source: vis_dev/vis-2.3/src/ord/ordIo.c @ 80

Last change on this file since 80 was 14, checked in by cecile, 13 years ago

vis2.3

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1/**CFile***********************************************************************
2
3  FileName    [ordIo.c]
4
5  PackageName [ord]
6
7  Synopsis    [Routines to read and write variable orderings.]
8
9  Author      [Adnan Aziz, Tom Shiple]
10
11  Copyright   [Copyright (c) 1994-1996 The Regents of the Univ. of California.
12  All rights reserved.
13
14  Permission is hereby granted, without written agreement and without license
15  or royalty fees, to use, copy, modify, and distribute this software and its
16  documentation for any purpose, provided that the above copyright notice and
17  the following two paragraphs appear in all copies of this software.
18
19  IN NO EVENT SHALL THE UNIVERSITY OF CALIFORNIA BE LIABLE TO ANY PARTY FOR
20  DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT
21  OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF THE UNIVERSITY OF
22  CALIFORNIA HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
23
24  THE UNIVERSITY OF CALIFORNIA SPECIFICALLY DISCLAIMS ANY WARRANTIES,
25  INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
26  FITNESS FOR A PARTICULAR PURPOSE.  THE SOFTWARE PROVIDED HEREUNDER IS ON AN
27  "AS IS" BASIS, AND THE UNIVERSITY OF CALIFORNIA HAS NO OBLIGATION TO PROVIDE
28  MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.]
29
30******************************************************************************/
31
32#include "ordInt.h"
33
34static char rcsid[] UNUSED = "$Id: ordIo.c,v 1.15 2004/07/28 20:42:10 jinh Exp $";
35
36/*---------------------------------------------------------------------------*/
37/* Constant declarations                                                     */
38/*---------------------------------------------------------------------------*/
39/*
40 * States of the state machine used to parse the input node list file.
41 */
42#define STATE_TEST 0 /* next char is in first column */
43#define STATE_WAIT 1 /* wait until end of line '\n' is reached */
44#define STATE_IN   2 /* parsing a node name */
45
46/*
47 * Maximum permissible length of a node name in the input node list file.
48 */
49#define MAX_NAME_LENGTH 32768
50
51
52/**AutomaticStart*************************************************************/
53
54/*---------------------------------------------------------------------------*/
55/* Static function prototypes                                                */
56/*---------------------------------------------------------------------------*/
57
58static array_t * NodeBuildBddLevelArrayFromNtkNode(Ntk_Node_t * node);
59static array_t * NodeBuildBddIdArrayFromNtkNode(Ntk_Node_t * node);
60static int IntegersCompare(const void * obj1, const void * obj2);
61static int NodesCompareBddLevelArray(lsGeneric node1, lsGeneric node2);
62static array_t * NodeReadBddLevelArray(Ntk_Node_t * node);
63static void NodeSetBddLevelArray(Ntk_Node_t * node, array_t * bddLevelArray);
64static boolean NameStringProcess(char * nameString, Ntk_Network_t * network, lsList nodeList, int verbose);
65
66/**AutomaticEnd***************************************************************/
67
68
69/*---------------------------------------------------------------------------*/
70/* Definition of exported functions                                          */
71/*---------------------------------------------------------------------------*/
72
73/**Function********************************************************************
74
75  Synopsis    [Prints to a file the current ordering of MDD variables.]
76
77  Description [Prints to a file all the nodes specified by orderType.
78  OrderType can be one of Ord_All_c, Ord_InputAndLatch_c or
79  Ord_NextStateNode_c (see ord.h for the meaning of these types).  For each
80  node, prints the following: name, node type, MDD id, number of values in the
81  range of the node output, and a list of the levels (in the current ordering)
82  of the BDD variables that constitute this multi-valued variable.  The nodes
83  are printed to the file in ascending order of the lowest level corresponding
84  BDD variable. If there exists a node in the class specified by orderType
85  that doesn't have an mddId, then the routine writes a message to
86  error_string, and returns 0.  In all other cases, it writes to the file and
87  then returns 1.  It is the responsibility of the user to close the file.]
