include Iobuf_intf.Accessors_write with type ('a, 'd, 'w) t = ([ Core_kernel__Perms.Read.t | Core_kernel__Perms.Write.t ], seek) t -> 'a -> unit with type 'a bin_prot := 'a Bin_prot.Type_class.writer
include Iobuf_intf.Accessors_common with type ('a, 'd, 'w) t = ([ Core_kernel__Perms.Read.t | Core_kernel__Perms.Write.t ], seek) t -> 'a -> unit with type 'a bin_prot := 'a Bin_prot.Type_class.writer
type ('a, 'd, 'w) t = ([ Core_kernel__Perms.Read.t | Core_kernel__Perms.Write.t ], seek) t -> 'a -> unit('d, 'w) Iobuf.t accessor function manipulating 'a, either writing it to the iobuf or reading it from the iobuf.
val char : (char, 'd, 'w) tval int64_t_be : (Core_kernel.Int64.t, 'd, 'w) tval int64_t_le : (Core_kernel.Int64.t, 'd, 'w) tval head_padded_fixed_string : padding:char -> len:int -> (string, 'd, 'w) tval tail_padded_fixed_string : padding:char -> len:int -> (string, 'd, 'w) tval string : str_pos:int -> len:int -> (string, 'd, 'w) tval bytes : str_pos:int -> len:int -> (Core_kernel.Bytes.t, 'd, 'w) tval bigstring : str_pos:int -> len:int -> (Core_kernel.Bigstring.t, 'd, 'w) tval stringo : ?str_pos:int -> ?len:int -> (string, 'd, 'w) tval byteso : ?str_pos:int -> ?len:int -> (Core_kernel.Bytes.t, 'd, 'w) tval bigstringo : ?str_pos:int -> ?len:int -> (Core_kernel.Bigstring.t, 'd, 'w) tval bin_prot : 'a Bin_prot.Type_class.writer -> ('a, 'd, 'w) tval int8_trunc : (int, 'd, 'w) tval int16_be_trunc : (int, 'd, 'w) tval int16_le_trunc : (int, 'd, 'w) tval int32_be_trunc : (int, 'd, 'w) tval int32_le_trunc : (int, 'd, 'w) tval int64_be : (int, 'd, 'w) tval int64_le : (int, 'd, 'w) tval uint8_trunc : (int, 'd, 'w) tval uint16_be_trunc : (int, 'd, 'w) tval uint16_le_trunc : (int, 'd, 'w) tval uint32_be_trunc : (int, 'd, 'w) tval uint32_le_trunc : (int, 'd, 'w) tval uint64_be_trunc : (int, 'd, 'w) tval uint64_le_trunc : (int, 'd, 'w) tval decimal : (int, _, _) tdecimal t int is equivalent to Iobuf.Fill.string t (Int.to_string int), but with improved efficiency and no intermediate allocation.
In other words: It fills the decimal representation of int to t. t is advanced by the number of characters written and no terminator is added. If sufficient space is not available, decimal will raise.