/** Revision Control Information
** $Source$
* $Author$
* $Revision$
* $Date$
**//** set.c -- routines for maniuplating sets and set families
*//* LINTLIBRARY */#include"espresso.h"ABC_NAMESPACE_IMPL_START
static pset_family set_family_garbage =NULL;staticvoidintcpy(d,s,n)registerunsignedint*d,*s;registerlong n;{registerint i;for(i =0; i < n; i++){*d++=*s++;}}/* bit_index -- find first bit (from LSB) in a word (MSB=bit n, LSB=bit 0) */intbit_index(a)registerunsignedint a;{registerint i;if(a ==0)return-1;for(i =0;(a &1)==0; a >>=1, i++);return i;}/* set_ord -- count number of elements in a set */intset_ord(a)register pset a;{registerint i, sum =0;registerunsignedint val;for(i =LOOP(a); i >0; i--)if((val = a[i])!=0)
sum +=count_ones(val);return sum;}/* set_dist -- distance between two sets (# elements in common) */intset_dist(a,b)register pset a, b;{registerint i, sum =0;registerunsignedint val;for(i =LOOP(a); i >0; i--)if((val = a[i]& b[i])!=0)
sum +=count_ones(val);return sum;}/* set_clear -- make "r" the empty set of "size" elements */
pset set_clear(r,size)register pset r;int size;{registerint i =LOOPINIT(size);*r = i;do r[i]=0;while(--i >0);return r;}/* set_fill -- make "r" the universal set of "size" elements */
pset set_fill(r,size)register pset r;registerint size;{registerint i =LOOPINIT(size);*r = i;
r[i]=~(unsigned)0;
r[i]>>= i * BPI - size;while(--i >0)
r[i]=~(unsigned)0;return r;}/* set_copy -- copy set a into set r */
pset set_copy(r,a)register pset r, a;{registerint i =LOOPCOPY(a);do r[i]= a[i];while(--i >=0);return r;}/* set_and -- compute intersection of sets "a" and "b" */
pset set_and(r,a,b)register pset r, a, b;{registerint i =LOOP(a);PUTLOOP(r,i);do r[i]= a[i]& b[i];while(--i >0);return r;}/* set_or -- compute union of sets "a" and "b" */
pset set_or(r,a,b)register pset r, a, b;{registerint i =LOOP(a);PUTLOOP(r,i);do r[i]= a[i]| b[i];while(--i >0);return r;}/* set_diff -- compute difference of sets "a" and "b" */
pset set_diff(r,a,b)register pset r, a, b;{registerint i =LOOP(a);PUTLOOP(r,i);do r[i]= a[i]&~b[i];while(--i >0);return r;}/* set_xor -- compute exclusive-or of sets "a" and "b" */
pset set_xor(r,a,b)register pset r, a, b;{registerint i =LOOP(a);#ifdef IBM_WATC
PUTLOOP(r,i);do r[i]=(a[i]&~b[i])|(~a[i]&b[i]);while(--i >0);#elsePUTLOOP(r,i);do r[i]= a[i]^ b[i];while(--i >0);#endifreturn r;}/* set_merge -- compute "a" & "mask" | "b" & ~ "mask" */
pset set_merge(r,a,b,mask)register pset r, a, b, mask;{registerint i =LOOP(a);PUTLOOP(r,i);do r[i]=(a[i]&mask[i])|(b[i]&~mask[i]);while(--i >0);return r;}/* set_andp -- compute intersection of sets "a" and "b" , TRUE if nonempty */boolset_andp(r,a,b)register pset r, a, b;{registerint i =LOOP(a);registerunsignedint x =0;PUTLOOP(r,i);do{r[i]= a[i]& b[i]; x |= r[i];}while(--i >0);return x !=0;}/* set_orp -- compute union of sets "a" and "b" , TRUE if nonempty */boolset_orp(r,a,b)register pset r, a, b;{registerint i =LOOP(a);registerunsignedint x =0;PUTLOOP(r,i);do{r[i]= a[i]| b[i]; x |= r[i];}while(--i >0);return x !=0;}/* setp_empty -- check if the set "a" is empty */boolsetp_empty(a)register pset a;{registerint i =LOOP(a);doif(a[i])returnFALSE;while(--i >0);returnTRUE;}/* setp_full -- check if the set "a" is the full set of "size" elements */boolsetp_full(a,size)register pset a;registerint size;{registerint i =LOOP(a);registerunsignedint test;
test =~(unsigned)0;
test >>= i * BPI - size;if(a[i]!= test)returnFALSE;while(--i >0)if(a[i]!=(~(unsigned)0))returnFALSE;returnTRUE;}/* setp_equal -- check if the set "a" equals set "b" */boolsetp_equal(a,b)register pset a, b;{registerint i =LOOP(a);doif(a[i]!= b[i])returnFALSE;while(--i >0);returnTRUE;}/* setp_disjoint -- check if intersection of "a" and "b" is empty */boolsetp_disjoint(a,b)register pset a, b;{registerint i =LOOP(a);doif(a[i]& b[i])returnFALSE;while(--i >0);returnTRUE;}/* setp_implies -- check if "a" implies "b" ("b" contains "a") */boolsetp_implies(a,b)register pset a, b;{registerint i =LOOP(a);doif(a[i]&~b[i])returnFALSE;while(--i >0);returnTRUE;}/* sf_or -- form the "or" of all sets in a set family */
pset sf_or(A)pset_family A;{register pset or, last, p;
