From 2115b57142d27c52ee82589e173889ac3390da69 Mon Sep 17 00:00:00 2001 From: steffen123 Date: Mon, 16 Aug 2010 02:50:17 +0200 Subject: [PATCH] finish gettextifying database --- pyfpdb/Database.py | 48 +++++++++++++++++++++++----------------------- 1 file changed, 24 insertions(+), 24 deletions(-) diff --git a/pyfpdb/Database.py b/pyfpdb/Database.py index 8f1ad710..f27fbc4b 100644 --- a/pyfpdb/Database.py +++ b/pyfpdb/Database.py @@ -1529,7 +1529,7 @@ class Database: return "20"+tmp[0][1:3] + "-" + tmp[0][3:5] + "-" + tmp[0][5:7] except: err = traceback.extract_tb(sys.exc_info()[2])[-1] - print "Error rebuilding hudcache:", str(sys.exc_value) + print _("Error rebuilding hudcache:"), str(sys.exc_value) print err #end def get_hero_hudcache_start @@ -1541,17 +1541,17 @@ class Database: try: self.get_cursor().execute(self.sql.query['analyze']) except: - print "Error during analyze:", str(sys.exc_value) + print _("Error during analyze:"), str(sys.exc_value) elif self.backend == self.PGSQL: self.connection.set_isolation_level(0) # allow analyze to work try: self.get_cursor().execute(self.sql.query['analyze']) except: - print "Error during analyze:", str(sys.exc_value) + print _("Error during analyze:"), str(sys.exc_value) self.connection.set_isolation_level(1) # go back to normal isolation level self.commit() atime = time() - stime - print "Analyze took %.1f seconds" % (atime,) + print _("Analyze took %.1f seconds") % (atime,) #end def analyzeDB def vacuumDB(self): @@ -1561,17 +1561,17 @@ class Database: try: self.get_cursor().execute(self.sql.query['vacuum']) except: - print "Error during vacuum:", str(sys.exc_value) + print _("Error during vacuum:"), str(sys.exc_value) elif self.backend == self.PGSQL: self.connection.set_isolation_level(0) # allow vacuum to work try: self.get_cursor().execute(self.sql.query['vacuum']) except: - print "Error during vacuum:", str(sys.exc_value) + print _("Error during vacuum:"), str(sys.exc_value) self.connection.set_isolation_level(1) # go back to normal isolation level self.commit() atime = time() - stime - print "Vacuum took %.1f seconds" % (atime,) + print _("Vacuum took %.1f seconds") % (atime,) #end def analyzeDB # Start of Hand Writing routines. Idea is to provide a mixture of routines to store Hand data @@ -1583,7 +1583,7 @@ class Database: try: self.get_cursor().execute(self.sql.query['lockForInsert']) except: - print "Error during lock_for_insert:", str(sys.exc_value) + print _("Error during lock_for_insert:"), str(sys.exc_value) #end def lock_for_insert ########################### @@ -1956,10 +1956,10 @@ class Database: # could also test threading.active_count() or look through threading.enumerate() # so break immediately if no threads, but count up to X exceptions if a writer # thread is still alive??? - print "queue empty too long - writer stopping ..." + print _("queue empty too long - writer stopping ...") break except: - print "writer stopping, error reading queue: " + str(sys.exc_info()) + print _("writer stopping, error reading queue: ") + str(sys.exc_info()) break #print "got hand", str(h.get_finished()) @@ -1984,16 +1984,16 @@ class Database: # deadlocks only a problem if hudcache is being updated tries = tries + 1 if tries < maxTries and wait < 5: # wait < 5 just to make sure - print "deadlock detected - trying again ..." + print _("deadlock detected - trying again ...") sleep(wait) wait = wait + wait again = True else: - print "too many deadlocks - failed to store hand " + h.get_siteHandNo() + print _("too