_coercions
= ok_coercions
check_demanded_attribute_vars av_group_nr _ partition (ok, coercions)
= (False, coercions)
copyCoercions :: *Coercions -> (*Coercions, *Coercions)
copyCoercions coercions=:{coer_demanded, coer_offered}
# (coer_demanded_copy, coer_demanded) = copy_coercion_trees coer_demanded
# (coer_offered_copy, coer_offered) = copy_coercion_trees coer_offered
= ({coercions & coer_demanded = coer_demanded, coer_offered = coer_offered}, {coercions & coer_demanded = coer_demanded_copy, coer_offered = coer_offered_copy})
where
copy_coercion_trees trees
= arrayAndElementsCopy CT_Empty copy_coercion_tree trees
copy_coercion_tree (CT_Node attr left right)
# (copy_left, left) = copy_coercion_tree left
# (copy_right, right) = copy_coercion_tree right
= (CT_Node attr copy_left copy_right, CT_Node attr left right)
copy_coercion_tree tree=:CT_Empty
= (CT_Empty, tree)
copy_coercion_tree tree=:CT_Unique
= (CT_Unique, tree)
copy_coercion_tree tree=:CT_NonUnique
= (CT_NonUnique, tree)
copy_coercion_tree tree=:CT_Existential
= (CT_Existential, tree)
