The Shexp process monad
type 'a t
An 'a t
value represent a process pipeline description, that can be evaluated using
eval
into a value of type 'a
. Note that creating an 'a t
value has no
effect. Effects are only performed when calling eval
.
Evaluate the given process in the given environment.
If context
is not specified, a temporary one is created. If you are calling eval
many times, then creating a context and reusing it is more efficient.
module Logged : sig ... end
module Traced : sig ... end
module Prim : sig ... end
module type Debugger = Shexp_process__.Debugger_intf.S
shexp_process allows one to plug a debugger in the evaluator. Logged
and Traced
are essentially two non-interactive debuggers.
module With_debug : functor (Dbg : Debugger) -> sig ... end
val return : 'a ‑> 'a t
Classic monad operations. Note that because shexp_process uses threads under the hood,
you should be careful about using global mutable data structures. To communicate
values between concurrent processes, use the sync
function.
val fail : exn ‑> _ t
Create a process that fails with the given exception. Evaluation of this process will raise this exception.
fork a b
reprensents two processes that are executed concurrently. The resulting
process will block until both a
and b
have finished and will return both of their
results.
This is essentially the same as forking a system process: both process can independently change the current working directory, change their standard out, etc...
Regarding errors, if the evaluation of both processes fail, then only one the
exceptions will be kept. It is not specified which one. You should use Traced
to get
a full trace and see what exceptions are raised and where.
protect ~finally t
protects against execution errors. finally
is always executed,
even if the evaluation of t
raises.
Capture exceptions into the process monad. You can use this if the argument of
protect
is the result of a function call.
For instance in the following code finally
wouldn't be executed:
let f () = raise Not_found
protect ~finally (f ())
You can write instead:
protect ~finally (reify_exn f ())
val run : string ‑> string list ‑> unit t
Run an external program. This will fail if the external program does not exists, is signaled or exit with a non-zero exit code.
val run_exit_code : string ‑> string list ‑> int t
Run an external program and return its exit code. This will fail if the external program is signaled.
module Exit_status = Shexp_process.Exit_status
val run_exit_status : string ‑> string list ‑> Exit_status.t t
Run an external program and return its exit status.
val run_bool : ?true_v:int list ‑> ?false_v:int list ‑> string ‑> string list ‑> bool t
Run an external program, returns true
if its exit code is part of true_v
and
false
if it is part of false_v
.
module Background_command : sig ... end
val spawn : string ‑> string list ‑> Background_command.t t
Start an external program but do not wait for its termination. If you never call
wait
on the result, the process will become a zombie after it terminates.
val wait : Background_command.t ‑> Exit_status.t t
Wait for a background command to terminate and return its exit status.
val find_executable_exn : string ‑> string t
val get_env : string ‑> string option t
Return the value associated to the given environment variable.
val get_env_exn : string ‑> string t
set_env var value k
represents the process k
evaluated in a context where the
envornment variable var
is set to value
.
set_env var value k
represents the process k
evaluated in a context where the
environment variable var
is unset.
val cwd_logical : string t
Return the current working directory. Note that there is no guarantee that this directory exists. For instance if a component in this path has is renamed during the evaluation of the process, then this will be a dangling directory.
chdir dir k
represents the process k
evaluated in a context where the current
working directory is changed to dir
.
module Std_io = Shexp_process.Std_io
val printf : ('a, unit, string, unit t) Pervasives.format4 ‑> 'a
val eprintf : ('a, unit, string, unit t) Pervasives.format4 ‑> 'a
Fold over lines in the input. f
is given the line with the end of line. Both
"\r\n"
and "\n"
are treated as end of lines.
Fold over chunks separated by sep
in the input. This can be used in conjunction
with commands that support ending entries in the output with a '\000'
such as
find -print0
.
pipe ~connect:(aios, bio) a b
is a process obtain by connecting the aios
of a
to
the bio
of b
. a
and b
are evaluated in parallel (as with fork
).
(aio, bio)
defaults to ([Stdout], Stdin)
.
redirect ios ?perm ~flags filename t
redirects the following ios to a file in
t
. perm
and flags
are passed the same as for Unix.openfile
.
Replace the given standard io by the given one. For instance to redirect stdout to
stderr: replace_io ~stdout:Stderr t
set_temp_dir dir k
represents the process k
evaluated in a context where the
current temporary directory is set to dir
.
with_temp_file ~prefix ~suffix f
is a process that creates a temporary file and
passes it to f
. The file is created inside the temporary directory.
When the process returned by f
finishes, the file is removed.
Same as with_temp_file
but creates a directory. The directory and its contents are
deleted when the process finishes.
val chmod : string ‑> perm:Unix.file_perm ‑> unit t
val chown : string ‑> uid:int ‑> gid:int ‑> unit t
val mkdir : ?perm:Unix.file_perm ‑> ?p:unit ‑> string ‑> unit t
val rm : string ‑> unit t
val rmdir : string ‑> unit t
val mkfifo : ?perm:Unix.file_perm ‑> string ‑> unit t
val link : string ‑> string ‑> unit t
val rename : string ‑> string ‑> unit t
val symlink : string ‑> string ‑> unit t
val stat : string ‑> Unix.LargeFile.stats t
val lstat : string ‑> Unix.LargeFile.stats t
val readlink : string ‑> string t
val readdir : string ‑> string list t
val file_exists : string ‑> bool t
val sleep : float ‑> unit t
val new_channel : 'a Event.channel t
val sync : 'a Event.event ‑> 'a t
module Infix : sig ... end
module List : sig ... end