EDI Serializer/Deserializer. Used to read & write EDI streams.
This is a ground up implementation and does not make use of XML Serialization
in any step of the process. This reduces the overhead of converting into multiple formats allong the way of getting the desired Clr object. This makes the process quite fast.
Tested with Tradacoms, EDIFact and __ANSI ASC X12 (X12)__ formats.
Using attributes you can express all EDI rules like Mandatory/Conditional Segments, Elements & Components
as well as describe component values size length and precision with the picture syntax (e.g 9(3)
, 9(10)V9(2)
and X(3)
).
To install Edi.Net, run the following command in the Package Manager Console. Or download it here
PM> Install-Package "indice.Edi"
The general rules of thumb are :
Attribute | Description |
---|---|
EdiValue | Any value inside a segment. (ie the component value 500 in bold) |
UCI+001342651817+9907137000005:500+9912022000002:500+7 | |
EdiElement | Elements are considered to be groups of values otherwise known as groups of components. One can use this attribute to deserialize into a complex class that resides inside a segment. For example this can usually be used to deserialize more than one value between + into a ComplexType (ie the whole element into a new class 9912022000002:500 in bold) |
UCI+001342651817+9907137000005:500+9912022000002:500+7 | |
EdiPath | To specify the path |
EdiSegment | Marks a propery/class to be deserialized for a given segment. Used in conjunction with EdiPath |
EdiSegmentGroup | Marks a propery/class as a logical container of segments. This allows a user to decorate a class whith information regarding the starting and ending segments that define a virtual group other than the standard ones (Functional Group etc). Can be applied on Lists the same way that [Message] or [Segment] attributes work |
EdiMessage | Marks a propery/class to be deserialized for any message found. |
EdiGroup | Marks a propery/class to be deserialized for any group found. |
EdiCondition | In case multiple MessageTypes or Segment types with the same name. Used to discriminate the classes based on a component value |
There are available configurations (EdiGrammar
) for EDIFact
, Tradacoms
and X12
. Working examples for all supported EDI formats can be found in the source code under tests.
Note that all examples may be partialy implemented transmissions for demonstration purposes although they are a good starting point. If someone has complete poco classes for any transmition please feel free to contribute a complete test.
The following example makes use of the Tradacoms
grammar and deserializes the sample.edi
file to the Interchange
class.
var grammar = EdiGrammar.NewTradacoms();
var interchange = default(Interchange);
using (var stream = new StreamReader(@"c:\temp\sample.edi")) {
interchange = new EdiSerializer().Deserialize<Interchange>(stream, grammar);
}
In this case we are instantiating our POCO class Interchange
and then fill-it up with values before finally serializing to out.edi
.
var grammar = EdiGrammar.NewTradacoms();
var interchange = new Interchange();
// fill properies
interchange.TransmissionDate = DateTime.Now;
...
// serialize to file.
