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bat/tests/syntax-tests/highlighted/F#/string.fs
Mohamed Abdelnour d395f64f58 Add F# syntax test file
2021-06-01 22:36:56 +02:00

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// Copyright (c) Microsoft Corporation. All Rights Reserved. See License.txt in the project root for license information.
namespace Microsoft.FSharp.Core
 open System
 open System.Text
 open Microsoft.FSharp.Core.LanguagePrimitives.IntrinsicOperators
 open Microsoft.FSharp.Core.Operators
 open Microsoft.FSharp.Core.Operators.Checked
 open Microsoft.FSharp.Collections
 open Microsoft.FSharp.Primitives.Basics
 [<CompilationRepresentation(CompilationRepresentationFlags.ModuleSuffix)>]
 [<RequireQualifiedAccess>]
 module String =
 [<Literal>]
 /// LOH threshold is calculated from Internal.Utilities.Library.LOH_SIZE_THRESHOLD_BYTES,
 /// and is equal to 80_000 / sizeof<char>
 let LOH_CHAR_THRESHOLD = 40_000
 [<CompiledName("Length")>]
 let length (str:string) = if isNull str then 0 else str.Length
 [<CompiledName("Concat")>]
 let concat sep (strings : seq<string>) = 
 let concatArray sep (strings: string []) =
 match length sep with
 | 0 -> String.Concat strings
 // following line should be used when this overload becomes part of .NET Standard (it's only in .NET Core)
 //| 1 -> String.Join(sep.[0], strings, 0, strings.Length)
 | _ -> String.Join(sep, strings, 0, strings.Length)
 match strings with
 | :? array<string> as arr -> 
 concatArray sep arr
 | :? list<string> as lst -> 
 lst 
 |> List.toArray 
 |> concatArray sep
 | _ ->
 String.Join(sep, strings)
 [<CompiledName("Iterate")>]
 let iter (action : (char -> unit)) (str:string) =
 if not (String.IsNullOrEmpty str) then
 for i = 0 to str.Length - 1 do
 action str.[i] 
 [<CompiledName("IterateIndexed")>]
 let iteri action (str:string) =
 if not (String.IsNullOrEmpty str) then
 let f = OptimizedClosures.FSharpFunc<_,_,_>.Adapt(action)
 for i = 0 to str.Length - 1 do
 f.Invoke(i, str.[i]) 
 [<CompiledName("Map")>]
 let map (mapping: char -> char) (str:string) =
 if String.IsNullOrEmpty str then
 String.Empty
 else
 let result = str.ToCharArray()
 let mutable i = 0
 for c in result do
 result.[i] <- mapping c
 i <- i + 1
 new String(result)
 [<CompiledName("MapIndexed")>]
 let mapi (mapping: int -> char -> char) (str:string) =
 let len = length str
 if len = 0 then 
 String.Empty
 else
 let result = str.ToCharArray()
 let f = OptimizedClosures.FSharpFunc<_,_,_>.Adapt(mapping)
 let mutable i = 0
 while i < len do
 result.[i] <- f.Invoke(i, result.[i])
 i <- i + 1
 new String(result)
 [<CompiledName("Filter")>]
 let filter (predicate: char -> bool) (str:string) =
 let len = length str
 if len = 0 then 
 String.Empty
 elif len > LOH_CHAR_THRESHOLD then
 // By using SB here, which is twice slower than the optimized path, we prevent LOH allocations 
 // and 'stop the world' collections if the filtering results in smaller strings.
 // We also don't pre-allocate SB here, to allow for less mem pressure when filter result is small.
 let res = StringBuilder()
 str |> iter (fun c -> if predicate c then res.Append c |> ignore)
 res.ToString()
 else
 // Must do it this way, since array.fs is not yet in scope, but this is safe
 let target = Microsoft.FSharp.Primitives.Basics.Array.zeroCreateUnchecked len
 let mutable i = 0
 for c in str do
 if predicate c then 
 target.[i] <- c
 i <- i + 1
 String(target, 0, i)
 [<CompiledName("Collect")>]
 let collect (mapping: char -> string) (str:string) =
 if String.IsNullOrEmpty str then
 String.Empty
 else
 let res = StringBuilder str.Length
 str |> iter (fun c -> res.Append(mapping c) |> ignore)
 res.ToString()
 [<CompiledName("Initialize")>]
 let init (count:int) (initializer: int-> string) =
 if count < 0 then invalidArgInputMustBeNonNegative "count" count
 let res = StringBuilder count
 for i = 0 to count - 1 do 
 res.Append(initializer i) |> ignore
 res.ToString()
 [<CompiledName("Replicate")>]
 let replicate (count:int) (str:string) =
 if count < 0 then invalidArgInputMustBeNonNegative "count" count
 let len = length str
 if len = 0 || count = 0 then 
 String.Empty
 elif len = 1 then
 new String(str.[0], count)
 elif count <= 4 then
 match count with
 | 1 -> str
 | 2 -> String.Concat(str, str)
 | 3 -> String.Concat(str, str, str)
 | _ -> String.Concat(str, str, str, str)
 else
 // Using the primitive, because array.fs is not yet in scope. It's safe: both len and count are positive.
 let target = Microsoft.FSharp.Primitives.Basics.Array.zeroCreateUnchecked (len * count)
 let source = str.ToCharArray()
 // O(log(n)) performance loop:
 // Copy first string, then keep copying what we already copied 
 // (i.e., doubling it) until we reach or pass the halfway point
 Array.Copy(source, 0, target, 0, len)
 let mutable i = len
 while i * 2 < target.Length do
 Array.Copy(target, 0, target, i, i)
 i <- i * 2
 // finally, copy the remain half, or less-then half
 Array.Copy(target, 0, target, i, target.Length - i)
 new String(target)
 [<CompiledName("ForAll")>]
 let forall predicate (str:string) =
 if String.IsNullOrEmpty str then
 true
 else
 let rec check i = (i >= str.Length) || (predicate str.[i] && check (i+1)) 
 check 0
 [<CompiledName("Exists")>]
 let exists predicate (str:string) =
 if String.IsNullOrEmpty str then
 false
 else
 let rec check i = (i < str.Length) && (predicate str.[i] || check (i+1)) 
 check 0 
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