public void Empty() { TransducerType = TransducerType.Unknown; MeasurementData = 0.0D; MeasurementUnits = ""; TransducerName = ""; }
public void Parse(int first_field_number, Sentence sentence) { Empty(); TransducerType = sentence.TransducerType(first_field_number); MeasurementData = sentence.Double(first_field_number + 1); MeasurementUnits = sentence.Field(first_field_number + 2); TransducerName = sentence.Field(first_field_number + 3); }
public void TransducerTypeTest() { var target = new Sentence(); // TODO: Initialize to an appropriate value int field_number = 0; // TODO: Initialize to an appropriate value var expected = new TransducerType(); // TODO: Initialize to an appropriate value var actual = target.TransducerType(field_number); Assert.AreEqual(expected, actual); Assert.Inconclusive("Verify the correctness of this test method."); }
private bool overAudThresh(ref int currVol, TransducerType transducer, StimulusType stimulus, bool OtherChannelInterrupt) { #region Speech Stimulus if (stimulus == StimulusType.Speech) { switch (transducer) { case TransducerType.Bone: if (currVol > 70) { currVol = 70; return true; } break; case TransducerType.Phone: if (currVol > 110) { currVol = 110; return true; } break; case TransducerType.Insert: if (currVol > 115) { currVol = 115; return true; } break; default: break; } return false; } #endregion switch (transducer) { case TransducerType.Bone: switch (ameterSettings.frequency) { #region case 250: case 250: if (currVol > 55) // Bone @ 250 is always 55 { currVol = 55; return true; } break; #endregion #region case 500: case 500: if (OtherChannelInterrupt) { if (currVol > 70) // Bone @ 500 is 70 with interrupt on other channel { currVol = 70; return true; } } else if (currVol > 65) // Bone @ 500 is 65 without interrupt on other channel { currVol = 65; return true; } break; #endregion #region case 1000: case 1000: if (OtherChannelInterrupt) { if (currVol > 80) // Bone & 1000 is 80 with interrupt on other channel { currVol = 80; return true; } } else if (currVol > 75) // etc. See Max_Audiometer_Output spreadsheet { currVol = 75; return true; } break; #endregion #region case 2000: case 2000: if (OtherChannelInterrupt) { if (currVol > 85) { currVol = 85; return true; } } else if (currVol > 80) { currVol = 80; return true; } break; #endregion #region case 4000: case 4000: if (OtherChannelInterrupt) { if (currVol > 90) { currVol = 90; return true; } } else if (currVol > 85) { currVol = 85; return true; } break; #endregion #region case 8000: case 8000: if (OtherChannelInterrupt) { if (currVol > 50) { currVol = 50; return true; } } else if (currVol > 45) { currVol = 45; return true; } break; #endregion #region default: (should never execute) default: // Default to 90 which is the largest bone volume allowed // although, this code should never execute if (currVol > 90) { currVol = 90; return true; } break; #endregion } break; case TransducerType.Insert: switch (ameterSettings.frequency) { #region case 250: case 250: if (OtherChannelInterrupt) { if (currVol > 100) { currVol = 100; break; } } else if (currVol > 90) { currVol = 90; break; } break; #endregion #region case 500: case 500: if (currVol > 110) { currVol = 110; return true; } break; #endregion #region case 1000, 2000, 4000: (same limits) case 1000: case 2000: case 4000: if (currVol > 115) { currVol = 115; return true; } break; #endregion #region case 8000: case 8000: if (OtherChannelInterrupt) { if (currVol > 85) // Check and verify this is correct { // Intuitively, the interrupt should cause the volume // to be greater than the non-interrupt value, so this // may be incorrect... currVol = 85; return true; } } else if (currVol > 90) { currVol = 90; return true; } break; #endregion #region default: (should never execute) default: // Default to 115 which is the largest insert volume allowed // although, this code should never execute if (currVol > 115) { currVol = 115; return true; } break; #endregion } break; case TransducerType.Phone: switch (ameterSettings.frequency) { #region case 250: case 250: if (currVol > 105) { currVol = 105; return true; } break; #endregion #region case 500, 1000, 2000, 4000: (same limits) case 500: case 1000: case 2000: case 4000: if (currVol > 120) { currVol = 120; return true; } break; #endregion #region case 8000: case 8000: if (currVol > 105) { currVol = 105; return true; } break; #endregion #region default: (should never execute) default: // Default to 120 which is the largest phones volume allowed // although, this code should never execute if (currVol > 120) { currVol = 120; return true; } break; #endregion } break; default: if (currVol > 120) { currVol = 120; return true; } break; } return false; }