:: claz: command line azimuth, for the power-user :: /- sole-sur=sole /+ sole-lib=sole /= response-mark /: /===/mar/json/rpc/response /!noun/ :: =, azimuth =, ethereum =, rpc =, key :: |% ++ state $: cli=shell inp=in-progress == :: :: state & commands :: ++ shell $: id=bone say=sole-share:sole-sur == :: ++ command $% [%generate =path =network as=address =batch] == :: ++ network $? %main %ropsten %fake [%other id=@] == :: ++ batch $~ [%deed '{}'] $% :: %single: execute a single ecliptic function call :: [%single =call] :: %deed: deed ships based on json, assumes spawnable :: [%deed deeds-json=cord] :: %invites: sendPoint for every ship in ship,ticket,owner file :: :: to generate such a file, try |claz-invites ~star 1 10 %/out/txt :: [%invites as-who=ship file=path] :: %lock-prep: prepare for lockup by transfering ships to the ceremony address :: [%lock-prep what=(list ship)] :: %lock: put ships into lockup for the target address :: [%lock how=?(%spawn %transfer) what=(list ship) to=address =lockup] :: %more: multiple batches sequentially :: [%more batches=(list batch)] == :: ++ lockup $% [%linear windup-years=@ud unlock-years=@ud] [%conditional [b1=@ud b2=@ud b3=@ud] unlock-years-per-batch=@ud] == :: ++ rights $: own=address manage=(unit address) voting=(unit address) transfer=(unit address) spawn=(unit address) net=(unit [crypt=@ux auth=@ux]) == :: ++ call $% [%create-galaxy gal=ship to=address] [%spawn who=ship to=address] [%configure-keys who=ship crypt=@ auth=@] [%set-management-proxy who=ship proxy=address] [%set-voting-proxy who=ship proxy=address] [%set-spawn-proxy who=ship proxy=address] [%transfer-ship who=ship to=address] [%set-transfer-proxy who=ship proxy=address] [%adopt who=ship] :: [%send-point as=ship point=ship to=address] == :: :: internal types :: +$ rpc-result [id=@t res=@t] :: :: monadic structures :: :: in-progress: monad currently in progress :: ++ in-progress %- unit $% [%command command=eval-form:eval:null-glad] == :: :: null-glad: monad that produces nothing, "just effects" :: ++ null-glad (glad ,~) :: :: glad-input: ~ for initialization, value for node response :: ++ glad-input (unit response:rpc:jstd) :: :: glad-output-raw: moves + intermediate monad state/result :: ++ glad-output-raw |* a=mold $~ [~ %done *a] $: moves=(list move) $= next $% [%wait ~] [%cont self=(glad-form-raw a)] [%fail err=tang] [%done value=a] == == :: :: glad-form-raw: shape of monad function :: ++ glad-form-raw |* a=mold $-(glad-input (glad-output-raw a)) :: :: glad-fail: procudes failure result :: ++ glad-fail |= err=tang |= glad-input [~ %fail err] :: :: glad: monad object for monads that produce moves at intermediate steps :: ++ glad |* a=mold |% ++ output (glad-output-raw a) ++ form (glad-form-raw a) :: :: pure: produce intermediate result :: ++ pure |= arg=a ^- form |= glad-input [~ %done arg] :: :: bind: run m-b until it's done. once done, call fun with its result :: ++ bind |* b=mold |= [m-b=(glad-form-raw b) fun=$-(b form)] ^- form |= input=glad-input =/ b-res=(glad-output-raw b) (m-b input) ^- output :- moves.b-res ?- -.next.b-res %wait [%wait ~] %cont [%cont ..