functor.cc

   1 /*
   2  * Copyright (c) 1999-2008 Stephen Williams (steve@icarus.com)
   3  *
   4  *    This source code is free software; you can redistribute it
   5  *    and/or modify it in source code form under the terms of the GNU
   6  *    General Public License as published by the Free Software
   7  *    Foundation; either version 2 of the License, or (at your option)
   8  *    any later version.
   9  *
  10  *    This program is distributed in the hope that it will be useful,
  11  *    but WITHOUT ANY WARRANTY; without even the implied warranty of
  12  *    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  13  *    GNU General Public License for more details.
  14  *
  15  *    You should have received a copy of the GNU General Public License
  16  *    along with this program; if not, write to the Free Software
  17  *    Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
  18  */
  19
  20 # include "config.h"
  21
  22 # include  <iostream>
  23
  24 # include  "functor.h"
  25 # include  "netlist.h"
  26
  27 functor_t::~functor_t()
  28 {
  29 }
  30
  31 void functor_t::event(class Design*, class NetEvent*)
  32 {
  33 }
  34
  35 void functor_t::signal(class Design*, class NetNet*)
  36 {
  37 }
  38
  39 void functor_t::process(class Design*, class NetProcTop*)
  40 {
  41 }
  42
  43 void functor_t::lpm_abs(class Design*, class NetAbs*)
  44 {
  45 }
  46
  47 void functor_t::lpm_add_sub(class Design*, class NetAddSub*)
  48 {
  49 }
  50
  51 void functor_t::lpm_compare(class Design*, class NetCompare*)
  52 {
  53 }
  54
  55 void functor_t::lpm_const(class Design*, class NetConst*)
  56 {
  57 }
  58
  59 void functor_t::lpm_divide(class Design*, class NetDivide*)
  60 {
  61 }
  62
  63 void functor_t::lpm_literal(class Design*, class NetLiteral*)
  64 {
  65 }
  66
  67 void functor_t::lpm_modulo(class Design*, class NetModulo*)
  68 {
  69 }
  70
  71 void functor_t::lpm_ff(class Design*, class NetFF*)
  72 {
  73 }
  74
  75 void functor_t::lpm_logic(class Design*, class NetLogic*)
  76 {
  77 }
  78
  79 void functor_t::lpm_mult(class Design*, class NetMult*)
  80 {
  81 }
  82
  83 void functor_t::lpm_mux(class Design*, class NetMux*)
  84 {
  85 }
  86
  87 void functor_t::lpm_pow(class Design*, class NetPow*)
  88 {
  89 }
  90
  91 void functor_t::sign_extend(class Design*, class NetSignExtend*)
  92 {
  93 }
  94
  95 void functor_t::lpm_ureduce(class Design*, class NetUReduce*)
  96 {
  97 }
  98
  99
 100 void NetScope::run_functor(Design*des, functor_t*fun)
 101 {
 102       for (NetScope*cur = sub_ ;  cur ;  cur = cur->sib_) {
 103             cur->run_functor(des, fun);
 104       }
 105
 106       for (NetEvent*cur = events_ ;  cur ;  /* */) {
 107             NetEvent*tmp = cur;
 108             cur = cur->snext_;
 109             fun->event(des, tmp);
 110       }
 111
 112         // apply to signals. Each iteration, allow for the possibility
 113         // that the current signal deletes itself.
 114       if (signals_) {
 115             unsigned count = 0;
 116             NetNet*cur = signals_->sig_next_;
 117             do {
 118                   count += 1;
 119                   cur = cur->sig_next_;
 120             } while (cur != signals_->sig_next_);
 121
 122             cur = signals_->sig_next_;
 123             for (unsigned idx = 0 ;  idx < count ;  idx += 1) {
 124                   NetNet*tmp = cur->sig_next_;
 125                   fun->signal(des, cur);
 126                   cur = tmp;
 127             }
 128       }
 129 }
 130
 131 void Design::functor(functor_t*fun)
 132 {
 133         // Scan the scopes
 134       for (list<NetScope*>::const_iterator scope = root_scopes_.begin();
 135            scope != root_scopes_.end(); scope++)
 136             (*scope)->run_functor(this, fun);
 137
 138         // apply to processes
 139       procs_idx_ = procs_;
 140       while (procs_idx_) {
 141             NetProcTop*idx = procs_idx_;
 142             procs_idx_ = idx->next_;
 143             fun->process(this, idx);
 144       }
 145
 146         // apply to nodes
 147       if (nodes_) {
 148             assert(nodes_functor_cur_ == 0);
 149             assert(nodes_functor_nxt_ == 0);
 150
 151               /* Scan the circular list of nodes, starting with the
 152                  front of the list.
