5

我有以下函数可以生成 1024 的倍数的随机字符串:

import System.Random

rchars :: Int -> [IO Char]
rchars n = map (\_ -> randomRIO ('a', 'z')) [n | n <- [0..n]] -- a wasteful "iteration"-like func

rstr :: Int -> IO String
rstr n = sequence $ rchars (1024 * n)

我想使用 Spock 将其公开给网络,例如:

import Data.Monoid
import Data.Text
import Lib
import Web.Spock.Safe

main :: IO ()
main =
    runSpock 8080 $ spockT id $
    do get root $
           redirect "/data/1"
       get ("data" <//> var) $ \n ->
          do
           str <- rstr n
           text ("boo:" <> str <> "!")

但这是不正确的,因为最里面的do-block 产生一个IO b0,而不是 Spock 的预期类型:

Couldn't match type ‘ActionT IO ()’ with ‘IO b0’
Expected type: Int -> IO b0
  Actual type: hvect-0.2.0.0:Data.HVect.HVectElim
                 '[Int] (ActionT IO ())
The lambda expression ‘\ n -> ...’ has one argument,
but its type ‘hvect-0.2.0.0:Data.HVect.HVectElim
                '[Int] (ActionT IO ())’
has none
In the second argument of ‘($)’, namely
  ‘\ n
     -> do { str <- rstr n;
             text ("boo:" <> str <> "!") }’
In a stmt of a 'do' block:
  get ("data" <//> var)
  $ \ n
      -> do { str <- rstr n;
              text ("boo:" <> str <> "!") }

如何在 Spock 获取请求处理程序中使用我的IO-driven 随机字符串函数?

4

1 回答 1

7

ActionT类型是类型类的一个实例MonadIO。这意味着您可以使用liftIO在这个 monad 中执行 IO 操作。在您的情况下,您似乎需要liftIO $ rstr n而不是 plain rstr n

这证明了我所指的:

import Control.Monad.IO.Class
...
main :: IO ()
main =
    runSpock 8080 $ spockT id $
    do get root $
           redirect "/data/1"
       get ("data" <//> var) $ \n ->
          do
           str <- liftIO $ rstr n
           text $ pack str
于 2016-02-13T17:32:09.003 回答