$(m-b self.next.b-res)] %fail [%fail err.next.b-res] %done [%cont (fun value.next.b-res)] == :: :: eval: call take with the latest input to kick monad object into action :: ++ eval |% +$ eval-form $: =form == :: :: from-form: eval-form from form :: ++ from-form |= =form ^- eval-form form :: :: eval-result: how far +take got :: +$ eval-result $% [%next ~] [%fail err=tang] [%done value=a] == :: :: take: run the monad operations as far as they can go right now :: ++ take =| moves=(list move) |= [=eval-form =our=wire =glad-input] ^- [[(list move) =eval-result] _eval-form] :: run the current function :: =/ =output (form.eval-form glad-input) :: add moves :: =. moves (weld moves moves.output) :: case-wise handle next steps :: ?- -.next.output %wait [[moves %next ~] eval-form] %fail [[moves %fail err.next.output] eval-form] %done [[moves %done value.next.output] eval-form] :: %cont :: recurse to run continuation (next function in monad), :: which is always started off with "initialization" input :: %_ $ form.eval-form self.next.output glad-input ~ == == -- -- :: :: effects :: ++ move (pair bone card) ++ card $% [%request wire =request:http =outbound-config:iris] [%info wire desk nori:clay] [%rest wire @da] [%wait wire @da] == :: :: constants :: ++ azimuth 0x223c.067f.8cf2.8ae1.73ee.5caf.ea60.ca44.c335.fecb ++ ecliptic 0x6ac0.7b7c.4601.b5ce.11de.8dfe.6335.b871.c7c4.dd4d ++ delegated-sending 0xf790.8ab1.f1e3.52f8.3c5e.bc75.051c.0565.aeae.a5fb -- :: |_ [=bowl:gall state] ++ this . :: :: entrypoints :: ++ prep |= old=(unit *) ^- (quip move _this) [~ ..prep] :: ++ poke-noun |= =command ^- (quip move _this) :: create active monad, store in state :: =. inp %- some :- %command %- from-form:eval:null-glad (deal-with-command command) :: kick off monad :: (take-command-sigh / ~) :: ++ sigh-tang-nonce |= [=wire =tang] ^- (quip move _this) =. tang [leaf+"claz failed" tang] [~ (fail-command tang)] :: ++ sigh-json-rpc-response-command |= [=wire =response:rpc:jstd] ^- (quip move _this) (take-command-sigh wire `response) :: ++ http-response-command |= [=wire =client-response:iris] ^- (quip move _this) ?. ?=(%finished -.client-response) ~& 'downloading...' `this ?~ full-file.client-response ~& 'no data' `this =/ jon=(unit json) (de-json:html q.data.u.full-file.client-response) ?~ jon ~& 'failed to parse response as json' `this =/ =response:rpc:jstd (json:grab:response-mark u.jon) (take-command-sigh wire `response) :: ++ take-command-sigh |= [=wire response=glad-input] ^- (quip move _this) :: we expect this to be called only if we have an in-progress monad :: ?~ inp ~|(%no-in-progress !!) :: ?. ?=(%command -.u.inp) ::NOTE mint-vain rn :: ~|([%unexpected-response -.u.inp] !!) :: kick in-progress monad with response, updating it with the next callable :: it spits out :: =/ m null-glad =^ r=[moves=(list move) =eval-result:eval:m] command.u.inp (take:eval:m command.u.inp wire response) :- moves.r :: continue depending on the eval result :: ?