using (var textWriter = new StreamWriter(File.Open(@"c:\temp\out.edi", FileMode.Create))) {
using (var ediWriter = new EdiTextWriter(textWriter, grammar)) {
new EdiSerializer().Serialize(ediWriter, interchange);
}
}
Annotated POCOS example using part of Tradacoms UtilityBill format:
public class Interchange
{
[EdiValue("X(14)", Path = "STX/1/0")]
public string SenderCode { get; set; }
[EdiValue("X(35)", Path = "STX/1/1")]
public string SenderName { get; set; }
[EdiValue("9(6)", Path = "STX/3/0", Format = "yyMMdd", Description = "TRDT - Date")]
[EdiValue("9(6)", Path = "STX/3/1", Format = "HHmmss", Description = "TRDT - Time")]
public DateTime TransmissionStamp { get; set; }
public InterchangeHeader Header { get; set; }
public InterchangeTrailer Trailer { get; set; }
public List<UtilityBill> Invoices { get; set; }
}
[EdiMessage, EdiCondition("UTLHDR", Path = "MHD/1")]
public class InterchangeHeader
{
[EdiValue("9(4)"), EdiPath("TYP")]
public string TransactionCode { get; set; }
[EdiValue("9(1)", Path = "MHD/1/1")]
public int Version { get; set; }
}
[EdiMessage, EdiCondition("UTLTLR", Path = "MHD/1")]
public class InterchangeTrailer
{
[EdiValue("9(1)", Path = "MHD/1/1")]
public int Version { get; set; }
}
[EdiMessage, EdiCondition("UTLBIL", Path = "MHD/1")]
public class UtilityBill
{
[EdiValue("9(1)", Path = "MHD/1/1")]
public int Version { get; set; }
[EdiValue("X(17)", Path = "BCD/2/0", Description = "INVN - Date")]
public string InvoiceNumber { get; set; }
public MetetAdminNumber Meter { get; set; }
public ContractData SupplyContract { get; set; }
[EdiValue("X(3)", Path = "BCD/5/0", Description = "BTCD - Date")]
public BillTypeCode BillTypeCode { get; set; }
[EdiValue("9(6)", Path = "BCD/1/0", Format = "yyMMdd", Description = "TXDT - Date")]
public DateTime IssueDate { get; set; }
[EdiValue("9(6)", Path = "BCD/7/0", Format = "yyMMdd", Description = "SUMO - Date")]
public DateTime StartDate { get; set; }
[EdiValue("9(6)", Path = "BCD/7/1", Format = "yyMMdd", Description = "SUMO - Date")]
public DateTime EndDate { get; set; }
public UtilityBillTrailer Totals { get; set; }
public UtilityBillValueAddedTax Vat { get; set; }
public List<UtilityBillCharge> Charges { get; set; }
public override string ToString() {
return string.Format("{0} TD:{1:d} F:{2:d} T:{3:d} Type:{4}", InvoiceNumber, IssueDate, StartDate, EndDate, BillTypeCode);
}
}
[EdiSegment, EdiPath("CCD")]
public class UtilityBillCharge
{
[EdiValue("9(10)", Path = "CCD/0")]
public int SequenceNumber { get; set; }
[EdiValue("X(3)", Path = "CCD/1")]
public ChargeIndicator? ChargeIndicator { get; set; }
[EdiValue("9(13)", Path = "CCD/1/1")]
public int? ArticleNumber { get; set; }
[EdiValue("X(3)", Path = "CCD/1/2")]
public string SupplierCode { get; set; }
[EdiValue("9(10)V9(3)", Path = "CCD/10/0", Description = "CONS")]
public decimal? UnitsConsumedBilling { get; set; }
}
The following is a set of guidelines for contributing to EDI.Net.
Open a new GitHub pull request with the patch. Ensure the PR description clearly describes the problem and solution. Include the relevant issue number if applicable.
As of v1.0.7 the solution was adapted to support the dotnet core project system. Then it was adapted again since the dotnet core tooling was officialy relased (March 7th 2017 at the launch of Visual studio 2017). In order to build and test the source code you will need either one of the following.
v2.0.0
onwards)v1.1.3
- v1.x.x
)v1.0.7
- v1.1.2
)for more information check .Net Core official page.
The Picture Clause is taken from COBOL laguage and the way it handles expressing numeric and alphanumric data types. It is used throughout tradacoms.
Symbol | Description | Example Picture | Component | c# result |
---|---|---|---|---|
9 | Numeric | 9(3) |
013 |
int v = 13; |
A | Alphabetic | not used | - | - |
X | Alphanumeric | X(20) |
This is alphanumeric |
string v = "This is alphanumeric"; |
V | Implicit Decimal | 9(3)V9(2) |
01342 |
decimal v = 13.42M; |
S | Sign | not used | - | - |
P | Assumed Decimal | not used | - | - |
Serialize
to write Clr classes to edi format (Using attributes). (planned for v1.1) Disclaimer. The project was inspired and influenced by the work done in the excellent library JSON.Net by James Newton King. Some utility parts for reflection string parsing etc. are used as is