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Daniel Hillerström
2021-05-22 20:33:28 +01:00
parent 85757c48fd
commit a41fb391fc
4 changed files with 719 additions and 160 deletions
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124
code/State.hs Normal file
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{- A Haskell version of the companion code for "State of effectful programming".
Tested with GHCi 8.6.5. -}
import Control.Monad.ST (runST)
import Data.STRef (newSTRef, readSTRef, writeSTRef)
-- State monad
newtype State s a = State { runState :: s -> (a,s) }
-- | State is a functor
instance Functor (State s) where
fmap f m = State (\st -> let (x, st') = runState m st in
(f x, st'))
-- | State is an applicative functor
instance Applicative (State s) where
pure x = State (\st -> (x, st))
m1 <*> m2 = State (\st -> let (f, st') = runState m1 st in
runState (fmap f m2) st')
-- | State is a monad
instance Monad (State s) where
return = pure
m >>= k = State (\st -> let (x, st') = runState m st in
runState (k x) st')
-- | State operations
get :: () -> State s s
get () = State (\st -> (st, st))
put :: s -> State s ()
put st = State (\st' -> ((), st))
-- Continuation monad
newtype Cont r a = Cont { runCont :: (a -> r) -> r }
-- | Cont is a functor
instance Functor (Cont r) where
fmap f k = Cont (\g -> runCont k (\x -> g (f x)))
-- | Cont is an applicative functor
instance Applicative (Cont r) where
pure x = Cont (\k -> k x)
k <*> k' = Cont (\r -> runCont k
(\k'' -> runCont k'
(\x -> r (k'' x))))
-- | Cont is a monad
instance Monad (Cont r) where
return = pure
m >>= k = Cont (\k' -> runCont m
(\x -> runCont (k x)
(\y -> k' y)))
-- | State operations
getk :: () -> Cont (State s a) s
getk () = Cont (\k -> State (\st -> runState (k st) st))
putk :: s -> Cont (State s a) ()
putk st' = Cont (\k -> State (\st -> runState (k ()) st'))
-- Free monad
data Free f a = Return a
| Op (f (Free f a))
-- | Free is a functor
instance Functor f => Functor (Free f) where
fmap f (Return x) = Return (f x)
fmap f (Op y) = Op (fmap (fmap f) y)
-- | Free is an applicative functor
instance Functor f => Applicative (Free f) where
pure = Return
(Return f) <*> xs = fmap f xs
(Op f) <*> xs = Op (fmap (\g -> g <*> xs) f)
-- | Free is a monad
instance Functor f => Monad (Free f) where
return = Return
(Return x) >>= k = k x
(Op y) >>= k = Op (fmap (\m' -> m' >>= k) y)
-- | Auxiliary function for constructing operation nodes
do' :: Functor f => f a -> Free f a
do' op = Op (fmap Return op)
-- Instantiate Free with state
data FreeState s r = Get (s -> r)
| Put s (() -> r)
-- | FreeState is a functor
instance Functor (FreeState s) where
fmap f (Get k) = Get (\st -> f (k st))
fmap f (Put st' k) = Put st' (\() -> f (k ()))
-- | State operations
get' :: () -> Free (FreeState s) s
get' () = do' (Get (\x -> x))
put' :: s -> Free (FreeState s) ()
put' st = do' (Put st (\() -> ()))
-- | State handler
runState' :: s -> Free (FreeState s) a -> (a, s)
runState' st0 (Op (Get k)) = runState' st0 (k st0)
runState' st0 (Op (Put st k)) = runState' st (k ())
runState' st0 (Return x) = (x, st0)
-- Generic state example
incrEven :: Monad m => (() -> m Int, Int -> m ()) -> () -> m Bool
incrEven (get, put) () = get () >>= (\st -> put (1 + st) >>= (\() -> return (even st)))
runExamples :: Int -> [(String, (Bool, Int))]
runExamples st0 = map (\(s, f) -> (s, f st0)) examples
where examples = [ ("builtin state", \st -> runST $ do
