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authordkf <donal.k.fellows@manchester.ac.uk>2005-04-11 10:02:00 (GMT)
committerdkf <donal.k.fellows@manchester.ac.uk>2005-04-11 10:02:00 (GMT)
commitb5e4641f4f3a9c8366548fb49dc3178fb5451768 (patch)
tree13fc31025f5b3769c9ffcf9a95251fc630149a6c /tools
parent9c989aeec930a9251ba5eddc6a81898a5c91ee0e (diff)
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Revamp the zone-info compiler to make better use of the facilities available
Diffstat (limited to 'tools')
-rwxr-xr-xtools/tclZIC.tcl532
1 files changed, 231 insertions, 301 deletions
diff --git a/tools/tclZIC.tcl b/tools/tclZIC.tcl
index 524eb74..23e373f 100755
--- a/tools/tclZIC.tcl
+++ b/tools/tclZIC.tcl
@@ -25,14 +25,16 @@
#
#----------------------------------------------------------------------
#
-# Copyright (c) 2004 by Kevin B. Kenny. All rights reserved.
+# Copyright (c) 2004 by Kevin B. Kenny. All rights reserved.
# See the file "license.terms" for information on usage and redistribution
# of this file, and for a DISCLAIMER OF ALL WARRANTIES.
#
-# RCS: @(#) $Id: tclZIC.tcl,v 1.3 2004/11/02 15:16:38 kennykb Exp $
+# RCS: @(#) $Id: tclZIC.tcl,v 1.4 2005/04/11 10:02:12 dkf Exp $
#
#----------------------------------------------------------------------
+package require Tcl 8.5
+
# Define the names of the Olson files that we need to load.
# We avoid the solar time files and the leap seconds.
@@ -52,40 +54,15 @@ set maxyear 2100
# Determine how big a wide integer is.
-set MAXWIDE [expr { wide(1) }]
+set MAXWIDE [expr {wide(1)}]
while 1 {
- set next [expr { $MAXWIDE + $MAXWIDE + 1}]
- if { $next < 0 } {
+ set next [expr {$MAXWIDE + $MAXWIDE + 1}]
+ if {$next < 0} {
break
}
set MAXWIDE $next
}
-set MINWIDE [expr { - $MAXWIDE - 1 }]
-
-#----------------------------------------------------------------------
-#
-# K --
-#
-# The K combinator returns its first argument. It's used for
-# reference count management.
-#
-# Parameters:
-# x - Argument to be unreferenced.
-# y - Unused.
-#
-# Results:
-# Returns the first argument.
-#
-# Side effects:
-# None.
-#
-# The K combinator is used for its effect that [K $x [set x {}]]
-# reads out the value of x destructively, giving an unshared Tcl
-# object and avoiding 'copy on write'
-#
-#----------------------------------------------------------------------
-
-proc K {x y} {return $x}
+set MINWIDE [expr {-$MAXWIDE-1}]
#----------------------------------------------------------------------
#
@@ -105,7 +82,7 @@ proc K {x y} {return $x}
#
#----------------------------------------------------------------------
-proc loadFiles { dir } {
+proc loadFiles {dir} {
variable olsonFiles
foreach file $olsonFiles {
puts "loading: [file join $dir $file]"
@@ -136,9 +113,10 @@ proc loadFiles { dir } {
proc checkForwardRuleRefs {} {
variable forwardRuleRefs
variable rules
- foreach { rule where } [array get forwardRuleRefs] {
- if { ![info exists rules($rule)] } {
- foreach { fileName lno } $where {
+
+ foreach {rule where} [array get forwardRuleRefs] {
+ if {![info exists rules($rule)]} {
+ foreach {fileName lno} $where {
puts stderr "$fileName:$lno:can't locate rule \"$rule\""