- -.eval-result.r :: not done, don't change app state further :: %next this :: failed, clean & update app state :: %fail (fail-command err.eval-result.r) :: succeeded, finalize & update app state :: %done (done-command value.eval-result.r) == :: :: monadic helpers :: :: fail-command: handle fail of nonce-fetching monad :: ++ fail-command |= err=tang ^+ this %- (slog [leaf+"command processing failed" err]) this(inp ~) :: :: done-command: handle result of nonce-fetching monad :: ++ done-command |= ~ ^+ this ~& %command-done this(inp ~) :: :: just-do: emit effects from monad without further processing :: ++ just-do |= =move ^- form:null-glad |= glad-input [[move ~] %done ~] :: :: get-next-nonce: monad function for fetching a nonce :: ++ get-next-nonce |= for=address =/ m (glad ,@ud) ^- form:m ;< =json bind:m %+ do-request-expect-json-result `'some-id' ^- request [%eth-get-transaction-count for] ^- form:m ?. ?=(%s -.json) (glad-fail [%leaf "weird nonce json response"]~) %- pure:m (rash p.json ;~(pfix (jest '0x') hex)) :: ++ do-json-request |= =json %+ do-hiss %json-rpc-response ^- hiss:eyre %+ json-request ::TODO vary per network (need (de-purl:html 'http://eth-mainnet.urbit.org:8545')) json :: ++ do-request |= [rid=(unit @t) =request] %- do-json-request (request-to-json rid request) :: ++ do-hiss |= [=mark =hiss:eyre] ^- form:null-glad |= glad-input ^- output:null-glad =- [[[ost.bowl -] ~] %done ~] ::TODO wire in sample? [%request /command (hiss-to-request:html hiss) *outbound-config:iris] :: ++ expect-response =/ m (glad response:rpc:jstd) ^- form:m |= in=glad-input ?~ in [~ %wait ~] [~ %done u.in] :: ++ do-request-expect-json-result |= [rid=(unit @) =request] =/ m (glad json) ;< ~ bind:m (do-request rid request) ;< =response:rpc:jstd bind:m expect-response ?. ?=(%result -.response) (glad-fail [%leaf "json result is unexpected ${(trip -.response)}"]~) (pure:m res.response) :: ++ do-read-expect-result |= [to=address =call-data] =/ m (glad ,[id=@t res=@t]) ;< ~ bind:m %- do-json-request (read-request `'' to call-data) ;< =response:rpc:jstd bind:m expect-response ?: ?& ?=(%result -.response) ?=(%s -.res.response) == (pure:m [id p.res]:response) (glad-fail ~[leaf+"unexpected result" >response<]) :: ++ do-batch-read-expect-results |= reqs=(list proto-read-request) =/ m (glad (list ,rpc-result)) ^- form:m ;< ~ bind:m %- do-json-request (batch-read-request reqs) ;< =response:rpc:jstd bind:m expect-response ?. ?=(%batch -.response) (glad-fail ~[leaf+"not a batch response" >response<]) =+ ^- [res=(list response:rpc:jstd) bad=(list response:rpc:jstd)] %+ skid bas.response |=([a=@tas *] =(%result a)) ?. =(~ bad) (glad-fail ~[leaf+"unexpected responses in batch" >bad<]) %- pure:m %+ turn res |= =response:rpc:jstd ?> ?=(%result -.response) ?> ?=(%s -.res.response) [id p.res]:response :: :: chain state checks :: ++ run-checks |= =command =/ m null-glad ^- form:m ?. ?& ::NOTE ?=(%generate -.command) ?=(%invites -.batch.command) == (pure:m ~) (check-invites +.batch.command) :: ++ check-invites |= [as-who=ship file=path] =/ m null-glad =/ friends=(list [=ship @q =address]) (read-invites file) ;< ~ bind:m %- are-available (turn friends head) %+ has-invites-for as-who (turn friends head) :: ++ are-available |= ships=(list ship) =/ m null-glad ^- form:m ;< responses=(list rpc-result) bind:m %- do-batch-read-expect-results %+ turn ships |= =ship ^- proto-read-request :+ `(scot %p ship) azimuth (rights:cal ship) =/ taken=(list ship) %+ murn responses |= rpc-result ^- (unit ship) =/ rights=[owner=address *] %+ decode-results res ::NOTE using +reap nest-fails [%address %address %address %address %address ~] ?: =(0x0 owner.rights) ~ `(slav %p id) ^- form:m ?: =(~ taken) (pure:m ~) %- glad-fail :~ leaf+"some ships already taken:" >taken< == :: ++ has-invites-for |= [as=ship ships=(list ship)] =/ m null-glad ^- form:m =/ counts=(map ship @ud) %+ roll ships |= [s=ship counts=(map ship @ud)] =+ p=(^sein:title s) %+ ~(put by counts) p +((~(gut by counts) p 0)) ;< pool=@ud bind:m ;< rpc-result bind:(glad ,@ud) %+ do-read-expect-result delegated-sending (get-pool:cal as) %- pure:(glad ,@ud) (decode-results res [%uint]~) ;< responses=(list rpc-result) bind:m =/ n (glad ,(list rpc-result)) ^- form:n %- do-batch-read-expect-results %+ turn ~(tap by counts) |= [=ship @ud] ^- proto-read-request :+ `(scot %p ship) delegated-sending (pools:cal pool ship) =/ missing=(list [star=ship have=@ud needed=@ud]) %+ murn responses |= rpc-result ^- (unit [ship @ud @ud]) =/ =ship (slav %p id) =/ pool-size=@ud (decode-results res [%uint]~) =/ need=@ud (~(got by counts) ship) ?: (gte pool-size need) ~ `[ship pool-size need] ?: =(~ missing) (pure:m ~) %- glad-fail :~ leaf+"not enough invites from stars:" >missing< == :: :: input file reading :: ++ read-invites |= file=path ^- (list [=ship ticket=@q =address]) =+ txt=.^((list cord) %cx file) %+ murn txt |= line=cord ^- (unit [ship @q address]) ?: =('' line) ~ %- some ~| line %+ rash line ;~ (glue com) ;~(pfix sig fed:ag) ;~(pfix sig feq:ag) ;~(pfix (jest '0x') hex) == :: :: transaction generation logic :: ++ deal-with-command |= =command =/ m null-glad ^- form:m ;< ~ bind:m (run-checks command) ;< nonce=@ud bind:m (get-next-nonce as.command) %- just-do ?- -.command %generate %+ write-file-transactions path.command (batch-to-transactions nonce [network as batch]:command) == :: ++ batch-to-transactions |= [nonce=@ud =network as=address =batch] ^- (list transaction) ?- -.batch %single [(single nonce network as +.batch) ~] %deed (deed nonce network as +.batch) %invites (invites nonce network as +.batch) %lock-prep (lock-prep nonce network as +.batch) %lock (lock nonce network as +.batch) :: %more =| txs=(list transaction) =* batches batches.batch |- ?~ batches txs =/ new-txs=(list transaction) ^$(batch i.batches) %_ $ txs (weld txs new-txs) nonce (add nonce (lent new-txs)) batches t.batches == == :: ++ tape-to-ux |= t=tape (scan t zero-ux) :: ++ zero-ux ;~(pfix (jest '0x') hex) :: ++ write-file-transactions |= [pax=path tox=(list transaction)] ^- move ?> ?=([@ desk @ *] pax) :* ost.bowl %info (weld /write pax) :: our.bowl `desk`i.t.pax =- &+[t.t.t.pax -]~ =/ y .^(arch %cy pax) ?~ fil.y ins+eth-txs+!>(tox) mut+eth-txs+!>(tox) == :: ++ do ::TODO maybe reconsider encode-call interface, if we end up wanting @ux :: as or more often than we want tapes |= [=network nonce=@ud to=address dat=$@(@ux tape)] ^- transaction :* nonce 8.000.000.000 ::TODO global config 600.000 ::TODO global config to 0 `@`?@(dat dat (tape-to-ux dat)) ?- network %main 0x1 %ropsten 0x3 %fake `@ux``@`1.337 [%other *] id.network == == :: ++ single |= [nonce=@ud =network as=address =call] ^- transaction =- (do network nonce contract data) ^- [contract=address data=tape] ::TODO =; :- ?+ -.call ecliptic %send-point delegated-sending == ?