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852 lines
36 KiB
852 lines
36 KiB
#!/usr/bin/env python |
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# -*- coding: utf-8 -*- |
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# |
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# Copyright 2016 <+YOU OR YOUR COMPANY+>. |
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# |
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# This is free software; you can redistribute it and/or modify |
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# it under the terms of the GNU General Public License as published by |
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# the Free Software Foundation; either version 3, or (at your option) |
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# any later version. |
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# |
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# This software is distributed in the hope that it will be useful, |
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# but WITHOUT ANY WARRANTY; without even the implied warranty of |
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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# GNU General Public License for more details. |
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# |
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# You should have received a copy of the GNU General Public License |
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# along with this software; see the file COPYING. If not, write to |
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# the Free Software Foundation, Inc., 51 Franklin Street, |
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# Boston, MA 02110-1301, USA. |
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# |
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from __future__ import print_function#print without newline print('.', end="") |
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import numpy |
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from gnuradio import gr |
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import pmt,functools,csv,md5,collections,copy |
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from datetime import datetime |
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import crfa.chart as chart |
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from PyQt4 import Qt, QtCore, QtGui |
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import pprint,code#for easier testing |
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pp = pprint.PrettyPrinter() |
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from PyQt4.QtCore import QObject, pyqtSignal |
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class rds_parser_table_qt_Signals(QObject): |
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DataUpdateEvent = QtCore.pyqtSignal(dict) |
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def __init__(self, parent=None): |
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super(QtCore.QObject, self).__init__() |
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class rds_parser_table_qt(gr.sync_block): |
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""" |
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docstring for block qtguitest |
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""" |
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def __init__(self,signals,nPorts,slot,freq,log,debug): |
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#QObject.__init__() |
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gr.sync_block.__init__(self, |
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name="RDS Table", |
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in_sig=None, |
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out_sig=None) |
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for i in range(0,nPorts): |
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self.message_port_register_in(pmt.intern('in%d'%i)) |
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self.set_msg_handler(pmt.intern('in%d'%i), functools.partial(self.handle_msg, port=i)) |
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self.message_port_register_in(pmt.intern('freq')) |
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self.set_msg_handler(pmt.intern('freq'), self.set_freq) |
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self.log=log |
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self.debug=debug |
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self.signals=signals |
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self.RDS_data={} |
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self.change_freq_tune=slot |
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self.tuning_frequency=int(freq) |
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self.printcounter=0 |
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self.ODA_application_names={} |
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self.TMC_data={} |
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self.decoder_frequencies={} |
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self.colorder=['ID','freq','name','PTY','AF','time','text','quality','buttons'] |
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#workdir="" |
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workdir="/user/wire2/richter/hackrf_prototypes/" |
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#workdir="/media/clemens/intdaten/uni_bulk/forschungsarbeit/hackrf_prototypes/" |
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reader = csv.reader(open(workdir+'RDS_ODA-AIDs_names_only.csv'), delimiter=',', quotechar='"') |
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reader.next()#skip header |
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for row in reader: |
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self.ODA_application_names[int(row[0])]=row[1] |
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#read location code list: |
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reader = csv.reader(open(workdir+'LCL15.1.D-160122_utf8.csv'), delimiter=';', quotechar='"') |
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reader.next()#skip header |
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self.lcl_dict=dict((int(rows[0]),rows[1:]) for rows in reader) |
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#read RT+ class name list: |
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reader = csv.reader(open(workdir+'RTplus_classnames.csv'), delimiter=',', quotechar='"') |
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reader.next()#skip header |
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self.rtp_classnames=dict((int(rows[0]),rows[1]) for rows in reader) |
