-%option noyywrap
+/*
+** dtimep.lex exceeds the default table capacities for some old versions
+** of lex (and the minimum defaults as specified by POSIX). The following
+** choices meet or exceed the lex defaults for older SunOS4.x, Solaris,
+** HPUX, and AIX.
+*/
+%e4000
+%p7000
+%n2500
+%a5000
%{
-#include <h/nmh.h>
+#include <time.h>
+#include <ctype.h>
#include <h/tws.h>
-#define YY_NO_UNPUT
-#define YY_DECL struct tws * dparsetime(char *lexstr)
+/*
+** Since we're looking at a string at a time, don't worry about
+** wrapping to the next buffer.
+*/
+#define yywrap() 1
+#define YY_SKIP_YYWRAP
+
+#define YY_NO_INPUT
+
+/*
+** This is the tricky thing that makes this function cool. We
+** replace the traditional int yylex(void) declaration with our
+** dparsetime() declaration, essentially piggy-backing off the
+** utility of the yylex() function and adding what we need to make
+** the parsing function useful to us.
+*/
+#define YY_DECL struct tws *dparsetime(char *lexstr)
+
+/*
+** yyerminate() is called after the input string is matched to
+** completion (actually, when the lexer reaches an EOF). The only
+** thing that really needs to be in this macro function is the
+** return call, which must be substituted inline into dparsetime.
+*/
#define yyterminate() (void)yy_delete_buffer(lexhandle); \
- if(!(tw.tw_flags & TW_SUCC)) { \
- return (struct tws *)NULL; \
- } \
- if(tw.tw_year < 1960) \
- tw.tw_year += 1900; \
- if(tw.tw_year < 1960) \
- tw.tw_year += 100; \
- return(&tw)
+ if(!(tw.tw_flags & TW_SUCC)) { \
+ return (struct tws *)NULL; \
+ } \
+ if(tw.tw_year < 1970) \
+ tw.tw_year += 1900; \
+ if(tw.tw_year < 1970) \
+ tw.tw_year += 100; \
+ return(&tw)
/*
- * Patchable flag that says how to interpret NN/NN/NN dates. When
- * true, we do it European style: DD/MM/YY. When false, we do it
- * American style: MM/DD/YY. Of course, these are all non-RFC822
- * compliant.
- */
+** Patchable flag that says how to interpret NN/NN/NN dates. When
+** true, we do it European style: DD/MM/YY. When false, we do it
+** American style: MM/DD/YY. Of course, these are all non-RFC822
+** compliant.
+*/
int europeandate = 0;
/*
- * Table to convert month names to numeric month. We use the
- * fact that the low order 5 bits of the sum of the 2nd & 3rd
- * characters of the name is a hash with no collisions for the 12
- * valid month names. (The mask to 5 bits maps any combination of
- * upper and lower case into the same hash value).
- */
+** Table to convert month names to numeric month. We use the
+** fact that the low order 5 bits of the sum of the 2nd & 3rd
+** characters of the name is a hash with no collisions for the 12
+** valid month names. (The mask to 5 bits maps any combination of
+** upper and lower case into the same hash value).
+*/
static int month_map[] = {
0,
6, /* 1 - Jul */
};
/*
- * Same trick for day-of-week using the hash function
- * (c1 & 7) + (c2 & 4)
- */
+** Lookup table for day-of-week using the same hash trick as for above
+** name-of-month table, but using the first and second character, not
+** second and third.
