{-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE TupleSections #-} {-# LANGUAGE TypeFamilies #-} {-# OPTIONS_GHC -fno-warn-orphans #-} ----------------------------------------------------------------------------- -- | -- Module : Diagrams.Backend.Rasterific.CmdLine -- Copyright : (c) 2014-2015 Diagrams team (see LICENSE) -- License : BSD-style (see LICENSE) -- Maintainer : diagrams-discuss@googlegroups.com -- -- Convenient creation of command-line-driven executables for -- rendering diagrams using the Rasterific backend. Create -- png, tif, bmp, jpg, pdf, or animated GIF files. -- -- * 'defaultMain' creates an executable which can render a single -- diagram at various options. -- -- * 'multiMain' is like 'defaultMain' but allows for a list of -- diagrams from which the user can choose one to render. -- -- * 'animMain' is like 'defaultMain' but for animations instead of -- diagrams. -- -- * `gifMain` creates an executable to generate an animated GIF. -- -- * 'mainWith' is a generic form that does all of the above but with -- a slightly scarier type. See "Diagrams.Backend.CmdLine". This -- form can also take a function type that has a suitable final result -- (any of arguments to the above types) and 'Parseable' arguments. -- -- If you want to generate diagrams programmatically---/i.e./ if you -- want to do anything more complex than what the below functions -- provide---you have several options. -- -- * Use a function with 'mainWith'. This may require making -- 'Parseable' instances for custom argument types. -- -- * Make a new 'Mainable' instance. This may require a newtype -- wrapper on your diagram type to avoid the existing instances. -- This gives you more control over argument parsing, intervening -- steps, and diagram creation. -- -- * Build option records and pass them along with a diagram to 'mainRender' -- from "Diagrams.Backend.CmdLine". -- -- * You can use 'Diagrams.Backend.Rasterific.renderRasterific' to render a -- diagram to a file directly; see "Diagrams.Backend.Rasterific". -- -- * A more flexible approach is to directly call 'renderDia'; see -- "Diagrams.Backend.Rasterific" for more information. -- -- For a tutorial on command-line diagram creation see -- <http://projects.haskell.org/diagrams/doc/cmdline.html>. -- ----------------------------------------------------------------------------- module Diagrams.Backend.Rasterific.CmdLine ( -- * General form of @main@ -- $mainwith mainWith -- * Supported forms of @main@ , defaultMain , multiMain , animMain , gifMain , uniformGifMain -- * GIF support , GifOpts(..) -- * Backend tokens , Rasterific , B ) where import Diagrams.Backend.CmdLine import Diagrams.Backend.Rasterific import Diagrams.Prelude hiding (height, interval, option, output, width) import qualified Data.ByteString.Lazy as L (writeFile) import Options.Applicative -- | 'mainWith' specialised to 'Diagram' 'Rasterific'. defaultMain :: Diagram Rasterific -> IO () defaultMain = mainWith instance TypeableFloat n => Mainable (QDiagram Rasterific V2 n Any) where type MainOpts (QDiagram Rasterific V2 n Any) = (DiagramOpts, DiagramLoopOpts) mainRender (opts,loopOpts) d = do chooseRender opts d defaultLoopRender loopOpts chooseRender :: TypeableFloat n => DiagramOpts -> QDiagram Rasterific V2 n Any -> IO () chooseRender opts d | null path = noFileError | otherwise = renderRasterific path sz d where path = opts^.output sz = fromIntegral <$> mkSizeSpec2D (opts^.width) (opts^.height) noFileError :: IO () noFileError = putStrLn "No output file given. Specify output file with -o" -- | @multiMain@ is like 'defaultMain', except instead of a single -- diagram it takes a list of diagrams paired with names as input. -- The generated executable then takes a @--selection@ option -- specifying the name of the diagram that should be rendered. The -- list of available diagrams may also be printed by passing the -- option @--list@. -- -- Example usage: -- -- @ -- $ ghc --make MultiTest -- [1 of 1] Compiling Main ( MultiTest.hs, MultiTest.o ) -- Linking MultiTest ... -- $ ./MultiTest --list -- Available diagrams: -- foo bar -- $ ./MultiTest --selection bar -o Bar.png -w 200 -- @ multiMain :: [(String, Diagram Rasterific)] -> IO () multiMain = mainWith instance TypeableFloat n => Mainable [(String,QDiagram Rasterific V2 n Any)] where type MainOpts [(String,QDiagram Rasterific V2 n Any)] = (MainOpts (QDiagram Rasterific V2 n Any), DiagramMultiOpts) mainRender = defaultMultiMainRender -- | @animMain@ is like 'defaultMain', but renders an animation -- instead of a diagram. It takes as input an animation and produces -- a command-line program which will crudely \"render\" the animation -- by rendering one image for each frame, named by extending the given -- output file name by consecutive integers. For example if the given -- output file name is @foo\/blah.png@, the frames will be saved in -- @foo\/blah001.png@, @foo\/blah002.png@, and so on (the number of -- padding digits used depends on the total number of frames). It is -- up to the user to take these images and stitch them together into -- an actual animation format (using, /e.g./ @ffmpeg@). -- -- Of course, this is a rather crude method of rendering animations; -- more sophisticated methods will likely be added in the future. -- -- The @--fpu@ option can be used to control how many frames will be -- output for each second (unit time) of animation. animMain :: Animation Rasterific V2 Double -> IO () animMain = mainWith instance TypeableFloat n => Mainable (Animation Rasterific V2 n) where type MainOpts (Animation Rasterific V2 n) = ((DiagramOpts, DiagramAnimOpts), DiagramLoopOpts) mainRender (opts, l) d = do defaultAnimMainRender chooseRender output opts d defaultLoopRender l -- | Make an animated gif main by pairing diagrams with a delay ('Int' -- measured in 100th seconds). gifMain :: [(Diagram Rasterific, GifDelay)] -> IO () gifMain = mainWith -- | Make an animated gif main with the same delay for each diagram. uniformGifMain :: GifDelay -> [Diagram Rasterific] -> IO () uniformGifMain i = mainWith . map (,i) -- | Extra options for animated GIFs. data GifOpts = GifOpts { _dither :: Bool , _noLooping :: Bool , _loopRepeat :: Maybe Int} makeLenses ''GifOpts -- | Command line parser for 'GifOpts'. -- @--dither@ turn dithering on. -- @--looping-off@ turn looping off, i.e play GIF once. -- @--loop-repeat@ number of times to repeat the GIF after the first playing. -- this option is only used if @--looping-off@ is not set. instance Parseable GifOpts where parser = GifOpts <$> switch ( long "dither" <> help "Turn on dithering." ) <*> switch ( long "looping-off" <> help "Turn looping off" ) <*> ( optional . option auto) ( long "loop-repeat" <> help "Number of times to repeat" ) -- | An animated GIF can be a result. instance ToResult [(QDiagram Rasterific V2 n Any, GifDelay)] where type Args [(QDiagram Rasterific V2 n Any, GifDelay)] = () type ResultOf [(QDiagram Rasterific V2 n Any, GifDelay)] = [(QDiagram Rasterific V2 n Any, GifDelay)] toResult ds _ = ds instance TypeableFloat n => Mainable [(QDiagram Rasterific V2 n Any, GifDelay)] where type MainOpts [(QDiagram Rasterific V2 n Any, GifDelay)] = (DiagramOpts, GifOpts) mainRender (dOpts, gOpts) ids | null path = noFileError | otherwise = case rasterGif sz lOpts pOpts ids of Right bs -> L.writeFile path bs Left e -> putStrLn e where sz = fromIntegral <$> mkSizeSpec2D (dOpts^.width) (dOpts^.height) path = dOpts^.output lOpts | gOpts^.noLooping = LoopingNever | otherwise = maybe LoopingForever (LoopingRepeat . fromIntegral) (gOpts^.loopRepeat) pOpts = defaultPaletteOptions {enableImageDithering=gOpts^.dither}