/* Gforth support functions
Copyright (C) 1995,1996,1997,1998,2000,2003,2004 Free Software Foundation, Inc.
This file is part of Gforth.
Gforth is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111, USA.
*/
#include "config.h"
#include "forth.h"
#include "io.h"
#include <stdlib.h>
#include <string.h>
#include <sys/time.h>
#include <unistd.h>
#include <pwd.h>
#include <dirent.h>
#include <math.h>
#include <ctype.h>
#include <errno.h>
#ifdef HAS_FILE
char *cstr(Char *from, UCell size, int clear)
/* return a C-string corresponding to the Forth string ( FROM SIZE ).
the C-string lives until the next call of cstr with CLEAR being true */
{
static struct cstr_buffer {
char *buffer;
size_t size;
} *buffers=NULL;
static int nbuffers=0;
static int used=0;
struct cstr_buffer *b;
if (buffers==NULL)
buffers=malloc(0);
if (clear)
used=0;
if (used>=nbuffers) {
buffers=realloc(buffers,sizeof(struct cstr_buffer)*(used+1));
buffers[used]=(struct cstr_buffer){malloc(0),0};
nbuffers=used+1;
}
b=&buffers[used];
if (size+1 > b->size) {
b->buffer = realloc(b->buffer,size+1);
b->size = size+1;
}
memcpy(b->buffer,from,size);
b->buffer[size]='\0';
used++;
return b->buffer;
}
char *tilde_cstr(Char *from, UCell size, int clear)
/* like cstr(), but perform tilde expansion on the string */
{
char *s1,*s2;
int s1_len, s2_len;
struct passwd *getpwnam (), *user_entry;
if (size<1 || from[0]!='~')
return cstr(from, size, clear);
if (size<2 || from[1]=='/') {
s1 = (char *)getenv ("HOME");
if(s1 == NULL)
#if defined(_WIN32) || defined (MSDOS)
s1 = (char *)getenv ("TEMP");
if(s1 == NULL)
s1 = (char *)getenv ("TMP");
if(s1 == NULL)
#endif
s1 = "";
s2 = from+1;
s2_len = size-1;
} else {
UCell i;
for (i=1; i<size && from[i]!='/'; i++)
;
if (i==2 && from[1]=='+') /* deal with "~+", i.e., the wd */
return cstr(from+3, size<3?0:size-3,clear);
{
char user[i];
memcpy(user,from+1,i-1);
user[i-1]='\0';
user_entry=getpwnam(user);
}
if (user_entry==NULL)
return cstr(from, size, clear);
s1 = user_entry->pw_dir;
s2 = from+i;
s2_len = size-i;
}
s1_len = strlen(s1);
if (s1_len>1 && s1[s1_len-1]=='/')
s1_len--;
{
char path[s1_len+s2_len];
memcpy(path,s1,s1_len);
memcpy(path+s1_len,s2,s2_len);
return cstr(path,s1_len+s2_len,clear);
}
}
#endif
DCell timeval2us(struct timeval *tvp)
{
#ifndef BUGGY_LONG_LONG
return (tvp->tv_sec*(DCell)1000000)+tvp->tv_usec;
#else
DCell d2;
DCell d1=mmul(tvp->tv_sec,1000000);
d2.lo = d1.lo+tvp->tv_usec;
d2.hi = d1.hi + (d2.lo<d1.lo);
return d2;
#endif
}
DCell double2ll(Float r)
{
#ifndef BUGGY_LONG_LONG
return (DCell)(r);
#else
double ldexp(double x, int exp);
DCell d;
if (r<0) {
d.hi = ldexp(-r,-(int)(CELL_BITS));
d.lo = (-r)-ldexp((Float)d.hi,CELL_BITS);
return dnegate(d);
}
d.hi = ldexp(r,-(int)(CELL_BITS));
d.lo = r-ldexp((Float)d.hi,CELL_BITS);
return d;
#endif
}
void cmove(Char *c_from, Char *c_to, UCell u)
{
while (u-- > 0)