+**
+** Compute index into table using: (day_name[0] & 7) + (day_name[1] & 4)
+*/
static int day_map[] = {
0,
0,
3 /*11 - Wed */
};
-#define INIT() { cp = yytext;}
-#define SETWDAY() { cp++; \
- tw.tw_wday= day_map[(cp[0] & 7) + (cp[1] & 4)]; \
- tw.tw_flags &= ~TW_SDAY; tw.tw_flags |= TW_SEXP; \
- SKIPA(); }
-#define SETMON() { cp++; \
- tw.tw_mon = month_map[(cp[0] + cp[1]) & 0x1f]; \
- SKIPA(); }
-#define SETMON_NUM() { tw.tw_mon = atoi(cp)-1; \
- SKIPD(); }
-#define SETYEAR() { tw.tw_year = atoi(cp); \
- SKIPD(); }
-#define SETDAY() { tw.tw_mday = atoi(cp); \
- tw.tw_flags |= TW_YES; \
- SKIPD(); }
-#define SETTIME() { tw.tw_hour = atoi(cp); \
- cp += 2; \
- SKIPTOD(); \
- tw.tw_min = atoi(cp); \
- cp += 2; \
- if(*cp == ':') { tw.tw_sec = atoi(++cp); SKIPD(); } \
- }
-#define SETZONE(x) { tw.tw_zone = ((x)/100)*60+(x)%100; \
- tw.tw_flags |= TW_SZEXP; \
- SKIPD(); }
-#define SETDST() { tw.tw_flags |= TW_DST; }
-#define SKIPD() { while ( isdigit(*cp++) ) ; \
- --cp; }
-#define SKIPTOD() { while ( !isdigit(*cp++) ) ; \
- --cp; }
-#define SKIPA() { while ( isalpha(*cp++) ) ; \
- --cp; }
-#define SKIPTOA() { while ( !isalpha(*cp++) ) ; \
- --cp; }
-#define SKIPSP() { while ( isspace(*cp++) ) ; \
- --cp; }
-#define SKIPTOSP() { while ( !isspace(*cp++) ) ; \
- --cp; }
+/*
+** The SET* macros will parse for the appropriate field, and leave the
+** cp pointer at the first character after the desired field. Be
+** careful with variable-length fields or alpha-num mixes.
+**
+** The SKIP* macros skip over characters of a particular class and
+** leave cp at the position of the first character that doesn't match
+** that class. Correspondingly, SKIPTO* skips until it reaches a
+** character of a particular class.
+*/
+
+#define INIT() { cp = yytext;}
+#define SETWDAY() { tw.tw_wday= day_map[(cp[0] & 7) + (cp[1] & 4)]; \
+ tw.tw_flags &= ~TW_SDAY; tw.tw_flags |= TW_SEXP; SKIPA(); }
+#define SETMON() { cp++; tw.tw_mon = month_map[(cp[0] + cp[1]) & 0x1f]; \
+ SKIPA(); }
+#define SETMON_NUM() { tw.tw_mon = atoi(cp)-1; SKIPD(); }
+#define SETYEAR() { tw.tw_year = atoi(cp); SKIPD(); }
+#define SETDAY() { tw.tw_mday = atoi(cp); tw.tw_flags |= TW_YES; SKIPD(); }
+#define SETTIME() { tw.tw_hour = atoi(cp); cp += 2; SKIPTOD(); \
+ tw.tw_min = atoi(cp); cp += 2; if(*cp == ':') { \
+ tw.tw_sec = atoi(++cp); SKIPD(); } }
+#define SETZONE(x) { tw.tw_zone = ((x)/100)*60+(x)%100; \
+ tw.tw_flags |= TW_SZEXP; SKIPD(); }
+#define SETDST() { tw.tw_flags |= TW_DST; }
+#define SKIPD() { while ( isdigit(*cp++) ) ; --cp; }
+#define SKIPTOD() { while ( !isdigit(*cp++) ) ; --cp; }
+#define SKIPA() { while ( isalpha(*cp++) ) ; --cp; }
+#define SKIPTOA() { while ( !isalpha(*cp++) ) ; --cp; }
+#define SKIPSP() { while ( isspace(*cp++) ) ; --cp; }
+#define SKIPTOSP() { while ( !isspace(*cp++) ) ; --cp; }
+
+#ifdef ADJUST_NUMERIC_ONLY_TZ_OFFSETS_WRT_DST
+# ifdef HAVE_SYS_TIME_H
+# include <sys/time.h>
+# endif
+#include <time.h>
+
+static void
+zonehack (struct tws *tw)
+{
+ register struct tm *tm;
+
+ if (dmktime (tw) == (time_t) -1)
+ return;
+
+ tm = localtime (&tw->tw_clock);
+ if (tm->tm_isdst) {
+ tw->tw_flags |= TW_DST;
+ tw->tw_zone -= 60;
+ }
+}
+#endif /* ADJUST_NUMERIC_ONLY_TZ_OFFSETS_WRT_DST */
%}
-sun (sun(day)?)
-mon (mon(day)?)
-tue (tue(sday)?)
-wed (wed(nesday)?)
-thu (thu(rsday)?)
-fri (fri(day)?)
-sat (sat(urday)?)
+sun ([Ss]un(day)?)
+mon ([Mm]on(day)?)
+tue ([Tt]ue(sday)?)
+wed ([Ww]ed(nesday)?)
