butcher: Chops a command or program invocation into digestable pieces.

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Versions [RSS] 1.1.0.0, 1.1.0.1, 1.1.0.2, 1.1.1.0, 1.2.0.0, 1.2.1.0, 1.3.0.0, 1.3.0.1, 1.3.1.0, 1.3.1.1, 1.3.2.0, 1.3.2.1, 1.3.2.2, 1.3.2.3, 1.3.3.0, 1.3.3.1, 1.3.3.2
Change log ChangeLog.md
Dependencies base (>=4.9 && <4.12), bifunctors (<5.6), containers (<0.6), deque (<0.2.2), extra (<1.7), free (<5.1), microlens (<0.5), microlens-th (<0.5), mtl (<2.3), multistate (>=0.8 && <0.9), pretty (<1.2), transformers (<0.6), unsafe (<0.1), void (<0.8) [details]
License BSD-3-Clause
Copyright Copyright (C) 2016-2018 Lennart Spitzner
Author Lennart Spitzner
Maintainer Lennart Spitzner <hexagoxel@hexagoxel.de>
Revised Revision 1 made by lspitzner at 2018-10-05T08:28:05Z
Category UI
Home page https://github.com/lspitzner/butcher/
Bug tracker https://github.com/lspitzner/butcher/issues
Source repo head: git clone https://github.com/lspitzner/butcher.git
Uploaded by lspitzner at 2018-04-13T19:25:20Z
Distributions Arch:1.3.3.2, Debian:1.3.3.2, NixOS:1.3.3.2
Reverse Dependencies 2 direct, 2 indirect [details]
Downloads 18685 total (78 in the last 30 days)
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Readme for butcher-1.3.0.1

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butcher

Chops a command or program invocation into digestable pieces.

Similar to the optparse-applicative package, but less features, more flexibility and more evil.

The main differences are:

  • Provides a pure interface by default

  • Exposes an evil monadic interface, which allows for much nicer binding of command part results to some variable name.

    In optparse-applicative you easily lose track of what field you are modifying after the 5th <*> (admittedly, i think -XRecordWildCards improves on that issue already.)

    Evil, because you are not allowed to use the monad's full power in this case, i.e. there is a constraint that is not statically enforced. See below.

  • The monadic interface allows much clearer definitions of commandparses with (nested) subcommands. No pesky sum-types are necessary.

Examples

The minimal example is

main = mainFromCmdParser $ addCmdImpl $ putStrLn "Hello, World!"

But lets look at a more feature-complete example:

main = mainFromCmdParserWithHelpDesc $ \helpDesc -> do

  addCmdSynopsis "a simple butcher example program"
  addCmdHelpStr "a very long help document"

  addCmd "version" $ do
    porcelain <- addSimpleBoolFlag "" ["porcelain"]
      (flagHelpStr "print nothing but the numeric version")
    addCmdHelpStr "prints the version of this program"
    addCmdImpl $ putStrLn $ if porcelain
      then "0.0.0.999"
      else "example, version 0.0.0.999"

  addCmd "help" $ addCmdImpl $ print $ ppHelpShallow helpDesc

  short <- addSimpleBoolFlag "" ["short"]
    (flagHelpStr "make the greeting short")
  name <- addStringParam "NAME"
    (paramHelpStr "your name, so you can be greeted properly")

  addCmdImpl $ do
    if short
      then putStrLn $ "hi, " ++ name ++ "!"
      else putStrLn $ "hello, " ++ name ++ ", welcome from butcher!"

Further:

The evil monadic interface

As long as you only use Applicative or (Kleisli) Arrow, you can use the interface freely. When you use Monad, there is one rule: Whenever you read any command-parts like in

f <- addFlag ...
p <- addParam ...

you are only allowed to use bindings bound thusly in any command's implemenation, i.e. inside the parameter to addCmdImpl. You are not allowed to force/inspect/patternmatch on them before that. good usage is:

addCmdImpl $ do
  print x
  print y

while bad would be

f <- addFlag
when f $ do
  p <- addParam
  -- evil: the existence of the param `p`
  -- depends on parse result for the flag `f`.

That means that checking if a combination of flags is allowed must be done after parsing. (But different commands and their subcommands (can) have separate sets of flags.)