incr errorCount
}
@@ -167,8 +145,7 @@ proc checkForwardRuleRefs {} {
#
#----------------------------------------------------------------------
-proc loadZIC { fileName } {
-
+proc loadZIC {fileName} {
variable errorCount
variable links
@@ -186,19 +163,16 @@ proc loadZIC { fileName } {
# Break a line of input into words.
- regsub {[[:space:]]*(\#.*)?$} $line {} line
- if { $line eq {} } {
+ regsub {\s*(\#.*)?$} $line {} line
+ if {$line eq ""} {
continue
}
set words {}
- if { [regexp {^[[:space:]]+(.*)} $line -> l] } {
- lappend words {}
- set line $l
- }
- while {[regexp {^([^[:space:]]+)[[:space:]]*(.*)} $line -> \
- word line]} {
- lappend words $word
+ if {[regexp {^\s} $line]} {
+ # Detect continuations of a zone and flag the list appropriately
+ lappend words ""
}
+ lappend words {expand}[regexp -all -inline {\S+} $line]
# Switch on the directive
@@ -212,12 +186,14 @@ proc loadZIC { fileName } {
Zone {
set lastZone [lindex $words 1]
set until [parseZone $fileName $lno \
- $lastZone [lrange $words 2 end] minimum]
+ $lastZone [lrange $words 2 end] "minimum"]
}
- {} { # Continuation of a Zone
+ {} {
set i 0
foreach word $words {
- if { [lindex $words $i] ne {} } break
+ if {[lindex $words $i] ne ""} {
+ break
+ }
incr i
}
set words [lrange $words $i end]
@@ -231,7 +207,6 @@ proc loadZIC { fileName } {
}
return
-
}
#----------------------------------------------------------------------
@@ -254,50 +229,47 @@ proc loadZIC { fileName } {
#
#----------------------------------------------------------------------
-proc parseRule { fileName lno words } {
-
+proc parseRule {fileName lno words} {
variable rules
variable errorCount
# Break out the columns
- foreach { Rule name from to type in on at save letter } $words {}
+ lassign $words Rule name from to type in on at save letter
# Handle the 'only' keyword
- if { $to eq {only} } {
+ if {$to eq "only"} {
set to $from
}
# Process the start year
- set l [string length $from]
- if { ![string is integer $from] } {
- if { $from ne [string range {minumum} 0 [expr { $l - 1 }]] } {
+ if {![string is integer $from]} {
+ if {![string equal -length [string length $from] $from "minimum"]} {
puts stderr "$fileName:$lno:FROM field \"$from\" not an integer."
incr errorCount
return
} else {
- set from minimum
+ set from "minimum"
}
}
# Process the end year
- set l [string length $to]
- if { ![string is integer $to] } {
- if { $to ne [string range {maximum} 0 [expr { $l - 1 }]] } {
+ if {![string is integer $to]} {
+ if {![string equal -length [string length $to] $to "maximum"]} {
puts stderr "$fileName:$lno:TO field \"$to\" not an integer."
incr errorCount
return
} else {
- set to maximum
+ set to "maximum"
}
}
# Process the type of year in which the rule applies
- if { $type ne {-} } {
+ if {$type ne "-"} {
puts stderr "$fileName:$lno:year types are not yet supported."
incr errorCount
return
@@ -305,7 +277,7 @@ proc parseRule { fileName lno words } {
# Process the month in which the rule starts
- if { [catch {lookupMonth $in} in] } {
+ if {[catch {lookupMonth $in} in]} {
puts stderr "$fileName:$lno:$in"
incr errorCount
return
@@ -313,7 +285,7 @@ proc parseRule { fileName lno words } {
# Process the day of the month on which the rule starts
- if { [catch {parseON $on} on] } {
+ if {[catch {parseON $on} on]} {
puts stderr "$fileName:$lno:$on"
incr errorCount
return
@@ -321,7 +293,7 @@ proc parseRule { fileName lno words } {
# Process the time of day on which the rule starts
- if { [catch {parseTOD $at} at] } {
+ if {[catch {parseTOD $at} at]} {
puts stderr "$fileName:$lno:$at"
incr errorCount
return
@@ -329,16 +301,16 @@ proc parseRule { fileName lno words } {
# Process the DST adder
- if { [catch {parseOffsetTime $save} save] } {
+ if {[catch {parseOffsetTime $save} save]} {
puts stderr "$fileName:$lno:$save"
incr errorCount
return
}
-
+
# Process the letter to use for summer time
- if { $letter eq {-} } {
- set letter {}
+ if {$letter eq "-"} {
+ set letter ""
