return _find_current ( tzinfo , target , i , half-1 )
end
end
+
+local function find_current_local ( tzinfo , ts_local )
+ -- Find two best possibilities by searching back and forward a day (assumes transition is never by more than 24 hours)
+ local tz_first = _find_current ( tzinfo , ts_local-86400 , 0 , #tzinfo )
+ local tz_last = _find_current ( tzinfo , ts_local+86400 , 0 , #tzinfo )
+
+ local n_candidates = tz_last - tz_first + 1
+
+ if n_candidates == 1 then
+ return tz_first
+ elseif n_candidates == 2 then
+ local tz_first_ob = tzinfo [ tz_first ]
+ local tz_last_ob = tzinfo [ tz_last ]
+
+ local first_gmtoffset = tz_first_ob.info.gmtoff
+ local last_gmtoffset = tz_last_ob .info.gmtoff
+
+ local t_start = tz_last_ob.transition_time + first_gmtoffset
+ local t_end = tz_last_ob.transition_time + last_gmtoffset
+
+ -- If timestamp is before start or after end
+ if ts_local < t_start then
+ return tz_first
+ elseif ts_local > t_end then
+ return tz_last
+ end
+
+ -- If we get this far, the local time is ambiguous
+ return tz_first , tz_last
+ else
+ error ( "Too many transitions in a 2 day period" )
+ end
+end
+
function tz_info_methods:find_current ( current )
return self [ _find_current ( self , current , 0 , #self ) ].info
end
return utc_ts + self:find_current ( utc_ts ).gmtoff
end
+function tz_info_methods:utctime ( ts_local , is_dst )
+ local tz1 , tz2 = find_current_local ( self , ts_local )
+ tz1 = self [ tz1 ].info
+ if tz2 == nil then
+ return ts_local - tz1.gmtoff
+ else -- Local time is ambiguous
+ tz2 = self [ tz2 ].info
+
+ return ts_local - tz2.gmtoff , ts_local - tz2.gmtoff
+ end
+end
+
return {
tz_info_mt = tz_info_mt ;
}