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|
%---------------------------------------------------------------------------%
% Copyright (C) 1996-1999 The University of Melbourne.
% This file may only be copied under the terms of the GNU General
% Public License - see the file COPYING in the Mercury distribution.
%---------------------------------------------------------------------------%
%
% This module checks conformance of instance declarations to the typeclass
% declaration.
%
% It does so by, for every method of every instance, generating a new pred
% whose types and modes are as expected by the typeclass declaration and
% whose body just calls the implementation provided by the instance
% declaration.
%
% eg. given the declarations:
%
% :- typeclass c(T) where [
% pred m(T::in, T::out) is semidet
% ].
%
% :- instance c(int) where [
% pred(m/2) is my_m
% ].
%
% The correctness of my_m/2 as an implementation of m/2 is checked by
% generating the new predicate:
%
% :- pred 'implementation of m/2'(int::in, int::out) is semidet.
%
% 'implementation of m/2'(HeadVar_1, HeadVar_2) :-
% my_m(HeadVar_1, HeadVar_2).
%
% By generating the new pred, we check the instance method for type, mode,
% determinism and uniqueness correctness since the generated pred is checked
% in each of those passes too.
%
% In addition, this pass checks that all superclass constraints are satisfied
% by the instance declaration.
%
% This pass fills in the super class proofs and instance method pred/proc ids
% in the instance table of the HLDS.
%
% Author: dgj.
%
%---------------------------------------------------------------------------%
:- module check_typeclass.
:- interface.
:- import_module hlds_module, bool, io.
:- pred check_typeclass__check_instance_decls(module_info, module_info, bool,
io__state, io__state).
:- mode check_typeclass__check_instance_decls(in, out, out, di, uo) is det.
:- implementation.
:- import_module map, list, std_util, hlds_pred, hlds_data, prog_data, require.
:- import_module type_util, assoc_list, mode_util, inst_match, hlds_module.
:- import_module typecheck, int, globals, options, make_hlds, error_util.
:- import_module base_typeclass_info, string, hlds_goal, set, prog_out.
:- import_module mercury_to_mercury, varset, term.
:- type error_message == pair(prog_context, list(format_component)).
:- type error_messages == list(error_message).
check_typeclass__check_instance_decls(ModuleInfo0, ModuleInfo, FoundError,
IO0, IO) :-
module_info_classes(ModuleInfo0, ClassTable),
module_info_instances(ModuleInfo0, InstanceTable0),
map__to_assoc_list(InstanceTable0, InstanceList0),
list__map_foldl(check_one_class(ClassTable), InstanceList0,
InstanceList, [] - ModuleInfo0, Errors - ModuleInfo1),
(
Errors = []
->
map__from_assoc_list(InstanceList, InstanceTable),
module_info_set_instances(ModuleInfo1, InstanceTable,
ModuleInfo),
IO = IO0,
FoundError = no
;
ModuleInfo = ModuleInfo1,
list__reverse(Errors, ErrorList),
WriteError = lambda([E::in, TheIO0::di, TheIO::uo] is det,
(
E = ErrorContext - ErrorPieces,
write_error_pieces(ErrorContext, 0,
ErrorPieces, TheIO0, TheIO)
)),
list__foldl(WriteError, ErrorList, IO0, IO1),
io__set_exit_status(1, IO1, IO),
FoundError = yes
).
% check all the instances of one class.
:- pred check_one_class(class_table,
pair(class_id, list(hlds_instance_defn)),
pair(class_id, list(hlds_instance_defn)),
pair(error_messages, module_info),
pair(error_messages, module_info)).
:- mode check_one_class(in, in, out, in, out) is det.
check_one_class(ClassTable, ClassId - InstanceDefns0,
ClassId - InstanceDefns, ModuleInfo0, ModuleInfo) :-
map__lookup(ClassTable, ClassId, ClassDefn),
ClassDefn = hlds_class_defn(_, SuperClasses, ClassVars, _,
ClassInterface, ClassVarSet, _TermContext),
solutions(
lambda([PredId::out] is nondet,
(
list__member(ClassProc, ClassInterface),
ClassProc = hlds_class_proc(PredId, _)
)),
PredIds),
list__map_foldl(check_class_instance(ClassId, SuperClasses, ClassVars,
ClassInterface, ClassVarSet,
PredIds),
InstanceDefns0, InstanceDefns,
ModuleInfo0, ModuleInfo).