 153
 154                  This loop interacts with the Design::del_node method
 155                  so that the functor is free to delete any nodes it
 156                  choose. The destructors of the NetNode objects call
 157                  the del_node method, which checks with the
 158                  nodes_functor_* members, to keep the iterator
 159                  operating safely. */
 160             nodes_functor_cur_ = nodes_;
 161             do {
 162                   nodes_functor_nxt_ = nodes_functor_cur_->node_next_;
 163                   nodes_functor_cur_->functor_node(this, fun);
 164
 165                   if (nodes_functor_nxt_ == 0)
 166                         break;
 167
 168                   nodes_functor_cur_ = nodes_functor_nxt_;
 169             } while (nodes_ && (nodes_functor_cur_ != nodes_));
 170             nodes_functor_cur_ = 0;
 171             nodes_functor_nxt_ = 0;
 172
 173       }
 174 }
 175
 176
 177 void NetNode::functor_node(Design*, functor_t*)
 178 {
 179 }
 180
 181 void NetAbs::functor_node(Design*des, functor_t*fun)
 182 {
 183       fun->lpm_abs(des, this);
 184 }
 185
 186 void NetAddSub::functor_node(Design*des, functor_t*fun)
 187 {
 188       fun->lpm_add_sub(des, this);
 189 }
 190
 191 void NetCompare::functor_node(Design*des, functor_t*fun)
 192 {
 193       fun->lpm_compare(des, this);
 194 }
 195
 196 void NetConst::functor_node(Design*des, functor_t*fun)
 197 {
 198       fun->lpm_const(des, this);
 199 }
 200
 201 void NetDivide::functor_node(Design*des, functor_t*fun)
 202 {
 203       fun->lpm_divide(des, this);
 204 }
 205
 206 void NetFF::functor_node(Design*des, functor_t*fun)
 207 {
 208       fun->lpm_ff(des, this);
 209 }
 210
 211 void NetLiteral::functor_node(Design*des, functor_t*fun)
 212 {
 213       fun->lpm_literal(des, this);
 214 }
 215
 216 void NetLogic::functor_node(Design*des, functor_t*fun)
 217 {
 218       fun->lpm_logic(des, this);
 219 }
 220
 221 void NetModulo::functor_node(Design*des, functor_t*fun)
 222 {
 223       fun->lpm_modulo(des, this);
 224 }
 225
 226 void NetMult::functor_node(Design*des, functor_t*fun)
 227 {
 228       fun->lpm_mult(des, this);
 229 }
 230
 231 void NetMux::functor_node(Design*des, functor_t*fun)
 232 {
 233       fun->lpm_mux(des, this);
 234 }
 235
 236 void NetPow::functor_node(Design*des, functor_t*fun)
 237 {
 238       fun->lpm_pow(des, this);
 239 }
 240
 241 void NetSignExtend::functor_node(Design*des, functor_t*fun)
 242 {
 243       fun->sign_extend(des, this);
 244 }
 245
 246 void NetUReduce::functor_node(Design*des, functor_t*fun)
 247 {
 248       fun->lpm_ureduce(des, this);
 249 }
 250
 251 proc_match_t::~proc_match_t()
 252 {
 253 }
 254
 255 int NetProc::match_proc(proc_match_t*that)
 256 {
 257       return 0;
 258 }
 259
 260 int proc_match_t::assign(NetAssign*)
 261 {
 262       return 0;
 263 }
 264
 265 int NetAssign::match_proc(proc_match_t*that)
 266 {
 267       return that->assign(this);
 268 }
 269
 270 int proc_match_t::assign_nb(NetAssignNB*)
 271 {
 272       return 0;
 273 }
 274
 275 int NetAssignNB::match_proc(proc_match_t*that)
 276 {
 277       return that->assign_nb(this);
 278 }
 279
 280 int proc_match_t::block(NetBlock*)
 281 {
 282       return 0;
 283 }
 284
 285 int NetBlock::match_proc(proc_match_t*that)
 286 {
 287       return that->block(this);
 288 }
 289
 290 int proc_match_t::condit(NetCondit*)
 291 {
 292       return 0;
 293 }
 294
 295 int NetCondit::match_proc(proc_match_t*that)
 296 {
 297       return that->condit(this);
 298 }
 299
 300 int NetEvWait::match_proc(proc_match_t*that)
 301 {
 302       return that->event_wait(this);
 303 }
 304
 305 int proc_match_t::event_wait(NetEvWait*)
 306 {
 307       return 0;
 308 }