A rope is a standard data structure that represents a single string as a tree of
strings, allowing concatenation to do no work up front -- a string formed by many
Rope
concatenations followed by a to_string
needs only copy each input to the
output once, whereas a string expression looking like a ^ b ^ c ^ ... ^ z
must
create an intermediate string for every concatenation, and will copy the original data
into and out of short-lived temporary strings many times.
On the other hand, because String.concat [ s1; s2; s3; ... ]
allocates a single
string and copies the inputs into it, Rope
is no improvement over that usage.
Rope
becomes useful when the construction of the sequence of strings is more
complex -- a good example is prettyprinting an expression language, where you need to
parenthise subexpressions (appending a short string at both ends) and handle infix
binary operators (appending two long strings both made up of many parts, with a short
string in between).
Any operations that would produce a Rope
longer than String.max_length
raise
instead. They are not marked with _exn
on their names since (at least on 64-bit)
this number is far in excess of the size of your memory, so isn't likely to come up in
practice.
A more fully-featured Rope implementation is available in the zed library.
val of_string : Core_kernel__.Import.string ‑> t
Takes O(1) time. The string isn't copied, so don't mutate it.
val empty : t
val is_empty : t ‑> Core_kernel__.Import.bool
val length : t ‑> Core_kernel__.Import.int
val to_string : t ‑> Core_kernel__.Import.string
Allocates a fresh string, so takes time proportional to the total size of the result.
val concat : ?sep:t ‑> t Core_kernel__.Import.list ‑> t
val concat_array : ?sep:t ‑> t Core_kernel__.Import.array ‑> t
val add_to_buffer : t ‑> Buffer.t ‑> Core_kernel__.Import.unit
Appends the contents of the Rope at the end of a destination buffer.