or =set_new(A->sf_size);foreach_set(A, last, p)INLINEset_or(or, or, p);return or;}/* sf_and -- form the "and" of all sets in a set family */
pset sf_and(A)pset_family A;{register pset and, last, p;
and =set_fill(set_new(A->sf_size), A->sf_size);foreach_set(A, last, p)INLINEset_and(and, and, p);return and;}/* sf_active -- make all members of the set family active */
pset_family sf_active(A)pset_family A;{register pset p, last;foreach_set(A, last, p){SET(p, ACTIVE);}
A->active_count = A->count;return A;}/* sf_inactive -- remove all inactive cubes in a set family */
pset_family sf_inactive(A)pset_family A;{register pset p, last, pdest;
pdest = A->data;foreach_set(A, last, p){if(TESTP(p, ACTIVE)){if(pdest != p){INLINEset_copy(pdest, p);}
pdest += A->wsize;}else{
A->count--;}}return A;}/* sf_copy -- copy a set family */
pset_family sf_copy(R,A)pset_family R, A;{
R->sf_size = A->sf_size;
R->wsize = A->wsize;/*R->capacity = A->count;*//*R->data = REALLOC(unsigned int, R->data, (long) R->capacity * R->wsize);*/
R->count = A->count;
R->active_count = A->active_count;intcpy(R->data, A->data,(long) A->wsize * A->count);return R;}/* sf_join -- join A and B into a single set_family */
pset_family sf_join(A,B)pset_family A, B;{
pset_family R;long asize = A->count * A->wsize;long bsize = B->count * B->wsize;if(A->sf_size != B->sf_size)fatal("sf_join: sf_size mismatch");
R =sf_new(A->count + B->count, A->sf_size);
R->count = A->count + B->count;
R->active_count = A->active_count + B->active_count;intcpy(R->data, A->data, asize);intcpy(R->data + asize, B->data, bsize);return R;}/* sf_append -- append the sets of B to the end of A, and dispose of B */
pset_family sf_append(A,B)pset_family A, B;{long asize = A->count * A->wsize;long bsize = B->count * B->wsize;if(A->sf_size != B->sf_size)fatal("sf_append: sf_size mismatch");
A->capacity = A->count + B->count;
A->data =REALLOC(unsignedint, A->data,(long) A->capacity * A->wsize);intcpy(A->data + asize, B->data, bsize);
A->count += B->count;
A->active_count += B->active_count;sf_free(B);return A;}/* sf_new -- allocate "num" sets of "size" elements each */
pset_family sf_new(num,size)int num, size;{
pset_family A;if(set_family_garbage ==NULL){
A =ALLOC(set_family_t,1);}else{
A = set_family_garbage;
set_family_garbage = A->next;}
A->sf_size = size;
A->wsize =SET_SIZE(size);
A->capacity = num;
A->data =ALLOC(unsignedint,(long) A->capacity * A->wsize);
A->count =0;
A->active_count =0;return A;}/* sf_save -- create a duplicate copy of a set family */
pset_family sf_save(A)register pset_family A;{returnsf_copy(sf_new(A->count, A->sf_size), A);}/* sf_free -- free the storage allocated for a set family */voidsf_free(A)pset_family A;{FREE(A->data);
A->next = set_family_garbage;
set_family_garbage = A;}/* sf_cleanup -- free all of the set families from the garbage list */voidsf_cleanup(){register pset_family p, pnext;for(p = set_family_garbage; p !=(pset_family)NULL; p = pnext){
pnext = p->next;FREE(p);}
set_family_garbage =(pset_family)NULL;}/* sf_addset -- add a set to the end of a set family */
pset_family sf_addset(A,s)pset_family A;
pset s;{register pset p;if(A->count >= A->capacity){
A->capacity = A->capacity + A->capacity/2+1;
A->data =REALLOC(unsignedint, A->data,(long) A->capacity * A->wsize);}
p =GETSET(A, A->count++);INLINEset_copy(p, s);return A;}/* sf_delset -- delete a set from a set family */voidsf_delset(A,i)pset_family A;int i;{(void)set_copy(GETSET(A,i),GETSET(A,--A->count));}/* sf_print -- print a set_family as a set (list the element numbers) */voidsf_print(A)pset_family A;{char*ps1();register pset p;registerint i;foreachi_set(A, i, p)printf("A[%d] = %s\n", i,ps1(p));}/* sf_bm_print -- print a set_family as a bit-matrix */voidsf_bm_print(A)pset_family A;{char*pbv1();register pset p;registerint i;foreachi_set(A, i, p)printf("[%4d] %s\n", i,pbv1(p, A->sf_size));}/* sf_write -- output a set family in an unintelligable manner */voidsf_write(fp,A)FILE *fp;
pset_family A;{register pset p, last;(void)fprintf(fp,"%d%d\n", A->count, A->sf_size);foreach_set(A, last, p)set_write(fp, p);(void)fflush(fp);}/* sf_read -- read a set family written by sf_write */
