qt5base-lts/util/local_database/cldr2qtimezone.py
John Layt 48e2c3ac33 QTimeZone - Define new class and api
Implement the new QTimeZone class based on the Olsen Time Zone ID's.

This is the base implementation and does not include the Platform
backends which are implemented separately.

This change does include a default UTC backed to be used if no Platform
backend is available, i.e. if QT_NO_SYSTEMLOCALE is set and ICU is not
configured.  This backend also provides a default set of time zones in
the standard "UTC+00:00" offset format that are guaranteed to always
exist regardless of the Platform backend.

This change includes conversion functions between the Olsen ID's and
Windows ID's using a conversion table based on Unicode CLDR data.
This is implemented for all platforms for scenarios such as a Linux
program needing to communicate with a Windows Exchange Server using
the Windows ID.

The CLDR conversion table is included under the UNICODE license, see
http://unicode.org/copyright.html for details.

[ChangeLog][QtCore][QTimeZone] Added new QTimeZone class to support
time tone calculations using the host platform time zone database
and the Olsen time zone ID's.

Change-Id: Ibb417d08cf2663a0979d2be855d2c6ad6ad01509
Reviewed-by: Thiago Macieira <thiago.macieira@intel.com>
2013-09-22 22:21:15 +02:00

425 lines
17 KiB
Python
Executable File

#!/usr/bin/env python
#############################################################################
##
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#############################################################################
# Script to parse the CLDR supplemental/windowsZones.xml file and encode for use in QTimeZone
# XML structure is as follows:
#
# <supplementalData>
# <version number="$Revision: 7825 $"/>
# <generation date="$Date: 2012-10-10 14:45:31 -0700 (Wed, 10 Oct 2012) $"/>
# <windowsZones>
# <mapTimezones otherVersion="7dc0101" typeVersion="2012f">
# <!-- (UTC-08:00) Pacific Time (US & Canada) -->
# <mapZone other="Pacific Standard Time" territory="001" type="America/Los_Angeles"/>
# <mapZone other="Pacific Standard Time" territory="CA" type="America/Vancouver America/Dawson America/Whitehorse"/>
# <mapZone other="Pacific Standard Time" territory="MX" type="America/Tijuana"/>
# <mapZone other="Pacific Standard Time" territory="US" type="America/Los_Angeles"/>
# <mapZone other="Pacific Standard Time" territory="ZZ" type="PST8PDT"/>
# </mapTimezones>
# </windowsZones>
# </supplementalData>
import os
import sys
import datetime
import tempfile
import enumdata
import xpathlite
from xpathlite import DraftResolution
import re
import qlocalexml2cpp
findAlias = xpathlite.findAlias
findEntry = xpathlite.findEntry
findEntryInFile = xpathlite._findEntryInFile
findTagsInFile = xpathlite.findTagsInFile
unicode2hex = qlocalexml2cpp.unicode2hex
wrap_list = qlocalexml2cpp.wrap_list
class ByteArrayData:
def __init__(self):
self.data = []
self.hash = {}
def append(self, s):
s = s + '\0'
if s in self.hash:
return self.hash[s]
lst = unicode2hex(s)
index = len(self.data)
if index > 65535:
print "\n\n\n#error Data index is too big!"
sys.stderr.write ("\n\n\nERROR: index exceeds the uint16 range! index = %d\n" % index)
sys.exit(1)
self.hash[s] = index
self.data += lst
return index
# List of currently known Windows IDs. If script fails on missing ID plase add it here
# Not public so may be safely changed.
# Windows Key : [ Windows Id, Offset Seconds ]
windowsIdList = {
1 : [ u'Afghanistan Standard Time', 16200 ],
2 : [ u'Alaskan Standard Time', -32400 ],
3 : [ u'Arab Standard Time', 10800 ],
4 : [ u'Arabian Standard Time', 14400 ],
5 : [ u'Arabic Standard Time', 10800 ],
