def Grafica_new(self):
self.ven_nom = "Grafica de los angulos del satelite:" + self.red
if self.Az_al_gra == True:
self.red_s = self.red
if self.sat_t_s[self.red]["Duracion"] == "LV":
self.sat_t_v = tiempo_ajuste(self.obse, self.Sat_s[self.red])
else:
self.sat_t_v = self.sat_t_s[self.red]
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_v)
self.red_date = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Final"], ti_formato2)
self.plot = Gra_azal(self.dat_azal)
self.plot.plot()
self.Az_al_gra = False
else:
if self.red_s == self.red:
if self.red_date < self.t1:
print 1
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_s[self.red])
self.plot = Gra_azal(self.dat_azal)
self.plot.plot()
else:
self.plot.plot()
else:
if self.sat_t_s[self.red]["Duracion"] == "LV":
self.sat_t_v = tiempo_ajuste(self.obse,
self.Sat_s[self.red])
else:
self.sat_t_v = self.sat_t_s[self.red]
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_v)
self.plot = Gra_azal(self.dat_azal)
self.plot.plot()
self.dic_ur = "file:///home/cidte/programas de python/Ejercicio de Python/partes del codigo/az_alt_gra.html"
self.az_la_G = QT_url(self.dic_ur, w=530, h=450, nom=self.ven_nom)
self.az_la_G.show()
def Ruta_sat(self):
self.ven_nom = "Ruta del satelite:" + self.red
if self.Az_al_gra == True:
self.red_s = self.red
if self.sat_t_s[self.red]["Duracion"] == "LV":
self.sat_t_v = tiempo_ajuste(self.obse, self.Sat_s[self.red])
else:
self.sat_t_v = self.sat_t_s[self.red]
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_v)
self.red_date = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Final"], ti_formato2)
self.plot_r = ruta_sat(self.Ob_datos, self.dat_azal, self.red)
self.Az_al_gra = False
else:
if self.red_s == self.red:
if self.red_date < self.t1:
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_s[self.red])
self.plot = ruta_sat(self.Ob_datos, self.dat_azal,
self.red)
else:
self.plot_r = ruta_sat(self.Ob_datos, self.dat_azal,
self.red)
else:
if self.sat_t_s[self.red]["Duracion"] == "LV":
self.sat_t_v = tiempo_ajuste(self.obse,
self.Sat_s[self.red])
else:
self.sat_t_v = self.sat_t_s[self.red]
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_v)
self.t1 = dat.datetime.utcnow()
self.plot_r = ruta_sat(self.Ob_datos, self.dat_azal, self.red)
self.dic_ur = "file:///home/cidte/programas de python/Ejercicio de Python/partes del codigo/map.html"
self.az_la_R = QT_url(self.dic_ur, w=1200, h=500, nom=self.ven_nom)
self.az_la_R.show()
def Ruta_sat(self):
ven_nom = (u"Ruta del satélite:" + self.red)
if self.sat_next_pass[self.red] < self.t1:
#if self.sat_t_s[self.red]["Duracion"]=="LV":
#self.sat_t_v=tiempo_ajuste(self.obse,self.Sat_s[self.red])
#else:
#self.sat_t_v=self.sat_t_s[self.red]
self.sat_ang_direc[self.red] = dat_antena(self.obse,
self.Sat_s[self.red],
self.self.sat_t_v)
self.t1 = dat.datetime.utcnow()
datos = yaml.load(open(self.sat_ang_direc[self.red]))
self.plot_r = ruta_sat(self.Ob_datos, datos, self.red)
self.Az_al_gra = False
self.dic_ur = find_gra("map.html")
self.az_la_R = QT_url(self.dic_ur, w=1200, h=500, nom=ven_nom)
self.az_la_R.show()
def tab_new(self):
ven_nom = (u"Tabla de los ángulos del satélite:" + self.red)
if self.sat_next_pass[self.red] < self.t1:
#if self.sat_t_s[self.red]["Duracion"]=="LV":
#self.sat_t_v=tiempo_ajuste(self.obse,self.Sat_s[self.red])