st' <- newSTRef st
v <- readSTRef st'
writeSTRef st' (v + 1)
v' <- readSTRef st'
return (even v, v'))
, ("pure state passing", \st -> (even st, st + 1))
, ("state monad", \st -> runState (incrEven (get, put) ()) st)
, ("continuation monad", \st -> runState (runCont (incrEven (getk, putk) ())
(\x -> State (\st -> (x, st)))) st)
, ("free monad", \st -> runState' st (incrEven (get', put') ())) ]

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code/state.ml Normal file
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(* Companion for "State of effectful programming"
Tested with OCaml 4.10.0+multicore. *)
(* Generic direct-style incr_even *)
let even : int -> bool
= fun n -> n mod 2 = 0
let incr_even : (unit -> int) * (int -> unit) -> unit -> bool
= fun (get, put) () ->
let st = get () in
put (1 + st);
even st
(* Delimited control *)
module Prompt : sig
type 'a t
val make : unit -> 'a t
val reify : 'a t -> (('b -> 'a) -> 'a) -> 'b
val install : 'a t -> (unit -> 'a) -> 'a
end = struct
type 'a t = {
install : (unit -> 'a) -> 'a;
reify : 'b. (('b -> 'a) -> 'a) -> 'b
}
let make (type a) () =
let module M = struct
effect Prompt : (('b -> a) -> a) -> 'b
end
in
let reify f = perform (M.Prompt f) in
let install f =
match f () with
| x -> x
| effect (M.Prompt f) k -> f (continue k)
in
{ install; reify }
let install { install; _ } = install
let reify { reify; _ } = reify
let resume k v = continue k v
end
module type CTRL = sig
type ans
val reset : (unit -> ans) -> ans
val shift : (('a -> ans) -> ans) -> 'a
end
module Ctrl(R : sig type ans end) : sig
include CTRL with type ans = R.ans
end = struct
type ans = R.ans
let p : ans Prompt.t = Prompt.make ()
let reset m =
Prompt.install p m
let shift f =
Prompt.reify p
(fun k ->
Prompt.install p
(fun () ->
f (fun x ->
Prompt.install p
(fun () -> k x))))
end
module CtrlState
(S : sig type s end)
(R : sig type ans end): sig
type s = S.s
type ans = s -> R.ans * s
val get : unit -> s
val put : s -> unit
val run : (unit -> R.ans) -> ans
end = struct
type s = S.s
type ans = s -> R.ans * s
module Ctrl = Ctrl(struct type nonrec ans = ans end)
let get () = Ctrl.shift (fun k -> fun st -> k st st)
let put st' = Ctrl.shift (fun k -> fun st -> k () st')
let run m =
Ctrl.reset
(fun () ->
let x = m () in
fun st -> (x, st))
end
module CtrlIntState = CtrlState(struct type s = int end)(struct type ans = bool end)
(* Monadic programming *)
module type MONAD = sig
type 'a t
val return : 'a -> 'a t
val (>>=) : 'a t -> ('a -> 'b t) -> 'b t
end
(** State monad **)
module type STATE_MONAD = sig
type ans
type s
include MONAD
val get : unit -> s t
val put : s -> unit t
val run : (unit -> ans t) -> s -> ans * s
end
module StateMonad(S : sig type s end)(R : sig type ans end): sig
include STATE_MONAD with type s = S.s
and type ans = R.ans
end = struct
type ans = R.ans
type s = S.s
type 'a t = s -> 'a * s
let return : 'a -> 'a t
= fun x -> fun st -> (x, st)
let (>>=) : 'a t -> ('a -> 'b t) -> 'b t
= fun m k -> fun st ->
let (x, st') = m st in
k x st'
let get : unit -> s t
= fun () st -> (st, st)
let put : s -> unit t
= fun st st' -> ((), st)
let run : (unit -> ans t) -> s -> ans * s
= fun m st -> m () st
end
module IntStateMonad = StateMonad(struct type s = int end)(struct type ans = bool end)
(** Continuation monad **)
module type CONTINUATION_MONAD = sig
type r
include MONAD with type 'a t = ('a -> r) -> r
end
module ContinuationMonad(R : sig type ans end): sig