6 : [ u'Argentina Standard Time', 10800 ],
7 : [ u'Atlantic Standard Time', -14400 ],
8 : [ u'AUS Central Standard Time', 34200 ],
9 : [ u'AUS Eastern Standard Time', 36000 ],
10 : [ u'Azerbaijan Standard Time', 14400 ],
11 : [ u'Azores Standard Time', -3600 ],
12 : [ u'Bahia Standard Time', 10800 ],
13 : [ u'Bangladesh Standard Time', 21600 ],
14 : [ u'Canada Central Standard Time', -21600 ],
15 : [ u'Cape Verde Standard Time', -3600 ],
16 : [ u'Caucasus Standard Time', 14400 ],
17 : [ u'Cen. Australia Standard Time', 34200 ],
18 : [ u'Central America Standard Time', -21600 ],
19 : [ u'Central Asia Standard Time', 21600 ],
20 : [ u'Central Brazilian Standard Time', -14400 ],
21 : [ u'Central Europe Standard Time', 3600 ],
22 : [ u'Central European Standard Time', 3600 ],
23 : [ u'Central Pacific Standard Time', 39600 ],
24 : [ u'Central Standard Time (Mexico)', -21600 ],
25 : [ u'Central Standard Time', -21600 ],
26 : [ u'China Standard Time', 28800 ],
27 : [ u'Dateline Standard Time', -43200 ],
28 : [ u'E. Africa Standard Time', 10800 ],
29 : [ u'E. Australia Standard Time', 36000 ],
30 : [ u'E. Europe Standard Time', 7200 ],
31 : [ u'E. South America Standard Time', -10800 ],
32 : [ u'Eastern Standard Time', -18000 ],
33 : [ u'Egypt Standard Time', 7200 ],
34 : [ u'Ekaterinburg Standard Time', 21600 ],
35 : [ u'Fiji Standard Time', 43200 ],
36 : [ u'FLE Standard Time', 7200 ],
37 : [ u'Georgian Standard Time', 14400 ],
38 : [ u'GMT Standard Time', 0 ],
39 : [ u'Greenland Standard Time', 10800 ],
40 : [ u'Greenwich Standard Time', 0 ],
41 : [ u'GTB Standard Time', 7200 ],
42 : [ u'Hawaiian Standard Time', -36000 ],
43 : [ u'India Standard Time', 19800 ],
44 : [ u'Iran Standard Time', 12600 ],
45 : [ u'Israel Standard Time', 7200 ],
46 : [ u'Jordan Standard Time', 7200 ],
47 : [ u'Kaliningrad Standard Time', 10800 ],
48 : [ u'Korea Standard Time', 32400 ],
49 : [ u'Magadan Standard Time', 43200 ],
50 : [ u'Mauritius Standard Time', 14400 ],
51 : [ u'Middle East Standard Time', 7200 ],
52 : [ u'Montevideo Standard Time', 10800 ],
53 : [ u'Morocco Standard Time', 0 ],
54 : [ u'Mountain Standard Time (Mexico)', -25200 ],
55 : [ u'Mountain Standard Time', -25200 ],
56 : [ u'Myanmar Standard Time', 23400 ],
57 : [ u'N. Central Asia Standard Time', 23400 ],
58 : [ u'Namibia Standard Time', 3600 ],
59 : [ u'Nepal Standard Time', 20700 ],
60 : [ u'New Zealand Standard Time', 43200 ],
61 : [ u'Newfoundland Standard Time', -12600 ],
62 : [ u'North Asia East Standard Time', 32400 ],
63 : [ u'North Asia Standard Time', 28800 ],
64 : [ u'Pacific SA Standard Time', -14400 ],
65 : [ u'Pacific Standard Time (Mexico)', -28800 ],
66 : [ u'Pacific Standard Time', -28800 ],
67 : [ u'Pakistan Standard Time', 18000 ],
68 : [ u'Paraguay Standard Time', -14400 ],
69 : [ u'Romance Standard Time', 3600 ],
70 : [ u'Russian Standard Time', 14400 ],
71 : [ u'SA Eastern Standard Time', 10800 ],
72 : [ u'SA Pacific Standard Time', -18000 ],
73 : [ u'SA Western Standard Time', -14400 ],
74 : [ u'Samoa Standard Time', 46800 ],
75 : [ u'SE Asia Standard Time', 23400 ],
76 : [ u'Singapore Standard Time', 28800 ],
77 : [ u'South Africa Standard Time', 7200 ],
78 : [ u'Sri Lanka Standard Time', 19800 ],
79 : [ u'Syria Standard Time', 7200 ],
80 : [ u'Taipei Standard Time', 28800 ],
81 : [ u'Tasmania Standard Time', 36000 ],
82 : [ u'Tokyo Standard Time', 32400 ],
83 : [ u'Tonga Standard Time', 46800 ],
84 : [ u'Turkey Standard Time', 7200 ],
85 : [ u'Ulaanbaatar Standard Time', 28800 ],
86 : [ u'US Eastern Standard Time', -18000 ],
87 : [ u'US Mountain Standard Time', -25200 ],
88 : [ u'UTC-02', -7200 ],
89 : [ u'UTC-11', -39600 ],
