Tangible Value

(Redirected from TV)

Categories: Interfaces | IO | Arrow | Libraries | Packages

Contents 1 Abstract 2 First Example 3 Outputs 4 Inputs and function-valued outputs 5 A variation 6 The general story 7 Common Ins and Outs 8 Sorting examples 9 Composition of TVs 10 Transmission-specific interfaces 10.1 GUIs 10.2 IO

1 Abstract

Warning: The Haddock docs are out of date. I'm trying to get a working haddock 2.0 running (on my windows machine).

TV is a library for composing tangible values ("TVs"), i.e., values that carry along external interfaces. In particular, TVs can be composed to create new TVs, and they can be directly executed with a friendly GUI, a process that reads and writes character streams, or many other kinds interfaces. Values and interfaces are combined for direct use, and separable for composition. This combination makes for software that is ready to use and ready to reuse.

TV can be thought of as a simple functional formulation of the Model-View-Controller pattern. (My thanks to an anonymous ICFP referee for pointing out this connection.) The value part of a TV is the model, and the "interface" part, or "output" as it is called below, is the viewer. Outputs are built up compositionally from other outputs and from inputs (the controllers), as described below.

Besides this wiki page, here are more ways to learn about TV:

• Read the Haddock docs (with source code, additional examples, and Comment/Talk links)
• Get the code repository: darcs get http://darcs.haskell.org/packages/TV
• Or grab a distribution tarball.
• See the version history.
• See the use of TV in Eros.

As of version 0.2, I have moved the GUI functionality out of TV and into a small new package GuiTV. I moved it out to eliminate the dependency of core TV on Phooey and hence on wxHaskell, as the latter can be difficult to install. The GUI examples below require GuiTV.

I'd love to hear your comments at the Talk:TV page.

2 First Example

Here is a tangible reverse function:

reverseT :: CTV (String -> String)
reverseT = tv (oTitle "reverse" defaultOut) reverse

The tv function combines an interface and a value. In this example, the interface is the default for string functions, wrapped with the title "reverse".

TV "interfaces" are more than just GUIs. Here are two different renderings of reverseT. (User input is shown in italics in the runIO version).

Running:

runUI reverseT	runIO reverseT
	*Examples> runIO reverseT reverse: Hello, reversible world. .dlrow elbisrever ,olleH *Examples>

We'll see later that "runUI" and "runIO" are both type-specialized synonyms for a more general function.

3 Outputs

What I've been calling an "interface" is a value of type COutput a for a type a. For instance, for reverseT, a is String->String. The reason for the C prefix is explained below. At the heart of TV is a small algebra for constructing these outputs. Weve already seen one output function, oTitle. Another one is showOut, which is an output for all Show types. For instance,

total :: Show a => COutput a
total = oTitle "total" showOut

4 Inputs and function-valued outputs

Just as an output is a way to deliver a value, an "input" is a way to obtain a value. For example, here are two inputs, each specifying an initial value and a value range, and each given a title.

apples, bananas :: CInput Int
apples  = iTitle "apples"  defaultIn
bananas = iTitle "bananas" defaultIn

Now for the fun part. Lets combine the apples and bananas inputs and the total output to make a function-valued output.

shoppingO :: COutput (Int -> Int -> Int)
shoppingO = oTitle "shopping list" $
            oLambda apples (oLambda bananas total)

And a TV:

shopping :: CTV (Int -> Int -> Int)
shopping = tv shoppingO (+)

Running:

runUI shopping	runIO shopping
	shopping list: apples: 8 bananas: 5 total: 13

5 A variation

Here is an uncurried variation:

shoppingPr :: CTV ((Int,Int) -> Int)
shoppingPr = tv ( oTitle "shopping list -- uncurried" $ 
                  oLambda (iPair apples bananas) total )
                (uncurry (+))

However, there's a much more elegant formulation, using uncurryA and $$ from DeepArrow:

shoppingPr = uncurryA $$ shopping

Running:

runUI shoppingPr	runIO shoppingPr
	shopping list: apples: 8 bananas: 5 total: 13

6 The general story

TVs, outputs, and inputs are not restricted to GUIs and IO. In general, they are parameterized by the mechanics of "transmitting values", i.e., delivering ("sinking") output and gathering ("sourcing") input.

data Input  src     a
data Output src snk a
type TV     src snk a

The "sources" will be applicative functors (AFs), and the "sinks" will be cofunctors.

In the examples above, we've used two different mechanisms, namely Phooey's UI AF and IO. The sinks are counterparts IU and OI.

