def __del__(self): jwdb.ams_sim_close_read_file(self.fileid)
wid, wavename = jwdb.ams_sim_get_next_waveform_name(fileid, 0) while wid > 0: print wid, wavename ## Get unit of Y axis yunit = jwdb.ams_sim_get_wave_unit_name(fileid, wid) print "yunit", yunit ## Handle digital waveforms if not jwdb.ams_sim_is_analog_wave(yunit): pass ## Handle complex analog waveforms elif jwdb.ams_sim_is_wave_complex(fileid, wid): readflag, x, yr, yi = jwdb.ams_sim_read_analog_x_y_data_complex(fileid, wid) while readflag > 0: readflag, x, yr, yi = jwdb.ams_sim_read_analog_x_y_data_complex(fileid, wid) ## Handle real analog waveforms else: readflag, x, y = jwdb.ams_sim_read_analog_x_y_data(fileid, wid) while readflag > 0: readflag, x, y = jwdb.ams_sim_read_analog_x_y_data(fileid, wid) ## Get next waveform name and identifier wid, wavename = jwdb.ams_sim_get_next_waveform_name(fileid, wid) ## Load next simulation results loadflag = jwdb.ams_sim_load_simu_with_complex(fileid) jwdb.ams_sim_close_read_file(fileid)
while wid > 0: print wid, wavename ## Get unit of Y axis yunit = jwdb.ams_sim_get_wave_unit_name(fileid, wid) print "yunit", yunit ## Handle digital waveforms if not jwdb.ams_sim_is_analog_wave(yunit): pass ## Handle complex analog waveforms elif jwdb.ams_sim_is_wave_complex(fileid, wid): readflag, x, yr, yi = jwdb.ams_sim_read_analog_x_y_data_complex( fileid, wid) while readflag > 0: readflag, x, yr, yi = jwdb.ams_sim_read_analog_x_y_data_complex( fileid, wid) ## Handle real analog waveforms else: readflag, x, y = jwdb.ams_sim_read_analog_x_y_data(fileid, wid) while readflag > 0: readflag, x, y = jwdb.ams_sim_read_analog_x_y_data(fileid, wid) ## Get next waveform name and identifier wid, wavename = jwdb.ams_sim_get_next_waveform_name(fileid, wid) ## Load next simulation results loadflag = jwdb.ams_sim_load_simu_with_complex(fileid) jwdb.ams_sim_close_read_file(fileid)