90 : [ u'UTC', 0 ],
91 : [ u'UTC+12', 43200 ],
92 : [ u'Venezuela Standard Time', -16200 ],
93 : [ u'Vladivostok Standard Time', 39600 ],
94 : [ u'W. Australia Standard Time', 28800 ],
95 : [ u'W. Central Africa Standard Time', 3600 ],
96 : [ u'W. Europe Standard Time', 3600 ],
97 : [ u'West Asia Standard Time', 18000 ],
98 : [ u'West Pacific Standard Time', 36000 ],
99 : [ u'Yakutsk Standard Time', 36000 ]
}
def windowsIdToKey(windowsId):
for windowsKey in windowsIdList:
if windowsIdList[windowsKey][0] == windowsId:
return windowsKey
return 0
# List of standard UTC IDs to use. Not public so may be safely changed.
# Do not remove ID's as is part of API/behavior guarantee
# Key : [ UTC Id, Offset Seconds ]
utcIdList = {
0 : [ u'UTC', 0 ], # Goes first so is default
1 : [ u'UTC-14:00', -50400 ],
2 : [ u'UTC-13:00', -46800 ],
3 : [ u'UTC-12:00', -43200 ],
4 : [ u'UTC-11:00', -39600 ],
5 : [ u'UTC-10:00', -36000 ],
6 : [ u'UTC-09:00', -32400 ],
7 : [ u'UTC-08:00', -28800 ],
8 : [ u'UTC-07:00', -25200 ],
9 : [ u'UTC-06:00', -21600 ],
10 : [ u'UTC-05:00', -18000 ],
11 : [ u'UTC-04:30', -16200 ],
12 : [ u'UTC-04:00', -14400 ],
13 : [ u'UTC-03:30', -12600 ],
14 : [ u'UTC-03:00', -10800 ],
15 : [ u'UTC-02:00', -7200 ],
16 : [ u'UTC-01:00', -3600 ],
17 : [ u'UTC-00:00', 0 ],
18 : [ u'UTC+00:00', 0 ],
19 : [ u'UTC+01:00', 3600 ],
20 : [ u'UTC+02:00', 7200 ],
21 : [ u'UTC+03:00', 10800 ],
22 : [ u'UTC+03:30', 12600 ],
23 : [ u'UTC+04:00', 14400 ],
24 : [ u'UTC+04:30', 16200 ],
25 : [ u'UTC+05:00', 18000 ],
26 : [ u'UTC+05:30', 19800 ],
27 : [ u'UTC+05:45', 20700 ],
28 : [ u'UTC+06:00', 21600 ],
29 : [ u'UTC+06:30', 23400 ],
30 : [ u'UTC+07:00', 25200 ],
31 : [ u'UTC+08:00', 28800 ],
32 : [ u'UTC+09:00', 32400 ],
33 : [ u'UTC+09:30', 34200 ],
34 : [ u'UTC+10:00', 36000 ],
35 : [ u'UTC+11:00', 39600 ],
36 : [ u'UTC+12:00', 43200 ],
37 : [ u'UTC+13:00', 46800 ],
38 : [ u'UTC+14:00', 50400 ]
}
def usage():
print "Usage: cldr2qtimezone.py <path to cldr core/common> <path to qtbase>"
sys.exit()
if len(sys.argv) != 3:
usage()
cldrPath = sys.argv[1]
qtPath = sys.argv[2]
if not os.path.isdir(cldrPath) or not os.path.isdir(qtPath):
usage()
windowsZonesPath = cldrPath + "/supplemental/windowsZones.xml"
tempFileDir = qtPath + "/src/corelib/tools"
dataFilePath = qtPath + "/src/corelib/tools/qtimezoneprivate_data_p.h"
if not os.path.isfile(windowsZonesPath):
usage()
if not os.path.isfile(dataFilePath):
usage()
# [[u'version', [(u'number', u'$Revision: 7825 $')]]]
versionNumber = findTagsInFile(windowsZonesPath, "version")[0][1][0][1]
# [[u'generation', [(u'date', u'$Date: 2012-10-10 14:45:31 -0700 (Wed, 10 Oct 2012) $')]]]
generationDate = findTagsInFile(windowsZonesPath, "generation")[0][1][0][1]
mapTimezones = findTagsInFile(windowsZonesPath, "windowsZones/mapTimezones")
defaultDict = {}
windowsIdDict = {}
if mapTimezones:
for mapZone in mapTimezones:
# [u'mapZone', [(u'territory', u'MH'), (u'other', u'UTC+12'), (u'type', u'Pacific/Majuro Pacific/Kwajalein')]]
if mapZone[0] == u'mapZone':
data = {}
for attribute in mapZone[1]:
if attribute[0] == u'other':
data['windowsId'] = attribute[1]
if attribute[0] == u'territory':
data['countryCode'] = attribute[1]
if attribute[0] == u'type':
data['olsenList'] = attribute[1]
data['windowsKey'] = windowsIdToKey(data['windowsId'])
if data['windowsKey'] <= 0:
raise xpathlite.Error("Unknown Windows ID, please add \"%s\"" % data['windowsId'])
countryId = 0
if data['countryCode'] == u'001':
defaultDict[data['windowsKey']] = data['olsenList']
else:
data['countryId'] = enumdata.countryCodeToId(data['countryCode'])
if data['countryId'] < 0:
raise xpathlite.Error("Unknown Country Code \"%s\"" % data['countryCode'])