}
# Accumulate all the data.
@@ -358,7 +330,7 @@ proc parseRule { fileName lno words } {
# on - the ON field from a line in an Olson file.
#
# Results:
-# Returns a partial Tcl command. When the year and number of the
+# Returns a partial Tcl command. When the year and number of the
# month are appended, the command will return the Julian Day Number
# of the desired date.
#
@@ -374,14 +346,14 @@ proc parseRule { fileName lno words } {
# space. This designates the last occurrence of the given weekday
# in the month.
#
-#----------------------------------------------------------------------
+#----------------------------------------------------------------------
-proc parseON { on } {
- if { ! [regexp -expanded {
+proc parseON {on} {
+ if {![regexp -expanded {
^(?:
# first possibility - simple number - field 1
([[:digit:]]+)
- |
+ |
# second possibility - weekday >= (or <=) number
# field 2 - weekday
([[:alpha:]]+)
@@ -389,26 +361,26 @@ proc parseON { on } {
([<>]=)
# field 4 - number
([[:digit:]]+)
- |
+ |
# third possibility - lastWeekday - field 5
last([[:alpha:]]+)
- )$
- } $on -> dom1 wday2 dir2 num2 wday3] } {
+ )$
+ } $on -> dom1 wday2 dir2 num2 wday3]} then {
error "can't parse ON field \"$on\""
}
- if { $dom1 ne {} } {
+ if {$dom1 ne ""} {
return [list onDayOfMonth $dom1]
- } elseif { $wday2 ne {} } {
+ } elseif {$wday2 ne ""} {
set wday2 [lookupDayOfWeek $wday2]
return [list onWeekdayInMonth $wday2 $dir2 $num2]
- } elseif { $wday3 ne {} } {
+ } elseif {$wday3 ne ""} {
set wday3 [lookupDayOfWeek $wday3]
return [list onLastWeekdayInMonth $wday3]
} else {
error "in parseOn \"$on\": can't happen"
}
}
-
+
#----------------------------------------------------------------------
#
# onDayOfMonth --
@@ -428,10 +400,9 @@ proc parseON { on } {
#
#----------------------------------------------------------------------
-proc onDayOfMonth { day year month } {
- set date [dict create era CE year $year month $month dayOfMonth $day]
+proc onDayOfMonth {day year month} {
set date [::tcl::clock::GetJulianDayFromEraYearMonthDay \
- [K $date [set date {}]]]
+ [dict create era CE year $year month $month dayOfMonth $day]]
return [dict get $date julianDay]
}
@@ -462,19 +433,17 @@ proc onDayOfMonth { day year month } {
#
#----------------------------------------------------------------------
-proc onWeekdayInMonth { dayOfWeek relation dayOfMonth year month } {
- set date [dict create \
- era CE year $year month $month dayOfMonth $dayOfMonth]
- set date [::tcl::clock::GetJulianDayFromEraYearMonthDay \
- [K $date [set date {}]]]
+proc onWeekdayInMonth {dayOfWeek relation dayOfMonth year month} {
+ set date [::tcl::clock::GetJulianDayFromEraYearMonthDay [dict create \
+ era CE year $year month $month dayOfMonth $dayOfMonth]]
switch -exact -- $relation {
<= {
return [::tcl::clock::WeekdayOnOrBefore $dayOfWeek \
- [dict get $date julianDay]]
+ [dict get $date julianDay]]
}
>= {
return [::tcl::clock::WeekdayOnOrBefore $dayOfWeek \
- [expr { [dict get $date julianDay] + 6 }]]
+ [expr {[dict get $date julianDay] + 6}]]
}
}
}
@@ -499,18 +468,16 @@ proc onWeekdayInMonth { dayOfWeek relation dayOfMonth year month } {
#
#----------------------------------------------------------------------
-proc onLastWeekdayInMonth { dayOfWeek year month } {
+proc onLastWeekdayInMonth {dayOfWeek year month} {
incr month
# Find day 0 of the following month, which is the last day of
# the current month. Yes, it works to ask for day 0 of month 13!
- set date [dict create \
- era CE year $year month $month dayOfMonth 0]
- set date [::tcl::clock::GetJulianDayFromEraYearMonthDay \
- [K $date [set date {}]]]
+ set date [::tcl::clock::GetJulianDayFromEraYearMonthDay [dict create \
+ era CE year $year month $month dayOfMonth 0]]
return [::tcl::clock::WeekdayOnOrBefore $dayOfWeek \
- [dict get $date julianDay]]
+ [dict get $date julianDay]]
}
-
+
#----------------------------------------------------------------------
#
# parseTOD --
@@ -532,42 +499,38 @@ proc onLastWeekdayInMonth { dayOfWeek year month } {
#
#----------------------------------------------------------------------
-proc parseTOD { tod } {
- if { ![regexp -expanded {
+proc parseTOD {tod} {
+ if {![regexp -expanded {
^
- # field 1 - hour
- ([[:digit:]]{1,2})
+ ([[:digit:]]{1,2}) # field 1 - hour
(?:
- # field 2 - minute
- :([[:digit:]]{2})
- (?:
- # field 3 - second
- :([[:digit:]]{2})
- )?
+ :([[:digit:]]{2}) # field 2 - minute
+ (?:
+ :([[:digit:]]{2}) # field 3 - second
+ )?
)?
(?:
- # field 4 - type indicator
- ([wsugz])
- )?
- } $tod -> hour minute second ind] } {
+ ([wsugz]) # field 4 - type indicator
+ )?
+ } $tod -> hour minute second ind]} then {
puts stderr "$fileName:$lno:can't parse time field \"$tod\""
incr errorCount
}
scan $hour %d hour
- if { $minute ne {} } {
+ if {$minute ne ""} {
scan $minute %d minute
} else {
set minute 0
}
- if { $second ne {} } {
+ if {$second ne ""} {
scan $second %d second
} else {
set second 0
}
- if { $ind eq {} } {
+ if {$ind eq ""} {
set ind w
}
- return [list [expr { ( $hour * 60 + $minute ) * 60 + $second }] $ind]
+ return [list [expr {($hour * 60 + $minute) * 60 + $second}] $ind]
}
#----------------------------------------------------------------------
@@ -587,38 +550,34 @@ proc parseTOD { tod } {
#
#----------------------------------------------------------------------
-proc parseOffsetTime { offset } {
- if { ![regexp -expanded {
+proc parseOffsetTime {offset} {
+ if {![regexp -expanded {
^
- # field 1 - signum
- ([-+])?