+thu ([Tt]hu(rsday)?)
+fri ([Ff]ri(day)?)
+sat ([Ss]at(urday)?)
DAY ({sun}|{mon}|{tue}|{wed}|{thu}|{fri}|{sat})
-jan (jan(uary)?)
-feb (feb(ruary)?)
-mar (mar(ch)?)
-apr (apr(il)?)
-may (may)
-jun (jun(e)?)
-jul (jul(y)?)
-aug (aug(ust)?)
-sep (sep(tember)?)
-oct (oct(ober)?)
-nov (nov(ember)?)
-dec (dec(ember)?)
+jan ([Jj]an(uary)?)
+feb ([Ff]eb(ruary)?)
+mar ([Mm]ar(ch)?)
+apr ([Aa]pr(il)?)
+may ([Mm]ay)
+jun ([Jj]un(e)?)
+jul ([Jj]ul(y)?)
+aug ([Aa]ug(ust)?)
+sep ([Ss]ep(tember)?)
+oct ([Oo]ct(ober)?)
+nov ([Nn]ov(ember)?)
+dec ([Dd]ec(ember)?)
MONTH ({jan}|{feb}|{mar}|{apr}|{may}|{jun}|{jul}|{aug}|{sep}|{oct}|{nov}|{dec})
-TIME ({D}:{d}{d}(:{d}{d})?)
+TIME ({D}:{d}{d}(:{d}{d})?)
+
+/*
+** The year can either be 2 digits, or 4. However, after
+** Y2K, we found that some MUA were reporting the year 100, hence
+** the middle term here. yyterminate() resolves the actual
+** issues with 2-digit years.
+*/
-YEAR (({d}{d})|(1{d}{d})|({d}{4}))
+YEAR (({d}{d})|(1{d}{d})|({d}{4}))
w ([ \t]*)
W ([ \t]+)
D ([0-9]?[0-9])
d [0-9]
+nl [ \t\n()]
%%
%{
-
- YY_BUFFER_STATE lexhandle;
+ /*
+ ** This section begins the definition of dparsetime().
+ ** Put here any local variable definitions and initializations
+ */
+ YY_BUFFER_STATE lexhandle;
- register char *cp; /* *cp is internal to the lexing function yylex() */
- static struct tws tw;
+ register unsigned char *cp;
+ static struct tws tw;
- memset(&tw,0,sizeof(struct tws));
- lexhandle = yy_scan_string(lexstr);
+ memset(&tw,0,sizeof(struct tws));
+
+ lexhandle = yy_scan_string(lexstr);
%}
-{DAY}","?{W}{MONTH}{W}{D}{W}{TIME}{W}{YEAR} {
- INIT();
- SETWDAY();
- SKIPTOA();
- SETMON();
- SKIPTOD();
- SETDAY();
- SKIPTOD();
- SETTIME();
- SKIPTOD();
- SETYEAR();
- }
+{DAY}","?{W}{MONTH}{W}{D}{W}{TIME}{W}{YEAR} {
+ INIT();
+ SETWDAY();
+ SKIPTOA();
+ SETMON();
+ SKIPTOD();
+ SETDAY();
+ SKIPTOD();
+ SETTIME();
+ SKIPTOD();
+ SETYEAR();
+}
{DAY}","?{W}{D}{W}{MONTH}{W}{YEAR}{W}{TIME} {
- INIT();
- SETWDAY();
- SKIPTOD();
- SETDAY();
- SKIPTOA();
- SETMON();
- SKIPTOD();
- SETYEAR();
- SKIPTOD();
- SETTIME();
- }
-{D}{W}{MONTH}{W}{YEAR}{W}{TIME} {
- INIT();
- SETDAY();
- SKIPTOA();
- SETMON();
- SKIPTOD();
- SETYEAR();
- SKIPTOD();
- SETTIME();
- }
+ INIT();
+ SETWDAY();
+ SKIPTOD();
+ SETDAY();
+ SKIPTOA();
+ SETMON();
+ SKIPTOD();
+ SETYEAR();
+ SKIPTOD();
+ SETTIME();
+}
+{D}{W}{MONTH}{W}{YEAR}{W}{TIME} {
+ INIT();
+ SETDAY();
+ SKIPTOA();
+ SETMON();
+ SKIPTOD();
+ SETYEAR();
+ SKIPTOD();
+ SETTIME();
+}
