/*
* Revision Control Information
*
* $Source$
* $Author$
* $Revision$
* $Date$
*
*/
//#include "port.h"
#include "sparse_int.h"
ABC_NAMESPACE_IMPL_START
/*
* free-lists are only used if 'FAST_AND_LOOSE' is set; this is because
* we lose the debugging capability of libmm_t which trashes objects when
* they are free'd. However, FAST_AND_LOOSE is much faster if matrices
* are created and freed frequently.
*/
#ifdef FAST_AND_LOOSE
sm_element *sm_element_freelist;
sm_row *sm_row_freelist;
sm_col *sm_col_freelist;
#endif
sm_matrix *
sm_alloc()
{
register sm_matrix *A;
A = ALLOC(sm_matrix, 1);
A->rows = NIL(sm_row *);
A->cols = NIL(sm_col *);
A->nrows = A->ncols = 0;
A->rows_size = A->cols_size = 0;
A->first_row = A->last_row = NIL(sm_row);
A->first_col = A->last_col = NIL(sm_col);
A->user_word = NIL(char); /* for our user ... */
return A;
}
sm_matrix *
sm_alloc_size(row, col)
int row, col;
{
register sm_matrix *A;
A = sm_alloc();
sm_resize(A, row, col);
return A;
}
void
sm_free(A)
sm_matrix *A;
{
#ifdef FAST_AND_LOOSE
register sm_row *prow;
if (A->first_row != 0) {
for(prow = A->first_row; prow != 0; prow = prow->next_row) {
/* add the elements to the free list of elements */
prow->last_col->next_col = sm_element_freelist;
sm_element_freelist = prow->first_col;
}
/* Add the linked list of rows to the row-free-list */
A->last_row->next_row = sm_row_freelist;
sm_row_freelist = A->first_row;
/* Add the linked list of cols to the col-free-list */
A->last_col->next_col = sm_col_freelist;
sm_col_freelist = A->first_col;
}
#else
register sm_row *prow, *pnext_row;
register sm_col *pcol, *pnext_col;
for(prow = A->first_row; prow != 0; prow = pnext_row) {
pnext_row = prow->next_row;
sm_row_free(prow);
}
for(pcol = A->first_col; pcol != 0; pcol = pnext_col) {
pnext_col = pcol->next_col;
pcol->first_row = pcol->last_row = NIL(sm_element);
sm_col_free(pcol);
}
#endif
/* Free the arrays to map row/col numbers into pointers */
FREE(A->rows);
FREE(A->cols);
FREE(A);
}
sm_matrix *
sm_dup(A)
sm_matrix *A;
{
register sm_row *prow;
register sm_element *p;
register sm_matrix *B;
B = sm_alloc();
if (A->last_row != 0) {
sm_resize(B, A->last_row->row_num, A->last_col->col_num);
for(prow = A->first_row; prow != 0; prow = prow->next_row) {
for(p = prow->first_col; p != 0; p = p->next_col) {
(void) sm_insert(B, p->row_num, p->col_num);
}
}
}
return B;
}
void
sm_resize(A, row, col)
register sm_matrix *A;
int row, col;
{
register int i, new_size;
if (row >= A->rows_size) {
new_size = MAX(A->rows_size*2, row+1);
A->rows = REALLOC(sm_row *, A->rows, new_size);
for(i = A->rows_size; i < new_size; i++) {
A->rows[i] = NIL(sm_row);
}
A->rows_size = new_size;
}
if (col >= A->cols_size) {
new_size = MAX(A->cols_size*2, col+1);
A->cols = REALLOC(sm_col *, A->cols, new_size);
for(i = A->cols_size; i < new_size; i++) {
A->cols[i] = NIL(sm_col);
}
A->cols_size = new_size;
}
}
/*
* insert -- insert a value into the matrix
*/
sm_element *
sm_insert(A, row, col)
register sm_matrix *A;
register int row, col;
{
register sm_row *prow;
register sm_col *pcol;
register sm_element *element;
sm_element *save_element;
if (row >= A->rows_size || col >= A->cols_size) {
sm_resize(A, row, col);
}
prow = A->rows[row];
if (prow == NIL(sm_row)) {
prow = A->rows[row] = sm_row_alloc();
prow->row_num = row;
sorted_insert(sm_row, A->first_row, A->last_row, A->nrows,
next_row, prev_row, row_num, row, prow);
}
pcol = A->cols[col];
if (pcol == NIL(sm_col)) {
pcol = A->cols[col] = sm_col_alloc();
pcol->col_num = col;
sorted_insert(sm_col, A->first_col, A->last_col, A->ncols,
next_col, prev_col, col_num, col, pcol);
}
/* get a new item, save its address */
sm_element_alloc(element);
save_element = element;
/* insert it into the row list */