88
89  SideEffects []
90
91******************************************************************************/
92int
93Ord_NetworkPrintVariableOrder(
94  FILE * fp,
95  Ntk_Network_t * network,
96  Ord_OrderType  orderType /* Ord_All_c, Ord_InputAndLatch_c or Ord_NextStateNode_c */)
97{
98  lsGen        gen;
99  lsList       nodeList;
100  Ntk_Node_t  *node;
101  int          maxNameLength;
102  time_t       now;
103  struct tm   *nowStructPtr;
104  char        *nowTxt;
105
106  assert((orderType == Ord_All_c) || (orderType == Ord_InputAndLatch_c)
107         || (orderType == Ord_NextStateNode_c));
108
109  /*
110   * First, build up a list of all the nodes covered by orderType.
111   */
112  if (orderType == Ord_All_c) {
113    nodeList = lsCopy(Ntk_NetworkReadNodes(network),
114                      (lsGeneric (*) (lsGeneric)) NULL);
115  }
116  else {
117    nodeList = lsCreate();
118    Ntk_NetworkForEachNode(network, gen, node) {
119      if (Ntk_NodeTestIsNextStateNode(node)
120          || ((orderType == Ord_InputAndLatch_c) && Ntk_NodeTestIsCombInput(node))) {
121        (void) lsNewEnd(nodeList, (lsGeneric) node, LS_NH);
122      }
123    }
124  }
125 
126  /*
127   * As a sanity check, make sure that all the variables in orderType have an
128   * MDD id.
129   */
130  lsForEachItem(nodeList, gen, node) {
131    if (Ntk_NodeReadMddId(node) == NTK_UNASSIGNED_MDD_ID) {
132      error_append("node ");
133      error_append(Ntk_NodeReadName(node));
134      error_append(" not ordered\n");
135
136      (void) lsFinish(gen);
137      (void) lsDestroy(nodeList, (void (*) (lsGeneric)) NULL);
138      return (0);
139    }
140  }
141
142  /*
143   * For each node in nodeList, get the array of levels of the BDD variables
144   * which make up the MDD variable of node.
145   */
146  lsForEachItem(nodeList, gen, node) {
147    array_t *bddLevelArray = NodeBuildBddLevelArrayFromNtkNode(node);
148
149    NodeSetBddLevelArray(node, bddLevelArray);
150  }
151
152  /*
153   * Sort the nodes of nodeList in ascending order of the lowest level BDD
154   * variable corresponding to a node's MDD variable.
155   */
156  (void) lsSort(nodeList, NodesCompareBddLevelArray);
157
158  /*
159   * Compute the maximum length of a node name, for pretty printing.
160   */
161  maxNameLength = 0;
162  lsForEachItem(nodeList, gen, node) {
163    int nameLength = strlen(Ntk_NodeReadName(node));
164    maxNameLength = (nameLength > maxNameLength) ? nameLength : maxNameLength;
165  }
166 
167  /*
168   * Write out the header for the output file.
169   */
170  now = time(0);
171  nowStructPtr = localtime(& now);
172  nowTxt = asctime(nowStructPtr);
173 
174  (void) fprintf(fp, "# %s\n", Vm_VisReadVersion());
175  (void) fprintf(fp, "# network name: %s\n", Ntk_NetworkReadName(network));
176  (void) fprintf(fp, "# generated: %s", nowTxt);
177  (void) fprintf(fp, "#\n");
178  (void) fprintf(fp, "# %-*s type            mddId vals levs\n",
179                 maxNameLength, "name");
180 
181  /*
182   * Write out the nodes in order.