include CONTINUATION_MONAD with type r = R.ans
end = struct
type r = R.ans
type 'a t = ('a -> r) -> r
let return : 'a -> 'a t
= fun x -> fun k -> k x
let (>>=) : 'a t -> ('a -> 'b t) -> 'b t
= fun m k -> fun c ->
m (fun x -> k x c)
end
module ContinuationStateMonad
(S : sig type s end)
(R : sig type ans end): sig
type s = S.s
type ans = R.ans
include CONTINUATION_MONAD with type r = s -> ans * s
val get : unit -> s t
val put : s -> unit t
val run : (unit -> ans t) -> s -> ans * s
end = struct
type s = S.s
type ans = R.ans
module ContinuationMonad : CONTINUATION_MONAD with type r = s -> ans * s
= ContinuationMonad(struct type nonrec ans = s -> ans * s end)
include ContinuationMonad
let get : unit -> s t
= fun () -> fun k -> fun st -> k st st
let put : s -> unit t
= fun st' -> fun k -> fun st -> k () st'
let run : (unit -> R.ans t) -> s -> R.ans * s =
fun m st -> m () (fun x -> fun st -> (x, st)) st
end
module ContinuationIntStateMonad
= ContinuationStateMonad(struct type s = int end)(struct type ans = bool end)
(** Free monad **)
module type FUNCTOR = sig
type 'a t
val fmap : ('a -> 'b) -> 'a t -> 'b t
end
module type FREE_MONAD = sig
type 'a op
type 'a free = Return of 'a
| Op of 'a free op
include MONAD with type 'a t = 'a free
val do' : 'a op -> 'a free
end
module FreeMonad(F : FUNCTOR) : sig
include FREE_MONAD with type 'a op = 'a F.t
end = struct
type 'a op = 'a F.t
type 'a free = Return of 'a
| Op of 'a free F.t
type 'a t = 'a free
let return : 'a -> 'a t
= fun x -> Return x
let rec (>>=) : 'a t -> ('a -> 'b t) -> 'b t
= fun m k ->
match m with
| Return x -> k x
| Op y -> Op (F.fmap (fun m' -> m' >>= k) y)
let do' : 'a F.t -> 'a free
= fun op -> Op (F.fmap (fun x -> Return x) op)
end
module type FREE_STATE = sig
type s
type 'r opsig = Get of (s -> 'r)
| Put of s * (unit -> 'r)
include FUNCTOR with type 'r t = 'r opsig
end
module FreeState(S : sig type s end) = struct
type s = S.s
type 'r opsig = Get of (s -> 'r)
| Put of s * (unit -> 'r)
type 'r t = 'r opsig
let fmap : ('a -> 'b) -> 'a t -> 'b t
= fun f op ->
match op with
| Get k -> Get (fun st -> f (k st))
| Put (st', k) -> Put (st', fun st -> f (k ()))
end
module FreeIntStateMonad: sig
include STATE_MONAD with type s = int
and type ans = bool
end = struct
module rec FreeIntState : FREE_STATE with type s = int
= FreeState(struct type s = int end)
and FreeIntStateMonad : FREE_MONAD with type 'r op = 'r FreeIntState.opsig
= FreeMonad(FreeIntState)
open FreeIntState
include FreeIntStateMonad
type s = int
type ans = bool
let get : unit -> s t
= fun () -> do' (Get (fun st -> st))
let put : s -> unit t
= fun st -> do' (Put (st, fun () -> ()))
let rec run : (unit -> ans t) -> s -> ans * s
= fun m st ->
match m () with
| Return x -> (x, st)
| Op (Get k) -> run (fun () -> k st) st
| Op (Put (st', k)) -> run k st'
end
(** Monadic reflection **)
module Reflect
(M : MONAD)
(R : sig type ans end): sig
type ans = R.ans
val reify : (unit -> ans) -> ans M.t
val reflect : 'a M.t -> 'a
end = struct
type ans = R.ans
effect Reflect : 'a M.t -> 'a
let reify : (unit -> ans) -> ans M.t
= fun f ->
let open M in
match f () with
| x -> return x
| effect (Reflect m) k -> m >>= (continue k)
let reflect : 'a M.t -> 'a
= fun m ->
perform (Reflect m)
end
module ReflectIntStateMonad
= Reflect(IntStateMonad)(struct type ans = bool end)
module ReflectIntState = struct
open ReflectIntStateMonad
let get : unit -> int
= fun () -> reflect (IntStateMonad.get ())
