(**************************************************************************) (* *) (* Copyright (c) 2014 - 2018. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) type t = { total_sent : int64 ; total_recv : int64 ; current_inflow : int ; current_outflow : int ; } let empty = { total_sent = 0L ; total_recv = 0L ; current_inflow = 0 ; current_outflow = 0 ; } let print_size ppf sz = let ratio n = (float_of_int sz /. float_of_int (1 lsl n)) in if sz < 1 lsl 10 then Format.fprintf ppf "%d B" sz else if sz < 1 lsl 20 then Format.fprintf ppf "%.2f kiB" (ratio 10) else Format.fprintf ppf "%.2f MiB" (ratio 20) let print_size64 ppf sz = let open Int64 in let ratio n = (to_float sz /. float_of_int (1 lsl n)) in if sz < shift_left 1L 10 then Format.fprintf ppf "%Ld B" sz else if sz < shift_left 1L 20 then Format.fprintf ppf "%.2f kiB" (ratio 10) else if sz < shift_left 1L 30 then Format.fprintf ppf "%.2f MiB" (ratio 20) else if sz < shift_left 1L 40 then Format.fprintf ppf "%.2f GiB" (ratio 30) else Format.fprintf ppf "%.2f TiB" (ratio 40) let pp ppf stat = Format.fprintf ppf "↗ %a (%a/s) ↘ %a (%a/s)" print_size64 stat.total_sent print_size stat.current_outflow print_size64 stat.total_recv print_size stat.current_inflow let encoding = let open Data_encoding in conv (fun { total_sent ; total_recv ; current_inflow ; current_outflow } -> (total_sent, total_recv, current_inflow, current_outflow)) (fun (total_sent, total_recv, current_inflow, current_outflow) -> { total_sent ; total_recv ; current_inflow ; current_outflow }) (obj4 (req "total_sent" int64) (req "total_recv" int64) (req "current_inflow" int31) (req "current_outflow" int31))