/* Sets up a very simple attribute meta-object. Just supports having a
* name, and even uses the P6str representation to store it, so that's
* really all that it supports. */
PMC * SixModelObject_setup_knowhow_attribute(PARROT_INTERP, PMC *sc, PMC *knowhow) {
PMC *old_ctx, *cappy, *meth, *knowhow_attr, *how;
/* Create a new KnowHOWAttribute type using P6str repr.. */
meth = STABLE(knowhow)->find_method(interp, knowhow,
Parrot_str_new_constant(interp, "new_type"), NO_HINT);
old_ctx = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
cappy = Parrot_pmc_new(interp, enum_class_CallContext);
VTABLE_push_pmc(interp, cappy, knowhow);
VTABLE_set_string_keyed_str(interp, cappy, name_str,
Parrot_str_new_constant(interp, "KnowHOWAttribute"));
VTABLE_set_string_keyed_str(interp, cappy, repr_str,
Parrot_str_new_constant(interp, "P6str"));
Parrot_pcc_invoke_from_sig_object(interp, meth, cappy);
cappy = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
Parrot_pcc_set_signature(interp, CURRENT_CONTEXT(interp), old_ctx);
knowhow_attr = VTABLE_get_pmc_keyed_int(interp, cappy, 0);
how = STABLE(knowhow_attr)->HOW;
/* Add new method. */
meth = STABLE(how)->find_method(interp, how,
Parrot_str_new_constant(interp, "add_method"), NO_HINT);
cappy = Parrot_pmc_new(interp, enum_class_CallContext);
VTABLE_push_pmc(interp, cappy, how);
VTABLE_push_pmc(interp, cappy, knowhow_attr);
VTABLE_push_string(interp, cappy, Parrot_str_new_constant(interp, "new"));
VTABLE_push_pmc(interp, cappy, wrap_c(interp, F2DPTR(attr_new)));
Parrot_pcc_invoke_from_sig_object(interp, meth, cappy);
Parrot_pcc_set_signature(interp, CURRENT_CONTEXT(interp), old_ctx);
/* Add name method. */
cappy = Parrot_pmc_new(interp, enum_class_CallContext);
VTABLE_push_pmc(interp, cappy, how);
VTABLE_push_pmc(interp, cappy, knowhow_attr);
VTABLE_push_string(interp, cappy, name_str);
VTABLE_push_pmc(interp, cappy, wrap_c(interp, F2DPTR(attr_name)));
Parrot_pcc_invoke_from_sig_object(interp, meth, cappy);
Parrot_pcc_set_signature(interp, CURRENT_CONTEXT(interp), old_ctx);
/* Compose. */
meth = STABLE(knowhow)->find_method(interp, how,
Parrot_str_new_constant(interp, "compose"), NO_HINT);
cappy = Parrot_pmc_new(interp, enum_class_CallContext);
VTABLE_push_pmc(interp, cappy, how);
VTABLE_push_pmc(interp, cappy, knowhow_attr);
Parrot_pcc_invoke_from_sig_object(interp, meth, cappy);
Parrot_pcc_set_signature(interp, CURRENT_CONTEXT(interp), old_ctx);
/* Associate the created object with the intial core serialization
* context. */
VTABLE_set_pmc_keyed_int(interp, sc, 2, knowhow_attr);
SC_PMC(knowhow_attr) = sc;
STABLE(knowhow_attr)->sc = sc;
return knowhow_attr;
}
static STRING *get_str(PARROT_INTERP, STable *st, void *data) {
CStrBody *body = (CStrBody *) data;
PMC *old_ctx, *cappy, *meth, *enc_pmc;
STRING *enc;
STR_VTABLE *encoding;
if (!body->cstr)
return (STRING *) NULL;
/* Look up "encoding" method. */
meth = VTABLE_find_method(interp, st->WHAT,
Parrot_str_new_constant(interp, "encoding"));
if (PMC_IS_NULL(meth))
Parrot_ex_throw_from_c_args(interp, NULL, EXCEPTION_INVALID_OPERATION,
"CStr representation expects an 'encoding' method, specifying the encoding");
old_ctx = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
cappy = Parrot_pmc_new(interp, enum_class_CallContext);
VTABLE_push_pmc(interp, cappy, st->WHAT);
Parrot_pcc_invoke_from_sig_object(interp, meth, cappy);
cappy = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
Parrot_pcc_set_signature(interp, CURRENT_CONTEXT(interp), old_ctx);
enc_pmc = decontainerize(interp, VTABLE_get_pmc_keyed_int(interp, cappy, 0));
enc = REPR(enc_pmc)->box_funcs->get_str(interp, STABLE(enc_pmc), OBJECT_BODY(enc_pmc));
return new_from_cstring(interp, body->cstr, enc);
}
/* Introspects the MRO. That's just a list with ourself. */
static void mro(PARROT_INTERP, PMC *nci) {
PMC * unused;
PMC *capture = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
PMC *obj = VTABLE_get_pmc_keyed_int(interp, capture, 1);
PMC *mro = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
VTABLE_push_pmc(interp, mro, STABLE(obj)->WHAT);
unused = Parrot_pcc_build_call_from_c_args(interp, capture, "P", mro);
}
/* Adds an attribute meta-object to the list. */
static void add_attribute(PARROT_INTERP, PMC *nci) {
PMC * unused;
/* Get attributes list out of meta-object. */
PMC *capture = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
PMC *self = VTABLE_get_pmc_keyed_int(interp, capture, 0);
PMC *attrs = ((KnowHOWREPRInstance *)PMC_data(self))->body.attributes;
/* Add meta-attribute to it. */
PMC *meta_attr = VTABLE_get_pmc_keyed_int(interp, capture, 2);
VTABLE_push_pmc(interp, attrs, meta_attr);
unused = Parrot_pcc_build_call_from_c_args(interp, capture, "P", meta_attr);
}
/* Composes the meta-object. */
static void compose(PARROT_INTERP, PMC *nci) {
PMC *repr_info_hash, *repr_info, *type_info, *attr_list, *attr_iter, *unused;
PMC *capture = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
PMC *self = VTABLE_get_pmc_keyed_int(interp, capture, 0);
PMC *obj = VTABLE_get_pmc_keyed_int(interp, capture, 1);
UNUSED(nci);
/* Do REPR composition. */
repr_info = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
type_info = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
VTABLE_push_pmc(interp, repr_info, type_info);
VTABLE_push_pmc(interp, type_info, obj);
attr_list = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
attr_iter = VTABLE_get_iter(interp, ((KnowHOWREPRInstance *)PMC_data(self))->body.attributes);
while (VTABLE_get_bool(interp, attr_iter)) {
PMC *attr = VTABLE_shift_pmc(interp, attr_iter);
PMC *attr_hash = Parrot_pmc_new(interp, enum_class_Hash);;
VTABLE_set_string_keyed_str(interp, attr_hash, name_str,
REPR(attr)->box_funcs->get_str(interp, STABLE(attr), OBJECT_BODY(attr)));
VTABLE_push_pmc(interp, attr_list, attr_hash);
}
VTABLE_push_pmc(interp, type_info, attr_list);
