{-# LANGUAGE LambdaCase #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE QuasiQuotes #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE NoImplicitPrelude #-} -- | A general purpose build tool. -- -- : out bild -- : dep docopt -- : dep regex-applicative -- : dep rainbow -- : dep tasty -- : dep tasty-hunit -- -- == Design constraints -- -- * only input is one or more a namespaces. no subcommands, no packages -- -- * no need to write specific build rules -- -- * one rule for hs, one for rs, one for scm, and so on -- -- * rules are written in Haskell as much as possible -- -- * no need to distinguish between exe and lib, just have a single output -- -- * never concerned with deployment/packaging - leave that to another tool -- (scp? tar?) -- -- == Features -- -- * namespace maps to filesystem -- -- * no need for `bild -l` for listing available targets. -- Use `ls` or `tree` -- -- * you build namespaces, not files/modules/packages/etc -- -- * namespace maps to language modules -- -- * build settings can be set in the file comments -- -- * pwd is always considered the the source directory, -- no `src` vs `doc` etc. -- -- * build methods automaticatly detected with file extensions -- -- * flags modify the way to interact with the build, some ideas: -- -- * -s = jump into a shell and/or repl -- -- * -p = turn on profiling -- -- * -t = limit build by type (file extension) -- -- * -e = exclude some regex in the ns tree -- -- * -o = optimize level -- -- == Example Commands -- -- > bild [opts] -- -- The general scheme is to build the things described by the targets. A target -- is a namespace. You can list as many as you want, but you must list at least -- one. It could just be `.` for the current directory. Build outputs will go -- into the _/bild directory in the root of the project. -- -- > bild A/B.hs -- -- This will build the file at ./A/B.hs, which translates to something like -- `ghc --make A.B`. -- -- > bild -s -- -- Starts a repl/shell for target. -- - if target.hs, load ghci -- - if target.scm, load scheme repl -- - if target.clj, load a clojure repl -- - if target.nix, load nix-shell -- - and so on. -- -- > bild -p -- -- build target with profiling (if available) -- -- > bild -t nix target -- -- only build target.nix, not target.hs and so on (in the case of multiple -- targets with the same name but different extension). -- -- == Build Metadata -- -- Metadata is set in the comments with a special syntax. For third-party deps, -- we list the deps in comments in the target file, like: -- -- > -- : dep aeson -- -- The output executable is named with: -- -- > -- : out my-program -- -- or -- -- > -- : out my-ap.js -- -- When multiple compilers are possible (e.g. ghc vs ghcjs) we use the @out@ -- extension, for example we chose ghcjs when the target @out@ ends in .js. If -- @out@ does not have an extension, each build type falls back to a default, -- usually an executable binary. -- -- This method of setting metadata in the module comments works pretty well, -- and really only needs to be done in the entrypoint module anyway. -- -- Local module deps are included by just giving the repo root to the underlying -- compiler for the target, and the compiler does work of walking the source -- tree. module Biz.Bild where import Alpha hiding (sym, (<.>)) import qualified Biz.Cli as Cli import Biz.Namespace (Namespace (..)) import qualified Biz.Namespace as Namespace import Biz.Test ((@=?)) import qualified Biz.Test as Test import qualified Data.Char as Char import qualified Data.List as List import qualified Data.String as String import qualified Data.Text as Text import Rainbow (chunk, fore, green, putChunkLn, red) import qualified System.Directory as Dir import qualified System.Environment as Env import qualified System.Exit as Exit import System.FilePath (()) import qualified System.Process as Process import qualified Text.Regex.Applicative as Regex import qualified Prelude main :: IO () main = Cli.main <| Cli.Plan help move test where test = Test.group "Biz.Bild" [Test.unit "id" <| 1 @=? (1 :: Integer)] move args = mapM getNamespace (Cli.getAllArgs args (Cli.argument "target")) /> catMaybes /> filter isBuildableNs >>= mapM analyze >>= mapM_ (build (args `Cli.has` Cli.longOption "test")) help :: Cli.Docopt help = [Cli.docopt| bild Usage: bild test bild [--test] ... Options: --test Run tests on a target after building. |] type Dep = String type Out = String data Compiler = GhcLib | GhcExe | GhcjsLib | GhcjsExe | Guile | NixBuild | Copy deriving (Show) data Target = Target { -- | Output name out :: Out, -- | Fully qualified namespace partitioned by '.' namespace :: Namespace, -- | Absolute path to file path :: FilePath, -- | Parsed/detected dependencies deps :: [Dep], -- | Which compiler should we use? compiler :: Compiler, -- | Where is this machine being built? Schema: user@location builder :: String } deriving (Show) isBuildableNs :: Namespace -> Bool isBuildableNs (Namespace _ Namespace.Hs) = True isBuildableNs ns | ns `elem` nixTargets = True | otherwise = False nixTargets :: [Namespace] nixTargets = [ Namespace ["Biz", "Pie"] Namespace.Nix, Namespace ["Biz", "Que", "Prod"] Namespace.Nix, Namespace ["Biz", "Cloud"] Namespace.Nix, Namespace ["Biz", "Dev"] Namespace.Nix, Namespace ["Hero", "Prod"] Namespace.Nix ] getNamespace :: String -> IO (Maybe Namespace) getNamespace s = do root <- Env.getEnv "BIZ_ROOT" cwd <- Dir.getCurrentDirectory return <| Namespace.fromPath root <| cwd s analyze :: Namespace -> IO Target analyze namespace@(Namespace.Namespace _ ext) = do user <- Env.getEnv "USER" host <- chomp do content <- String.lines Regex.match metaOut |> catMaybes |> head |> fromMaybe mempty let compiler = detectGhcCompiler out <| String.unlines content return Target { deps = content /> Regex.match metaDep |> catMaybes, builder = user <> "@localhost", .. } Namespace.Nix -> return Target { deps = [], compiler = NixBuild, out = "", builder = if host == "lithium" then mempty else join [ "ssh://", user, "@dev.simatime.com?ssh-key=/home/", user, "/.ssh/id_rsa" ], .. } Namespace.Scm -> return Target { deps = [], compiler = Guile, out = "", builder = user <> "@localhost", .. } _ -> return Target { deps = [], compiler = Copy, out = "", builder = user <> "@localhost", .. } -- | Some rules for detecting the how to compile a ghc module. If there is an -- out, then we know it's some Exe; if the out ends in .js then it's GhcjsExe, -- otherwise GhcExe. That part is solved. -- -- Detecting a Lib is harder, and much code can be compiled by both ghc and -- ghcjs. For now I'm just guarding against known ghcjs-only modules in the -- import list. detectGhcCompiler :: String -> String -> Compiler detectGhcCompiler out _ | jsSuffix out = GhcjsExe detectGhcCompiler out _ | not <| jsSuffix out || null out = GhcExe detectGhcCompiler _ content | match "import GHCJS" = GhcjsLib | otherwise = GhcLib where match s = s `List.isInfixOf` content jsSuffix :: String -> Bool jsSuffix = List.isSuffixOf ".js" build :: Bool -> Target -> IO () build andTest target@Target {..} = do root <- Env.getEnv "BIZ_ROOT" case compiler of GhcExe -> do putStrLn <| "bild: dev: ghc-exe: " <> Namespace.toPath namespace let outDir = root "_/bild/dev/bin" Dir.createDirectoryIfMissing True outDir putText <| "bild: dev: bilder: " <> Text.pack builder Process.callProcess "ghc" [ "-Werror", "-i" <> root, "-odir", root "_/bild/int", "-hidir", root "_/bild/int", "--make", path, "-main-is", Namespace.toHaskellModule namespace, "-o", outDir out ] putChunkLn <| fore green <| "bilt: " <> nschunk namespace when andTest <| do Process.readProcessWithExitCode (outDir out) ["test"] "" >>= \case (Exit.ExitSuccess, _, _) -> putChunkLn <| fore green <| "test: " <> nschunk namespace (Exit.ExitFailure _, out, err) -> do putChunkLn <| fore red <| "test: " <> nschunk namespace when (out /= mempty) <| putStr out when (err /= mempty) <| putStr err GhcLib -> do putStrLn <| "bild: dev: ghc-lib: " <> Namespace.toPath namespace putText <| "bild: dev: bilder: " <> Text.pack builder Process.callProcess "ghc" [ "-Werror", "-i" <> root, "-odir", root "_/bild/int", "-hidir", root "_/bild/int", "--make", path ] putChunkLn <| fore green <| "bilt: " <> nschunk namespace GhcjsExe -> do putStrLn <| "bild: dev: ghcjs-exe: " <> Namespace.toPath namespace let outDir = root "_/bild/dev/static" Dir.createDirectoryIfMissing True outDir putText <| "bild: dev: local: " <> Text.pack builder Process.callProcess "ghcjs" [ "-Werror", "-i" <> root, "-odir", root "_/bild/int", "-hidir", root "_/bild/int", "--make", path, "-main-is", Namespace.toHaskellModule namespace, "-o", outDir out ] putChunkLn <| fore green <| "bilt: " <> nschunk namespace GhcjsLib -> do putStrLn <| "bild: dev: ghcjs-lib: " <> Namespace.toPath namespace putText <| "bild: dev: local: " <> Text.pack builder Process.callProcess "ghcjs" [ "-Werror", "-i" <> root, "-odir", root "_/bild/int", "-hidir", root "_/bild/int", "--make", path ] putChunkLn <| fore green <| "bilt: " <> nschunk namespace Guile -> do putStrLn <| "bild: dev: guile: " <> Namespace.toPath namespace putText <| "bild: dev: local: " <> Text.pack builder putText "bild: guile: TODO" putText <| show target NixBuild -> do putStrLn <| "bild: nix: " <> Namespace.toPath namespace let outDir = root "_/bild/nix" Dir.createDirectoryIfMissing True outDir if null builder then putText <| "bild: nix: local" else putText <| "bild: nix: remote: " <> Text.pack builder Process.callProcess "nix-build" [ path, "-o", outDir Namespace.toPath namespace, -- Set default arguments to nix functions "--arg", "bild", "import " <> root "Biz/Bild/Rules.nix" <> " { nixpkgs = import " <> root "Biz/Bild/Nixpkgs.nix" <> "; }", "--arg", "lib", "(import " <> root "Biz/Bild/Nixpkgs.nix).lib", "--builders", builder ] putChunkLn <| fore green <| "bilt: " <> nschunk namespace Copy -> do putStrLn <| "bild: copy: " <> Namespace.toPath namespace putText "bild: copy: TODO" putText <| show target nschunk = chunk <. Text.pack <. Namespace.toPath metaDep :: Regex.RE Char Dep metaDep = Regex.string "-- : dep " *> Regex.many (Regex.psym Char.isAlpha) metaOut :: Regex.RE Char Out metaOut = Regex.string "-- : out " *> Regex.many (Regex.psym (/= ' '))