#else:
#self.sat_t_v=self.sat_t_s[self.red]
self.sat_ang_direc[self.red] = dat_antena(self.obse,
self.Sat_s[self.red],
self.self.sat_t_v)
self.t1 = dat.datetime.utcnow()
datos = yaml.load(open(self.sat_ang_direc[self.red]))
#self.Az_al_gra=False
self.plot = Gra_azal(datos)
self.plot.tabular()
self.dic_ur = find_gra("data_table.html")
self.az_la_T = QT_url(self.dic_ur, w=530, h=460, nom=ven_nom)
self.az_la_T.show()
def Grafica_new(self):
ven_nom = (u"Gráfica de los ángulos del satélite:" + self.red)
if self.sat_next_pass[self.red] < self.t1:
#if self.sat_t_s[self.red]["Duracion"]=="LV":
#self.sat_t_v=tiempo_ajuste(self.obse,self.Sat_s[self.red])
#else:
#self.sat_t_v=self.sat_t_s[self.red]
self.sat_ang_direc[self.red] = dat_antena(self.obse,
self.Sat_s[self.red],
self.self.sat_t_v)
self.t1 = dat.datetime.utcnow()
#print ven_nom
datos = yaml.load(open(self.sat_ang_direc[self.red]))
self.plot = Gra_azal(datos)
self.plot.plot()
self.Az_al_gra = False
self.dic_ur = find_gra("az_alt_gra.html")
self.az_la_G = QT_url(self.dic_ur, w=530, h=460, nom=ven_nom)
self.az_la_G.show()
class mine_w(QMainWindow):
def __init__(self, parent=None):
QMainWindow.__init__(self, parent)
self.ui = Ui_MainWindow()
self.ui.setupUi(self)
self.Az_al_gra = True
with open(path.join(ro_prin, "Datos_obs.pickle"), "rb") as input_file:
D_obs = cPickle.load(input_file)
ob_lis = list(D_obs.keys())
fic_lug = D_obs[ob_lis[2]]
with open(fic_lug, "rb") as input_file:
self.Ob_datos = cPickle.load(input_file)
#cargando los satelites que ya estan guardados
sav_sat = path.join("Sat_see", "satelites.pickle")
with open(sav_sat, "rb") as input_file:
self.sat_v = cPickle.load(input_file)
self.sat_l = list(self.sat_v.keys())
#cargando el archivo ruta de las carpeta
with open(r"satdic.pickle", "rb") as input_file:
l_url = cPickle.load(input_file)
#t=dat.datetime.utcnow()
self.d_sat_f = l_url["fecha"] + dat.timedelta(hours=72)
#th=datetime.now()
#self.h_z=t.hour-th.hour
""""
################################################################
################################################################
################################################################
"""
########### inicializando reloj ###############################
self.t = dat.datetime.utcnow()
#lugar de observacion
self.obse = ep.Observer()
self.obse.name = self.Ob_datos["nombre"]
self.obse.long = self.Ob_datos["logitud"]
self.obse.lat = self.Ob_datos["latitud"]
#use una plicacion
self.obse.elevation = self.Ob_datos["elevacion"] #en metros
self.obse.date = self.t
#toma fecha y hora ingresada
self.rotac = False
self.Sat_s = dict()
self.sat_lis = []
for k in self.sat_l:
fi = self.sat_v[k]
sat = leertxt(fi)
self.Sat_s[sat.name] = sat
self.sat_lis.append(sat.name)
self.sat_t_s = dict()
self.sat_t = dict()
self.seg = dict()
self.seg["observador"] = [
np.rad2deg(self.obse.lon),
np.rad2deg(self.obse.lat)
]
self.li_ti_in = []
self.li_ti_fn = []
#print self.sat_lis
for no in self.sat_lis:
self.Sat_s[no].compute(self.obse)
if self.Sat_s[no].transit_time != None:
n_s = self.obse.next_pass(self.Sat_s[no])
if n_s[0] == None:
self.sat_t = {
"Tiempo Inical": "No encontrado",
"Tiempo Final": "No encontrado",
"Duracion": "notiene"
}
else:
self.sat_t = {
"Tiempo Inical":
str(datetime.strptime(str(n_s[0]), ti_formato)),
"Tiempo Final":
str(datetime.strptime(str(n_s[4]), ti_formato)),
