Contract - FPC-V3
Address:
ID:

SUMMARY
FULL NAMEFixed Payout Contract V3
STATUSInactive
TRANSACTIONS0
LAST ACTIVATION BLOCK252,850
BALANCES
ASSETAMOUNT
188
0.00000004
0.00000003
0.00000002
0.00000002
0.00000001
0.00000001
0.00000001
0.00000001

open Zen.Base
open Zen.Cost
open Zen.Types
open Zen.Data

module U8     = FStar.UInt8
module U64    = FStar.UInt64
module RT     = Zen.ResultT
module Dict   = Zen.Dictionary
module Sha3   = Zen.Hash.Sha3
module TX     = Zen.TxSkeleton
module CR     = Zen.ContractResult
module Asset  = Zen.Asset
module Opt    = Zen.Option
module OptT   = Zen.OptionT
module Array  = Zen.Array
module Str    = FStar.String
module CId    = Zen.ContractId
module Merkle = Zen.MerkleTree
module W      = Zen.Wallet

let auditPathMaxLength : nat = 30

type parser (a:Type) (m:nat) =
    option (Dict.t data) -> result a `cost` m

type hashUpdate (a:Type) (m:nat) =
    a -> Sha3.t -> Sha3.t `cost` m

type ticker =
    s:string { Str.length s <= 4 }

// compressed public key
type cpk =
    byte ** hash

type preAuditPath =
    p: list data { length p <= auditPathMaxLength }

type auditPath =
    p: list hash { length p <= auditPathMaxLength }

type commit = {
    c_root      : hash;
    c_timestamp : timestamp;
}

type attestation = {
    commit : commit;
    pubKey : publicKey;
}

type position =
    | Bull
    | Bear

type betEvent = {
    oraclePubKey     : publicKey;
    oracleContractId : contractId;
    ticker           : ticker;
    priceLow         : U64.t;
    priceHigh        : option U64.t;
    start            : U64.t;
    expiry           : option U64.t;
    collateral       : asset;
}

type bet = {
    bevent   : betEvent;
    position : position;
}

type proof = {
    key         : ticker;
    value       : U64.t;
    root        : hash;
    auditPath   : auditPath;
    index       : U64.t;
}

type redemption = {
    bet         : bet;
    attestation : attestation;
    timestamp   : timestamp;
    proof       : proof;
}



(*
-------------------------------------------------------------------------------
========== UTILITY FUNCTIONS ==================================================
-------------------------------------------------------------------------------
*)

// tries to map a function over a list.
// if all of the mappings return Some, then returns Some list.
// otherwise returns None.
val tryMap (#a #b : Type) (#n : nat) :
    (a -> option b `cost` n)
    -> ls:list a
    -> option (ls':list b{length ls' == length ls}) `cost` (length ls * (n + 20) + 20)
let rec tryMap #a #b #n f ls = //20
    match ls with
    | hd::tl ->
        let! hd' = f hd in
        let! tl' = tryMap f tl in
        begin match hd', tl' with
        | Some hd', Some tl' ->
            let (result: list b{length result == length ls}) = hd'::tl' in
            OptT.some result
        | _ -> OptT.none end
    | [] -> [] |> OptT.incSome (length ls * (n + 20))

let runOpt (#a #s:Type) (#m:nat) (update:a -> s -> s `cost` m) (x:option a) (st:s) : s `cost` (m + 5) =
    Opt.maybe (incRet m) update x st

// compress a public key
let compress (pk:publicKey): cpk `cost` 305 = // 13
    let open U8 in
    let aux (i : nat { i < 32 }) : byte `cost` 5 =
        ret (Array.item (31 - i) pk)
    in
    let  parity = (Array.item 32 pk %^ 2uy) +^ 2uy in
    let! x      = Array.init_pure 32 aux           in // 292
    ret (parity, x)

let updateCPK ((parity, h):cpk) (s:Sha3.t): Sha3.t `cost` 205 = // 7
    ret s
    >>= Sha3.updateByte parity // 6
    >>= Sha3.updateHash h // 192