let put : int -> unit
= fun st -> reflect (IntStateMonad.put st)
let run : (unit -> bool) -> int -> bool * int
= fun m st -> IntStateMonad.run (fun () -> reify m) st
end
(* Generic monadic incr_even *)
module MonadExample(T : STATE_MONAD with type s = int) = struct
let incr_even : unit -> bool T.t
= fun () ->
let open T in
(get ()) >>= (fun st -> put (1 + st)
>>= (fun () -> return (even st)))
end
(** Effect handlers **)
module type STATE_HANDLER = sig
type s
val get : unit -> s
val put : s -> unit
val run : (unit -> 'a) -> s -> 'a * s
end
module StateHandler(S : sig type s end) : STATE_HANDLER with type s = S.s = struct
type s = S.s
effect Put : s -> unit
let put st = perform (Put st)
effect Get : unit -> s
let get () = perform (Get ())
let run
= fun m st ->
let f = match m () with
| x -> (fun st -> (x, st))
| effect (Put st') k -> (fun st -> continue k () st')
| effect (Get ()) k -> (fun st -> continue k st st)
in f st
end
module IntStateHandler = StateHandler(struct type s = int end)
let run_examples () =
let examples = [
"builtin", (fun st ->
let st = ref st in let v = !st in st := 1 + v; (even v, !st));
"pure state passing", (fun st -> (even st, 1 + st));
"shift/reset", (fun st ->
CtrlIntState.run (incr_even CtrlIntState.(get, put)) st);
"state monad", (fun st ->
let module MonadStateExample = MonadExample(IntStateMonad) in
IntStateMonad.run MonadStateExample.incr_even st);
"continuation monad", (fun st ->
let module ContinuationMonadExample = MonadExample(ContinuationIntStateMonad) in
ContinuationIntStateMonad.run ContinuationMonadExample.incr_even st);
"free monad", (fun st ->
let module FreeMonadExample = MonadExample(FreeIntStateMonad) in
FreeIntStateMonad.run FreeMonadExample.incr_even st);
"monadic reflection", (fun st ->
ReflectIntState.run (incr_even ReflectIntState.(get, put)) st);
"state handler", (fun st ->
IntStateHandler.run (incr_even IntStateHandler.(get, put)) st) ]
in
List.map (fun (s, f) -> (s, f 4)) examples
(* module IntStateMRefl : MREFL with type ans := bool and type 'a t = 'a IntState.t
* = MRefl(struct type ans = bool end)(IntState)
*
* let get () = IntStateMRefl.reflect (IntState.get ())
* let put st = IntStateMRefl.reflect (IntState.put st)
* let run m st = IntState.run (IntStateMRefl.reify m) st
*
* let even : int -> bool
* = fun n -> n mod 2 = 0
*
* let incr_even : unit -> bool
* = fun () ->
* let st = get () in
* put (1 + st);
* even st *)

344
code/unix.links
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@@ -45,8 +45,6 @@ module Queue {
fun singleton(x) { enqueue(x, empty) }
}
##
## Environment
##
@@ -106,6 +104,27 @@ fun usermgr(user, envs, m) {
## Basic IO
##
typename FileDescr = Int;
typename FileCursor = Int;
module File {
typename T = [String];
sig empty : T
var empty = [];
sig read : (FileCursor, T) ~> Option(String)
fun read(start, file) {
switch (drop(start, file)) {
case [] -> None
case x :: _ -> Some(x)
}
}
sig write : (String, FileCursor, T) ~> T
fun write(contents, fptr, file) {
take(fptr, file) ++ [contents] ++ drop(fptr, file)
}
}
sig stdout : FileDescr
var stdout = 1;
@@ -113,7 +132,7 @@ var stdout = 1;
sig puts : (FileDescr,String) {Puts:(FileDescr,String) -> () |_}-> ()
fun puts(fd, s) { do Puts(fd, s) }
sig basicIO : (Comp(a, {Puts:(FileDescr,String) -> () |e})) {Puts{_} |e}~> [String]
sig basicIO : (Comp(a, {Puts:(FileDescr,String) -> () |e})) {Puts{_} |e}~> File.T
fun basicIO(m) {
handle(m()) {
case Return(_) -> []