many deadlocks - failed to store hand ") + h.get_siteHandNo() if not again: fails = fails + 1 err = traceback.extract_tb(sys.exc_info()[2])[-1] - print "***Error storing hand: "+err[2]+"("+str(err[1])+"): "+str(sys.exc_info()[1]) + print _("***Error storing hand: ")+err[2]+"("+str(err[1])+"): "+str(sys.exc_info()[1]) # finished trying to store hand # always reduce q count, whether or not this hand was saved ok @@ -2003,7 +2003,7 @@ class Database: self.commit() if sendFinal: q.task_done() - print "db writer finished: stored %d hands (%d fails) in %.1f seconds" % (n, fails, time()-t0) + print _("db writer finished: stored %d hands (%d fails) in %.1f seconds") % (n, fails, time()-t0) # end def insert_queue_hands(): @@ -2013,7 +2013,7 @@ class Database: q.put(h) except: err = traceback.extract_tb(sys.exc_info()[2])[-1] - print "***Error sending finish: "+err[2]+"("+str(err[1])+"): "+str(sys.exc_info()[1]) + print _("***Error sending finish: ")+err[2]+"("+str(err[1])+"): "+str(sys.exc_info()[1]) # end def send_finish_msg(): def createTourneyType(self, hand):#note: this method is used on Hand and TourneySummary objects @@ -2093,7 +2093,7 @@ class Database: (hand.tourneyTypeId, hand.tourNo, hand.entries, hand.prizepool, hand.startTime, hand.endTime, hand.tourneyName, hand.matrixIdProcessed, hand.totalRebuyCount, hand.totalAddOnCount)) else: - raise FpdbParseError("invalid source in Database.createOrUpdateTourney") + raise FpdbParseError(_("invalid source in Database.createOrUpdateTourney")) tourneyId = self.get_last_insert_id(cursor) return tourneyId #end def createOrUpdateTourney @@ -2106,7 +2106,7 @@ class Database: elif source=="HHC": playerId = hand.dbid_pids[player[1]] else: - raise FpdbParseError("invalid source in Database.createOrUpdateTourneysPlayers") + raise FpdbParseError(_("invalid source in Database.createOrUpdateTourneysPlayers")) cursor = self.get_cursor() cursor.execute (self.sql.query['getTourneysPlayersByIds'].replace('%s', self.sql.query['placeholder']), @@ -2232,7 +2232,7 @@ class HandToWrite: self.tableName = None self.seatNos = None except: - print "htw.init error: " + str(sys.exc_info()) + print _("HandToWrite.init error: ") + str(sys.exc_info()) raise # end def __init__ @@ -2282,7 +2282,7 @@ class HandToWrite: self.tableName = tableName self.seatNos = seatNos except: - print "htw.set_all error: " + str(sys.exc_info()) + print _("HandToWrite.set_all error: ") + str(sys.exc_info()) raise # end def set_hand @@ -2313,7 +2313,7 @@ if __name__=="__main__": hero = db_connection.get_player_id(c, 'PokerStars', 'nutOmatic') if hero: - print "nutOmatic is id_player = %d" % hero + print _("nutOmatic is id_player = %d") % hero # example of displaying query plan in sqlite: if db_connection.backend == 4: @@ -2321,7 +2321,7 @@ if __name__=="__main__": c = db_connection.get_cursor() c.execute('explain query plan '+sql.query['get_table_name'], (h, )) for row in c.fetchall(): - print "query plan: ", row + print _("query plan: "), row print t0 = time() @@ -2330,12 +2330,12 @@ if __name__=="__main__": for p in stat_dict.keys(): print p, " ", stat_dict[p] - print "cards =", db_connection.get_cards(u'1') + print _("cards ="), db_connection.get_cards(u'1') db_connection.close_connection - print "get_stats took: %4.3f seconds" % (t1-t0) + print _("get_stats took: %4.3f seconds") % (t1-t0) - print "press enter to continue" + print _("press enter to continue") sys.stdin.readline() #Code borrowed from http://push.cx/2008/caching-dictionaries-in-python-vs-ruby