4.3BSD/usr/contrib/mh/zotnet/tws/dtimep.lex
%e 2000
%p 5000
%n 1000
%a 4000
%START Z
sun (sun(day)?)
mon (mon(day)?)
tue (tue(sday)?)
wed (wed(nesday)?)
thu (thu(rsday)?)
fri (fri(day)?)
sat (sat(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(est)?)
sep (sep(tember)?)
oct (oct(ober)?)
nov (nov(ember)?)
dec (dec(ember)?)
MONTH ({jan}|{feb}|{mar}|{apr}|{may}|{jun}|{jul}|{aug}|{sep}|{oct}|{nov}|{dec})
w ([ \t]*)
W ([ \t]+)
D ([0-9]?[0-9])
d [0-9]
%{
#include "tws.h"
#include <ctype.h>
/*
* 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 */
3, /* 2 - Apr */
5, /* 3 - Jun */
0,
10, /* 5 - Nov */
0,
1, /* 7 - Feb */
11, /* 8 - Dec */
0,
0,
0,
0,
0,
0,
0, /*15 - Jan */
0,
0,
0,
2, /*19 - Mar */
0,
8, /*21 - Sep */
0,
9, /*23 - Oct */
0,
0,
4, /*26 - May */
0,
7 /*28 - Aug */
};
/*
* Same trick for day-of-week using the hash function
* (c1 & 7) + (c2 & 4)
*/
static int day_map[] = {
0,
0,
0,
6, /* 3 - Sat */
4, /* 4 - Thu */
0,
5, /* 6 - Fri */
0, /* 7 - Sun */
2, /* 8 - Tue */
1 /* 9 - Mon */,
0,
3 /*11 - Wed */
};
#define SETDAY tw.tw_wday= day_map[(cp[0] & 7) + (cp[1] & 4)];\
tw.tw_flags |= TW_SEXP;\
cp += 2;
#define SETMONTH tw.tw_mon = month_map[(cp[0] + cp[1]) & 0x1f]; gotdate++;\
cp += 2;\
SKIPD;
#define CVT2 (i=(*cp++ - '0'),isdigit(*cp)? i*10 + (*cp++ - '0') : i)
#define SKIPD while ( !isdigit(*cp++) ) ; --cp;
#define ZONE(x) tw.tw_zone=(x);
#define ZONED(x) tw.tw_zone=(x); tw.tw_flags |= TW_DST;
#define LC(c) (isupper(c) ? tolower(c) : (c))
%}
%%
%{
struct tws *dparsetime (str)
char *str;
{
register int i;
static struct tws tw;
register char *cp;
register int gotdate = 0;
start_cond = 0;
bzero( (char *) &tw, sizeof tw);
while (isspace(*str))
str++;
while ( 1 )
switch (cp = str, *cp? lex_string( &str, start_cond) : 0) {
case -1:
if (!gotdate || tw.tw_year == 0)
return 0;
/* fall through */
case 0:
return &tw;
%}
{DAY}","?{w} SETDAY;
"("{DAY}")"(","?) cp++, SETDAY;
{D}"/"{D}"/"19[0-9][0-9]{w} {
tw.tw_mday = CVT2; cp++;
tw.tw_mon = CVT2 - 1; cp += 3;
tw.tw_year = CVT2;
gotdate++;
}
{D}"/"{D}"/"[0-9][0-9]{w} {
tw.tw_mday = CVT2; cp++;
tw.tw_mon = CVT2 - 1; cp++;
tw.tw_year = CVT2;
gotdate++;
}
{D}[- ]?{MONTH}[- ]?(19)?{D}{w}(at{W})? {
tw.tw_mday = CVT2;
while ( !isalpha(*cp++) )
;
SETMONTH;
for (i = 0; isdigit(*cp); )
i = i*10 + (*cp++ - '0');
tw.tw_year = i % 100;
}
{MONTH}{W}{D}","{W}(19)?{D}{w} {
cp++;
SETMONTH;
tw.tw_mday = CVT2;
SKIPD;
for (i = 0; isdigit(*cp); )
i = i*10 + (*cp++ - '0');
tw.tw_year = i % 100;
}
{MONTH}{W}{D}{w} {
cp++;
SETMONTH;
tw.tw_mday = CVT2;
}
{D}:{D}:{D}{w} {
tw.tw_hour = CVT2; cp++;
tw.tw_min = CVT2; cp++;
tw.tw_sec = CVT2;
BEGIN Z;
}
{D}:{D}{w} |
{D}:{D}{w}am{w} {
tw.tw_hour = CVT2; cp++;
tw.tw_min = CVT2;
BEGIN Z;
}
{D}:{D}{w}pm{w} {
tw.tw_hour = CVT2 + 12; cp++;
tw.tw_min = CVT2;
BEGIN Z;
}
[0-2]{d}{d}{d}{d}{d}{w} {
tw.tw_hour = CVT2;
tw.tw_min = CVT2;
tw.tw_sec = CVT2;
BEGIN Z;
}
[0-2]{d}{d}{d}{w} {
tw.tw_hour = CVT2;
tw.tw_min = CVT2;
BEGIN Z;
}
<Z>"-"?ut ZONE(0 * 60);
<Z>"-"?gmt ZONE(0 * 60);
<Z>"-"?jst ZONE(2 * 60);
<Z>"-"?jdt ZONED(2 * 60);
<Z>"-"?est ZONE(-5 * 60);
<Z>"-"?edt ZONED(-5 * 60);
<Z>"-"?cst ZONE(-6 * 60);
<Z>"-"?cdt ZONED(-6 * 60);
<Z>"-"?mst ZONE(-7 * 60);
<Z>"-"?mdt ZONED(-7 * 60);
<Z>"-"?pst ZONE(-8 * 60);
<Z>"-"?pdt ZONED(-8 * 60);
<Z>"-"?nst ZONE(-(3 * 60 + 30));
<Z>"-"?ast ZONE(-4 * 60);
<Z>"-"?adt ZONED(-4 * 60);
<Z>"-"?yst ZONE(-9 * 60);
<Z>"-"?ydt ZONED(-9 * 60);
<Z>"-"?hst ZONE(-10 * 60);
<Z>"-"?hdt ZONED(-10 * 60);
<Z>"-"?bst ZONED(-1 * 60);
<Z>[a-i] tw.tw_zone = 60 * (('a'-1) - LC(*cp));
<Z>[k-m] tw.tw_zone = 60 * ('a' - LC(*cp));
<Z>[n-y] tw.tw_zone = 60 * (LC(*cp) - 'm');
<Z>"+"[0-1]{d}{d}{d} {
cp++;
tw.tw_zone = ((cp[0] * 10 + cp[1])
-('0' * 10 + '0'))*60
+((cp[2] * 10 + cp[3])
-('0' * 10 + '0'));
cp += 4;
}
<Z>"-"[0-1]{d}{d}{d} {
cp++;
tw.tw_zone = (('0' * 10 + '0')
-(cp[0] * 10 + cp[1]))*60
+(('0' * 10 + '0')
-(cp[2] * 10 + cp[3]));
cp += 4;
}
<Z>{W}19[6-9]{d} {
while( !isdigit(*cp++) )
;
cp++;
tw.tw_year = CVT2;
}
\n |
{W} ;
%%