% check one instance of one class
:- pred check_class_instance(class_id, list(class_constraint), list(tvar),
hlds_class_interface, tvarset, list(pred_id),
hlds_instance_defn, hlds_instance_defn,
pair(error_messages, module_info),
pair(error_messages, module_info)).
:- mode check_class_instance(in, in, in, in, in, in, in, out, in, out) is det.
check_class_instance(ClassId, SuperClasses, Vars, ClassInterface, ClassVarSet,
PredIds, InstanceDefn0, InstanceDefn,
Errors0 - ModuleInfo0, Errors - ModuleInfo):-
% check conformance of the instance body
InstanceDefn0 = hlds_instance_defn(_, _, _, _, InstanceBody, _, _, _),
(
InstanceBody = abstract,
InstanceDefn2 = InstanceDefn0,
ModuleInfo1 = ModuleInfo0,
Errors2 = Errors0
;
InstanceBody = concrete(InstanceMethods),
list__foldl2(
check_instance_pred(ClassId, Vars, ClassInterface),
PredIds, InstanceDefn0, InstanceDefn1,
Errors0 - ModuleInfo0, Errors1 - ModuleInfo1),
%
% We need to make sure that the MaybePredProcs field is
% set to yes(_) after this pass. Normally that will be
% handled by check_instance_pred, but we also need to handle
% it below, in case the class has no methods.
%
InstanceDefn1 = hlds_instance_defn(A, B, C, D, E,
MaybePredProcs1, G, H),
(
MaybePredProcs1 = yes(_),
MaybePredProcs2 = MaybePredProcs1
;
MaybePredProcs1 = no,
MaybePredProcs2 = yes([])
),
InstanceDefn2 = hlds_instance_defn(A, B, C, D, E,
MaybePredProcs2, G, H),
%
% Check if there are any instance methods left over,
% for which we did not produce a pred_id/proc_id;
% if there are any, the instance declaration must have
% specified some methods that don't occur in the class.
%
InstanceDefn2 = hlds_instance_defn(_, Context, _, _,
_, MaybePredProcs, _, _),
(
MaybePredProcs = yes(PredProcs),
% Check that we wind with a procedure for each
% proc in the type class interface.
list__same_length(PredProcs, ClassInterface),
% Check that we wind with a pred for each
% pred in the instance class interface.
list__map((pred(PP::in, P::out) is det :-
PP = hlds_class_proc(P, _)), PredProcs, Preds0),
list__remove_dups(Preds0, Preds),
list__same_length(Preds, InstanceMethods)
->
Errors2 = Errors1
;
ClassId = class_id(ClassName, ClassArity),
prog_out__sym_name_to_string(ClassName,
ClassNameString),
string__int_to_string(ClassArity, ClassArityString),
string__append_list([
"In instance declaration for `",
ClassNameString, "/", ClassArityString, "': ",
"incorrect method name(s)."],
NewError),
Errors2 = [Context - [words(NewError)] | Errors1]
)
),
% check that the superclass constraints are satisfied for the
% types in this instance declaration
check_superclass_conformance(ClassId, SuperClasses, Vars, ClassVarSet,
InstanceDefn2, InstanceDefn,
Errors2 - ModuleInfo1, Errors - ModuleInfo).
%----------------------------------------------------------------------------%
% This structure holds the information about a particular instance
% method
:- type instance_method_info ---> instance_method_info(
module_info,
sym_name, % Name that the
% introduced pred
% should be given.
arity, % Arity of the method.
existq_tvars, % Existentially quant.
% type variables
list(type), % Expected types of
% arguments.
class_constraints, % Constraints from
% class method.
list(pair(list(mode), determinism)), % Modes and
% determinisms of the
% required procs.
error_messages, % Error messages
% that have been
% generated.
tvarset,
import_status, % Import status of
% instance decl.
pred_or_func % Is method pred or
% func?
