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/*
* Copyright (c) 2012-2024 Stephen Williams (steve@icarus.com)
*
* This source code is free software; you can redistribute it
* and/or modify it in source code form under the terms of the GNU
* General Public License as published by the Free Software
* Foundation; either version 2 of the License, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
# include <cstdarg>
# include "pform.h"
# include "PClass.h"
# include "parse_misc.h"
# include "ivl_assert.h"
using namespace std;
/*
* The functions here help the parser put together class type declarations.
*/
static PClass*pform_cur_class = 0;
/*
* The base_type is set to the base class if this declaration is
* starting a derived class. For example, for the syntax:
*
* class foo extends bar (exprs) ...
*
* the base_type is the type of the class "bar", and the base_exprs,
* if present, are the "exprs" that would be passed to a chained
* constructor.
*/
void pform_start_class_declaration(const struct vlltype&loc,
class_type_t*type,
data_type_t*base_type,
list<named_pexpr_t> *base_args,
bool virtual_class)
{
PClass*class_scope = pform_push_class_scope(loc, type->name);
class_scope->type = type;
ivl_assert(loc, pform_cur_class == 0);
pform_cur_class = class_scope;
ivl_assert(loc, type->base_type == 0);
type->base_type.reset(base_type);
type->virtual_class = virtual_class;
ivl_assert(loc, type->base_args.empty());
if (base_args) {
type->base_args.insert(type->base_args.begin(), base_args->begin(),
base_args->end());
delete base_args;
}
}
void pform_class_property(const struct vlltype&loc,
property_qualifier_t property_qual,
data_type_t*data_type,
list<decl_assignment_t*>*decls)
{
ivl_assert(loc, pform_cur_class);
// Add the non-static properties to the class type
// object. Unwind the list of names to make a map of name to
// type.
for (list<decl_assignment_t*>::iterator cur = decls->begin()
; cur != decls->end() ; ++cur) {
decl_assignment_t*curp = *cur;
data_type_t*use_type = data_type;
if (! curp->index.empty()) {
list<pform_range_t>*pd = new list<pform_range_t> (curp->index);
use_type = new uarray_type_t(use_type, pd);
FILE_NAME(use_type, loc);
}
pform_cur_class->type->properties[curp->name.first]
= class_type_t::prop_info_t(property_qual,use_type);
FILE_NAME(&pform_cur_class->type->properties[curp->name.first], loc);
if (PExpr*rval = curp->expr.release()) {
PExpr*lval = new PEIdent(curp->name.first, curp->name.second);
FILE_NAME(lval, loc);
PAssign*tmp = new PAssign(lval, rval);
FILE_NAME(tmp, loc);
if (property_qual.test_static())
pform_cur_class->type->initialize_static.push_back(tmp);
else
pform_cur_class->type->initialize.push_back(tmp);
}
}
}
void pform_set_this_class(const struct vlltype&loc, PTaskFunc*net)
{
if (pform_cur_class == 0)
return;
list<pform_port_t>*this_name = new list<pform_port_t>;
this_name->push_back(pform_port_t({ perm_string::literal(THIS_TOKEN), 0 }, 0, 0));
vector<pform_tf_port_t>*this_port = pform_make_task_ports(loc,
NetNet::PINPUT,
pform_cur_class->type,
this_name);
// The pform_make_task_ports() function deletes the this_name
// object.
ivl_assert(loc, this_port->at(0).defe == 0);
PWire*this_wire = this_port->at(0).port;
delete this_port;
net->set_this(pform_cur_class->type, this_wire);
}
void pform_set_constructor_return(PFunction*net)
{
ivl_assert(*net, pform_cur_class);
net->set_return(pform_cur_class->type);
}
/*
* A constructor is basically a function with special implications.
*/
PFunction*pform_push_constructor_scope(const struct vlltype&loc)
{
ivl_assert(loc, pform_cur_class);
PFunction*func = pform_push_function_scope(loc, "new", LexicalScope::AUTOMATIC);
return func;
}
void pform_end_class_declaration(const struct vlltype&loc)
{
ivl_assert(loc, pform_cur_class);
// If there were initializer statements, then collect them
// into an implicit constructor function. Also make sure that an
// explicit constructor exists if base class constructor arguments are
// specified, so that the base class constructor will be called.
if (!pform_cur_class->type->initialize.empty() ||
!pform_cur_class->type->base_args.empty()) {
PFunction*func = pform_push_function_scope(loc, "new@", LexicalScope::AUTOMATIC);
func->set_ports(0);
pform_set_constructor_return(func);
pform_set_this_class(loc, func);
class_type_t*use_class = pform_cur_class->type;
if (use_class->initialize.size() == 1) {
func->set_statement(use_class->initialize.front());
} else {
PBlock*tmp = new PBlock(PBlock::BL_SEQ);
tmp->set_statement(use_class->initialize);
func->set_statement(tmp);
}
pform_pop_scope();
}
pform_cur_class = 0;
pform_pop_scope();
}
bool pform_in_class()
{
return pform_cur_class != 0;
}
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