// hash a compressed publicKey
let hashCPK (cpk:cpk): hash `cost` 231 = // 6
    ret Sha3.empty
    >>= updateCPK cpk // 205
    >>= Sha3.finalize // 20

val lockToPubKey: asset -> U64.t -> publicKey -> txSkeleton -> txSkeleton `cost` 610
let lockToPubKey asset amount pk tx = // 10
    let! cpk     = compress pk in // 305
    let! cpkHash = hashCPK cpk in // 231
    TX.lockToPubKey asset amount cpkHash tx // 64

val lockToSender: asset -> U64.t -> sender -> txSkeleton -> result txSkeleton `cost` 624
let lockToSender asset amount sender txSkel = // 14
    match sender with
    | PK pk ->
        ret txSkel
        >>= lockToPubKey asset amount pk // 610
        >>= RT.ok
    | Contract cid ->
        ret txSkel
        >>= TX.lockToContract asset amount cid // 64
        >>= RT.incOK 546
    | Anonymous ->
        RT.incFailw 610 "Sender can't be anonymous"



(*
-------------------------------------------------------------------------------
========== DATA PARSING =======================================================
-------------------------------------------------------------------------------
*)

val parseDict: option data -> result (option (Dict.t data)) `cost` 15
let parseDict data = // 11
    match data with
    | Some data ->
        data
        |> tryDict // 4
        |> RT.ofOptionT "Data parsing failed - the message body isn't a dictionary"
        |> RT.map Some
    | None ->
        RT.incFailw 4 "Data parsing failed - the message body is empty"

val parseField (#a:Type) (#m:nat)
    : (data -> option a `cost` m)
    -> fieldName:string
    -> errMsg:string
    -> option (Dict.t data)
    -> result a `cost` (m + 75)
let parseField #_ #_ parser fieldName errMsg dict = // 11
    let! value = dict >!= Dict.tryFind fieldName >?= parser in // (m + 64)
    match value with
    | Some value ->
        RT.ok value
    | None ->
        RT.failw errMsg

val parseOptField (#a:Type) (#m:nat)
    : (data -> option a `cost` m)
    -> fieldName:string
    -> option (Dict.t data)
    -> result (option a) `cost` (m + 71)
let parseOptField #_ #_ parser fieldName dict = // 7
    dict
    >!= Dict.tryFind fieldName // 64
    >?= parser // m
    >>= RT.ok

val parseTicker: string -> string -> option (Dict.t data) -> result ticker `cost` 90
let parseTicker fieldName errMsg dict = // 6
    let open RT in
    parseField tryString fieldName errMsg dict >>= // 77
    begin fun s -> // 7
        if Str.length s <= 4
            then RT.ok (s <: ticker)
            else RT.failw "Ticker size can't be bigger than 4"
    end

val extractHashes: string -> ls:list data -> result (ls':list hash { length ls' == length ls }) `cost` (length ls * (2 + 20) + 20 + 5)
let extractHashes errMsg ls = // 5
    tryMap tryHash ls // (length ls * 22 + 20)
    |> RT.ofOptionT errMsg

val extractAuditPath': ls:preAuditPath -> result auditPath `cost` (length ls * 22 + 29)
let extractAuditPath' ls = // 4
    let open RT in
    extractHashes "All the items in the audit path must be hashes" ls // = X * 22 + 25
    
