public override FieldError ValidateValue( StringBuilder data) { FieldError error = null; string str = data.ToString(); if (data.Length < minLength || data.Length == 5) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidTimeCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidTimeCode), str); return(error); } if (data.Length > maxLength) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidTimeCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidTimeCode), str); return(error); } //run thru the data to ensure all are digits for (int i = 0; i < data.Length; i++) { if (!DataTypeHelper.IsDigit(data[i])) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidTimeCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidTimeCode), data.ToString()); return(error); } } //data is between min and max length, thus it is atleast 4 chars //and all are digits int hour = 10 * (data[0] - '0') + (data[1] - '0'); int min = 10 * (data[2] - '0') + (data[3] - '0'); int sec = data.Length == 4 ? 0 : 10 * (data[4] - '0') + (data[5] - '0'); if (hour < 0 || hour > 23 || min < 0 || min > 59 || sec < 0 || sec > 59) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidTimeCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidTimeCode), str); } return(error); }
/* * This method does validation of a numeric data type after precision point has been * removed during serialization and raw data during parsing. The following rules need * to be obeyed * * 1) 0th char is - or digit, + is not allowed * 2) All other chars are digit * 3) If length > minLength, then no leading zeroes are allowed * 4) Sign is not part of length calculation * * This method doesn't apply precision point nor does it check for it */ public static bool ValidateRDataType(StringBuilder data, int minL, int maxL, int decimalSeparator, out FieldError error) { error = null; int dataLen = data.Length; if (dataLen == 0) //too short error { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeDataElementTooShortCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeDataElementTooShortCode), string.Empty); return(true); } char c = data[0]; bool isNegSign = false; bool isError = false; if (c == '+') { isError = true; } else if (c == '-') { isNegSign = true; if (data.Length == 1) { isError = true; //data is -, single negative sign which is invalid } } if (isError) { AppendInvalidCharCode(data); return(true); } //This loop would ensure all are digits or digits + one point //otherwise loop would abort and return true bool bPointFound = false; int decimalIndex = -1; for (int i = isNegSign ? 1 : 0; i < dataLen; i++) { if (DataTypeHelper.IsDigit(data[i])) //digit found, no-op { } else if (!bPointFound && data[i] == decimalSeparator) { bPointFound = true; decimalIndex = i; //Edifact data should have atleast one digit after decimal point if (!(i + 1 < dataLen && DataTypeHelper.IsDigit(data[i + 1]))) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidCharacterInDataElementCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidCharacterInDataElementCode), data.ToString()); } } else //error state { AppendInvalidCharCode(data); return(true); } } if (isNegSign) { dataLen--; //count of digits if (dataLen > 0) { c = data[1]; } else { AppendInvalidCharCode(data); return(true); } } //check for leading zeroes //Leading zero is the 1st char being zero, otherwise not //leading zero is allowed only when data has minimum length //skip the check if minL is not specified, #3454 if (c == '0' && minL > 0 && false) { if (decimalIndex < 0) //no decimal found { if ((dataLen > minL && minL > 0) || minL < 0) { AppendInvalidCharCode(data); return(true); } } else //decimal was found, so 0.1, -0.1 are valid but 00.1 or -00.1 are invalid { if ((dataLen > minL && minL > 0) || minL < 0) { int offset = isNegSign ? 2 : 1; if (data.Length > offset && data[offset] == decimalSeparator) { } else { AppendInvalidCharCode(data); return(true); } } } } if (decimalIndex >= 0) { dataLen--; if (data[data.Length - 1] == '0' && false && ((dataLen > minL && minL > 0) || minL < 0)) { AppendInvalidCharCode(data); return(true); } } if (minL > 0 && dataLen < minL) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeDataElementTooShortCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeDataElementTooShortCode), data.ToString()); return(true); } if (maxL > 0 && dataLen > maxL) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeDataElementTooLongCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeDataElementTooLongCode), data.ToString()); return(true); } return(false); }
public override FieldError ValidateValue(StringBuilder data) { FieldError error = null; string str = data.ToString(); // First try the .NET function to check if date is valid // if not we will follow other way (check yyyymmdd) DateTime dt; if (DateTime.TryParse(str, out dt)) { return(error); } if (data.Length < minLength || data.Length == 7) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidDateCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidDateCode), str); return(error); } if (data.Length > maxLength) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidDateCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidDateCode), str); return(error); } //run thru the data to ensure all are digits for (int i = 0; i < data.Length; i++) { if (!DataTypeHelper.IsDigit(data[i])) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidDateCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidDateCode), data.ToString()); return(error); } } //data is between min and max length, thus it is atleast 6 chars //and all are digits int offset = data.Length == 6 ? 2 : 4; int year = data.Length == 6 ? 10 * (data[0] - '0') + (data[1] - '0') : 1000 * (data[0] - '0') + 100 * (data[1] - '0') + 10 * (data[2] - '0') + (data[3] - '0'); int month = 10 * (data[offset] - '0') + (data[offset + 1] - '0'); int day = 10 * (data[offset + 2] - '0') + (data[offset + 3] - '0'); if (year == 0) { year = 2000; } try { DateTime dateTime = new DateTime(year, month, day); } catch (ArgumentOutOfRangeException) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidDateCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidDateCode), str); } return(error); }
/* * This method does validation of a numeric data type after precision point has been * removed during serialization and raw data during parsing. The following rules need * to be obeyed * * 1) 0th char is - or digit, + is not allowed * 2) All other chars are digit * 3) If length > minLength, then no leading zeroes are allowed * 4) Sign is not part of length calculation * * This method doesn't apply precision point nor does it check for it */ private bool ValidateNDataType(StringBuilder data, out FieldError error) { error = null; int dataLen = data.Length; if (dataLen == 0) //too short error { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeDataElementTooShortCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeDataElementTooShortCode), string.Empty); return(true); } char c = data[0]; bool isNegSign = false; if (c == '+') { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidCharacterInDataElementCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidCharacterInDataElementCode), data.ToString()); return(true); } else if (c == '-') { isNegSign = true; } for (int i = isNegSign ? 1 : 0; i < dataLen; i++) { // "." is valid character if (!(DataTypeHelper.IsDigit(data[i]) || data[i] == '.')) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeInvalidCharacterInDataElementCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeInvalidCharacterInDataElementCode), data.ToString()); return(true); } } if (isNegSign) { dataLen--; //count of digits if (dataLen > 0) { c = data[1]; } else { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeDataElementTooShortCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeDataElementTooShortCode), data.ToString()); return(true); } } if (/*(mPrecision > 0 && dataLen < mPrecision) || */ (minLength >= 0 && dataLen < minLength)) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeDataElementTooShortCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeDataElementTooShortCode), data.ToString()); return(true); } if (maxLength >= 0 && dataLen > maxLength) { error = DataTypeHelper.GenerateFieldError(X12ErrorCode.DeDataElementTooLongCode, X12ErrorCode.GetDataElementErrorDescription(X12ErrorCode.DeDataElementTooLongCode), data.ToString()); return(true); } return(false); }