iverilog/elab_type.cc

/*
 * Copyright (c) 2012-2013 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  "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;

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;
}
Flesh out class type elaboration Add properties to the classes, and elaborate expressions that have class properties. Describe class object property references all the way down to the stub target. 2012-11-25 19:13:05 +01:00			`/*`
Handle real value class properties. As a side effect, this also adds support for 64bit integers. 2013-01-11 03:48:15 +01:00			`* Copyright (c) 2012-2013 Stephen Williams (steve@icarus.com)`
Flesh out class type elaboration Add properties to the classes, and elaborate expressions that have class properties. Describe class object property references all the way down to the stub target. 2012-11-25 19:13:05 +01:00			`*`
			`* 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"`
Allow for class objects an class properties. 2013-01-28 04:52:43 +01:00			`# include "netclass.h"`
Add support for darrays as class properties. 2013-01-27 21:30:38 +01:00			`# include "netdarray.h"`
Handle enumerations as packed struct/union members. There were also some subtleties related to using enumerations from typedefs and using them in multiple places. Fix various bugs related to those issues. 2013-12-05 00:25:14 +01:00			`# include "netenum.h"`
Handle real value class properties. As a side effect, this also adds support for 64bit integers. 2013-01-11 03:48:15 +01:00			`# include "netscalar.h"`
Handle packed unions properly during elaboration. This also gets r-value use of packed unions correct. 2013-12-01 03:20:01 +01:00			`# include "netstruct.h"`
Flesh out class type elaboration Add properties to the classes, and elaborate expressions that have class properties. Describe class object property references all the way down to the stub target. 2012-11-25 19:13:05 +01:00			`# include "netvector.h"`
Generalize user defined function return type handling. I'm gonna need functions to return class objects, so generalize the output types of user defined functions. 2013-04-15 03:03:21 +02:00			`# include "netmisc.h"`
Flesh out class type elaboration Add properties to the classes, and elaborate expressions that have class properties. Describe class object property references all the way down to the stub target. 2012-11-25 19:13:05 +01:00			`# include <typeinfo>`
			`# include "ivl_assert.h"`

			`using namespace std;`

Implement $bits(type) to get the size of a type In the process, I implemented a means to get at previously elaborated types from the pform type pointer. 2013-12-16 03:36:13 +01:00			`ivl_type_s* data_type_t::elaborate_type_raw(Designdes, NetScope) const`
Flesh out class type elaboration Add properties to the classes, and elaborate expressions that have class properties. Describe class object property references all the way down to the stub target. 2012-11-25 19:13:05 +01:00			`{`
			`cerr << get_fileline() << ": internal error: "`
			`<< "Elaborate method not implemented for " << typeid(*this).name()`
			`<< "." << endl;`
			`des->errors += 1;`
			`return 0;`
			`}`

Implement $bits(type) to get the size of a type In the process, I implemented a means to get at previously elaborated types from the pform type pointer. 2013-12-16 03:36:13 +01:00			`ivl_type_s* atom2_type_t::elaborate_type_raw(Designdes, NetScope) const`
Flesh out class type elaboration Add properties to the classes, and elaborate expressions that have class properties. Describe class object property references all the way down to the stub target. 2012-11-25 19:13:05 +01:00			`{`
			`switch (type_code) {`
Handle real value class properties. As a side effect, this also adds support for 64bit integers. 2013-01-11 03:48:15 +01:00			`case 64:`
			`if (signed_flag)`
			`return &netvector_t::atom2s64;`
			`else`
			`return &netvector_t::atom2u64;`

Flesh out class type elaboration Add properties to the classes, and elaborate expressions that have class properties. Describe class object property references all the way down to the stub target. 2012-11-25 19:13:05 +01:00			`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;`
			`}`
			`}`
Handle real value class properties. As a side effect, this also adds support for 64bit integers. 2013-01-11 03:48:15 +01:00
Implement $bits(type) to get the size of a type In the process, I implemented a means to get at previously elaborated types from the pform type pointer. 2013-12-16 03:36:13 +01:00			`ivl_type_s* class_type_t::elaborate_type_raw(Design, NetScopescope) const`
Allow for class objects an class properties. 2013-01-28 04:52:43 +01:00			`{`
			`return scope->find_class(name);`
			`}`