gt; (fun xs -> let (xs:list hash { length xs <= auditPathMaxLength }) = xs in xs) val extractAuditPath: ls:preAuditPath -> result auditPath `cost` (auditPathMaxLength * 22 + 40) let extractAuditPath (ls:preAuditPath) = extractAuditPath' ls |> inc ((auditPathMaxLength - length ls) * 22) |> (fun x -> x <: result auditPath `cost` (auditPathMaxLength * 22 + 29)) val parsePreAuditPath: string -> string -> option (Dict.t data) -> result preAuditPath `cost` 92 let parsePreAuditPath fieldName errMsg dict = // 6 let open RT in parseField tryList fieldName errMsg dict >>= // 79 begin fun ls -> // 7 if length ls <= auditPathMaxLength then RT.ok (ls <: preAuditPath) else RT.failw "AuditPath length must be 256" end val parseAuditPath: string -> string -> option (Dict.t data) -> result auditPath `cost` (auditPathMaxLength * 22 + 139) let parseAuditPath fieldName errMsg dict = // 7 let open RT in ret dict >>= parsePreAuditPath fieldName errMsg // 92 >>= extractAuditPath // (length ls * 22 + 25 + (auditPathMaxLength - length ls) * 22 + 12) val parsePosition: string -> string -> option (Dict.t data) -> result position `cost` 87 let parsePosition fieldName errMsg dict = // 6 let open RT in parseField tryString fieldName errMsg dict >>= // 77 begin fun s -> match s with // 4 | "Bull" -> ret Bull | "Bear" -> ret Bear | _ -> RT.failw "Position must be either Bull or Bear" end val parseContractId: string -> string -> option (Dict.t data) -> result contractId `cost` 158 let parseContractId fieldName errMsg dict = // 6 let open RT in parseField tryString fieldName errMsg dict >>= // 77 begin fun s -> // 11 if Str.length s = 72 then let (s:string { Str.length s = 72 }) = s in s |> CId.parse // 64 |> RT.ofOptionT "The given OracleContractId is not a valid contractId" else RT.incFailw 64 "OracleContractId must be 72 characters long" end val parseAsset: string -> string -> option (Dict.t data) -> result asset `cost` 150 let parseAsset fieldName errMsg dict = // 5 let open RT in parseField tryString fieldName errMsg dict >>= // 73 begin Asset.parse // 64 >> RT.ofOptionT "The given asset is not a valid asset" end val getTimestamp : parser U64.t 82 val getRoot : parser hash 82 val getOraclePubKey : parser publicKey 82 val getTicker : parser ticker 94 val getPriceLow : parser U64.t 82 val getPriceHigh : parser (option U64.t) 77 val getStart : parser U64.t 82 val getExpiry : parser (option U64.t) 77 val getAuditPath : parser auditPath (auditPathMaxLength * 22 + 139 + 4) val getValue : parser U64.t 82 val getIndex : parser U64.t 82 val getPosition : parser position 91 val getOracleContractId : parser contractId 162 val getCollateral : parser asset 154 let getTimestamp dict = dict |> parseField tryU64 "Timestamp" "Could not parse Timestamp" let getRoot dict = dict |> parseField tryHash "Root" "Could not parse Root" let getOraclePubKey dict = dict |> parseField tryPublicKey "OraclePubKey" "Could not parse OraclePubKey" let getTicker dict = dict |> parseTicker "Ticker" "Could not parse Ticker" let getPriceLow dict = dict |> parseField tryU64 "PriceLow" "Could not parse PriceLow" let getPriceHigh dict = dict |> parseOptField tryU64 "PriceHigh" let getStart dict = dict |> parseField tryU64 "Start" "Could not parse Start" let getExpiry dict = dict |> parseOptField tryU64 "Expiry" let getAuditPath dict = dict |> parseAuditPath "AuditPath" "Could not parse AuditPath" let getValue dict = dict |> parseField tryU64 "Value" "Could not parse Value" let getIndex dict = dict |> parseField tryU64 "Index" "Could not parse Index" let getPosition dict = dict |> parsePosition "Position" "Could not parse Position" let getOracleContractId dict = dict |> parseContractId "OracleContractId" "Could not parse OracleContractId" let getCollateral dict = dict |> parseAsset "Collateral" "Could not parse Collateral" val parseProof': option (Dict.t data) -> result proof `cost` (94 + (auditPathMaxLength * 22 + 415)) let parseProof' dict = // 31 let open RT in dict |> getTicker >>= (fun key -> // 94 dict |> getValue >>= (fun value -> // 82 dict |> getRoot >>= (fun root -> // 82 dict |> getAuditPath >>= (fun auditPath -> // auditPathMaxLength * 22 + 139 + 4 dict |> getIndex >>= (fun index -> // 82 RT.ok ({ key = key; value = value; root = root; auditPath = auditPath; index = index; })))))) val parseProof: option (Dict.t data) -> result proof `cost` (auditPathMaxLength * 22 + 512) let parseProof dict = parseProof' dict |> (fun x -> x <: result proof `cost` (auditPathMaxLength * 22 + 509)) val parseCommit: option (Dict.t data) -> result commit `cost` 175 let parseCommit dict = // 11 let open RT in dict |> getRoot >>= (fun root -> // 82 dict |> getTimestamp >>= (fun timestamp -> // 82 RT.ok ({ c_root = root; c_timestamp = timestamp; }))) val parseAttestation: option (Dict.t data) -> result attestation `cost` 268 let parseAttestation dict = // 11 let open RT in dict |> parseCommit >>= (fun commit -> // 175 dict |> getOraclePubKey >>= (fun pubKey -> // 82 RT.ok ({ commit = commit; pubKey = pubKey; }))) val parseEvent: option (Dict.t data) -> result betEvent `cost` 851 let parseEvent dict = // 41 let open RT in dict |> getOraclePubKey >>= (fun oraclePubKey -> // 82 dict |> getOracleContractId >>= (fun oracleContractId -> // 162 dict |> getTicker >>= (fun ticker -> // 94 dict |> getPriceLow >>= (fun priceLow -> // 82 dict |> getPriceHigh >>= (fun priceHigh -> // 77 dict |> getStart >>= (fun start -> // 82 dict |> getExpiry >>= (fun expiry -> // 77 dict |> getCollateral >>= (fun collateral -> // 154 RT.ok ({ oraclePubKey = oraclePubKey; oracleContractId = oracleContractId; ticker = ticker; priceLow = priceLow; priceHigh = priceHigh; start = start; expiry = expiry; collateral = collateral; }))))))))) val parseRedemption': option (Dict.t data) -> result redemption `cost` (1133 + (auditPathMaxLength * 22 + 698)) let parseRedemption' dict = // 22 let open RT in dict |> parseEvent >>= (fun bevent -> // 851 dict |> getPosition >>= (fun position -> // 91 dict |> parseAttestation >>= (fun attestation -> // 262 dict |> getTimestamp >>= (fun timestamp -> // 82 dict |> parseProof >>= (fun proof -> // (auditPathMaxLength * 22 + 512) RT.ok ({ bet = { bevent = bevent; position = position; }; attestation = attestation; timestamp = timestamp; proof = proof; })))))) val parseRedemption: option (Dict.t data) -> result redemption `cost` (auditPathMaxLength * 22 + 1834) let parseRedemption dict = // 3 parseRedemption' dict |> (fun x -> x <: result redemption `cost` (auditPathMaxLength * 22 + 1831)) (* ------------------------------------------------------------------------------- ========== TOKENIZATION ======================================================= ------------------------------------------------------------------------------- *) val updatePublicKey : hashUpdate publicKey 517 let updatePublicKey pk s = // 7 let! cpk = compress pk in // 305 ret s >>= updateCPK cpk // 205 // Sha3.updateString with a constant cost val updateTicker : hashUpdate ticker 36 let updateTicker tick s = // 12 ret s >>= Sha3.updateString tick // (6 * Str.length tick) >>= incRet (6 * (4 - Str.length tick)) val updateContractId : hashUpdate contractId 223 let updateContractId (v,h) s = // 7 ret s >>= Sha3.updateU32 v // 24 >>= Sha3.updateHash h // 192 val updateEvent : hashUpdate betEvent 1397 let updateEvent bevent s = // 35 ret s >>= updatePublicKey bevent.oraclePubKey // 517 >>= updateContractId bevent.oracleContractId // 223 >>= updateTicker bevent.ticker // 36 >>= Sha3.updateU64 bevent.priceLow // 48 >>= Sha3.updateU64 `runOpt` bevent.priceHigh // 53 >>= Sha3.updateU64 bevent.start // 48 >>= Sha3.updateU64 `runOpt` bevent.expiry // 53 >>= Sha3.updateAsset bevent.collateral // 384 val updatePosition : hashUpdate position 28 let updatePosition position