pset_family sf_read(fp)FILE *fp;{int i, j;register pset p, last;
pset_family A;(void)fscanf(fp,"%d%d\n",&i,&j);
A =sf_new(i, j);
A->count = i;foreach_set(A, last, p){(void)fscanf(fp,"%x", p);for(j =1; j <=LOOP(p); j++)(void)fscanf(fp,"%x", p+j);}return A;}/* set_write -- output a set in an unintelligable manner */voidset_write(fp,a)register FILE *fp;register pset a;{registerint n =LOOP(a), j;for(j =0; j <= n; j++){(void)fprintf(fp,"%x", a[j]);if((j+1)%8==0&& j != n)(void)fprintf(fp,"\n\t");}(void)fprintf(fp,"\n");}/* sf_bm_read -- read a set family written by sf_bm_print (almost) */
pset_family sf_bm_read(fp)FILE *fp;{int i, j, rows, cols;register pset pdest;
pset_family A;(void)fscanf(fp,"%d%d\n",&rows,&cols);
A =sf_new(rows, cols);for(i =0; i < rows; i++){
pdest =GETSET(A, A->count++);(void)set_clear(pdest, A->sf_size);for(j =0; j < cols; j++){switch(getc(fp)){case'0':break;case'1':set_insert(pdest, j);break;default:fatal("Error reading set family");}}if(getc(fp)!='\n'){fatal("Error reading set family (at end of line)");}}return A;}/* ps1 -- convert a set into a printable string */#definelargest_string120staticchar s1[largest_string];char*ps1(a)register pset a;{registerint i, num, l, len =0, n =NELEM(a);char temp[20];bool first =TRUE;
s1[len++]='[';for(i =0; i < n; i++)if(is_in_set(a,i)){if(! first)
s1[len++]=',';
first =FALSE; num = i;/* Generate digits (reverse order) */
l =0;do temp[l++]= num %10+'0';while((num /=10)>0);/* Copy them back in correct order */do s1[len++]= temp[--l];while(l >0);if(len > largest_string-15){
s1[len++]='.'; s1[len++]='.'; s1[len++]='.';break;}}
s1[len++]=']';
s1[len++]='\0';return s1;}/* pbv1 -- print bit-vector */char*pbv1(s,n)pset s;int n;{registerint i;for(i =0; i < n; i++)
s1[i]=is_in_set(s,i)?'1':'0';
s1[n]='\0';return s1;}/* set_adjcnt -- adjust the counts for a set by "weight" */voidset_adjcnt(a,count,weight)register pset a;registerint*count, weight;{registerint i, base;registerunsignedint val;for(i =LOOP(a); i >0;){for(val = a[i], base =--i << LOGBPI; val !=0; base++, val >>=1){if(val &1){
count[base]+= weight;}}}}/* sf_count -- perform a column sum over a set family */int*sf_count(A)pset_family A;{register pset p, last;registerint i, base,*count;registerunsignedint val;
count =ALLOC(int, A->sf_size);for(i = A->sf_size -1; i >=0; i--){
count[i]=0;}foreach_set(A, last, p){for(i =LOOP(p); i >0;){for(val = p[i], base =--i << LOGBPI; val !=0; base++, val >>=1){if(val &1){
count[base]++;}}}}return count;}/* sf_count_restricted -- perform a column sum over a set family, restricting
* to only the columns which are in r; also, the columns are weighted by the
* number of elements which are in each row
*/int*sf_count_restricted(A,r)pset_family A;register pset r;{register pset p;registerint i, base,*count;registerunsignedint val;int weight;
pset last;
count =ALLOC(int, A->sf_size);for(i = A->sf_size -1; i >=0; i--){
count[i]=0;}/* Loop for each set */foreach_set(A, last, p){
weight =1024/(set_ord(p)-1);for(i =LOOP(p); i >0;){for(val=p[i]&r[i], base=--i<<LOGBPI; val!=0; base++, val >>=1){if(val &1){
count[base]+= weight;}}}}return count;}/** sf_delc -- delete columns first ... last of A
*/
pset_family sf_delc(A,first,last)pset_family A;int first, last;{returnsf_delcol(A, first, last-first +1);}/** sf_addcol -- add columns to a set family; includes a quick check to see
* if there is already enough room (and hence, can avoid copying)
*/
pset_family sf_addcol(A,firstcol,n)pset_family A;int firstcol, n;{int maxsize;/* Check if adding columns at the end ... */if(firstcol == A->sf_size){/* If so, check if there is already enough room */
maxsize = BPI *LOOPINIT(A->sf_size);if((A->sf_size + n)<= maxsize){
A->sf_size += n;return A;}}returnsf_delcol(A, firstcol,-n);}/** sf_delcol -- add/delete columns to/from a set family
** if n > 0 then n columns starting from firstcol are deleted if n < 0
* then n blank columns are inserted starting at firstcol
* (i.e., the first new column number is firstcol)
** This is done by copying columns in the array which is a relatively
* slow operation.
