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Module type CCRingBuffer.S

module type S = sig .. end

Ring Buffer

The abstract ring buffer type, made concrete by choice of ARRAY module implementation

module Array: CCRingBuffer.Array.S
The module type of Array for this ring buffer 
type t
Defines the ring buffer type, with both bounded and unbounded flavors
exception Empty
Raised in querying functions when the buffer is empty
val create : ?bounded:bool -> int -> t
create ?bounded size creates a new buffer with given size. Defaults to bounded=false.
val copy : t -> t
Make a fresh copy of the buffer.
val capacity : t -> int
Length of the inner buffer.
val max_capacity : t -> int option
Maximum length of the inner buffer, or None if unbounded.
val length : t -> int
Number of elements currently stored in the buffer.
val blit_from : t -> Array.t -> int -> int -> unit
blit_from buf from_buf o len copies the slice o, ... o + len - 1 from a input buffer from_buf to the end of the buffer.
Raises Invalid_argument if o,len is not a valid slice of s
val blit_into : t -> Array.t -> int -> int -> int
blit_into buf to_buf o len copies at most len elements from buf into to_buf starting at offset o in s.
Raises Invalid_argument if o,len is not a valid slice of s
Returns the number of elements actually copied (min len (length buf)).
val append : t -> into:t -> unit
append b ~into copies all data from b and adds it at the end of into
val to_list : t -> Array.elt list
Extract the current content into a list
val clear : t -> unit
Clear the content of the buffer. Doesn't actually destroy the content.
val reset : t -> unit
Clear the content of the buffer, and also resize it to a default size
val is_empty : t -> bool
Is the buffer empty (i.e. contains no elements)?
val junk_front : t -> unit
Drop the front element from t.
Raises Empty if the buffer is already empty.
val junk_back : t -> unit
Drop the back element from t.
Raises Empty if the buffer is already empty.
val skip : t -> int -> unit
skip b len removes len elements from the front of b.
Raises Invalid_argument if len > length b.
val iter : t -> f:(Array.elt -> unit) -> unit
iter b ~f calls f i t for each element t in buf
val iteri : t -> f:(int -> Array.elt -> unit) -> unit
iteri b ~f calls f i t for each element t in buf, with i being its relative index within buf.
val get_front : t -> int -> Array.elt
get_front buf i returns the i-th element of buf from the front, ie the one returned by take_front buf after i-1 calls to junk_front buf.
Raises Invalid_argument if the index is invalid (> length buf)
val get_back : t -> int -> Array.elt
get_back buf i returns the i-th element of buf from the back, ie the one returned by take_back buf after i-1 calls to junk_back buf.
Raises Invalid_argument if the index is invalid (> length buf)
val push_back : t -> Array.elt -> unit
Push value at the back of t. If t.bounded=false, the buffer will grow as needed, otherwise the oldest elements are replaced first.
val peek_front : t -> Array.elt
First value from front of t.
Raises Empty if buffer is empty.
val peek_back : t -> Array.elt
Get the last value from back of t.
Raises Empty if buffer is empty.
val take_back : t -> Array.elt option
Take the last value from back of t, if any
val take_back_exn : t -> Array.elt
Take the last value from back of t.
Raises Empty if buffer is already empty.
val take_front : t -> Array.elt option
Take the first value from front of t, if any
val take_front_exn : t -> Array.elt
Take the first value from front of t.
Raises Empty if buffer is already empty.
val of_array : Array.t -> t
Create a buffer from an initial array, but doesn't take ownership of it (stills allocates a new internal array)
Since 0.11
val to_array : t -> Array.t
Create an array from the elements, in order.
Since 0.11