#!/usr/bin/env python # Copyright 2012 Nick Foster # # This file is part of gr-air-modes # # gr-air-modes is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3, or (at your option) # any later version. # # gr-air-modes is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with gr-air-modes; see the file COPYING. If not, write to # the Free Software Foundation, Inc., 51 Franklin Street, # Boston, MA 02110-1301, USA. # # This file contains data models, view delegates, and associated classes # for handling the GUI back end data model. from PyQt4 import QtCore, QtGui import air_modes import threading, math, time from air_modes.exceptions import * #fades the ICAOs out as their last report gets older, #and display ident if available, ICAO otherwise class ICAOViewDelegate(QtGui.QStyledItemDelegate): def paint(self, painter, option, index): #draw selection rectangle if option.state & QtGui.QStyle.State_Selected: painter.setBrush(QtGui.QPalette().highlight()) painter.drawRect(option.rect) #if there's an ident available, use it. otherwise print the ICAO if index.model().data(index.model().index(index.row(), 9)) != QtCore.QVariant(): paintstr = index.model().data(index.model().index(index.row(), 9)).toString() else: paintstr = index.model().data(index.model().index(index.row(), 0)).toString() last_report = index.model().data(index.model().index(index.row(), 1)).toDouble()[0] age = (time.time() - last_report) max_age = 60. #age at which it grays out #minimum alpha is 0x40 (oldest), max is 0xFF (newest) age = min(age, max_age) alpha = int(0xFF - (0xBF / max_age) * age) painter.setPen(QtGui.QColor(0, 0, 0, alpha)) painter.drawText(option.rect.left()+3, option.rect.top(), option.rect.width(), option.rect.height(), option.displayAlignment, paintstr) #the data model used to display dashboard data. class dashboard_data_model(QtCore.QAbstractTableModel): def __init__(self, parent): QtCore.QAbstractTableModel.__init__(self, parent) self._data = [] self.lock = threading.Lock() self._colnames = ["icao", "seen", "rssi", "latitude", "longitude", "altitude", "speed", "heading", "vertical", "ident", "type", "range", "bearing"] #custom precision limits for display self._precisions = [None, None, None, 6, 6, 0, 0, 0, 0, None, None, 2, 0] for field in self._colnames: self.setHeaderData(self._colnames.index(field), QtCore.Qt.Horizontal, field) def rowCount(self, parent=QtCore.QVariant()): return len(self._data) def columnCount(self, parent=QtCore.QVariant()): return len(self._colnames) def data(self, index, role=QtCore.Qt.DisplayRole): if not index.isValid(): return QtCore.QVariant() if index.row() >= self.rowCount(): return QtCore.QVariant() if index.column() >= self.columnCount(): return QtCore.QVariant() if (role != QtCore.Qt.DisplayRole) and (role != QtCore.Qt.EditRole): return QtCore.QVariant() if self._data[index.row()][index.column()] is None: return QtCore.QVariant() else: #if there's a dedicated precision for that column, print it out with the specified precision. #this only works well if you DON'T have other views/widgets that depend on numeric data coming out. #i don't like this, but it works for now. unfortunately it seems like Qt doesn't give you a #good alternative. if self._precisions[index.column()] is not None: return QtCore.QVariant("%.*f" % (self._precisions[index.column()], self._data[index.row()][index.column()])) else: if self._colnames[index.column()] == "icao": return QtCore.QVariant("%06x" % self._data[index.row()][index.column()]) #return as hex string else: return QtCore.QVariant(self._data[index.row()][index.column()]) def setData(self, index, value, role=QtCore.Qt.EditRole): self.lock.acquire() if not index.isValid(): return False if index.row() >= self.rowCount(): return False if index.column >= self.columnCount(): return False if role != QtCore.Qt.EditRole: return False self._data[index.row()][index.column()] = value self.lock.release() #addRecord implements an upsert on self._data; that is, #it updates the row if the ICAO exists, or else it creates a new row. def addRecord(self, record): self.lock.acquire() icaos = [x[0] for x in self._data] if record["icao"] in icaos: row = icaos.index(record["icao"]) for column in record: self._data[row][self._colnames.index(column)] = record[column] #create index to existing row and tell the model everything's changed in this row #or inside the for loop, use dataChanged on each changed field (might be better) self.dataChanged.emit(self.createIndex(row, 0), self.createIndex(row, len(self._colnames)-1)) #only create records for ICAOs with ADS-B reports elif ("latitude" or "speed" or "ident") in record: #find new inserted row number icaos.append(record["icao"]) newrowoffset = sorted(icaos).index(record["icao"]) self.beginInsertRows(QtCore.QModelIndex(), newrowoffset, newrowoffset) newrecord = [None for x in xrange(len(self._colnames))] for col in xrange(0, len(self._colnames)): if self._colnames[col] in record: newrecord[col] = record[self._colnames[col]] self._data.append(newrecord) self._data = sorted(self._data, key = lambda x: x[0]) #sort by icao self.endInsertRows() self.lock.release() self.prune() #weeds out ICAOs older than 5 minutes def prune(self): self.lock.acquire() for (index,row) in enumerate(self._data): if time.time() - row[1] >= 60: self.beginRemoveRows(QtCore.QModelIndex(), index, index) self._data.pop(index) self.endRemoveRows() self.lock.release() class dashboard_output(air_modes.parse): def __init__(self, mypos, model): air_modes.parse.__init__(self, mypos) self.model = model def output(self, msg): [data, ecc, reference, timestamp] = msg.split() try: data = air_modes.modes_reply(long(data, 16)) ecc = long(ecc, 16) rssi = 10.*math.log10(float(reference)) msgtype = data["df"] now = time.time() newrow = {"rssi": rssi, "seen": now} if msgtype in [0, 4, 20]: newrow["altitude"] = air_modes.altitude.decode_alt(data["ac"], True) newrow["icao"] = ecc self.model.addRecord(newrow) elif msgtype == 17: icao = data["aa"] newrow["icao"] = icao subtype = data["ftc"] if subtype == 4: (ident, actype) = self.parseBDS08(data) newrow["ident"] = ident newrow["type"] = actype elif 5 <= subtype <= 8: (ground_track, decoded_lat, decoded_lon, rnge, bearing) = self.parseBDS06(data) newrow["heading"] = ground_track newrow["latitude"] = decoded_lat newrow["longitude"] = decoded_lon newrow["altitude"] = 0 if rnge is not None: newrow["range"] = rnge newrow["bearing"] = bearing elif 9 <= subtype <= 18: (altitude, decoded_lat, decoded_lon, rnge, bearing) = self.parseBDS05(data) newrow["altitude"] = altitude newrow["latitude"] = decoded_lat newrow["longitude"] = decoded_lon if rnge is not None: newrow["range"] = rnge newrow["bearing"] = bearing elif subtype == 19: subsubtype = data["sub"] velocity = None heading = None vert_spd = None if subsubtype == 0: (velocity, heading, vert_spd) = self.parseBDS09_0(data) elif 1 <= subsubtype <= 2: (velocity, heading, vert_spd) = self.parseBDS09_1(data) newrow["speed"] = velocity newrow["heading"] = heading newrow["vertical"] = vert_spd self.model.addRecord(newrow) except ADSBError: return