sorted_insert(sm_element, prow->first_col, prow->last_col,
prow->length, next_col, prev_col, col_num, col, element);
/* if it was used, also insert it into the column list */
if (element == save_element) {
sorted_insert(sm_element, pcol->first_row, pcol->last_row,
pcol->length, next_row, prev_row, row_num, row, element);
} else {
/* otherwise, it was already in matrix -- free element we allocated */
sm_element_free(save_element);
}
return element;
}
sm_element *
sm_find(A, rownum, colnum)
sm_matrix *A;
int rownum, colnum;
{
sm_row *prow;
sm_col *pcol;
prow = sm_get_row(A, rownum);
if (prow == NIL(sm_row)) {
return NIL(sm_element);
} else {
pcol = sm_get_col(A, colnum);
if (pcol == NIL(sm_col)) {
return NIL(sm_element);
}
if (prow->length < pcol->length) {
return sm_row_find(prow, colnum);
} else {
return sm_col_find(pcol, rownum);
}
}
}
void
sm_remove(A, rownum, colnum)
sm_matrix *A;
int rownum, colnum;
{
sm_remove_element(A, sm_find(A, rownum, colnum));
}
void
sm_remove_element(A, p)
register sm_matrix *A;
register sm_element *p;
{
register sm_row *prow;
register sm_col *pcol;
if (p == 0) return;
/* Unlink the element from its row */
prow = sm_get_row(A, p->row_num);
dll_unlink(p, prow->first_col, prow->last_col,
next_col, prev_col, prow->length);
/* if no more elements in the row, discard the row header */
if (prow->first_col == NIL(sm_element)) {
sm_delrow(A, p->row_num);
}
/* Unlink the element from its column */
pcol = sm_get_col(A, p->col_num);
dll_unlink(p, pcol->first_row, pcol->last_row,
next_row, prev_row, pcol->length);
/* if no more elements in the column, discard the column header */
if (pcol->first_row == NIL(sm_element)) {
sm_delcol(A, p->col_num);
}
sm_element_free(p);
}
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void
sm_delrow(A, i)
sm_matrix *A;
int i;
{
register sm_element *p, *pnext;
sm_col *pcol;
sm_row *prow;
prow = sm_get_row(A, i);
if (prow != NIL(sm_row)) {
/* walk across the row */
for(p = prow->first_col; p != 0; p = pnext) {
pnext = p->next_col;
/* unlink the item from the column (and delete it) */
pcol = sm_get_col(A, p->col_num);
sm_col_remove_element(pcol, p);
/* discard the column if it is now empty */
if (pcol->first_row == NIL(sm_element)) {
sm_delcol(A, pcol->col_num);
}
}
/* discard the row -- we already threw away the elements */
A->rows[i] = NIL(sm_row);
dll_unlink(prow, A->first_row, A->last_row,
next_row, prev_row, A->nrows);
prow->first_col = prow->last_col = NIL(sm_element);
sm_row_free(prow);
}
}
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void
sm_delcol(A, i)
sm_matrix *A;
int i;
{
register sm_element *p, *pnext;
sm_row *prow;
sm_col *pcol;
pcol = sm_get_col(A, i);
if (pcol != NIL(sm_col)) {
/* walk down the column */
for(p = pcol->first_row; p != 0; p = pnext) {
pnext = p->next_row;
/* unlink the element from the row (and delete it) */
prow = sm_get_row(A, p->row_num);
sm_row_remove_element(prow, p);
/* discard the row if it is now empty */
if (prow->first_col == NIL(sm_element)) {
sm_delrow(A, prow->row_num);
}
}
/* discard the column -- we already threw away the elements */
A->cols[i] = NIL(sm_col);
dll_unlink(pcol, A->first_col, A->last_col,
next_col, prev_col, A->ncols);
pcol->first_row = pcol->last_row = NIL(sm_element);
sm_col_free(pcol);
}
}
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void
sm_copy_row(dest, dest_row, prow)
register sm_matrix *dest;
int dest_row;
sm_row *prow;
{
register sm_element *p;
for(p = prow->first_col; p != 0; p = p->next_col) {
(void) sm_insert(dest, dest_row, p->col_num);
}
}
void
sm_copy_col(dest, dest_col, pcol)
register sm_matrix *dest;
int dest_col;
sm_col *pcol;
{
register sm_element *p;
for(p = pcol->first_row; p != 0; p = p->next_row) {