data['country'] = enumdata.country_list[data['countryId']][0]
windowsIdDict[data['windowsKey'], data['countryId']] = data
print "Input file parsed, now writing data"
GENERATED_BLOCK_START = "// GENERATED PART STARTS HERE\n"
GENERATED_BLOCK_END = "// GENERATED PART ENDS HERE\n"
# Create a temp file to write the new data into
(newTempFile, newTempFilePath) = tempfile.mkstemp("qtimezone_data_p", dir=tempFileDir)
newTempFile = os.fdopen(newTempFile, "w")
# Open the old file and copy over the first non-generated section to the new file
oldDataFile = open(dataFilePath, "r")
s = oldDataFile.readline()
while s and s != GENERATED_BLOCK_START:
newTempFile.write(s)
s = oldDataFile.readline()
# Write out generated block start tag and warning
newTempFile.write(GENERATED_BLOCK_START)
newTempFile.write("\n\
/*\n\
This part of the file was generated on %s from the\n\
Common Locale Data Repository supplemental/windowsZones.xml file\n\
%s %s\n\
\n\
http://www.unicode.org/cldr/\n\
\n\
Do not change this data, only generate it using cldr2qtimezone.py.\n\
*/\n\n" % (str(datetime.date.today()), versionNumber, generationDate) )
windowsIdData = ByteArrayData()
olsenIdData = ByteArrayData()
# Write Windows/Olsen table
newTempFile.write("// Windows ID Key, Country Enum, Olsen ID Index\n")
newTempFile.write("static const QZoneData zoneDataTable[] = {\n")
for index in windowsIdDict:
data = windowsIdDict[index]
newTempFile.write(" { %6d,%6d,%6d }, // %s / %s\n" \
% (data['windowsKey'],
data['countryId'],
olsenIdData.append(data['olsenList']),
data['windowsId'],
data['country']))
newTempFile.write(" { 0, 0, 0 } // Trailing zeroes\n")
newTempFile.write("};\n\n")
print "Done Zone Data"
# Write Windows ID key table
newTempFile.write("// Windows ID Key, Windows ID Index, Olsen ID Index, UTC Offset\n")
newTempFile.write("static const QWindowsData windowsDataTable[] = {\n")
for windowsKey in windowsIdList:
newTempFile.write(" { %6d,%6d,%6d,%6d }, // %s\n" \
% (windowsKey,
windowsIdData.append(windowsIdList[windowsKey][0]),
olsenIdData.append(defaultDict[windowsKey]),
windowsIdList[windowsKey][1],
windowsIdList[windowsKey][0]))
newTempFile.write(" { 0, 0, 0, 0 } // Trailing zeroes\n")
newTempFile.write("};\n\n")
print "Done Windows Data Table"
# Write UTC ID key table
newTempFile.write("// Olsen ID Index, UTC Offset\n")
newTempFile.write("static const QUtcData utcDataTable[] = {\n")
for index in utcIdList:
data = utcIdList[index]
newTempFile.write(" { %6d,%6d }, // %s\n" \
% (olsenIdData.append(data[0]),
data[1],
data[0]))
newTempFile.write(" { 0, 0 } // Trailing zeroes\n")
newTempFile.write("};\n\n")
print "Done UTC Data Table"
# Write out Windows ID's data
newTempFile.write("static const char windowsIdData[] = {\n")
newTempFile.write(wrap_list(windowsIdData.data))
newTempFile.write("\n};\n\n")
# Write out Olsen ID's data
newTempFile.write("static const char olsenIdData[] = {\n")
newTempFile.write(wrap_list(olsenIdData.data))
newTempFile.write("\n};\n")
print "Done ID Data Table"
# Write out the end of generated block tag
newTempFile.write(GENERATED_BLOCK_END)
s = oldDataFile.readline()
# Skip through the old generated data in the old file
while s and s != GENERATED_BLOCK_END:
s = oldDataFile.readline()
# Now copy the rest of the original file into the new file
s = oldDataFile.readline()
while s:
newTempFile.write(s)
s = oldDataFile.readline()
# Now close the old and new file, delete the old file and copy the new file in its place
newTempFile.close()
oldDataFile.close()
os.remove(dataFilePath)
os.rename(newTempFilePath, dataFilePath)
print "Data generation completed, please check the new file at " + dataFilePath