Umbrella is a simple library that add the capability of convert an IEnumerable instance to a DataTable by using C# projections. This saves the time of creating boilerplate code for define the DataTable columns and map your data into the DataTable.
This library is distributed through NuGet; you can find it as
Umbrella.DataTable.
Using Package Manager Console in Visual Studio:
PM> Install-Package Umbrella.DataTableUsing .NET Core CLI:
> dotnet add package Umbrella.DataTableJust import the Umbrella namespace in your class, and wherever you have an instance of an IEnumerable, you would be able to use the extension method ToDataTable; and provide a projection that would correspond to your DataTable. See the code snippet below for see a sample of the ToDataTable method usage:
using Umbrella;
...
public class Order
{
public long Id {get; set;}
public string Description {get; set;}
public decimal Amount {get; set;}
public decimal Freight {get; set;}
public bool? IsShipped {get; set;}
}
...
List<Order> orders = GetOrders();
// Here's where Umbrella kicks in and creates your DataTable based on a projection
DataTable ordersTable = orders.ToDataTable(o => new {ID = o.Id, NetAmount = o.Amount + o.Freight, p.IsShipped});The code snippet above would create a DataTable where its columns are ID, NetAmount and IsShipped. The data type of a column is inferred by the expression assigned to each property within the projection:
IDis assigned to the expressiono.Id, and its type is the member accessed type:long.NetAmountis assigned to a sum, and its type isdecimalbecause both operands aredecimal.IsShipped, asID, is assigned to a member accessing expression, so its type isbool.
Notice the projection passed as argument to the ToDataTable method: it dictates what are going to be the columns of the DataTable and how the data should be mapped to each column within a row:
| Column | Mapping Expression | Description |
|---|---|---|
ID |
o.Id |
The property Id value from an Order instance would be allocated here |
NetAmount |
o.Amount + o.Freight |
The sum between the two properties (Amount & Freight) of an Order would be allocated here |
IsShipped |
o.IsShipped |
The property IsShipped value from an instance of an Order instance would be allocated here |
In case one of your DataTable columns must have spaces embedded, then use the methods provided by ColumnSettings class to do so. ColumnSettings, as its name implies, it's a class that states the settings for a column: its mapping expression and its name. You can't instantiate it by your own, instead you have to use a method that does so: ColumnSetings Build<T>(Expression<Func<T>> columnMappingExpression). Build is a static method that creates a ColumnSettings instance with the mapping expression provided as argument through the columnMappingExpression parameter. For example:
(Order o) => new {ShippedDt = ColumnSettings.Build(() => o.ShippedDate).Name("Shipped Date")}The method Build creates a ColumnSettings instance that has as mapping expression o.ShippedDate, and the Name method demands a different name for the column instead of using the property projected name: Shipped Date instead of ShippedDt. The data type of the column is inferred by the mapping expression provided to the Build method.
It's a static method that creates a ColumnSettings instance with the column mapping expression provided.
(Person p) => new {FullName = ColumnSettings.Build(() => p.FirstName + " " + p.LastName)}Sets the name for a column.
(Person p) => new {NewId = ColumnSettings.Build(() => p.PersonId).Name("ID")}See below multiple projections and their intepretation from a DataTable standpoint:
(Order o) => new {o.Id}or
(Order o) => o.IdNote: your projection might have or not a
newoperator in it. In case it does not have it, you can project only one member; you can't have multiple members projected tied with an operator different thannew, like:o.FirstName + " " + o.LastName- this projection is invalid because it can't infer the column's name.
(Order o) => new {ID = o.Id, o.IsShipped, Desc = ColumnSettings.Build(() => o.Description).Name("Order Description")}IsShipped is declared as bool? so the column generated for it would be nullable; Description is declared as a string and by default it's considered as nullable - check the mapping expression provided to the ColumnSettings.Build method.
| Projector | Columns | Notes |
|---|---|---|
(Order o) => new {o.Id, Desc = o.Description} |
Id, Desc |
- |
(Order o) => o |
Id, Description, Amount, Freight, IsShipped |
This is an implicit projection. A projection is implicit when you return the projector parameter instead of manipulate the members within the projection - the properties projected are the writable one. An implicit projection is valid when your parameter type is a composite type: class or struct |
(Order o) => new Order(){Id = o.Id} |
Id |
The members initialized are the taken as columns |
(int i) => new {Identifier = i} |
Identifier |
- |
(Order o) => o.Id |
o.Id |
This would be a single member projection because it projects only one member. |
Ensure your projection is a flat -no nested projection, meaning no nested
newoperators- and the data types of each property is a built-in type.