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#read TMC-event list |
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reader = csv.reader(open(workdir+'event-list_code+de-name_sort.csv'), delimiter=',', quotechar='"') |
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#no header |
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self.ecl_dict=dict((int(rows[0]),rows[1]) for rows in reader) |
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#read PTY list |
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f=open(workdir+'pty-list.csv') |
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reader = csv.reader(f, delimiter=',', quotechar='"') |
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reader.next()#skip header |
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self.pty_dict=dict((int(rows[0]),rows[1]) for rows in reader) |
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f.close() |
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def set_freq_tune(self,freq): |
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self.tuning_frequency=int(freq) |
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message_string="decoder frequencies:" |
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for num in self.decoder_frequencies: |
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freq=self.decoder_frequencies[num] |
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message_string+="\t %i:%0.1fM"% (num,freq/1e6) |
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message_string+="\t tuned frequency:%0.1fM"%(self.tuning_frequency/1e6) |
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self.signals.DataUpdateEvent.emit({'decoder_frequencies':message_string}) |
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def set_freq(self,msg): |
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m = pmt.symbol_to_string(msg) |
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decoder_num=int(m.split()[0])-1#msgs are 1-indexed, decoder_num is 0-indexed |
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freq_str=m.split()[1] |
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try: |
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freq=float(freq_str) |
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self.decoder_frequencies[decoder_num]=freq |
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freq_str="%i:%0.1fM"% (decoder_num,freq/1e6) |
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except ValueError: |
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pass#leave string as is |
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message_string="decoder frequencies:" |
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for num in self.decoder_frequencies: |
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freq=self.decoder_frequencies[num] |
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message_string+="\t %i:%0.1fM"% (num,freq/1e6) |
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message_string+="\t tuned frequency:%0.1fM"%(self.tuning_frequency/1e6) |
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self.signals.DataUpdateEvent.emit({'decoder_frequencies':message_string}) |
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#self.signals.DataUpdateEvent.emit({'row':decoder_num,'freq':freq_str}) |
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#print("nr:%i freq:%s"%(tgtnum,freq_str)) |
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def init_data_for_PI(self,PI): |
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self.RDS_data[PI]={} |
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#self.RDS_data[PI]["blockcounts"]={}# no defaults (works aswell) |
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#defaults are to keep colors in piechart consistent between stations: |
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self.RDS_data[PI]["blockcounts"]={"0A":0,"1A":0,"2A":0,"3A":0,"4A":0,"6A":0,"8A":0,"12A":0,"14A":0} |
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self.RDS_data[PI]["blockcounts"]["any"]=0 |
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self.RDS_data[PI]["AID_list"]={} |
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self.RDS_data[PI]["PSN"]="_"*8 |
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self.RDS_data[PI]["PSN_valid"]=[False]*8 |
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self.RDS_data[PI]["AF"]={} |
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self.RDS_data[PI]["TP"]=-1 |
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self.RDS_data[PI]["TA"]=-1 |
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self.RDS_data[PI]["PTY"]="" |
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self.RDS_data[PI]["DI"]=[2,2,2,2] |
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self.RDS_data[PI]["internals"]={"last_rt_tooltip":""} |
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def handle_msg(self, msg, port):#port from 0 to 3 |
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#code.interact(local=locals()) |
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array=pmt.to_python(msg)[1] |
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groupNR=array[2]&0b11110000 |
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groupVar=array[2]&0b00001000 |
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if (groupVar == 0): |
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groupType=str(groupNR >> 4)+"A" |
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else: |
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groupType=str(groupNR >> 4)+"B" |
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PI="%02X%02X" %(array[0],array[1]) |
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TP=(array[2]>>2)&0x1 |
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block2=(array[2]<<8)|(array[3]) #block2 |
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PTY=(block2>>5)&0x1F |
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wrong_blocks=int(array[12]) |
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#initialize dict 1st packet from station: |
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if not self.RDS_data.has_key(PI): |
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self.init_data_for_PI(PI) |
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if self.log: |
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print("found station %s"%PI) |
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if self.decoder_frequencies.has_key(port): |
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freq=self.decoder_frequencies[port] |
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freq_str="%i:%0.1fM"% (port,freq/1e6) |
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self.RDS_data[PI]["tuned_freq"]=freq |