VTABLE_push_pmc(interp, type_info, Parrot_pmc_new(interp, enum_class_ResizablePMCArray));
repr_info_hash = Parrot_pmc_new(interp, enum_class_Hash);
VTABLE_set_pmc_keyed_str(interp, repr_info_hash, attribute_str, repr_info);
REPR(obj)->compose(interp, STABLE(obj), repr_info_hash);
/* Set up method and type caches. */
STABLE(obj)->method_cache = ((KnowHOWREPRInstance *)PMC_data(self))->body.methods;
STABLE(obj)->mode_flags = METHOD_CACHE_AUTHORITATIVE;
STABLE(obj)->type_check_cache_length = 1;
STABLE(obj)->type_check_cache = (PMC **)mem_sys_allocate(sizeof(PMC *));
STABLE(obj)->type_check_cache[0] = obj;
unused = Parrot_pcc_build_call_from_c_args(interp, capture, "P", obj);
}
/* Helper to make an introspection call, possibly with :local. */
static PMC * introspection_call(PARROT_INTERP, PMC *WHAT, PMC *HOW, STRING *name, INTVAL local) {
PMC *old_ctx, *cappy;
/* Look up method; if there is none hand back a null. */
PMC *meth = VTABLE_find_method(interp, HOW, name);
if (PMC_IS_NULL(meth))
return meth;
/* Set up call capture. */
old_ctx = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
cappy = Parrot_pmc_new(interp, enum_class_CallContext);
VTABLE_push_pmc(interp, cappy, HOW);
VTABLE_push_pmc(interp, cappy, WHAT);
if (local)
VTABLE_set_integer_keyed_str(interp, cappy, Parrot_str_new_constant(interp, "local"), 1);
/* Call. */
Parrot_pcc_invoke_from_sig_object(interp, meth, cappy);
/* Grab result. */
cappy = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
Parrot_pcc_set_signature(interp, CURRENT_CONTEXT(interp), old_ctx);
return VTABLE_get_pmc_keyed_int(interp, cappy, 0);
}
PARROT_CAN_RETURN_NULL
static PMC *
make_local_copy(PARROT_INTERP, ARGIN(Parrot_Interp from), ARGIN(PMC *arg))
{
ASSERT_ARGS(make_local_copy)
PMC *ret_val;
STRING * const _sub = interp->vtables[enum_class_Sub]->whoami;
STRING * const _multi_sub = interp->vtables[enum_class_MultiSub]->whoami;
if (PMC_IS_NULL(arg)) {
ret_val = PMCNULL;
}
else if (PObj_is_PMC_shared_TEST(arg)) {
ret_val = arg;
}
else if (VTABLE_isa(from, arg, _multi_sub)) {
INTVAL i = 0;
const INTVAL n = VTABLE_elements(from, arg);
ret_val = Parrot_pmc_new(interp, enum_class_MultiSub);
for (i = 0; i < n; ++i) {
PMC *const orig = VTABLE_get_pmc_keyed_int(from, arg, i);
PMC *const copy = make_local_copy(interp, from, orig);
VTABLE_push_pmc(interp, ret_val, copy);
}
}
else if (VTABLE_isa(from, arg, _sub)) {
/* this is a workaround for cloning subroutines not actually
* working as one might expect mainly because the segment is
* not correctly copied
*/
Parrot_Sub_attributes *ret_val_sub, *arg_sub;
ret_val = Parrot_clone(interp, arg);
PMC_get_sub(interp, ret_val, ret_val_sub);
PMC_get_sub(interp, arg, arg_sub);
ret_val_sub->seg = arg_sub->seg;
/* Skip vtable overrides and methods. */
if (ret_val_sub->vtable_index == -1
&& !(ret_val_sub->comp_flags & SUB_COMP_FLAG_METHOD)) {
Parrot_ns_store_sub(interp, ret_val);
}
}
else {
ret_val = Parrot_clone(interp, arg);
}
return ret_val;
}
/* Takes an STable and adds it to this SC's root set, and installs a
* reposession entry. */
void SC_repossess_stable(PARROT_INTERP, PMC *target_sc, PMC *orig_sc, PMC *st_pmc) {
PMC *rep_indexes, *rep_scs;
/* Add to root set. */
PMC *stables;
INTVAL new_slot;
GETATTR_SerializationContext_root_stables(interp, target_sc, stables);
new_slot = VTABLE_elements(interp, stables);
VTABLE_set_pmc_keyed_int(interp, stables, new_slot, st_pmc);
/* Add repossession entry. */
GETATTR_SerializationContext_rep_indexes(interp, target_sc, rep_indexes);
GETATTR_SerializationContext_rep_scs(interp, target_sc, rep_scs);
VTABLE_push_integer(interp, rep_indexes, (new_slot << 1) | 1);
VTABLE_push_pmc(interp, rep_scs, orig_sc);
}
/* Helper to make an accessor call. */
static PMC * accessor_call(PARROT_INTERP, PMC *obj, STRING *name) {
PMC *old_ctx, *cappy;
/* Look up method; if there is none hand back a null. */
PMC *meth = VTABLE_find_method(interp, obj, name);
if (PMC_IS_NULL(meth))
return meth;
/* Set up call capture. */
old_ctx = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
cappy = Parrot_pmc_new(interp, enum_class_CallContext);
VTABLE_push_pmc(interp, cappy, obj);
/* Call. */
Parrot_pcc_invoke_from_sig_object(interp, meth, cappy);
/* Grab result. */
cappy = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
Parrot_pcc_set_signature(interp, CURRENT_CONTEXT(interp), old_ctx);
return VTABLE_get_pmc_keyed_int(interp, cappy, 0);
}
static void set_str(PARROT_INTERP, STable *st, void *data, STRING *value) {
CStrBody *body = (CStrBody *) data;
PMC *old_ctx, *cappy, *meth, *enc_pmc;
STRING *enc;
STR_VTABLE *encoding;
if(body->cstr)
mem_sys_free(body->cstr);
/* Look up "encoding" method. */
meth = VTABLE_find_method(interp, st->WHAT,
Parrot_str_new_constant(interp, "encoding"));
if (PMC_IS_NULL(meth))
Parrot_ex_throw_from_c_args(interp, NULL, EXCEPTION_INVALID_OPERATION,
"CStr representation expects an 'encoding' method, specifying the encoding");
old_ctx = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
cappy = Parrot_pmc_new(interp, enum_class_CallContext);
VTABLE_push_pmc(interp, cappy, st->WHAT);
Parrot_pcc_invoke_from_sig_object(interp, meth, cappy);
cappy = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
Parrot_pcc_set_signature(interp, CURRENT_CONTEXT(interp), old_ctx);
enc_pmc = decontainerize(interp, VTABLE_get_pmc_keyed_int(interp, cappy, 0));
enc = REPR(enc_pmc)->box_funcs->get_str(interp, STABLE(enc_pmc), OBJECT_BODY(enc_pmc));
if (STRING_equal(interp, enc, Parrot_str_new_constant(interp, "utf8")))
encoding = Parrot_utf8_encoding_ptr;
else if (STRING_equal(interp, enc, Parrot_str_new_constant(interp, "utf16")))
encoding = Parrot_utf16_encoding_ptr;
else if (STRING_equal(interp, enc, Parrot_str_new_constant(interp, "ascii")))
encoding = Parrot_ascii_encoding_ptr;
else
Parrot_ex_throw_from_c_args(interp, NULL, EXCEPTION_INVALID_OPERATION,
