(**************************************************************************) (* *) (* Copyright (c) 2014 - 2016. *) (* Dynamic Ledger Solutions, Inc. *) (* *) (* All rights reserved. No warranty, explicit or implicit, provided. *) (* *) (**************************************************************************) type t = { level: Raw_level_repr.t ; cycle: Cycle_repr.t ; cycle_position: int32 ; voting_period: Voting_period_repr.t ; voting_period_position: int32 ; } type level = t let pp ppf { level } = Raw_level_repr.pp ppf level let encoding = let open Data_encoding in conv (fun { level ; cycle ; cycle_position ; voting_period; voting_period_position } -> (level, cycle, cycle_position, voting_period, voting_period_position)) (fun (level, cycle, cycle_position, voting_period, voting_period_position) -> { level ; cycle ; cycle_position ; voting_period ; voting_period_position }) (obj5 (req "level" Raw_level_repr.encoding) (req "cycle" Cycle_repr.encoding) (req "cycle_position" int32) (req "voting_period" Voting_period_repr.encoding) (req "voting_period_position" int32)) let root = { level = Raw_level_repr.root ; cycle = Cycle_repr.root ; cycle_position = 0l ; voting_period = Voting_period_repr.root ; voting_period_position = 0l ; } let from_raw ~cycle_length ~voting_period_length level = let raw_level = Raw_level_repr.to_int32 level in let cycle = Cycle_repr.of_int32_exn (Int32.div raw_level cycle_length) in let cycle_position = Int32.rem raw_level cycle_length in let voting_period = Voting_period_repr.of_int32_exn (Int32.div raw_level voting_period_length) in let voting_period_position = Int32.rem raw_level voting_period_length in { level ; cycle ; cycle_position ; voting_period ; voting_period_position } let diff { level = l1 } { level = l2 } = Int32.sub (Raw_level_repr.to_int32 l1) (Raw_level_repr.to_int32 l2) let compare { level = l1 } { level = l2 } = Raw_level_repr.compare l1 l2 let (=) { level = l1 } { level = l2 } = Raw_level_repr.(=) l1 l2 let (<>) { level = l1 } { level = l2 } = Raw_level_repr.(<>) l1 l2 let (>) { level = l1 } { level = l2 } = Raw_level_repr.(>) l1 l2 let (>=) { level = l1 } { level = l2 } = Raw_level_repr.(>=) l1 l2 let (<=) { level = l1 } { level = l2 } = Raw_level_repr.(<=) l1 l2 let (<) { level = l1 } { level = l2 } = Raw_level_repr.(<) l1 l2 let min l1 l2 = if l1 <= l2 then l1 else l2 let max l1 l2 = if l1 >= l2 then l1 else l2