/* $OpenBSD: shf.c,v 1.4 1998/10/29 04:09:21 millert Exp $ */ /* * Shell file I/O routines */ #include "sh.h" #include "ksh_stat.h" #include "ksh_limval.h" /* flags to shf_emptybuf() */ #define EB_READSW 0x01 /* about to switch to reading */ #define EB_GROW 0x02 /* grow buffer if necessary (STRING+DYNAMIC) */ /* * Replacement stdio routines. Stdio is too flakey on too many machines * to be useful when you have multiple processes using the same underlying * file descriptors. */ static int shf_fillbuf ARGS((struct shf *shf)); static int shf_emptybuf ARGS((struct shf *shf, int flags)); /* Open a file. First three args are for open(), last arg is flags for * this package. Returns NULL if file could not be opened, or if a dup * fails. */ struct shf * shf_open(name, oflags, mode, sflags) const char *name; int oflags; int mode; int sflags; { int fd; fd = open(name, oflags, mode); if (fd < 0) return NULL; if ((sflags & SHF_MAPHI) && fd < FDBASE) { int nfd; nfd = ksh_dupbase(fd, FDBASE); close(fd); if (nfd < 0) return NULL; fd = nfd; } sflags &= ~SHF_ACCMODE; sflags |= (oflags & O_ACCMODE) == O_RDONLY ? SHF_RD : ((oflags & O_ACCMODE) == O_WRONLY ? SHF_WR : SHF_RDWR); return shf_fdopen(fd, sflags, (struct shf *) 0); } /* Set up the shf structure for a file descriptor. Doesn't fail. */ struct shf * shf_fdopen(fd, sflags, shf) int fd; int sflags; struct shf *shf; { int bsize = sflags & SHF_UNBUF ? (sflags & SHF_RD ? 1 : 0) : SHF_BSIZE; /* use fcntl() to figure out correct read/write flags */ if (sflags & SHF_GETFL) { int flags = fcntl(fd, F_GETFL, 0); if (flags < 0) /* will get an error on first read/write */ sflags |= SHF_RDWR; else switch (flags & O_ACCMODE) { case O_RDONLY: sflags |= SHF_RD; break; case O_WRONLY: sflags |= SHF_WR; break; case O_RDWR: sflags |= SHF_RDWR; break; } } if (!(sflags & (SHF_RD | SHF_WR))) internal_errorf(1, "shf_fdopen: missing read/write"); if (shf) { if (bsize) { shf->buf = (unsigned char *) alloc(bsize, ATEMP); sflags |= SHF_ALLOCB; } else shf->buf = (unsigned char *) 0; } else { shf = (struct shf *) alloc(sizeof(struct shf) + bsize, ATEMP); shf->buf = (unsigned char *) &shf[1]; sflags |= SHF_ALLOCS; } shf->areap = ATEMP; shf->fd = fd; shf->rp = shf->wp = shf->buf; shf->rnleft = 0; shf->rbsize = bsize; shf->wnleft = 0; /* force call to shf_emptybuf() */ shf->wbsize = sflags & SHF_UNBUF ? 0 : bsize; shf->flags = sflags; shf->errno_ = 0; shf->bsize = bsize; if (sflags & SHF_CLEXEC) fd_clexec(fd); return shf; } /* Set up an existing shf (and buffer) to use the given fd */ struct shf * shf_reopen(fd, sflags, shf) int fd; int sflags; struct shf *shf; { int bsize = sflags & SHF_UNBUF ? (sflags & SHF_RD ? 1 : 0) : SHF_BSIZE; /* use fcntl() to figure out correct read/write flags */ if (sflags & SHF_GETFL) { int flags = fcntl(fd, F_GETFL, 0); if (flags < 0) /* will get an error on first read/write */ sflags |= SHF_RDWR; else switch (flags & O_ACCMODE) { case O_RDONLY: sflags |= SHF_RD; break; case O_WRONLY: sflags |= SHF_WR; break; case O_RDWR: sflags |= SHF_RDWR; break; } } if (!