183   */
184  lsForEachItem(nodeList, gen, node) {
185    int i;
186    array_t *bddLevelArray = NodeReadBddLevelArray(node);
187    char *nodeType = Ntk_NodeObtainTypeAsString(node);
188   
189    (void) fprintf(fp, "%-*s  %-16s %5d %4d ",
190                   maxNameLength,
191                   Ntk_NodeReadName(node),
192                   nodeType,
193                   Ntk_NodeReadMddId(node),
194                   Var_VariableReadNumValues(Ntk_NodeReadVariable(node)));
195    FREE(nodeType);
196
197    (void) fprintf(fp, "(");
198    for (i = 0; i < array_n(bddLevelArray); i++) {
199      int level = array_fetch(int, bddLevelArray, i);
200     
201      if (i == 0) {
202        (void) fprintf(fp, "%d", level);
203      }
204      else {
205        (void) fprintf(fp, ", %d", level);
206      }
207    }
208    (void) fprintf(fp, ")\n");
209    array_free(bddLevelArray);
210  }
211
212  (void) lsDestroy(nodeList, (void (*) (lsGeneric)) NULL);
213  return (1);
214}
215 
216
217/**Function********************************************************************
218
219  Synopsis    [Returns a name array of combinational input variables in order.]
220
221  SideEffects []
222
223******************************************************************************/
224char **
225Ord_NetworkGetCombInputNamesInOrder(
226  Ntk_Network_t *network)
227{
228  lsGen         gen;
229  lsList        nodeList;
230  Ntk_Node_t    *node;
231  int           i;
232  char          **names;
233
234  i = 0;
235  nodeList = lsCreate();
236  Ntk_NetworkForEachNode(network, gen, node) {
237    if (Ntk_NodeTestIsCombInput(node)) {
238      (void) lsNewEnd(nodeList, (lsGeneric) node, LS_NH);
239      i++;
240    }
241  }
242
243  names = (char **)ALLOC(char *, i);
244  if (!names)
245    return(NULL);
246 
247  /*
248   * For each node in nodeList, get the array of levels of the BDD variables
249   * which make up the MDD variable of node.
250   */
251  lsForEachItem(nodeList, gen, node) {
252    array_t *bddLevelArray = NodeBuildBddLevelArrayFromNtkNode(node);
253
254    NodeSetBddLevelArray(node, bddLevelArray);
255  }
256
257  /*
258   * Sort the nodes of nodeList in ascending order of the lowest level BDD
259   * variable corresponding to a node's MDD variable.
260   */
261  (void) lsSort(nodeList, NodesCompareBddLevelArray);
262
263  /*
264   * Write out the nodes in order.
265   */
266  i = 0;
267  lsForEachItem(nodeList, gen, node) {
268    names[i] = (char *)malloc(strlen(Ntk_NodeReadName(node)) + 1);
269    strcpy(names[i], Ntk_NodeReadName(node));
270    i++;
271  }
272
273  (void) lsDestroy(nodeList, (void (*) (lsGeneric)) NULL);
274  return(names);
275}
276
277
278/**Function********************************************************************
279
280  Synopsis    [Returns a list of nodes corresponding to the names in a file.]
281
282  Description [Parses a file and builds a node list corresponding to the names
283  found in the first "column" of each line of the file.  Any line starting
284  with the comment character '#' or white space is ignored.  If a name is
285  found for which there doesn't exist a corresponding node in network, then a
286  message is written to error_string, the partial node list is freed, and the
287  function returns FALSE; otherwise, it returns TRUE, and a pointer to a list
288  is returned.]
289
290  Comment [The parser consists of 3 states.  See the documentation
291  accompanying the #defines defining the state names.]