@@ -121,8 +140,6 @@ fun basicIO(m) {
}
}
# TODO: implement file space.
##
## Generic state handling.
##
@@ -153,118 +170,125 @@ var stderr = 2;
sig eof : String
var eof = "\x00";
sig gets : (FileDescr) {Gets:(FileDescr) -> String |_}-> String
fun gets(fd) { do Gets(fd) }
typename Mode = [|Read|Write|];
typename Mode = [|Create|Append|];
typename FileDescr = Int;
typename INode = (loc:Option(Int),refc:Int);
sig fopen : (Mode, String) {Fopen:(Mode, String) -> FileDescr |_}-> FileDescr
fun fopen(mode, filename) { do Fopen(mode, filename) }
typename INodeTable = [(INode, File.T)];
typename FileTable = [(Mode, INode)];
typename
sig fclose : (FileDescr) {Fclose:(FileDescr) -> () |_}-> ()
fun fclose(fd) { do Fclose(fd) }
# sig gets : (FileDescr) {Gets:(FileDescr) -> String |_}-> String
# fun gets(fd) { do Gets(fd) }
typename File = Queue.T(String);
# sig fopen : (Mode, String) {Fopen:(Mode, String) -> FileDescr |_}-> FileDescr
# fun fopen(mode, filename) { do Fopen(mode, filename) }
sig emptyFile : File
var emptyFile = Queue.empty;
# sig fclose : (FileDescr) {Fclose:(FileDescr) -> () |_}-> ()
# fun fclose(fd) { do Fclose(fd) }
sig writeFile : (String, File) -> File
fun writeFile(s, file) { Queue.enqueue(s, file) }
# typename File = Queue.T(String);
sig readFile : (File) ~> (String, File)
fun readFile(file) {
switch (Queue.dequeue(file)) {
case (None, file) -> (eof, file)
case (Some(s), file) -> (s, file)
}
}
# sig emptyFile : File
# var emptyFile = Queue.empty;
typename FileTable = [(FileDescr, File)];
typename FileStore = [(String, FileDescr)];
typename FileSystem = (next:Int,ft:FileTable,fs:FileStore);
# sig writeFile : (String, File) -> File
# fun writeFile(s, file) { Queue.enqueue(s, file) }
sig defaultFileSystem : () -> FileSystem
fun defaultFileSystem() {
var defaultTable = [ (stdin , emptyFile)
, (stdout, emptyFile)
, (stderr, emptyFile) ];
# sig readFile : (File) ~> (String, File)
# fun readFile(file) {
# switch (Queue.dequeue(file)) {
# case (None, file) -> (eof, file)
# case (Some(s), file) -> (s, file)
# }
# }
var defaultStore = [ ("stdin" , stdin)
, ("stdout", stdout)
, ("stderr", stderr) ];
# typename FileTable = [(FileDescr, File)];
# typename FileStore = [(String, FileDescr)];
# typename FileSystem = (next:Int,ft:FileTable,fs:FileStore);
(next=3,ft=defaultTable,fs=defaultStore)
}
# sig defaultFileSystem : () -> FileSystem
# fun defaultFileSystem() {
# var defaultTable = [ (stdin , emptyFile)
# , (stdout, emptyFile)
# , (stderr, emptyFile) ];
sig lookupFile : (FileDescr, FileSystem) ~> File
fun lookupFile(fd, fsys) {
switch (lookup(fd, fsys.ft)) {
case Nothing -> error("err: No such file(" ^^ intToString(fd) ^^ ")")
case Just(file) -> file
}
}
# var defaultStore = [ ("stdin" , stdin)
# , ("stdout", stdout)
# , ("stderr", stderr) ];
sig replaceFile : (FileDescr, File, FileSystem) ~> FileSystem
fun replaceFile(fd, file, fsys) {
var ft = modify(fd, file, fsys.ft);
(fsys with ft = ft) # TODO handle nonexistent file.