- # field 2 - hour
- ([[:digit:]]{1,2})
+ ([-+])? # field 1 - signum
+ ([[:digit:]]{1,2}) # field 2 - hour
(?:
- # field 3 - minute
- :([[:digit:]]{2})
- (?:
- # field 4 - second
- :([[:digit:]]{2})
- )?
+ :([[:digit:]]{2}) # field 3 - minute
+ (?:
+ :([[:digit:]]{2}) # field 4 - second
+ )?
)?
- } $offset -> signum hour minute second] } {
+ } $offset -> signum hour minute second]} then {
puts stderr "$fileName:$lno:can't parse offset time \"$offset\""
incr errorCount
}
append signum 1
scan $hour %d hour
- if { $minute ne {} } {
+ if {$minute ne ""} {
scan $minute %d minute
} else {
set minute 0
}
- if { $second ne {} } {
+ if {$second ne ""} {
scan $second %d second
} else {
set second 0
}
- return [expr { ( ( $hour * 60 + $minute ) * 60 + $second ) * $signum }]
+ return [expr {(($hour * 60 + $minute) * 60 + $second) * $signum}]
}
@@ -638,13 +597,12 @@ proc parseOffsetTime { offset } {
#
#----------------------------------------------------------------------
-proc lookupMonth { month } {
-
+proc lookupMonth {month} {
set indx [lsearch -regexp {
{} January February March April May June
July August September October November December
} ${month}.*]
- if { $indx < 1 } {
+ if {$indx < 1} {
error "unknown month name \"$month\""
}
return $indx
@@ -667,11 +625,11 @@ proc lookupMonth { month } {
#
#----------------------------------------------------------------------
-proc lookupDayOfWeek { wday } {
+proc lookupDayOfWeek {wday} {
set indx [lsearch -regexp {
{} Monday Tuesday Wednesday Thursday Friday Saturday Sunday
} ${wday}.*]
- if { $indx < 1 } {
+ if {$indx < 1} {
error "unknown weekday name \"$wday\""
}
return $indx
@@ -689,7 +647,7 @@ proc lookupDayOfWeek { wday } {
# zone -- Name of the time zone
# words -- Remaining words on the line.
# start -- 'Until' time from the previous line if this is a
-# continuation line, or 'minimum' if this is the first line.
+# continuation line, or 'minimum' if this is the first line.
#
# Results:
# Returns the 'until' field of the current line
@@ -701,8 +659,8 @@ proc lookupDayOfWeek { wday } {
# Standard Time, and a format for printing the time zone.
#
# The start time is the result of an earlier call to 'parseUntil'
-# or else the keyword 'minimum'. The GMT offset is the
-# result of a call to 'parseOffsetTime'. The Daylight Saving
+# or else the keyword 'minimum'. The GMT offset is the
+# result of a call to 'parseOffsetTime'. The Daylight Saving
# Time offset is represented as a partial Tcl command. To the
# command will be appended a start time (seconds from epoch)
# the current offset of Standard Time from Greenwich, the current
@@ -714,31 +672,30 @@ proc lookupDayOfWeek { wday } {
#
#----------------------------------------------------------------------
-proc parseZone { fileName lno zone words start } {
+proc parseZone {fileName lno zone words start} {
variable zones
variable rules
variable errorCount
variable forwardRuleRefs
- foreach { gmtoff save format } $words break
- if { [catch {parseOffsetTime $gmtoff} gmtoff] } {
+
+ lassign $words gmtoff save format
+ if {[catch {parseOffsetTime $gmtoff} gmtoff]} {
puts stderr "$fileName:$lno:$gmtoff"
incr errorCount
return
- }
- if { [info exists rules($save)] } {
+ }
+ if {[info exists rules($save)]} {
set save [list applyRules $save]
- } elseif { $save eq {-} } {
+ } elseif {$save eq "-"} {
set save [list applyNoRule]
+ } elseif {[catch {parseOffsetTime $save} save2]} {
+ lappend forwardRuleRefs($save) $fileName $lno
+ set save [list applyRules $save]
} else {
- if { [catch { parseOffsetTime $save } save2] } {
- lappend forwardRuleRefs($save) $fileName $lno
- set save [list applyRules $save]
- } else {
- set save [list applyDSTOffset $save2]
- }
+ set save [list applyDSTOffset $save2]
}
lappend zones($zone) $start $gmtoff $save $format
- if { [llength $words] >= 4 } {
+ if {[llength $words] >= 4} {
return [parseUntil [lrange $words 3 end]]
