You want your local web development set up to reflect your production reality as much as possible. URL parsing, routing, redirects, avoiding mixed-content warnings, etc. It's very easy to accidentally find oneself on http:// when everything in 2018 should be under https://.

I'm using ASP.NET Core 2.1 which makes local SSL super easy. After installing from http://dot.net I'll "dotnet new razor" in an empty folder to make a quick web app. 

SQL Server 2014 DML Triggers are often a point of contention between Developers and DBAs, between those who customize a database application and those who provides it. They are often the first database objects investigated when the performance degrades. They seem easy to write, but writing efficient Trigger, though complex have a very important characteristic: they allow solving problems that cannot be managed in any other application layer. Therefore, if you cannot work without them, in this article you will learn tricks and best practices for writing and managing them efficiently. 

type [access-modifier] type-name [type-params] [access-modifier] ( parameter-list ) [ as identifier ] =
   [ class ]
     [ inherit base-type-name(base-constructor-args) ]
     [ let-bindings ]
     [ do-bindings ]
     member-list
      ...
   [ end ]

type [access-modifier] type-name1 ...
and [access-modifier] type-name2 ...
...

type Account(number : int, name : string) = class
    let mutable amount = 0m
   
end

let myAccount = new Account(123456, "Masoud")

type Account(number : int, name: string) = class
    let mutable amount = 0m
 
    member x.Number = number
    member x.Name= name
    member x.Amount = amount
 
    member x.Deposit(value) = amount <- amount + value
    member x.Withdraw(value) = amount <- amount - value
end

open System
 
type Account(number : int, name: string) = class
    let mutable amount = 0m
 
    member x.Number = number
    member x.Name= name
    member x.Amount = amount
 
    member x.Deposit(value) = amount <- amount + value
    member x.Withdraw(value) = amount <- amount - value
end



 let masoud= new Account(12345, "Masoud")
 let saeed = new Account(67890, "Saeed")
 
let transfer amount (source : Account) (target : Account) =
    source.Withdraw amount
    target.Deposit amount
 
let printAccount (x : Account) =
    printfn "x.Number: %i, x.Name: %s, x.Amount: %M" x.Number x.Name x.Amount
 
let main() =
    let printAccounts() =
        [masoud; saeed] |> Seq.iter printAccount
 
    printfn "\nInializing account"
    homer.Deposit 50M
    marge.Deposit 100M
    printAccounts()
 
    printfn "\nTransferring $30 from Masoud to Saeed"
    transfer 30M masoud saeed



    printAccounts()
 
    printfn "\nTransferring $75 from Saeed to Masoud"
    transfer 75M saeed masoud
    printAccounts()
 
main()

open System
open System.Net
 
type Stock(symbol : string) = class

    let mutable _symbol = String.Empty
    do
     //کد مورد نظر در این جا نوشته  میشود
end

open System

type MyType(a:int, b:int) as this =
    inherit Object()
    let x = 2*a
    let y = 2*b
    do printfn "Initializing object %d %d %d %d %d %d"
               a b x y (this.Prop1) (this.Prop2)
    static do printfn "Initializing MyType." 
    member this.Prop1 = 4*x
    member this.Prop2 = 4*y
    override this.ToString() = System.String.Format("{0} {1}", this.Prop1, this.Prop2)

let obj1 = new MyType(1, 2)

Initializing MyType.
Initializing object 1 2 2 4 8 16

type SomeClass(prop : int) = class
    member x.Prop = prop
    static member SomeStaticMethod = "This is a static method"
end

let instance = new SomeClass(5);;
instance.SomeStaticMethod;; 

output:
stdin(81,1): error FS0191: property 'SomeStaticMethod' is static.

