/**CFile*********************************************************************** FileName [cuddInteract.c] PackageName [cudd] Synopsis [Functions to manipulate the variable interaction matrix.] Description [Internal procedures included in this file: Static procedures included in this file: The interaction matrix tells whether two variables are both in the support of some function of the DD. The main use of the interaction matrix is in the in-place swapping. Indeed, if two variables do not interact, there is no arc connecting the two layers; therefore, the swap can be performed in constant time, without scanning the subtables. Another use of the interaction matrix is in the computation of the lower bounds for sifting. Finally, the interaction matrix can be used to speed up aggregation checks in symmetric and group sifting.

The computation of the interaction matrix is done with a series of depth-first searches. The searches start from those nodes that have only external references. The matrix is stored as a packed array of bits; since it is symmetric, only the upper triangle is kept in memory. As a final remark, we note that there may be variables that do interact, but that for a given variable order have no arc connecting their layers when they are adjacent. For instance, in ite(a,b,c) with the order asize, sets the corresponding bit of the interaction matrix to 1.] SideEffects [None] SeeAlso [] ******************************************************************************/ void cuddSetInteract( DdManager * table, int x, int y) { int posn, word, bit; #ifdef DD_DEBUG assert(x < y); assert(y < table->size); assert(x >= 0); #endif posn = ((((table->size << 1) - x - 3) * x) >> 1) + y - 1; word = posn >> LOGBPL; bit = posn & (BPL-1); table->interact[word] |= 1L << bit; } /* end of cuddSetInteract */ /**Function******************************************************************** Synopsis [Test interaction matrix entries.] Description [Given a pair of variables 0 <= x < y < table->size, tests whether the corresponding bit of the interaction matrix is 1. Returns the value of the bit.] SideEffects [None] SeeAlso [] ******************************************************************************/ int cuddTestInteract( DdManager * table, int x, int y) { int posn, word, bit, result; if (x > y) { int tmp = x; x = y; y = tmp; } #ifdef DD_DEBUG assert(x < y); assert(y < table->size); assert(x >= 0); #endif posn = ((((table->size << 1) - x - 3) * x) >> 1) + y - 1; word = posn >> LOGBPL; bit = posn & (BPL-1); result = (table->interact[word] >> bit) & 1L; return(result); } /* end of cuddTestInteract */ /**Function******************************************************************** Synopsis [Initializes the interaction matrix.] Description [Initializes the interaction matrix. The interaction matrix is implemented as a bit vector storing the upper triangle of the symmetric interaction matrix. The bit vector is kept in an array of long integers. The computation is based on a series of depth-first searches, one for each root of the DAG. Two flags are needed: The local visited flag uses the LSB of the then pointer. The global visited flag uses the LSB of the next pointer. Returns 1 if successful; 0 otherwise.] SideEffects [None] SeeAlso [] ******************************************************************************/ int cuddInitInteract( DdManager * table) { int i,j; unsigned long words; long *interact; char *support; DdNode *f; DdNode *sentinel = &(table->sentinel); DdNodePtr *nodelist; int slots; unsigned long n = (unsigned long) table->size; words = ((n * (n-1)) >> (1 + LOGBPL)) + 1; table->interact = interact = ALLOC(long,words); if (interact == NULL) { table->errorCode = CUDD_MEMORY_OUT; return(0); } for (i = 0; i < words; i++) { interact[i] = 0; } support = ALLOC(char,n); if (support == NULL) { table->errorCode = CUDD_MEMORY_OUT; FREE(interact); return(0); } for (i = 0; i < n; i++) { support[i] = 0; } for (i = 0; i < n; i++) { nodelist = table->subtables[i].nodelist; slots = table->subtables[i].slots; for (j = 0; j < slots; j++) { f = nodelist[j]; while (f != sentinel) { /* A node is a root of the DAG if it cannot be ** reached by nodes above it. If a node was never ** reached during the previous depth-first searches, ** then it is a root, and we start a new depth-first ** search from it. */ if (!Cudd_IsComplement(f->next)) { ddSuppInteract(f,support); ddClearLocal(f); ddUpdateInteract(table,support); } f = Cudd_Regular(f->next); } } } ddClearGlobal(table); FREE(support); return(1); } /* end of cuddInitInteract */ /*---------------------------------------------------------------------------*/ /* Definition of static functions */ /*---------------------------------------------------------------------------*/ /**Function******************************************************************** Synopsis [Find the support of f.] Description [Performs a DFS from f. Uses the LSB of the then pointer as visited flag.] SideEffects [Accumulates in support the variables on which f depends.] SeeAlso [] ******************************************************************************/ static void ddSuppInteract( DdNode * f, char * support) { if (cuddIsConstant(f) || Cudd_IsComplement(cuddT(f))) { return; } support[f->index] = 1; ddSuppInteract(cuddT(f),support); ddSuppInteract(Cudd_Regular(cuddE(f)),support); /* mark as visited */ cuddT(f) = Cudd_Complement(cuddT(f)); f->next = Cudd_Complement(f->next); return; } /* end of ddSuppInteract */ /**Function******************************************************************** Synopsis [Performs a DFS from f, clearing the LSB of the then pointers.] Description [] SideEffects [None] SeeAlso [] ******************************************************************************/ static void ddClearLocal( DdNode * f) { if (cuddIsConstant(f) || !Cudd_IsComplement(cuddT(f))) { return; } /* clear visited flag */ cuddT(f) = Cudd_Regular(cuddT(f)); ddClearLocal(cuddT(f)); ddClearLocal(Cudd_Regular(cuddE(f))); return; } /* end of ddClearLocal */ /**Function******************************************************************** Synopsis [Marks as interacting all pairs of variables that appear in support.] Description [If support[i] == support[j] == 1, sets the (i,j) entry of the interaction matrix to 1.] SideEffects [Clears support.] SeeAlso [] ******************************************************************************/ static void ddUpdateInteract( DdManager * table, char * support) { int i,j; int n = table->size; for (i = 0; i < n-1; i++) { if (support[i] == 1) { support[i] = 0; for (j = i+1; j < n; j++) { if (support[j] == 1) { cuddSetInteract(table,i,j); } } } } support[n-1] = 0; } /* end of ddUpdateInteract */ /**Function******************************************************************** Synopsis [Scans the DD and clears the LSB of the next pointers.] Description [The LSB of the next pointers are used as markers to tell whether a node was reached by at least one DFS. Once the interaction matrix is built, these flags are reset.] SideEffects [None] SeeAlso [] ******************************************************************************/ static void ddClearGlobal( DdManager * table) { int i,j; DdNode *f; DdNode *sentinel = &(table->sentinel); DdNodePtr *nodelist; int slots; for (i = 0; i < table->size; i++) { nodelist = table->subtables[i].nodelist; slots = table->subtables[i].slots; for (j = 0; j < slots; j++) { f = nodelist[j]; while (f != sentinel) { f->next = Cudd_Regular(f->next); f = f->next; } } } } /* end of ddClearGlobal */