292 
293  SideEffects []
294
295******************************************************************************/
296boolean
297Ord_FileReadNodeList(
298  FILE * fp,
299  Ntk_Network_t * network,
300  lsList * nodeList /* of Ntk_Node_t , for return */,
301  int verbose)
302{
303  int     c;
304  int     state;
305  int     curPosition = 0;
306  boolean status;
307  char    nameString[MAX_NAME_LENGTH];
308  boolean returnFlag = TRUE;
309 
310  *nodeList = lsCreate();
311
312  state = STATE_TEST;
313  while ((c = fgetc(fp)) != EOF) {
314
315    switch (state) {
316        case STATE_TEST:
317          /* At start of a new line. */
318          if (c == '#') {
319            /* Line starting with comment character; wait for newline */
320            state = STATE_WAIT;
321          }
322          else if ((c == ' ') || (c == '\t')) {
323            /* Line starting with white space; wait for newline */
324            state = STATE_WAIT;
325          }
326          else if (c == '\n') {
327            /* Line starting newline; go to next line */
328            state = STATE_TEST;
329          }
330          else {
331            /* Assume starting a node name. */
332            curPosition = 0;
333            nameString[curPosition++] = c;
334            state = STATE_IN;
335          }
336          break;
337        case STATE_WAIT:
338          /*
339           * Waiting for the newline character.
340           */
341          state = (c == '\n') ? STATE_TEST : STATE_WAIT;
342          break;
343        case STATE_IN:
344          /*
345           * Parsing a node name.  If white space reached, then terminate the
346           * node name and process it.  Else, continue parsing.
347           */
348          if ((c == ' ') || (c == '\n') || (c == '\t')) {
349            nameString[curPosition] = '\0';
350            status = NameStringProcess(nameString, network, *nodeList, verbose);
351            if (status == FALSE) {
352              returnFlag = FALSE;
353            }
354            state = (c == '\n') ? STATE_TEST : STATE_WAIT;
355          }
356          else {
357            nameString[curPosition++] = c;
358            if (curPosition >= MAX_NAME_LENGTH) {
359              error_append("maximum node name length exceeded");
360              returnFlag = FALSE;
361            }
362            state = STATE_IN; /* redundant, but be explicit */
363          }
364          break;
365        default:
366          fail("unrecognized state");
367    }
368  }
369
370  /*
371   * Handle case where EOF terminates a name.
372   */
373  if (state == STATE_IN) {
374    nameString[curPosition] = '\0';
375    status = NameStringProcess(nameString, network, *nodeList, verbose);
376    if (status == FALSE) {
377      returnFlag = FALSE;
378    }
379  }
380
381  if (returnFlag) {
382    return TRUE;
383  }
384  else {
385    (void) lsDestroy(*nodeList, (void (*) (lsGeneric)) NULL);
386    return FALSE;
387  }
388}
389
390
391/*---------------------------------------------------------------------------*/
392/* Definition of internal functions                                          */
393/*---------------------------------------------------------------------------*/
394
395
396/**Function********************************************************************
397
398  Synopsis    [Makes new variable order.]
399
400  Description [Makes new variable order. Returns 1 if not successful.]
401
402  SideEffects []
403
404******************************************************************************/
405int
406OrdMakeNewVariableOrder(mdd_manager *mddMgr, lsList suppliedNodeList,
407                     int group, int verbose)
408{
409  int           i, nVars;
410  int           *invPerm = NIL(int);
411  int           *groupInfo = NIL(int);
412  int           length, bddId, mvLen;
413  lsGen         gen;
414  Ntk_Node_t    *node;
415  array_t       *bddIdArray;
416  char          *name = NIL(char), *prevName = NIL(char), *longName;
417  int           len1, len2, minLen;
418
419  nVars = bdd_num_vars(mddMgr);