Fix problem with enum types in re-used modules When a module is instantiated multiple times, the enum types contained within would cause trouble. This fixes that by elaborating in proper scope context. 2013-12-18 07:16:59 +01:00			`/*`
			`* elaborate_type_raw for enumerations is actually mostly performed`
			`* during scope elaboration so that the enumeration literals are`
Spelling fixes Mostly comments. One user-visible string ("Evalutated to ") changed in the debug_eval_tree case. 2014-01-29 00:50:27 +01:00			`* available at the right time. At that time, the netenum_t* object is`
Fix problem with enum types in re-used modules When a module is instantiated multiple times, the enum types contained within would cause trouble. This fixes that by elaborating in proper scope context. 2013-12-18 07:16:59 +01:00			`* stashed in the scope so that I can retrieve it here.`
			`*/`
Implement $bits(type) to get the size of a type In the process, I implemented a means to get at previously elaborated types from the pform type pointer. 2013-12-16 03:36:13 +01:00			`ivl_type_s* enum_type_t::elaborate_type_raw(Designdes, NetScopescope) const`
Handle enumerations as packed struct/union members. There were also some subtleties related to using enumerations from typedefs and using them in multiple places. Fix various bugs related to those issues. 2013-12-05 00:25:14 +01:00			`{`
Fix problem with enum types in re-used modules When a module is instantiated multiple times, the enum types contained within would cause trouble. This fixes that by elaborating in proper scope context. 2013-12-18 07:16:59 +01:00			`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;`
Handle enumerations as packed struct/union members. There were also some subtleties related to using enumerations from typedefs and using them in multiple places. Fix various bugs related to those issues. 2013-12-05 00:25:14 +01:00			`}`

Implement $bits(type) to get the size of a type In the process, I implemented a means to get at previously elaborated types from the pform type pointer. 2013-12-16 03:36:13 +01:00			`ivl_type_s* vector_type_t::elaborate_type_raw(Designdes, NetScopescope) const`
Generalize user defined function return type handling. I'm gonna need functions to return class objects, so generalize the output types of user defined functions. 2013-04-15 03:03:21 +02:00			`{`
			`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;`
			`}`

Implement $bits(type) to get the size of a type In the process, I implemented a means to get at previously elaborated types from the pform type pointer. 2013-12-16 03:36:13 +01:00			`ivl_type_s* real_type_t::elaborate_type_raw(Design, NetScope) const`
Handle real value class properties. As a side effect, this also adds support for 64bit integers. 2013-01-11 03:48:15 +01:00			`{`
			`switch (type_code) {`
			`case REAL:`
			`return &netreal_t::type_real;`
			`case SHORTREAL:`
			`return &netreal_t::type_shortreal;`
			`}`
			`return 0;`
			`}`
Handle strings as class object properties. While we are at it, fix a handling of null strings in string expressions. 2013-01-14 02:14:40 +01:00
Implement $bits(type) to get the size of a type In the process, I implemented a means to get at previously elaborated types from the pform type pointer. 2013-12-16 03:36:13 +01:00			`ivl_type_s* string_type_t::elaborate_type_raw(Design, NetScope) const`
Handle strings as class object properties. While we are at it, fix a handling of null strings in string expressions. 2013-01-14 02:14:40 +01:00			`{`
			`return &netstring_t::type_string;`
			`}`
Add support for darrays as class properties. 2013-01-27 21:30:38 +01:00
Implement $bits(type) to get the size of a type In the process, I implemented a means to get at previously elaborated types from the pform type pointer. 2013-12-16 03:36:13 +01:00			`netstruct_t* struct_type_t::elaborate_type_raw(Designdes, NetScopescope) const`
Handle packed unions properly during elaboration. This also gets r-value use of packed unions correct. 2013-12-01 03:20:01 +01:00			`{`
			`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_tcurp = cur;`
			`ivl_type_t mem_vec = curp->type->elaborate_type(des, scope);`
Handle enumerations as packed struct/union members. There were also some subtleties related to using enumerations from typedefs and using them in multiple places. Fix various bugs related to those issues. 2013-12-05 00:25:14 +01:00			`if (mem_vec == 0)`
			`continue;`
Handle packed unions properly during elaboration. This also gets r-value use of packed unions correct. 2013-12-01 03:20:01 +01:00
			`// 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_tnamep = name;`

			`netstruct_t::member_t memb;`
			`memb.name = namep->name;`
			`memb.net_type = mem_vec;`
			`res->append_member(des, memb);`
			`}`
			`}`

			`return res;`
			`}`

Implement $bits(type) to get the size of a type In the process, I implemented a means to get at previously elaborated types from the pform type pointer. 2013-12-16 03:36:13 +01:00			`ivl_type_s* uarray_type_t::elaborate_type_raw(Designdes, NetScopescope) const`
Add support for darrays as class properties. 2013-01-27 21:30:38 +01:00			`{`

			`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;`
			`}`