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restrDebug.c @ 67

Last change on this file since 67 was 14, checked in by cecile, 14 years ago
vis2.3
File size: 13.5 KB

Line
1	/CFile*********************************************************************
2
3	FileName [restrDebug.c]
4
5	PackageName [restr]
6
7	Synopsis [Utility functions to aid in debugging.]
8
9	Description [Utility functions to aid in debugging.]
10
11	SeeAlso [restrUtil.c]
12
13	Author [Balakrishna Kumthekar <kumtheka@colorado.edu>]
14
15	Copyright [This file was created at the University of Colorado at
16	Boulder. The University of Colorado at Boulder makes no warranty
17	about the suitability of this software for any purpose. It is
18	presented on an AS IS basis.]
19
20	******************************************************************************/
21
22	#include "restrInt.h"
23
24
25	/---------------------------------------------------------------------------/
26	/* Constant declarations */
27	/---------------------------------------------------------------------------/
28
29
30	/---------------------------------------------------------------------------/
31	/* Type declarations */
32	/---------------------------------------------------------------------------/
33
34
35	/---------------------------------------------------------------------------/
36	/* Structure declarations */
37	/---------------------------------------------------------------------------/
38
39
40	/---------------------------------------------------------------------------/
41	/* Variable declarations */
42	/---------------------------------------------------------------------------/
43
44
45	/---------------------------------------------------------------------------/
46	/* Macro declarations */
47	/---------------------------------------------------------------------------/
48
49
50	/AutomaticStart***********************************************************/
51
52	/---------------------------------------------------------------------------/
53	/* Static function prototypes */
54	/---------------------------------------------------------------------------/
55
56
57	/AutomaticEnd*************************************************************/
58
59
60	/---------------------------------------------------------------------------/
61	/* Definition of exported functions */
62	/---------------------------------------------------------------------------/
63
64
65	/---------------------------------------------------------------------------/
66	/* Definition of internal functions */
67	/---------------------------------------------------------------------------/
68
69	/Function******************************************************************
70
71	Synopsis [Print names of network nodes given their id.]
72
73	SideEffects [Print names of network nodes given their id.]
74
75	SeeAlso []
76
77	******************************************************************************/
78	void
79	RestrNamePrintByMddId(
80	Ntk_Network_t *network,
81	array_t *array)
82
83	{
84	char *name;
85	int i,id;
86
87	arrayForEachItem(int, array, i, id) {
88	name = Ntk_NodeReadName(Ntk_NetworkFindNodeByMddId(network,id));
89	fprintf(vis_stdout, "%s\n",name);
90	}
91	}
92
93	/Function******************************************************************
94
95	Synopsis [Interface function to bdd_print_minterm given an mvf array.]
96
97	SideEffects [Interface function to bdd_print_minterm given an mvf array.]
98
99	SeeAlso []
100
101	******************************************************************************/
102	void
103	RestrPrintMvfArray(
104	mdd_manager *ddManager,
105	Mvf_Function_t *mvfArray,
106	array_t *nodeArray,
107	array_t *idArray)
108	{
109	int i;
110	mdd_t *tempMdd;
111	Mvf_Function_t *mvf;
112	Ntk_Node_t *node;
113
114	for(i=0;i<array_n(mvfArray);i++){
115	mvf = array_fetch(Mvf_Function_t *, mvfArray, i);
116	tempMdd = array_fetch(mdd_t *, mvf, 1);
117	if(!(nodeArray == NIL(array_t))) {
118	node = array_fetch(Ntk_Node_t *, nodeArray, i);
119	fprintf(vis_stdout, "%s ", Ntk_NodeReadName(node));
120	}
121	if(!(idArray == NIL(array_t))) {
122	fprintf(vis_stdout, " %d", array_fetch(int,idArray,i));
123	}
124	fprintf(vis_stdout, "\n");
125	bdd_print_minterm(tempMdd);