420  invPerm = ALLOC(int, nVars);
421
422  length = 0;
423  if (group) {
424    prevName = NIL(char);
425    groupInfo = ALLOC(int, nVars);
426    memset(groupInfo, 0, sizeof(int) * nVars);
427  }
428  lsForEachItem(suppliedNodeList, gen, node) {
429    bddIdArray = NodeBuildBddIdArrayFromNtkNode(node);
430    mvLen = array_n(bddIdArray);
431    if (group) {
432      name = Ntk_NodeReadName(node);
433      if (prevName) {
434        len1 = strlen(prevName);
435        len2 = strlen(name);
436        if (len1 < len2) {
437          minLen = len1;
438          longName = name;
439        } else {
440          minLen = len2;
441          longName = prevName;
442        }
443        if (strncmp(name, prevName, minLen) == 0) {
444          if (strcmp(longName + minLen, "$NS") == 0)
445            groupInfo[length - mvLen] = mvLen * 2;
446        }
447      }
448    }
449    for (i = 0; i < mvLen; i++) {
450      bddId = array_fetch(int, bddIdArray, i);
451      invPerm[length] = bddId;
452      length++;
453    }
454    array_free(bddIdArray);
455    if (group)
456      prevName = name;
457  }
458
459  if (length != nVars) {
460    fprintf(vis_stderr,
461            "** ord error: the number of variables does not match\n");
462    FREE(invPerm);
463    if (group)
464      FREE(groupInfo);
465    return(1);
466  }
467
468  bdd_discard_all_var_groups(mddMgr);
469  bdd_shuffle_heap(mddMgr, invPerm);
470
471  if (group) {
472    mdd_t       *var;
473
474    for (i = 0; i < nVars; i++) {
475      if (groupInfo[i]) {
476        var = bdd_var_with_index(mddMgr, invPerm[i]);
477        bdd_new_var_block(var, groupInfo[i]);
478        i += groupInfo[i] - 1;
479      }
480    }
481    FREE(groupInfo);
482  }
483
484  FREE(invPerm);
485  return(0);
486}
487
488
489/*---------------------------------------------------------------------------*/
490/* Definition of static functions                                            */
491/*---------------------------------------------------------------------------*/
492
493/**Function********************************************************************
494
495  Synopsis    [Gets the levels of the BDD variables corresponding to the MDD
496  variable of a node.]
497
498  Description [Returns an array (of int's) of the levels of the BDD variables
499  corresponding to the MDD variable of a node.  The level of a BDD variable is
500  it place in the current variable ordering of the BDD manager.  The returned
501  array is sorted in ascending order.  It is the responsibility of the caller
502  to free this array.]
503
504  SideEffects []
505
506******************************************************************************/
507static array_t *
508NodeBuildBddLevelArrayFromNtkNode(
509  Ntk_Node_t * node)
510{
511  int            i;
512  Ntk_Network_t *network       = Ntk_NodeReadNetwork(node);
513  mdd_manager   *mddManager    = Ntk_NetworkReadMddManager(network);
514  array_t       *mvarArray     = mdd_ret_mvar_list(mddManager);
515  int            mddId         = Ntk_NodeReadMddId(node);
516  mvar_type      mv;
517  array_t       *bddLevelArray;
518
519  mv            = array_fetch(mvar_type, mvarArray, mddId);
520  bddLevelArray = array_alloc(int, mv.encode_length);
521
522  for (i = 0; i < mv.encode_length; i++) {
523    int    bddId    = mdd_ret_bvar_id(&mv, i);
524    bdd_t *varBdd   = bdd_get_variable((bdd_manager *) mddManager, bddId);
525    int    varLevel = (int) bdd_top_var_level((bdd_manager *) mddManager, varBdd);
526
527    bdd_free(varBdd);
528    array_insert_last(int, bddLevelArray, varLevel);
529  }
530  array_sort(bddLevelArray, IntegersCompare);
531
532  return (bddLevelArray);
533}
534
535
536/**Function********************************************************************
537
538  Synopsis    [Gets the indices of the BDD variables corresponding to the MDD
539  variable of a node.]
540
541  Description [Returns an array (of int's) of the indices of the BDD variables
542  corresponding to the MDD variable of a node. It is the responsibility of the
543  caller to free this array.]
