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# -*- coding: utf-8 -*-
#\t\t+ +--------------------------------------------+ \ + #\t\t+ | Response (Poles & Zeros),%6s ch %s | \ + #\t\t+ +--------------------------------------------+ \ + #\t\t B053F03 Transfer function type: %s B053F04 Stage sequence number: %s B053F05 Response in units lookup: %s - %s B053F06 Response out units lookup: %s - %s B053F07 A0 normalization factor: %G B053F08 Normalization frequency: %G B053F09 Number of zeroes: %s B053F14 Number of poles: %s #\t\tComplex zeroes: #\t\t i real imag real_error imag_error """
""" Blockette 053: Response (Poles & Zeros) Blockette.
Sample::
0530382B 1007008 7.87395E+00 5.00000E-02 3 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 0.00000E+00 -1.27000E+01 0.00000E+00 0.00000E+00 0.00000E+00 4 -1.96418E-03 1.96418E-03 0.00000E+00 0.00000E+00 S-1.96418E-03-1.96418E-03 0.00000E+00 0.00000E+00 53-6.23500E+00 7.81823E+00 0.00000E+00 0.00000E+00 -6.23500E+00-7.81823E+00 0.00000E+00 0.00000E+00 """
FixedString(3, "Transfer function types", 1, 'U'), Integer(4, "Stage sequence number", 2), Integer(5, "Stage signal input units", 3, xpath=34), Integer(6, "Stage signal output units", 3, xpath=34), Float(7, "A0 normalization factor", 12, mask='%+1.5e'), Float(8, "Normalization frequency", 12, mask='%+1.5e'), Integer(9, "Number of complex zeros", 3), # REPEAT fields 10 — 13 for the Number of complex zeros: Loop('Complex zero', "Number of complex zeros", [ Float(10, "Real zero", 12, mask='%+1.5e'), Float(11, "Imaginary zero", 12, mask='%+1.5e'), Float(12, "Real zero error", 12, mask='%+1.5e'), Float(13, "Imaginary zero error", 12, mask='%+1.5e') ]), Integer(14, "Number of complex poles", 3), # REPEAT fields 15 — 18 for the Number of complex poles: Loop('Complex pole', "Number of complex poles", [ Float(15, "Real pole", 12, mask='%+1.5e'), Float(16, "Imaginary pole", 12, mask='%+1.5e'), Float(17, "Real pole error", 12, mask='%+1.5e'), Float(18, "Imaginary pole error", 12, mask='%+1.5e') ]) ]
""" Returns RESP string. """ # Field three needs some extra parsing. 'B': 'B [Analog (Hz)]', 'C': 'C [Composite]', 'D': 'D [Digital (Z-transform)]'} field_three_dict[self.transfer_function_types], self.stage_sequence_number, LookupCode(abbreviations, 34, 'unit_name', 'unit_lookup_code', self.stage_signal_input_units), LookupCode(abbreviations, 34, 'unit_description', 'unit_lookup_code', self.stage_signal_input_units), LookupCode(abbreviations, 34, 'unit_name', 'unit_lookup_code', self.stage_signal_output_units), LookupCode(abbreviations, 34, 'unit_description', 'unit_lookup_code', self.stage_signal_output_units), self.A0_normalization_factor, self.normalization_frequency, self.number_of_complex_zeros, self.number_of_complex_poles) # Loop over all zeros. formatRESP(self.real_zero[_i], 6), formatRESP(self.imaginary_zero[_i], 6), formatRESP(self.real_zero_error[_i], 6), formatRESP(self.imaginary_zero_error[_i], 6)) else: out += 'B053F10-13 %4s %13s %13s %13s %13s\n' % (0, formatRESP(self.real_zero, 6), formatRESP(self.imaginary_zero, 6), formatRESP(self.real_zero_error, 6), formatRESP(self.imaginary_zero_error, 6)) # Loop over all poles. formatRESP(self.real_pole[_i], 6), formatRESP(self.imaginary_pole[_i], 6), formatRESP(self.real_pole_error[_i], 6), formatRESP(self.imaginary_pole_error[_i], 6)) else: out += 'B053F15-18 %4s %13s %13s %13s %13s\n' % (0, formatRESP(self.real_pole, 6), formatRESP(self.imaginary_pole, 6), formatRESP(self.real_pole_error, 6), formatRESP(self.imaginary_pole_error, 6)) |