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elab_type.cc
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elab_type.cc
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/*
* Copyright (c) 2012-2013 Stephen Williams ([email protected])
*
* 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 "pform_types.h"
# include "netlist.h"
# include "netclass.h"
# include "netdarray.h"
# include "netenum.h"
# include "netscalar.h"
# include "netstruct.h"
# include "netvector.h"
# include "netmisc.h"
# include <typeinfo>
# include "ivl_assert.h"
using namespace std;
/*
* Elaborations of types may vary depending on the scope that it is
* done in, so keep a per-scope cache of the results.
*/
ivl_type_s* data_type_t::elaborate_type(Design*des, NetScope*scope)
{
map<NetScope*,ivl_type_s*>::iterator pos = cache_type_elaborate_.lower_bound(scope);
if (pos->first == scope)
return pos->second;
ivl_type_s*tmp = elaborate_type_raw(des, scope);
cache_type_elaborate_.insert(pos, pair<NetScope*,ivl_type_s*>(scope, tmp));
return tmp;
}
ivl_type_s* data_type_t::elaborate_type_raw(Design*des, NetScope*) const
{
cerr << get_fileline() << ": internal error: "
<< "Elaborate method not implemented for " << typeid(*this).name()
<< "." << endl;
des->errors += 1;
return 0;
}
ivl_type_s* atom2_type_t::elaborate_type_raw(Design*des, NetScope*) const
{
switch (type_code) {
case 64:
if (signed_flag)
return &netvector_t::atom2s64;
else
return &netvector_t::atom2u64;
case 32:
if (signed_flag)
return &netvector_t::atom2s32;
else
return &netvector_t::atom2u32;
case 16:
if (signed_flag)
return &netvector_t::atom2s16;
else
return &netvector_t::atom2u16;
case 8:
if (signed_flag)
return &netvector_t::atom2s8;
else
return &netvector_t::atom2u8;
default:
cerr << get_fileline() << ": internal error: "
<< "atom2_type_t type_code=" << type_code << "." << endl;
des->errors += 1;
return 0;
}
}
ivl_type_s* class_type_t::elaborate_type_raw(Design*, NetScope*scope) const
{
return scope->find_class(name);
}
/*
* elaborate_type_raw for enumerations is actually mostly performed
* during scope elaboration so that the enumeration literals are
* available at the right time. At that time, the netenum_t* object is
* stashed in the scope so that I can retrieve it here.
*/
ivl_type_s* enum_type_t::elaborate_type_raw(Design*des, NetScope*scope) const
{
ivl_assert(*this, scope);
ivl_type_s*tmp = scope->enumeration_for_key(this);
if (tmp) return tmp;
tmp = des->enumeration_for_key(this);
return tmp;
}
ivl_type_s* vector_type_t::elaborate_type_raw(Design*des, NetScope*scope) const
{
vector<netrange_t> packed;
if (pdims.get()) {
for (list<pform_range_t>::const_iterator cur = pdims->begin()
; cur != pdims->end() ; ++ cur) {
NetExpr*me = elab_and_eval(des, scope, cur->first, 0, true);
assert(me);
NetExpr*le = elab_and_eval(des, scope, cur->second, 0, true);
assert(le);
long mnum = 0, lnum = 0;
if ( ! eval_as_long(mnum, me) ) {
assert(0);
des->errors += 1;
}
if ( ! eval_as_long(lnum, le) ) {
assert(0);
des->errors += 1;
}
packed.push_back(netrange_t(mnum, lnum));
}
}
netvector_t*tmp = new netvector_t(packed, base_type);
tmp->set_signed(signed_flag);
tmp->set_isint(integer_flag);
return tmp;
}
ivl_type_s* real_type_t::elaborate_type_raw(Design*, NetScope*) const
{
switch (type_code) {
case REAL:
return &netreal_t::type_real;
case SHORTREAL:
return &netreal_t::type_shortreal;
}
return 0;
}
ivl_type_s* string_type_t::elaborate_type_raw(Design*, NetScope*) const
{
return &netstring_t::type_string;
}
netstruct_t* struct_type_t::elaborate_type_raw(Design*des, NetScope*scope) const
{
netstruct_t*res = new netstruct_t;
res->packed(packed_flag);
if (union_flag)
res->union_flag(true);
for (list<struct_member_t*>::iterator cur = members->begin()
; cur != members->end() ; ++ cur) {
// Elaborate the type of the member.
struct_member_t*curp = *cur;
ivl_type_t mem_vec = curp->type->elaborate_type(des, scope);
if (mem_vec == 0)
continue;
// There may be several names that are the same type:
// <data_type> name1, name2, ...;
// Process all the member, and give them a type.
for (list<decl_assignment_t*>::iterator name = curp->names->begin()
; name != curp->names->end() ; ++ name) {
decl_assignment_t*namep = *name;
netstruct_t::member_t memb;
memb.name = namep->name;
memb.net_type = mem_vec;
res->append_member(des, memb);
}
}
return res;
}
ivl_type_s* uarray_type_t::elaborate_type_raw(Design*des, NetScope*scope) const
{
ivl_type_t btype = base_type->elaborate_type(des, scope);
assert(dims->size() == 1);
list<pform_range_t>::const_iterator cur = dims->begin();
assert(cur->first == 0 && cur->second==0);
ivl_type_s*res = new netdarray_t(btype);
return res;
}