"Duracion":
str(
datetime.strptime(str(n_s[4]), ti_formato) -
datetime.strptime(str(n_s[0]), ti_formato))
}
self.li_ti_in.append(self.sat_t["Tiempo Inical"])
self.li_ti_fn.append(self.sat_t["Tiempo Final"])
else:
self.sat_t = {
"Tiempo Inical": "Geo ",
"Tiempo Final": "Geo",
"Duracion": "Simepre"
}
ins = self.sat_t["Duracion"].find("-")
if ins != -1:
self.sat_t["Duracion"] = "LV"
self.sat_t_s[no] = self.sat_t
lon = np.rad2deg(self.Sat_s[no].sublong)
lat = np.rad2deg(self.Sat_s[no].sublat)
self.seg[no] = [lon, lat]
self.k_data = sorted(list(self.sat_t_s.keys()))
#se tiene el satelite mas sercano y ordenando los satelites por fecha
self.ti_or_in = sorted(self.li_ti_in)
self.ti_or_fn = sorted(self.li_ti_fn)
px_in = datetime.strptime(self.ti_or_in[0], ti_formato2)
px_fn = datetime.strptime(self.ti_or_fn[0], ti_formato2)
if px_in < px_fn:
self.next_t = self.ti_or_in[0]
for no in self.k_data:
if self.next_t == self.sat_t_s[no]["Tiempo Inical"]:
self.red = no
self.next_t = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Inical"], ti_formato2)
else:
self.next_t = self.ti_or_fn[0]
for no in self.k_data:
if self.next_t == self.sat_t_s[no]["Tiempo Final"]:
self.red = no
self.next_t = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Final"], ti_formato2)
self.ui.Lab_sat_name.setText(self.red)
########### reloj bigital ######################################
#self.LCD_2=self.ui.W_Ti_data_zh
self.LCD = self.ui.W_Ti_data
#########3 grafica de los satelites 3###########################
self.webview = Grafica()
self.la = QVBoxLayout()
self.la.addWidget(self.webview)
self.ui.Map_sat.setLayout(self.la)
#########3 Tabla de los satelites 3#############################
self.tabla = MyTable(self.sat_t_s)
self.tabla.set_datatime()
self.la_ta = QtGui.QGridLayout()
self.la_ta.addWidget(self.tabla)
self.ui.Sat_tab.setLayout(self.la_ta)
############Acciones para la ventan ############################
self.ui.actionObservador.triggered.connect(self.ob_datos)
self.ui.actionReloj.triggered.connect(self.con_reloj)
self.ui.actionSatelites.triggered.connect(self.sat_datos)
self.ui.actionRed.triggered.connect(self.red_actz)
self.ui.actionControl.triggered.connect(self.at_cont)
self.ui.actionRed_2.triggered.connect(self.at_cont_red)
self.tabla.cellClicked.connect(self.sat_dt)
self.tabla.cellDoubleClicked.connect(self.sat_dt)
self.ui.PB_nex.clicked.connect(self.Grafica_new)
self.ui.PB_Ruta.clicked.connect(self.Ruta_sat)
self.ui.PB_Tabla.clicked.connect(self.tab_new)
################## iniciando taimer ############################
self.t1 = self.t = self.t
#self.t_re=self.t
#self.tz=self.t-dat.timedelta(hours=self.h_z)
self.LCD.setText(str(self.t.strftime("%Y/%m/%d %H:%M:%S")))
#self.LCD_2.setText(str(self.tz.strftime("%Y/%m/%d %H:%M:%S")))
self.tex_lati = str(float("{0:.2f}".format(self.seg[self.red][1])))
self.tex_long = str(float("{0:.2f}".format(self.seg[self.red][0])))
self.tex_azi = str(
float("{0:.2f}".format(np.rad2deg(self.Sat_s[self.red].az))))
self.tex_ele = str(
float("{0:.2f}".format(np.rad2deg(self.Sat_s[self.red].alt))))
self.tex_dist = str((self.Sat_s[self.red].range / 1000))
self.ui.Lab_lati.setText(self.tex_lati)
self.ui.Lab_long.setText(self.tex_long)
self.ui.Lab_azi.setText(self.tex_azi)
self.ui.Lab_al.setText(self.tex_ele)
