module Misc:sig
..end
Miscellaneous useful types and functions
Warning: this module is unstable and part of compiler-libs.
val fatal_error : string -> 'a
val fatal_errorf : ('a, Format.formatter, unit, 'b) format4 -> 'a
exception Fatal_error
val try_finally : ?always:(unit -> unit) -> ?exceptionally:(unit -> unit) -> (unit -> 'a) -> 'a
try_finally work ~always ~exceptionally
is designed to run code
in work
that may fail with an exception, and has two kind of
cleanup routines: always
, that must be run after any execution
of the function (typically, freeing system resources), and
exceptionally
, that should be run only if work
or always
failed with an exception (typically, undoing user-visible state
changes that would only make sense if the function completes
correctly). For example:
let objfile = outputprefix ^ ".cmo" in
let oc = open_out_bin objfile in
Misc.try_finally
(fun () ->
bytecode
++ Timings.(accumulate_time (Generate sourcefile))
(Emitcode.to_file oc modulename objfile);
Warnings.check_fatal ())
~always:(fun () -> close_out oc)
~exceptionally:(fun _exn -> remove_file objfile);
If exceptionally
fail with an exception, it is propagated as
usual.
If always
or exceptionally
use exceptions internally for
control-flow but do not raise, then try_finally
is careful to
preserve any exception backtrace coming from work
or always
for easier debugging.
val map_end : ('a -> 'b) -> 'a list -> 'b list -> 'b list
val map_left_right : ('a -> 'b) -> 'a list -> 'b list
val for_all2 : ('a -> 'b -> bool) -> 'a list -> 'b list -> bool
val replicate_list : 'a -> int -> 'a list
val list_remove : 'a -> 'a list -> 'a list
val split_last : 'a list -> 'a list * 'a
val may : ('a -> unit) -> 'a option -> unit
val may_map : ('a -> 'b) -> 'a option -> 'b option
type
ref_and_value =
| |
R : |
val protect_refs : ref_and_value list -> (unit -> 'a) -> 'a
protect_refs l f
temporarily sets r
to v
for each R (r, v)
in l
while executing f
. The previous contents of the references is restored
even if f
raises an exception.
module Stdlib:sig
..end
val find_in_path : string list -> string -> string
val find_in_path_rel : string list -> string -> string
val find_in_path_uncap : string list -> string -> string
val remove_file : string -> unit
val expand_directory : string -> string -> string
val split_path_contents : ?sep:char -> string -> string list
val create_hashtable : int -> ('a * 'b) list -> ('a, 'b) Hashtbl.t
val copy_file : in_channel -> out_channel -> unit
val copy_file_chunk : in_channel -> out_channel -> int -> unit
val string_of_file : in_channel -> string
val output_to_file_via_temporary : ?mode:open_flag list ->
string -> (string -> out_channel -> 'a) -> 'a
val log2 : int -> int
val align : int -> int -> int
val no_overflow_add : int -> int -> bool
val no_overflow_sub : int -> int -> bool
val no_overflow_mul : int -> int -> bool
val no_overflow_lsl : int -> int -> bool
module Int_literal_converter:sig
..end
val chop_extensions : string -> string
val search_substring : string -> string -> int -> int
val replace_substring : before:string -> after:string -> string -> string
val rev_split_words : string -> string list
val get_ref : 'a list ref -> 'a list
val set_or_ignore : ('a -> 'b option) -> 'b option ref -> 'a -> unit
val fst3 : 'a * 'b * 'c -> 'a
val snd3 : 'a * 'b * 'c -> 'b
val thd3 : 'a * 'b * 'c -> 'c
val fst4 : 'a * 'b * 'c * 'd -> 'a
val snd4 : 'a * 'b * 'c * 'd -> 'b
val thd4 : 'a * 'b * 'c * 'd -> 'c
val for4 : 'a * 'b * 'c * 'd -> 'd
module LongString:sig
..end
val edit_distance : string -> string -> int -> int option
edit_distance a b cutoff
computes the edit distance between
strings a
and b
. To help efficiency, it uses a cutoff: if the
distance d
is smaller than cutoff
, it returns Some d
, else
None
.