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#self.signals.DataUpdateEvent.emit({'PI':PI,'freq':freq_str}) |
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self.RDS_data[PI]["blockcounts"]["any"]+=1 |
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if self.RDS_data[PI]["blockcounts"]["any"]==5: |
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self.RDS_data[PI]["blockcounts"]["any"]=0 |
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dots="."*self.RDS_data[PI]["blockcounts"]["any"] |
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self.RDS_data[PI]["TP"]=TP |
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self.RDS_data[PI]["PTY"]=self.pty_dict[PTY] |
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self.signals.DataUpdateEvent.emit({'row':port,'PI':PI,'PTY':self.pty_dict[PTY],'TP':TP,'wrong_blocks':wrong_blocks,'dots':dots}) |
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if (groupType == "0A"):#AF PSN |
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adr=array[3]&0b00000011 |
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segment=self.decode_chars(chr(array[6])+chr(array[7])) |
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d=(array[3]>>2)&0x1 |
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self.RDS_data[PI]["DI"][3-adr]=d |
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#DI[0]=d0 0=Mono 1=Stereo |
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#d1 Not artificial head Artificial head |
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#d2 Not compressed Compressed |
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#d3 Static PTY Dynamic PTY |
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TA=(array[3]>>4)&0x1 |
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MS=(array[3]>>3)&0x1 |
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self.RDS_data[PI]["TA"]=TA |
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flag_string="TP:%i, TA:%i, MS:%i, DI:%s"%(TP,TA,MS,str(self.RDS_data[PI]["DI"])) |
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self.signals.DataUpdateEvent.emit({'row':port,'PI':PI,'flags':flag_string}) |
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#224 1110 0000 = no AF |
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#225 1110 0001 = 1AF |
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#249 1111 1001 = 25AF |
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fillercode=205#1100 1101 |
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if not self.RDS_data[PI]["AF"].has_key("main") and self.RDS_data[PI].has_key("tuned_freq"): |
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freq=self.decode_AF_freq(array[4]) |
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if freq==self.RDS_data[PI]["tuned_freq"]: |
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self.RDS_data[PI]["AF"]["main"]=freq |
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if self.log: |
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print("main frequency found in 0A: station:%s, freq:%0.1fM"% (self.RDS_data[PI]["PSN"],freq/1e6)) |
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freq_str="0A:%0.1fM"% (freq/1e6) |
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self.signals.DataUpdateEvent.emit({'PI':PI,'freq':freq_str}) |
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freq=self.decode_AF_freq(array[5]) |
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if freq==self.RDS_data[PI]["tuned_freq"]: |
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self.RDS_data[PI]["AF"]["main"]=freq |
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if self.log: |
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print("main frequency found in 0A: station:%s, freq:%0.1fM"% (self.RDS_data[PI]["PSN"],freq/1e6)) |
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freq_str="0A:%0.1fM"% (freq/1e6) |
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self.signals.DataUpdateEvent.emit({'PI':PI,'freq':freq_str}) |
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if(array[4]>= 224 and array[4]<= 249): |
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#print("AF1 detected") |
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self.RDS_data[PI]["AF"]['number']=array[4]-224 |
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#self.RDS_data[PI]["AF"]['main']=self.decode_AF_freq(array[5]) |
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self.signals.DataUpdateEvent.emit({'row':port,'PI':PI,'AF':self.RDS_data[PI]["AF"]}) |
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if(array[5]>= 224 and array[5]<= 249): |
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print("AF2 detected (shouldn't happen)") |
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name_list=list(self.RDS_data[PI]["PSN"]) |
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if (name_list[adr*2:adr*2+2]==list(segment)):#segment already there |
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segmentcolor="green" |
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elif(name_list[adr*2:adr*2+2]==['_']*2): #segment new |
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segmentcolor="orange" |
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name_list[adr*2:adr*2+2]=segment |
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else:#name changed (böse) |
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segmentcolor="red" |
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name_list=['_']*8 #reset name |
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name_list[adr*2:adr*2+2]=segment |
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#reset stored text: |
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self.RDS_data[PI]["PSN"]="_"*8 |
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self.RDS_data[PI]["PSN_valid"]=[False]*8 |
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self.RDS_data[PI]["PSN_valid"][adr*2:adr*2+2]=[True] *2 |
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self.RDS_data[PI]["PSN"]="".join(name_list) |
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#determine if text is valid |
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valid=True |
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for i in range(0,8): |
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if (not self.RDS_data[PI]["PSN_valid"][i]): |
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valid = False |
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if(valid): |
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textcolor="black" |
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else: |
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textcolor="gray" |
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formatted_text=self.color_text(self.RDS_data[PI]["PSN"],adr*2,adr*2+2,textcolor,segmentcolor) |
