F# - 模式匹配( Pattern Matching)
模式匹配允许您“将数据与逻辑结构或结构进行比较,将数据分解为组成部分,或以各种方式从数据中提取信息”。
换句话说,它提供了一种更灵活,更强大的方法,可以根据一系列条件测试数据,并根据满足的条件执行一些计算。
从概念上讲,它就像一系列if ... then语句。
语法 (Syntax)
在高级术语中,模式匹配遵循F#中的这种语法 -
match expr with
| pat1 - result1
| pat2 -> result2
| pat3 when expr2 -> result3
| _ -> defaultResult
Where,
- 每个| 符号定义条件。
- - >符号表示“如果条件为真,则返回此值......”。
- _符号提供默认模式,这意味着它匹配所有其他内容,如通配符。
例子1 (Example 1)
以下示例使用模式匹配语法计算斐波纳契数 -
let rec fib n =
match n with
| 0 -> 0
| 1 -> 1
| _ -> fib (n - 1) + fib (n - 2)
for i = 1 to 10 do
printfn "Fibonacci %d: %d" i (fib i)
编译并执行程序时,它会产生以下输出 -
Fibonacci 1: 1
Fibonacci 2: 1
Fibonacci 3: 2
Fibonacci 4: 3
Fibonacci 5: 5
Fibonacci 6: 8
Fibonacci 7: 13
Fibonacci 8: 21
Fibonacci 9: 34
Fibonacci 10: 55
您还可以将多个条件链接在一起,这些条件返回相同的值。 例如 -
例子2 (Example 2)
let printSeason month =
match month with
| "December" | "January" | "February" -> printfn "Winter"
| "March" | "April" -> printfn "Spring"
| "May" | "June" -> printfn "Summer"
| "July" | "August" -> printfn "Rainy"
| "September" | "October" | "November" -> printfn "Autumn"
| _ -> printfn "Season depends on month!"
printSeason "February"
printSeason "April"
printSeason "November"
printSeason "July"
编译并执行程序时,它会产生以下输出 -
Winter
Spring
Autumn
Rainy
模式匹配功能 (Pattern Matching Functions)
F#允许您使用function关键字编写模式匹配函数 -
let getRate = function
| "potato" -> 10.00
| "brinjal" -> 20.50
| "cauliflower" -> 21.00
| "cabbage" -> 8.75
| "carrot" -> 15.00
| _ -> nan (* nan is a special value meaning "not a number" *)
printfn "%g"(getRate "potato")
printfn "%g"(getRate "brinjal")
printfn "%g"(getRate "cauliflower")
printfn "%g"(getRate "cabbage")
printfn "%g"(getRate "carrot")
编译并执行程序时,它会产生以下输出 -
10
20.5
21
8.75
15
向模式添加过滤器或防护
您可以使用when关键字向模式添加过滤器或保护。
例子1 (Example 1)
let sign = function
| 0 -> 0
| x when x < 0 -> -1
| x when x > 0 -> 1
printfn "%d" (sign -20)
printfn "%d" (sign 20)
printfn "%d" (sign 0)
编译并执行程序时,它会产生以下输出 -
-1
1
0
例子2 (Example 2)
let compareInt x =
match x with
| (var1, var2) when var1 > var2 -> printfn "%d is greater than %d" var1 var2
| (var1, var2) when var1 < var2 -> printfn "%d is less than %d" var1 var2
| (var1, var2) -> printfn "%d equals %d" var1 var2
compareInt (11,25)
compareInt (72, 10)
compareInt (0, 0)
编译并执行程序时,它会产生以下输出 -
11 is less than 25
72 is greater than 10
0 equals 0
模式与元组匹配
以下示例演示了与元组匹配的模式 -
let greeting (name, subject) =
match (name, subject) with
| ("Zara", _) -> "Hello, Zara"
| (name, "English") -> "Hello, " + name + " from the department of English"
| (name, _) when subject.StartsWith("Comp") -> "Hello, " + name + " from the department of Computer Sc."
| (_, "Accounts and Finance") -> "Welcome to the department of Accounts and Finance!"
| _ -> "You are not registered into the system"
printfn "%s" (greeting ("Zara", "English"))
printfn "%s" (greeting ("Raman", "Computer Science"))
printfn "%s" (greeting ("Ravi", "Mathematics"))
编译并执行程序时,它会产生以下输出 -
Hello, Zara
Hello, Raman from the department of Computer Sc.
You are not registered into the system
与记录匹配的模式
以下示例演示了与记录匹配的模式 -
type Point = { x: float; y: float }
let evaluatePoint (point: Point) =
match point with
| { x = 0.0; y = 0.0 } -> printfn "Point is at the origin."
| { x = xVal; y = 0.0 } -> printfn "Point is on the x-axis. Value is %f." xVal
| { x = 0.0; y = yVal } -> printfn "Point is on the y-axis. Value is %f." yVal
| { x = xVal; y = yVal } -> printfn "Point is at (%f, %f)." xVal yVal
evaluatePoint { x = 0.0; y = 0.0 }
evaluatePoint { x = 10.0; y = 0.0 }
evaluatePoint { x = 0.0; y = 10.0 }
evaluatePoint { x = 10.0; y = 10.0 }
编译并执行程序时,它会产生以下输出 -
Point is at the origin.
Point is on the x-axis. Value is 10.000000.
Point is on the y-axis. Value is 10.000000.
Point is at (10.000000, 10.000000).