126	}
127	}
128
129	/Function******************************************************************
130
131	Synopsis [Prints the variable names of all variables in the manager.]
132
133	SideEffects [Prints the variable names of all variables in the manager]
134
135	SeeAlso []
136
137	******************************************************************************/
138	void
139	RestrPrintAllVarNames(
140	bdd_manager *ddManager)
141	{
142	int size, i;
143	mvar_type var;
144	size = bdd_num_vars((bdd_manager *)ddManager);
145	for(i=0;i<size;i++) {
146	var = mdd_get_var_by_id(ddManager,i);
147	fprintf(vis_stdout," %s",var.name);
148	}
149	fprintf(vis_stdout,"\n");
150	}
151
152
153	/Function******************************************************************
154
155	Synopsis [Print minterms in the onset given a bdd_node *.]
156
157	SideEffects [Print minterms in the onset given a bdd_node *.]
158
159	SeeAlso []
160
161	******************************************************************************/
162	void
163	RestrPrintBddNode(
164	bdd_manager *manager,
165	bdd_node *ddNode)
166	{
167	bdd_t *mdd;
168	bdd_node *temp;
169	bdd_ref(temp = ddNode);
170	mdd = bdd_construct_bdd_t(manager,temp);
171	bdd_print_minterm(mdd);
172	bdd_free(mdd);
173	return;
174	}
175
176	/Function******************************************************************
177
178	Synopsis [Perform token simulations to check functional equivalence of two
179	STGs.]
180
181	SideEffects [None]
182
183	SeeAlso []
184
185	******************************************************************************/
186	void
187	RestrVerifyFsmEquivBySimulation(
188	bdd_manager *ddManager,
189	bdd_node *oldTr,
190	bdd_node *newTr,
191	array_t *outBdds1,
192	array_t *outBdds2,
193	bdd_node *initBdd1,
194	bdd_node *initBdd2,
195	bdd_node **xVars,
196	bdd_node **yVars,
197	bdd_node **piVars,
198	int nVars,
199	int nPi)
200	{
201	int **sim, N = 11;
202	int i,j,numOut1,numOut2;
203	bdd_node lambda1,lambda2;
204	bdd_node **lVars;
205	bdd_node present1,present2,next1,next2;
206	bdd_node out1,out2;
207	bdd_node input,inputPre1,*inputPre2;
208
209	sim = ALLOC(int *,N);
210	for (i = 0; i < N; i++) {
211	sim[i] = ALLOC(int,nPi);
212	for (j = 0; j < nPi; j++) {
213	sim[i][j] = 0;
214	}
215	}
216
217	numOut1 = array_n(outBdds1);
218	numOut2 = array_n(outBdds2);
219	assert(numOut1 == numOut2);
220
221	/* New variables to compute output relation */
222	lVars = ALLOC(bdd_node *,numOut1);
223	for (i = 0; i < numOut1; i++) {
224	bdd_ref(lVars[i] = bdd_bdd_new_var(ddManager));
225	}
226
227	bdd_ref(lambda1 = bdd_read_one(ddManager));
228	bdd_ref(lambda2 = bdd_read_one(ddManager));
229	for (i = 0; i < numOut1; i++) {
230	bdd_node temp,outRel;
231	bdd_ref(outRel = bdd_bdd_xnor(ddManager,lVars[i],
232	array_fetch(bdd_node *,outBdds1,i)));
233	bdd_ref(temp = bdd_bdd_and(ddManager,lambda1,outRel));
234	bdd_recursive_deref(ddManager,outRel);
235	bdd_recursive_deref(ddManager,lambda1);
236	lambda1 = temp;
237
238	bdd_ref(outRel = bdd_bdd_xnor(ddManager,lVars[i],
239	array_fetch(bdd_node *,outBdds2,i)));
240	bdd_ref(temp = bdd_bdd_and(ddManager,lambda2,outRel));
241	bdd_recursive_deref(ddManager,outRel);
242	bdd_recursive_deref(ddManager,lambda2);
243	lambda2 = temp;
244	}
245
246	bdd_ref(present1 = initBdd1);
247	bdd_ref(present2 = initBdd2);
248	/* Simulate the patterns */
249	for (i = 0; i < N; i++) {
250	bdd_node *temp1;
