def export(self): m = int(self.Lbexp.curselection()[0]) n = len(self.ff) if (m == 0): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output H1 filename: ") output_file = output_file_path.rstrip('\n') WriteData3(n, self.ff, self.H1_real, self.H1_imag, output_file) if (m == 1): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output H2 filename: ") output_file = output_file_path.rstrip('\n') WriteData3(n, self.ff, self.H2_real, self.H2_imag, output_file) if (m == 2): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output Coherence filename: ") output_file = output_file_path.rstrip('\n') WriteData2(n, self.ff, abs(self.COH), output_file)
def export(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output filename") output_file = output_file_path.rstrip('\n') num = len(self.ft) WriteData2(num, self.ft, self.pt, output_file)
def export(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the response acceleration PSD filename") output_file = output_file_path.rstrip('\n') num = len(self.fi) WriteData2(num, self.fi, self.aa_psd, output_file)
def export(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output filename") output_file = output_file_path.rstrip('\n') self.np = len(self.TT) WriteData2(self.np, self.TT, self.psd_th, output_file)
def export_psd(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output filename") output_file = output_file_path.rstrip('\n') self.np = len(self.freq) WriteData2(self.np, self.freq, self.full, output_file)
def save_data(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output filename") output_file = output_file_path.rstrip('\n') self.np = len(self.f) WriteData2(self.np, self.f, self.W, output_file)
def save_velox(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output velocity filename: ") output_file = output_file_path.rstrip('\n') na = len(self.t) nb = len(self.v) n = min(na, nb) WriteData2(n, self.t, self.v, output_file)
def export_pv(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the pseudo velocity SRS filename") output_file = output_file_path.rstrip('\n') n = int(self.Lb2.curselection()[0]) if (n == 0): WriteData3(self.num_fn, self.fn, self.pv_pos, self.pv_neg, output_file) else: WriteData2(self.num_fn, self.fn, self.pv_abs, output_file)
def save_accel(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output acceleration filename: ") output_file = output_file_path.rstrip('\n') na = len(self.t) nb = len(self.acc) n = min(na, nb) WriteData2(n, self.t, self.tcc, output_file)
def export_rd(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the relative displacement SRS filename") output_file = output_file_path.rstrip('\n') n = int(self.Lb2.curselection()[0]) if (n == 0): WriteData3(self.num_fn, self.fn, self.rd_pos, self.rd_neg, output_file) else: WriteData2(self.num_fn, self.fn, self.rd_abs, output_file)
def export_fftm(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output FFT filename (freq, mag): ") output_file = output_file_path.rstrip('\n') na=len(self.ff) nb=len(self.zz) n=min(na, nb) WriteData2(n,self.ff,self.zz,output_file)
def export_txt(self): if (self.nad == 1): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output filename") output_file = output_file_path.rstrip('\n') WriteData2(self.num, self.t, self.dataf, output_file) else: output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output filename for channel 1") output_file = output_file_path.rstrip('\n') WriteData2(self.num, self.t, self.dataf[:, 0], output_file) output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output filename for channel 2") output_file = output_file_path.rstrip('\n') WriteData2(self.num, self.t, self.dataf[:, 1], output_file) self.button_calculate_FFT.config(height=2, width=16, state='normal')
def save_disp(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output displacement filename: ") output_file = output_file_path.rstrip('\n') na = len(self.t) nb = len(self.d) n = min(na, nb) WriteData2(n, self.t, self.d, output_file)
