def _create_frame_datas_as(self, space_type, \ particles_time_seq, shells_time_seq=None): frame_datas = [] idx = 0 for pdata in particles_time_seq: sdata, idx = self._interpolate_shell_data(shells_time_seq, pdata, idx) felem = FrameElem(pdata[0], pdata[1], pdata[2], sdata[1], sdata[2]) frame_data = FrameData(space_type) frame_data.set_start_time(pdata[0]) frame_data.set_end_time(pdata[0]) frame_data.append(felem) frame_datas.append(frame_data) return frame_datas
def _create_frame_datas_as(self, space_type, \ particles_time_seq, shells_time_seq=None): frame_datas=[] idx = 0 for pdata in particles_time_seq: sdata, idx = self._interpolate_shell_data( shells_time_seq, pdata, idx) felem=FrameElem(pdata[0],pdata[1],pdata[2],sdata[1],sdata[2]) frame_data=FrameData(space_type) frame_data.set_start_time(pdata[0]) frame_data.set_end_time(pdata[0]) frame_data.append(felem) frame_datas.append(frame_data) return frame_datas
def _create_frame_datas(self, space_type, \ particles_time_seq, shell_time_seq=None): particle_frames = [] frame_t = [] expos_t = [] # check frame_end_time if self.settings.frame_end_time == None: self.settings.frame_end_time = \ particles_time_seq[len(particles_time_seq)-1][0] # set the frame time(exposure end time) and the exposure start time counter = 1 ignore_dtime = self.settings.frame_interval / 1.0e+5 while True: ft = self.settings.frame_start_time + self.settings.frame_interval * counter frame_t.append(ft) et = ft - self.settings.exposure_time if (et < 0.0): et = 0.0 expos_t.append(et) if (ft >= self.settings.frame_end_time): break counter += 1 # create frame data composed by frame element data for step in range(len(frame_t)): ft = frame_t[step] et = expos_t[step] frame_data = FrameData(space_type) frame_data.set_start_time(et) frame_data.set_end_time(ft) felem = None last_index = 0 for index in range(len(particles_time_seq)): if index == 0: continue st = particles_time_seq[index][0] if (et - st <= ignore_dtime and st - ft <= ignore_dtime): st_f = particles_time_seq[index - 1][0] stay_time = min(st - st_f, st - et) norm_stime = stay_time / self.settings.exposure_time pdata = particles_time_seq[index - 1] sdata, d_idx = self._interpolate_shell_data( shell_time_seq, pdata) felem = FrameElem(pdata[0], pdata[1], pdata[2], sdata[1], sdata[2]) felem.set_eval_time(norm_stime) frame_data.append(felem) last_index = index # check last data if felem is None: continue if last_index == 0: continue st = particles_time_seq[last_index][0] pdata = particles_time_seq[last_index] sdata, d_idx = self._interpolate_shell_data(shell_time_seq, pdata) felem = FrameElem(pdata[0], pdata[1], pdata[2], sdata[1], sdata[2]) stay_time = ft - st if stay_time > ignore_dtime: norm_stime = stay_time / self.settings.exposure_time felem.set_eval_time(norm_stime) frame_data.append(felem) particle_frames.append(frame_data) return particle_frames
def _create_frame_datas(self, space_type, \ particles_time_seq, shell_time_seq=None): particle_frames=[] frame_t=[] expos_t=[] # check frame_end_time if self.settings.frame_end_time == None: self.settings.frame_end_time = \ particles_time_seq[len(particles_time_seq)-1][0] # set the frame time(exposure end time) and the exposure start time counter=1 ignore_dtime=self.settings.frame_interval/1.0e+5 while True: ft = self.settings.frame_start_time + self.settings.frame_interval*counter frame_t.append(ft) et = ft - self.settings.exposure_time if(et < 0.0): et = 0.0 expos_t.append(et) if(ft >= self.settings.frame_end_time):break counter+=1 # create frame data composed by frame element data for step in range(len(frame_t)): ft=frame_t[step] et=expos_t[step] frame_data=FrameData(space_type) frame_data.set_start_time(et) frame_data.set_end_time(ft) felem=None last_index=0 for index in range(len(particles_time_seq)): if index == 0 : continue st=particles_time_seq[index][0] if(et-st<=ignore_dtime and st-ft<=ignore_dtime): st_f=particles_time_seq[index-1][0] stay_time=min(st-st_f, st-et) norm_stime=stay_time/self.settings.exposure_time pdata=particles_time_seq[index-1] sdata, d_idx=self._interpolate_shell_data( shell_time_seq, pdata) felem=FrameElem(pdata[0],pdata[1],pdata[2],sdata[1],sdata[2]) felem.set_eval_time(norm_stime) frame_data.append(felem) last_index=index # check last data if felem is None: continue if last_index == 0: continue st=particles_time_seq[last_index][0] pdata=particles_time_seq[last_index] sdata, d_idx=self._interpolate_shell_data( shell_time_seq, pdata) felem=FrameElem(pdata[0],pdata[1],pdata[2],sdata[1],sdata[2]) stay_time=ft-st if stay_time > ignore_dtime: norm_stime=stay_time/self.settings.exposure_time felem.set_eval_time(norm_stime) frame_data.append(felem) particle_frames.append(frame_data) return particle_frames