251
252	bdd_ref(input = bdd_bdd_compute_cube(ddManager,piVars,sim[i],nPi));
253
254	/* Compute next state and outputs for machine 1 */
255	bdd_ref(inputPre1 = bdd_bdd_and(ddManager,input,present1));
256	bdd_ref(temp1 = bdd_bdd_cofactor(ddManager,oldTr,inputPre1));
257	bdd_ref(next1 = bdd_bdd_swap_variables(ddManager,temp1,yVars,xVars,nVars));
258	bdd_recursive_deref(ddManager,temp1);
259	bdd_recursive_deref(ddManager,present1);
260	present1 = next1;
261	bdd_ref(out1 = bdd_bdd_cofactor(ddManager,lambda1,inputPre1));
262	bdd_recursive_deref(ddManager,inputPre1);
263
264	/* Compute next state and outputs for machine 2 */
265	bdd_ref(inputPre2 = bdd_bdd_and(ddManager,input,present2));
266	bdd_ref(temp1 = bdd_bdd_cofactor(ddManager,newTr,inputPre2));
267	bdd_ref(next2 = bdd_bdd_swap_variables(ddManager,temp1,yVars,xVars,nVars));
268	bdd_recursive_deref(ddManager,temp1);
269	bdd_recursive_deref(ddManager,present2);
270	present2 = next2;
271	bdd_ref(out2 = bdd_bdd_cofactor(ddManager,lambda2,inputPre2));
272	bdd_recursive_deref(ddManager,inputPre2);
273
274	bdd_recursive_deref(ddManager,input);
275
276	if (out1 != out2) {
277	(void) fprintf(vis_stdout,"Unequal outputs at i = %d\n",i);
278	}
279	bdd_recursive_deref(ddManager,out1);
280	bdd_recursive_deref(ddManager,out2);
281	}
282
283	bdd_recursive_deref(ddManager,present1);
284	bdd_recursive_deref(ddManager,present2);
285	}
286
287	/Function******************************************************************
288
289	Synopsis [Test if the given relation is an equivalence relation.]
290
291	SideEffects [None]
292
293	SeeAlso []
294
295	******************************************************************************/
296	void
297	RestrTestIsEquivRelation(
298	bdd_manager *ddManager,
299	bdd_node *rel,
300	bdd_node **xVars,
301	bdd_node **yVars,
302	bdd_node **uVars,
303	bdd_node **vVars,
304	int nVars)
305	{
306
307	bdd_node one,reflex;
308	bdd_node Rxy,Rvy,Ruy,Rux;
309	bdd_node left,result,*uCube;
310	bdd_node **compose;
311	int numVars,i;
312
313	numVars = bdd_num_vars(ddManager);
314	one = bdd_read_one(ddManager);
315
316	/* rel is interms of xVars and uVars */
317	/* Test if rel is reflexive: R(x,x) == 1 */
318	compose = ALLOC(bdd_node *,numVars);
319	for (i = 0; i < numVars; i++) {
320	compose[i] = bdd_bdd_ith_var(ddManager,i);
321	}
322	for (i = 0; i < nVars; i++) {
323	int index;
324	index = bdd_node_read_index(uVars[i]);
325	compose[index] = xVars[i];
326	}
327	bdd_ref(reflex = bdd_bdd_vector_compose(ddManager,rel,compose));
328	if (reflex != one) {
329	(void) fprintf(vis_stdout,"Relation is not reflexive.\n");
330	} else {
331	(void) fprintf(vis_stdout,"Relation IS reflexive.\n");
332	}
333	bdd_recursive_deref(ddManager,reflex);
334	FREE(compose);
335
336	/* Test if rel is symmetric: R(x,u) == R(u,x) */
337	bdd_ref(Rxy = bdd_bdd_swap_variables(ddManager,rel,uVars,yVars,nVars));
338	bdd_ref(Rvy = bdd_bdd_swap_variables(ddManager,Rxy,xVars,vVars,nVars));
339	bdd_ref(Ruy = bdd_bdd_swap_variables(ddManager,Rvy,vVars,uVars,nVars));
340	bdd_ref(Rux = bdd_bdd_swap_variables(ddManager,Ruy,yVars,xVars,nVars));
341	bdd_recursive_deref(ddManager,Rvy);
342	if (Rux != rel) {
343	(void) fprintf(vis_stdout,"Relation is not symmetric.\n");
344	} else {
345	(void) fprintf(vis_stdout,"Relation IS symmetric.\n");
346	}
347	bdd_recursive_deref(ddManager,Rux);
348