The distance algorithm currently used is Damerau-Levenshtein: it computes the number of insertion, deletion, substitution of letters, or swapping of adjacent letters to go from one word to the other. The particular algorithm may change in the future.
val spellcheck : string list -> string -> string list
spellcheck env name
takes a list of names env
that exist in
the current environment and an erroneous name
, and returns a
list of suggestions taken from env
, that are close enough to
name
that it may be a typo for one of them.
val did_you_mean : Format.formatter -> (unit -> string list) -> unit
did_you_mean ppf get_choices
hints that the user may have meant
one of the option returned by calling get_choices
. It does nothing
if the returned list is empty.
The unit -> ...
thunking is meant to delay any potentially-slow
computation (typically computing edit-distance with many things
from the current environment) to when the hint message is to be
printed. You should print an understandable error message before
calling did_you_mean
, so that users get a clear notification of
the failure even if producing the hint is slow.
val cut_at : string -> char -> string * string
String.cut_at s c
returns a pair containing the sub-string before
the first occurrence of c
in s
, and the sub-string after the
first occurrence of c
in s
.
let (before, after) = String.cut_at s c in
is the identity if
before ^ String.make 1 c ^ afters
contains c
.
Raise Not_found
if the character does not appear in the string
module Color:sig
..end
module Error_style:sig
..end
val normalise_eol : string -> string
normalise_eol s
returns a fresh copy of s
with any '\r' characters
removed. Intended for pre-processing text which will subsequently be printed
on a channel which performs EOL transformations (i.e. Windows)
val delete_eol_spaces : string -> string
delete_eol_spaces s
returns a fresh copy of s
with any end of
line spaces removed. Intended to normalize the output of the
toplevel for tests.
val pp_two_columns : ?sep:string ->
?max_lines:int -> Format.formatter -> (string * string) list -> unit
pp_two_columns ?sep ?max_lines ppf l
prints the lines in l
as two
columns separated by sep
("|" by default). max_lines
can be used to
indicate a maximum number of lines to print -- an ellipsis gets inserted at
the middle if the input has too many lines.
Example:
pp_two_columns ~max_lines:3 Format.std_formatter [ "abc", "hello"; "def", "zzz"; "a" , "bllbl"; "bb" , "dddddd"; ]
prints
abc | hello ... bb | dddddd
Hooks machinery:
add_hook name f
will register a function that will be called on the
argument of a later call to apply_hooks
. Hooks are applied in the
lexicographical order of their names.
type
hook_info = {
|
sourcefile : |
exception HookExnWrapper of {
|
error : |
|
hook_name : |
|
hook_info : |
An exception raised by a hook will be wrapped into a
HookExnWrapper
constructor by the hook machinery.
val raise_direct_hook_exn : exn -> 'a
A hook can use raise_unwrapped_hook_exn
to raise an exception that will
not be wrapped into a Misc.HookExnWrapper
.
module type HookSig =sig
..end
module MakeHooks:functor (
M
:
sig
type
t
end
) ->
HookSig
with type t = M.t
val show_config_and_exit : unit -> unit
configuration variables
val show_config_variable_and_exit : string -> unit
val get_build_path_prefix_map : unit -> Build_path_prefix_map.map option
Returns the map encoded in the BUILD_PATH_PREFIX_MAP
environment
variable.
val debug_prefix_map_flags : unit -> string list
Returns the list of --debug-prefix-map
flags to be passed to the
assembler, built from the BUILD_PATH_PREFIX_MAP
environment variable.
val print_if : Format.formatter ->
bool ref -> (Format.formatter -> 'a -> unit) -> 'a -> 'a
print_if ppf flag fmt x
prints x
with fmt
on ppf
if b
is true.