(abstract) Package intentions

Consider a commandline invocation like "ghc -O -i src -Main.hs -o Main". This package provides a way for the programmer to simultaneously define the semantics of your program based on its arguments and retrieve documentation for the user. More specifically, i had three goals in mind:

  1. Straight-forward description of (sub)command and flag-specific behaviour
  2. Extract understandable usage/help commandline documents/texts from that descriptions, think of ghc --help or stack init --help.
  3. Extract necessary information to compute commandline completion results from any partial input. (This is not implemented to any serious degree.)

Semantics

Basic elements of a command are flags, parameters and subcommands. These can be composed in certain ways, i.e. flags can have a (or possibly multiple?) parameters; parameters can be grouped into sequences, and commands can have subcommands.

Commands are essentially String -> Either ParseError out where out can be chosen by the user. It could for example be IO ().

To allow more flexible composition, the parts of a command have the "classic" parser's type: String -> Maybe (p, String) where p depends on the part. Parse a prefix of the input and return something and the remaining input, or fail with Nothing.

A command-parser contains a sequence of parts and then a number of subcommands and/or some implementation.

Commands and Child-Commands

  • myParser :: CmdParser Identity Int ()
    myParser = return ()
    
    input runCmdParserSimple input myParser
    "" Left "command has no implementation"
    "x" Left "error parsing arguments: could not parse input/unprocessed input at: "x"."
  • myParser :: CmdParser Identity Int ()
    myParser = do
      addCmd "foo" $ addCmdImpl 2
      addCmd "bar" $ addCmdImpl 3
      addCmd "noimpl" $ pure ()
      addCmd "twoimpls" $ do
        addCmdImpl 4
        addCmdImpl 5
      addCmdImpl 1
    
    input runCmdParserSimple input myParser
    "" Right 1
    "x" Left "error parsing arguments: could not parse input/unprocessed input at: "x"."
    "foo" Right 2
    "bar" Right 3
    "foo bar" Left "error parsing arguments: could not parse input/unprocessed input at: "bar"."
    "noimpl" Left "command has no implementation"
    "twoimpls" Right 5

Flags

  • without any annotation, no reodering is allowed and the flags must appear in order:

    myParser :: CmdParser Identity (Bool, Int, Int) ()
    myParser = do
      b <- addSimpleBoolFlag "b" [] mempty
      c <- addSimpleCountFlag "c" [] mempty
      i <- addFlagReadParam "i" [] "number" (flagDefault 42)
      addCmdImpl $ (b, c, i)
    
    input runCmdParserSimple input myParser
    "" Right (False,0,42)
    "-b -c -i 3" Right (True,1,3)
    "-c -b" Left "error parsing arguments: could not parse input/unprocessed input at: "-b"."
    "-c -c -c" Right (False,3,42)
  • this time with reordering; also "j" has no default and thus becomes mandatory, still it must not occur more than once:

    myParser :: CmdParser Identity (Bool, Int, Int, Int) ()
    myParser = do
      reorderStart -- this time with reordering
      b <- addSimpleBoolFlag "b" [] mempty
      c <- addSimpleCountFlag "c" [] mempty
      i <- addFlagReadParam "i" [] "number" (flagDefault 42)
      j <- addFlagReadParam "j" [] "number" mempty -- no default: flag mandatory
      reorderStop
      addCmdImpl $ (b, c, i, j)
    
    input runCmdParserSimple input myParser
    "-b" Left "error parsing arguments:
    could not parse expected input -j number with remaining input:
    InputString "" at the end of input."
    "-j=5" Right (False,0,42,5)
    "-c -b -b -j=5" Right (True,1,42,5)
    "-j=5 -i=1 -c -b" Right (True,1,1,5)
    "-c -j=5 -c -i=5 -c" Right (False,3,5,5)
    "-j=5 -j=5" Left "error parsing arguments: could not parse input/unprocessed input at: "-j=5"."
  • addFlagReadParams - these can occur more than once. Note that defaults have slightly different semantics:

    myParser :: CmdParser Identity (Int, [Int]) ()
    myParser = do
      reorderStart
      i <- addFlagReadParam "i" [] "number" (flagDefault 42)
      js <- addFlagReadParams "j" [] "number" (flagDefault 50)
      reorderStop
      addCmdImpl $ (i, js)
    
    input runCmdParserSimple input myParser
    "" Right (42,[])
    "-i" Left "error parsing arguments: could not parse input/unprocessed input at: "-i"."
    "-j=1 -j=2 -j=3" Right (42,[1,2,3])
    "-j" Right (42,[50])
    "-i=1" Right (1,[])
    "-j=2" Right (42,[2])
    "-j=2 -i=1 -j=3" Right (1,[2,3])

Params

TODO