ref: af23bb343a067d5346696b788f4cce5b744cd51d
dir: /sys/src/cmd/awk/lib.c/
/**************************************************************** Copyright (C) Lucent Technologies 1997 All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that the copyright notice and this permission notice and warranty disclaimer appear in supporting documentation, and that the name Lucent Technologies or any of its entities not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ****************************************************************/ #include <u.h> #include <libc.h> #include <ctype.h> #include <bio.h> #include "awk.h" #include "y.tab.h" Biobuf *infile; char *file = ""; char *record; int recsize = RECSIZE; char *fields; int fieldssize = RECSIZE; Cell **fldtab; /* pointers to Cells */ char inputFS[100] = " "; #define MAXFLD 200 int nfields = MAXFLD; /* last allocated slot for $i */ int donefld; /* 1 = implies rec broken into fields */ int donerec; /* 1 = record is valid (no flds have changed) */ int lastfld = 0; /* last used field */ int argno = 1; /* current input argument number */ extern Awkfloat *AARGC; static Cell dollar0 = { OCELL, CFLD, nil, "", 0.0, REC|STR|DONTFREE }; static Cell dollar1 = { OCELL, CFLD, nil, "", 0.0, FLD|STR|DONTFREE }; void recinit(unsigned int n) { record = (char *) malloc(n); fields = (char *) malloc(n); fldtab = (Cell **) malloc((nfields+1) * sizeof(Cell *)); if (record == nil || fields == nil || fldtab == nil) FATAL("out of space for $0 and fields"); fldtab[0] = (Cell *) malloc(sizeof (Cell)); *fldtab[0] = dollar0; fldtab[0]->sval = record; fldtab[0]->nval = tostring("0"); makefields(1, nfields); } void makefields(int n1, int n2) /* create $n1..$n2 inclusive */ { char temp[50]; int i; for (i = n1; i <= n2; i++) { fldtab[i] = (Cell *) malloc(sizeof (struct Cell)); if (fldtab[i] == nil) FATAL("out of space in makefields %d", i); *fldtab[i] = dollar1; sprint(temp, "%d", i); fldtab[i]->nval = tostring(temp); } } void initgetrec(void) { int i; char *p; for (i = 1; i < *AARGC; i++) { if (!isclvar(p = getargv(i))) { /* find 1st real filename */ setsval(lookup("FILENAME", symtab), p); return; } setclvar(p); /* a commandline assignment before filename */ argno++; } infile = &stdin; /* no filenames, so use &stdin */ } int getrec(char **pbuf, int *pbufsize, int isrecord) /* get next input record */ { /* note: cares whether buf == record */ int c; static int firsttime = 1; char *buf = *pbuf; int bufsize = *pbufsize; if (firsttime) { firsttime = 0; initgetrec(); } dprint( ("RS=<%s>, FS=<%s>, AARGC=%g, FILENAME=%s\n", *RS, *FS, *AARGC, *FILENAME) ); if (isrecord) { donefld = 0; donerec = 1; } buf[0] = 0; while (argno < *AARGC || infile == &stdin) { dprint( ("argno=%d, file=|%s|\n", argno, file) ); if (infile == nil) { /* have to open a new file */ file = getargv(argno); if (*file == '\0') { /* it's been zapped */ argno++; continue; } if (isclvar(file)) { /* a var=value arg */ setclvar(file); argno++; continue; } *FILENAME = file; dprint( ("opening file %s\n", file) ); if (*file == '-' && *(file+1) == '\0') infile = &stdin; else if ((infile = Bopen(file, OREAD)) == nil) FATAL("can't open file %s", file); setfval(fnrloc, 0.0); } c = readrec(&buf, &bufsize, infile); if (c != 0 || buf[0] != '\0') { /* normal record */ if (isrecord) { if (freeable(fldtab[0])) xfree(fldtab[0]->sval); fldtab[0]->sval = buf; /* buf == record */ fldtab[0]->tval = REC | STR | DONTFREE; if (is_number(fldtab[0]->sval)) { fldtab[0]->fval = atof(fldtab[0]->sval); fldtab[0]->tval |= NUM; } } setfval(nrloc, nrloc->fval+1); setfval(fnrloc, fnrloc->fval+1); *pbuf = buf; *pbufsize = bufsize; return 1; } /* Beof arrived on this file; set up next */ nextfile(); } *pbuf = buf; *pbufsize = bufsize; return 0; /* true end of file */ } void nextfile(void) { if (infile != nil && infile != &stdin) Bterm(infile); infile = nil; argno++; } int readrec(char **pbuf, int *pbufsize, Biobuf *inf) /* read one record into buf */ { int sep, c; char *rr, *buf = *pbuf; int bufsize = *pbufsize; if (strlen(*FS) >= sizeof(inputFS)) FATAL("field separator %.10s... is too long", *FS); strcpy(inputFS, *FS); /* for subsequent field splitting */ if ((sep = **RS) == 0) { sep = '\n'; while ((c=Bgetc(inf)) == '\n' && c != Beof) /* skip leading \n's */ ; if (c != Beof) Bungetc(inf); } for (rr = buf; ; ) { for (; (c=Bgetc(inf)) != sep && c != Beof; ) { if (rr-buf+1 > bufsize) if (!adjbuf(&buf, &bufsize, 1+rr-buf, recsize, &rr, "readrec 1")) FATAL("input record `%.30s...' too long", buf); *rr++ = c; } if (**RS == sep || c == Beof) break; if ((c = Bgetc(inf)) == '\n' || c == Beof) /* 2 in a row */ break; if (!adjbuf(&buf, &bufsize, 2+rr-buf, recsize, &rr, "readrec 2")) FATAL("input record `%.30s...' too long", buf); *rr++ = '\n'; *rr++ = c; } if (!adjbuf(&buf, &bufsize, 1+rr-buf, recsize, &rr, "readrec 3")) FATAL("input record `%.30s...' too long", buf); *rr = 0; dprint( ("readrec saw <%s>, returns %d\n", buf, c == Beof && rr == buf ? 0 : 1) ); *pbuf = buf; *pbufsize = bufsize; return c == Beof && rr == buf ? 0 : 1; } char *getargv(int n) /* get ARGV[n] */ { Cell *x; char *s, temp[50]; extern Array *ARGVtab; sprint(temp, "%d", n); x = setsymtab(temp, "", 0.0, STR, ARGVtab); s = getsval(x); dprint( ("getargv(%d) returns |%s|\n", n, s) ); return s; } void setclvar(char *s) /* set var=value from s */ { char *p; Cell *q; for (p=s; *p != '='; p++) ; *p++ = 0; p = qstring(p, '\0'); q = setsymtab(s, p, 0.0, STR, symtab); setsval(q, p); if (is_number(q->sval)) { q->fval = atof(q->sval); q->tval |= NUM; } dprint( ("command line set %s to |%s|\n", s, p) ); } void fldbld(void) /* create fields from current record */ { /* this relies on having fields[] the same length as $0 */ /* the fields are all stored in this one array with \0's */ char *r, *fr, sep; Cell *p; int i, j, n; if (donefld) return; if (!isstr(fldtab[0])) getsval(fldtab[0]); r = fldtab[0]->sval; n = strlen(r); if (n > fieldssize) { xfree(fields); if ((fields = (char *) malloc(n+1)) == nil) FATAL("out of space for fields in fldbld %d", n); fieldssize = n; } fr = fields; i = 0; /* number of fields accumulated here */ if (strlen(inputFS) > 1) { /* it's a regular expression */ i = refldbld(r, inputFS); } else if (*inputFS == ' ') { /* default whitespace */ for (i = 0; ; ) { while (*r == ' ' || *r == '\t' || *r == '\n') r++; if (*r == 0) break; i++; if (i > nfields) growfldtab(i); if (freeable(fldtab[i])) xfree(fldtab[i]->sval); fldtab[i]->sval = fr; fldtab[i]->tval = FLD | STR | DONTFREE; do *fr++ = *r++; while (*r != ' ' && *r != '\t' && *r != '\n' && *r != '\0'); *fr++ = 0; } *fr = 0; } else if ((sep = *inputFS) == 0) { /* new: FS="" => 1 char/field */ for (i = 0; *r != 0; r++) { char buf[2]; i++; if (i > nfields) growfldtab(i); if (freeable(fldtab[i])) xfree(fldtab[i]->sval); buf[0] = *r; buf[1] = 0; fldtab[i]->sval = tostring(buf); fldtab[i]->tval = FLD | STR; } *fr = 0; } else if (*r != 0) { /* if 0, it's a null field */ for (;;) { i++; if (i > nfields) growfldtab(i); if (freeable(fldtab[i])) xfree(fldtab[i]->sval); fldtab[i]->sval = fr; fldtab[i]->tval = FLD | STR | DONTFREE; while (*r != sep && *r != '\n' && *r != '\0') /* \n is always a separator */ *fr++ = *r++; *fr++ = 0; if (*r++ == 0) break; } *fr = 0; } if (i > nfields) FATAL("record `%.30s...' has too many fields; can't happen", r); cleanfld(i+1, lastfld); /* clean out junk from previous record */ lastfld = i; donefld = 1; for (j = 1; j <= lastfld; j++) { p = fldtab[j]; if(is_number(p->sval)) { p->fval = atof(p->sval); p->tval |= NUM; } } setfval(nfloc, (Awkfloat) lastfld); if (dbg) { for (j = 0; j <= lastfld; j++) { p = fldtab[j]; print("field %d (%s): |%s|\n", j, p->nval, p->sval); } } } void cleanfld(int n1, int n2) /* clean out fields n1 .. n2 inclusive */ { /* nvals remain intact */ Cell *p; int i; for (i = n1; i <= n2; i++) { p = fldtab[i]; if (freeable(p)) xfree(p->sval); p->sval = ""; p->tval = FLD | STR | DONTFREE; } } void newfld(int n) /* add field n after end of existing lastfld */ { if (n > nfields) growfldtab(n); cleanfld(lastfld+1, n); lastfld = n; setfval(nfloc, (Awkfloat) n); } Cell *fieldadr(int n) /* get nth field */ { if (n < 0) FATAL("trying to access field %d", n); if (n > nfields) /* fields after NF are empty */ growfldtab(n); /* but does not increase NF */ return(fldtab[n]); } void growfldtab(int n) /* make new fields up to at least $n */ { int nf = 2 * nfields; if (n > nf) nf = n; fldtab = (Cell **) realloc(fldtab, (nf+1) * (sizeof (struct Cell *))); if (fldtab == nil) FATAL("out of space creating %d fields", nf); makefields(nfields+1, nf); nfields = nf; } int refldbld(char *rec, char *fs) /* build fields from reg expr in FS */ { /* this relies on having fields[] the same length as $0 */ /* the fields are all stored in this one array with \0's */ char *fr; void *p; int i, n; n = strlen(rec); if (n > fieldssize) { xfree(fields); if ((fields = (char *) malloc(n+1)) == nil) FATAL("out of space for fields in refldbld %d", n); fieldssize = n; } fr = fields; *fr = '\0'; if (*rec == '\0') return 0; p = compre(fs); dprint( ("into refldbld, rec = <%s>, pat = <%s>\n", rec, fs) ); for (i = 1; ; i++) { if (i > nfields) growfldtab(i); if (freeable(fldtab[i])) xfree(fldtab[i]->sval); fldtab[i]->tval = FLD | STR | DONTFREE; fldtab[i]->sval = fr; dprint( ("refldbld: i=%d\n", i) ); if (nematch(p, rec, rec)) { dprint( ("match %s (%d chars)\n", patbeg, patlen) ); strncpy(fr, rec, patbeg-rec); fr += patbeg - rec + 1; *(fr-1) = '\0'; rec = patbeg + patlen; } else { dprint( ("no match %s\n", rec) ); strcpy(fr, rec); break; } } return i; } void recbld(void) /* create $0 from $1..$NF if necessary */ { int i; char *r, *p; if (donerec == 1) return; r = record; for (i = 1; i <= *NF; i++) { p = getsval(fldtab[i]); if (!adjbuf(&record, &recsize, 1+strlen(p)+r-record, recsize, &r, "recbld 1")) FATAL("created $0 `%.30s...' too long", record); while ((*r = *p++) != 0) r++; if (i < *NF) { if (!adjbuf(&record, &recsize, 2+strlen(*OFS)+r-record, recsize, &r, "recbld 2")) FATAL("created $0 `%.30s...' too long", record); for (p = *OFS; (*r = *p++) != 0; ) r++; } } if (!adjbuf(&record, &recsize, 2+r-record, recsize, &r, "recbld 3")) FATAL("built giant record `%.30s...'", record); *r = '\0'; dprint( ("in recbld inputFS=%s, fldtab[0]=%p\n", inputFS, fldtab[0]) ); if (freeable(fldtab[0])) xfree(fldtab[0]->sval); fldtab[0]->tval = REC | STR | DONTFREE; fldtab[0]->sval = record; dprint( ("in recbld inputFS=%s, fldtab[0]=%p\n", inputFS, fldtab[0]) ); dprint( ("recbld = |%s|\n", record) ); donerec = 1; } char *exitstatus = nil; void yyerror(char *s) { SYNTAX(s); } void SYNTAX(char *fmt, ...) { extern char *cmdname, *curfname; static int been_here = 0; va_list varg; if (been_here++ > 2) return; Bprint(&stderr, "%s: ", cmdname); va_start(varg, fmt); Bvprint(&stderr, fmt, varg); va_end(varg); if(compile_time == 1 && cursource() != nil) Bprint(&stderr, " at %s:%d", cursource(), lineno); else Bprint(&stderr, " at line %d", lineno); if (curfname != nil) Bprint(&stderr, " in function %s", curfname); Bprint(&stderr, "\n"); exitstatus = "syntax error"; eprint(); } int handler(void *, char *err) { Bflush(&stdout); fprint(2, "%s\n", err); return 