).
%----------------------------------------------------------------------------%
% check one pred in one instance of one class
:- pred check_instance_pred(class_id, list(tvar), hlds_class_interface,
pred_id, hlds_instance_defn, hlds_instance_defn,
pair(error_messages, module_info), pair(error_messages, module_info)).
:- mode check_instance_pred(in,in, in, in, in, out, in, out) is det.
check_instance_pred(ClassId, ClassVars, ClassInterface, PredId,
InstanceDefn0, InstanceDefn,
Errors0 - ModuleInfo0, Errors - ModuleInfo):-
solutions(
lambda([ProcId::out] is nondet,
(
list__member(ClassProc, ClassInterface),
ClassProc = hlds_class_proc(PredId, ProcId)
)),
ProcIds),
module_info_pred_info(ModuleInfo0, PredId, PredInfo),
pred_info_arg_types(PredInfo, ArgTypeVars, ExistQVars, ArgTypes),
pred_info_get_class_context(PredInfo, ClassContext0),
% The first constraint in the class context of a class method
% is always the constraint for the class of which it is
% a member. Seeing that we are checking an instance
% declaration, we don't check that constraint... the instance
% declaration itself satisfies it!
(
ClassContext0 = constraints([_|OtherUnivCs], ExistCs)
->
UnivCs = OtherUnivCs,
ClassContext = constraints(UnivCs, ExistCs)
;
error("check_instance_pred: no constraint on class method")
),
pred_info_name(PredInfo, MethodName0),
pred_info_module(PredInfo, PredModule),
MethodName = qualified(PredModule, MethodName0),
pred_info_arity(PredInfo, PredArity),
pred_info_get_is_pred_or_func(PredInfo, PredOrFunc),
pred_info_procedures(PredInfo, ProcTable),
list__map(
lambda([TheProcId::in, ModesAndDetism::out] is det,
(
map__lookup(ProcTable, TheProcId, ProcInfo),
proc_info_argmodes(ProcInfo, Modes),
proc_info_interface_determinism(ProcInfo,
Detism),
ModesAndDetism = Modes - Detism
)),
ProcIds,
ArgModes),
InstanceDefn0 = hlds_instance_defn(Status, _, _, InstanceTypes,
_, _, _, _),
% Work out the name of the predicate that we will generate
% to check this instance method.
make_introduced_pred_name(ClassId, MethodName, PredArity,
InstanceTypes, PredName),
Info0 = instance_method_info(ModuleInfo0, PredName, PredArity,
ExistQVars, ArgTypes, ClassContext, ArgModes, Errors0,
ArgTypeVars, Status, PredOrFunc),
check_instance_pred_procs(ClassId, ClassVars, MethodName,
InstanceDefn0, InstanceDefn, Info0, Info),
Info = instance_method_info(ModuleInfo, _PredName, _PredArity,
_ExistQVars, _ArgTypes, _ClassContext, _ArgModes, Errors,
_ArgTypeVars, _Status, _PredOrFunc).
:- pred check_instance_pred_procs(class_id, list(tvar), sym_name,
hlds_instance_defn, hlds_instance_defn,
instance_method_info, instance_method_info).
:- mode check_instance_pred_procs(in, in, in, in, out, in, out) is det.