*c_to++ = *c_from++;
}
void cmove_up(Char *c_from, Char *c_to, UCell u)
{
while (u-- > 0)
c_to[u] = c_from[u];
}
Cell compare(Char *c_addr1, UCell u1, Char *c_addr2, UCell u2)
{
Cell n;
n = memcmp(c_addr1, c_addr2, u1<u2 ? u1 : u2);
if (n==0)
n = u1-u2;
if (n<0)
n = -1;
else if (n>0)
n = 1;
return n;
}
Cell memcasecmp(const Char *s1, const Char *s2, Cell n)
{
Cell i;
for (i=0; i<n; i++) {
Char c1=toupper(s1[i]);
Char c2=toupper(s2[i]);
if (c1 != c2) {
if (c1 < c2)
return -1;
else
return 1;
}
}
return 0;
}
Cell capscompare(Char *c_addr1, UCell u1, Char *c_addr2, UCell u2)
{
Cell n;
n = memcasecmp(c_addr1, c_addr2, u1<u2 ? u1 : u2);
if (n==0)
n = u1-u2;
if (n<0)
n = -1;
else if (n>0)
n = 1;
return n;
}
struct Longname *listlfind(Char *c_addr, UCell u, struct Longname *longname1)
{
for (; longname1 != NULL; longname1 = (struct Longname *)(longname1->next))
if ((UCell)LONGNAME_COUNT(longname1)==u &&
memcasecmp(c_addr, longname1->name, u)== 0 /* or inline? */)
break;
return longname1;
}
struct Longname *hashlfind(Char *c_addr, UCell u, Cell *a_addr)
{
struct Longname *longname1;
while(a_addr != NULL) {
longname1=(struct Longname *)(a_addr[1]);
a_addr=(Cell *)(a_addr[0]);
if ((UCell)LONGNAME_COUNT(longname1)==u &&
memcasecmp(c_addr, longname1->name, u)== 0 /* or inline? */) {
return longname1;
}
}
return NULL;
}
struct Longname *tablelfind(Char *c_addr, UCell u, Cell *a_addr)
{
struct Longname *longname1;
while(a_addr != NULL) {
longname1=(struct Longname *)(a_addr[1]);
a_addr=(Cell *)(a_addr[0]);
if ((UCell)LONGNAME_COUNT(longname1)==u &&
memcmp(c_addr, longname1->name, u)== 0 /* or inline? */) {
return longname1;
}
}
return NULL;
}
UCell hashkey1(Char *c_addr, UCell u, UCell ubits)
/* this hash function rotates the key at every step by rot bits within
ubits bits and xors it with the character. This function does ok in
the chi-sqare-test. Rot should be <=7 (preferably <=5) for
ASCII strings (larger if ubits is large), and should share no
divisors with ubits.
*/
{
static char rot_values[] = {5,0,1,2,3,4,5,5,5,5,3,5,5,5,5,7,5,5,5,5,7,5,5,5,5,6,5,5,5,5,7,5,5};
unsigned rot = rot_values[ubits];
Char *cp = c_addr;
UCell ukey;
for (ukey=0; cp<c_addr+u; cp++)
ukey = ((((ukey<<rot) | (ukey>>(ubits-rot)))
^ toupper(*cp))
& ((1<<ubits)-1));
return ukey;
}
struct Cellpair parse_white(Char *c_addr1, UCell u1)
{
/* use !isgraph instead of isspace? */
struct Cellpair result;
Char *c_addr2;
Char *endp = c_addr1+u1;
while (c_addr1<endp && isspace(*c_addr1))
c_addr1++;
if (c_addr1<endp) {
for (c_addr2 = c_addr1; c_addr1<endp && !isspace(*c_addr1); c_addr1++)
;
result.n1 = (Cell)c_addr2;
result.n2 = c_addr1-c_addr2;
} else {
result.n1 = (Cell)c_addr1;
result.n2 = 0;
}
return result;
}
Cell rename_file(Char *c_addr1, UCell u1, Char *c_addr2, UCell u2)
{
char *s1=tilde_cstr(c_addr2, u2, 1);
return IOR(rename(tilde_cstr(c_addr1, u1, 0), s1)==-1);
}
