Module Parsexp__.Positions
type t
A
t
value represent a sequence of positions. The focus is on small memory footprint.Given a s-expression and a sequence of positions, one can reconstruct the location of every sub s-expression. This is used to report location informations without having to annotate every node in the s-expression during parsing.
The s-expression parser saves the positions of each opening and closing parentheses as well as the positions of the first and last character of each atom.
Note that a
t
can hold the same given positions no more than twice. The parser stores the same position twice for non-quoted single character atoms.
val sexp_of_t : t -> Parsexp__.Import.Ppx_sexp_conv_lib.Sexp.t
val compare : t -> t -> int
type pos
=
{
line : int;
Line number. The first line has number
1
.col : int;
Column number. The first column has number
0
.offset : int;
Number of bytes from the beginning of the input. The first byte has offset
0
.}
Represent a position in the input
val sexp_of_pos : pos -> Parsexp__.Import.Ppx_sexp_conv_lib.Sexp.t
val compare_pos : pos -> pos -> int
type range
=
{
start_pos : pos;
end_pos : pos;
}
Range of positions, as reported in error messages. We follow the lexing conventions of OCaml, i.e.
start_pos
points to the first character andend_pos
points to the position just after the last character.This allow for instance to represent empty ranges with
start_pos = end_pos
.
val sexp_of_range : range -> Parsexp__.Import.Ppx_sexp_conv_lib.Sexp.t
val compare_range : range -> range -> int
val make_range_incl : start_pos:pos -> last_pos:pos -> range
Make a range from two positions where both positions are inclusive, i.e.
start_pos
points to the first character andend_pos
points to the last one. The character atlast_pos
is assumed to not be a newline character.
val find : t -> int -> int -> range
find t start stop
returns the range of positions starting at position with indexstart
int
and ending at position with indexstop
.find t i j
is the same as:let a = to_array t in make_range_incl ~start_pos:a.(i) ~last_pos:a.(j)
but more efficient.
val find_sub_sexp_phys : t -> Parsexp__.Import.Sexp.t -> sub:Parsexp__.Import.Sexp.t -> range option
find_sub_sexp_phys t sexp ~sub
looks forsub
insexp
and return its location, assumingt
is the sequence of positions associated withsexp
.Comparison is done using physical equality.
val find_sub_sexp_in_list_phys : t -> Parsexp__.Import.Sexp.t list -> sub:Parsexp__.Import.Sexp.t -> range option
val memory_footprint_in_bytes : t -> int
Returns how much memory is used by
t