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self.signals.DataUpdateEvent.emit({'row':port,'PI':PI,'PSN':formatted_text}) |
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elif (groupType == "1A"):#PIN programme item number |
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PIN=(array[6]<<8)|(array[7]) |
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SLC=(array[4]<<8)|(array[5])&0xfff#slow labeling code |
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radio_paging=array[3]&0x1f |
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LA=array[4]>>7#linkage actuator |
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variant=(array[4]>>4)&0x7 |
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if variant==0: |
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paging=array[4]&0xf |
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extended_country_code=array[5] |
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elif variant==1: |
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TMC_info=SLC |
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elif variant==2: |
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paging_info=SLC |
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elif variant==3: |
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language_codes=SLC |
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elif variant==6: |
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#for use by broadcasters |
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if self.debug: |
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print("PI:%s PSN:%s uses variant 6 of 1A"%(PI,self.RDS_data[PI]["PSN"])) |
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elif variant==7: |
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ESW_channel_identification=SLC |
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PIN_day=(PIN>>11)&0x1f |
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PIN_hour=(PIN>>6)&0x1f |
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PIN_minute=PIN&0x3f |
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PIN_valid= PIN_day in range(1,32) and PIN_hour in range(0,24) and PIN_minute in range(0,60) |
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if PIN_valid: |
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self.RDS_data[PI]["PIN"]=[PIN_day,PIN_hour,PIN_minute] |
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elif (groupType == "2A"):#RT radiotext |
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if(not self.RDS_data[PI].has_key("RT")):#initialize variables |
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self.RDS_data[PI]["RT"]="_"*64 |
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self.RDS_data[PI]["RT_valid"]=[False]*64 |
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self.RDS_data[PI]["RT_all_valid"]=False |
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adr=array[3]&0b00001111 |
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segment=self.decode_chars(chr(array[4])+chr(array[5])+chr(array[6])+chr(array[7])) |
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#print("RT:adress: %d, segment:%s"%(adr,segment)) |
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#self.signals.DataUpdateEvent.emit({'col':5,'row':port,'PI':PI,'groupType':groupType,'adress':adr,'segment':segment}) |
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text_list=list(self.RDS_data[PI]["RT"]) |
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#determine text length: |
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try: |
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text_end=text_list.index('\r') |
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except ValueError: |
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text_end=64 #assume whole string is important |
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pass |
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if (text_list[adr*4:adr*4+4]==list(segment)):#segment already there |
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segmentcolor="green" |
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elif (text_list[adr*4:adr*4+4]==['_']*4):#segment new |
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segmentcolor="orange" |
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text_list[adr*4:adr*4+4]=segment |
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else: |
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segmentcolor="red" |
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text_list=['_']*64 #clear text |
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text_list[adr*4:adr*4+4]=segment |
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#reset stored text: |
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self.RDS_data[PI]["RT"]="_"*64 |
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self.RDS_data[PI]["RT_valid"]=[False]*64 |
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self.RDS_data[PI]["RT_valid"][adr*4:adr*4+4]=[True] *4 |
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self.RDS_data[PI]["RT"]="".join(text_list) |
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#determine if (new) text is valid |
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self.RDS_data[PI]["RT_all_valid"]=True |
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for i in range(0,text_end): |
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if (not self.RDS_data[PI]["RT_valid"][i]): |
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self.RDS_data[PI]["RT_all_valid"] = False |
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if(self.RDS_data[PI]["RT_all_valid"]): |
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textcolor="black" |
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else: |
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textcolor="gray" |
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#formatted_text="<font face='Courier New' color='%s'>%s</font><font face='Courier New' color='%s'>%s</font><font face='Courier New' color='%s'>%s</font>"% (textcolor,self.RDS_data[PI]["RT"][:adr*4],segmentcolor,self.RDS_data[PI]["RT"][adr*4:adr*4+4],textcolor,self.RDS_data[PI]["RT"][adr*4+4:]) |
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formatted_text=self.color_text(self.RDS_data[PI]["RT"],adr*4,adr*4+4,textcolor,segmentcolor) |
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#print(self.RDS_data[PI]["RT"]+" valid:"+str(valid)+"valarr:"+str(self.RDS_data[PI]["RT_valid"])) |
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rtcol=self.colorder.index('text') |
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self.signals.DataUpdateEvent.emit({'col':rtcol,'row':port,'PI':PI,'string':formatted_text}) |
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#code.interact(local=locals()) |
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elif (groupType == "3A"):#ODA announcements (contain application ID "AID") |