{DAY}","?{W}{MONTH}{W}{D}","?{W}{YEAR}","?{W}{TIME} {
- INIT();
- SETWDAY();
- SKIPTOA();
- SETMON();
- SKIPTOD();
- SETDAY();
- SKIPTOD();
- SETYEAR();
- SKIPTOD();
- SETTIME();
- }
+ INIT();
+ SETWDAY();
+ SKIPTOA();
+ SETMON();
+ SKIPTOD();
+ SETDAY();
+ SKIPTOD();
+ SETYEAR();
+ SKIPTOD();
+ SETTIME();
+}
{DAY}","?{W}{MONTH}{W}{D}","?{W}{YEAR} {
- INIT();
- SETWDAY();
- SKIPTOA();
- SETMON();
- SKIPTOD();
- SETDAY();
- SKIPTOD();
- SETYEAR();
- }
-{MONTH}{W}{D}","?{W}{YEAR}","?{W}{DAY} {
- INIT();
- SETMON();
- SKIPTOD();
- SETDAY();
- SKIPTOD();
- SETYEAR();
- SKIPTOA();
- SETWDAY();
- }
-{MONTH}{W}{D}","?{W}{YEAR} {
- INIT();
- SETMON();
- SKIPTOD();
- SETDAY();
- SKIPTOD();
- SETYEAR();
- }
-{D}("-"|"/"){D}("-"|"/"){YEAR}{W}{TIME} {
- INIT();
- if(europeandate) {
- /* DD/MM/YY */
- SETDAY();
- SKIPTOD();
- SETMON_NUM();
- } else {
- /* MM/DD/YY */
- SETMON_NUM();
- SKIPTOD();
- SETDAY();
- }
- SKIPTOD();
- SETYEAR();
- SKIPTOD();
- SETTIME();
- }
-{D}("-"|"/"){D}("-"|"/"){YEAR} {
- INIT();
- if(europeandate) {
- /* DD/MM/YY */
- SETDAY();
- SKIPTOD();
- SETMON_NUM();
- } else {
- /* MM/DD/YY */
- SETMON_NUM();
- SKIPTOD();
- SETDAY();
- }
- SKIPTOD();
- SETYEAR();
- }
-
-"[Aa][Mm]"
-"[Pp][Mm]" tw.tw_hour += 12;
-
-"+"{D}{d}{d} {
- INIT();
- SKIPTOD();
- SETZONE(atoi(cp));
- }
-"-"{D}{d}{d} {
- INIT();
- SKIPTOD();
- SETZONE(-atoi(cp));
- }
-"-"?("ut"|"UT") INIT(); SETZONE(0);
-"-"?("gmt"|"GMT") INIT(); SETZONE(0);
-"-"?("jst"|"JST") INIT(); SETZONE(200);
-"-"?("jdt"|"JDT") INIT(); SETDST(); SETZONE(2);
-"-"?("est"|"EST") INIT(); SETZONE(-500);
-"-"?("edt"|"EDT") INIT(); SETDST(); SETZONE(-500);
-"-"?("cst"|"CST") INIT(); SETZONE(-600);
-"-"?("cdt"|"CDT") INIT(); SETDST(); SETZONE(-600);
-"-"?("mst"|"MST") INIT(); SETZONE(-700);
-"-"?("mdt"|"MDT") INIT(); SETDST(); SETZONE(-700);
-"-"?("pst"|"PST") INIT(); SETZONE(-800);
-"-"?("pdt"|"PDT") INIT(); SETDST(); SETZONE(-800);
-"-"?("nst"|"NST") INIT(); SETZONE(-330);
-"-"?("ast"|"AST") INIT(); SETZONE(-400);
-"-"?("adt"|"ADT") INIT(); SETDST(); SETZONE(-400);
-"-"?("yst"|"YST") INIT(); SETZONE(-900);
-"-"?("ydt"|"YDT") INIT(); SETDST(); SETZONE(-900);
-"-"?("hst"|"HST") INIT(); SETZONE(-1000);
-"-"?("hdt"|"HDT") INIT(); SETDST(); SETZONE(-1000);
-"-"?("bst"|"BST") INIT(); SETDST(); SETZONE(-100);
-[a-i] {
- INIT();
- SETZONE(100*(('a'-1) - tolower(*cp)));
- }
-[k-m] {
- INIT();
- SETZONE(100*('a' - tolower(*cp)));
- }
-[n-y] {
- INIT();
- SETZONE(100*(tolower(*cp) - 'm'));
- }
-
-
-\n
-.
