sig
type t = {
minor_words : float;
promoted_words : float;
major_words : float;
minor_collections : int;
major_collections : int;
heap_words : int;
heap_chunks : int;
live_words : int;
live_blocks : int;
free_words : int;
free_blocks : int;
largest_free : int;
fragments : int;
compactions : int;
top_heap_words : int;
stack_size : int;
}
val stack_size : Core_gc.Stat.t -> int
val top_heap_words : Core_gc.Stat.t -> int
val compactions : Core_gc.Stat.t -> int
val fragments : Core_gc.Stat.t -> int
val largest_free : Core_gc.Stat.t -> int
val free_blocks : Core_gc.Stat.t -> int
val free_words : Core_gc.Stat.t -> int
val live_blocks : Core_gc.Stat.t -> int
val live_words : Core_gc.Stat.t -> int
val heap_chunks : Core_gc.Stat.t -> int
val heap_words : Core_gc.Stat.t -> int
val major_collections : Core_gc.Stat.t -> int
val minor_collections : Core_gc.Stat.t -> int
val major_words : Core_gc.Stat.t -> float
val promoted_words : Core_gc.Stat.t -> float
val minor_words : Core_gc.Stat.t -> float
module Fields :
sig
val names : string list
val stack_size : (Core_gc.Stat.t, int) Fieldslib.Field.t
val top_heap_words : (Core_gc.Stat.t, int) Fieldslib.Field.t
val compactions : (Core_gc.Stat.t, int) Fieldslib.Field.t
val fragments : (Core_gc.Stat.t, int) Fieldslib.Field.t
val largest_free : (Core_gc.Stat.t, int) Fieldslib.Field.t
val free_blocks : (Core_gc.Stat.t, int) Fieldslib.Field.t
val free_words : (Core_gc.Stat.t, int) Fieldslib.Field.t
val live_blocks : (Core_gc.Stat.t, int) Fieldslib.Field.t
val live_words : (Core_gc.Stat.t, int) Fieldslib.Field.t
val heap_chunks : (Core_gc.Stat.t, int) Fieldslib.Field.t
val heap_words : (Core_gc.Stat.t, int) Fieldslib.Field.t
val major_collections : (Core_gc.Stat.t, int) Fieldslib.Field.t
val minor_collections : (Core_gc.Stat.t, int) Fieldslib.Field.t
val major_words : (Core_gc.Stat.t, float) Fieldslib.Field.t
val promoted_words : (Core_gc.Stat.t, float) Fieldslib.Field.t
val minor_words : (Core_gc.Stat.t, float) Fieldslib.Field.t
val fold :
init:'acc__ ->
minor_words:('acc__ ->
(Core_gc.Stat.t, float) Fieldslib.Field.t -> 'acc__) ->
promoted_words:('acc__ ->
(Core_gc.Stat.t, float) Fieldslib.Field.t -> 'acc__) ->
major_words:('acc__ ->
(Core_gc.Stat.t, float) Fieldslib.Field.t -> 'acc__) ->
minor_collections:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
major_collections:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
heap_words:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
heap_chunks:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
live_words:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
live_blocks:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
free_words:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
free_blocks:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
largest_free:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
fragments:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
compactions:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
top_heap_words:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
stack_size:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t -> 'acc__) ->
'acc__
val make_creator :
minor_words:((Core_gc.Stat.t, float) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> float) * 'compile_acc__) ->
promoted_words:((Core_gc.Stat.t, float) Fieldslib.Field.t ->
'compile_acc__ ->
('input__ -> float) * 'compile_acc__) ->
major_words:((Core_gc.Stat.t, float) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> float) * 'compile_acc__) ->
minor_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ ->
('input__ -> int) * 'compile_acc__) ->
major_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ ->
('input__ -> int) * 'compile_acc__) ->
heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
heap_chunks:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
live_words:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
live_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
free_words:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
free_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
largest_free:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
fragments:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
compactions:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
top_heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
stack_size:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
'compile_acc__ -> ('input__ -> int) * 'compile_acc__) ->
'compile_acc__ -> ('input__ -> Core_gc.Stat.t) * 'compile_acc__
val create :
minor_words:float ->
promoted_words:float ->
major_words:float ->
minor_collections:int ->
major_collections:int ->
heap_words:int ->
heap_chunks:int ->
live_words:int ->
live_blocks:int ->
free_words:int ->
free_blocks:int ->
largest_free:int ->
fragments:int ->
compactions:int ->
top_heap_words:int -> stack_size:int -> Core_gc.Stat.t
val map :
minor_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> float) ->
promoted_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> float) ->
major_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> float) ->
minor_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
major_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
heap_chunks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
live_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
live_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
free_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
free_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
largest_free:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
fragments:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
compactions:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
top_heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
stack_size:((Core_gc.Stat.t, int) Fieldslib.Field.t -> int) ->
Core_gc.Stat.t
val iter :
minor_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> unit) ->
promoted_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> unit) ->
major_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> unit) ->
minor_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
major_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
heap_chunks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
live_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
live_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
free_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
