/*! @file zreadhb.c
* \brief Read a matrix stored in Harwell-Boeing format
*
* <pre>
* -- SuperLU routine (version 2.0) --
* Univ. of California Berkeley, Xerox Palo Alto Research Center,
* and Lawrence Berkeley National Lab.
* November 15, 1997
*
* Purpose
* =======
*
* Read a DOUBLE COMPLEX PRECISION matrix stored in Harwell-Boeing format
* as described below.
*
* Line 1 (A72,A8)
* Col. 1 - 72 Title (TITLE)
* Col. 73 - 80 Key (KEY)
*
* Line 2 (5I14)
* Col. 1 - 14 Total number of lines excluding header (TOTCRD)
* Col. 15 - 28 Number of lines for pointers (PTRCRD)
* Col. 29 - 42 Number of lines for row (or variable) indices (INDCRD)
* Col. 43 - 56 Number of lines for numerical values (VALCRD)
* Col. 57 - 70 Number of lines for right-hand sides (RHSCRD)
* (including starting guesses and solution vectors
* if present)
* (zero indicates no right-hand side data is present)
*
* Line 3 (A3, 11X, 4I14)
* Col. 1 - 3 Matrix type (see below) (MXTYPE)
* Col. 15 - 28 Number of rows (or variables) (NROW)
* Col. 29 - 42 Number of columns (or elements) (NCOL)
* Col. 43 - 56 Number of row (or variable) indices (NNZERO)
* (equal to number of entries for assembled matrices)
* Col. 57 - 70 Number of elemental matrix entries (NELTVL)
* (zero in the case of assembled matrices)
* Line 4 (2A16, 2A20)
* Col. 1 - 16 Format for pointers (PTRFMT)
* Col. 17 - 32 Format for row (or variable) indices (INDFMT)
* Col. 33 - 52 Format for numerical values of coefficient matrix (VALFMT)
* Col. 53 - 72 Format for numerical values of right-hand sides (RHSFMT)
*
* Line 5 (A3, 11X, 2I14) Only present if there are right-hand sides present
* Col. 1 Right-hand side type:
* F for full storage or M for same format as matrix
* Col. 2 G if a starting vector(s) (Guess) is supplied. (RHSTYP)
* Col. 3 X if an exact solution vector(s) is supplied.
* Col. 15 - 28 Number of right-hand sides (NRHS)
* Col. 29 - 42 Number of row indices (NRHSIX)
* (ignored in case of unassembled matrices)
*
* The three character type field on line 3 describes the matrix type.
* The following table lists the permitted values for each of the three
* characters. As an example of the type field, RSA denotes that the matrix
* is real, symmetric, and assembled.
*
* First Character:
* R Real matrix
* C Complex matrix
* P Pattern only (no numerical values supplied)
*
* Second Character:
* S Symmetric
* U Unsymmetric
* H Hermitian
* Z Skew symmetric
* R Rectangular
*
* Third Character:
* A Assembled
* E Elemental matrices (unassembled)
*
* </pre>
*/
#include <stdio.h>
#include <stdlib.h>
#include "slu_zdefs.h"
/*! \brief Eat up the rest of the current line */
int zDumpLine(FILE *fp)
{
register int c;
while ((c = fgetc(fp)) != '\n') ;
return 0;
}
int zParseIntFormat(char *buf, int *num, int *size)
{
char *tmp;
tmp = buf;
while (*tmp++ != '(') ;
sscanf(tmp, "%d", num);
while (*tmp != 'I' && *tmp != 'i') ++tmp;
++tmp;
sscanf(tmp, "%d", size);
return 0;
}
int zParseFloatFormat(char *buf, int *num, int *size)
{
char *tmp, *period;
tmp = buf;
while (*tmp++ != '(') ;
*num = atoi(tmp); /*sscanf(tmp, "%d", num);*/
while (*tmp != 'E' && *tmp != 'e' && *tmp != 'D' && *tmp != 'd'
&& *tmp != 'F' && *tmp != 'f') {
/* May find kP before nE/nD/nF, like (1P6F13.6). In this case the
num picked up refers to P, which should be skipped. */
if (*tmp=='p' || *tmp=='P') {
++tmp;
*num = atoi(tmp); /*sscanf(tmp, "%d", num);*/
} else {
++tmp;
}
}
++tmp;
period = tmp;