self.ui.label_11.setText(self.tex_dist)
self.webview.sat_lu(self.seg, self.red, self.t)
self.timer = QtCore.QTimer(self)
self.timer.timeout.connect(self.sleep)
self.timer.start(1000)
def sleep(self):
self.t1 = self.t1 + dat.timedelta(seconds=1)
#self.tz=self.t1-dat.timedelta(hours=self.h_z)
#self.LCD_2.setText(str(self.tz.strftime("%Y/%m/%d %H:%M:%S")))
self.LCD.setText(str(self.t1.strftime("%Y/%m/%d %H:%M:%S")))
if (self.t1 - self.t) > dat.timedelta(seconds=3):
self.t = self.t1
#print "Tiempo guardado"
self.rec()
if self.t1 > self.next_t:
self.tabla_rec()
if self.t1.date() > self.d_sat_f:
self.red_actz()
#try:
#self.rot_ant.isVisible()
if self.rotac:
if not (self.rot_ant.isVisible()):
del (self.rot_ant)
self.rotac = False
def rec(self):
#Cargado la nueva ubicasion
self.la.removeWidget(self.webview)
self.tabla.selectedItems()
self.webview = Grafica()
self.obse.date = self.t1
for no in self.sat_lis:
self.Sat_s[no].compute(self.obse)
lon = np.rad2deg(self.Sat_s[no].sublong)
lat = np.rad2deg(self.Sat_s[no].sublat)
self.seg[no] = [lon, lat]
self.tex_lati = str(float("{0:.2f}".format(self.seg[self.red][1])))
self.tex_long = str(float("{0:.2f}".format(self.seg[self.red][0])))
self.tex_azi = str(
float("{0:.2f}".format(np.rad2deg(self.Sat_s[self.red].az))))
self.tex_ele = str(
float("{0:.2f}".format(np.rad2deg(self.Sat_s[self.red].alt))))
self.tex_dist = str((self.Sat_s[self.red].range / 1000))
self.ui.Lab_lati.setText(self.tex_lati)
self.ui.Lab_long.setText(self.tex_long)
self.ui.Lab_azi.setText(self.tex_azi)
self.ui.Lab_al.setText(self.tex_ele)
self.ui.label_11.setText(self.tex_dist)
#colocando la grafica
self.webview.sat_lu(self.seg, self.red, self.t1)
self.la.addWidget(self.webview)
self.ui.Map_sat.setLayout(self.la)
def tabla_rec(self):
self.obse.date = self.t1
self.li_ti_in = []
self.li_ti_fn = []
self.la_ta.removeWidget(self.tabla)
for no in self.sat_lis:
if self.Sat_s[no].transit_time != None:
n_s = self.obse.next_pass(self.Sat_s[no])
if n_s[0] == None:
self.sat_t = {
"Tiempo Inical": "No encontrado",
"Tiempo Final": "No encontrado",
"Duracion": "notiene"
}
else:
self.sat_t = {
"Tiempo Inical":
str(datetime.strptime(str(n_s[0]), ti_formato)),
"Tiempo Final":
str(datetime.strptime(str(n_s[4]), ti_formato)),
"Duracion":
str(
datetime.strptime(str(n_s[4]), ti_formato) -
datetime.strptime(str(n_s[0]), ti_formato))
}
self.li_ti_in.append(self.sat_t["Tiempo Inical"])
self.li_ti_fn.append(self.sat_t["Tiempo Final"])
else:
self.sat_t = {
"Tiempo Inical": "Geo ",
"Tiempo Final": "Geo",
"Duracion": "Simepre"
}
ins = self.sat_t["Duracion"].find("-")
if ins != -1:
self.sat_t["Duracion"] = "LV"
self.sat_t_s[no] = self.sat_t
self.k_data = sorted(list(self.sat_t_s.keys()))
#se tiene el satelite mas sercano y ordenando los satelites por fecha
self.ti_or_in = sorted(self.li_ti_in)
self.ti_or_fn = sorted(self.li_ti_fn)
px_in = datetime.strptime(self.ti_or_in[0], ti_formato2)
px_fn = datetime.strptime(self.ti_or_fn[0], ti_formato2)
if px_in < px_fn:
self.next_t = self.ti_or_in[0]
for no in self.k_data:
if self.next_t == self.sat_t_s[no]["Tiempo Inical"]:
self.red = no
self.next_t = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Inical"], ti_formato2)
else:
self.next_t = self.ti_or_fn[0]
for no in self.k_data:
if self.next_t == self.sat_t_s[no]["Tiempo Final"]:
self.red = no