SomeClass.SomeStaticMethod;; (* invoking static method *)

 member alias.PropertyName
        with get() = some-value
        and set(value) = some-assignment

type MyClass() = class
   let mutable num = 0 
    member x.Num
        with get() = num
        and set(value) = num <- value
end;;

public int Num
{
   get{return num;}
   set{num=value;}
}

type MyClass() = class
    let mutable num = 0
 
    member x.Num
        with get() = num
        and set(value) =
            if value > 10 || value < 0 then
                raise (new Exception("Values must be between 0 and 10"))
            else
                num <- value
end

type type-name = 
   interface
       inherits-decl 
       member-defns 
   end

type IPrintable =
   abstract member Print : unit -> unit

type SomeClass1(x: int, y: float) =
   interface IPrintable with 
      member this.Print() = printfn "%d %f" x y

let instance = new SomeClass1(10,20)
instance.Print//فراخوانی این متد باعث ایجاد خطای کامپایلری می‌شود.

let instance = new SomeClass1(10,20) 
let instanceCast = instance :> IPrintable// استفاده از (<:)  برای عملیات تبدیل کلاس به اینترفیس
instanceCast.Print

type Interface1 =
    abstract member Method1 : int -> int

type Interface2 =
    abstract member Method2 : int -> int

type Interface3 =
    inherit Interface1
    inherit Interface2
    abstract member Method3 : int -> int

type MyClass() =
    interface Interface3 with 
        member this.Method1(n) = 2 * n
        member this.Method2(n) = n + 100
        member this.Method3(n) = n / 10

let instance = new MyClass()
let instanceToCast = instance :> Interface3
instanceToCast.Method3 10

[<AbstractClass>]
type [ accessibility-modifier ] abstract-class-name =
    [ inherit base-class-or-interface-name ]
    [ abstract-member-declarations-and-member-definitions ]

    abstract member member-name : type-signature

[<AbstractClass>]
type Shape(x0 : float, y0 : float) =
    let mutable x, y = x0, y0
    let mutable rotAngle = 0.0

    abstract Area : float with get
    abstract Perimeter : float  with get
    abstract Name : string with get

type Square(x, y,SideLength) =
    inherit Shape(x, y)





   override this.Area = this.SideLength * this.SideLength
    override this.Perimeter = this.SideLength * 4.
    override this.Name = "Square"

type Circle(x, y, radius) =
    inherit Shape(x, y)



    let PI = 3.141592654
    member this.Radius = radius
    override this.Area = PI * this.Radius * this.Radius
    override this.Perimeter = 2. * PI * this.Radius

[ attributes ]
type [accessibility-modifier] type-name =
   struct
      type-definition-elements
   end

//یا به صورت زیر

[ attributes ]
[<StructAttribute>]
type [accessibility-modifier] type-name =
   type-definition-elements

type Point3D =
   struct 
      val x: float
      val y: float
      val z: float
   end

type Point2D =
   struct 
      val X: float
      val Y: float
      new(x: float, y: float) = { X = x; Y = y }
   end

  "browserslist": {
    "production": [
      ">0.2%",
      "not dead",
      "not op_mini all",
      "ie 10"
    ],
    "development": [
      "last 1 chrome version",
      "last 1 firefox version",
      "last 1 safari version",
      "ie 10"
    ]
  }

When you think about C#, you'll usually think about a high-level language, one that is utilized to build websites, APIs, and desktop applications. However, from its inception, C# had the foundation to be used as a system language, with facilities that allow you direct memory access and fine-grained control over memory and execution.

.NET applications however rely on the ciphers provided by the OS, and the only way to get new ciphers into the OS is through a patch from Microsoft. Unsupported versions of Windows typically do not receive these patches, so over time you can expect an increasing number of websites to stop working with .NET applications. 

Arabic and Hebrew characters
We are also adding Arabic and Hebrew characters to Cascadia Code in mid-June. These are being added to the existing Cascadia Code font set, however they will not yet be included in the italic font variants. 

SQL Server and relational databases (RDBMS) have been the go-to databases for over 20 years. However, the increased need to process higher volumes and varieties of data at a rapid rate has altered the nature of data storage needs for application developers

The C# language itself has changed little in version 6, the main importance of the release being the introduction of the Roslyn .NET Compiler Platform. However the New features and improvements that have been made to C# are welcome because they are aimed at aiding productivity. Paulo Morgado explains what they are, and how to use them.