while (*period != '.' && *period != ')') ++period ;
*period = '\0';
*size = atoi(tmp); /*sscanf(tmp, "%2d", size);*/
return 0;
}
static int ReadVector(FILE *fp, int n, int *where, int perline, int persize)
{
register int i, j, item;
char tmp, buf[100];
i = 0;
while (i < n) {
fgets(buf, 100, fp); /* read a line at a time */
for (j=0; j<perline && i<n; j++) {
tmp = buf[(j+1)*persize]; /* save the char at that place */
buf[(j+1)*persize] = 0; /* null terminate */
item = atoi(&buf[j*persize]);
buf[(j+1)*persize] = tmp; /* recover the char at that place */
where[i++] = item - 1;
}
}
return 0;
}
/*! \brief Read complex numbers as pairs of (real, imaginary) */
int zReadValues(FILE *fp, int n, doublecomplex *destination, int perline, int persize)
{
register int i, j, k, s, pair;
register double realpart;
char tmp, buf[100];
i = pair = 0;
while (i < n) {
fgets(buf, 100, fp); /* read a line at a time */
for (j=0; j<perline && i<n; j++) {
tmp = buf[(j+1)*persize]; /* save the char at that place */
buf[(j+1)*persize] = 0; /* null terminate */
s = j*persize;
for (k = 0; k < persize; ++k) /* No D_ format in C */
if ( buf[s+k] == 'D' || buf[s+k] == 'd' ) buf[s+k] = 'E';
if ( pair == 0 ) {
/* The value is real part */
realpart = atof(&buf[s]);
pair = 1;
} else {
/* The value is imaginary part */
destination[i].r = realpart;
destination[i++].i = atof(&buf[s]);
pair = 0;
}
buf[(j+1)*persize] = tmp; /* recover the char at that place */
}
}
return 0;
}
void
zreadhb(int *nrow, int *ncol, int *nonz,
doublecomplex **nzval, int **rowind, int **colptr)
{
register int i, numer_lines = 0, rhscrd = 0;
int tmp, colnum, colsize, rownum, rowsize, valnum, valsize;
char buf[100], type[4], key[10];
FILE *fp;
fp = stdin;
/* Line 1 */
fgets(buf, 100, fp);
fputs(buf, stdout);
#if 0
fscanf(fp, "%72c", buf); buf[72] = 0;
printf("Title: %s", buf);
fscanf(fp, "%8c", key); key[8] = 0;
printf("Key: %s\n", key);
zDumpLine(fp);
#endif
/* Line 2 */
for (i=0; i<5; i++) {
fscanf(fp, "%14c", buf); buf[14] = 0;
sscanf(buf, "%d", &tmp);
if (i == 3) numer_lines = tmp;
if (i == 4 && tmp) rhscrd = tmp;
}
zDumpLine(fp);
/* Line 3 */
fscanf(fp, "%3c", type);
fscanf(fp, "%11c", buf); /* pad */
type[3] = 0;
#ifdef DEBUG
printf("Matrix type %s\n", type);
#endif
fscanf(fp, "%14c", buf); sscanf(buf, "%d", nrow);
fscanf(fp, "%14c", buf); sscanf(buf, "%d", ncol);
fscanf(fp, "%14c", buf); sscanf(buf, "%d", nonz);
fscanf(fp, "%14c", buf); sscanf(buf, "%d", &tmp);
if (tmp != 0)
printf("This is not an assembled matrix!\n");
if (*nrow != *ncol)
printf("Matrix is not square.\n");
zDumpLine(fp);
/* Allocate storage for the three arrays ( nzval, rowind, colptr ) */
zallocateA(*ncol, *nonz, nzval, rowind, colptr);
/* Line 4: format statement */
fscanf(fp, "%16c", buf);
zParseIntFormat(buf, &colnum, &colsize);
fscanf(fp, "%16c", buf);
zParseIntFormat(buf, &rownum, &rowsize);
fscanf(fp, "%20c", buf);
zParseFloatFormat(buf, &valnum, &valsize);
fscanf(fp, "%20c", buf);
zDumpLine(fp);
/* Line 5: right-hand side */
if ( rhscrd ) zDumpLine(fp); /* skip RHSFMT */
#ifdef DEBUG
printf("%d rows, %d nonzeros\n", *nrow, *nonz);
printf("colnum %d, colsize %d\n", colnum, colsize);
printf("rownum %d, rowsize %d\n", rownum, rowsize);
printf("valnum %d, valsize %d\n", valnum, valsize);
#endif
ReadVector(fp, *ncol+1, *colptr, colnum, colsize);
ReadVector(fp, *nonz, *rowind, rownum, rowsize);
if ( numer_lines ) {
zReadValues(fp, *nonz, *nzval, valnum, valsize);
}
fclose(fp);
}