Phooey

This page is in flux. I am preparing a new release (1.0) with some major changes.

Abstract

Phooey is an arrow-based functional UI library for Haskell.

• Read the Haddock docs (with source code, additional examples, and Comment/Talk links).
• Get the code repository: darcs get http://darcs.haskell.org/packages/phooey, or
• Grab a distribution tarball.
• See the version changes.

Phooey is also used in GuiTV, a library for composable interfaces and "tangible values".

Introduction

GUIs are usually programmed in an unnatural style, in that implementation dependencies are inverted, relative to logical dependencies. This reversal results directly from the push (data-driven) orientation of most GUI libraries. While outputs depend on inputs from a user and semantic point of view, the push style imposes an implementation dependence of inputs on outputs.

A second drawback of the push style is that it is imperative rather than declarative. A GUI program describes actions to update a model and and view in reaction to user input. In contrast to the how-to-update style of an imperative program, a functional GUI program would express what-it-is of a model in terms of the inputs and of the view in terms of the model.

The questions of push-vs-pull and imperative-vs-declarative are related. While an imperative GUI program could certainly be written to pull (poll) values from input to model and model to view, thus eliminating the dependency inversion, I don't know how a declarative program could be written in the inverted-dependency style. (Do you?).

A important reason for using push rather than pull in a GUI implementation is that push is typically much more efficient. A simple pull implementation would either waste time recomputing an unchanging model and view (pegging your CPU for no benefit), or deal with the complexity of avoiding that recomputation. The push style computes only when inputs change. (Animation negates this advantage of push.)

Phooey ("Phunctional ooser ynterfaces") adopts the declarative style, in which outputs are expressed in terms of inputs. Under the hood, however, the implementation is push-based (data-driven). Phooey performs the dependency inversion invisibly, so that programmers may express GUIs simply and declaratively while still getting an efficient implementation. I have taken care to structure Phooey's implementation as simply as possible to make clear how this dependency inversion works (subject of paper in progress). In addition, Phooey supports dynamic input bounds, flexible layout, and mutually-referential widgets. (The last feature is currently broken.)

Phooey came out of Pajama and [1]. Pan is a re-implementation of the Pan language and compiler for function synthesis of interactive, continuous, infinite images. Pan and Pajama use a monadic style for specifying GUIs and are able to do so because they use the implementation trick of [http://conal.net/papers/jfp-saig Compiling Embedded Languages], in which one manipulates expressions rather than values. (This trick is mostly transparent, but the illusion shows through in places.)

As an example, below is a simple shopping list GUI. The total displayed at the bottom of the window always shows the sum of the values of the apples and bananas input sliders. When a user changes the inputs, the output updates accordingly.

Phooey presents three styles of functional GUI interfaces, structured as a monad, an arrow, and an applicative functor.

One example, three interfaces

Monad

Here is a definition for the GUI shown above, formulated in terms of Phooey's monadic interface.

ui1 :: UI (Source ())
ui1 = title "Shopping List" $
      do a <- title "apples"  $ islider (0,10) 3
         b <- title "bananas" $ islider (0,10) 7
         title "total" $ showDisplay (liftA2 (+) a b)

-- Input widget type (with initial value)
type IWidget  a =        a -> UI (Source a)
-- Output widget type
type OWidget  a = Source a -> UI (Source ())

islider     :: (Int,Int) -> IWidget Int
showDisplay :: Show a => OWidget a
title       :: String -> UI a -> UI a

ui1 :: UI () ()
ui1 = title "Shopping List" $
      proc () -> do
	a  <- title "apples"   $ islider (0,10) 3 -< ()
	b  <- title "bananas"  $ islider (0,10) 7 -< ()
	title "total"  showDisplay                -< a+b

type IWidget  a = a -> UI () a
type OWidget  a = UI a ()

ui1 :: UI (IO ())
ui1 = title "Shopping List" $
      (liftA2 (+) apples bananas) <**> total

apples, bananas :: UI Int
apples  = title "apples"  $ islider (0,10) 3
bananas = title "bananas" $ islider (0,10) 7

total :: Num a => OWidget a
total = title "total" showDisplay

type IWidget a = a -> UI a
type OWidget a = UI (a -> IO ())