"Unknown encoding passed to CStr representation");
body->cstr = Parrot_str_to_encoded_cstring(interp, value, encoding);
}
static PMC* find_best_candidate(PARROT_INTERP, Rakudo_md_candidate_info **candidates,
INTVAL num_candidates, PMC *capture, opcode_t *next,
PMC *dispatcher, INTVAL many) {
Rakudo_md_candidate_info **cur_candidate = candidates;
Rakudo_md_candidate_info **possibles = mem_allocate_n_typed(num_candidates + 1, Rakudo_md_candidate_info *);
PMC *junctional_res = PMCNULL;
PMC *many_res = many ? Parrot_pmc_new(interp, enum_class_ResizablePMCArray) : PMCNULL;
const INTVAL num_args = VTABLE_elements(interp, capture);
INTVAL possibles_count = 0;
INTVAL pure_type_result = 1;
INTVAL type_check_count;
INTVAL type_mismatch;
/* We expect a Parrot capture in the multi-dispatcher, always. */
struct Pcc_cell * pc_positionals = NULL;
if (capture->vtable->base_type == enum_class_CallContext) {
GETATTR_CallContext_positionals(interp, capture, pc_positionals);
}
else {
mem_sys_free(possibles);
Parrot_ex_throw_from_c_args(interp, next, 1,
"INTERNAL ERROR: multi-dispatcher must be given a low level capture");
}
/* Iterate over the candidates and collect best ones; terminate
* when we see two nulls (may break out earlier). */
while (1) {
INTVAL i;
if (*cur_candidate == NULL) {
/* We've hit the end of a tied group now. If any of them have a
* bindability check requirement, we'll do any of those now. */
if (possibles_count) {
Rakudo_md_candidate_info **new_possibles = NULL;
INTVAL new_possibles_count = 0;
INTVAL i;
for (i = 0; i < possibles_count; i++) {
Parrot_pcc_set_signature(interp, CURRENT_CONTEXT(interp), NULL);
/* First, if there's a required named parameter and it was
* not passed, we can very quickly eliminate this candidate
* without doing a full bindability check. */
if (possibles[i]->req_named) {
if (!VTABLE_exists_keyed_str(interp, capture, possibles[i]->req_named)) {
/* Required named arg not passed, so we eliminate
* it right here. Flag that we've built a list of
* new possibles, and that this was not a pure
* type-based result that we can cache. */
if (!new_possibles)
new_possibles = mem_allocate_n_typed(num_candidates, Rakudo_md_candidate_info *);
pure_type_result = 0;
continue;
}
}
/* Otherwise, may need full bind check. */
if (possibles[i]->bind_check) {
/* We'll invoke the sub (but not re-enter the runloop)
* and then attempt to bind the signature. */
PMC *cthunk, *lexpad, *sig;
opcode_t *where;
INTVAL bind_check_result;
Rakudo_Code *code_obj = (Rakudo_Code *)PMC_data(possibles[i]->sub);
cthunk = Parrot_pmc_getprop(interp, code_obj->_do,
Parrot_str_new(interp, "COMPILER_THUNK", 0));
if (!PMC_IS_NULL(cthunk)) {
/* We need to do the tie-break on something not yet compiled.
* Get it compiled. */
Parrot_ext_call(interp, cthunk, "->");
}
Parrot_pcc_reuse_continuation(interp, CURRENT_CONTEXT(interp), next);
where = VTABLE_invoke(interp, possibles[i]->sub, next);
lexpad = Parrot_pcc_get_lex_pad(interp, CURRENT_CONTEXT(interp));
sig = possibles[i]->signature;
bind_check_result = Rakudo_binding_bind(interp, lexpad,
sig, capture, 0, NULL);
where = VTABLE_invoke(interp, Parrot_pcc_get_continuation(interp, CURRENT_CONTEXT(interp)), where);
/* If we haven't got a possibles storage space, allocate it now. */
if (!new_possibles)
new_possibles = mem_allocate_n_typed(num_candidates, Rakudo_md_candidate_info *);
/* If we don't fail, need to put this one onto the list
* (note that needing a junction dispatch is OK). */
if (bind_check_result != BIND_RESULT_FAIL) {
new_possibles[new_possibles_count] = possibles[i];
new_possibles_count++;
}
/* Since we had to do a bindability check, this is not
* a result we can cache on nominal type. */
pure_type_result = 0;
}
/* Otherwise, it's just nominal; accept it. */
else {
if (!new_possibles)
new_possibles = mem_allocate_n_typed(num_candidates, Rakudo_md_candidate_info *);
new_possibles[new_possibles_count] = possibles[i];
new_possibles_count++;
}
}
/* If we have an updated list of possibles, free old one and use this
* new one from here on in. */
if (new_possibles) {
mem_sys_free(possibles);
possibles = new_possibles;
possibles_count = new_possibles_count;
}
}
/* Now we have eliminated any that fail the bindability check.
* See if we need to push it onto the many list and continue.
* Otherwise, we have the result we were looking for. */
if (many) {
for (i = 0; i < possibles_count; i++)
VTABLE_push_pmc(interp, many_res, possibles[i]->sub);
possibles_count = 0;
}
else if (possibles_count) {
break;
}
/* Keep looping and looking, unless we really hit the end. */
if (cur_candidate[1]) {
cur_candidate++;
continue;
}
else {
break;
}
}
/* Takes a signature along with positional and named arguments and binds them
* into the provided lexpad (actually, anything that has a Hash interface will
* do). Returns BIND_RESULT_OK if binding works out, BIND_RESULT_FAIL if there
* is a failure and BIND_RESULT_JUNCTION if the failure was because of a
* Junction being passed (meaning we need to auto-thread). */
INTVAL
Rakudo_binding_bind(PARROT_INTERP, PMC *lexpad, PMC *sig_pmc, PMC *capture,
INTVAL no_nom_type_check, STRING **error) {
INTVAL i, num_pos_args;
INTVAL bind_fail = 0;
INTVAL cur_pos_arg = 0;
Rakudo_Signature *sig = (Rakudo_Signature *)PMC_data(sig_pmc);
PMC *params = sig->params;
INTVAL num_params = VTABLE_elements(interp, params);
Rakudo_BindVal cur_bv;
/* If we do have some named args, we want to make a clone of the hash
* to work on. We'll delete stuff from it as we bind, and what we have
* left over can become the slurpy hash or - if we aren't meant to be
* taking one - tell us we have a problem. */
PMC *named_args_copy = PMCNULL;
/* If we have a |$foo that's followed by slurpies, then we can suppress
* any future arity checks. */
INTVAL suppress_arity_fail = 0;
/* If it's a Parrot capture, it may contain natively typed arguments.