check_instance_pred_procs(ClassId, ClassVars, MethodName, InstanceDefn0,
InstanceDefn, Info0, Info) :-
InstanceDefn0 = hlds_instance_defn(A, InstanceContext,
InstanceConstraints, InstanceTypes,
InstanceBody, MaybeInstancePredProcs,
InstanceVarSet, H),
Info0 = instance_method_info(ModuleInfo, PredName, PredArity,
ExistQVars, ArgTypes, ClassContext, ArgModes, Errors0,
ArgTypeVars, Status, PredOrFunc),
get_matching_instance_names(InstanceBody, PredOrFunc, MethodName,
PredArity, InstanceNames),
(
InstanceNames = [InstancePredName - Context]
->
produce_auxiliary_procs(ClassVars,
InstanceTypes, InstanceConstraints,
InstanceVarSet,
InstancePredName, Context,
InstancePredId, InstanceProcIds, Info0, Info),
MakeClassProc =
lambda([TheProcId::in, PredProcId::out] is det,
(
PredProcId = hlds_class_proc(InstancePredId,
TheProcId)
)),
list__map(MakeClassProc, InstanceProcIds, InstancePredProcs1),
(
MaybeInstancePredProcs = yes(InstancePredProcs0),
list__append(InstancePredProcs0,
InstancePredProcs1, InstancePredProcs)
;
MaybeInstancePredProcs = no,
InstancePredProcs = InstancePredProcs1
),
InstanceDefn = hlds_instance_defn(A, Context,
InstanceConstraints, InstanceTypes, InstanceBody,
yes(InstancePredProcs), InstanceVarSet, H)
;
InstanceNames = [I1, I2 | Is]
->
% one kind of error
InstanceDefn = InstanceDefn0,
ClassId = class_id(ClassName, _ClassArity),
prog_out__sym_name_to_string(MethodName, MethodNameString),
prog_out__sym_name_to_string(ClassName, ClassNameString),
(
PredOrFunc = predicate,
PredOrFuncString = "predicate",
RealPredArity = PredArity
;
PredOrFunc = function,
PredOrFuncString = "function",
RealPredArity = PredArity - 1
),
string__int_to_string(RealPredArity, PredArityString),
mercury_type_list_to_string(InstanceVarSet, InstanceTypes,
InstanceTypesString),
string__append_list([
"In instance declaration for `",
ClassNameString, "(", InstanceTypesString, ")': ",
"multiple implementations of type class ",
PredOrFuncString, " method `",
MethodNameString, "/", PredArityString, "'."],
ErrorHeader),
I1 = _ - I1Context,
Heading =
[I1Context - [words("First definition appears here.")],
InstanceContext - [words(ErrorHeader)]],
list__map(lambda([Definition::in, ContextAndError::out] is det,
(
Definition = _ - TheContext,
Error = [words("Subsequent definition appears here.")],
ContextAndError = TheContext - Error
)), [I2|Is], SubsequentErrors),
% errors are built up in reverse.
list__append(SubsequentErrors, Heading, NewErrors),
list__append(NewErrors, Errors0, Errors),
Info = instance_method_info(ModuleInfo, PredName, PredArity,
ExistQVars, ArgTypes, ClassContext, ArgModes, Errors,
ArgTypeVars, Status, PredOrFunc)
;
% another kind of error
InstanceDefn = InstanceDefn0,
ClassId = class_id(ClassName, _ClassArity),
prog_out__sym_name_to_string(MethodName, MethodNameString),
prog_out__sym_name_to_string(ClassName, ClassNameString),
(
PredOrFunc = predicate,
PredOrFuncString = "predicate",
RealPredArity = PredArity
;
PredOrFunc = function,
PredOrFuncString = "function",
RealPredArity = PredArity - 1
),
string__int_to_string(RealPredArity, PredArityString),
mercury_type_list_to_string(InstanceVarSet, InstanceTypes,
InstanceTypesString),
string__append_list([
"In instance declaration for `",
ClassNameString, "(", InstanceTypesString, ")': ",
"no implementation for type class ",
PredOrFuncString, " method `",
MethodNameString, "/", PredArityString, "'."],
NewError),
Errors = [InstanceContext - [words(NewError)] | Errors0],
Info = instance_method_info(ModuleInfo, PredName, PredArity,
ExistQVars, ArgTypes, ClassContext, ArgModes, Errors,
ArgTypeVars, Status, PredOrFunc)
).
:- pred get_matching_instance_names(instance_body, pred_or_func,
sym_name, arity, list(pair(sym_name, prog_context))).
