package re
Legend:
Library
Module
Module type
Parameter
Class
Class type
Library
Module
Module type
Parameter
Class
Class type
val all :
?pos:int ->
?len:int ->
Re__.Compile.re ->
string ->
Group.t Stdlib.Seq.t
Same as Re.all
but returns an iterator.
Examples:
# let regex = Re.compile Re.(seq [str "my"; blank; word(rep alpha)]);;
val regex : re = <abstr>
# Re.Seq.all regex "my head, my shoulders, my knees, my toes ...";;
- : Re.Group.t Seq.t = <fun>
Same as Re.matches
, but returns an iterator.
Example:
# let regex = Re.compile Re.(seq [str "my"; blank; word(rep alpha)]);;
val regex : re = <abstr>
# Re.Seq.matches regex "my head, my shoulders, my knees, my toes ...";;
- : string Seq.t = <fun>
Same as Re.split
but returns an iterator.
Example:
# let regex = Re.compile (Re.char ',');;
val regex : re = <abstr>
# Re.Seq.split regex "Re,Ocaml,Jerome Vouillon";;
- : string Seq.t = <fun>
Same as Re.split_delim
but returns an iterator.
Example:
# let regex = Re.compile (Re.char ',');;
val regex : re = <abstr>
# Re.Seq.split regex "Re,Ocaml,Jerome Vouillon";;
- : string Seq.t = <fun>
val split_full :
?pos:int ->
?len:int ->
Re__.Compile.re ->
string ->
[ `Text of string | `Delim of Group.t ] Stdlib.Seq.t
Same as Re.split_full
but returns an iterator.
Example:
# let regex = Re.compile (Re.char ',');;
val regex : re = <abstr>
# Re.Seq.split_full regex "Re,Ocaml,Jerome Vouillon";;
- : Re.split_token Seq.t = <fun>
sectionYPositions = computeSectionYPositions($el), 10)"
x-init="setTimeout(() => sectionYPositions = computeSectionYPositions($el), 10)"
>