free_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
largest_free:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
fragments:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
compactions:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
top_heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) ->
stack_size:((Core_gc.Stat.t, int) Fieldslib.Field.t -> unit) -> unit
val for_all :
minor_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> bool) ->
promoted_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> bool) ->
major_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> bool) ->
minor_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
major_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
heap_chunks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
live_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
live_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
free_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
free_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
largest_free:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
fragments:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
compactions:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
top_heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
stack_size:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) -> bool
val exists :
minor_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> bool) ->
promoted_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> bool) ->
major_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> bool) ->
minor_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
major_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
heap_chunks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
live_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
live_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
free_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
free_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
largest_free:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
fragments:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
compactions:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
top_heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) ->
stack_size:((Core_gc.Stat.t, int) Fieldslib.Field.t -> bool) -> bool
val to_list :
minor_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> 'elem__) ->
promoted_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> 'elem__) ->
major_words:((Core_gc.Stat.t, float) Fieldslib.Field.t -> 'elem__) ->
minor_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
major_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
heap_chunks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
live_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
live_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
free_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
free_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
largest_free:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
fragments:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
compactions:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
top_heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
stack_size:((Core_gc.Stat.t, int) Fieldslib.Field.t -> 'elem__) ->
'elem__ list
val map_poly :
([< `Read | `Set_and_create ], Core_gc.Stat.t, 'x0)
Fieldslib.Field.user -> 'x0 list
module Direct :
sig
val iter :
Core_gc.Stat.t ->
minor_words:((Core_gc.Stat.t, float) Fieldslib.Field.t ->
Core_gc.Stat.t -> float -> unit) ->
promoted_words:((Core_gc.Stat.t, float) Fieldslib.Field.t ->
Core_gc.Stat.t -> float -> unit) ->
major_words:((Core_gc.Stat.t, float) Fieldslib.Field.t ->
Core_gc.Stat.t -> float -> unit) ->
minor_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
major_collections:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
heap_chunks:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
live_words:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
live_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
free_words:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
free_blocks:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
largest_free:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
fragments:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
compactions:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
top_heap_words:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
stack_size:((Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> unit) ->
unit
val fold :
Core_gc.Stat.t ->
init:'acc__ ->
minor_words:('acc__ ->
(Core_gc.Stat.t, float) Fieldslib.Field.t ->
Core_gc.Stat.t -> float -> 'acc__) ->
promoted_words:('acc__ ->
(Core_gc.Stat.t, float) Fieldslib.Field.t ->
Core_gc.Stat.t -> float -> 'acc__) ->
major_words:('acc__ ->
(Core_gc.Stat.t, float) Fieldslib.Field.t ->
Core_gc.Stat.t -> float -> 'acc__) ->
minor_collections:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
major_collections:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
heap_words:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
heap_chunks:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
live_words:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
live_blocks:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
free_words:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
free_blocks:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
largest_free:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
fragments:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
compactions:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
top_heap_words:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
stack_size:('acc__ ->
(Core_gc.Stat.t, int) Fieldslib.Field.t ->
Core_gc.Stat.t -> int -> 'acc__) ->
'acc__
end
end
val t_of_sexp : Sexplib.Sexp.t -> Core_gc.Stat.t
val sexp_of_t : Core_gc.Stat.t -> Sexplib.Sexp.t
val bin_t : Core_gc.Stat.t Bin_prot.Type_class.t
val bin_read_t : Core_gc.Stat.t Bin_prot.Read_ml.reader
val bin_read_t_ : Core_gc.Stat.t Bin_prot.Unsafe_read_c.reader
val bin_read_t__ : (int -> Core_gc.Stat.t) Bin_prot.Unsafe_read_c.reader
val bin_reader_t : Core_gc.Stat.t Bin_prot.Type_class.reader
val bin_size_t : Core_gc.Stat.t Bin_prot.Size.sizer
val bin_write_t : Core_gc.Stat.t Bin_prot.Write_ml.writer
val bin_write_t_ : Core_gc.Stat.t Bin_prot.Unsafe_write_c.writer
val bin_writer_t : Core_gc.Stat.t Bin_prot.Type_class.writer
end