:- mode get_matching_instance_names(in, in, in, in, out) is det.
get_matching_instance_names(InstanceBody, PredOrFunc, PredName,
PredArity, InstanceNames) :-
(
PredOrFunc = predicate,
solutions(
lambda([Pair::out] is nondet,
(
InstanceBody =
concrete(InstanceMethods),
list__member(Method, InstanceMethods),
Method = pred_instance(PredName,
SymName, PredArity,
Context),
Pair = SymName - Context
)),
InstanceNames)
;
PredOrFunc = function,
FuncArity is PredArity - 1,
solutions(
lambda([Pair::out] is nondet,
(
InstanceBody =
concrete(InstanceMethods),
list__member(Method, InstanceMethods),
Method = func_instance(PredName,
SymName, FuncArity,
Context),
Pair = SymName - Context
)),
InstanceNames)
).
% Just a bit simpler than using a pair of pairs
:- type triple(T1, T2, T3) ---> triple(T1, T2, T3).
:- pred produce_auxiliary_procs(list(tvar),
list(type), list(class_constraint), tvarset, sym_name, prog_context,
pred_id, list(proc_id), instance_method_info, instance_method_info).
:- mode produce_auxiliary_procs(in, in, in, in, in, in, out, out,
in, out) is det.
produce_auxiliary_procs(ClassVars,
InstanceTypes0, InstanceConstraints0, InstanceVarSet,
InstancePredName, Context, PredId,
InstanceProcIds, Info0, Info) :-
Info0 = instance_method_info(ModuleInfo0, PredName, PredArity,
ExistQVars0, ArgTypes0, ClassContext0, ArgModes, Errors,
ArgTypeVars0, Status0, PredOrFunc),
% Rename the instance variables apart from the class variables
varset__merge_subst(ArgTypeVars0, InstanceVarSet, ArgTypeVars1,
RenameSubst),
term__apply_substitution_to_list(InstanceTypes0, RenameSubst,
InstanceTypes),
apply_subst_to_constraint_list(RenameSubst, InstanceConstraints0,
InstanceConstraints),
% Work out what the type variables are bound to for this
% instance, and update the class types appropriately.
map__from_corresponding_lists(ClassVars, InstanceTypes, TypeSubst),
term__apply_substitution_to_list(ArgTypes0, TypeSubst, ArgTypes1),
apply_subst_to_constraints(TypeSubst, ClassContext0, ClassContext1),
% Add the constraints from the instance declaration to the
% constraints from the class method. This allows an instance
% method to have constraints on it which are not part of the
% instance declaration as a whole.
ClassContext1 = constraints(UnivConstraints1, ExistConstraints),
list__append(InstanceConstraints, UnivConstraints1, UnivConstraints),
ClassContext2 = constraints(UnivConstraints, ExistConstraints),
% Get rid of any unwanted type variables
term__vars_list(ArgTypes1, VarsToKeep0),
list__sort_and_remove_dups(VarsToKeep0, VarsToKeep),
varset__squash(ArgTypeVars1, VarsToKeep, ArgTypeVars, SquashSubst),
term__apply_variable_renaming_to_list(ArgTypes1, SquashSubst,
ArgTypes),
apply_variable_renaming_to_constraints(SquashSubst,
ClassContext2, ClassContext),
apply_partial_map_to_list(ExistQVars0, SquashSubst, ExistQVars),
% Introduce a new predicate which calls the implementation
% given in the instance declaration.
module_info_name(ModuleInfo0, ModuleName),
Cond = true,
map__init(Proofs),
init_markers(Markers0),
add_marker(Markers0, class_instance_method, Markers),
module_info_globals(ModuleInfo0, Globals),
globals__lookup_string_option(Globals, aditi_user, User),
% We have to add the actual clause after we have added the
% procs because we need a list of proc numbers for which the
% clauses holds.