self.next_t = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Final"], ti_formato2)
#agregando la tabla
self.tabla = MyTable(self.sat_t_s)
self.tabla.set_datatime()
self.la_ta.addWidget(self.tabla)
self.ui.Sat_tab.setLayout(self.la_ta)
self.t1 = dat.datetime.utcnow()
#self.tz=self.t1-dat.timedelta(hours=self.h_z)
#self.LCD_2.setText(str(self.tz.strftime("%Y/%m/%d %H:%M:%S")))
self.LCD.setText(str(self.t1.strftime("%Y/%m/%d %H:%M:%S")))
def sat_dt(self):
self.it_row = self.tabla.currentRow()
self.item_ta = self.tabla.item(self.it_row, 0)
self.red = str(self.item_ta.text())
self.ui.Lab_sat_name.setText(self.red)
if self.Sat_s[self.red].transit_time == None:
self.ui.PB_Ruta.setEnabled(False)
self.ui.PB_Tabla.setEnabled(False)
self.ui.PB_nex.setEnabled(False)
else:
self.ui.PB_Ruta.setEnabled(True)
self.ui.PB_Tabla.setEnabled(True)
self.ui.PB_nex.setEnabled(True)
#if self.sat_t_s[self.red]["Duracion"]=="LV":
#self.ui.PB_Ruta.setEnabled(False)
#self.ui.PB_Tabla.setEnabled(False)
#self.ui.PB_nex.setEnabled(False)
#else:
#self.ui.PB_Ruta.setEnabled(True)
#self.ui.PB_Tabla.setEnabled(True)
#self.ui.PB_nex.setEnabled(True)
self.rec()
""" Codigo para llamar a los demas programas de el menu pricipal """
def ob_datos(self):
## improtando los datos de la estacion
from add_datos_llama import add_ant
self.dat_obse = add_ant()
#Datos del archivo donde se guarada
with open(path.join(ro_prin, "Datos_obs.pickle"), "rb") as input_file:
D_obs = cPickle.load(input_file)
ob_lis = list(D_obs.keys())
fic_lug = D_obs[ob_lis[2]]
#Datos de lugar de observador
with open(fic_lug, "rb") as input_file:
Ob_datos = cPickle.load(input_file)
self.dat_obse.ui.spinBox.setValue(Ob_datos['elevacion'])
self.dat_obse.ui.observ_lad.setText(Ob_datos["latitud"])
self.dat_obse.ui.observ_lod.setText(Ob_datos["logitud"])
self.dat_obse.ui.observ_ubi.setText(Ob_datos["nombre"])
self.dat_obse.ui.observ_at.setText(D_obs["nom"])
self.dat_obse.ui.observ_des.setText(D_obs["desc"])
self.la.removeWidget(self.webview)
self.webview = Grafica()
self.la_ta.removeWidget(self.tabla)
self.dat_obse.show()
self.dat_obse.ui.pb_G.clicked.connect(self.sat_reloa_sat)
def red_actz(self):
## importando el programa para actualizar
from descarga import sat_dwload
self.des = sat_dwload(self.t1.date())
self.des.show()
#self.des.ui.PB_Ac.click()
self.des.ui.PB_Ac.clicked.connect(self.sat_reloa_sat)
def sat_datos(self):
## importado los taselites
from lersat_p import sat_datos
self.la.removeWidget(self.webview)
self.webview = Grafica()
self.la_ta.removeWidget(self.tabla)
self.li_sat = sat_datos(self.obse)
self.li_sat.show()
self.li_sat.ui.pb_G.clicked.connect(self.sat_reloa_sat)
def con_reloj(self):
from Reloj_toma import Reloj_set
self.timer = Reloj_set()
self.timer.show()
self.timer.PB_SNTP.clicked.connect(self.reloj_load)
self.timer.PB_RM.clicked.connect(self.reloj_load)
def reloj_load(self):
self.t = self.t1 = self.timer.impre_timer()
self.recalc()
def at_cont(self):
from rot_w_call import Rot_ant
self.rot_ant = Rot_ant(self.Sat_s, self.t1, self.obse)
self.rot_ant.show()
self.rotac = True
def at_cont_red(self):
from rot_w_call_red import Rot_ant_red
self.rot_ant = Rot_ant_red(self.Sat_s, self.t1, self.obse)
self.rot_ant.show()
self.rotac = True
####### Recargado los datos de los satelites ###########################
def recalc(self):