349	/* Test if rel is transitive: (\exists_u R(x,u) * R(u,y)) ==> R(x,y) */
350	bdd_ref(uCube = bdd_bdd_compute_cube(ddManager,uVars,NIL(int),nVars));
351	bdd_ref(left = bdd_bdd_and_abstract(ddManager,rel,Ruy,uCube));
352	bdd_recursive_deref(ddManager,Ruy);
353	bdd_recursive_deref(ddManager,uCube);
354	bdd_ref(result = bdd_bdd_ite(ddManager,left,Rxy,one));
355	bdd_recursive_deref(ddManager,Rxy);
356	bdd_recursive_deref(ddManager,left);
357	if (result != one) {
358	(void) fprintf(vis_stdout,"Relation is not transitive.\n");
359	} else {
360	(void) fprintf(vis_stdout,"Relation IS transitive.\n");
361	}
362	bdd_recursive_deref(ddManager,result);
363	}
364
365	/Function******************************************************************
366
367	Synopsis [Print the names of an array of BDD variables.]
368
369	SideEffects [None]
370
371	SeeAlso []
372
373	******************************************************************************/
374	void
375	RestrPrintVarArrayNames(
376	bdd_manager *ddManager,
377	bdd_node **xVars,
378	int nVars)
379	{
380	int index, i;
381	mvar_type var;
382
383	for(i=0;i<nVars;i++) {
384	index = bdd_node_read_index(xVars[i]);
385	var = mdd_get_var_by_id(ddManager,index);
386	fprintf(vis_stdout," %s",var.name);
387	}
388	fprintf(vis_stdout,"\n");
389	}
390
391	/Function******************************************************************
392
393	Synopsis [Print an array of character strings.]
394
395	SideEffects [None]
396
397	SeeAlso []
398
399	******************************************************************************/
400	void
401	RestrPrintNameArray(array_t *nameArray)
402	{
403	int i;
404	char *str;
405	arrayForEachItem(char *,nameArray,i,str) {
406	(void) fprintf(vis_stdout,"%s\n",str);
407	}
408	}
409
410	/Function******************************************************************
411
412	Synopsis [Test if the given relation is deterministic.]
413
414	SideEffects [None]
415
416	SeeAlso []
417
418	******************************************************************************/
419	int
420	RestrTestIsDeterministic(
421	bdd_manager *ddManager,
422	bdd_node *tr,
423	bdd_node *initBdd,
424	bdd_node **xVars,
425	bdd_node **yVars,
426	int nVars)
427	{
428	bdd_node cproj2,ref;
429	int flag;
430
431	bdd_ref(ref = bdd_bdd_swap_variables(ddManager,initBdd,xVars,
432	yVars,nVars));
433	bdd_ref(cproj2 = bdd_bdd_cprojection(ddManager,tr,ref));
434	if (cproj2 != tr) {
435	bdd_node *newEdges;
436	(void) fprintf(vis_stdout,"** restr diag: Relation is non-deterministic\n");
437	/* Let's find out the newly added edges */
438	bdd_ref(newEdges = bdd_bdd_and(ddManager,tr,
439	bdd_not_bdd_node(cproj2)));
440	(void) fprintf(vis_stdout,"** restr diag: New edges are:\n");
441	RestrPrintBddNode(ddManager,newEdges);
442	bdd_recursive_deref(ddManager,newEdges);
443	flag = 0;
444	} else {
445	(void) fprintf(vis_stdout,"** restr diag: Relation IS deterministic\n");
446	flag = 1;
447	}
448	bdd_recursive_deref(ddManager,cproj2);
449	bdd_recursive_deref(ddManager,ref);
450
451	return flag;
452	}
453
454	/---------------------------------------------------------------------------/
455	/* Definition of static functions */
456	/---------------------------------------------------------------------------/

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source: vis_dev/vis-2.3/src/restr/restrDebug.c @ 67

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