This change was done almost entirely automatically using the script
below. This uses the OCaml lexer to read the source files and extract
the strings and locations. Strings which are "candidates" (in this
case, longer than 3 lines) are replaced in the output with quoted
string literals.
Since the OCaml lexer is used, it already substitutes all escape
sequences correctly. I diffed the output of the generator and it is
identical after this change, except for UUIDs, which change because of
how Utils.stable_uuid is implemented.
Thanks: Nicolas Ojeda Bar
$ ocamlfind opt -package unix,compiler-libs.common find_strings.ml \
-o find_strings.opt -linkpkg
$ for f in $( git ls-files -- \*.ml ) ; do ./find_strings.opt $f ; done
open Printf
let read_whole_file path =
let buf = Buffer.create 16384 in
let chan = open_in path in
let maxlen = 16384 in
let b = Bytes.create maxlen in
let rec loop () =
let r = input chan b 0 maxlen in
if r > 0 then (
Buffer.add_substring buf (Bytes.to_string b) 0 r;
loop ()
)
in
loop ();
close_in chan;
Buffer.contents buf
let count_chars c str =
let count = ref 0 in
for i = 0 to String.length str - 1 do
if c = String.unsafe_get str i then incr count
done;
!count
let subs = ref []
let consider_string str loc =
let nr_lines = count_chars '\n' str in
if nr_lines > 3 then
subs := (str, loc) :: !subs
let () =
Lexer.init ();
let filename = Sys.argv.(1) in
let content = read_whole_file filename in
let lexbuf = Lexing.from_string content in
let rec loop () =
let token = Lexer.token lexbuf in
(match token with
| Parser.EOF -> ();
| STRING (s, loc, sopt) ->
consider_string s loc; (* sopt? *)
loop ();
| token ->
loop ();
)
in
loop ();
(* The list of subs is already reversed, which is convenient
* because we must the file substitutions in reverse order.
*)
let subs = !subs in
let new_content = ref content in
List.iter (
fun (str, loc) ->
let { Location.loc_start = { pos_cnum = p1 };
loc_end = { pos_cnum = p2 } } = loc in
let len = String.length !new_content in
let before = String.sub !new_content 0 (p1-1) in
let after = String.sub !new_content (p2+1) (len - p2 - 1) in
new_content := before ^ "{|" ^ str ^ "|}" ^ after
) subs;
let new_content = !new_content in
if content <> new_content then (
(* Update the file in place. *)
let new_filename = filename ^ ".new"
and backup_filename = filename ^ ".bak" in
let chan = open_out new_filename in
fprintf chan "%s" new_content;
close_out chan;
Unix.rename filename backup_filename;
Unix.rename new_filename filename
)
This acts just like FString except that we do reverse device name
translation on it. The only use is in the 'pvs-full' API where we
will use it (in a subsequent commit) to reverse translate the pv_name
field (a device name) before returning it from the daemon.
Compare this to the 'pvs' API which also returns a list of device
names, but using the generator's 'RStructList (RDevice,...)' return
type, where RDevice is similarly reverse translated.
Note in the library-side bindings, because the name has already been
translated in the daemon, we just treat it exactly the same as
FString. The vast majority of this patch is this mechanical change.
Without clarifying handle's lifetime, it is unable
to see how long the callbacks which the handle
owns will live. Then, Rust compiler will infer
that the callbacks have 'static lifetime. It is
not convenient for users.