self.la.removeWidget(self.webview)
self.tabla.selectedItems()
self.webview = Grafica()
self.obse.date = self.t1
self.LCD.setText(str(self.t1.strftime("%Y/%m/%d %H:%M:%S")))
self.la_ta.removeWidget(self.tabla)
self.obse.date = self.t
#toma fecha y hora ingresada
self.sat_t_s = dict()
self.sat_t = dict()
self.seg = dict()
self.seg["observador"] = [
np.rad2deg(self.obse.lon),
np.rad2deg(self.obse.lat)
]
self.li_ti_in = []
self.li_ti_fn = []
#print self.sat_lis
for no in self.sat_lis:
self.Sat_s[no].compute(self.obse)
if self.Sat_s[no].transit_time != None:
n_s = self.obse.next_pass(self.Sat_s[no])
if n_s[0] == None:
self.sat_t = {
"Tiempo Inical": "No encontrado",
"Tiempo Final": "No encontrado",
"Duracion": "notiene"
}
else:
self.sat_t = {
"Tiempo Inical":
str(datetime.strptime(str(n_s[0]), ti_formato)),
"Tiempo Final":
str(datetime.strptime(str(n_s[4]), ti_formato)),
"Duracion":
str(
datetime.strptime(str(n_s[4]), ti_formato) -
datetime.strptime(str(n_s[0]), ti_formato))
}
self.li_ti_in.append(self.sat_t["Tiempo Inical"])
self.li_ti_fn.append(self.sat_t["Tiempo Final"])
else:
self.sat_t = {
"Tiempo Inical": "Geo ",
"Tiempo Final": "Geo",
"Duracion": "Simepre"
}
ins = self.sat_t["Duracion"].find("-")
if ins != -1:
self.sat_t["Duracion"] = "LV"
self.sat_t_s[no] = self.sat_t
lon = np.rad2deg(self.Sat_s[no].sublong)
lat = np.rad2deg(self.Sat_s[no].sublat)
self.seg[no] = [lon, lat]
self.k_data = sorted(list(self.sat_t_s.keys()))
#se tiene el satelite mas sercano y ordenando los satelites por fecha
self.ti_or_in = sorted(self.li_ti_in)
self.ti_or_fn = sorted(self.li_ti_fn)
px_in = datetime.strptime(self.ti_or_in[0], ti_formato2)
px_fn = datetime.strptime(self.ti_or_fn[0], ti_formato2)
if px_in < px_fn:
self.next_t = self.ti_or_in[0]
for no in self.k_data:
if self.next_t == self.sat_t_s[no]["Tiempo Inical"]:
self.red = no
self.next_t = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Inical"], ti_formato2)
else:
self.next_t = self.ti_or_fn[0]
for no in self.k_data:
if self.next_t == self.sat_t_s[no]["Tiempo Final"]:
self.red = no
self.next_t = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Final"], ti_formato2)
#$$$$ nueva tabla y grafica $$$$#
self.tabla = MyTable(self.sat_t_s)
self.tabla.set_datatime()
self.la_ta.addWidget(self.tabla)
self.ui.Sat_tab.setLayout(self.la_ta)
self.tabla.cellClicked.connect(self.sat_dt)
self.tabla.cellDoubleClicked.connect(self.sat_dt)
self.webview.sat_lu(self.seg, self.red, self.t1)
self.la.addWidget(self.webview)
self.ui.Map_sat.setLayout(self.la)
def sat_reloa_sat(self):
self.tabla.selectedItems()
self.t1 = dat.datetime.utcnow()
## insetan los timepos ##
with open(r"satdic.pickle", "rb") as input_file:
l_url = cPickle.load(input_file)
#t=dat.datetime.utcnow()
self.d_sat_f = l_url["fecha"] + dat.timedelta(hours=72)
#self.tz=self.t1-dat.timedelta(hours=self.h_z)
#self.LCD_2.setText(str(self.tz.strftime("%Y/%m/%d %H:%M:%S")))
self.LCD.setText(str(self.t1.strftime("%Y/%m/%d %H:%M:%S")))
with open(path.join(ro_prin, "Datos_obs.pickle"), "rb") as input_file:
D_obs = cPickle.load(input_file)
ob_lis = list(D_obs.keys())
fic_lug = D_obs[ob_lis[2]]
print fic_lug
#Datos de lugar de observador
with open(fic_lug, "rb") as input_file:
self.Ob_datos = cPickle.load(input_file)
#cargando los satelites que ya estan guardados
