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Module Flat_queue = Flat_queue

Signature

type 'slots t

The type of a flat queue. 'slots will look like ('a1, ..., 'an) Slots.tn, and the queue holds flat tuples of type 'a1 * ... * 'an.

val sexp_of_t : ('slots -> Sexplib.Sexp.t) -> 'slots t -> Sexplib.Sexp.t
include Invariant.S1 with type 'a t := 'a t
type 'a t
val invariant : 'a Invariant_intf.inv -> 'a t Invariant_intf.inv
val create : ?capacity:int -> ((_, _) Slots.t as 'slots) -> 'slots t

create ?capacity slots creates an empty queue with capacity at least the supplied capacity. It is an error if capacity <= 0.

val capacity : _ t -> int

capacity t returns the length of the array backing t. Enqueueing values will not cause the array to grow as long as length t <= capacity t. A queue at capacity will automatically increase capacity when enqueueing. The capacity never decreases automatically; one can only decrease capacity via set_capacity.

val set_capacity : _ t -> int -> unit

set_capacity t capacity sets the length of the array backing t to as small as value as possible that is not less than max capacity (length t). To shrink as much as possible, do set_capacity t 0.

val length : _ t -> int
val is_empty : _ t -> bool
val get : (_, 'v) Slots.t t -> int -> ('v, 'a) Slot.t -> 'a

These functions get and set individual slots of flat tuple i in queue t.

It is required that 0 <= i < length t.

val unsafe_get : (_, 'v) Slots.t t -> int -> ('v, 'a) Slot.t -> 'a
val set : (_, 'v) Slots.t t -> int -> ('v, 'a) Slot.t -> 'a -> unit
val unsafe_set : (_, 'v) Slots.t t -> int -> ('v, 'a) Slot.t -> 'a -> unit
val drop_front : ?n:int -> _ t -> unit

drop_front ?n t drops the the first n elements of t. It raises if n < 0 || n > length t.

Flat_queue does not have dequeue or dequeue_exn because the expected usage is to use get t 0 Slot.tj to access the front of the queue, and then to use drop_front to remove it. This usage avoids ever allocating an ordinary OCaml tuple.

val clear : _ t -> unit

clear t removes all elements from t.

val enqueue1 : 'a0 Slots.t1 t -> 'a0 -> unit

There is an enqueueN function for each possible arity of a flat queue.

val enqueue2 : ('a0, 'a1) Slots.t2 t -> 'a0 -> 'a1 -> unit
val enqueue3 : ('a0, 'a1, 'a2) Slots.t3 t -> 'a0 -> 'a1 -> 'a2 -> unit
val enqueue4 : ('a0, 'a1, 'a2, 'a3) Slots.t4 t -> 'a0 -> 'a1 -> 'a2 -> 'a3 -> unit
val enqueue5 : ('a0, 'a1, 'a2, 'a3, 'a4) Slots.t5 t -> 'a0 -> 'a1 -> 'a2 -> 'a3 -> 'a4 -> unit
val enqueue6 : ('a0, 'a1, 'a2, 'a3, 'a4, 'a5) Slots.t6 t -> 'a0 -> 'a1 -> 'a2 -> 'a3 -> 'a4 -> 'a5 -> unit
val enqueue7 : ('a0, 'a1, 'a2, 'a3, 'a4, 'a5, 'a6) Slots.t7 t -> 'a0 -> 'a1 -> 'a2 -> 'a3 -> 'a4 -> 'a5 -> 'a6 -> unit
val enqueue8 : ('a0, 'a1, 'a2, 'a3, 'a4, 'a5, 'a6, 'a7) Slots.t8 t -> 'a0 -> 'a1 -> 'a2 -> 'a3 -> 'a4 -> 'a5 -> 'a6 -> 'a7 -> unit
val enqueue9 : ('a0, 'a1, 'a2, 'a3, 'a4, 'a5, 'a6, 'a7, 'a8) Slots.t9 t -> 'a0 -> 'a1 -> 'a2 -> 'a3 -> 'a4 -> 'a5 -> 'a6 -> 'a7 -> 'a8 -> unit

The functions below deal with Flat-array tuples as ordinary OCaml tuples. These are intended for convenience but not for performance-critical code, due to the tuple allocation.

val get_all_slots : ('tuple, _) Slots.t t -> int -> 'tuple

get_all_slots t i allocates a new ordinary OCaml tuple whose components are equal to the slots of the flat tuple at index i of t. This is esentially an allocation plus a blit from t to the newly allocated tuple.

set_all_slots t i tuple sets all slots of the flat tuple at index i of t to their corresponding components of tuple. This is essentially a blit from tuple to t.

It is required that 0 <= i < length t.

val set_all_slots : ('tuple, _) Slots.t t -> int -> 'tuple -> unit
val fold : ('tuple, _) Slots.t t -> init:'a -> f:('a -> 'tuple -> 'a) -> 'a

In iter t ~f and fold t ~init ~f, if f mutates t, then the iteration will raise.

val iter : ('tuple, _) Slots.t t -> f:('tuple -> unit) -> unit