s = // 4 match position with | Bull -> Sha3.updateString "Bull" s // 24 | Bear -> Sha3.updateString "Bear" s // 24 val hashCommit : commit -> hash `cost` 271 let hashCommit commit = // 11 ret Sha3.empty >>= Sha3.updateHash commit.c_root // 192 >>= Sha3.updateU64 commit.c_timestamp // 48 >>= Sha3.finalize // 20 val hashCommitment : attestation -> hash `cost` 1014 let hashCommitment attestation = // 14 let! commitHash = hashCommit attestation.commit in // 271 ret Sha3.empty >>= Sha3.updateHash commitHash // 192 >>= updatePublicKey attestation.pubKey // 517 >>= Sha3.finalize // 20 val hashAttestation : attestation -> hash `cost` 1235 let hashAttestation attestation = // 9 let! commit = hashCommitment attestation in // 1014 ret Sha3.empty >>= Sha3.updateHash commit // 192 >>= Sha3.finalize // 20 val hashBet : bet -> hash `cost` 1456 let hashBet bet = // 11 ret Sha3.empty >>= updateEvent bet.bevent // 1009 >>= updatePosition bet.position // 28 >>= Sha3.finalize // 20 val mkBetToken : contractId -> bet -> asset `cost` 1463 let mkBetToken (v, h) bet = // 7 let! betHash = hashBet bet in ret (v, h, betHash) val mkAttestToken : contractId -> attestation -> asset `cost` 1242 let mkAttestToken (v,h) attestation = // 7 let! attestHash = hashAttestation attestation in // 1235 ret (v, h, attestHash) (* ------------------------------------------------------------------------------- ========== VALIDATION ========================================================= ------------------------------------------------------------------------------- *) val inBounds : U64.t -> option U64.t -> U64.t -> bool `cost` 10 let inBounds low high value = (low `U64.lte` value && Opt.maybe true (U64.lte value) high) |> ret val validateTime: redemption -> result redemption `cost` 24 let validateTime redemption = // 14 let bevent = redemption.bet.bevent in let low = bevent.start in let high = bevent.expiry in let value = redemption.timestamp in let! inb = inBounds low high value in // 10 if inb then RT.ok redemption else RT.failw "Attestation time is not within the given time bounds" val validatePrice: redemption -> result redemption `cost` 31 let validatePrice redemption = // 21 let bevent = redemption.bet.bevent in let low = bevent.priceLow in let high = bevent.priceHigh in let value = redemption.proof.value in let! inb = inBounds low high value in // 10 let pos = redemption.bet.position in match inb, pos with | true , Bull | false, Bear -> RT.ok redemption | _ -> RT.failw "Position doesn't match the event" val hashLeaf : key:ticker -> U64.t -> hash `cost` 111 let hashLeaf (key : ticker) (value : U64.t) = // 19 ret Sha3.empty >>= Sha3.updateString key // 6 * 4 >>= Sha3.updateU64 value // 48 >>= Sha3.finalize // 20 |> inc (24 - 6 * Str.length key) |> (fun x -> x <: hash `cost` 92) val verifyAuditPath' : proof:proof -> bool `cost` (111 + (length proof.auditPath * 420 + 4 + (auditPathMaxLength * 420 - length proof.auditPath * 420)) + 25) let verifyAuditPath' proof = // 14 let! leaf = hashLeaf proof.key proof.value in // 111 Merkle.verify proof.root proof.auditPath (U64.v proof.index) leaf // (length proof.auditPath * 420 + 4) |> inc (auditPathMaxLength * 420 - length proof.auditPath * 420) val verifyAuditPath : proof:proof -> bool `cost` (auditPathMaxLength * 420 + 143) let verifyAuditPath proof = // 3 verifyAuditPath' proof |> (fun x -> x <: bool `cost` (auditPathMaxLength * 420 + 140)) val validateAuditPath: redemption -> result redemption `cost` (auditPathMaxLength * 420 + 151) let validateAuditPath redemption = // 8 let! b = verifyAuditPath redemption.proof in // (auditPathMaxLength * 420 + 143) if b then RT.ok redemption else RT.failw "Invalid audit path" val validateRedemption: redemption -> result redemption `cost` (auditPathMaxLength * 420 + 213) let validateRedemption redemption = // 7 let open RT in ret redemption >>= validateTime // 24 >>= validatePrice // 31 >>= validateAuditPath // (auditPathMaxLength * 420 + 151) (* ------------------------------------------------------------------------------- ========== COMMAND: Issue ==================================================== ------------------------------------------------------------------------------- *) val issueEvent: txSkeleton -> contractId -> sender -> betEvent -> CR.t `cost` 4485 let issueEvent txSkel contractId sender bevent = // 52 let! bullToken = mkBetToken contractId ({ bevent=bevent; position=Bull }) in // 1463 let! bearToken = mkBetToken contractId ({ bevent=bevent; position=Bear }) in // 1463 let! m = TX.getAvailableTokens bevent.collateral txSkel in // 64 let open RT in ret txSkel >>= (TX.safeMint m bullToken >> ofOptionT "No collateral provided") // 64 >>= (TX.safeMint m bearToken >> ofOptionT "No collateral provided") // 64 >>= lockToSender bullToken m sender // 624 >>= lockToSender bearToken m sender // 624 >>= (TX.lockToContract bevent.collateral m contractId >> liftCost) // 64 >>= CR.ofTxSkel // 3 val issue: txSkeleton -> contractId -> sender -> option data -> CR.t `cost` 5361 let issue txSkel contractId sender dict = // 10 let open RT in ret dict >>= parseDict // 15 >>= parseEvent // 851 >>= issueEvent txSkel contractId sender // 4485 (* ------------------------------------------------------------------------------- ========== COMMAND: Redeem ==================================================== ------------------------------------------------------------------------------- *) val redeemRedemption' : (w:wallet) -> txSkeleton -> contractId -> sender -> redemption -> CR.t `cost` (1463 + (1242 + (64 + (0 + 64 + (W.size w * 128 + 192) + 624 + (W.size w * 128 + 192) + 64 + 3))) + 62) let redeemRedemption' w txSkel contractId sender redemption = // 62 let! betToken = mkBetToken contractId redemption.bet in // 1463 let oracleContractId = redemption.bet.bevent.oracleContractId in let attestation = redemption.attestation in let! attestToken = mkAttestToken oracleContractId attestation in // 1242 let! m = TX.getAvailableTokens betToken txSkel in // 64 let open RT in ret txSkel >>= (liftCost << TX.destroy m betToken) // 64 >>= (ofOptionT "Insufficient funds" << TX.fromWallet redemption.bet.bevent.collateral m contractId w) // W.size w * 128 + 192 >>= lockToSender redemption.bet.bevent.collateral m sender // 624 >>= (ofOptionT "Attestation token not found" << TX.fromWallet attestToken 1UL contractId w) // W.size wallet * 128 + 192 >>= (liftCost << TX.lockToContract attestToken 1UL contractId) // 64 >>= CR.ofTxSkel // 3 val redeemRedemption: (w:wallet) -> txSkeleton -> contractId -> sender -> redemption -> CR.t `cost` (W.size w * 256 + 3977) let redeemRedemption w txSkel contractId sender redemption = // 7 redeemRedemption' w txSkel contractId sender redemption |> (fun x -> x <: CR.t `cost` (W.size w * 256 + 3970)) val redeem' : (w:wallet) -> txSkeleton -> contractId -> sender -> option data -> CR.t `cost` (0 + 15 + (auditPathMaxLength * 22 + 1834) + (auditPathMaxLength * 420 + 213) + (W.size w * 256 + 3977) + 13) let redeem' w txSkel contractId sender dict = // 13 let open RT in ret dict >>= parseDict // 15 >>= parseRedemption // (auditPathMaxLength * 22 + 1834) >>= validateRedemption // (auditPathMaxLength * 420 + 213) >>= redeemRedemption w txSkel contractId sender // (W.size w * 256 + 3977) val redeem: (w:wallet) -> txSkeleton -> contractId -> sender -> option data -> CR.t `cost` (auditPathMaxLength * 442 + W.size w * 256 + 6059) let redeem w txSkel contractId sender dict = // 7 redeem' w txSkel contractId sender dict |> (fun x -> x <: CR.t `cost` (auditPathMaxLength * 442 + W.size w * 256 + 6052)) (* ------------------------------------------------------------------------------- ========== COMMAND: Cancel ==================================================== ------------------------------------------------------------------------------- *) val