(sflags & (SHF_RD | SHF_WR))) internal_errorf(1, "shf_reopen: missing read/write"); if (!shf || !shf->buf || shf->bsize < bsize) internal_errorf(1, "shf_reopen: bad shf/buf/bsize"); /* assumes shf->buf and shf->bsize already set up */ shf->fd = fd; shf->rp = shf->wp = shf->buf; shf->rnleft = 0; shf->rbsize = bsize; shf->wnleft = 0; /* force call to shf_emptybuf() */ shf->wbsize = sflags & SHF_UNBUF ? 0 : bsize; shf->flags = (shf->flags & (SHF_ALLOCS | SHF_ALLOCB)) | sflags; shf->errno_ = 0; if (sflags & SHF_CLEXEC) fd_clexec(fd); return shf; } /* Open a string for reading or writing. If reading, bsize is the number * of bytes that can be read. If writing, bsize is the maximum number of * bytes that can be written. If shf is not null, it is filled in and * returned, if it is null, shf is allocated. If writing and buf is null * and SHF_DYNAMIC is set, the buffer is allocated (if bsize > 0, it is * used for the initial size). Doesn't fail. * When writing, a byte is reserved for a trailing null - see shf_sclose(). */ struct shf * shf_sopen(buf, bsize, sflags, shf) char *buf; int bsize; int sflags; struct shf *shf; { /* can't have a read+write string */ if (!(sflags & (SHF_RD | SHF_WR)) || (sflags & (SHF_RD | SHF_WR)) == (SHF_RD | SHF_WR)) internal_errorf(1, "shf_sopen: flags 0x%x", sflags); if (!shf) { shf = (struct shf *) alloc(sizeof(struct shf), ATEMP); sflags |= SHF_ALLOCS; } shf->areap = ATEMP; if (!buf && (sflags & SHF_WR) && (sflags & SHF_DYNAMIC)) { if (bsize <= 0) bsize = 64; sflags |= SHF_ALLOCB; buf = alloc(bsize, shf->areap); } shf->fd = -1; shf->buf = shf->rp = shf->wp = (unsigned char *) buf; shf->rnleft = bsize; shf->rbsize = bsize; shf->wnleft = bsize - 1; /* space for a '\0' */ shf->wbsize = bsize; shf->flags = sflags | SHF_STRING; shf->errno_ = 0; shf->bsize = bsize; return shf; } /* Flush and close file descriptor, free the shf structure */ int shf_close(shf) struct shf *shf; { int ret = 0; if (shf->fd >= 0) { ret = shf_flush(shf); if (close(shf->fd) < 0) ret = EOF; } if (shf->flags & SHF_ALLOCS) afree(shf, shf->areap); else if (shf->flags & SHF_ALLOCB) afree(shf->buf, shf->areap); return ret; } /* Flush and close file descriptor, don't free file structure */ int shf_fdclose(shf) struct shf *shf; { int ret = 0; if (shf->fd >= 0) { ret = shf_flush(shf); if (close(shf->fd) < 0) ret = EOF; shf->rnleft = 0; shf->rp = shf->buf; shf->wnleft = 0; shf->fd = -1; } return ret; } /* Close a string - if it was opened for writing, it is null terminated; * returns a pointer to the string and frees shf if it was allocated * (does not free string if it was allocated). */ char * shf_sclose(shf) struct shf *shf; { unsigned char *s = shf->buf; /* null terminate */ if (shf->flags & SHF_WR) { shf->wnleft++; shf_putc('\0', shf); } if (shf->flags & SHF_ALLOCS) afree(shf, shf->areap); return (char *) s; } /* Flush and free file structure, don't close file descriptor */ int shf_finish(shf) struct shf *shf; { int ret = 0; if (shf->fd >= 0) ret = shf_flush(shf); if (shf->flags & SHF_ALLOCS) afree(shf, shf->areap); else if (shf->flags & SHF_ALLOCB) afree(shf->buf, shf->areap); return ret; } /* Un-read what has been read but not examined, or write what has been * buffered. Returns 0 for success, EOF for (write) error. */ int shf_flush(shf) struct shf *shf; { if (shf->flags & SHF_STRING) return (shf->flags & SHF_WR) ? EOF : 0; if (shf->fd < 0) internal_errorf(1, "shf_flush: no fd"); if (shf->flags & SHF_ERROR) { errno = shf->errno_; return EOF; } if (shf->flags & SHF_READING) { shf->flags &= ~(SHF_EOF | SHF_READING); if (shf->rnleft > 0) { lseek(shf->fd, (off_t) -shf->rnleft, 1); shf->rnleft = 0; shf->rp = shf->buf; } return 0; } else if (shf->flags & SHF_WRITING) return shf_emptybuf(shf, 0); return 0; } /* Write out any buffered data. If currently reading, flushes the read * buffer. Returns 0 for success, EOF for (write) error. */ static int shf_emptybuf(shf, flags) struct shf *shf; int flags; { int ret = 0; if (!(shf->flags & SHF_STRING) && shf->fd < 0) internal_errorf(1, "shf_emptybuf: no fd"); if (shf->flags & SHF_ERROR) { errno = shf->errno_; return EOF; } if (shf->flags & SHF_READING) { if (flags & EB_READSW) /* doesn't happen */ return 0; ret = shf_flush(shf); shf->flags &= ~SHF_READING; } if (shf->flags & SHF_STRING) { unsigned char *nbuf; /* Note that we assume SHF_ALLOCS is not set if SHF_ALLOCB * is set... (changing the shf pointer could cause problems) */ if (!(flags & EB_GROW) || !(shf->flags & SHF_DYNAMIC) || !(shf->flags & SHF_ALLOCB)) return EOF; /* allocate more space for buffer */ nbuf = (unsigned char *) aresize(shf->buf, shf->wbsize * 2, shf->areap); shf->rp = nbuf + (shf->rp - shf->buf); shf->wp = nbuf + (shf->wp - shf->buf); shf->rbsize += shf->wbsize; shf->wbsize += shf->wbsize; shf->wnleft += shf->wbsize; shf->wbsize *= 2; shf->buf = nbuf; } else { if (shf->flags & SHF_WRITING) { int ntowrite = shf->wp - shf->buf; unsigned char *buf = shf->buf; int n; while (ntowrite > 0) { n = write(shf->fd, buf, ntowrite); if (n < 0) { if (errno == EINTR && !(shf->flags & SHF_INTERRUPT)) continue; shf->flags |= SHF_ERROR; shf->errno_ = errno; shf->wnleft = 0; if (buf != shf->buf) { /* allow a second flush * to work */ memmove(shf->buf, buf, ntowrite); shf->wp = shf->buf + ntowrite; } return EOF; } buf += n; ntowrite -= n; } if (flags & EB_READSW) { shf->wp = shf->buf; shf->wnleft = 0; shf->flags &= ~SHF_WRITING; return 0; } } shf->wp = shf->buf; shf->wnleft = shf->wbsize; } shf->flags |= SHF_WRITING; return ret; } /* Fill up a read buffer. Returns EOF for a read error, 0 otherwise. */ static int shf_fillbuf(shf) struct shf *shf; { if (shf->flags & SHF_STRING) return 0; if (shf->fd < 0) internal_errorf(1, "shf_fillbuf: no fd"); if (shf->flags & (SHF_EOF | SHF_ERROR)) { if (shf->flags & SHF_ERROR) errno = shf->errno_; return EOF; } if ((shf->flags & SHF_WRITING) && shf_emptybuf(shf, EB_READSW) == EOF) return EOF; shf->flags |= SHF_READING; shf->rp = shf->buf; while (1) { shf->rnleft = blocking_read(shf->fd, (char *) shf->buf, shf->rbsize); if (shf->rnleft < 0 && errno == EINTR && !