Sexp: Module for handling S-expressions (I/O, etc.)
include Sexp_intf.S
type bigstring
= (char, Bigarray.int8_unsigned_elt, Bigarray.c_layout) Bigarray.Array1.t
Type of bigstrings
val default_indent : int Pervasives.ref
default_indent
reference to default indentation level for
human-readable conversions. Initialisation value: 2.
val size : t ‑> int * int
size sexp
(n_atoms, n_chars)
, where n_atoms
is
the number of atoms in S-expression sexp
, and n_chars
is the
number of characters in the atoms of the S-expression.val scan_sexp : ?buf:Buffer.t ‑> Lexing.lexbuf ‑> t
scan_sexp ?buf lexbuf
scans an S-expression from lex buffer
lexbuf
using the optional string buffer buf
for storing
intermediate strings.
val scan_sexps : ?buf:Buffer.t ‑> Lexing.lexbuf ‑> t list
scan_sexps ?buf lexbuf
reads a list of whitespace separated
S-expressions from lex buffer lexbuf
using the optional string
buffer buf
for storing intermediate strings.
val scan_rev_sexps : ?buf:Buffer.t ‑> Lexing.lexbuf ‑> t list
scan_rev_sexps ?buf lexbuf
same as scan_sexps, but returns the
reversed list and is slightly more efficient.
val scan_sexp_opt : ?buf:Buffer.t ‑> Lexing.lexbuf ‑> t option
scan_sexp_opt ?buf lexbuf
is equivalent to scan_sexp ?buf lexbuf
except that it returns None
when the eof is reached.
val scan_iter_sexps : ?buf:Buffer.t ‑> f:(t ‑> unit) ‑> Lexing.lexbuf ‑> unit
scan_iter_sexps ?buf ~f lexbuf
iterates over all whitespace
separated S-expressions scanned from lex buffer lexbuf
using
function f
, and the optional string buffer buf
for storing
intermediate strings.
val scan_fold_sexps : ?buf:Buffer.t ‑> f:('a ‑> t ‑> 'a) ‑> init:'a ‑> Lexing.lexbuf ‑> 'a
scan_fold_sexps ?buf ~f ~init lexbuf
folds over all whitespace
separated S-expressions scanned from lex buffer lexbuf
using
function f
, initial state init
, and the optional string buffer
buf
for storing intermediate strings.
val scan_sexps_conv : ?buf:Buffer.t ‑> f:(t ‑> 'a) ‑> Lexing.lexbuf ‑> 'a list
scan_sexps_conv ?buf ~f lexbuf
maps all whitespace separated
S-expressions scanned from lex buffer lexbuf
to some list using
function f
, and the optional string buffer buf
for storing
intermediate strings.
module Parse_pos : sig ... end
module Cont_state : sig ... end
type ('a, 't) parse_result
= ('a, 't) Pre_sexp.parse_result
=
| Done of 't * Parse_pos.t | (** |
| Cont of Cont_state.t * ('a, 't) parse_fun | (** |
Type of result from calling Sexp.parse.
type 't parse_state
= private 't Pre_sexp.parse_state
=
{
parse_pos : Parse_pos.t; | (** Current parse position *) |
mutable pstack : 't; | (** Stack of found S-expression lists *) |
pbuf : Buffer.t; | (** Current atom buffer *) |
}
Type of state maintained during parsing
type parse_error
= Pre_sexp.parse_error
=
{
location : string; | (** Function in which the parse failed *) |
err_msg : string; | (** Reason why parsing failed *) |
parse_state : [ `Sexp of t list list parse_state | `Annot of Annotated.stack parse_state ]; | (** State of parser *) |
}
Type of parse errors
val parse : ?parse_pos:Parse_pos.t ‑> ?len:int ‑> string ‑> (string, t) parse_result
parse ?parse_pos ?len str
(partially) parses an S-expression in string buffer
str
starting out with position information provided in parse_pos
and reading at
most len
characters. To parse a single atom that is not delimited by whitespace
it is necessary to call this function a second time with the returned continuation,
and a dummy buffer that contains whitespace.
parse
starts parsing str
at position parse_pos.buf_pos
. Each subsequent
parse_fun
from a Cont
uses the buf
and pos
that is supplied to it. The
final parse_fun
that returns Done
mutates the buf_pos
in the originally
supplied parse_pos
, and then returns it.