cancelEqualTokens : contractId -> (w : wallet) -> sender -> U64.t -> asset -> asset -> txSkeleton -> betEvent -> txSkeleton `RT.t` (0 + (W.size w * 128 + 192) + 624 + 64 + 64 + 29) let cancelEqualTokens contractId w sender m bullToken bearToken txSkel bevent = // 29 let open RT in ret txSkel >>= (ofOptionT "Insufficient funds" << TX.fromWallet bevent.collateral m contractId w) // W.size w * 128 + 192 >>= lockToSender bevent.collateral m sender // 624 >>= (liftCost << TX.destroy m bullToken) // 64 >>= (liftCost << TX.destroy m bearToken) // 64 val cancelEvent': (w : wallet) -> contractId -> sender -> txSkeleton -> betEvent -> CR.t `cost` (1463 + (1463 + (64 + (64 + (0 + (W.size w * 128 + 192) + 624 + 64 + 64 + 29 + 3)))) + 45) let cancelEvent' w contractId sender txSkel bevent = // 45 let! bullToken = mkBetToken contractId ({ bevent=bevent; position=Bull }) in // 1075 let! bearToken = mkBetToken contractId ({ bevent=bevent; position=Bear }) in // 1075 let! mBull = TX.getAvailableTokens bullToken txSkel in // 64 let! mBear = TX.getAvailableTokens bearToken txSkel in // 64 let open RT in begin if U64.eq mBull mBear then cancelEqualTokens contractId w sender mBull bullToken bearToken txSkel bevent // (0 + (W.size w * 128 + 192) + 624 + 64 + 64 + 29) else "There must be an equal amount of both bull and bear tokens in the transaction" |> incFailw (0 + (W.size w * 128 + 192) + 624 + 64 + 64 + 29) end >>= CR.ofTxSkel // 3 val cancelEvent: (w : wallet) -> contractId -> sender -> txSkeleton -> betEvent -> CR.t `cost` (W.size w * 128 + 4082) let cancelEvent w contractId sender txSkel bevent = // 7 cancelEvent' w contractId sender txSkel bevent |> (fun x -> x <: CR.t `cost` (W.size w * 128 + 4075)) val cancel' : (w : wallet) -> contractId -> sender -> txSkeleton -> option data -> CR.t `cost` (0 + 15 + 851 + (W.size w * 128 + 4082) + 11) let cancel' w contractId sender txSkel dict = // 11 let open RT in ret dict >>= parseDict // 15 >>= parseEvent // 851 >>= cancelEvent w contractId sender txSkel // (W.size w * 128 + 4082) val cancel : (w : wallet) -> contractId -> sender -> txSkeleton -> option data -> CR.t `cost` (W.size w * 128 + 4966) let cancel w contractId sender txSkel dict = // 7 cancel' w contractId sender txSkel dict |> (fun x -> x <: CR.t `cost` (W.size w * 128 + 4959)) (* ------------------------------------------------------------------------------- ========== MAIN =============================================================== ------------------------------------------------------------------------------- *) val main: txSkel : txSkeleton -> context : context -> contractId : contractId -> command : string -> sender : sender -> messageBody : option data -> w : wallet -> state : option data -> CR.t `cost` ( match command with | "Issue" -> 5361 + 9 | "Redeem" -> auditPathMaxLength * 442 + W.size w * 256 + 6059 + 9 | "Cancel" -> W.size w * 128 + 4966 + 9 | _ -> 9) let main txSkel context contractId command sender messageBody w state = // 9 match command with | "Issue" -> issue txSkel contractId sender messageBody // 5364 <: CR.t `cost` ( match command with | "Issue" -> 5361 | "Redeem" -> auditPathMaxLength * 442 + W.size w * 256 + 6059 | "Cancel" -> W.size w * 128 + 4966 | _ -> 0) | "Redeem" -> redeem w txSkel contractId sender messageBody // auditPathMaxLength * 442 + W.size w * 256 + 6064 | "Cancel" -> cancel w contractId sender txSkel messageBody // W.size w * 128 + 4971 | _ -> RT.failw "Unsupported command" val cf: txSkel : txSkeleton -> context : context -> command : string -> sender : sender -> messageBody: option data -> w : wallet -> state : option data -> nat `cost` 17 let cf _ _ command _ _ w _ = (( match command with | "Issue" -> 5361 + 9 | "Redeem" -> auditPathMaxLength * 442 + W.size w * 256 + 6059 + 9 | "Cancel" -> W.size w * 128 + 4966 + 9 | _ -> 9 ) <: nat) |> ret