(shf->flags & SHF_INTERRUPT)) continue; break; } if (shf->rnleft <= 0) { if (shf->rnleft < 0) { shf->flags |= SHF_ERROR; shf->errno_ = errno; shf->rnleft = 0; shf->rp = shf->buf; return EOF; } shf->flags |= SHF_EOF; } return 0; } /* Seek to a new position in the file. If writing, flushes the buffer * first. If reading, optimizes small relative seeks that stay inside the * buffer. Returns 0 for success, EOF otherwise. */ int shf_seek(shf, where, from) struct shf *shf; off_t where; int from; { if (shf->fd < 0) { errno = EINVAL; return EOF; } if (shf->flags & SHF_ERROR) { errno = shf->errno_; return EOF; } if ((shf->flags & SHF_WRITING) && shf_emptybuf(shf, EB_READSW) == EOF) return EOF; if (shf->flags & SHF_READING) { if (from == SEEK_CUR && (where < 0 ? -where >= shf->rbsize - shf->rnleft : where < shf->rnleft)) { shf->rnleft -= where; shf->rp += where; return 0; } shf->rnleft = 0; shf->rp = shf->buf; } shf->flags &= ~(SHF_EOF | SHF_READING | SHF_WRITING); if (lseek(shf->fd, where, from) < 0) { shf->errno_ = errno; shf->flags |= SHF_ERROR; return EOF; } return 0; } /* Read a buffer from shf. Returns the number of bytes read into buf, * if no bytes were read, returns 0 if end of file was seen, EOF if * a read error occurred. */ int shf_read(buf, bsize, shf) char *buf; int bsize; struct shf *shf; { int orig_bsize = bsize; int ncopy; if (!(shf->flags & SHF_RD)) internal_errorf(1, "shf_read: flags %x", shf->flags); if (bsize <= 0) internal_errorf(1, "shf_read: bsize %d", bsize); while (bsize > 0) { if (shf->rnleft == 0 && (shf_fillbuf(shf) == EOF || shf->rnleft == 0)) break; ncopy = shf->rnleft; if (ncopy > bsize) ncopy = bsize; memcpy(buf, shf->rp, ncopy); buf += ncopy; bsize -= ncopy; shf->rp += ncopy; shf->rnleft -= ncopy; } /* Note: fread(3S) returns 0 for errors - this doesn't */ return orig_bsize == bsize ? (shf_error(shf) ? EOF : 0) : orig_bsize - bsize; } /* Read up to a newline or EOF. The newline is put in buf; buf is always * null terminated. Returns NULL on read error or if nothing was read before * end of file, returns a pointer to the null byte in buf otherwise. */ char * shf_getse(buf, bsize, shf) char *buf; int bsize; struct shf *shf; { unsigned char *end; int ncopy; char *orig_buf = buf; if (!(shf->flags & SHF_RD)) internal_errorf(1, "shf_getse: flags %x", shf->flags); if (bsize <= 0) return (char *) 0; --bsize; /* save room for null */ do { if (shf->rnleft == 0) { if (shf_fillbuf(shf) == EOF) return NULL; if (shf->rnleft == 0) { *buf = '\0'; return buf == orig_buf ? NULL : buf; } } end = (unsigned char *) memchr((char *) shf->rp, '\n', shf->rnleft); ncopy = end ? end - shf->rp + 1 : shf->rnleft; if (ncopy > bsize) ncopy = bsize; memcpy(buf, (char *) shf->rp, ncopy); shf->rp += ncopy; shf->rnleft -= ncopy; buf += ncopy; bsize -= ncopy; } while (!end && bsize); *buf = '\0'; return buf; } /* Returns the char read. Returns EOF for error and end of file. */ int shf_getchar(shf) struct shf *shf; { if (!