Parse_pos.create ()
String.length str - parse_pos.Parse_pos.buf_pos
val parse_bigstring : ?parse_pos:Parse_pos.t ‑> ?len:int ‑> bigstring ‑> (bigstring, t) parse_result
parse_bigstring ?parse_pos ?len str
same as parse, but operates on
bigstrings.
val input_sexp : ?parse_pos:Parse_pos.t ‑> Pervasives.in_channel ‑> t
input_sexp ?parse_pos ic
parses an S-expression from input channel
ic
using initial position information in parse_pos
. NOTE: this
function is not as fast on files as Sexp.load_sexp, and is also
slightly slower than the scan-functions. But it is guaranteed that
input_sexp
is only going to read data parseable as an S-expression.
Thus, subsequent input functions will see the data immediately
following it.
Parse_pos.create ()
val input_sexps : ?parse_pos:Parse_pos.t ‑> ?buf:string ‑> Pervasives.in_channel ‑> t list
input_sexps ?parse_pos ?buf ic
parses whitespace separated
S-expressions from input channel ic
until EOF is reached. Faster than
the scan-functions.
Parse_pos.create ()
val input_rev_sexps : ?parse_pos:Parse_pos.t ‑> ?buf:string ‑> Pervasives.in_channel ‑> t list
input_rev_sexps ?parse_pos ?buf ic
same as Sexp.input_sexps,
but returns a reversed list of S-expressions, which is slightly more
efficient.
val load_sexp : ?strict:bool ‑> ?buf:string ‑> string ‑> t
load_sexp ?strict ?buf file
reads one S-expression from file
using
buffer buf
for storing intermediate data. Faster than the
scan-functions.
strict
is true and there is more than one
S-expression in the file.true
val load_sexps : ?buf:string ‑> string ‑> t list
load_sexps ?buf file
reads a list of whitespace separated S-expressions
from file
using buffer buf
for storing intermediate data.
Faster than the scan-functions.
val load_rev_sexps : ?buf:string ‑> string ‑> t list
load_rev_sexps ?buf file
same as Sexp.load_sexps, but returns a
reversed list of S-expressions, which is slightly more efficient.
val load_sexp_conv : ?strict:bool ‑> ?buf:string ‑> string ‑> (t ‑> 'a) ‑> 'a Annotated.conv
load_sexp_conv ?strict ?buf file f
like Sexp.load_sexp, but
performs a conversion on the fly using f
. Performance is equivalent
to executing Sexp.load_sexp and performing conversion when there
are no errors. In contrast to the plain S-expression loader, this
function not only performs the conversion, it will give exact error
ranges for conversion errors.
val load_sexp_conv_exn : ?strict:bool ‑> ?buf:string ‑> string ‑> (t ‑> 'a) ‑> 'a
load_sexp_conv_exn ?strict ?buf file f
like load_sexp_conv,
but returns the converted value or raises Of_sexp_error
with exact
location information in the case of a conversion error.
val load_sexps_conv : ?buf:string ‑> string ‑> (t ‑> 'a) ‑> 'a Annotated.conv list
load_sexps_conv ?buf file f
like Sexp.load_sexps, but performs
a conversion on the fly using f
. Performance is equivalent to
executing Sexp.load_sexps and performing conversion when there
are no errors. In contrast to the plain S-expression loader, this
function not only performs the conversion, it will give exact error
ranges for conversion errors.
val load_sexps_conv_exn : ?buf:string ‑> string ‑> (t ‑> 'a) ‑> 'a list
load_sexps_conv_exn ?buf file f
like load_sexps_conv, but returns
the converted value or raises Of_sexp_error
with exact location
information in the case of a conversion error.
NOTE: for performance reasons these output functions may need to allocate large strings to write out huge S-expressions. This may cause problems on 32-bit platforms. If you think that you may need to write huge S-expressions on such platforms, you might want to use the pretty-printers that write to formatters instead (see further below).
val output_hum : Pervasives.out_channel ‑> t ‑> unit
output_hum oc sexp
outputs S-expression sexp
to output channel
oc
in human readable form.
val output_hum_indent : int ‑> Pervasives.out_channel ‑> t ‑> unit
output_hum_indent indent oc sexp
outputs S-expression sexp
to output channel oc
in human readable form using indentation level
indent
.
val output_mach : Pervasives.out_channel ‑> t ‑> unit
output_mach oc sexp
outputs S-expression sexp
to output channel
oc
in machine readable (i.e. most compact) form.