}
# (next=3,ft=defaultTable,fs=defaultStore)
# }
sig createFile : (String, FileSystem) -> (FileDescr, FileSystem)
fun createFile(filename, fsys) {
var fd = fsys.next;
(fd, (next = fd + 1, fs = (filename, fd) :: fsys.fs, ft = (fd, emptyFile) :: fsys.ft))
}
# sig lookupFile : (FileDescr, FileSystem) ~> File
# fun lookupFile(fd, fsys) {
# switch (lookup(fd, fsys.ft)) {
# case Nothing -> error("err: No such file(" ^^ intToString(fd) ^^ ")")
# case Just(file) -> file
# }
# }
sig openFile : (Mode, String, FileSystem) ~> (FileDescr, FileSystem)
fun openFile(mode, filename, fsys) {
var (fd, fsys') = switch (lookup(filename, fsys.fs)) {
case Nothing -> createFile(filename, fsys)
case Just(fd) -> (fd, fsys)
};
switch (mode) {
case Create -> error("erase")
case Append -> (fd, fsys')
}
}
# sig replaceFile : (FileDescr, File, FileSystem) ~> FileSystem
# fun replaceFile(fd, file, fsys) {
# var ft = modify(fd, file, fsys.ft);
# (fsys with ft = ft) # TODO handle nonexistent file.
# }
sig closeFile : (File) ~> File
fun closeFile((=front,=rear)) {
(front=front ++ reverse(rear), rear=[])
}
# sig createFile : (String, FileSystem) -> (FileDescr, FileSystem)
# fun createFile(filename, fsys) {
# var fd = fsys.next;
# (fd, (next = fd + 1, fs = (filename, fd) :: fsys.fs, ft = (fd, emptyFile) :: fsys.ft))
# }
sig allowState : (() {Get-,Put- |e}~> a) -> () {Get:s,Put:(s) -> () |e}~> a
fun allowState(f) { (f : (() {Get:s,Put:(s) -> () |e}~> a) <- (() {Get-,Put- |e}~> a)) }
# sig openFile : (Mode, String, FileSystem) ~> (FileDescr, FileSystem)
# fun openFile(mode, filename, fsys) {
# var (fd, fsys') = switch (lookup(filename, fsys.fs)) {
# case Nothing -> createFile(filename, fsys)
# case Just(fd) -> (fd, fsys)
# };
# switch (mode) {
# case Create -> error("erase")
# case Append -> (fd, fsys')
# }
# }
sig fileIO : (Comp(a, {Get-,Put-,Gets:(FileDescr) -> String,Puts:(FileDescr,String) -> (),Fclose:(FileDescr) -> (),Fopen:(Mode,String) -> FileDescr |e})) {Get:() {}-> FileSystem,Put:(FileSystem) -> (),Gets{_},Puts{_},Fclose{_},Fopen{_} |e}~> a
fun fileIO(m) {
handle(allowState(m)()) {
case Gets(fd, resume) ->
var fsys = get();
var (ch, file) = readFile(lookupFile(fd, fsys));
put(replaceFile(fd, file, fsys)); resume(ch)
case Puts(fd, ch, resume) ->
var fsys = get();
var fsys' = replaceFile(fd, writeFile(ch, lookupFile(fd, fsys)), fsys);
put(fsys'); resume(())
case Fopen(mode, filename, resume) ->
var fsys = get();
var (fd, fsys') = openFile(mode, filename, fsys);
put(fsys'); resume(fd)
case Fclose(fd, resume) ->
var fsys = get();
var fsys' = replaceFile(fd, closeFile(lookupFile(fd, fsys)), fsys);
put(fsys'); resume(())
}
}