(shf->flags & SHF_RD)) internal_errorf(1, "shf_getchar: flags %x", shf->flags); if (shf->rnleft == 0 && (shf_fillbuf(shf) == EOF || shf->rnleft == 0)) return EOF; --shf->rnleft; return *shf->rp++; } /* Put a character back in the input stream. Returns the character if * successful, EOF if there is no room. */ int shf_ungetc(c, shf) int c; struct shf *shf; { if (!(shf->flags & SHF_RD)) internal_errorf(1, "shf_ungetc: flags %x", shf->flags); if ((shf->flags & SHF_ERROR) || c == EOF || (shf->rp == shf->buf && shf->rnleft)) return EOF; if ((shf->flags & SHF_WRITING) && shf_emptybuf(shf, EB_READSW) == EOF) return EOF; if (shf->rp == shf->buf) shf->rp = shf->buf + shf->rbsize; if (shf->flags & SHF_STRING) { /* Can unget what was read, but not something different - we * don't want to modify a string. */ if (shf->rp[-1] != c) return EOF; shf->flags &= ~SHF_EOF; shf->rp--; shf->rnleft++; return c; } shf->flags &= ~SHF_EOF; *--(shf->rp) = c; shf->rnleft++; return c; } /* Write a character. Returns the character if successful, EOF if * the char could not be written. */ int shf_putchar(c, shf) int c; struct shf *shf; { if (!(shf->flags & SHF_WR)) internal_errorf(1, "shf_putchar: flags %x", shf->flags); if (c == EOF) return EOF; if (shf->flags & SHF_UNBUF) { char cc = c; int n; if (shf->fd < 0) internal_errorf(1, "shf_putchar: no fd"); if (shf->flags & SHF_ERROR) { errno = shf->errno_; return EOF; } while ((n = write(shf->fd, &cc, 1)) != 1) if (n < 0) { if (errno == EINTR && !(shf->flags & SHF_INTERRUPT)) continue; shf->flags |= SHF_ERROR; shf->errno_ = errno; return EOF; } } else { /* Flush deals with strings and sticky errors */ if (shf->wnleft == 0 && shf_emptybuf(shf, EB_GROW) == EOF) return EOF; shf->wnleft--; *shf->wp++ = c; } return c; } /* Write a string. Returns the length of the string if successful, EOF if * the string could not be written. */ int shf_puts(s, shf) const char *s; struct shf *shf; { if (!s) return EOF; return shf_write(s, strlen(s), shf); } /* Write a buffer. Returns nbytes if successful, EOF if there is an error. */ int shf_write(buf, nbytes, shf) const char *buf; int nbytes; struct shf *shf; { int orig_nbytes = nbytes; int n; int ncopy; if (!(shf->flags & SHF_WR)) internal_errorf(1, "shf_write: flags %x", shf->flags); if (nbytes < 0) internal_errorf(1, "shf_write: nbytes %d", nbytes); if ((ncopy = shf->wnleft)) { if (ncopy > nbytes) ncopy = nbytes; memcpy(shf->wp, buf, ncopy); nbytes -= ncopy; buf += ncopy; shf->wp += ncopy; shf->wnleft -= ncopy; } if (nbytes > 0) { /* Flush deals with strings and sticky errors */ if (shf_emptybuf(shf, EB_GROW) == EOF) return EOF; if (nbytes > shf->wbsize) { ncopy = nbytes; if (shf->wbsize) ncopy -= nbytes % shf->wbsize; nbytes -= ncopy; while (ncopy > 0) { n = write(shf->fd, buf, ncopy); if (n < 0) { if (errno == EINTR && !