Umbrella takes the projection's Expression Tree generated by the .NET Compiler in order to generate the DataTable metadata: column names, column data types and column constraints - at the moment it supports if the column allows null or not -. It also helps in dumping the data from the IEnumerable instance into the DataTable by creating a mapping function that takes as input an IEnumerable item and return a new piece of data.
When projecting objects, you have as input an object of type A and produce an object of type B by executing a function that shapes/transforms the input object into another one. This function is known as projector. For example, check the projector below:
(Order o) => new {ID = o.Id, o.Description, TotalAmount = o.Amount}From a C# standpoint, we're projecting an object where its properties are ID, Description and TotalAmount. From the DataTable standpoint, we're demanding a DataTable where its columns are ID, Description and TotalAmount too. So basically a property within the projection equals to a column.
You have to ensure that your projector outputs an object no matter what, thus you would have properties in hand. There's an exception for this rule, and it's when your input type is already an composite type (class/struct) and your projector basically projects a member of the object without explicitily creating a new object - without using the new operator - . For instance:
(Order o) => o.IdThe projector above is valid: it demands the creation of a DataTable that has a single column: Id. However, the projector below is invalid:
(int i) => iUmbrella can't translate this as a column because it's not even a composite type. It doesn't have properties, etc. In case you want to produce a DataTable based on the given collection, then we have to wrap our field into an object by using the new operator:
(int i) => new {ID = i}Now Umbrella sees that it should create a DataTable of a single column called ID.
If your input type isn't a complex one, then ensure you use the
newoperator within the projection to create one.
Notice that the properties encountered in the projection are mapped to an expression: either an expression that access the member of the input type, or an arithmethic expression, or a string operation and so on. Each one of these expressions are used to produce the value of a column within a row when iterating over the IEnumerable instance. Each iteration represents a row, and when all the delegates are executed for a specific item, it's appended to the DataTable as a row.
Let's assume we have the following a set of Orders and we project them as:
List<Order> orders = new List<Order>()
{
new Order(){Id = 1, Description = "BMX", Amount = 24, Freight = 1, IsShipped = false},
new Order(){Id = 2, Description = "Toyota Corolla", Amount = 2211, Freight = 12, IsShipped = true},
new Order(){Id = 3, Description = "Yamaha Bike", Amount = 224, Freight = 4, IsShipped = false}
};
DataTable orderTable = orders.ToDataTable(o => new {o.Id, TotalAmount = o.Amount + o.Freight, Processed = true});We would end with a table like this:
| Id | TotalAmount | Processed |
|---|---|---|
| 1 | 25 | true |
| 2 | 2223 | true |
| 3 | 228 | true |
How we ended with the DataTable already filled like the one above? We already know how the column discovery works: each property within the projection represents a column, but what about the values listed below each columns... where they come from? They come from the source collection - the IEnumerable instance -, but each value is the output of a function that is already mapped to each column. See the data structure below used by Umbrella in order to produce the value for each column within a row:
| Column | Mapping function (seems as a lambda expression) | Note |
|---|---|---|
Id |
(Order o) => o.Id |
Returns the Order's Id value |
TotalAmount |
(Order o) => o.Amount + o.Freight |
Returns the sum of Order's Amount and Freight |
Processed |
() => true |
Always return true (notice it's a parameterless function due to it did not reference the projector's input object) |
When dumping the data into the DataTable, the mapping function is looked up by the underlying column, and it's executed by passing as argument - or not - the underlying collection's item.
The process for create a DataTable can be tedious: initialize the table, create the DataColumns by specifying its name and data type, create a DataRow per each entry and map the entry's values to the row, and finally append the DataRow to the table. This process can be really cumbersome when dealing with a dataset that has numerous columns. That's one of the situations where Umbrella takes action: creates DataTable with data in from an IEnumerable instance by using projections.
I have seen solutions about how to convert a List to a DataTable where the generic type of the List is reflected in order to fetch its properties and use them as columns for the table. Although this solution might satisfy a bunch of scenarios, you're coupling your underlying type to the table generation. The way Umbrella generates the table it's different even though it uses reflection behind of scenes: you project an object that would represent your DataTable schema and the values that should be allocated in each column. This approach provides you the control of what are going to be your columns and how your data should be mapped to each column when creating a row.
The main purpose of writting this library is boost your productivity as Developer and reduce the lines of codes required for manipulate DataTables - which would increase the readibility of your code.