- -.call %create-galaxy (create-galaxy:dat +.call) %spawn (spawn:dat +.call) %configure-keys (configure-keys:dat +.call) %set-management-proxy (set-management-proxy:dat +.call) %set-voting-proxy (set-voting-proxy:dat +.call) %set-spawn-proxy (set-spawn-proxy:dat +.call) %transfer-ship (transfer-ship:dat +.call) %set-transfer-proxy (set-transfer-proxy:dat +.call) %adopt (adopt:dat +.call) :: %send-point (send-point:dat +.call) == :: ++ deed |= [nonce=@ud =network as=address deeds-json=cord] ^- (list transaction) =/ deeds=(list [=ship rights]) (parse-registration deeds-json) ::TODO split per spawn proxy =| txs=(list transaction) |^ :: $ ?~ deeds (flop txs) =* deed i.deeds =. txs ?. ?=(%czar (clan:title ship.deed)) %- do-here (spawn:dat ship.deed as) ~| %galaxy-held-by-ceremony ?> =(0x740d.6d74.1711.163d.3fca.cecf.1f11.b867.9a7c.7964 as) ~& [%assuming-galaxy-owned-by-ceremony ship.deed] txs =? txs ?=(^ net.deed) %- do-here (configure-keys:dat [ship u.net]:deed) =? txs ?=(^ manage.deed) %- do-here (set-management-proxy:dat [ship u.manage]:deed) =? txs ?=(^ voting.deed) %- do-here (set-voting-proxy:dat [ship u.voting]:deed) =? txs ?=(^ spawn.deed) %- do-here (set-spawn-proxy:dat [ship u.spawn]:deed) =. txs %- do-here (transfer-ship:dat [ship own]:deed) $(deeds t.deeds) :: ::TODO maybe-do, take dat gat and unit argument ++ do-here |= dat=tape :_ txs (do network (add nonce (lent txs)) ecliptic dat) -- :: ++ invites |= [nonce=@ud =network as=address as-who=ship file=path] ^- (list transaction) =/ friends=(list [=ship @q =address]) (read-invites file) =| txs=(list transaction) |- ?~ friends (flop txs) =* friend i.friends =; tx=transaction $(txs [tx txs], friends t.friends) %- do :* network (add nonce (lent txs)) delegated-sending (send-point:dat as-who [ship address]:friend) == :: ++ parse-registration |= reg=cord ^- (list [=ship rights]) ~| %registration-json-insane =+ jon=(need (de-json:html reg)) ~| %registration-json-invalid ?> ?=(%o -.jon) =. p.jon (~(del by p.jon) 'idCode') %+ turn ~(tap by p.jon) |= [who=@t deed=json] ^- [ship rights] :- (rash who dum:ag) ?> ?=(%a -.deed) :: array has contents of: :: [owner, transfer, spawn, mgmt, delegate, auth_key, crypt_key] ~| [%registration-incomplete deed (lent p.deed)] ?> =(7 (lent p.deed)) =< :* (. 0 %address) :: owner (. 3 %unit-address) :: management (. 4 %unit-address) :: voting (. 1 %unit-address) :: transfer (. 2 %unit-address) :: spawn (both (. 6 %key) (. 5 %key)) :: crypt, auth == |* [i=@ud what=?(%address %unit-address %key)] =+ j=(snag i p.deed) ~| [%registration-invalid-value what j] ?> ?=(%s -.j) %+ rash p.j =+ adr=;~(pfix (jest '0x') hex) ?- what %address adr %unit-address ;~(pose (stag ~ adr) (cold ~ (jest ''))) %key ;~(pose (stag ~ hex) (cold ~ (jest ''))) == :: ++ lock-prep |= [nonce=@ud =network as=address what=(list ship)] ^- (list transaction) =| txs=(list transaction) |^ ?~ what (flop txs) =. txs %- do-here (spawn:dat i.what as) =. txs %- do-here %+ transfer-ship:dat i.what ~& %assuming-lockup-done-by-ceremony 0x740d.6d74.1711.163d.3fca.cecf.1f11.b867.9a7c.7964 $(what t.what) ++ do-here |= dat=tape :_ txs (do network (add nonce (lent txs)) ecliptic dat) -- :: ::TODO support distinguishing/switching between usable lockup methods :: automagically ++ lock |= $: nonce=@ud =network as=address how=?