} else {
return {}
@@ -748,7 +705,7 @@ proc parseZone { fileName lno zone words start } {
#----------------------------------------------------------------------
#
# parseUntil --
-#
+#
# Parses the 'UNTIL' part of a 'Zone' directive.
#
# Parameters:
@@ -761,30 +718,31 @@ proc parseZone { fileName lno zone words start } {
#
#----------------------------------------------------------------------
-proc parseUntil { words } {
+proc parseUntil {words} {
variable firstYear
- if { [llength $words] >= 1 } {
+
+ if {[llength $words] >= 1} {
set year [lindex $words 0]
- if { ![string is integer $year] } {
+ if {![string is integer $year]} {
error "can't parse UNTIL field \"$words\""
}
- if { ![info exists firstYear] || $year < $firstYear } {
+ if {![info exists firstYear] || $year < $firstYear} {
set firstYear $year
}
} else {
- set year maximum
+ set year "maximum"
}
- if { [llength $words] >= 2 } {
+ if {[llength $words] >= 2} {
set month [lookupMonth [lindex $words 1]]
} else {
set month 1
}
- if { [llength $words] >= 3 } {
+ if {[llength $words] >= 3} {
set day [parseON [lindex $words 2]]
} else {
set day {onDayOfMonth 1}
}
- if { [llength $words] >= 4 } {
+ if {[llength $words] >= 4} {
set tod [parseTOD [lindex $words 3]]
} else {
set tod {0 w}
@@ -824,25 +782,24 @@ proc parseUntil { words } {
#
#----------------------------------------------------------------------
-proc applyNoRule { year startSecs stdGMTOffset DSTOffset nextGMTOffset
- namePattern until pointsVar } {
+proc applyNoRule {year startSecs stdGMTOffset DSTOffset nextGMTOffset
+ namePattern until pointsVar} {
upvar 1 $pointsVar points
lappend points $startSecs $nextGMTOffset 0 \
- [convertNamePattern $namePattern -]
+ [convertNamePattern $namePattern -]
return [list $nextGMTOffset 0]
-
}
#----------------------------------------------------------------------
#
-# applyNoRule --
+# applyDSTOffset --
#
# Generates time zone data for a zone with permanent Daylight
# Saving Time.
#
# Parameters:
# nextDSTOffset - Offset of Daylight from Standard while the
-# rule is in effect.
+# rule is in effect.
# year - Year in which the rule applies
# startSecs - Time at which the rule starts.
# stdGMTOffset - Offset from Greenwich prior to the start of the
@@ -866,15 +823,15 @@ proc applyNoRule { year startSecs stdGMTOffset DSTOffset nextGMTOffset
#
#----------------------------------------------------------------------
-proc applyDSTOffset { nextDSTOffset year startSecs
- stdGMTOffset DSTOffset nextGMTOffset
- namePattern until pointsVar } {
+proc applyDSTOffset {nextDSTOffset year startSecs
+ stdGMTOffset DSTOffset nextGMTOffset
+ namePattern until pointsVar} {
upvar 1 $pointsVar points
lappend points \
- $startSecs \
- [expr { $nextGMTOffset + $nextDSTOffset }] \
- 1 \
- [convertNamePattern $namePattern S]
+ $startSecs \
+ [expr {$nextGMTOffset + $nextDSTOffset}] \
+ 1 \
+ [convertNamePattern $namePattern S]
return [list $nextGMTOffset $nextDSTOffset]
}
@@ -911,8 +868,8 @@ proc applyDSTOffset { nextDSTOffset year startSecs
#
#----------------------------------------------------------------------
-proc applyRules { ruleSet year startSecs stdGMTOffset DSTOffset nextGMTOffset \
- namePattern until pointsVar } {
+proc applyRules {ruleSet year startSecs stdGMTOffset DSTOffset nextGMTOffset
+ namePattern until pointsVar} {
variable done
variable rules
variable maxyear
@@ -923,91 +880,80 @@ proc applyRules { ruleSet year startSecs stdGMTOffset DSTOffset nextGMTOffset \