* NOTE: This is a really an encapsulation breakage; if Parrot folks
* change stuff and this breaks, it's not Parrot's fault. */
struct Pcc_cell * pc_positionals = NULL;
/* Set up statics. */
if (!smo_id)
setup_binder_statics(interp);
/* If we've got a CallContext, just has an attribute with list of named
* parameter names. Otherwise, it's probably a Perl 6 Capture and we need
* to extract its parts. */
if (capture->vtable->base_type == enum_class_CallContext) {
PMC *named_names = VTABLE_get_attr_str(interp, capture, NAMED_str);
if (!PMC_IS_NULL(named_names)) {
PMC *iter = VTABLE_get_iter(interp, named_names);
named_args_copy = Parrot_pmc_new(interp, enum_class_Hash);
while (VTABLE_get_bool(interp, iter)) {
STRING *name = VTABLE_shift_string(interp, iter);
VTABLE_set_pmc_keyed_str(interp, named_args_copy, name,
VTABLE_get_pmc_keyed_str(interp, capture, name));
}
}
GETATTR_CallContext_positionals(interp, capture, pc_positionals);
}
else if (capture->vtable->base_type == smo_id &&
STABLE(capture)->type_check(interp, capture, Rakudo_types_capture_get())) {
PMC *captype = Rakudo_types_capture_get();
PMC *list_part = VTABLE_get_attr_keyed(interp, capture, captype, LIST_str);
PMC *hash_part = VTABLE_get_attr_keyed(interp, capture, captype, HASH_str);
capture = Rakudo_isnqplist(list_part)
? list_part
: Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
if (hash_part->vtable->base_type == enum_class_Hash) {
PMC *iter = VTABLE_get_iter(interp, hash_part);
named_args_copy = Parrot_pmc_new(interp, enum_class_Hash);
while (VTABLE_get_bool(interp, iter)) {
STRING *arg_copy_name = VTABLE_shift_string(interp, iter);
VTABLE_set_pmc_keyed_str(interp, named_args_copy, arg_copy_name,
VTABLE_get_pmc_keyed_str(interp, hash_part, arg_copy_name));
}
}
}
else {
Parrot_ex_throw_from_c_args(interp, NULL, EXCEPTION_INVALID_OPERATION,
"Internal Error: Rakudo_binding_bind passed invalid Capture");
}
/* Now we'll walk through the signature and go about binding things. */
num_pos_args = VTABLE_elements(interp, capture);
for (i = 0; i < num_params; i++) {
Rakudo_Parameter *param = (Rakudo_Parameter *)PMC_data(
VTABLE_get_pmc_keyed_int(interp, params, i));
/* Is it looking for us to bind a capture here? */
if (param->flags & SIG_ELEM_IS_CAPTURE) {
/* Capture the arguments from this point forwards into a Capture.
* Of course, if there's no variable name we can (cheaply) do pretty
* much nothing. */
if (STRING_IS_NULL(param->variable_name)) {
bind_fail = BIND_RESULT_OK;
}
else {
PMC *captype = Rakudo_types_capture_get();
PMC *capsnap = REPR(captype)->allocate(interp, STABLE(captype));
PMC *pos_args = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
PMC *named_args = Parrot_pmc_new(interp, enum_class_Hash);
INTVAL k;
VTABLE_set_attr_keyed(interp, capsnap, captype, LIST_str, pos_args);
VTABLE_set_attr_keyed(interp, capsnap, captype, HASH_str, named_args);
for (k = cur_pos_arg; k < num_pos_args; k++) {
cur_bv = get_positional_bind_val(interp, pc_positionals, capture, k);
VTABLE_push_pmc(interp, pos_args, cur_bv.type == BIND_VAL_OBJ ?
cur_bv.val.o :
create_box(interp, cur_bv));
}
if (!PMC_IS_NULL(named_args_copy)) {
PMC *iter = VTABLE_get_iter(interp, named_args_copy);
while (VTABLE_get_bool(interp, iter)) {
STRING *name = VTABLE_shift_string(interp, iter);
VTABLE_set_pmc_keyed_str(interp, named_args, name,
VTABLE_get_pmc_keyed_str(interp, named_args_copy, name));
}
}
cur_bv.type = BIND_VAL_OBJ;
cur_bv.val.o = capsnap;
bind_fail = Rakudo_binding_bind_one_param(interp, lexpad, sig, param, cur_bv,
no_nom_type_check, error);
}
if (bind_fail) {
return bind_fail;
}
else if (i + 1 == num_params) {
/* Since a capture acts as "the ultimate slurpy" in a sense, if
* this is the last parameter in the signature we can return
* success right off the bat. */
return BIND_RESULT_OK;
}
else {
Rakudo_Parameter *next_param = (Rakudo_Parameter *)PMC_data(
VTABLE_get_pmc_keyed_int(interp, params, i + 1));
if (next_param->flags & (SIG_ELEM_SLURPY_POS | SIG_ELEM_SLURPY_NAMED))
suppress_arity_fail = 1;
}
}
/* Could it be a named slurpy? */
else if (param->flags & SIG_ELEM_SLURPY_NAMED) {
/* Can cheat a bit if it's the default method %_.
* We give the hash to the lexpad. */
if (param->flags & SIG_ELEM_METHOD_SLURPY_NAMED && lexpad->vtable->base_type == p6l_id) {
SETATTR_Perl6LexPad_default_named_slurpy(interp, lexpad, named_args_copy);
PARROT_GC_WRITE_BARRIER(interp, lexpad);
}
else {
/* We'll either take the current named arguments copy hash which
* will by definition contain all unbound named parameters and use
* that, or just create an empty one. */
PMC *slurpy = PMC_IS_NULL(named_args_copy) ?
Parrot_pmc_new(interp, enum_class_Hash) :
named_args_copy;
cur_bv.type = BIND_VAL_OBJ;
cur_bv.val.o = Rakudo_binding_create_hash(interp, slurpy);
bind_fail = Rakudo_binding_bind_one_param(interp, lexpad, sig, param,
cur_bv, no_nom_type_check, error);
if (bind_fail)
return bind_fail;
}
/* Nullify named arguments hash now we've consumed it, to mark all
* is well. */
named_args_copy = PMCNULL;
}
/* Otherwise, maybe it's a positional. */
else if (PMC_IS_NULL(param->named_names)) {
/* Slurpy or LoL-slurpy? */
if (param->flags & (SIG_ELEM_SLURPY_POS | SIG_ELEM_SLURPY_LOL)) {
/* Create Perl 6 array, create RPA of all remaining things, then
* store it. */
PMC *temp = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
while (cur_pos_arg < num_pos_args) {
cur_bv = get_positional_bind_val(interp, pc_positionals, capture, cur_pos_arg);
VTABLE_push_pmc(interp, temp, cur_bv.type == BIND_VAL_OBJ ?
cur_bv.val.o :
create_box(interp, cur_bv));
cur_pos_arg++;
}
cur_bv.type = BIND_VAL_OBJ;
cur_bv.val.o = param->flags & SIG_ELEM_SLURPY_POS ?