0; } extern int bracecnt, brackcnt, parencnt; void bracecheck(void) { int c; static int beenhere = 0; if (beenhere++) return; while ((c = input()) != Beof && c != '\0') bclass(c); bcheck2(bracecnt, '{', '}'); bcheck2(brackcnt, '[', ']'); bcheck2(parencnt, '(', ')'); } void bcheck2(int n, int, int c2) { if (n == 1) Bprint(&stderr, "\tmissing %c\n", c2); else if (n > 1) Bprint(&stderr, "\t%d missing %c's\n", n, c2); else if (n == -1) Bprint(&stderr, "\textra %c\n", c2); else if (n < -1) Bprint(&stderr, "\t%d extra %c's\n", -n, c2); } void FATAL(char *fmt, ...) { extern char *cmdname; va_list varg; Bflush(&stdout); Bprint(&stderr, "%s: ", cmdname); va_start(varg, fmt); Bvprint(&stderr, fmt, varg); va_end(varg); error(); if (dbg > 1) /* core dump if serious debugging on */ abort(); exits("FATAL"); } void WARNING(char *fmt, ...) { extern char *cmdname; va_list varg; Bflush(&stdout); Bprint(&stderr, "%s: ", cmdname); va_start(varg, fmt); Bvprint(&stderr, fmt, varg); va_end(varg); error(); } void error() { extern Node *curnode; int line; Bprint(&stderr, "\n"); if (compile_time != 2 && NR && *NR > 0) { if (strcmp(*FILENAME, "-") != 0) Bprint(&stderr, " input record %s:%d", *FILENAME, (int) (*FNR)); else Bprint(&stderr, " input record number %d", (int) (*FNR)); Bprint(&stderr, "\n"); } if (compile_time != 2 && curnode) line = curnode->lineno; else if (compile_time != 2 && lineno) line = lineno; else line = -1; if (compile_time == 1 && cursource() != nil){ if(line >= 0) Bprint(&stderr, " source %s:%d", cursource(), line); else Bprint(&stderr, " source file %s", cursource()); }else if(line >= 0) Bprint(&stderr, " source line %d", line); Bprint(&stderr, "\n"); eprint(); } void eprint(void) /* try to print context around error */ { char *p, *q; int c; static int been_here = 0; extern char ebuf[], *ep; if (compile_time == 2 || compile_time == 0 || been_here++ > 0) return; p = ep - 1; if (p > ebuf && *p == '\n') p--; for ( ; p > ebuf && *p != '\n' && *p != '\0'; p--) ; while (*p == '\n') p++; Bprint(&stderr, " context is\n\t"); for (q=ep-1; q>=p && *q!=' ' && *q!='\t' && *q!='\n'; q--) ; for ( ; p < q; p++) if (*p) Bputc(&stderr, *p); Bprint(&stderr, " >>> "); for ( ; p < ep; p++) if (*p) Bputc(&stderr, *p); Bprint(&stderr, " <<< "); if (*ep) while ((c = input()) != '\n' && c != '\0' && c != Beof) { Bputc(&stderr, c); bclass(c); } Bputc(&stderr, '\n'); ep = ebuf; } void bclass(int c) { switch (c) { case '{': bracecnt++; break; case '}': bracecnt--; break; case '[': brackcnt++; break; case ']': brackcnt--; break; case '(': parencnt++; break; case ')': parencnt--; break; } } double errcheck(double x, char *s) { if (isNaN(x)) { WARNING("%s argument out of domain", s); x = 1; } else if (isInf(x, 1) || isInf(x, -1)) { WARNING("%s result out of range", s); x = 1; } return x; } int isclvar(char *s) /* is s of form var=something ? */ { char *os = s; if (!isalpha(*s) && *s != '_') return 0; for ( ; *s; s++) if (!(isalnum(*s) || *s == '_')) break; return *s == '=' && s > os && *(s+1) != '='; } /* strtod is supposed to be a proper test of what's a valid number */ int is_number(char *s) { double r; char *ep; /* * fast could-it-be-a-number check before calling strtod, * which takes a surprisingly long time to reject non-numbers. */ switch (*s) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': case '\t': case '\n': case '\v': case '\f': case '\r': case ' ': case '-': case '+': case '.': case 'n': /* nans */ case 'N': case 'i': /* infs */ case 'I': break; default: return 0; /* can't be a number */ } r = strtod(s, &ep); if (ep == s || isInf(r, 1) || isInf(r, -1) || isNaN(r)) return 0; while (*ep == ' ' || *ep == '\t' || *ep == '\n') ep++; if (*ep == '\0') return 1; else return 0; }