(shf->flags & SHF_INTERRUPT)) continue; shf->flags |= SHF_ERROR; shf->errno_ = errno; shf->wnleft = 0; /* Note: fwrite(3S) returns 0 for * errors - this doesn't */ return EOF; } buf += n; ncopy -= n; } } if (nbytes > 0) { memcpy(shf->wp, buf, nbytes); shf->wp += nbytes; shf->wnleft -= nbytes; } } return orig_nbytes; } int #ifdef HAVE_PROTOTYPES shf_fprintf(struct shf *shf, const char *fmt, ...) #else shf_fprintf(shf, fmt, va_alist) struct shf *shf; const char *fmt; va_dcl #endif { va_list args; int n; SH_VA_START(args, fmt); n = shf_vfprintf(shf, fmt, args); va_end(args); return n; } int #ifdef HAVE_PROTOTYPES shf_snprintf(char *buf, int bsize, const char *fmt, ...) #else shf_snprintf(buf, bsize, fmt, va_alist) char *buf; int bsize; const char *fmt; va_dcl #endif { struct shf shf; va_list args; int n; if (!buf || bsize <= 0) internal_errorf(1, "shf_snprintf: buf %lx, bsize %d", (long) buf, bsize); shf_sopen(buf, bsize, SHF_WR, &shf); SH_VA_START(args, fmt); n = shf_vfprintf(&shf, fmt, args); va_end(args); shf_sclose(&shf); /* null terminates */ return n; } char * #ifdef HAVE_PROTOTYPES shf_smprintf(const char *fmt, ...) #else shf_smprintf(fmt, va_alist) char *fmt; va_dcl #endif { struct shf shf; va_list args; shf_sopen((char *) 0, 0, SHF_WR|SHF_DYNAMIC, &shf); SH_VA_START(args, fmt); shf_vfprintf(&shf, fmt, args); va_end(args); return shf_sclose(&shf); /* null terminates */ } #undef FP /* if you want floating point stuff */ #define BUF_SIZE 128 #define FPBUF_SIZE (DMAXEXP+16)/* this must be > * MAX(DMAXEXP, log10(pow(2, DSIGNIF))) * + ceil(log10(DMAXEXP)) + 8 (I think). * Since this is hard to express as a * constant, just use a large buffer. */ /* * What kinda of machine we on? Hopefully the C compiler will optimize * this out... * * For shorts, we want sign extend for %d but not for %[oxu] - on 16 bit * machines it don't matter. Assmumes C compiler has converted shorts to * ints before pushing them. */ #define POP_INT(f, s, a) (((f) & FL_LONG) ? \ va_arg((a), unsigned long) \ : \ (sizeof(int) < sizeof(long) ? \ ((s) ? \ (long) va_arg((a), int) \ : \ va_arg((a), unsigned)) \ : \ va_arg((a), unsigned))) #define ABIGNUM 32000 /* big numer that will fit in a short */ #define LOG2_10 3.321928094887362347870319429 /* log base 2 of 10 */ #define FL_HASH 0x001 /* `#' seen */ #define FL_PLUS 0x002 /* `+' seen */ #define FL_RIGHT 0x004 /* `-' seen */ #define FL_BLANK 0x008 /* ` ' seen */ #define FL_SHORT 0x010 /* `h' seen */ #define FL_LONG 0x020 /* `l' seen */ #define FL_ZERO 0x040 /* `0' seen */ #define FL_DOT 0x080 /* '.' seen */ #define FL_UPPER 0x100 /* format character was uppercase */ #define FL_NUMBER 0x200 /* a number was formated %[douxefg] */ #ifdef FP #include static double my_ceil(d) double d; { double i; return d - modf(d, &i) + (d < 0 ? -1 : 1); } #endif /* FP */ int shf_vfprintf(shf, fmt, args) struct shf *shf; const char *fmt; va_list args; { char c, *s; int UNINITIALIZED(tmp); int field, precision; int len; int flags; unsigned long lnum; /* %#o produces the longest output */ char numbuf[(BITS(long) + 2) / 3 + 1]; /* this stuff for dealing with the buffer */ int nwritten = 0; #ifdef FP /* should be in * extern double frexp(); */ extern char *ecvt(); double fpnum; int expo, decpt; char style; char fpbuf[FPBUF_SIZE]; #endif /* FP */ if (!fmt) return 0; while ((c = *fmt++)) { if (c != '%') { shf_putc(c, shf); nwritten++; continue; } /* * This will accept flags/fields in any order - not * just the order specified in printf(3), but this is * the way _doprnt() seems to work (on bsd and sysV). * The only resriction is that the format character must * come last :-). */ flags = field = precision = 0; for ( ; (c = *fmt++) ; ) { switch (c) { case '#': flags |= FL_HASH; continue; case '+': flags |= FL_PLUS; continue; case '-': flags |= FL_RIGHT; continue; case ' ': flags |= FL_BLANK; continue; case '0': if (!(flags & FL_DOT)) flags |= FL_ZERO; continue; case '.': flags |= FL_DOT; precision = 0; continue; case '*': tmp = va_arg(args, int); if (flags & FL_DOT) precision = tmp; else if ((field = tmp) < 0) { field = -field; flags |= FL_RIGHT; } continue; case 'l': flags |= FL_LONG; continue; case 'h': flags |= FL_SHORT; continue; } if (digit(c)) { tmp = c - '0'; while (c = *fmt++, digit(c)) tmp = tmp * 10 + c - '0'; --fmt; if (tmp < 0) /* overflow? */ tmp = 0; if (flags & FL_DOT) precision = tmp; else field = tmp; continue; } break; } if (precision < 0) precision = 0; if (!c) /* nasty format */ break; if (c >= 'A' && c <= 'Z') { flags |= FL_UPPER; c = c - 'A' + 'a'; } switch (c) { case 'p': /* pointer */ flags &= ~(FL_LONG | FL_SHORT); if (sizeof(char *) > sizeof(int)) flags |= FL_LONG; /* hope it fits.. */ /* aaahhh... */ case 'd': case 'i': case 'o': case 'u': case 'x': flags |= FL_NUMBER; s = &numbuf[sizeof(numbuf)]; lnum = POP_INT(flags, c == 'd', args); switch (c) { case 'd': case 'i': if (0 > (long) lnum) lnum = - (long) lnum, tmp = 1; else tmp = 0; /* aaahhhh..... */ case 'u': do { *--s = lnum % 10 + '0'; lnum /= 10; } while (lnum); if (c != 'u') { if (tmp) *--s = '-'; else if (flags & FL_PLUS) *--s = '+'; else if (flags & FL_BLANK) *--s = ' '; } break; case 'o': do { *--s = (lnum & 0x7) + '0'; lnum >>= 3; } while (lnum); if ((flags & FL_HASH) && *s != '0') *--s = '0'; break; case 'p': case 'x': { const char *digits = (flags & FL_UPPER) ? "0123456789ABCDEF" : "0123456789abcdef"; do { *--s = digits[lnum & 0xf]; lnum >>= 4; } while (lnum); if (flags & FL_HASH) { *--s = (flags & FL_UPPER) ? 'X' : 'x'; *--s = '0'; } } } len = &numbuf[sizeof(numbuf)] - s; if (flags & FL_DOT) { if (precision > len) { field = precision; flags |= FL_ZERO; } else precision = len; /* no loss */ } break; #ifdef FP case 'e': case 'g': case 'f': { char *p; /* * This could proabably be done better, * but it seems to work. Note that gcvt() * is not used, as you cannot tell it to * not strip the zeros. */ flags |= FL_NUMBER; if (!