+ INIT();
+ SETWDAY();
+ SKIPTOA();
+ SETMON();
+ SKIPTOD();
+ SETDAY();
+ SKIPTOD();
+ SETYEAR();
+}
+{MONTH}{W}{D}","?{W}{YEAR}","?{W}{DAY} {
+ INIT();
+ SETMON();
+ SKIPTOD();
+ SETDAY();
+ SKIPTOD();
+ SETYEAR();
+ SKIPTOA();
+ SETWDAY();
+}
+{MONTH}{W}{D}","?{W}{YEAR} {
+ INIT();
+ SETMON();
+ SKIPTOD();
+ SETDAY();
+ SKIPTOD();
+ SETYEAR();
+}
+{D}("-"|"/"){D}("-"|"/"){YEAR}{W}{TIME} {
+ INIT();
+ if(europeandate) {
+ /* DD/MM/YY */
+ SETDAY();
+ SKIPTOD();
+ SETMON_NUM();
+ } else {
+ /* MM/DD/YY */
+ SETMON_NUM();
+ SKIPTOD();
+ SETDAY();
+ }
+ SKIPTOD();
+ SETYEAR();
+ SKIPTOD();
+ SETTIME();
+}
+{D}("-"|"/"){D}("-"|"/"){YEAR} {
+ INIT();
+ if(europeandate) {
+ /* DD/MM/YY */
+ SETDAY();
+ SKIPTOD();
+ SETMON_NUM();
+ } else {
+ /* MM/DD/YY */
+ SETMON_NUM();
+ SKIPTOD();
+ SETDAY();
+ }
+ SKIPTOD();
+ SETYEAR();
+}
+
+"[Aa][Mm]"
+"[Pp][Mm]" tw.tw_hour += 12;
+"+"{D}{d}{d} {
+ INIT();
+ SKIPTOD();
+ SETZONE(atoi(cp));
+#ifdef ADJUST_NUMERIC_ONLY_TZ_OFFSETS_WRT_DST
+ zonehack (&tw);
+#endif /* ADJUST_NUMERIC_ONLY_TZ_OFFSETS_WRT_DST */
+ yyterminate();
+}
+"-"{D}{d}{d} {
+ INIT();
+ SKIPTOD();
+ SETZONE(-atoi(cp));
+#ifdef ADJUST_NUMERIC_ONLY_TZ_OFFSETS_WRT_DST
+ zonehack (&tw);
+#endif /* ADJUST_NUMERIC_ONLY_TZ_OFFSETS_WRT_DST */
+ yyterminate();
+}
+{nl}("ut"|"UT") INIT(); SETZONE(0); yyterminate();
+{nl}("gmt"|"GMT") INIT(); SETZONE(0); yyterminate();
+{nl}("est"|"EST") INIT(); SETZONE(-500); yyterminate();
+{nl}("edt"|"EDT") { INIT(); SETDST(); SETZONE(-500); yyterminate(); }
+{nl}("cst"|"CST") INIT(); SETZONE(-600); yyterminate();
+{nl}("cdt"|"CDT") { INIT(); SETDST(); SETZONE(-600); yyterminate(); }
+{nl}("mst"|"MST") INIT(); SETZONE(-700); yyterminate();
+{nl}("mdt"|"MDT") { INIT(); SETDST(); SETZONE(-700); yyterminate(); }
+{nl}("pst"|"PST") INIT(); SETZONE(-800); yyterminate();
+{nl}("pdt"|"PDT") { INIT(); SETDST(); SETZONE(-800); yyterminate(); }
+{nl}("nst"|"NST") INIT(); SETZONE(-330); yyterminate();
+{nl}("ast"|"AST") INIT(); SETZONE(-400); yyterminate();
+{nl}("adt"|"ADT") { INIT(); SETDST(); SETZONE(-400); yyterminate(); }
+{nl}("hst"|"HST") INIT(); SETZONE(-1000); yyterminate();
+{nl}("hdt"|"HDT") { INIT(); SETDST(); SETZONE(-1000); yyterminate(); }
+.|\n
+%%
+/*
+** This is a portable way to squash a warning about the yyunput()
+** function being static but never used. It costs us a tiny amount
+** of extra code in the binary but the other options are:
+** "%option nounput" which is flex-specific
+** makefile hackery just to compile dtimep.c with different flags
+*/
+void dtimep_yyunput(int c)
+{
+ unput(c);
+}