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AID=(array[6]<<8)|(array[7])#combine 2 bytes into 1 block |
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app_data=(array[4]<<8)|(array[5])#content defined by ODA-app |
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app_group_raw=array[3]&0x1f #group type in which this app is sent |
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if (app_group_raw&0x1 == 0): |
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app_group=str(app_group_raw >> 1)+"A" |
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else: |
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app_group=str(app_group_raw >> 1)+"B" |
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if not self.RDS_data[PI]["AID_list"].has_key(AID):#new ODA found |
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try: |
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app_name=self.ODA_application_names[AID] |
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except KeyError: |
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if self.debug: |
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print("ERROR: ODA-app-id (AID) '%i' not found in list on station %s, app group:%s"%(AID,app_group,PI)) |
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app_name="unknown" |
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self.RDS_data[PI]["AID_list"][AID]={} |
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self.RDS_data[PI]["AID_list"][AID]["groupType"]=app_group |
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self.RDS_data[PI]["AID_list"][AID]["app_name"]=app_name |
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self.RDS_data[PI]["AID_list"][AID]["app_data"]=app_data |
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if self.log: |
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print("new ODA: AID:%i, name:%s, app_group:%s, station:%s" %(AID,app_name,app_group,PI)) |
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#decode 3A group of TMC |
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if AID==52550:#TMC alert-c |
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variant=app_data>>14 |
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if variant==0: |
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LTN=(app_data>>6)&0x3f#location table number |
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AFI=(app_data>>5)&0x1#alternative frequency indicator |
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M=(app_data>>4)&0x1#transmission mode indicator |
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I=(app_data>>3)&0x1#international (EUROROAD) |
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N=(app_data>>2)&0x1#national |
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R=(app_data>>1)&0x1#regional |
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U=(app_data>>0)&0x1#urban |
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elif variant==1: |
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SID=(app_data>>6)&0x3f#service identifier |
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G=(app_data>>12)&0x3#gap parameter |
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activity_time=(app_data>>4)&0x3 |
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window_time=(app_data>>2)&0x3 |
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delay_time=(app_data>>0)&0x3 |
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elif self.debug: |
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print("unknown variant %i in TMC 3A group"%variant) |
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elif (groupType == "4A"):#CT clock time |
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datecode=((array[3] & 0x03) << 15) | (array[4] <<7)|((array[5] >> 1) & 0x7f) |
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hours=((array[5] & 0x1) << 4) | ((array[6] >> 4) & 0x0f) |
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minutes=((array[6] &0x0F)<<2)|((array[7] >>6)&0x3) |
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offsetdir=(array[7]>>5)&0x1 |
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local_time_offset=0.5*((array[7])&0x1F) |
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if(offsetdir==1): |
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local_time_offset*=-1 |
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year=int((datecode - 15078.2) / 365.25) |
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month=int((datecode - 14956.1 - int(year * 365.25)) / 30.6001) |
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day=datecode - 14956 - int(year * 365.25) - int(month * 30.6001) |
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if(month == 14 or month == 15):#no idea why -> annex g of RDS spec |
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year += 1; |
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month -= 13 |
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year+=1900 |
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#month was off by one different rounding in c and python? |
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month-=1 |
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#datestring="%02i.%02i.%4i, %02i:%02i (%+.1fh)" % (day,month,year,hours,minutes,local_time_offset) |
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timestring="%02i:%02i (%+.1fh)" % (hours,minutes,local_time_offset) |
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datestring="%02i.%02i.%4i" % (day,month,year) |
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ctcol=self.colorder.index('time') |
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self.signals.DataUpdateEvent.emit({'col':ctcol,'row':port,'PI':PI,'string':timestring,'tooltip':datestring}) |
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#TMC-alert-c (grouptype mostly 8A): |
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elif self.RDS_data[PI]["AID_list"].has_key(52550) and self.RDS_data[PI]["AID_list"][52550]["groupType"]==groupType:#TMC alert-C |
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tmc_x=array[3]&0x1f #lower 5 bit of block2 |
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tmc_y=(array[4]<<8)|(array[5]) #block3 |
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tmc_z=(array[6]<<8)|(array[7])#block4 |
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tmc_hash=md5.new(str([PI,tmc_x,tmc_y,tmc_z])).hexdigest() |
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tmc_T=tmc_x>>4 #0:TMC-message 1:tuning info/service provider name |
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if tmc_T == 0: #message |
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#print("TMC-message") |
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tmc_F=(tmc_x>>3)&0x1 #single/multiple group |