# of rules (now or in future) that will end at a specific year.
# Ignore rules entirely in the past.
- foreach {
- currentRules nSunsetRules
- } [divideRules $ruleSet $year] break
+ lassign [divideRules $ruleSet $year] currentRules nSunsetRules
# If the first transition is later than $startSecs, and $stdGMTOffset is
# different from $nextGMTOffset, we will need an initial record like:
- # lappend points $startSecs $stdGMTOffset 0 \
- # [convertNamePattern $namePattern -]
+ # lappend points $startSecs $stdGMTOffset 0 \
+ # [convertNamePattern $namePattern -]
set didTransitionIn false
# Determine the letter to use in Standard Time
- set prevLetter {}
- foreach {
+ set prevLetter ""
+ foreach {
fromYear toYear yearType monthIn daySpecOn timeAt save letter
- } $rules($ruleSet) {
- if { $save == 0 } {
+ } $rules($ruleSet) {
+ if {$save == 0} {
set prevLetter $letter
break
- }
+ }
}
# Walk through each year in turn. This loop will break when
- # (a) the 'until' time is passed
+ # (a) the 'until' time is passed
# or (b) the 'until' time is empty and all remaining rules extend to
- # the end of time
+ # the end of time
set stdGMTOffset $nextGMTOffset
# convert "until" to seconds from epoch in current time zone
- if { $until ne {} } {
- foreach {
- untilYear untilMonth untilDaySpec untilTimeOfDay
- } $until break
+ if {$until ne ""} {
+ lassign $until untilYear untilMonth untilDaySpec untilTimeOfDay
lappend untilDaySpec $untilYear $untilMonth
set untilJCD [eval $untilDaySpec]
set untilBaseSecs [expr {
- wide(86400) * wide($untilJCD)
- - 210866803200 }]
- set untilSecs [eval [linsert $untilTimeOfDay 0 convertTimeOfDay \
- $untilBaseSecs $stdGMTOffset $DSTOffset]]
+ wide(86400) * wide($untilJCD) - 210866803200 }]
+ set untilSecs [convertTimeOfDay $untilBaseSecs $stdGMTOffset \
+ $DSTOffset {expand}$untilTimeOfDay]
}
set origStartSecs $startSecs
- while { ( $until ne {} &&
- $startSecs < $untilSecs )
- || ( $until eq {} &&
- ( $nSunsetRules > 0 || $year < $maxyear ) ) } {
-
+ while {($until ne "" && $startSecs < $untilSecs)
+ || ($until eq "" && ($nSunsetRules > 0 || $year < $maxyear))} {
set remainingRules $currentRules
- while { [llength $remainingRules] > 0 } {
-
+ while {[llength $remainingRules] > 0} {
# Find the rule with the earliest start time from among the
# active rules that haven't yet been processed.
- foreach {
- earliestSecs earliestIndex
- } [findEarliestRule $remainingRules $year \
- $stdGMTOffset $DSTOffset] break
-
+ lassign [findEarliestRule $remainingRules $year \
+ $stdGMTOffset $DSTOffset] earliestSecs earliestIndex
+
set endi [expr {$earliestIndex + 7}]
set rule [lrange $remainingRules $earliestIndex $endi]
- foreach {
- fromYear toYear yearType monthIn daySpecOn timeAt save letter
- } $rule break
+ lassign $rule fromYear toYear \
+ yearType monthIn daySpecOn timeAt save letter
# Test if the rule is in effect.
- if { $earliestSecs > $startSecs &&
- ( $until eq {} || $earliestSecs < $untilSecs ) } {
-
+ if {
+ $earliestSecs > $startSecs &&
+ ($until eq "" || $earliestSecs < $untilSecs)
+ } then {
# Test if the initial transition has been done.
# If not, do it now.
- if { !$didTransitionIn && $earliestSecs > $origStartSecs } {
+ if {!$didTransitionIn && $earliestSecs > $origStartSecs} {
set nm [convertNamePattern $namePattern $prevLetter]
lappend points \
- $origStartSecs \
- [expr { $stdGMTOffset + $DSTOffset }] \
- 0 \
- $nm
+ $origStartSecs \
+ [expr {$stdGMTOffset + $DSTOffset}] \
+ 0 \
+ $nm
set didTransitionIn true
}
@@ -1015,18 +961,17 @@ proc applyRules { ruleSet year startSecs stdGMTOffset DSTOffset nextGMTOffset \
set nm [convertNamePattern $namePattern $letter]
lappend points \
- $earliestSecs \
- [expr { $stdGMTOffset + $save }] \
- [expr { $save != 0 }] \
- $nm
+ $earliestSecs \
+ [expr {$stdGMTOffset + $save}] \
+ [expr {$save != 0}] \
+ $nm
}
# Remove the rule just applied from the queue
set remainingRules [lreplace \
- [K $remainingRules \
- [set remainingRules {}]] \
- $earliestIndex $endi]
+ $remainingRules[set remainingRules {}] \
+ $earliestIndex $endi]
# Update current DST offset and time zone letter
@@ -1034,11 +979,10 @@ proc applyRules { ruleSet year startSecs stdGMTOffset DSTOffset nextGMTOffset \
set prevLetter $letter
# Reconvert the 'until' time in the current zone.
-
- if { $until ne {} } {
- set untilSecs [eval [linsert $untilTimeOfDay 0 \
- convertTimeOfDay $untilBaseSecs \
- $stdGMTOffset $DSTOffset]]
+
+ if {$until ne ""} {
+ set untilSecs [convertTimeOfDay $untilBaseSecs \
+ $stdGMTOffset $DSTOffset {expand}$untilTimeOfDay]
}
}
@@ -1046,18 +990,15 @@ proc applyRules { ruleSet year startSecs stdGMTOffset DSTOffset nextGMTOffset \
incr year
set date [::tcl::clock::GetJulianDayFromEraYearMonthDay \
- [dict create era CE year $year month 1 dayOfMonth 1]]
- set startSecs [expr { [dict get $date julianDay] * wide(86400) \
- -210866803200 }]
- set startSecs [expr { $startSecs - $stdGMTOffset - $DSTOffset }]
-
+ [dict create era CE year $year month 1 dayOfMonth 1]]
+ set startSecs [expr {
+ [dict get $date julianDay] * wide(86400) - 210866803200
+ - $stdGMTOffset - $DSTOffset
+ }]