def export(self): root = self.master ne = int(self.Lbe.curselection()[0]) output_file_path = asksaveasfilename(parent=root, title="Enter the output filename") output_file = output_file_path.rstrip('\n') if (ne == 0): WriteData2(self.num_fn, self.ff, self.avrs, output_file) if (ne == 1): WriteData2(self.num_fn, self.ff, self.tsvrs, output_file) if (ne == 2): WriteData2(self.num_fn, self.ff, self.nvrs, output_file) if (ne == 3): WriteData2(self.num_fn, self.ff, self.rdvrs, output_file)
def export_accel(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the acceleration SRS filename") output_file = output_file_path.rstrip('\n') n = int(self.Lb2.curselection()[0]) if (n == 0): WriteData3(self.num_fn, self.fn, self.a_pos, self.a_neg, output_file) else: WriteData2(self.num_fn, self.fn, self.a_abs, output_file)
def export_rel_disp(self): if(self.n_at==0): str="Enter the relative displacement time history filename" else: str="Enter the relative displacement SRS filename" output_file_path = asksaveasfilename(parent=self.master,title=str) output_file = output_file_path.rstrip('\n') if(self.n_at==0): WriteData2(self.nt[0],self.tt,self.rd,output_file) else: nf=len(self.fn) WriteData3(nf,self.fn,self.rdmax,abs(self.rdmin),output_file)
def export(self): n = int(self.Lb2.curselection()[0]) num = len(self.fi) if (n <= 3): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the response PSD filename") output_file = output_file_path.rstrip('\n') if (n == 0): WriteData2(num, self.fi, self.acceleration_psd, output_file) if (n == 1): WriteData2(num, self.fi, self.velocity_psd, output_file) if (n == 2): WriteData2(num, self.fi, self.displacement_psd, output_file) if (n == 3): WriteData2(num, self.fi, self.tf_psd, output_file) else: output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the frf filename") output_file = output_file_path.rstrip('\n') if (n == 4): WriteData3(num, self.fi, self.accelerance.real, self.accelerance.imag, output_file) if (n == 5): WriteData3(num, self.fi, self.mobility.real, self.mobility.imag, output_file) if (n == 6): WriteData3(num, self.fi, self.receptance.real, self.receptance.imag, output_file)
def export_acceleration(self): if(self.n_at==0): str="Enter the acceleration time history filename" else: str="Enter the acceleration SRS filename" output_file_path = asksaveasfilename(parent=self.master,title=str) output_file = output_file_path.rstrip('\n') if(self.n_at==0): WriteData2(self.nt[0],self.tt,self.acc,output_file) else: nf=len(self.fn) WriteData3(nf,self.fn,self.amax,abs(self.amin),output_file)
def export(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output filename: ") output_file = output_file_path.rstrip('\n') WriteData2(self.num, self.a, self.c, output_file)
def export_spl(self): output_file_path = asksaveasfilename(parent=self.master, title="Enter the SPL filename") output_file = output_file_path.rstrip('\n') WriteData2(len(self.pf), self.pf, self.pspl, output_file)
def export_Fourier_Transformationm(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output Fourier Transformation filename (freq, mag): ") output_file = output_file_path.rstrip('\n') WriteData2(self.nhalf, self.ff, self.zz, output_file)
def export_fd(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the output time history filename: ") output_file = output_file_path.rstrip('\n') self.num = len(self.TT) WriteData2(self.num, self.TT, self.a, output_file)
def export_accel(self): root = self.master output_file_path = asksaveasfilename( parent=root, title="Enter the acceleration filename") output_file = output_file_path.rstrip('\n') WriteData2(self.num, self.a, self.a_resp, output_file)
def export_rd(self): root = self.master output_file_path = asksaveasfilename( parent=root, title="Enter the relative displacement filename") output_file = output_file_path.rstrip('\n') WriteData2(self.num, self.a, self.rd_resp, output_file)
def export_trans_force(self): root = self.master output_file_path = asksaveasfilename( parent=root, title="Enter the transmitted force filename") output_file = output_file_path.rstrip('\n') WriteData2(self.num, self.a, self.ft_resp, output_file)
def export_cross_correlation(self): output_file_path = asksaveasfilename(parent=self.master,\ title="Enter the cross_correlation filename: ") output_file = output_file_path.rstrip('\n') WriteData2(self.n,self.d,self.cc,output_file)