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tmc_event=int(tmc_y&0x7ff) #Y10-Y0 |
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tmc_location=tmc_z |
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tmc_DP=tmc_x&0x7 #duration and persistence 3 bits |
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tmc_extent=(tmc_y>>11)&0x7 #3 bits (Y13-Y11) |
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tmc_D=tmc_y>>15 #diversion bit(Y15) |
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tmc_dir=(tmc_y>>14)&0x1 #+-direction bit (Y14) |
|
#LOCATIONCODE;TYPE;SUBTYPE;ROADNUMBER;ROADNAME;FIRST_NAME;SECOND_NAME;AREA_REFERENCE;LINEAR_REFERENCE;NEGATIVE_OFFSET;POSITIVE_OFFSET;URBAN;INTERSECTIONCODE;INTERRUPTS_ROAD;IN_POSITIVE;OUT_POSITIVE;IN_NEGATIVE;OUT_NEGATIVE;PRESENT_POSITIVE;PRESENT_NEGATIVE;EXIT_NUMBER;DIVERSION_POSITIVE;DIVERSION_NEGATIVE;VERÄNDERT;TERN;NETZKNOTEN_NR;NETZKNOTEN2_NR;STATION;X_KOORD;Y_KOORD;POLDIR;ADMIN_County;ACTUALITY;ACTIVATED;TESTED;SPECIAL1;SPECIAL2;SPECIAL3;SPECIAL4;SPECIAL5;SPECIAL6;SPECIAL7;SPECIAL8;SPECIAL9;SPECIAL10 |
|
try: |
|
location=self.lcl_dict[tmc_location] |
|
loc_type=location[0] |
|
loc_subtype=location[1] |
|
loc_roadnumber=location[2] |
|
loc_roadname=location[3] |
|
loc_first_name=location[4] |
|
loc_second_name=location[5] |
|
loc_area_ref=int(location[6]) |
|
event_name=self.ecl_dict[tmc_event] |
|
refloc_name="" |
|
try: |
|
refloc=self.lcl_dict[loc_area_ref] |
|
refloc_name=refloc[4] |
|
except KeyError: |
|
#print("location '%i' not found"%tmc_location) |
|
pass |
|
if not self.TMC_data.has_key(tmc_hash):#if message new |
|
message_string="TMC-message,event:%s location:%i,reflocs:%s, station:%s"%(event_name,tmc_location,self.ref_locs(tmc_location,""),self.RDS_data[PI]["PSN"]) |
|
self.TMC_data[tmc_hash]={"PI":PI,"string":message_string} |
|
self.signals.DataUpdateEvent.emit({'TMC_log':message_string}) |
|
#print(message_string) |
|
except KeyError: |
|
#print("location '%i' not found"%tmc_location) |
|
pass |
|
#code.interact(local=locals()) |
|
else:#alert plus or provider info |
|
adr=tmc_x&0xf |
|
if 4 <= adr and adr <= 9: |
|
#seen variants 4569, 6 most often |
|
#print("TMC-info variant:%i"%adr) |
|
if adr== 7:#freq of tuned an mapped station (not seen yet) |
|
freq_TN=tmc_y>>8 |
|
freq_ON=tmc_y&0xff#mapped frequency |
|
if self.debug: |
|
print("TMC-info: TN:%i"%freq_TN) |
|
self.RDS_data[PI]["TMC_TN"]=freq_TN |
|
else: |
|
a=0 |
|
if self.debug: |
|
print("alert plus")#(not seen yet) |
|
|
|
|
|
#RadioText+ (grouptype mostly 12A): |
|
elif self.RDS_data[PI]["AID_list"].has_key(19415) and self.RDS_data[PI]["AID_list"][19415]["groupType"]==groupType:#RT+ |
|
if not self.RDS_data[PI].has_key("RT+"): |
|
#self.RDS_data[PI]["RT+"]={"history":{},"last_item_toggle_bit":2} |
|
self.RDS_data[PI]["RT+"]={"last_item_toggle_bit":2} |
|
self.RDS_data[PI]["RT+_history"]={} |
|
#self.RDS_data[PI]["RT+"]["last_item_toggle_bit"]=2 |
|
A3_data=self.RDS_data[PI]["AID_list"][19415]["app_data"] |
|
template_number=A3_data&0xff |
|
SCB=(A3_data >> 8)&0x0f#server control bit |
|
CB_flag=(A3_data>>12)&0x1 #is set if template available |
|
rtp_message= ((array[3]&0x1f)<<32)|(array[4]<<24)|(array[5]<<16)|(array[6]<<8)|(array[7]) |
|
item_toggle_bit=(rtp_message>>36)&0x1 |
|
item_running_bit=(rtp_message>>35)&0x1 |
|
tag1=(rtp_message>>17)&(2**18-1)#6+6+6 |
|
tag2=(rtp_message)&(2**17-1)#6+6+5 |
|
tag1_type=self.rtp_classnames[int(tag1>>12)] |
|
tag2_type=self.rtp_classnames[int(tag2>>11)] |
|
tag1_start=int((tag1>>6)&(2**6-1)) |
|
tag1_len=int(tag1&(2**6-1)) |
|
tag2_start=int((tag2>>5)&(2**6-1)) |
|
tag2_len=int(tag2&(2**5-1)) |
|
if not self.RDS_data[PI]["RT+"]["last_item_toggle_bit"] == item_toggle_bit: #new item |
|
#self.RDS_data[PI]["RT+"]["history"][str(datetime.now())]=self.RDS_data[PI]["internals"]["last_rt_tooltip"] |
|
self.RDS_data[PI]["RT+_history"][str(datetime.now())]=copy.deepcopy(self.RDS_data[PI]["RT+"])#save old item |
|
self.RDS_data[PI]["RT+"]["last_item_toggle_bit"] = item_toggle_bit |
|
rtcol=self.colorder.index('text') |
|
if self.debug: |
|
print("toggle bit changed on PI:%s, cleared RT-tt"%PI) |
|
self.signals.DataUpdateEvent.emit({'col':rtcol,'row':port,'PI':PI,'tooltip':""}) |
|
if self.RDS_data[PI].has_key("RT"): |
|
rt=self.RDS_data[PI]["RT"] |
|
rt_valid=self.RDS_data[PI]["RT_valid"] |
|
if not tag1_type=="DUMMY_CLASS" and all(rt_valid[tag1_start:tag1_start+tag1_len+1]): |
|
self.RDS_data[PI]["RT+"][tag1_type]=rt[tag1_start:tag1_start+tag1_len+1] |
|
if not tag2_type=="DUMMY_CLASS" and all(rt_valid[tag2_start:tag2_start+tag2_len+1]): |
|
self.RDS_data[PI]["RT+"][tag2_type]=rt[tag2_start:tag2_start+tag2_len+1] |
|
tags="ir:%i,it:%i"%(item_running_bit,item_toggle_bit) |
|
afcol=self.colorder.index('AF') |
|
self.signals.DataUpdateEvent.emit({'col':afcol,'row':port,'PI':PI,'string':tags}) |
|
#if(tag1_type=="ITEM.ARTIST"and tag2_type=="ITEM.TITLE" and self.RDS_data[PI].has_key("RT") and self.RDS_data[PI]["RT_all_valid"]): |
|
if(tag2_type=="ITEM.TITLE" and self.RDS_data[PI].has_key("RT")):#TODO remove duplicate code |
|
rt=self.RDS_data[PI]["RT"] |
|
rt_valid=self.RDS_data[PI]["RT_valid"] |
|
artist="?" |
|
song="?" |
|
if all(rt_valid[tag1_start:tag1_start+tag1_len+1]): |
|
artist=rt[tag1_start:tag1_start+tag1_len+1] |
|
if all(rt_valid[tag2_start:tag2_start+tag2_len+1]): |
|
song=rt[tag2_start:tag2_start+tag2_len+1] |
|
formatted_text="%s by %s"%(song,artist) |
|
rtcol=self.colorder.index('text') |
|
#only update tooltip if text changed -> remove flicker, still flickers :( |
|
if not formatted_text == self.RDS_data[PI]["internals"]["last_rt_tooltip"]: |
|
self.signals.DataUpdateEvent.emit({'col':rtcol,'row':port,'PI':PI,'tooltip':formatted_text}) |
|
self.RDS_data[PI]["internals"]["last_rt_tooltip"] = formatted_text |
|
#elif(not tag1_type=="ITEM.ARTIST" and not tag1_type=="DUMMY_CLASS"): |
|
# print("%s:RT+: tag1_type:%s, tag2_type:%s"%(PI,tag1_type,tag2_type)) |
|
elif (groupType == "14A"):#EON enhanced other networks |
|
#TN = tuned network, ON=other network |
|
if not self.RDS_data[PI].has_key("EON"): |
|
self.RDS_data[PI]["EON"]={} |
|
TP_ON=(array[3]>>4)&0x1 |
|
PI_ON="%02X%02X" %(array[6],array[7]) |
|
variant=array[3]&0xf |
|
self.signals.DataUpdateEvent.emit({'PI':PI_ON,'TP':TP_ON}) |
|
if not self.RDS_data.has_key(PI_ON): |
|
self.init_data_for_PI(PI_ON) |
|
self.RDS_data[PI_ON]["TP"]=TP_ON |
|
if self.log: |
|
print("found station %s via EON on station %s"%(PI_ON,PI)) |
|
if not self.RDS_data[PI]["EON"].has_key(PI_ON): |
|
self.RDS_data[PI]["EON"][PI_ON]={} |
|
self.RDS_data[PI]["EON"][PI_ON]["PSN"]="_"*8 |
|
if variant in range(4):#variant 0..3 -> PS_ON |
|
segment=self.decode_chars(chr(array[4])+chr(array[5])) |
|
name_list=list(self.RDS_data[PI_ON]["PSN"]) |
|
#name_list=list(self.RDS_data[PI]["EON"][PI_ON]["PSN"]) |
|
name_list[variant*2:variant*2+2]=segment |
|