Rakudo_binding_create_positional(interp, temp) :
Rakudo_binding_create_lol(interp, temp);
bind_fail = Rakudo_binding_bind_one_param(interp, lexpad, sig, param,
cur_bv, no_nom_type_check, error);
if (bind_fail)
return bind_fail;
}
/* Otherwise, a positional. */
else {
/* Do we have a value?. */
if (cur_pos_arg < num_pos_args) {
/* Easy - just bind that. */
cur_bv = get_positional_bind_val(interp, pc_positionals, capture, cur_pos_arg);
bind_fail = Rakudo_binding_bind_one_param(interp, lexpad, sig, param,
cur_bv, no_nom_type_check, error);
if (bind_fail)
return bind_fail;
cur_pos_arg++;
}
else {
/* No value. If it's optional, fetch a default and bind that;
* if not, we're screwed. Note that we never nominal type check
* an optional with no value passed. */
if (param->flags & SIG_ELEM_IS_OPTIONAL) {
cur_bv.type = BIND_VAL_OBJ;
cur_bv.val.o = Rakudo_binding_handle_optional(interp, param, lexpad);
bind_fail = Rakudo_binding_bind_one_param(interp, lexpad, sig, param,
cur_bv, 0, error);
if (bind_fail)
return bind_fail;
}
else {
if (error)
*error = Rakudo_binding_arity_fail(interp, params, num_params, num_pos_args, 0);
return BIND_RESULT_FAIL;
}
}
}
}
/* Else, it's a non-slurpy named. */
else {
/* Try and get hold of value. */
PMC *value = PMCNULL;
INTVAL num_names = VTABLE_elements(interp, param->named_names);
INTVAL j;
if (!PMC_IS_NULL(named_args_copy)) {
for (j = 0; j < num_names; j++) {
STRING *name = VTABLE_get_string_keyed_int(interp, param->named_names, j);
value = VTABLE_get_pmc_keyed_str(interp, named_args_copy, name);
if (!PMC_IS_NULL(value)) {
/* Found a value. Delete entry from to-bind args and stop looking. */
VTABLE_delete_keyed_str(interp, named_args_copy, name);
break;
}
}
}
/* Did we get one? */
if (PMC_IS_NULL(value)) {
/* Nope. We'd better hope this param was optional... */
if (param->flags & SIG_ELEM_IS_OPTIONAL) {
cur_bv.type = BIND_VAL_OBJ;
cur_bv.val.o = Rakudo_binding_handle_optional(interp, param, lexpad);
bind_fail = Rakudo_binding_bind_one_param(interp, lexpad, sig, param,
cur_bv, 0, error);
}
else if (!suppress_arity_fail) {
if (error)
*error = Parrot_sprintf_c(interp, "Required named parameter '%S' not passed",
VTABLE_get_string_keyed_int(interp, param->named_names, 0));
return BIND_RESULT_FAIL;
}
}
else {
cur_bv.type = BIND_VAL_OBJ;
cur_bv.val.o = value;
bind_fail = Rakudo_binding_bind_one_param(interp, lexpad, sig, param,
cur_bv, 0, error);
}
/* If we got a binding failure, return it. */
if (bind_fail)
return bind_fail;
}
}
/* Do we have any left-over args? */
if (cur_pos_arg < num_pos_args && !suppress_arity_fail) {
/* Oh noes, too many positionals passed. */
if (error)
*error = Rakudo_binding_arity_fail(interp, params, num_params, num_pos_args, 1);
return BIND_RESULT_FAIL;
}
if (!PMC_IS_NULL(named_args_copy) && VTABLE_elements(interp, named_args_copy)) {
/* Oh noes, unexpected named args. */
if (error) {
INTVAL num_extra = VTABLE_elements(interp, named_args_copy);
PMC *iter = VTABLE_get_iter(interp, named_args_copy);
if (num_extra == 1) {
*error = Parrot_sprintf_c(interp, "Unexpected named parameter '%S' passed",
VTABLE_shift_string(interp, iter));
}
else {
INTVAL first = 1;
STRING *comma = Parrot_str_new(interp, ", ", 0);
*error = Parrot_sprintf_c(interp, "%d unexpected named parameters passed (", num_extra);
while (VTABLE_get_bool(interp, iter)) {
STRING *name = VTABLE_shift_string(interp, iter);
if (!first)
*error = Parrot_str_concat(interp, *error, comma);
else
first = 0;
*error = Parrot_str_concat(interp, *error, name);
}
*error = Parrot_str_concat(interp, *error, Parrot_str_new(interp, ")", 0));
}
}
return BIND_RESULT_FAIL;
}
/* If we get here, we're done. */
return BIND_RESULT_OK;
}
/* Binds a single argument into the lexpad, after doing any checks that are
* needed. Also handles any type captures. If there is a sub signature, then
* re-enters the binder. Returns one of the BIND_RESULT_* codes. */
static INTVAL
Rakudo_binding_bind_one_param(PARROT_INTERP, PMC *lexpad, Rakudo_Signature *signature, Rakudo_Parameter *param,
Rakudo_BindVal orig_bv, INTVAL no_nom_type_check, STRING **error) {
PMC *decont_value = NULL;
INTVAL desired_native;
Rakudo_BindVal bv;
/* Check if boxed/unboxed expections are met. */
desired_native = param->flags & SIG_ELEM_NATIVE_VALUE;
if (desired_native == 0 && orig_bv.type == BIND_VAL_OBJ ||
desired_native == SIG_ELEM_NATIVE_INT_VALUE && orig_bv.type == BIND_VAL_INT ||
desired_native == SIG_ELEM_NATIVE_NUM_VALUE && orig_bv.type == BIND_VAL_NUM ||
desired_native == SIG_ELEM_NATIVE_STR_VALUE && orig_bv.type == BIND_VAL_STR)
{
/* We have what we want. */
bv = orig_bv;
}
else if (desired_native == 0) {
/* We need to do a boxing operation. */
bv.type = BIND_VAL_OBJ;
bv.val.o = create_box(interp, orig_bv);
}
else {
storage_spec spec;
decont_value = Rakudo_cont_decontainerize(interp, orig_bv.val.o);
spec = REPR(decont_value)->get_storage_spec(interp, STABLE(decont_value));
switch (desired_native) {
case SIG_ELEM_NATIVE_INT_VALUE:
if (spec.can_box & STORAGE_SPEC_CAN_BOX_INT) {
bv.type = BIND_VAL_INT;
bv.val.i = REPR(decont_value)->box_funcs->get_int(interp, STABLE(decont_value), OBJECT_BODY(decont_value));
}
else {
if (error)
*error = Parrot_sprintf_c(interp, "Cannot unbox argument to '%S' as a native int",
param->variable_name);
return BIND_RESULT_FAIL;
}
break;
case SIG_ELEM_NATIVE_NUM_VALUE:
if (spec.can_box & STORAGE_SPEC_CAN_BOX_NUM) {
bv.type = BIND_VAL_NUM;
bv.val.n = REPR(decont_value)->box_funcs->get_num(interp, STABLE(decont_value), OBJECT_BODY(decont_value));
}
else {
if (error)
*error = Parrot_sprintf_c(interp, "Cannot unbox argument to '%S' as a native num",
param->variable_name);
return BIND_RESULT_FAIL;
}
break;
case SIG_ELEM_NATIVE_STR_VALUE:
if (spec.can_box & STORAGE_SPEC_CAN_BOX_STR) {
bv.type = BIND_VAL_STR;
bv.val.s = REPR(decont_value)->box_funcs->get_str(interp, STABLE(decont_value), OBJECT_BODY(decont_value));
}
else {
if (error)
*error = Parrot_sprintf_c(interp, "Cannot unbox argument to '%S' as a native str",
param->variable_name);
return BIND_RESULT_FAIL;
}
break;
default:
if (error)
*error = Parrot_sprintf_c(interp, "Cannot unbox argument to '%S' as a native type",
param->variable_name);
return BIND_RESULT_FAIL;
}
decont_value = NULL;
}
/* By this point, we'll either have an object that we might be able to