# Get rules in effect in the new year.
- foreach {
- currentRules nSunsetRules
- } [divideRules $ruleSet $year] break
-
+ lassign [divideRules $ruleSet $year] currentRules nSunsetRules
}
return [list $stdGMTOffset $DSTOffset]
@@ -1085,24 +1026,23 @@ proc applyRules { ruleSet year startSecs stdGMTOffset DSTOffset nextGMTOffset \
#
#----------------------------------------------------------------------
-proc divideRules { ruleSet year } {
-
+proc divideRules {ruleSet year} {
variable rules
set currentRules {}
set nSunsetRules 0
- foreach {
+ foreach {
fromYear toYear yearType monthIn daySpecOn timeAt save letter
- } $rules($ruleSet) {
- if { $toYear ne {maximum} && $year > $toYear } {
+ } $rules($ruleSet) {
+ if {$toYear ne "maximum" && $year > $toYear} {
# ignore - rule is in the past
} else {
- if { $fromYear eq {minimum} || $fromYear <= $year } {
+ if {$fromYear eq "minimum" || $fromYear <= $year} {
lappend currentRules $fromYear $toYear $yearType $monthIn \
- $daySpecOn $timeAt $save $letter
+ $daySpecOn $timeAt $save $letter
}
- if { $toYear ne {maximum} } {
+ if {$toYear ne "maximum"} {
incr nSunsetRules
}
}
@@ -1123,7 +1063,7 @@ proc divideRules { ruleSet year } {
# year - Year being processed.
# stdGMTOffset - Current offset of standard time from GMT
# DSTOffset - Current offset of daylight time from standard,
-# if daylight time is in effect.
+# if daylight time is in effect.
#
# Results:
# Returns the index in remainingRules of the next rule to
@@ -1134,8 +1074,7 @@ proc divideRules { ruleSet year } {
#
#----------------------------------------------------------------------
-proc findEarliestRule { remainingRules year stdGMTOffset DSTOffset } {
-
+proc findEarliestRule {remainingRules year stdGMTOffset DSTOffset} {
set earliest $::MAXWIDE
set i 0
foreach {
@@ -1143,12 +1082,10 @@ proc findEarliestRule { remainingRules year stdGMTOffset DSTOffset } {
} $remainingRules {
lappend daySpecOn $year $monthIn
set dayIn [eval $daySpecOn]
- set secs [expr {
- wide(86400) * wide($dayIn)
- -210866803200 }]
- set secs [eval [linsert $timeAt 0 convertTimeOfDay \
- $secs $stdGMTOffset $DSTOffset]]
- if { $secs < $earliest } {
+ set secs [expr {wide(86400) * wide($dayIn) - 210866803200}]
+ set secs [convertTimeOfDay $secs \
+ $stdGMTOffset $DSTOffset {expand}$timeAt]
+ if {$secs < $earliest} {
set earliest $secs
set earliestIdx $i
}
@@ -1156,7 +1093,6 @@ proc findEarliestRule { remainingRules year stdGMTOffset DSTOffset } {
}
return [list $earliest $earliestIdx]
-
}
#----------------------------------------------------------------------
@@ -1178,9 +1114,9 @@ proc findEarliestRule { remainingRules year stdGMTOffset DSTOffset } {
#
#----------------------------------------------------------------------
-proc convertNamePattern { pattern flag } {
- if { [regexp {(.*)/(.*)} $pattern -> standard daylight] } {
- if { $flag ne {} } {
+proc convertNamePattern {pattern flag} {
+ if {[regexp {(.*)/(.*)} $pattern -> standard daylight]} {
+ if {$flag ne ""} {
set pattern $daylight
} else {
set pattern $standard
@@ -1204,7 +1140,7 @@ proc convertNamePattern { pattern flag } {
# timeOfDay - Time of day to convert, in seconds from midnight
# flag - Flag indicating whether the time is Greenwich, Standard
# or wall-clock. (g, s, or w)
-#
+#
# Results:
# Returns the time of day in seconds from the Posix epoch.
#
@@ -1213,17 +1149,17 @@ proc convertNamePattern { pattern flag } {
#
#----------------------------------------------------------------------
-proc convertTimeOfDay { seconds stdGMTOffset DSTOffset timeOfDay flag } {
+proc convertTimeOfDay {seconds stdGMTOffset DSTOffset timeOfDay flag} {
incr seconds $timeOfDay
switch -exact $flag {
g - u - z {
}
w {
- incr seconds [expr { -$stdGMTOffset }]
- incr seconds [expr { -$DSTOffset }]
+ incr seconds [expr {-$stdGMTOffset}]
+ incr seconds [expr {-$DSTOffset}]
}
z {
- incr seconds [expr { -$stdGMTOffset }]
+ incr seconds [expr {-$stdGMTOffset}]
}
}
return $seconds
@@ -1242,7 +1178,7 @@ proc convertTimeOfDay { seconds stdGMTOffset DSTOffset timeOfDay flag } {