DummyClause = [],
varset__init(VarSet0),
make_n_fresh_vars("HeadVar__", PredArity, VarSet0, HeadVars, VarSet),
map__from_corresponding_lists(HeadVars, ArgTypes, VarTypes),
map__init(TI_VarMap),
map__init(TCI_VarMap),
ClausesInfo0 = clauses_info(VarSet, VarTypes, VarTypes, HeadVars,
DummyClause, TI_VarMap, TCI_VarMap),
( status_is_imported(Status0, yes) ->
Status = opt_imported
;
Status = Status0
),
pred_info_init(ModuleName, PredName, PredArity, ArgTypeVars,
ExistQVars, ArgTypes, Cond, Context, ClausesInfo0, Status,
Markers, none, PredOrFunc, ClassContext, Proofs, User,
PredInfo0),
% Add procs with the expected modes and determinisms
AddProc = lambda([ModeAndDet::in, NewProcId::out,
OldPredInfo::in, NewPredInfo::out] is det,
(
ModeAndDet = Modes - Det,
add_new_proc(OldPredInfo, PredArity, Modes, yes(Modes), no,
yes(Det), Context, address_is_taken,
NewPredInfo, NewProcId)
)),
list__map_foldl(AddProc, ArgModes, InstanceProcIds,
PredInfo0, PredInfo1),
% Add the body of the introduced pred
% First the goal info
goal_info_init(GoalInfo0),
goal_info_set_context(GoalInfo0, Context, GoalInfo1),
set__list_to_set(HeadVars, NonLocals),
goal_info_set_nonlocals(GoalInfo1, NonLocals, GoalInfo),
% Then the goal itself
invalid_pred_id(InvalidPredId),
invalid_proc_id(InvalidProcId),
(
PredOrFunc = predicate,
Call = call(InvalidPredId, InvalidProcId, HeadVars, not_builtin,
no, InstancePredName),
IntroducedGoal = Call - GoalInfo
;
PredOrFunc = function,
pred_args_to_func_args(HeadVars, RealHeadVars, ReturnVar),
create_atomic_unification(ReturnVar,
functor(cons(InstancePredName, PredArity),
RealHeadVars),
Context, explicit, [], IntroducedGoal0),
% set the goal_info
IntroducedGoal0 = IntroducedGoalExpr - _,
IntroducedGoal = IntroducedGoalExpr - GoalInfo
),
IntroducedClause = clause(InstanceProcIds, IntroducedGoal, Context),
clauses_info_set_clauses(ClausesInfo0, [IntroducedClause], ClausesInfo),
pred_info_set_clauses_info(PredInfo1, ClausesInfo, PredInfo),
module_info_get_predicate_table(ModuleInfo0, PredicateTable0),
module_info_get_partial_qualifier_info(ModuleInfo0, PQInfo),
% XXX why do we need to pass may_be_unqualified here,
% rather than passing must_be_qualified or calling the /4 version?
predicate_table_insert(PredicateTable0, PredInfo,
may_be_unqualified, PQInfo, PredId, PredicateTable),
module_info_set_predicate_table(ModuleInfo0, PredicateTable,
ModuleInfo),
Info = instance_method_info(ModuleInfo, PredName, PredArity,
ExistQVars, ArgTypes, ClassContext, ArgModes, Errors,
ArgTypeVars, Status, PredOrFunc).
:- pred apply_substitution_to_var_list(list(var(T)), map(var(T), term(T)),
list(var(T))).
:- mode apply_substitution_to_var_list(in, in, out) is det.
apply_substitution_to_var_list(Vars0, RenameSubst, Vars) :-
term__var_list_to_term_list(Vars0, Terms0),
term__apply_substitution_to_list(Terms0, RenameSubst, Terms),
term__term_list_to_var_list(Terms, Vars).
%---------------------------------------------------------------------------%
% Make the name of the introduced pred used to check a particular
% instance of a particular class method
%
% XXX This isn't quite perfect, I suspect
:- pred make_introduced_pred_name(class_id, sym_name, arity, list(type),
sym_name).
:- mode make_introduced_pred_name(in, in, in, in, out) is det.
make_introduced_pred_name(ClassId, MethodName, PredArity,
InstanceTypes, PredName) :-
ClassId = class_id(ClassName, _ClassArity),
prog_out__sym_name_to_string(ClassName, "__", ClassNameString),
prog_out__sym_name_to_string(MethodName, "__", MethodNameString),
% Perhaps we should include the pred arity in this mangled
% string?
string__int_to_string(PredArity, PredArityString),
base_typeclass_info__make_instance_string(InstanceTypes,
InstanceString),
string__append_list(
[check_typeclass__introduced_pred_name_prefix,
ClassNameString, "__",
InstanceString, "____",
MethodNameString, "_",
PredArityString],
PredNameString),
PredName = unqualified(PredNameString).