* bind if it passes the type check, or a native value that needs no
* further checking. */
if (bv.type == BIND_VAL_OBJ) {
/* Ensure the value is a 6model object; if not, marshall it to one. */
if (bv.val.o->vtable->base_type != smo_id) {
bv.val.o = Rakudo_types_parrot_map(interp, bv.val.o);
if (bv.val.o->vtable->base_type != smo_id) {
*error = Parrot_sprintf_c(interp, "Unmarshallable foreign language value passed for parameter '%S'",
param->variable_name);
return BIND_RESULT_FAIL;
}
}
/* We pretty much always need to de-containerized value, so get it
* right off. */
decont_value = Rakudo_cont_decontainerize(interp, bv.val.o);
/* Skip nominal type check if not needed. */
if (!no_nom_type_check) {
PMC *nom_type;
/* Is the nominal type generic and in need of instantiation? (This
* can happen in (::T, T) where we didn't learn about the type until
* during the signature bind). */
if (param->flags & SIG_ELEM_NOMINAL_GENERIC) {
PMC *HOW = STABLE(param->nominal_type)->HOW;
PMC *ig = VTABLE_find_method(interp, HOW, INSTANTIATE_GENERIC_str);
Parrot_ext_call(interp, ig, "PiPP->P", HOW, param->nominal_type,
lexpad, &nom_type);
}
else {
nom_type = param->nominal_type;
}
/* If not, do the check. If the wanted nominal type is Mu, then
* anything goes. */
if (nom_type != Rakudo_types_mu_get() &&
(decont_value->vtable->base_type != smo_id ||
!STABLE(decont_value)->type_check(interp, decont_value, nom_type))) {
/* Type check failed; produce error if needed. */
if (error) {
PMC * got_how = STABLE(decont_value)->HOW;
PMC * exp_how = STABLE(nom_type)->HOW;
PMC * got_name_meth = VTABLE_find_method(interp, got_how, NAME_str);
PMC * exp_name_meth = VTABLE_find_method(interp, exp_how, NAME_str);
STRING * expected, * got;
Parrot_ext_call(interp, got_name_meth, "PiP->S", got_how, bv.val.o, &got);
Parrot_ext_call(interp, exp_name_meth, "PiP->S", exp_how, nom_type, &expected);
*error = Parrot_sprintf_c(interp, "Nominal type check failed for parameter '%S'; expected %S but got %S instead",
param->variable_name, expected, got);
}
/* Report junction failure mode if it's a junction. */
return junc_or_fail(interp, decont_value);
}
/* Also enforce definedness constraints. */
if (param->flags & SIG_ELEM_DEFINEDNES_CHECK) {
INTVAL defined = IS_CONCRETE(decont_value);
if (defined && param->flags & SIG_ELEM_UNDEFINED_ONLY) {
if (error)
*error = Parrot_sprintf_c(interp,
"Parameter '%S' requires a type object, but an object instance was passed",
param->variable_name);
return junc_or_fail(interp, decont_value);
}
if (!defined && param->flags & SIG_ELEM_DEFINED_ONLY) {
if (error)
*error = Parrot_sprintf_c(interp,
"Parameter '%S' requires an instance, but a type object was passed",
param->variable_name);
return junc_or_fail(interp, decont_value);
}
}
}
}
/* Do we have any type captures to bind? */
if (!PMC_IS_NULL(param->type_captures)) {
Rakudo_binding_bind_type_captures(interp, lexpad, param, bv);
}
/* Do a coercion, if one is needed. */
if (!PMC_IS_NULL(param->coerce_type)) {
/* Coercing natives not possible - nothing to call a method on. */
if (bv.type != BIND_VAL_OBJ) {
*error = Parrot_sprintf_c(interp,
"Unable to coerce natively typed parameter '%S'",
param->variable_name);
return BIND_RESULT_FAIL;
}
/* Only coerce if we don't already have the correct type. */
if (!STABLE(decont_value)->type_check(interp, decont_value, param->coerce_type)) {
PMC *coerce_meth = VTABLE_find_method(interp, decont_value, param->coerce_method);
if (!PMC_IS_NULL(coerce_meth)) {
Parrot_ext_call(interp, coerce_meth, "Pi->P", decont_value, &decont_value);
}
else {
/* No coercion method availale; whine and fail to bind. */
if (error) {
PMC * got_how = STABLE(decont_value)->HOW;
PMC * got_name_meth = VTABLE_find_method(interp, got_how, NAME_str);
STRING * got;
Parrot_ext_call(interp, got_name_meth, "PiP->S", got_how, decont_value, &got);
*error = Parrot_sprintf_c(interp,
"Unable to coerce value for '%S' from %S to %S; no coercion method defined",
param->variable_name, got, param->coerce_method);
}
return BIND_RESULT_FAIL;
}
}
}
/* If it's not got attributive binding, we'll go about binding it into the
* lex pad. */
if (!(param->flags & SIG_ELEM_BIND_ATTRIBUTIVE) && !STRING_IS_NULL(param->variable_name)) {
/* Is it native? If so, just go ahead and bind it. */
if (bv.type != BIND_VAL_OBJ) {
switch (bv.type) {
case BIND_VAL_INT:
VTABLE_set_integer_keyed_str(interp, lexpad, param->variable_name, bv.val.i);
break;
case BIND_VAL_NUM:
VTABLE_set_number_keyed_str(interp, lexpad, param->variable_name, bv.val.n);
break;
case BIND_VAL_STR:
VTABLE_set_string_keyed_str(interp, lexpad, param->variable_name, bv.val.s);
break;
}
}
/* Otherwise it's some objecty case. */
else if (param->flags & SIG_ELEM_IS_RW) {
/* XXX TODO Check if rw flag is set; also need to have a
* wrapper container that carries extra constraints. */
VTABLE_set_pmc_keyed_str(interp, lexpad, param->variable_name, bv.val.o);
}
else if (param->flags & SIG_ELEM_IS_PARCEL) {
/* Just bind the thing as is into the lexpad. */
VTABLE_set_pmc_keyed_str(interp, lexpad, param->variable_name, bv.val.o);
}
else {
/* If it's an array, copy means make a new one and store,
* and a normal bind is a straightforward binding plus
* adding a constraint. */
if (param->flags & SIG_ELEM_ARRAY_SIGIL) {
PMC *bindee = decont_value;
if (param->flags & SIG_ELEM_IS_COPY) {
bindee = Rakudo_binding_create_positional(interp,
Parrot_pmc_new(interp, enum_class_ResizablePMCArray));
Rakudo_cont_store(interp, bindee, decont_value, 0, 0);
}
VTABLE_set_pmc_keyed_str(interp, lexpad, param->variable_name, bindee);
}
/* If it's a hash, similar approach to array. */
else if (param->flags & SIG_ELEM_HASH_SIGIL) {
PMC *bindee = decont_value;
if (param->flags & SIG_ELEM_IS_COPY) {
bindee = Rakudo_binding_create_hash(interp,
Parrot_pmc_new(interp, enum_class_Hash));
Rakudo_cont_store(interp, bindee, decont_value, 0, 0);
}
VTABLE_set_pmc_keyed_str(interp, lexpad, param->variable_name, bindee);
}
/* If it's a scalar, we always need to wrap it into a new
* container and store it, for copy or ro case (the rw bit
* in the container descriptor takes care of the rest). */
else {
PMC *new_cont = Rakudo_cont_scalar_from_descriptor(interp, param->container_descriptor);
Rakudo_cont_store(interp, new_cont, decont_value, 0, 0);
VTABLE_set_pmc_keyed_str(interp, lexpad, param->variable_name, new_cont);