# obtained from 'parseZone.
#
# Results:
-# Returns a list of rows. Each row consists of a time in
+# Returns a list of rows. Each row consists of a time in
# seconds from the Posix epoch, an offset from GMT to local
# that begins at that time, a flag indicating whether DST
# is in effect after that time, and the printable name of the
@@ -1253,36 +1189,33 @@ proc convertTimeOfDay { seconds stdGMTOffset DSTOffset timeOfDay flag } {
#
#----------------------------------------------------------------------
-proc processTimeZone { zoneName zoneData } {
-
+proc processTimeZone {zoneName zoneData} {
set points {}
set i 0
- foreach { startTime nextGMTOffset dstRule namePattern } $zoneData {
+ foreach {startTime nextGMTOffset dstRule namePattern} $zoneData {
incr i 4
set until [lindex $zoneData $i]
- if {! [info exists stdGMTOffset] } {
+ if {![info exists stdGMTOffset]} {
set stdGMTOffset $nextGMTOffset
}
- if {! [info exists DSTOffset] } {
+ if {![info exists DSTOffset]} {
set DSTOffset 0
}
- if { $startTime eq {minimum} } {
+ if {$startTime eq "minimum"} {
set secs $::MINWIDE
set year 0
} else {
- foreach { year month dayRule timeOfDay } $startTime break
+ lassign $startTime year month dayRule timeOfDay
lappend dayRule $year $month
set startDay [eval $dayRule]
- set secs [expr {
- wide(86400) * wide($startDay)
- -210866803200}]
- set secs [eval [linsert $timeOfDay 0 convertTimeOfDay \
- $secs $stdGMTOffset $DSTOffset]]
+ set secs [expr {wide(86400) * wide($startDay) -210866803200}]
+ set secs [convertTimeOfDay $secs \
+ $stdGMTOffset $DSTOffset {expand}$timeOfDay]
}
lappend dstRule \
- $year $secs $stdGMTOffset $DSTOffset $nextGMTOffset \
- $namePattern $until points
- foreach {stdGMTOffset DSTOffset} [eval $dstRule] break
+ $year $secs $stdGMTOffset $DSTOffset $nextGMTOffset \
+ $namePattern $until points
+ lassign [eval $dstRule] stdGMTOffset DSTOffset
}
return $points
}
@@ -1305,8 +1238,7 @@ proc processTimeZone { zoneName zoneData } {
#
#----------------------------------------------------------------------
-proc writeZones { outDir } {
-
+proc writeZones {outDir} {
variable zones
# Walk the zones
@@ -1318,18 +1250,18 @@ proc writeZones { outDir } {
# Create directories as needed
set dirName [file dirname $fileName]
- if { ![file exists $dirName] } {
+ if {![file exists $dirName]} {
puts "creating directory: $dirName"
file mkdir $dirName
}
# Generate data for a zone
- set data {}
- foreach {
- time offset dst name
+ set data ""
+ foreach {
+ time offset dst name
} [processTimeZone $zoneName $zones($zoneName)] {
- append data \n { } [list [list $time $offset $dst $name]]
+ append data "\n " [list [list $time $offset $dst $name]]
}
append data \n
@@ -1337,10 +1269,9 @@ proc writeZones { outDir } {
set f [open $fileName w]
puts $f "\# created by $::argv0 - do not edit"
- puts $f {}
+ puts $f ""
puts $f [list set TZData(:$zoneName) $data]
close $f
-
}
return
@@ -1362,8 +1293,7 @@ proc writeZones { outDir } {
# Side effects:
# Creates a file for each link.
-proc writeLinks { outDir } {
-
+proc writeLinks {outDir} {
variable links
# Walk the links
@@ -1375,7 +1305,7 @@ proc writeLinks { outDir } {
# Create directories as needed
set dirName [file dirname $fileName]
- if { ![file exists $dirName] } {
+ if {![file exists $dirName]} {
puts "creating directory: $dirName"
file mkdir $dirName
}
@@ -1407,7 +1337,7 @@ proc writeLinks { outDir } {
# Determine directories
-foreach { inDir outDir } $argv break
+lassign $argv inDir outDir
# Initialize count of errors
@@ -1416,14 +1346,14 @@ set errorCount 0
# Parse the Olson files
loadFiles $inDir
-if { $errorCount > 0 } {
+if {$errorCount > 0} {
exit 1
}
# Check that all riles appearing in Zone and Link lines actually exist
checkForwardRuleRefs
-if { $errorCount > 0 } {
+if {$errorCount > 0} {
exit 1
}
@@ -1431,10 +1361,10 @@ if { $errorCount > 0 } {
writeZones $outDir
writeLinks $outDir
-if { $errorCount > 0 } {
+if {$errorCount > 0} {
exit 1
}
# All done!
-exit \ No newline at end of file
+exit