if (name_list[variant*2:variant*2+2]==list(segment)):#segment already there |
|
segmentcolor="purple" |
|
elif(name_list[variant*2:variant*2+2]==['_']*2): #segment new |
|
segmentcolor="purple" |
|
name_list[variant*2:variant*2+2]=segment |
|
else:#name changed (böse) |
|
segmentcolor="red" |
|
name_list=['_']*8 #reset name |
|
name_list[variant*2:variant*2+2]=segment |
|
#reset stored text: |
|
self.RDS_data[PI_ON]["PSN"]="_"*8 |
|
self.RDS_data[PI_ON]["PSN_valid"]=[False]*8 |
|
self.RDS_data[PI_ON]["PSN_valid"][variant*2:variant*2+2]=[True] *2 |
|
PS_ON_str="".join(name_list) |
|
self.RDS_data[PI_ON]["PSN"]=PS_ON_str |
|
self.RDS_data[PI]["EON"][PI_ON]["PSN"]=PS_ON_str |
|
#determine if text is valid |
|
valid=True |
|
for i in range(0,8): |
|
if (not self.RDS_data[PI_ON]["PSN_valid"][i]): |
|
valid = False |
|
if(valid): |
|
textcolor="black" |
|
else: |
|
textcolor="gray" |
|
formatted_text=self.color_text(self.RDS_data[PI_ON]["PSN"],variant*2,variant*2+2,textcolor,segmentcolor) |
|
self.RDS_data[PI]["EON"][PI_ON]["PSN"]=PS_ON_str |
|
self.RDS_data[PI_ON]["PSN"]=PS_ON_str |
|
#formatted_text="<font face='Courier New' color='%s'>%s</font>"%("purple",PS_ON_str) |
|
self.signals.DataUpdateEvent.emit({'PI':PI_ON,'PSN':formatted_text}) |
|
if variant==4:#AF_ON |
|
if self.debug: |
|
print("AF_ON method A")#TODO |
|
if variant in range(5,10):#variant 5..9 -> mapped freqs |
|
freq_TN=self.decode_AF_freq(array[4]) |
|
freq_ON=self.decode_AF_freq(array[5]) |
|
#lock in tuned network if freq_TN matches decoder frequency |
|
if(self.RDS_data[PI].has_key("tuned_freq") and freq_TN==self.RDS_data[PI]["tuned_freq"]and not self.RDS_data[PI]["AF"].has_key("main")): |
|
if self.log: |
|
print("main frequency found: station:%s, freq:%0.1fM"% (self.RDS_data[PI]["PSN"],freq_TN/1e6)) |
|
self.RDS_data[PI]["AF"]["main"]=freq_TN |
|
#lock in ON if TN is locked in |
|
if(self.RDS_data[PI]["AF"].has_key("main") and self.RDS_data[PI]["AF"]["main"]==freq_TN and not self.RDS_data[PI_ON]["AF"].has_key("main")): |
|
if self.log: |
|
print("mapped frequency found: station:%s, freq:%0.1fM"% (self.RDS_data[PI_ON]["PSN"],freq_ON/1e6)) |
|
self.RDS_data[PI_ON]["AF"]["main"]=freq_ON |
|
freq_str="EON:%0.1fM"% (freq_ON/1e6) |
|
self.signals.DataUpdateEvent.emit({'PI':PI_ON,'freq':freq_str}) |
|
#print("mapped freq in variant %i:, %i->%i"%(variant,freq_TN,freq_ON)) |
|
if variant==13:#PTY and TA of ON |
|
PTY_ON=array[4]>>3 |
|
TA_ON=array[5]&0x1 |
|
self.RDS_data[PI]["EON"][PI_ON]["TA_ON"]=TA_ON |
|
self.RDS_data[PI]["EON"][PI_ON]["PTY_ON"]=PTY_ON |
|
self.RDS_data[PI_ON]["TA"]=TA_ON |
|
self.RDS_data[PI_ON]["PTY"]=self.pty_dict[PTY_ON] |
|
self.signals.DataUpdateEvent.emit({'PI':PI_ON,'PTY':self.pty_dict[PTY_ON],'TA':TA_ON}) |
|
#rest is reserved |
|
if variant==14:#programme item number of ON |
|
PIN_ON=(array[4]<<8)|(array[5]) |
|
#else:#other group |
|
if 1==1: |
|
if self.RDS_data[PI]["blockcounts"].has_key(groupType): |
|
self.RDS_data[PI]["blockcounts"][groupType] +=1 #increment |
|
else: |
|
self.RDS_data[PI]["blockcounts"][groupType] = 1 #initialize (1st group of this type) |
|
|
|
#printdelay=50 |
|
printdelay=500 |
|
self.printcounter+=0#printing disabled |
|
if self.printcounter == printdelay and self.debug: |
|
#code.interact(local=locals()) |
|
for key in self.RDS_data: |
|
if self.RDS_data[key].has_key("PSN"): |
|
psn=self.RDS_data[key]["PSN"] |
|
else: |
|
psn="?" |
|
print("%s(%s):"%(psn,key),end="") |
|
pp.pprint(self.RDS_data[key]["blockcounts"]) |
|
if self.RDS_data[key].has_key("RT+"): |
|
print("RT+:",end="") |
|
pp.pprint(self.RDS_data[key]["RT+"]) |
|
self.printcounter=0 |
|
#print("group of type %s not decoded on station %s"% (groupType,PI)) |
|
def decode_AF_freq(self,freq_raw): |
|
if freq_raw in range(1,205):#1..204 |
|
return(87500000+freq_raw*100000)#returns int |
|
#return(87.5e6+freq_raw*0.1e6)#returns float |
|
else: |
|
return(0) |
|
def ref_locs(self,loc,name_string): |
|
if(loc==34196):#europe |
|
return(name_string) |
|
else: |
|
try: |
|
locarray=self.lcl_dict[loc] |
|
aref=int(locarray[6]) |
|
loc_name=locarray[4] |
|
return(self.ref_locs(aref,name_string+","+loc_name)) |
|
#return(loc_name) |
|
except KeyError: |
|
return(name_string) |
|
|
|
def decode_chars(self,charstring): |
|
alphabet={ |
|
0b1000:u"áàéèíìóòúùÑÇŞßiIJ", |
|
0b1001:u"âäêëîïôöûüñçş??ij", |
|
0b1100:u"ÁÀÉÈÍÌÓÒÚÙŘČŠŽĐĿ", |
|
0b1101:u"áàéèíìóòúùřčšžđŀ"} |
|
charlist=list(charstring) |
|
for i,char in enumerate(charstring): |
|
#code.interact(local=locals()) |
|
if ord(char)<= 0b01111111: |
|
charlist[i]=char #use ascii |
|
else: |
|
#split byte |
|
alnr=(ord(char)&0xF0 )>>4 #upper 4 bit |
|
index=ord(char)&0x0F #lower 4 bit |
|
#code.interact(local=locals()) |
|
try: |
|
charlist[i]=alphabet[alnr][index] |
|
except KeyError: |
|
charlist[i]='?'#symbol not decoded #TODO |
|
pass |
|
return "".join(charlist) |
|
def color_text(self, text, start,end,textcolor,segmentcolor): |
|
formatted_text="<font face='Courier New' color='%s'>%s</font><font face='Courier New' color='%s'>%s</font><font face='Courier New' color='%s'>%s</font>"% (textcolor,text[:start],segmentcolor,text[start:end],textcolor,text[end:]) |
|
return formatted_text |
|
class rds_parser_table_qt_Widget(QtGui.QWidget): |
|
def __init__(self, signals,label,tableobj): |
|
#print("gui initializing")self.tableobj.RDS_data["D3A2"] |
|
self.signals = signals |
|
self.tableobj=tableobj |
|
self.signals.DataUpdateEvent.connect(self.display_data) |
|
""" Creates the QT Range widget """ |
|
QtGui.QWidget.__init__(self) |
|
layout = Qt.QVBoxLayout() |
|
self.label = Qt.QLabel(label) |
|
layout.addWidget(self.label) |
|
self.setLayout(layout) |
|
#self.decoder_to_PI={} |
|
self.PI_to_row={} |
|
self.table=QtGui.QTableWidget(self) |
|
rowcount=2 |
|
self.table.setRowCount(rowcount) |
|
self.table.setColumnCount(9) |
|
self.table.setEditTriggers(QtGui.QAbstractItemView.NoEditTriggers) #disallow editing |
|
#Data |
|
empty_text32='________________________________' |
|
empty_text64='________________________________________________________________' |
|
#empty_text64='\xe4'*64 |
|
self.data = {'ID':[ QtGui.QLabel() for i in range(rowcount)], |
|
'freq':[ QtGui.QLabel() for i in range(rowcount)], |
|
'name':[ QtGui.QLabel() for i in range(rowcount)], |
|
'PTY':[ QtGui.QLabel() for i in range(rowcount)], |
|
'AF':[ QtGui.QLabel() for i in range(rowcount)], |
|
'time':[ QtGui.QLabel() for i in range(rowcount)], |
|
'text':[ QtGui.QLabel("_"*64) for i in range(rowcount)], |
|
'quality':[ QtGui.QLabel() for i in range(rowcount)], |
|
'buttons':[]} |
|
#Enter data onto Table |
|
self.colorder=['ID','freq','name','PTY','AF','time','text','quality','buttons'] |
|
horHeaders = [] |
|
for n, key in enumerate(self.colorder): |
|
#for n, key in enumerate(sorted(self.data.keys())): |
|
horHeaders.append(key) |
|
for m, item in enumerate(self.data[key]): |
|
if type(item)==int:#convert ints to strings |
|
newitem = QtGui.QTableWidgetItem(str(item)) |