% The prefix added to the class method name for the predicate
% used to call a class method for a specific instance.
:- func check_typeclass__introduced_pred_name_prefix = string.
check_typeclass__introduced_pred_name_prefix = "Introduced_pred_for_".
%---------------------------------------------------------------------------%
% check that the superclass constraints are satisfied for the
% types in this instance declaration
:- pred check_superclass_conformance(class_id, list(class_constraint),
list(tvar), tvarset, hlds_instance_defn, hlds_instance_defn,
pair(error_messages, module_info), pair(error_messages, module_info)).
:- mode check_superclass_conformance(in, in, in, in, in, out, in, out) is det.
check_superclass_conformance(ClassId, SuperClasses0, ClassVars0, ClassVarSet,
InstanceDefn0, InstanceDefn,
Errors0 - ModuleInfo, Errors - ModuleInfo) :-
InstanceDefn0 = hlds_instance_defn(A, Context, InstanceConstraints,
InstanceTypes, E, F, InstanceVarSet0, Proofs0),
varset__merge_subst(InstanceVarSet0, ClassVarSet, InstanceVarSet1,
Subst),
% Make the constraints in terms of the instance variables
apply_subst_to_constraint_list(Subst, SuperClasses0, SuperClasses),
% Now handle the class variables
map__apply_to_list(ClassVars0, Subst, ClassVarTerms),
(
term__var_list_to_term_list(ClassVars1, ClassVarTerms)
->
ClassVars = ClassVars1
;
error("ClassVarTerms are not vars")
),
% Calculate the bindings
map__from_corresponding_lists(ClassVars, InstanceTypes, TypeSubst),
module_info_instances(ModuleInfo, InstanceTable),
module_info_superclasses(ModuleInfo, SuperClassTable),
% Try to reduce the superclass constraints,
% using the declared instance constraints
% and the usual context reduction rules.
typecheck__reduce_context_by_rule_application(InstanceTable,
SuperClassTable, InstanceConstraints, TypeSubst,
InstanceVarSet1, InstanceVarSet2, Proofs0, Proofs1,
SuperClasses, UnprovenConstraints),
(
UnprovenConstraints = []
->
Errors = Errors0,
InstanceDefn = hlds_instance_defn(A, Context,
InstanceConstraints, InstanceTypes, E, F,
InstanceVarSet2, Proofs1)
;
ClassId = class_id(ClassName, _ClassArity),
prog_out__sym_name_to_string(ClassName, ClassNameString),
mercury_type_list_to_string(InstanceVarSet2, InstanceTypes,
InstanceTypesString),
constraint_list_to_string(ClassVarSet, UnprovenConstraints,
ConstraintsString),
string__append_list([
"In instance declaration for `",
ClassNameString, "(", InstanceTypesString, ")': ",
"superclass constraint(s) not satisfied: ",
ConstraintsString, "."],
NewError),
Errors = [Context - [words(NewError)] | Errors0],
InstanceDefn = InstanceDefn0
).
:- pred constraint_list_to_string(tvarset, list(class_constraint), string).
:- mode constraint_list_to_string(in, in, out) is det.
constraint_list_to_string(_, [], "").
constraint_list_to_string(VarSet, [C|Cs], String) :-
mercury_constraint_to_string(VarSet, C, String0),
constraint_list_to_string_2(VarSet, Cs, String1),
string__append_list(["`", String0, "'", String1], String).
:- pred constraint_list_to_string_2(tvarset, list(class_constraint), string).
:- mode constraint_list_to_string_2(in, in, out) is det.
constraint_list_to_string_2(_VarSet, [], "").
constraint_list_to_string_2(VarSet, [C|Cs], String) :-
mercury_constraint_to_string(VarSet, C, String0),
constraint_list_to_string_2(VarSet, Cs, String1),
string__append_list([", `", String0, "'", String1], String).
%---------------------------------------------------------------------------%
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