def stack_all_commands(self):
"""create and stack command"""
params = ('lat', 'lon', 'alt', 'speed', 'heading', 'callsign')
for i, d in self.acpool.items():
# check if all needed keys are in dict
if set(params).issubset(d):
acid = d['callsign']
# check is aircraft is already beening displayed
if (self.traf.id2idx(acid) < 0):
mdl = self.default_ac_mdl
v = aero.tas2cas(d['speed'], d['alt'] * aero.ft)
cmdstr = 'CRE %s, %s, %f, %f, %f, %d, %d' % \
(acid, mdl, d['lat'], d['lon'],
d['heading'], d['alt'], v)
stack.stack(cmdstr)
else:
cmdstr = 'MOVE %s, %f, %f, %d' % \
(acid, d['lat'], d['lon'], d['alt'])
stack.stack(cmdstr)
cmdstr = 'HDG %s, %f' % (acid, d['heading'])
stack.stack(cmdstr)
v_cas = aero.tas2cas(d['speed'], d['alt'] * aero.ft)
cmdstr = 'SPD %s, %f' % (acid, v_cas)
stack.stack(cmdstr)
return
def stack_all_commands(self):
"""create and stack command"""
params = ('lat', 'lon', 'alt', 'speed', 'heading', 'callsign')
for i, d in self.acpool.items():
# check if all needed keys are in dict
if set(params).issubset(d):
acid = d['callsign']
# check is aircraft is already beening displayed
if(self.traf.id2idx(acid) < 0):
mdl = self.default_ac_mdl
v = aero.tas2cas(d['speed'], d['alt'] * aero.ft)
cmdstr = 'CRE %s, %s, %f, %f, %f, %d, %d' % \
(acid, mdl, d['lat'], d['lon'],
d['heading'], d['alt'], v)
self.stack.stack(cmdstr)
else:
cmdstr = 'MOVE %s, %f, %f, %d' % \
(acid, d['lat'], d['lon'], d['alt'])
self.stack.stack(cmdstr)
cmdstr = 'HDG %s, %f' % (acid, d['heading'])
self.stack.stack(cmdstr)
v_cas = aero.tas2cas(d['speed'], d['alt'] * aero.ft)
cmdstr = 'SPD %s, %f' % (acid, v_cas)
self.stack.stack(cmdstr)
return
def stack_all_commands(self):
keys = ('lat', 'lon', 'alt', 'speed', 'heading')
for ac, acdata in self.acdata_pool.items():
# check if all needed keys are in dict
if set(keys).issubset(acdata):
acid = ac
# acid = acdata['acid']
# check is aircraft is already beening displayed
if(self.tmx.traf.id2idx(acid) < 0):
v_cas = aero.tas2cas(acdata['speed'], acdata['alt']/3.2808)
cmdstr = 'CRE %s, %s, %f, %f, %f, %d, %d' % \
(acid, 'B738', acdata['lat'], acdata['lon'], \
acdata['heading'], acdata['alt'], v_cas)
self.tmx.cmd.stack(cmdstr)
else:
cmdstr = 'MOVE %s, %f, %f, %d' % \
(acid, acdata['lat'], acdata['lon'], acdata['alt'])
self.tmx.cmd.stack(cmdstr)
cmdstr = 'HDG %s, %f' % (acid, acdata['heading'])
self.tmx.cmd.stack(cmdstr)
v_cas = aero.tas2cas(acdata['speed'], acdata['alt']/3.2808)
cmdstr = 'SPD %s, %f' % (acid, v_cas)
self.tmx.cmd.stack(cmdstr)
return
def create(self, acid, actype, aclat, aclon, achdg, acalt, acspd):
# Check if not already exist
if self.id.count(acid.upper()) > 0:
return # already exists do nothing
# Increase number of aircraft
self.ntraf = self.ntraf + 1
# Process input
self.id.append(acid.upper())
self.type.append(actype)
self.lat = np.append(self.lat, aclat)
self.lon = np.append(self.lon, aclon)
self.trk = np.append(self.trk, achdg) # TBD: add conversion hdg => trk
self.alt = np.append(self.alt, acalt)
self.vs = np.append(self.vs, 0.)