|
self.table.setItem(m, n, newitem) |
|
elif isinstance(item,QtGui.QLabel): |
|
self.table.setCellWidget(m,n,item) |
|
else: |
|
newitem = QtGui.QTableWidgetItem(item) |
|
self.table.setItem(m, n, newitem) |
|
for i in range(rowcount):#create buttons |
|
button=QtGui.QPushButton("getDetails") |
|
self.table.setCellWidget(i,self.table.columnCount()-1,button) |
|
button.clicked.connect(functools.partial(self.getDetails, row=i)) |
|
#button.clicked.connect(self.getDetails) |
|
#Add Header |
|
layout.addWidget(self.label) |
|
layout.addWidget(self.table) |
|
|
|
self.table.setHorizontalHeaderLabels(horHeaders) |
|
#self.table.setMaximumHeight(300)#TODO use dynamic value |
|
|
|
self.tmc_message_label=QtGui.QLabel("TMC messages:") |
|
|
|
|
|
self.event_filter=QtGui.QLineEdit()#QPlainTextEdit ? |
|
self.location_filter=QtGui.QLineEdit(u"Baden-Württemberg") |
|
|
|
button = QtGui.QPushButton("code.interact") |
|
button.clicked.connect(self.onCLick) |
|
layout.addWidget(button) |
|
self.freq_label=QtGui.QLabel("decoder frequencies:") |
|
layout.addWidget(self.freq_label) |
|
filter_layout = Qt.QHBoxLayout() |
|
filter_layout.addWidget(QtGui.QLabel("event filter:")) |
|
filter_layout.addWidget(self.event_filter) |
|
filter_layout.addWidget(QtGui.QLabel("location filter:")) |
|
filter_layout.addWidget(self.location_filter) |
|
|
|
layout.addLayout(filter_layout) |
|
layout.addWidget(self.tmc_message_label) |
|
self.logOutput = Qt.QTextEdit() |
|
self.logOutput.setReadOnly(True) |
|
self.logOutput.setLineWrapMode(Qt.QTextEdit.NoWrap) |
|
self.logOutput.setMaximumHeight(150) |
|
font = self.logOutput.font() |
|
font.setFamily("Courier") |
|
font.setPointSize(10) |
|
layout.addWidget(self.logOutput) |
|
def insert_empty_row(self): |
|
rowPosition = self.table.rowCount() |
|
self.table.insertRow(rowPosition) |
|
for col in range(self.table.columnCount()-1):#all labels except in last column -> buttons |
|
self.table.setCellWidget(rowPosition,col,QtGui.QLabel()) |
|
button=QtGui.QPushButton("getDetails") |
|
self.table.setCellWidget(rowPosition,self.table.columnCount()-1,button) |
|
button.clicked.connect(functools.partial(self.getDetails, row=rowPosition)) |
|
def display_data(self, event): |
|
#pp.pprint(event) |
|
if type(event)==dict and event.has_key('decoder_frequencies'): |
|
self.freq_label.setText(event['decoder_frequencies']) |
|
if type(event)==dict and event.has_key('TMC_log'): |
|
ef=unicode(self.event_filter.text().toUtf8(), encoding="UTF-8").lower() |
|
lf=unicode(self.location_filter.text().toUtf8(), encoding="UTF-8").lower() |
|
text=unicode(event['TMC_log'], encoding="UTF-8").lower() |
|
if not text.find(lf)==-1 and not text.find(ef)==-1: |
|
self.logOutput.append(Qt.QString.fromUtf8(event['TMC_log'])) |
|
#if type(event)==dict and event.has_key('row'): |
|
if type(event)==dict and event.has_key('PI'): |
|
#row=event['row'] |
|
PI=event['PI'] |
|
if not self.PI_to_row.has_key(PI): |
|
self.PI_to_row[PI]=len(self.PI_to_row)#zero for first PI seen, then count up |
|
self.insert_empty_row() |
|
row=self.PI_to_row[PI] |
|
PIcol=self.colorder.index('ID') |
|
self.table.cellWidget(row,PIcol).setText(PI) |
|
|
|
if event.has_key('freq'): |
|
freqcol=self.colorder.index('freq') |
|
item=self.table.cellWidget(row,freqcol) |
|
item.setText(event['freq']) |
|
if event.has_key('wrong_blocks'): |
|
item=self.table.cellWidget(row,self.colorder.index('quality')) |
|
quality_string="%i%% %s"% (100-2*event['wrong_blocks'],event['dots']) |
|
item.setText(quality_string) |
|
if event.has_key('PTY'): |
|
item=self.table.cellWidget(row,self.colorder.index('PTY')) |
|
item.setText(event['PTY']) |
|
if event.has_key('flags'): |
|
item=self.table.cellWidget(row,self.colorder.index('PTY')) |
|
item.setToolTip(Qt.QString(event['flags'])) |
|
if event.has_key('string'): |
|
item=self.table.cellWidget(row,event['col']) |
|
item.setText(event['string']) |
|
if event.has_key('tooltip'): |
|
item=self.table.cellWidget(row,event['col']) |
|
item.setToolTip(Qt.QString(event['tooltip'])) |
|
#if event.has_key('PI'): |
|
##setPI |
|
#PIcol=self.colorder.index('ID') |
|
##rtpcol=self.colorder.index('RT+') |
|
#rtcol=self.colorder.index('text') |
|
#if not str(self.table.item(row,PIcol).text()) == event['PI']: |
|
##self.table.cellWidget(row,rtpcol).setText("")#clear RT+ on changed PI |
|
#print("PI changed on row %i, cleared RT-tt"%row) |
|
#self.table.cellWidget(row,rtcol).setToolTip(Qt.QString("")) |
|
#self.table.item(row,PIcol).setText(event['PI']) |
|
if event.has_key('AF'): |
|
#setAF |
|
PIcol=self.colorder.index('AF') |
|
self.table.cellWidget(row,PIcol).setText(str(event['AF']['number'])) |
|
if event.has_key('PSN'): |
|
#setPSN |
|
PSNcol=self.colorder.index('name') |
|
item=self.table.cellWidget(row,PSNcol) |
|
item.setText(event['PSN']) |
|
self.table.resizeColumnsToContents() |
|
def getDetails(self,row): |
|
PIcol=self.colorder.index('ID') |
|
PI=str(self.table.cellWidget(row,PIcol).text()) |
|
#PI= |
|
#print("row:%i,PI:%s"%(row,PI)) |
|
#print(self.tableobj.RDS_data[PI]) |
|
table=chart.DataTable() |
|
table.addColumn('groupType') |
|
table.addColumn('numPackets') |
|
#ordered_blockcounts=self.tableobj.RDS_data["D00F"]['blockcounts'] |
|
blockcounts=self.tableobj.RDS_data[PI]['blockcounts'].copy() |
|
del blockcounts['any'] |
|
#lambda function removes last character of PI string (A or B) and sorts based on integer valure of number in front |
|
for key in sorted(blockcounts,key=lambda elem: int(elem[0:-1])): |
|
count=blockcounts[key] |
|
table.addRow([key+": "+str(count),count]) |
|
mychart=chart.PieChart(table) |
|
view = chart.DialogViewer() |
|
view.setGraph(mychart) |
|
#view.resize(360, 240) |
|
#view.resize(380, 550) |
|
rds_data=self.tableobj.RDS_data[PI].copy() |
|
try: |
|
del rds_data['blockcounts'] |
|
del rds_data['PSN_valid'] |
|
del rds_data['RT_valid'] |
|
except KeyError: |
|
pass |
|
l=QtGui.QLabel("Data:%s"%pp.pformat(rds_data)) |
|
l.setTextInteractionFlags(QtCore.Qt.TextSelectableByMouse |QtCore.Qt.TextSelectableByKeyboard) |
|
l.setWordWrap(True) |
|
#l=QtGui.QLabel("Data:") |
|
view.layout().addWidget(l) |
|
#code.interact(local=locals()) |
|
view.exec_() |
|
def onCLick(self): |
|
print("button clicked") |
|
code.interact(local=locals()) |
|
#self.logOutput.clear() |
|
#self.reset_color() |
|
#pp.pprint(event) |
|
if __name__ == "__main__": |
|
from PyQt4 import Qt |
|
import sys |
|
|
|
# def valueChanged(frequency): |
|
# print("Value updated - " + str(frequency)) |
|
|
|
app = Qt.QApplication(sys.argv) |
|
# widget = RangeWidget(Range(0, 100, 10, 1, 100), valueChanged, "Test", "counter_slider", int) |
|
mainobj= rds_parser_table_qt_Signals() |
|
#mainobj=None |
|
widget = rds_parser_table_qt_Widget(mainobj,"TestLabel") |
|
widget.show() |
|
widget.setWindowTitle("Test Qt gui") |
|
widget.setGeometry(200,200,600,300) |
|
#code.interact(local=locals()) |
|
sys.exit(app.exec_()) |
|
|
|
widget = None
|
|
|