(%spawn %transfer) what=(list ship) to=address =lockup == ^- (list transaction) :: verify lockup sanity :: ~| %invalid-lockup-ships ?> ?| ?=(%linear -.lockup) =(`@`(lent what) :(add b1.lockup b2.lockup b3.lockup)) == :: expand galaxies into stars :: =. what %- zing %+ turn what |= s=ship ^- (list ship) ?. =(%czar (clan:title s)) [s]~ (turn (gulf 1 255) |=(k=@ud (cat 3 s k))) =/ lockup-contract=address ?- -.lockup %linear 0x86cd.9cd0.992f.0423.1751.e376.1de4.5cec.ea5d.1801 %conditional 0x8c24.1098.c3d3.498f.e126.1421.633f.d579.86d7.4aea == %- flop =| txs=(list transaction) ^+ txs |^ :: registration :: =. txs %+ do-here lockup-contract ?- -.lockup %linear (register-linear to (lent what) +.lockup) %conditional (register-conditional to +.lockup) == :: context-dependent setup :: =. txs ?- how :: %spawn: set spawn proxy of parents :: %spawn ~& %assuming-ceremony-controls-parents =/ parents =- ~(tap in -) %+ roll what |= [s=ship ss=(set ship)] ?> =(%king (clan:title s)) (~(put in ss) (^sein:title s)) |- ?~ parents txs =. txs %+ do-here ecliptic (set-spawn-proxy:dat i.parents lockup-contract) $(parents t.parents) :: :: %transfer: set transfer proxy of stars :: %transfer ~& %assuming-ceremony-controls-stars |- ?~ what txs =. txs %+ do-here ecliptic (set-transfer-proxy:dat i.what lockup-contract) $(what t.what) == :: depositing :: |- ?~ what txs =. txs %+ do-here lockup-contract (deposit:dat to i.what) $(what t.what) ++ do-here |= [contract=address dat=tape] :_ txs (do network (add nonce (lent txs)) contract dat) -- :: ++ register-linear |= [to=address stars=@ud windup-years=@ud unlock-years=@ud] %- register-linear:dat :* to (mul windup-years yer:yo) stars (div (mul unlock-years yer:yo) stars) 1 == :: ++ register-conditional |= [to=address [b1=@ud b2=@ud b3=@ud] unlock-years-per-batch=@ud] %- register-conditional:dat =- [`address`to b1 b2 b3 `@ud`- 1] (div (mul unlock-years-per-batch yer:yo) :(add b1 b2 b3)) :: :: call data generation ::TODO most of these should later be cleaned and go in ++constitution :: ++ dat |% ++ enc |* cal=$-(* call-data) (cork cal encode-call) :: ++ create-galaxy (enc create-galaxy:cal) ++ spawn (enc spawn:cal) ++ configure-keys (enc configure-keys:cal) ++ set-spawn-proxy (enc set-spawn-proxy:cal) ++ transfer-ship (enc transfer-ship:cal) ++ set-management-proxy (enc set-management-proxy:cal) ++ set-voting-proxy (enc set-voting-proxy:cal) ++ set-transfer-proxy (enc set-transfer-proxy:cal) ++ set-dns-domains (enc set-dns-domains:cal) ++ upgrade-to (enc upgrade-to:cal) ++ transfer-ownership (enc transfer-ownership:cal) ++ adopt (enc adopt:cal) :: ++ register-linear (enc register-linear:cal) ++ register-conditional (enc register-conditional:cal) ++ deposit (enc deposit:cal) :: ++ send-point (enc send-point:cal) -- :: ++ cal |% ++ create-galaxy |= [gal=ship to=address] ^- call-data ?> =(%czar (clan:title gal)) :- 'createGalaxy(uint8,address)' ^- (list data) :~ [%uint `@`gal] [%address to] == :: ++ spawn |= [who=ship to=address] ^- call-data ?> ?=(?(%king %duke) (clan:title who)) :- 'spawn(uint32,address)' :~ [%uint `@`who] [%address to] == :: ++ configure-keys |= [who=ship crypt=@ auth=@] ::TODO maybe disable asserts? ?> (lte (met 3 crypt) 32) ?