*/
pset_family sf_delcol(A,firstcol,n)pset_family A;registerint firstcol, n;{register pset p, last, pdest;registerint i;
pset_family B;
B =sf_new(A->count, A->sf_size - n);foreach_set(A, last, p){
pdest =GETSET(B, B->count++);INLINEset_clear(pdest, B->sf_size);for(i =0; i < firstcol; i++)if(is_in_set(p, i))set_insert(pdest, i);for(i = n >0? firstcol + n : firstcol; i < A->sf_size; i++)if(is_in_set(p, i))set_insert(pdest, i - n);}sf_free(A);return B;}/** sf_copy_col -- copy column "srccol" from "src" to column "dstcol" of "dst"
*/
pset_family sf_copy_col(dst,dstcol,src,srccol)pset_family dst, src;int dstcol, srccol;{register pset last, p, pdest;registerint word_test, word_set;unsignedint bit_set, bit_test;/* CHEAT! form these constants outside the loop */
word_test =WHICH_WORD(srccol);
bit_test =1<<WHICH_BIT(srccol);
word_set =WHICH_WORD(dstcol);
bit_set =1<<WHICH_BIT(dstcol);
pdest = dst->data;foreach_set(src, last, p){if((p[word_test]& bit_test)!=0)
pdest[word_set]|= bit_set;/** equivalent code for this is ...
* if (is_in_set(p, srccol)) set_insert(pdest, destcol);
*/
pdest += dst->wsize;}return dst;}/** sf_compress -- delete columns from a matrix
*/
pset_family sf_compress(A,c)pset_family A;/* will be freed */register pset c;{register pset p;registerint i, bcol;
pset_family B;/* create a clean set family for the result */
B =sf_new(A->count,set_ord(c));for(i =0; i < A->count; i++){
p =GETSET(B, B->count++);INLINEset_clear(p, B->sf_size);}/* copy each column of A which has a 1 in c */
bcol =0;for(i =0; i < A->sf_size; i++){if(is_in_set(c, i)){(void)sf_copy_col(B, bcol++, A, i);}}sf_free(A);return B;}/** sf_transpose -- transpose a bit matrix
** There are trickier ways of doing this, but this works.
*/
pset_family sf_transpose(A)pset_family A;{
pset_family B;register pset p;registerint i, j;
B =sf_new(A->sf_size, A->count);
B->count = A->sf_size;foreachi_set(B, i, p){INLINEset_clear(p, B->sf_size);}foreachi_set(A, i, p){for(j =0; j < A->sf_size; j++){if(is_in_set(p, j)){set_insert(GETSET(B, j), i);}}}sf_free(A);return B;}/** sf_permute -- permute the columns of a set_family
** permute is an array of integers containing column numbers of A which
* are to be retained.
*/
pset_family sf_permute(A,permute,npermute)pset_family A;registerint*permute, npermute;{
pset_family B;register pset p, last, pdest;registerint j;
B =sf_new(A->count, npermute);
B->count = A->count;foreach_set(B, last, p)INLINEset_clear(p, npermute);
pdest = B->data;foreach_set(A, last, p){for(j =0; j < npermute; j++)if(is_in_set(p, permute[j]))set_insert(pdest, j);
pdest += B->wsize;}sf_free(A);return B;}ABC_NAMESPACE_IMPL_END