self.rho = np.append(self.rho, density(acalt))
self.tas = np.append(self.tas, acspd)
self.cas = np.append(self.cas, tas2cas(acspd, acalt))
# Type specific data (temporarily default values)
self.avsdef = np.append(self.avsdef, 1500. *
fpm) # default vertical speed of autopilot
self.aphi = np.append(self.aphi,
radians(25.)) # bank angle setting of autopilot
self.ax = np.append(
self.ax, kts) # absolute value of longitudinal accelleration
# Traffic autopilot settings: hdg[deg], spd (CAS,m/s), alt[m], vspd[m/s]
self.ahdg = np.append(self.ahdg, achdg) # selected heading [deg]
self.aspd = np.append(self.aspd,
tas2eas(acspd, acalt)) # selected spd(eas) [m/s]
self.aalt = np.append(self.aalt, acalt) # selected alt[m]
self.avs = np.append(self.avs, 0.) # selected vertical speed [m/s]
# Traffic navigation information
self.dest.append("")
self.orig.append("")
# LNAV route navigation
self.swlnav = np.append(self.swlnav,
False) # Lateral (HDG) based on nav
self.swvnav = np.append(
self.swvnav,
False) # Vertical/longitudinal (ALT+SPD) based on nav info
self.actwplat = np.append(self.actwplat, 0.0) # Active WP latitude
self.actwplon = np.append(self.actwplon, 0.0) # Active WP longitude
self.actwpalt = np.append(self.actwpalt, 0.0) # Active WP altitude
self.actwpspd = np.append(self.actwpspd, 0.0) # Active WP speed
# Route info
self.route.append(Route(
self.navdb)) # create empty route connected with nav databse
# ASAS info: no conflict => -1
self.iconf = np.append(
self.iconf, -1.0) # index in 'conflicting' aircraft database
# Area variable set to False to avoid deletion upon creation outside
self.inside.append(False)
# Display information on label
self.label.append(['', '', '', 0])
# Bread crumbs for trails
self.trailcol.append(self.trails.defcolor)
self.lastlat = np.append(self.lastlat, aclat)
self.lastlon = np.append(self.lastlon, aclon)
self.lasttim = np.append(self.lasttim, 0.0)
return
def saveic(self, fname, sim, traf):
# Add extension .scn if not already present
if fname.find(".scn") < 0 and fname.find(".SCN"):
fname = fname + ".scn"
# If it is with path don't touch it, else add path
if fname.find("/") < 0:
scenfile = "./scenario/" + fname.lower()
# Open file
try:
f = open(scenfile, "w")
except:
return -1
# Write files
timtxt = "00:00:00.00>"
for i in range(traf.ntraf):
# CRE acid,type,lat,lon,hdg,alt,spd
cmdline = "CRE " + traf.id[i] + "," + traf.type[i] + "," + \
repr(traf.lat[i]) + "," + repr(traf.lon[i]) + "," + \
repr(traf.trk[i]) + "," + repr(traf.alt[i] / ft) + "," + \
repr(tas2cas(traf.tas[i], traf.alt[i]) / kts)
f.write(timtxt + cmdline + chr(13) + chr(10))
# VS acid,vs
if abs(traf.vs[i]) > 0.05: # 10 fpm dead band
if traf.avs[i] > 0.05:
vs_ = traf.avs[i] / fpm
else:
vs_ = traf.vs[i] / fpm
cmdline = "VS " + traf.id[i] + "," + repr(vs_)
f.write(timtxt + cmdline + chr(13) + chr(10))
# Autopilot commands
# Altitude
if abs(traf.alt[i] - traf.aalt[i]) > 10.:
cmdline = "ALT " + traf.id[i] + "," + repr(traf.aalt[i] / ft)
# Heading as well when heading select
delhdg = (traf.trk[i] - traf.ahdg[i] + 180.) % 360. - 180.
if abs(delhdg) > 0.5:
cmdline = "ALT " + traf.id[i] + "," + repr(traf.aalt[i] / ft)
# Speed select? => Record
rho = density(traf.alt[i]) # alt in m!
aptas = sqrt(1.225 / rho) * traf.aspd[i]
delspd = aptas - traf.tas[i]
if abs(delspd) > 0.4:
cmdline = "SPD " + traf.id[i] + "," + repr(traf.aspd[i] / kts)
# DEST acid,dest-apt
if traf.dest[i] != "":
cmdline = "DEST " + traf.id[i] + "," + traf.dest[i]
f.write(timtxt + cmdline + chr(13) + chr(10))
# ORIG acid,orig-apt
if traf.orig[i] != "":
cmdline = "ORIG " + traf.id[i] + "," + \
traf.dest[i]
f.write(timtxt + cmdline + chr(13) + chr(10))
# Saveic: should close
f.close()
return 0
def saveic(self, fname, sim, traf):
# Add extension .scn if not already present
if fname.find(".scn") < 0 and fname.find(".SCN"):
fname = fname + ".scn"
# If it is with path don't touch it, else add path
if fname.find("/") < 0:
scenfile = "./scenario/" + fname.lower()
# Open file
try:
f = open(scenfile, "w")
except:
return -1
# Write files
timtxt = "00:00:00.00>"
for i in range(traf.ntraf):
# CRE acid,type,lat,lon,hdg,alt,spd
cmdline = "CRE " + traf.id[i] + "," + traf.type[i] + "," + \
repr(traf.lat[i]) + "," + repr(traf.lon[i]) + "," + \
repr(traf.trk[i]) + "," + repr(traf.alt[i] / ft) + "," + \
repr(tas2cas(traf.tas[i], traf.alt[i]) / kts)
f.write(timtxt + cmdline + chr(13) + chr(10))
# VS acid,vs
if abs(traf.vs[i]) > 0.05: # 10 fpm dead band
if traf.avs[i] > 0.05:
vs_ = traf.avs[i] / fpm
else:
vs_ = traf.vs[i] / fpm
cmdline = "VS " + traf.id[i] + "," + repr(vs_)
f.write(timtxt + cmdline + chr(13) + chr(10))
# Autopilot commands
# Altitude
if abs(traf.alt[i] - traf.aalt[i]) > 10.:
cmdline = "ALT " + traf.id[i] + "," + repr(traf.aalt[i] / ft)
# Heading as well when heading select
delhdg = (traf.trk[i] - traf.ahdg[i] + 180.) % 360. - 180.
if abs(delhdg) > 0.5:
cmdline = "ALT " + traf.id[i] + "," + repr(traf.aalt[i] / ft)
# Speed select? => Record
rho = density(traf.alt[i]) # alt in m!
aptas = sqrt(1.225 / rho) * traf.aspd[i]
delspd = aptas - traf.tas[i]
if abs(delspd) > 0.4:
cmdline = "SPD " + traf.id[i] + "," + repr(traf.aspd[i] / kts)
# DEST acid,dest-apt
if traf.dest[i] != "":
cmdline = "DEST " + traf.id[i] + "," + traf.dest[i]
f.write(timtxt + cmdline + chr(13) + chr(10))
# ORIG acid,orig-apt
if traf.orig[i] != "":
cmdline = "ORIG " + traf.id[i] + "," + \
traf.dest[i]
f.write(timtxt + cmdline + chr(13) + chr(10))
# Saveic: should close
f.close()
return 0