}
}
}
/* Is it the invocant? If so, also have to bind to self lexical. */
if (param->flags & SIG_ELEM_INVOCANT)
VTABLE_set_pmc_keyed_str(interp, lexpad, SELF_str, decont_value);
/* Handle any constraint types (note that they may refer to the parameter by
* name, so we need to have bound it already). */
if (!PMC_IS_NULL(param->post_constraints)) {
PMC * code_type = Rakudo_types_code_get();
PMC * const constraints = param->post_constraints;
INTVAL num_constraints = VTABLE_elements(interp, constraints);
INTVAL i;
for (i = 0; i < num_constraints; i++) {
/* Check we meet the constraint. */
PMC *cons_type = VTABLE_get_pmc_keyed_int(interp, constraints, i);
PMC *accepts_meth = VTABLE_find_method(interp, cons_type, ACCEPTS);
PMC *old_ctx = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
PMC *cappy = Parrot_pmc_new(interp, enum_class_CallContext);
if (STABLE(cons_type)->type_check(interp, cons_type, code_type))
Parrot_sub_capture_lex(interp,
VTABLE_get_attr_keyed(interp, cons_type, code_type, DO_str));
VTABLE_push_pmc(interp, cappy, cons_type);
switch (bv.type) {
case BIND_VAL_OBJ:
VTABLE_push_pmc(interp, cappy, bv.val.o);
break;
case BIND_VAL_INT:
VTABLE_push_integer(interp, cappy, bv.val.i);
break;
case BIND_VAL_NUM:
VTABLE_push_float(interp, cappy, bv.val.n);
break;
case BIND_VAL_STR:
VTABLE_push_string(interp, cappy, bv.val.s);
break;
}
Parrot_pcc_invoke_from_sig_object(interp, accepts_meth, cappy);
cappy = Parrot_pcc_get_signature(interp, CURRENT_CONTEXT(interp));
Parrot_pcc_set_signature(interp, CURRENT_CONTEXT(interp), old_ctx);
if (!VTABLE_get_bool(interp, VTABLE_get_pmc_keyed_int(interp, cappy, 0))) {
if (error)
*error = Parrot_sprintf_c(interp, "Constraint type check failed for parameter '%S'",
param->variable_name);
return BIND_RESULT_FAIL;
}
}
}
/* If it's attributive, now we assign it. */
if (param->flags & SIG_ELEM_BIND_ATTRIBUTIVE) {
INTVAL result = Rakudo_binding_assign_attributive(interp, lexpad, param, bv, decont_value, error);
if (result != BIND_RESULT_OK)
return result;
}
/* If it has a sub-signature, bind that. */
if (!PMC_IS_NULL(param->sub_llsig) && bv.type == BIND_VAL_OBJ) {
/* Turn value into a capture, unless we already have one. */
PMC *capture = PMCNULL;
INTVAL result;
if (param->flags & SIG_ELEM_IS_CAPTURE) {
capture = decont_value;
}
else {
PMC *meth = VTABLE_find_method(interp, decont_value, Parrot_str_new(interp, "Capture", 0));
if (PMC_IS_NULL(meth)) {
if (error)
*error = Parrot_sprintf_c(interp, "Could not turn argument into capture");
return BIND_RESULT_FAIL;
}
Parrot_ext_call(interp, meth, "Pi->P", decont_value, &capture);
}
/* Recurse into signature binder. */
result = Rakudo_binding_bind(interp, lexpad, param->sub_llsig,
capture, no_nom_type_check, error);
if (result != BIND_RESULT_OK)
{
if (error) {
/* Note in the error message that we're in a sub-signature. */
*error = Parrot_str_concat(interp, *error,
Parrot_str_new(interp, " in sub-signature", 0));
/* Have we a variable name? */
if (!STRING_IS_NULL(param->variable_name)) {
*error = Parrot_str_concat(interp, *error,
Parrot_str_new(interp, " of parameter ", 0));
*error = Parrot_str_concat(interp, *error, param->variable_name);
}
}
return result;
}
}
/* Binding of this parameter was thus successful - we're done. */
return BIND_RESULT_OK;
}
/* Locates all of the attributes. Puts them onto a flattened, ordered
* list of attributes (populating the passed flat_list). Also builds
* the index mapping for doing named lookups. Note index is not related
* to the storage position. */
static PMC * index_mapping_and_flat_list(PARROT_INTERP, PMC *mro, CStructREPRData *repr_data) {
PMC *flat_list = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
PMC *class_list = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
PMC *attr_map_list = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
STRING *name_str = Parrot_str_new_constant(interp, "name");
INTVAL current_slot = 0;
INTVAL num_classes, i;
CStructNameMap * result = NULL;
/* Walk through the parents list. */
INTVAL mro_idx = VTABLE_elements(interp, mro);
while (mro_idx)
{
/* Get current class in MRO. */
PMC *type_info = VTABLE_get_pmc_keyed_int(interp, mro, --mro_idx);
PMC *current_class = decontainerize(interp, VTABLE_get_pmc_keyed_int(interp, type_info, 0));
/* Get its local parents; make sure we're not doing MI. */
PMC *parents = VTABLE_get_pmc_keyed_int(interp, type_info, 2);
INTVAL num_parents = VTABLE_elements(interp, parents);
if (num_parents <= 1) {
/* Get attributes and iterate over them. */
PMC *attributes = VTABLE_get_pmc_keyed_int(interp, type_info, 1);
PMC *attr_map = PMCNULL;
PMC *attr_iter = VTABLE_get_iter(interp, attributes);
while (VTABLE_get_bool(interp, attr_iter)) {
/* Get attribute. */
PMC * attr = VTABLE_shift_pmc(interp, attr_iter);
/* Get its name. */
PMC *name_pmc = VTABLE_get_pmc_keyed_str(interp, attr, name_str);
STRING *name = VTABLE_get_string(interp, name_pmc);
/* Allocate a slot. */
if (PMC_IS_NULL(attr_map))
attr_map = Parrot_pmc_new(interp, enum_class_Hash);
VTABLE_set_pmc_keyed_str(interp, attr_map, name,
Parrot_pmc_new_init_int(interp, enum_class_Integer, current_slot));
current_slot++;
/* Push attr onto the flat list. */
VTABLE_push_pmc(interp, flat_list, attr);
}
/* Add to class list and map list. */
VTABLE_push_pmc(interp, class_list, current_class);
VTABLE_push_pmc(interp, attr_map_list, attr_map);
}
else {
Parrot_ex_throw_from_c_args(interp, NULL, EXCEPTION_INVALID_OPERATION,
"CStruct representation does not support multiple inheritance");
}
}
/* We can now form the name map. */
num_classes = VTABLE_elements(interp, class_list);
result = (CStructNameMap *) mem_sys_allocate_zeroed(sizeof(CStructNameMap) * (1 + num_classes));
for (i = 0; i < num_classes; i++) {
result[i].class_key = VTABLE_get_pmc_keyed_int(interp, class_list, i);
result[i].name_map = VTABLE_get_pmc_keyed_int(interp, attr_map_list, i);
}
repr_data->name_to_index_mapping = result;
return flat_list;
}
/* Locates all of the attributes. Puts them onto a flattened, ordered
* list of attributes (populating the passed flat_list). Also builds
* the index mapping for doing named lookups. Note index is not related
* to the storage position. */
static PMC * index_mapping_and_flat_list(PARROT_INTERP, PMC *WHAT, P6opaqueREPRData *repr_data) {
PMC *flat_list = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