sav_sat = path.join("Sat_see", "satelites.pickle")
with open(sav_sat, "rb") as input_file:
self.sat_v = cPickle.load(input_file)
self.sat_l = list(self.sat_v.keys())
self.Sat_s = dict()
self.sat_lis = []
for k in self.sat_l:
fi = self.sat_v[k]
sat = leertxt(fi)
self.Sat_s[sat.name] = sat
self.sat_lis.append(sat.name)
self.Az_al_gra = True
self.sat_t_s = dict()
self.sat_t = dict()
self.seg = dict()
######################### Se retoma toda la informacion ######################
self.obse = ep.Observer()
self.obse.name = self.Ob_datos["nombre"]
self.obse.long = self.Ob_datos["logitud"]
self.obse.lat = self.Ob_datos["latitud"]
#use una plicacion
self.obse.elevation = self.Ob_datos["elevacion"]
self.seg["observador"] = [
np.rad2deg(self.obse.lon),
np.rad2deg(self.obse.lat)
]
#print self.seg["observador"]
self.li_ti_in = []
self.li_ti_fn = []
for no in self.sat_lis:
self.Sat_s[no].compute(self.obse)
if self.Sat_s[no].transit_time != None:
n_s = self.obse.next_pass(self.Sat_s[no])
if n_s[0] == None:
self.sat_t = {
"Tiempo Inical": "No encontrado",
"Tiempo Final": "No encontrado",
"Duracion": "notiene"
}
else:
self.sat_t = {
"Tiempo Inical":
str(datetime.strptime(str(n_s[0]), ti_formato)),
"Tiempo Final":
str(datetime.strptime(str(n_s[4]), ti_formato)),
"Duracion":
str(
datetime.strptime(str(n_s[4]), ti_formato) -
datetime.strptime(str(n_s[0]), ti_formato))
}
self.li_ti_in.append(self.sat_t["Tiempo Inical"])
self.li_ti_fn.append(self.sat_t["Tiempo Final"])
else:
self.sat_t = {
"Tiempo Inical": "Geo ",
"Tiempo Final": "Geo",
"Duracion": "Simepre"
}
ins = self.sat_t["Duracion"].find("-")
if ins != -1:
self.sat_t["Duracion"] = "LV"
self.sat_t_s[no] = self.sat_t
lon = np.rad2deg(self.Sat_s[no].sublong)
lat = np.rad2deg(self.Sat_s[no].sublat)
self.seg[no] = [lon, lat]
self.k_data = sorted(list(self.sat_t_s.keys()))
#se tiene el satelite mas sercano y ordenando los satelites por fecha
self.ti_or_in = sorted(self.li_ti_in)
self.ti_or_fn = sorted(self.li_ti_fn)
px_in = datetime.strptime(self.ti_or_in[0], ti_formato2)
px_fn = datetime.strptime(self.ti_or_fn[0], ti_formato2)
if px_in < px_fn:
self.next_t = self.ti_or_in[0]
for no in self.k_data:
if self.next_t == self.sat_t_s[no]["Tiempo Inical"]:
self.red = no
self.next_t = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Inical"], ti_formato2)
else:
self.next_t = self.ti_or_fn[0]
for no in self.k_data:
if self.next_t == self.sat_t_s[no]["Tiempo Final"]:
self.red = no
self.next_t = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Final"], ti_formato2)
#$$$$ nueva tabla y grafica $$$$#
self.tabla = MyTable(self.sat_t_s)
self.tabla.set_datatime()
self.la_ta.addWidget(self.tabla)
self.ui.Sat_tab.setLayout(self.la_ta)
self.tabla.cellClicked.connect(self.sat_dt)
self.tabla.cellDoubleClicked.connect(self.sat_dt)
self.webview.sat_lu(self.seg, self.red, self.t1)
self.la.addWidget(self.webview)
self.ui.Map_sat.setLayout(self.la)
"""Codigo para mostrasr los resultado de un satlite """
def Grafica_new(self):
self.ven_nom = "Grafica de los angulos del satelite:" + self.red
if self.Az_al_gra == True:
self.red_s = self.red
if self.sat_t_s[self.red]["Duracion"] == "LV":
self.sat_t_v = tiempo_ajuste(self.obse, self.Sat_s[self.red])
else:
self.sat_t_v = self.sat_t_s[self.red]
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_v)
