package core_kernel

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type t = {
  1. mutable minor_heap_size : Base.Int.t;
    (*

    The size (in words) of the minor heap. Changing this parameter will trigger a minor collection. Default: 262144 words / 1MB (32bit) / 2MB (64bit).

    *)
  2. mutable major_heap_increment : Base.Int.t;
    (*

    The minimum number of words to add to the major heap when increasing it. Default: 126976 words / 0.5MB (32bit) / 1MB (64bit).

    *)
  3. mutable space_overhead : Base.Int.t;
    (*

    The major GC speed is computed from this parameter. This is the memory that will be "wasted" because the GC does not immediatly collect unreachable blocks. It is expressed as a percentage of the memory used for live data. The GC will work more (use more CPU time and collect blocks more eagerly) if space_overhead is smaller. Default: 80.

    *)
  4. mutable verbose : Base.Int.t;
    (*

    This value controls the GC messages on standard error output. It is a sum of some of the following flags, to print messages on the corresponding events:

    • 0x001 Start of major GC cycle.
    • 0x002 Minor collection and major GC slice.
    • 0x004 Growing and shrinking of the heap.
    • 0x008 Resizing of stacks and memory manager tables.
    • 0x010 Heap compaction.
    • 0x020 Change of GC parameters.
    • 0x040 Computation of major GC slice size.
    • 0x080 Calling of finalisation functions.
    • 0x100 Bytecode executable search at start-up.
    • 0x200 Computation of compaction triggering condition. Default: 0.
    *)
  5. mutable max_overhead : Base.Int.t;
    (*

    Heap compaction is triggered when the estimated amount of "wasted" memory is more than max_overhead percent of the amount of live data. If max_overhead is set to 0, heap compaction is triggered at the end of each major GC cycle (this setting is intended for testing purposes only). If max_overhead >= 1000000, compaction is never triggered. Default: 500.

    *)
  6. mutable stack_limit : Base.Int.t;
    (*

    The maximum size of the stack (in words). This is only relevant to the byte-code runtime, as the native code runtime uses the operating system's stack. Default: 1048576 words / 4MB (32bit) / 8MB (64bit).

    *)
  7. mutable allocation_policy : Base.Int.t;
    (*

    The policy used for allocating in the heap. Possible values are 0 and 1. 0 is the next-fit policy, which is quite fast but can result in fragmentation. 1 is the first-fit policy, which can be slower in some cases but can be better for programs with fragmentation problems. Default: 0.

    *)
  8. window_size : Base.Int.t;
    (*

    The size of the window used by the major GC for smoothing out variations in its workload. This is an integer between 1 and 50. Default: 1.

    • since 4.03.0
    *)
}
include sig ... end
val bin_read_t : t Bin_prot.Read.reader
val __bin_read_t__ : (Base.Int.t -> t) Bin_prot.Read.reader
val bin_reader_t : t Bin_prot.Type_class.reader
val bin_size_t : t Bin_prot.Size.sizer
val bin_write_t : t Bin_prot.Write.writer
val bin_writer_t : t Bin_prot.Type_class.writer
val bin_shape_t : Bin_prot.Shape.t
val t_of_sexp : Sexplib.Sexp.t -> t
val sexp_of_t : t -> Sexplib.Sexp.t
val window_size : t -> Base.Int.t
val allocation_policy : t -> Base.Int.t
val set_allocation_policy : t -> Base.Int.t -> Base.Unit.t
val stack_limit : t -> Base.Int.t
val set_stack_limit : t -> Base.Int.t -> Base.Unit.t
val max_overhead : t -> Base.Int.t
val set_max_overhead : t -> Base.Int.t -> Base.Unit.t
val verbose : t -> Base.Int.t
val set_verbose : t -> Base.Int.t -> Base.Unit.t
val space_overhead : t -> Base.Int.t
val set_space_overhead : t -> Base.Int.t -> Base.Unit.t
val major_heap_increment : t -> Base.Int.t
val set_major_heap_increment : t -> Base.Int.t -> Base.Unit.t
val minor_heap_size : t -> Base.Int.t
val set_minor_heap_size : t -> Base.Int.t -> Base.Unit.t
module Fields : sig ... end
include Comparable.S with type t := t
include Base.Comparable_intf.S with type t := t
include Base.Comparable_intf.Polymorphic_compare with type t := t
include Base.Comparisons.Infix with type t := t
val (>=) : t -> t -> bool
val (<=) : t -> t -> bool
val (=) : t -> t -> bool
val (>) : t -> t -> bool
val (<) : t -> t -> bool
val (<>) : t -> t -> bool
val equal : t -> t -> bool
val compare : t -> t -> int

compare t1 t2 returns 0 if t1 is equal to t2, a negative integer if t1 is less than t2, and a positive integer if t1 is greater than t2.

val min : t -> t -> t
val max : t -> t -> t
val ascending : t -> t -> int

ascending is identical to compare. descending x y = ascending y x. These are intended to be mnemonic when used like List.sort ~cmp:ascending and List.sort ~cmp:descending, since they cause the list to be sorted in ascending or descending order, respectively.

val descending : t -> t -> int
val between : t -> low:t -> high:t -> bool
val clamp_exn : t -> min:t -> max:t -> t

clamp_exn t ~min ~max returns t', the closest value to t such that between t' ~low:min ~high:max is true.

Raises if not (min <= max).

val clamp : t -> min:t -> max:t -> t Base.Or_error.t
include Base.Comparator.S with type t := t
type comparator_witness
include Base.Comparable_intf.Validate with type t := t
val validate_lbound : min:t Base.Maybe_bound.t -> t Base.Validate.check
val validate_ubound : max:t Base.Maybe_bound.t -> t Base.Validate.check
val validate_bound : min:t Base.Maybe_bound.t -> max:t Base.Maybe_bound.t -> t Base.Validate.check
module Map : Map.S with type Key.t = t with type Key.comparator_witness = comparator_witness
module Set : Set.S with type Elt.t = t with type Elt.comparator_witness = comparator_witness
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