# sig closeFile : (File) ~> File
# fun closeFile((=front,=rear)) {
# (front=front ++ reverse(rear), rear=[])
# }
sig redirect : (Comp(a, {Puts:(FileDescr,String) -> () |e}), FileDescr) {Puts:(FileDescr,String) -> () |e}~> a
fun redirect(m, fd) {
handle(m()) {
case Puts(_,s,resume) -> resume(puts(fd, s))
}
}
# sig allowState : (() {Get-,Put- |e}~> a) -> () {Get:s,Put:(s) -> () |e}~> a
# fun allowState(f) { (f : (() {Get:s,Put:(s) -> () |e}~> a) <- (() {Get-,Put- |e}~> a)) }
# sig fileIO : (Comp(a, {Get-,Put-,Gets:(FileDescr) -> String,Puts:(FileDescr,String) -> (),Fclose:(FileDescr) -> (),Fopen:(Mode,String) -> FileDescr |e})) {Get:() {}-> FileSystem,Put:(FileSystem) -> (),Gets{_},Puts{_},Fclose{_},Fopen{_} |e}~> a
# fun fileIO(m) {
# handle(allowState(m)()) {
# case Gets(fd, resume) ->
# var fsys = get();
# var (ch, file) = readFile(lookupFile(fd, fsys));
# put(replaceFile(fd, file, fsys)); resume(ch)
# case Puts(fd, ch, resume) ->
# var fsys = get();
# var fsys' = replaceFile(fd, writeFile(ch, lookupFile(fd, fsys)), fsys);
# put(fsys'); resume(())
# case Fopen(mode, filename, resume) ->
# var fsys = get();
# var (fd, fsys') = openFile(mode, filename, fsys);
# put(fsys'); resume(fd)
# case Fclose(fd, resume) ->
# var fsys = get();
# var fsys' = replaceFile(fd, closeFile(lookupFile(fd, fsys)), fsys);
# put(fsys'); resume(())
# }
# }
# sig redirect : (Comp(a, {Puts:(FileDescr,String) -> () |e}), FileDescr) {Puts:(FileDescr,String) -> () |e}~> a
# fun redirect(m, fd) {
# handle(m()) {
# case Puts(_,s,resume) -> resume(puts(fd, s))
# }
# }
##
## Processes
@@ -331,70 +355,70 @@ fun whoami() { getenv("USER") }
##
# Tags puts with the name of the current user.
sig provenance : (Comp(a, {Getenv:(String) -> String,Puts:(FileDescr,String) -> () |e})) {Getenv:(String) -> String,Puts:(FileDescr,String) -> () |e}~> a
fun provenance(m) {
handle(m()) {
case Puts(fd, s, resume) ->
var user = whoami();
resume(do Puts(fd, user ^^ "> " ^^ s))
}
}
# sig provenance : (Comp(a, {Getenv:(String) -> String,Puts:(FileDescr,String) -> () |e})) {Getenv:(String) -> String,Puts:(FileDescr,String) -> () |e}~> a
# fun provenance(m) {
# handle(m()) {
# case Puts(fd, s, resume) ->
# var user = whoami();
# resume(do Puts(fd, user ^^ "> " ^^ s))
# }
# }
# An example of everything plugged together: a time-shared 'Hello World'.
sig example : () {Fork:Bool,Getenv:(String) -> String,Su:(User) -> (),Puts:(FileDescr,String) -> (),Yield:() |_}~> ()
fun example() {
var pid = fork();
var () = {
if (pid) redirect(fun(){puts(stdout, "dummy")}, stderr)
else if (fork()) su(Alice)
else su(Bob)
};
var user = whoami();
puts(stdout, "Hello World!");
var uid = getenv("UID");
echo("My UID is " ^^ uid);
(if (amiroot()) { yield(); echo(user ^^ " is running as root.") } else ());
echo("My home dir is /home/" ^^ user)