All save-functions write to a temporary file before moving it into place to avoid intermittent garbling of existing files, which may cause problems for other processes that try to read.
val save_hum : ?perm:int ‑> string ‑> t ‑> unit
save_hum ?perm file sexp
outputs S-expression sexp
to file
in human
readable form.
val save_mach : ?perm:int ‑> string ‑> t ‑> unit
save_mach ?perm file sexp
outputs S-expression sexp
to file
in machine readable (i.e. most compact) form.
val save_sexps_hum : ?perm:int ‑> string ‑> t list ‑> unit
save_sexps_hum ?perm file sexps
outputs S-expression list sexps
to
file
in human readable form, each sexp being followed by a newline.
val save_sexps_mach : ?perm:int ‑> string ‑> t list ‑> unit
save_sexps_mach ?perm file sexps
outputs S-expression list sexps
to
file
in machine readable form, each sexp being followed by a
newline.
val save_sexps : ?perm:int ‑> string ‑> t list ‑> unit
save_sexps ?perm file sexp
same as save_sexps_mach.
val pp_hum : Format.formatter ‑> t ‑> unit
pp_hum ppf sexp
outputs S-expression sexp
to formatter ppf
in human readable form.
val pp_hum_indent : int ‑> Format.formatter ‑> t ‑> unit
pp_hum_indent n ppf sexp
outputs S-expression sexp
to formatter
ppf
in human readable form and indentation level n
.
val pp_mach : Format.formatter ‑> t ‑> unit
pp_mach ppf sexp
outputs S-expression sexp
to formatter ppf
in machine readable (i.e. most compact) form.
module Of_string_conv_exn : sig ... end
Module encapsulating the exception raised by string converters when type conversions fail.
val of_string : string ‑> t
of_string str
converts string str
to an S-expression. NOTE:
trailing whitespace is considered an error, which may be overly
strict for some applications. Either strip the string of trailing
whitespace first, or, even cheaper, use parse instead.
val of_string_conv : string ‑> (t ‑> 'a) ‑> 'a Annotated.conv
of_string_conv str conv
like of_string, but performs type conversion
with conv
.
val of_string_conv_exn : string ‑> (t ‑> 'a) ‑> 'a
of_string_conv_exn str conv
like of_string_conv, but raises
Of_string_conv_exn.E if type conversion fails.
val of_bigstring_conv : bigstring ‑> (t ‑> 'a) ‑> 'a Annotated.conv
of_bigstring_conv bstr conv
like of_bigstring, but performs
type conversion with conv
.
of_bigstring_conv_exn bstr conv
like of_bigstring_conv, but raises
Of_string_conv_exn.E if type conversion fails.
val to_string_hum : ?indent:int ‑> t ‑> string
to_string_hum ?indent sexp
converts S-expression sexp
to a
string in human readable form with indentation level indent
.
!default_indent
val to_string_mach : t ‑> string
to_string_mach sexp
converts S-expression sexp
to a string in
machine readable (i.e. most compact) form.
val to_buffer_hum : buf:Buffer.t ‑> ?indent:int ‑> t ‑> unit
to_buffer_hum ~buf ?indent sexp
outputs the S-expression sexp
converted to a string in human readable form to buffer buf
.
!default_indent
val to_buffer_mach : buf:Buffer.t ‑> t ‑> unit
to_buffer_mach ~buf sexp
outputs the S-expression sexp
converted
to a string in machine readable (i.e. most compact) form to buffer buf
.
val to_buffer_gen : buf:'buffer ‑> add_char:('buffer ‑> char ‑> unit) ‑> add_string:('buffer ‑> string ‑> unit) ‑> t ‑> unit
to_buffer_gen ~buf ~add_char ~add_string sexp
outputs the S-expression
sexp
converted to a string to buffer buf
using the output functions
add_char
and add_string
.
sexp_of_t sexp
maps S-expressions which are part of a type with
automated S-expression conversion to themselves.
t_of_sexp sexp
maps S-expressions which are part of a type with
automated S-expression conversion to themselves.
Type of successful search results. `Found
means that an
S-expression was found at the immediate position, and `Pos (pos,
found)
indicates that it was found at position pos
within a
structure (= S-expression list) where found
describes recursively
where it was found in that structure.
Type of search results. `Not_found
means that an
S-expression was not found within another S-expression.
val search_physical : t ‑> contained:t ‑> search_result
search_physical sexp ~contained
contained
was found within S-expression sexp
.