self.red_date = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Final"], ti_formato2)
self.plot = Gra_azal(self.dat_azal)
self.plot.plot()
self.Az_al_gra = False
else:
if self.red_s == self.red:
if self.red_date < self.t1:
print 1
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_s[self.red])
self.plot = Gra_azal(self.dat_azal)
self.plot.plot()
else:
self.plot.plot()
else:
if self.sat_t_s[self.red]["Duracion"] == "LV":
self.sat_t_v = tiempo_ajuste(self.obse,
self.Sat_s[self.red])
else:
self.sat_t_v = self.sat_t_s[self.red]
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_v)
self.plot = Gra_azal(self.dat_azal)
self.plot.plot()
self.dic_ur = "file:///home/cidte/programas de python/Ejercicio de Python/partes del codigo/az_alt_gra.html"
self.az_la_G = QT_url(self.dic_ur, w=530, h=450, nom=self.ven_nom)
self.az_la_G.show()
def Ruta_sat(self):
self.ven_nom = "Ruta del satelite:" + self.red
if self.Az_al_gra == True:
self.red_s = self.red
if self.sat_t_s[self.red]["Duracion"] == "LV":
self.sat_t_v = tiempo_ajuste(self.obse, self.Sat_s[self.red])
else:
self.sat_t_v = self.sat_t_s[self.red]
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_v)
self.red_date = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Final"], ti_formato2)
self.plot_r = ruta_sat(self.Ob_datos, self.dat_azal, self.red)
self.Az_al_gra = False
else:
if self.red_s == self.red:
if self.red_date < self.t1:
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_s[self.red])
self.plot = ruta_sat(self.Ob_datos, self.dat_azal,
self.red)
else:
self.plot_r = ruta_sat(self.Ob_datos, self.dat_azal,
self.red)
else:
if self.sat_t_s[self.red]["Duracion"] == "LV":
self.sat_t_v = tiempo_ajuste(self.obse,
self.Sat_s[self.red])
else:
self.sat_t_v = self.sat_t_s[self.red]
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_v)
self.t1 = dat.datetime.utcnow()
self.plot_r = ruta_sat(self.Ob_datos, self.dat_azal, self.red)
self.dic_ur = "file:///home/cidte/programas de python/Ejercicio de Python/partes del codigo/map.html"
self.az_la_R = QT_url(self.dic_ur, w=1200, h=500, nom=self.ven_nom)
self.az_la_R.show()
def tab_new(self):
self.ven_nom = "Tabla de los angulos del satelite:" + self.red
if self.Az_al_gra == True:
self.red_s = self.red
if self.sat_t_s[self.red]["Duracion"] == "LV":
self.sat_t_v = tiempo_ajuste(self.obse, self.Sat_s[self.red])
else:
self.sat_t_v = self.sat_t_s[self.red]
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_v)
self.red_date = datetime.strptime(
self.sat_t_s[self.red]["Tiempo Final"], ti_formato2)
self.Az_al_gra = False
self.plot = Gra_azal(self.dat_azal)
self.plot.tabular()
else:
if self.red_s == self.red:
if self.red_date < self.t1:
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_s[self.red])
self.t1 = dat.datetime.utcnow()
self.plot = Gra_azal(self.dat_azal)
self.plot.tabular()
else:
self.plot.tabular()
else:
if self.sat_t_s[self.red]["Duracion"] == "LV":
self.sat_t_v = tiempo_ajuste(self.obse,
self.Sat_s[self.red])
else:
self.sat_t_v = self.sat_t_s[self.red]
self.dat_azal = dat_antena(self.obse, self.Sat_s[self.red],
self.sat_t_v)
self.plot = Gra_azal(self.dat_azal)
self.plot.tabular()
self.dic_ur = "file:///home/cidte/programas de python/Ejercicio de Python/partes del codigo/data_table.html"
self.az_la_T = QT_url(self.dic_ur, w=530, h=450, nom=self.ven_nom)
self.az_la_T.show()