}
# # An example of everything plugged together: a time-shared 'Hello World'.
# sig example : () {Fork:Bool,Getenv:(String) -> String,Su:(User) -> (),Puts:(FileDescr,String) -> (),Yield:() |_}~> ()
# fun example() {
# var pid = fork();
# var () = {
# if (pid) redirect(fun(){puts(stdout, "dummy")}, stderr)
# else if (fork()) su(Alice)
# else su(Bob)
# };
# var user = whoami();
# puts(stdout, "Hello World!");
# var uid = getenv("UID");
# echo("My UID is " ^^ uid);
# (if (amiroot()) { yield(); echo(user ^^ " is running as root.") } else ());
# echo("My home dir is /home/" ^^ user)
# }
# Wiring of handlers.
sig init : () {Fork{_},Getenv{_},Su{_},Puts{_},Yield{_} |_}~> [String]
fun init() {
basicIO(fun() {
schedule(fun() {
usermgr(Root, envs, fun() {
provenance(example)
})
})
})
}
# # Wiring of handlers.
# sig init : () {Fork{_},Getenv{_},Su{_},Puts{_},Yield{_} |_}~> [String]
# fun init() {
# basicIO(fun() {
# schedule(fun() {
# usermgr(Root, envs, fun() {
# provenance(example)
# })
# })
# })
# }
sig example' : () {Fork:Bool,Fclose:(FileDescr) -> (),Fopen:(Mode,String) -> FileDescr,Getenv:(String) -> String,Su:(User) -> (),Puts:(FileDescr,String) -> (),Yield:() |_}~> ()
fun example'() {
var pid = fork();
var () = {
if (pid) redirect(fun(){puts(stdout, "dummy")}, stderr)
else if (fork()) su(Alice)
else su(Bob)
};
var user = whoami();
var fd = fopen(Append, user ^^ ".txt");
puts(fd, "Hello World!");
var uid = getenv("UID");
echo("My UID is " ^^ uid);
(if (amiroot()) { yield(); echo(user ^^ " is running as root.") } else ());
echo("My home dir is /home/" ^^ user);
fclose(fd)
}
# sig example' : () {Fork:Bool,Fclose:(FileDescr) -> (),Fopen:(Mode,String) -> FileDescr,Getenv:(String) -> String,Su:(User) -> (),Puts:(FileDescr,String) -> (),Yield:() |_}~> ()
# fun example'() {
# var pid = fork();
# var () = {
# if (pid) redirect(fun(){puts(stdout, "dummy")}, stderr)
# else if (fork()) su(Alice)
# else su(Bob)
# };
# var user = whoami();
# var fd = fopen(Append, user ^^ ".txt");
# puts(fd, "Hello World!");
# var uid = getenv("UID");
# echo("My UID is " ^^ uid);
# (if (amiroot()) { yield(); echo(user ^^ " is running as root.") } else ());
# echo("My home dir is /home/" ^^ user);
# fclose(fd)
# }
sig init' : (FileSystem) {Fclose{_},Fopen{_},Fork{_},Get{_},Getenv{_},Gets{_},Put{_},Puts{_},Su{_},Yield{_}|_}~> ((), FileSystem)
fun init'(fsys) {
runState(fsys, fun() {
fileIO(fun() {
schedule(fun() {
usermgr(Root, envs, example')
})
})
})
}
# sig init' : (FileSystem) {Fclose{_},Fopen{_},Fork{_},Get{_},Getenv{_},Gets{_},Put{_},Puts{_},Su{_},Yield{_}|_}~> ((), FileSystem)
# fun init'(fsys) {
# runState(fsys, fun() {
# fileIO(fun() {
# schedule(fun() {
# usermgr(Root, envs, example')
# })
# })
# })
# }

15
code/unix2.links
View File

@@ -680,3 +680,18 @@ fun tcphandshakeFail() {
performTCP(tcpserver, 84, sfd, cfd)
}
}
#
# Grep
#
#sig grep : (String) {Await:Char,Yield:(Char) -> () |_}~> ()
fun grep(str) {
var cs = explode(str);
fun match(c,cs) {
switch (cs) {
case c' :: cs' ->
if (c == '\n') fail()
if (c == c')
}
}
}