(flags & FL_DOT)) precision = 6; /* default */ /* * Assumes doubles are pushed on * the stack. If this is not so, then * FL_LONG/FL_SHORT should be checked. */ fpnum = va_arg(args, double); s = fpbuf; style = c; /* * This is the same as * expo = ceil(log10(fpnum)) * but doesn't need -lm. This is an * aproximation as expo is rounded up. */ (void) frexp(fpnum, &expo); expo = my_ceil(expo / LOG2_10); if (expo < 0) expo = 0; p = ecvt(fpnum, precision + 1 + expo, &decpt, &tmp); if (c == 'g') { if (decpt < -4 || decpt > precision) style = 'e'; else style = 'f'; if (decpt > 0 && (precision -= decpt) < 0) precision = 0; } if (tmp) *s++ = '-'; else if (flags & FL_PLUS) *s++ = '+'; else if (flags & FL_BLANK) *s++ = ' '; if (style == 'e') *s++ = *p++; else { if (decpt > 0) { /* Overflow check - should * never have this problem. */ if (decpt > &fpbuf[sizeof(fpbuf)] - s - 8) decpt = &fpbuf[sizeof(fpbuf)] - s - 8; (void) memcpy(s, p, decpt); s += decpt; p += decpt; } else *s++ = '0'; } /* print the fraction? */ if (precision > 0) { *s++ = '.'; /* Overflow check - should * never have this problem. */ if (precision > &fpbuf[sizeof(fpbuf)] - s - 7) precision = &fpbuf[sizeof(fpbuf)] - s - 7; for (tmp = decpt; tmp++ < 0 && precision > 0 ; precision--) *s++ = '0'; tmp = strlen(p); if (precision > tmp) precision = tmp; /* Overflow check - should * never have this problem. */ if (precision > &fpbuf[sizeof(fpbuf)] - s - 7) precision = &fpbuf[sizeof(fpbuf)] - s - 7; (void) memcpy(s, p, precision); s += precision; /* * `g' format strips trailing * zeros after the decimal. */ if (c == 'g' && !(flags & FL_HASH)) { while (*--s == '0') ; if (*s != '.') s++; } } else if (flags & FL_HASH) *s++ = '.'; if (style == 'e') { *s++ = (flags & FL_UPPER) ? 'E' : 'e'; if (--decpt >= 0) *s++ = '+'; else { *s++ = '-'; decpt = -decpt; } p = &numbuf[sizeof(numbuf)]; for (tmp = 0; tmp < 2 || decpt ; tmp++) { *--p = '0' + decpt % 10; decpt /= 10; } tmp = &numbuf[sizeof(numbuf)] - p; (void) memcpy(s, p, tmp); s += tmp; } len = s - fpbuf; s = fpbuf; precision = len; break; } #endif /* FP */ case 's': if (!(s = va_arg(args, char *))) s = "(null %s)"; len = strlen(s); break; case 'c': flags &= ~FL_DOT; numbuf[0] = va_arg(args, int); s = numbuf; len = 1; break; case '%': default: numbuf[0] = c; s = numbuf; len = 1; break; } /* * At this point s should point to a string that is * to be formatted, and len should be the length of the * string. */ if (!(flags & FL_DOT) || len < precision) precision = len; if (field > precision) { field -= precision; if (!(flags & FL_RIGHT)) { field = -field; /* skip past sign or 0x when padding with 0 */ if ((flags & FL_ZERO) && (flags & FL_NUMBER)) { if (*s == '+' || *s == '-' || *s ==' ') { shf_putc(*s, shf); s++; precision--; nwritten++; } else if (*s == '0') { shf_putc(*s, shf); s++; nwritten++; if (--precision > 0 && (*s | 0x20) == 'x') { shf_putc(*s, shf); s++; precision--; nwritten++; } } c = '0'; } else c = flags & FL_ZERO ? '0' : ' '; if (field < 0) { nwritten += -field; for ( ; field < 0 ; field++) shf_putc(c, shf); } } else c = ' '; } else field = 0; if (precision > 0) { nwritten += precision; for ( ; precision-- > 0 ; s++) shf_putc(*s, shf); } if (field > 0) { nwritten += field; for ( ; field > 0 ; --field) shf_putc(c, shf); } } return shf_error(shf) ? EOF : nwritten; }