struct Cellquad read_line(Char *c_addr, UCell u1, Cell wfileid)
{
UCell u2, u3;
Cell flag, wior;
Cell c;
struct Cellquad r;
flag=-1;
u3=0;
for(u2=0; u2<u1; u2++) {
c = getc((FILE *)wfileid);
u3++;
if (c=='\n') break;
if (c=='\r') {
if ((c = getc((FILE *)wfileid))!='\n')
ungetc(c,(FILE *)wfileid);
else
u3++;
break;
}
if (c==EOF) {
flag=FLAG(u2!=0);
break;
}
c_addr[u2] = (Char)c;
}
wior=FILEIO(ferror((FILE *)wfileid));
r.n1 = u2;
r.n2 = flag;
r.n3 = u3;
r.n4 = wior;
return r;
}
struct Cellpair file_status(Char *c_addr, UCell u)
{
struct Cellpair r;
Cell wfam;
Cell wior;
char *filename=tilde_cstr(c_addr, u, 1);
if (access (filename, F_OK) != 0) {
wfam=0;
wior=IOR(1);
}
else if (access (filename, R_OK | W_OK) == 0) {
wfam=2; /* r/w */
wior=0;
}
else if (access (filename, R_OK) == 0) {
wfam=0; /* r/o */
wior=0;
}
else if (access (filename, W_OK) == 0) {
wfam=4; /* w/o */
wior=0;
}
else {
wfam=1; /* well, we cannot access the file, but better deliver a
legal access mode (r/o bin), so we get a decent error
later upon open. */
wior=0;
}
r.n1 = wfam;
r.n2 = wior;
return r;
}
Cell to_float(Char *c_addr, UCell u, Float *rp)
{
Float r;
Cell flag;
char *number=cstr(c_addr, u, 1);
char *endconv;
int sign = 0;
if(number[0]==' ') {
UCell i;
for (i=1; i<u; i++)
if (number[i] != ' ')
return 0;
*rp = 0.0;
return -1;
}
if(number[0]=='-') {
sign = 1;
number++;
u--;
if (u==0)
return 0;
}
switch(number[u-1]) {
case 'd':
case 'D':
case 'e':
case 'E':
u--;
break;
}
number[u]='\0';
r=strtod(number,&endconv);
flag=FLAG((*endconv)=='\0');
if(flag) {
if (sign)
r = -r;
} else if(*endconv=='d' || *endconv=='D') {
*endconv='E';
r=strtod(number,&endconv);
flag=FLAG((*endconv)=='\0');
if (flag) {
if (sign)
r = -r;
}
}
*rp = r;
return flag;
}
Float v_star(Float *f_addr1, Cell nstride1, Float *f_addr2, Cell nstride2, UCell ucount)
{
Float r;
for (r=0.; ucount>0; ucount--) {
r += *f_addr1 * *f_addr2;
f_addr1 = (Float *)(((Address)f_addr1)+nstride1);
f_addr2 = (Float *)(((Address)f_addr2)+nstride2);
}
return r;
}
void faxpy(Float ra, Float *f_x, Cell nstridex, Float *f_y, Cell nstridey, UCell ucount)
{
for (; ucount>0; ucount--) {
*f_y += ra * *f_x;
f_x = (Float *)(((Address)f_x)+nstridex);
f_y = (Float *)(((Address)f_y)+nstridey);
}
}
UCell lshift(UCell u1, UCell n)
{
return u1 << n;
}
UCell rshift(UCell u1, UCell n)
{
return u1 >> n;
}
int gforth_system(Char *c_addr, UCell u)
{
int retval;
char *prefix = getenv("GFORTHSYSTEMPREFIX") ? : DEFAULTSYSTEMPREFIX;
size_t prefixlen = strlen(prefix);
char buffer[prefixlen+u+1];
#ifndef MSDOS
int old_tp=terminal_prepped;
deprep_terminal();
#endif
memcpy(buffer,prefix,prefixlen);
memcpy(buffer+prefixlen,c_addr,u);
buffer[prefixlen+u]='\0';
retval=system(buffer); /* ~ expansion on first part of string? */
#ifndef MSDOS
if (old_tp)
prep_terminal();
#endif
return retval;
}
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