Ejemplo n.º 1
0
 def test_example_CPC_alt(self):
     input_reader = input.InputReader(
         "examples/example_CPC_alt/TITAN_CPC.inp")
     R, N, distance, field_strength, name, out_format, point1_X, point1_Y, point1_Z, point2_X, point2_Y, point2_Z, \
     unit = input_reader.read_input_cpc()
     self.assertAlmostEqual((point1_X, point1_Y, point1_Z), (0.0, 1.0, 2.0),
                            1)
Ejemplo n.º 2
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def setup_input_reader(filename):
    """ sets up an instance of the input_reader """
    header.header_command_line()
    input_reader = input.InputReader(filename)
    input_reader.determine_type()

    return input_reader
Ejemplo n.º 3
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 def test_example_quant_txt(self):
     input_reader = input.InputReader(
         "examples/example_QUANT_TXT/TITAN_QUANTIFICATION_txt.inp")
     unit, file_type, name, charge_select, charge_seq, direction, v1x, v1y, v1z, v2x, v2y, v2z, \
                 point_x, point_y, point_z = input_reader.read_input_quantification()
     quantification_txt = titan.QuantificationTxt(name, point_x, point_y,
                                                  point_z, v1x, v1y, v1z,
                                                  v2x, v2y, v2z, charge_seq,
                                                  charge_select, unit)
     quantification_txt.execute()
     (vector_x, vector_y, vector_z) = (v2x - v1x, v2y - v1y, v2z - v1z)
     oef = quantification_txt.charge_distribution_to_quantify.calculate_oriented_electric_field(
         point_x, point_y, point_z, vector_x, vector_y, vector_z, "ANS")
     self.assertAlmostEqual(oef, 0.0025000443, 6)
Ejemplo n.º 4
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 def test_example_SL(self):
     input_reader = input.InputReader("examples/example_SL/TITAN_SL.inp")
     radius, N, step, chirality, name, fatom, sequence, charge, point_X, point_Y, point_Z, unit = \
         input_reader.read_input_sl()
     sl_calculation = titan.SpiralLineGenerate(sequence, fatom, charge,
                                               radius, step, N, chirality,
                                               point_X, point_Y, point_Z,
                                               name, unit)
     sl_calculation.create_spiral_line_distribution()
     efx, efy, efz, ef_tot = sl_calculation.charge_distribution_sl.calculate_electric_field(
         point_X, point_Y, point_Z, "ANS")
     self.assertAlmostEqual(efx, -0.000561, 6)
     self.assertAlmostEqual(efy, 0.003331, 6)
     self.assertAlmostEqual(efz, 0.001549, 6)
Ejemplo n.º 5
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 def test_example_CPC(self):
     input_reader = input.InputReader("examples/example_CPC/TITAN_CPC.inp")
     R, N, distance, field_strength, name, out_format, point1_X, point1_Y, point1_Z, point2_X, point2_Y, point2_Z, \
     unit = input_reader.read_input_cpc()
     circular = titan.CircularGenerate(point1_X, point1_Y, point1_Z,
                                       point2_X, point2_Y, point2_Z, R, N,
                                       distance, field_strength, name, unit)
     (vector_x, vector_y,
      vector_z) = (point2_X - point1_X, point2_Y - point1_Y,
                   point2_Z - point1_Z)
     circular.create_and_write_plates(out_format)
     oef = circular.charge_distribution_cpc.calculate_oriented_electric_field(
         point1_X, point1_Y, point1_Z, vector_x, vector_y, vector_z, "ANS")
     self.assertAlmostEqual(oef, 0.002500, 3)
Ejemplo n.º 6
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 def test_example_quant_pdb(self):
     input_reader = input.InputReader(
         "examples/example_QUANT_PDB/TITAN_QUANTIFICATION_PDB.inp")
     unit, file_type, name, charge_select, charge_seq, direction, v1x, v1y, v1z, v2x, v2y, v2z, \
                 point_x, point_y, point_z = input_reader.read_input_quantification()
     force_field, n_terminal, c_terminal = input_reader.read_input_pdb()
     name = "examples/example_QUANT_PDB/" + name
     quantification_amber = titan.QuantificationPdbAmber(
         name, point_x, point_y, point_z, v1x, v1y, v1z, v2x, v2y, v2z,
         n_terminal, c_terminal, charge_seq, charge_select, unit)
     quantification_amber.execute()
     (vector_x, vector_y, vector_z) = (v2x - v1x, v2y - v1y, v2z - v1z)
     oef = quantification_amber.charge_distribution_to_quantify.calculate_oriented_electric_field(
         point_x, point_y, point_z, vector_x, vector_y, vector_z, "ANS")
     self.assertAlmostEqual(oef, -0.0001016013, 6)
Ejemplo n.º 7
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 def test_example_quant_log(self):
     input_reader = input.InputReader(
         "examples/example_QUANT_LOG/TITAN_QUANTIFICATION_LOG.inp")
     unit, file_type, name, charge_select, charge_seq, direction, v1x, v1y, v1z, v2x, v2y, v2z, \
                 point_x, point_y, point_z = input_reader.read_input_quantification()
     name = "examples/example_QUANT_LOG/" + name
     quantification_log = titan.QuantificationLog(name, point_x, point_y,
                                                  point_z, v1x, v1y, v1z,
                                                  v2x, v2y, v2z, charge_seq,
                                                  charge_select, unit)
     quantification_log.execute()
     (vector_x, vector_y, vector_z) = (v2x - v1x, v2y - v1y, v2z - v1z)
     oef = quantification_log.charge_distribution_to_quantify.calculate_oriented_electric_field(
         point_x, point_y, point_z, vector_x, vector_y, vector_z, "ANS")
     self.assertAlmostEqual(oef, 3.7534039842, 6)
Ejemplo n.º 8
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 def test_example_quant_direction(self):
     input_reader = input.InputReader(
         "examples/example_QUANT_DIRECTION/TITAN_QUANTIFICATION_DIRECTION.inp"
     )
     unit, file_type, name, charge_select, charge_seq, direction, v1x, v1y, v1z, v2x, v2y, v2z, \
                 point_x, point_y, point_z = input_reader.read_input_quantification()
     force_field, n_terminal, c_terminal = input_reader.read_input_pdb()
     aspp, glup, disu = input_reader.read_input_charmm()
     name = "examples/example_QUANT_DIRECTION/" + name
     quantification_charmm = titan.QuantificationPdbCharmm(
         name, point_x, point_y, point_z, v1x, v1y, v1z, v2x, v2y, v2z,
         n_terminal, c_terminal, charge_seq, charge_select, unit, aspp,
         glup, disu)
     quantification_charmm.execute()
     (vector_x, vector_y, vector_z) = (v2x - v1x, v2y - v1y, v2z - v1z)
     oef = quantification_charmm.charge_distribution_to_quantify.calculate_oriented_electric_field(
         point_x, point_y, point_z, vector_x, vector_y, vector_z, "ANS")
     self.assertAlmostEqual(oef, -0.0211101298, 6)
Ejemplo n.º 9
0
 def test_example_SL_alt(self):
     input_reader = input.InputReader(
         "examples/example_SL_alt/TITAN_SL.inp")
     radius, N, step, chirality, name, fatom, sequence, charge, point_X, point_Y, point_Z, unit = \
         input_reader.read_input_sl()
     self.assertAlmostEqual((point_X, point_Y, point_Z), (0.0, 1.0, 2.0), 1)