Module

Data.Interpolate

PureScript does not have language-level support for string interpolation. Instead, one uses this type classes to enable similar ergonomics.

-- each outputs "There are 42 apples."
i "There are " 42 " apples."

let
  variableName = 42
in
  i "There are " variableName " apples."

Note: string interpolation only works for the following types:

  • String
  • Boolean
  • Int
  • Number
  • Char

This restriction is intentional for two reasons:

  1. It avoids "instance wars" since orphan instances are not allowed in PureScript.
  2. It avoids unexpected String outputs when dealing with newtypes.

#Interp

class Interp a  where

Enables string interpolation on values for only the following types: String, Boolean, Int, Number, and Char. Values for all other types will need to be converted into one of the above types first.

Note: Use the derived function i rather than Interp's interp function as the latter requires the first argument to be a String whereas the former does not.

Example output

i "there are " 52 "apples." == "there are 52 apples"
i 52 " apples and " 0 " oranges." == "52 apples and 0 oranges."

-- `Maybe Int` must be converted into an `Int` before interpolation works.
let example1 maybeInt = i (fromMaybe 0 maybeInt) " apples."
example1 Nothing == "0 apples."
example1 (Just 4) == "4 apples."

Members

  • interp :: String -> a

    Use the derived function, i, instead of this function to do string interpolation. Otherwise, you will get a compiler error if the first value is not a String:

    interp "a" 42 true == "a42true"
    i      "a" 42 true == "a42true"
    
    interp 42 "a" -- does not compile!
    i      42 "a" -- compiles!
    

Instances

  • Interp String
  • (Interp a) => Interp (String -> a)
  • (Interp a) => Interp (Boolean -> a)
  • (Interp a) => Interp (Int -> a)
  • (Interp a) => Interp (Number -> a)
  • (Interp a) => Interp (Char -> a)
  • (Fail (Text "String interpolation only works on the following primitive values: `String`, `Boolean`, `Int`, `Number`, and `Char`. Moreover, using newtypes to get around this will fail. These restrictions are intentional. Please use a function to render your type\'s value into a value of one of these types before it gets passed as an argument into the `i` function.")) => Interp anythingElse

#i

i :: forall a. Interp a => a

Enables string interpolation using the following syntax:

i "there are " 52 "apples." == "there are 52 apples"
i 52 " apples and " 0 " oranges." == "52 apples and 0 oranges."
i true 4 42.0 'c' "string" == "true442.0'c'string"

Modules