(void) sm_insert(dest, dest_col, p->row_num);
}
}
sm_row *
sm_longest_row(A)
sm_matrix *A;
{
register sm_row *large_row, *prow;
register int max_length;
max_length = 0;
large_row = NIL(sm_row);
for(prow = A->first_row; prow != 0; prow = prow->next_row) {
if (prow->length > max_length) {
max_length = prow->length;
large_row = prow;
}
}
return large_row;
}
sm_col *
sm_longest_col(A)
sm_matrix *A;
{
register sm_col *large_col, *pcol;
register int max_length;
max_length = 0;
large_col = NIL(sm_col);
for(pcol = A->first_col; pcol != 0; pcol = pcol->next_col) {
if (pcol->length > max_length) {
max_length = pcol->length;
large_col = pcol;
}
}
return large_col;
}
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int
sm_num_elements(A)
sm_matrix *A;
{
register sm_row *prow;
register int num;
num = 0;
sm_foreach_row(A, prow) {
num += prow->length;
}
return num;
}
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int
sm_read(fp, A)
FILE *fp;
sm_matrix **A;
{
int i, j, err;
*A = sm_alloc();
while (! feof(fp)) {
err = fscanf(fp, "%d %d", &i, &j);
if (err == EOF) {
return 1;
} else if (err != 2) {
return 0;
}
(void) sm_insert(*A, i, j);
}
return 1;
}
int
sm_read_compressed(fp, A)
FILE *fp;
sm_matrix **A;
{
int i, j, k, nrows, ncols;
unsigned long x;
*A = sm_alloc();
if (fscanf(fp, "%d %d", &nrows, &ncols) != 2) {
return 0;
}
sm_resize(*A, nrows, ncols);
for(i = 0; i < nrows; i++) {
if (fscanf(fp, "%lx", &x) != 1) {
return 0;
}
for(j = 0; j < ncols; j += 32) {
if (fscanf(fp, "%lx", &x) != 1) {
return 0;
}
for(k = j; x != 0; x >>= 1, k++) {
if (x & 1) {
(void) sm_insert(*A, i, k);
}
}
}
}
return 1;
}
void
sm_write(fp, A)
FILE *fp;
sm_matrix *A;
{
register sm_row *prow;
register sm_element *p;
for(prow = A->first_row; prow != 0; prow = prow->next_row) {
for(p = prow->first_col; p != 0; p = p->next_col) {
(void) fprintf(fp, "%d %d\n", p->row_num, p->col_num);
}
}
}
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void
sm_print(fp, A)
FILE *fp;
sm_matrix *A;
{
register sm_row *prow;
register sm_col *pcol;
int c;
if (A->last_col->col_num >= 100) {
(void) fprintf(fp, " ");
for(pcol = A->first_col; pcol != 0; pcol = pcol->next_col) {
(void) fprintf(fp, "%d", (pcol->col_num / 100)%10);
}
putc('\n', fp);
}
if (A->last_col->col_num >= 10) {
(void) fprintf(fp, " ");
for(pcol = A->first_col; pcol != 0; pcol = pcol->next_col) {
(void) fprintf(fp, "%d", (pcol->col_num / 10)%10);
}
putc('\n', fp);
}
(void) fprintf(fp, " ");
for(pcol = A->first_col; pcol != 0; pcol = pcol->next_col) {
(void) fprintf(fp, "%d", pcol->col_num % 10);
}
putc('\n', fp);
(void) fprintf(fp, " ");
for(pcol = A->first_col; pcol != 0; pcol = pcol->next_col) {
(void) fprintf(fp, "-");
}
putc('\n', fp);
for(prow = A->first_row; prow != 0; prow = prow->next_row) {
(void) fprintf(fp, "%3d:", prow->row_num);
for(pcol = A->first_col; pcol != 0; pcol = pcol->next_col) {
c = sm_row_find(prow, pcol->col_num) ? '1' : '.';
putc(c, fp);
}
putc('\n', fp);
}
}
void
sm_dump(A, s, max)
sm_matrix *A;
char *s;
int max;
{
FILE *fp = stdout;
(void) fprintf(fp, "%s %d rows by %d cols\n", s, A->nrows, A->ncols);
if (A->nrows < max) {
sm_print(fp, A);
}
}
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void
sm_cleanup()
{
#ifdef FAST_AND_LOOSE
register sm_element *p, *pnext;
register sm_row *prow, *pnextrow;
register sm_col *pcol, *pnextcol;
for(p = sm_element_freelist; p != 0; p = pnext) {
pnext = p->next_col;
FREE(p);
}
sm_element_freelist = 0;
for(prow = sm_row_freelist; prow != 0; prow = pnextrow) {
pnextrow = prow->next_row;
FREE(prow);
}
sm_row_freelist = 0;
for(pcol = sm_col_freelist; pcol != 0; pcol = pnextcol) {
pnextcol = pcol->next_col;
FREE(pcol);
}
sm_col_freelist = 0;
#endif
}
ABC_NAMESPACE_IMPL_END