The functions runUI and runIO used in examples above are simply type-specialized synonyms for runTV.

runUI :: TV UI IU a -> IO ()
runUI = runTV
 
runIO :: TV IO OI a -> IO ()
runIO = runTV

7 Common Ins and Outs

The examples reverseT and shoppingT above used not only the generic Output and Input operations, but also some operations that apply to AFs having a few methods for sourcing and sinking a few common types (strings, readables, showables, and booleans). The type constructors CInput, COutput, and CTV are universally quantified over sources and sinks having the required methods.

type CInput a = forall src.
  (CommonIns src)                 => Input  src     a
type COutput a = forall src snk.
  (CommonIns src, CommonOuts snk) => Output src snk a
type CTV a = forall src snk.
  (CommonIns src, CommonOuts snk) => TV     src snk a

8 Sorting examples

Here's a sorting TV (see interactLinesRS), tested with runUI:

sortT :: (Read a, Show a, Ord a) => CTV ([a] -> [a]) sortT = tv (oTitle "sort" $ interactLinesRS []) sort

Note that sortT is polymorphic in value, and the type variable a as defaulted to Int. You could instead type-annotate its uses, e.g.,

runUI (sortT :: CTV ([String] -> [String]))

9 Composition of TVs

So far, we done a little composition of interfaces and combined them with values to construct TVs. Now let's look at composition of TVs.

First, wrap up the words and unwords functions:

wordsT :: CTV (String -> [String]) wordsT = tv ( oTitle "function: words" $ oLambda (iTitle "sentence in" defaultIn) (oTitle "words out" defaultOut)) words

unwordsT :: CTV ([String] -> String) unwordsT = tv ( oTitle "function: unwords" $ oLambda (iTitle "words in" defaultIn) (oTitle "sentence out" defaultOut)) unwords

Finally, compose wordsT, unwordsT, and sortT

sortWordsT :: CTV (String -> String)
sortWordsT = wordsT ->| sortT ->| unwordsT

Running:

runUI sortWordsT	runIO sortWordsT
	sentence in: The night Max wore his wolf suit sentence out: Max The his night suit wolf wore

The operator "->|" is part of a general approach to value composition from DeepArrow.

10 Transmission-specific interfaces

While some interfaces can be implemented for different means of transmission, others are more specialized.

10.1 GUIs

Here are inputs for our shopping example above that specifically work with Phooey's UI applicative functor.

applesU, bananasU :: Input UI Int
applesU  = iTitle "apples"  (islider 3 (0,10))
bananasU = iTitle "bananas" (islider 7 (0,10))
 
shoppingUO :: Output UI (Int -> Int -> Int)
shoppingUO = oTitle "shopping list" $ oLambda applesU (oLambda bananasU total)

We can then make curried and uncurried TVs:

code	runUI rendering
tv shoppingUO (+)
uncurryA $$ tv shoppingUO (+)

Note: We could define other type classes, besides CommonInsOuts. For instance, islider could be made a method of a GuiArrow class, allowing it to be rendered in different ways with different GUI toolkits or even using HTML and Javascript.

10.2 IO

We can use IO operations in TV interfaces. The corresponding sink is OI, defined in TypeCompose. TV provides a few functions in its IO module, including a close counterpart to the standard interact function.

interactOut :: Output IO OI (String -> String)
interactOut = oLambda contentsIn stringOut

Assuming we have a file "test.txt" containing some lines of text, we can use it to test string transformations.

testO :: Output IO OI (String -> String)
testO = oLambda (fileIn "test.txt") defaultOut

First, let's define higher-order functions that apply another function to the lines or on the words of a string.

onLines, onWords :: ([String] -> [String]) -> (String -> String)
onLines f = unlines . f . lines
onWords f = unwords . f . words

Next, specializations that operate on each line or word:

perLine,perWord :: (String -> String) -> (String -> String)
perLine f = onLines (map f)
perWord f = onWords (map f)

Some examples:

string function f	runIO (tv test0 f)
id	To see a World in a Grain of Sand And a Heaven in a Wild Flower, Hold Infinity in the palm of your hand And Eternity in an hour. - William Blake
reverse	ekalB mailliW - .ruoh na ni ytinretE dnA dnah ruoy fo mlap eht ni ytinifnI dloH ,rewolF dliW a ni nevaeH a dnA dnaS fo niarG a ni dlroW a ees oT
onLines reverse	- William Blake And Eternity in an hour. Hold Infinity in the palm of your hand And a Heaven in a Wild Flower, To see a World in a Grain of Sand
perLine reverse	dnaS fo niarG a ni dlroW a ees oT ,rewolF dliW a ni nevaeH a dnA dnah ruoy fo mlap eht ni ytinifnI dloH .ruoh na ni ytinretE dnA ekalB mailliW -
perLine (perWord reverse)	oT ees a dlroW ni a niarG fo dnaS dnA a nevaeH ni a dliW ,rewolF dloH ytinifnI ni eht mlap fo ruoy dnah dnA ytinretE ni na .ruoh - mailliW ekalB

There are more examples in the TV repository and in the in the GuiTV repository. See also "separating IO from logic -- example".

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