PMC *class_list = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
PMC *attr_map_list = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
STRING *attributes_str = Parrot_str_new_constant(interp, "attributes");
STRING *parents_str = Parrot_str_new_constant(interp, "parents");
STRING *name_str = Parrot_str_new_constant(interp, "name");
STRING *mro_str = Parrot_str_new_constant(interp, "mro");
INTVAL current_slot = 0;
INTVAL num_classes, i;
P6opaqueNameMap * result = NULL;
/* Get the MRO. */
PMC *mro = introspection_call(interp, WHAT, STABLE(WHAT)->HOW, mro_str, 0);
INTVAL mro_idx = VTABLE_elements(interp, mro);
/* Walk through the parents list. */
while (mro_idx)
{
/* Get current class in MRO. */
PMC *current_class = decontainerize(interp, VTABLE_get_pmc_keyed_int(interp, mro, --mro_idx));
PMC *HOW = STABLE(current_class)->HOW;
/* Get its local parents. */
PMC *parents = introspection_call(interp, current_class, HOW, parents_str, 1);
INTVAL num_parents = VTABLE_elements(interp, parents);
/* Get attributes and iterate over them. */
PMC *attributes = introspection_call(interp, current_class, HOW, attributes_str, 1);
PMC *attr_map = PMCNULL;
PMC *attr_iter = VTABLE_get_iter(interp, attributes);
while (VTABLE_get_bool(interp, attr_iter)) {
/* Get attribute. */
PMC * attr = VTABLE_shift_pmc(interp, attr_iter);
/* Get its name. */
PMC *name_pmc = accessor_call(interp, attr, name_str);
STRING *name = VTABLE_get_string(interp, name_pmc);
/* Allocate a slot. */
if (PMC_IS_NULL(attr_map))
attr_map = Parrot_pmc_new(interp, enum_class_Hash);
VTABLE_set_pmc_keyed_str(interp, attr_map, name,
Parrot_pmc_new_init_int(interp, enum_class_Integer, current_slot));
current_slot++;
/* Push attr onto the flat list. */
VTABLE_push_pmc(interp, flat_list, attr);
}
/* Add to class list and map list. */
VTABLE_push_pmc(interp, class_list, current_class);
VTABLE_push_pmc(interp, attr_map_list, attr_map);
/* If there's more than one parent, flag that we in an MI
* situation. */
if (num_parents > 1)
repr_data->mi = 1;
}
/* We can now form the name map. */
num_classes = VTABLE_elements(interp, class_list);
result = (P6opaqueNameMap *) mem_sys_allocate_zeroed(sizeof(P6opaqueNameMap) * (1 + num_classes));
for (i = 0; i < num_classes; i++) {
result[i].class_key = VTABLE_get_pmc_keyed_int(interp, class_list, i);
result[i].name_map = VTABLE_get_pmc_keyed_int(interp, attr_map_list, i);
}
repr_data->name_to_index_mapping = result;
return flat_list;
}
/* Registers a representation. It this is ever made public, it should first be
* made thread-safe. */
static void register_repr(PARROT_INTERP, STRING *name, PMC *repr) {
INTVAL ID = VTABLE_elements(interp, repr_registry);
VTABLE_push_pmc(interp, repr_registry, repr);
VTABLE_set_integer_keyed_str(interp, repr_name_to_id_map, name, ID);
}
PARROT_WARN_UNUSED_RESULT
PARROT_CANNOT_RETURN_NULL
PMC *
Parrot_io_internal_getaddrinfo(PARROT_INTERP, ARGIN(STRING *addr), INTVAL port,
INTVAL protocol, INTVAL fam, INTVAL passive)
{
#ifdef PARROT_HAS_IPV6
PMC *array;
struct addrinfo hints;
struct addrinfo *ai, *walk;
/* We need to pass the port as a string (because you could also use a
* service specification from /etc/services). The highest port is 65535,
* so we need 5 characters + trailing null-byte. */
char portstr[6];
int ret;
/* convert Parrot's family to system family */
if (fam < 0
|| fam >= PIO_PF_MAX
|| (fam = pio_pf[fam]) < 0)
Parrot_ex_throw_from_c_args(interp, NULL, EXCEPTION_PIO_ERROR,
"unsupported protocol family: %ld", fam);
memset(&hints, 0, sizeof (struct addrinfo));
if (passive)
hints.ai_flags = AI_PASSIVE;
hints.ai_family = fam;
hints.ai_protocol = protocol;
snprintf(portstr, sizeof (portstr), "%ld", port);
{
/* Limited scope for the C string to prevent mistakes */
char *s = STRING_IS_NULL(addr)
? (char *) NULL
: Parrot_str_to_cstring(interp, addr);
ret = getaddrinfo(s, portstr, &hints, &ai);
Parrot_str_free_cstring(s);
}
if (ret != 0)
Parrot_ex_throw_from_c_args(interp, NULL, EXCEPTION_PIO_ERROR,
"getaddrinfo failed: %Ss: %Ss", addr,
Parrot_platform_strerror(interp, PIO_SOCK_ERRNO));
array = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
for (walk = ai; walk; walk = walk->ai_next) {
PMC *sockaddr = Parrot_pmc_new(interp, enum_class_Sockaddr);
Parrot_Sockaddr_attributes *sa_attrs = PARROT_SOCKADDR(sockaddr);
sa_attrs->family = walk->ai_family;
sa_attrs->type = walk->ai_socktype;
sa_attrs->protocol = walk->ai_protocol;
sa_attrs->len = walk->ai_addrlen;
sa_attrs->pointer = Parrot_gc_allocate_memory_chunk(interp,
walk->ai_addrlen);
memcpy(sa_attrs->pointer, walk->ai_addr, walk->ai_addrlen);
VTABLE_push_pmc(interp, array, sockaddr);
}
freeaddrinfo(ai);
return array;
#else /* PARROT_HAS_IPV6 */
const char *host;
char *cstring;
int success;
PMC *sockaddr;
PMC *array;
const size_t addr_len = sizeof (struct sockaddr_in);
struct sockaddr_in *sa;
Parrot_Sockaddr_attributes *sa_attrs;
sa = (struct sockaddr_in *)Parrot_gc_allocate_memory_chunk(interp,
addr_len);
sockaddr = Parrot_pmc_new(interp, enum_class_Sockaddr);
sa_attrs = PARROT_SOCKADDR(sockaddr);
sa_attrs->family = PF_INET;
sa_attrs->type = 0;
sa_attrs->protocol = 0;
sa_attrs->len = addr_len;
sa_attrs->pointer = sa;
if (STRING_IS_NULL(addr)) {
cstring = NULL;
host = "127.0.0.1";
}
else {
cstring = Parrot_str_to_cstring(interp, addr);
host = cstring;
}
# ifdef _WIN32
sa->sin_addr.S_un.S_addr = inet_addr(host);
success = sa->sin_addr.S_un.S_addr != -1;
# else
# ifdef PARROT_DEF_INET_ATON
success = inet_aton(host, &sa->sin_addr) != 0;
# else
/* positive retval is success */
success = inet_pton(PF_INET, host, &sa->sin_addr) > 0;
# endif
# endif
if (!success) {
/* Maybe it is a hostname, try to lookup */
/* XXX Check PIO option before doing a name lookup,
* it may have been toggled off.
*/
const struct hostent * const he = gethostbyname(host);
if (!he) {
if (cstring)
Parrot_str_free_cstring(cstring);
Parrot_ex_throw_from_c_args(interp, NULL, EXCEPTION_PIO_ERROR,
"getaddrinfo failed: %s", host);
}
memcpy((char*)&sa->sin_addr, he->h_addr, sizeof (sa->sin_addr));
}
if (cstring)
Parrot_str_free_cstring(cstring);
sa->sin_family = PF_INET;
sa->sin_port = htons(port);
array = Parrot_pmc_new(interp, enum_class_ResizablePMCArray);
VTABLE_push_pmc(interp, array, sockaddr);
return array;
#endif /* PARROT_HAS_IPV6 */
}