> (lte (met 3 auth) 32) :- 'configureKeys(uint32,bytes32,bytes32,uint32,bool)' :~ [%uint `@`who] [%bytes-n 32^crypt] [%bytes-n 32^auth] [%uint 1] [%bool |] == :: ++ set-management-proxy |= [who=ship proxy=address] ^- call-data :- 'setManagementProxy(uint32,address)' :~ [%uint `@`who] [%address proxy] == :: ++ set-voting-proxy |= [who=ship proxy=address] ^- call-data :- 'setVotingProxy(uint8,address)' :~ [%uint `@`who] [%address proxy] == :: ++ set-spawn-proxy |= [who=ship proxy=address] ^- call-data :- 'setSpawnProxy(uint16,address)' :~ [%uint `@`who] [%address proxy] == :: ++ transfer-ship |= [who=ship to=address] ^- call-data :- 'transferPoint(uint32,address,bool)' :~ [%uint `@`who] [%address to] [%bool |] == :: ++ set-transfer-proxy |= [who=ship proxy=address] ^- call-data :- 'setTransferProxy(uint32,address)' :~ [%uint `@`who] [%address proxy] == :: ++ set-dns-domains |= [pri=tape sec=tape ter=tape] ^- call-data :- 'setDnsDomains(string,string,string)' :~ [%string pri] [%string sec] [%string ter] == :: ++ upgrade-to |= to=address ^- call-data :- 'upgradeTo(address)' :~ [%address to] == :: :: ++ transfer-ownership :: of contract |= to=address ^- call-data :- 'transferOwnership(address)' :~ [%address to] == :: ++ adopt |= who=ship ^- call-data :- 'adopt(uint32)' :~ [%uint `@`who] == :: :: ++ register-linear |= $: to=address windup=@ud stars=@ud rate=@ud rate-unit=@ud == ^- call-data :- 'register(address,uint256,uint16,uint16,uint256)' :~ [%address to] [%uint windup] [%uint stars] [%uint rate] [%uint rate-unit] == :: ++ register-conditional |= $: to=address b1=@ud b2=@ud b3=@ud rate=@ud rate-unit=@ud == ^- call-data :- 'register(address,uint16[],uint16,uint256)' :~ [%address to] [%array ~[uint+b1 uint+b2 uint+b3]] [%uint rate] [%uint rate-unit] == :: ++ deposit |= [to=address star=ship] ^- call-data :- 'deposit(address,uint16)' :~ [%address to] [%uint `@`star] == :: ++ send-point |= [as=ship point=ship to=address] ^- call-data :- 'sendPoint(uint32,uint32,address)' :~ [%uint `@`as] [%uint `@`point] [%address to] == :: :: read calls :: ++ rights |= =ship ^- call-data :- 'rights(uint32)' :~ [%uint `@`ship] == :: ++ get-pool |= =ship ^- call-data :- 'getPool(uint32)' :~ [%uint `@`ship] == :: ++ pools |= [pool=@ud star=ship] ^- call-data :- 'pools(uint32,uint16)' :~ [%uint pool] [%uint `@`star] == -- :: :: ++ peer-sole :: |= =path :: =. id.cli ost.bowl :: TODO... :: :: :: ++ sh :: |_ she=shell :: :: :: :: # %resolve :: +| %resolve :: :: :: ++ sh-done :: :: stores changes to the cli. :: :: :: ^+ +> :: +>(cli she) :: :: :: :: # :: :: # %emitters :: :: # :: :: arms that create outward changes. :: +| %emitters :: :: :: ++ sh-fact :: :: adds a console effect to ++ta's moves. :: :: :: |= fec/sole-effect:sole-sur :: ^+ +> :: +>(moves [[id.she %diff %sole-effect fec] moves]) :: :: :: ++ sh-prod :: :: show prompt :: :: :: :: makes and stores a move to modify the cli :: :: prompt to display the current audience. :: :: :: ^+ . :: %+ sh-fact %pro :: :+ & %talk-line :: ^- tape :: =/ rew/(pair (pair cord cord) audience) :: [['[' ']'] active.she] :: =+ cha=(~(get by bound) q.rew) :: ?^ cha ~[u.cha ' '] :: =+ por=~(ar-prom ar q.rew) :: (weld `tape`[p.p.rew por] `tape`[q.p.rew ' ' ~]) :: :: :: -- --