544
545  SideEffects []
546
547******************************************************************************/
548static array_t *
549NodeBuildBddIdArrayFromNtkNode(
550  Ntk_Node_t * node)
551{
552  int            i, bddId;
553  Ntk_Network_t *network    = Ntk_NodeReadNetwork(node);
554  mdd_manager   *mddManager = Ntk_NetworkReadMddManager(network);
555  array_t       *mvarArray  = mdd_ret_mvar_list(mddManager);
556  int            mddId      = Ntk_NodeReadMddId(node);
557  mvar_type      mv;
558  array_t       *bddIdArray;
559
560  mv         = array_fetch(mvar_type, mvarArray, mddId);
561  bddIdArray = array_alloc(int, mv.encode_length);
562
563  for (i = 0; i < mv.encode_length; i++) {
564    bddId = mdd_ret_bvar_id(&mv, i);
565    array_insert_last(int, bddIdArray, bddId);
566  }
567
568  return (bddIdArray);
569}
570
571
572/**Function********************************************************************
573
574  Synopsis    [Used to sort an array of integers in ascending order.]
575
576  SideEffects []
577
578******************************************************************************/
579static int
580IntegersCompare(
581  const void * obj1,
582  const void * obj2)
583{
584  int int1 = *(int *) obj1;
585  int int2 = *(int *) obj2;
586 
587  if (int1 < int2) {
588    return -1;
589  }
590  else if (int1 == int2) {
591    return 0;
592  }
593  else {
594    return 1;
595  }
596}
597
598
599/**Function********************************************************************
600
601  Synopsis    [Used to sort an array of nodes in ascending order of lowest BDD
602  level.]
603
604  SideEffects []
605
606******************************************************************************/
607static int
608NodesCompareBddLevelArray(
609  lsGeneric node1,
610  lsGeneric node2)
611{
612  array_t *bddLevelArray1 = NodeReadBddLevelArray((Ntk_Node_t *) node1);
613  array_t *bddLevelArray2 = NodeReadBddLevelArray((Ntk_Node_t *) node2);
614  int      firstLevel1    = array_fetch(int, bddLevelArray1, 0);
615  int      firstLevel2    = array_fetch(int, bddLevelArray2, 0);
616 
617  if (firstLevel1 < firstLevel2) {
618    return -1;
619  }
620  else if (firstLevel1 == firstLevel2) {
621    return 0;
622  }
623  else {
624    return 1;
625  }
626}
627
628
629/**Function********************************************************************
630
631  Synopsis    [Gets the BDD level array of a node.]
632
633  SideEffects []
634
635  SeeAlso     [NodeSetBddLevelArray NodesCompareBddLevelArray]
636
637******************************************************************************/
638static array_t *
639NodeReadBddLevelArray(
640  Ntk_Node_t * node)
641{
642  return ((array_t *) Ntk_NodeReadUndef(node));
643}
644
645
646/**Function********************************************************************
647
648  Synopsis    [Sets the BDD level array of a node.]
649
650  SideEffects []
651
652  SeeAlso     [NodeReadBddLevelArray]
653
654******************************************************************************/
655static void
656NodeSetBddLevelArray(
657  Ntk_Node_t * node,
658  array_t * bddLevelArray)
659{
660  Ntk_NodeSetUndef(node, (void *) bddLevelArray);
661}
662
663
664/**Function********************************************************************
665
666  Synopsis    [Processes the name of a node.]
667
668  Description [Processes the name of a node. If there is no node in network
669  with name nameString, then the function writes a message in error_string,
670  and returns FALSE.  If the corresponding node is found, then the node is
671  added to the end of nodeList; else, nothing is done.  In either case, TRUE
672  is returned.]
673
674  SideEffects []
675
676******************************************************************************/
677static boolean
678NameStringProcess(
679  char * nameString,
680  Ntk_Network_t * network,
681  lsList  nodeList,
682  int verbose)
683{
684  Ntk_Node_t *node = Ntk_NetworkFindNodeByActualName(network, nameString);
685
686  if (node == NIL(Ntk_Node_t)) {
687    error_append("Node not found for name: ");
688    error_append(nameString);
689    error_append("\n");
690    return FALSE;
691  }
692
693  if (verbose > 1) {
694    (void) fprintf(vis_stdout, "Reading node: %s\n", Ntk_NodeReadName(node));
695  }
696
697  (void) lsNewEnd(nodeList, (lsGeneric) node, LS_NH); 
698  return TRUE;
699}
700
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711
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