:: Standard input/output functions. :: :: These are all asynchronous computations, which means they produce a :: form:(async A) for some type A. You can always tell what they :: produce by checking their first three lines. :: :: Functions with the word "raw" in their name are for internal use :: only because they carry a high salmonella risk. More specifcally, :: improper use of them may result in side effects that the tapp :: runtime doesn't know about and can't undo in case the transaction :: fails. :: /- tapp-sur=tapp /+ async |* [poke-data=mold out-peer-data=mold] =/ tapp-sur (tapp-sur poke-data out-peer-data) =, card=card:tapp-sur =, sign=sign:tapp-sur =, contract=contract:tapp-sur =+ (async sign card contract) |% :: :: Raw power :: ++ send-raw-card |= =card =/ m (async ,~) ^- form:m |= =async-input [[card]~ ~ ~ %done ~] :: :: Add or remove a contract :: ++ set-raw-contract |= [add=? =contract] =/ m (async ,~) ^- form:m |= async-input [~ ~ (silt [add contract]~) %done ~] :: :: Send effect on current bone :: ++ send-effect |= =card =/ m (async ,~) ^- form:m ;< =bone bind:m |= =async-input [~ ~ ~ %done ost.bowl.async-input] (send-effect-on-bone bone card) :: :: Send effect on particular bone :: ++ send-effect-on-bone |= [=bone =card] =/ m (async ,~) ^- form:m |= async-input [~ [bone card]~ ~ %done ~] :: :: ---- :: :: HTTP requests :: ++ send-hiss |= =hiss:eyre =/ m (async ,~) ^- form:m ;< ~ bind:m (send-raw-card %hiss / ~ %httr %hiss hiss) (set-raw-contract & %hiss ~) :: :: Wait until we get an HTTP response :: ++ take-sigh-raw =/ m (async ,httr:eyre) ^- form:m |= =async-input :^ ~ ~ ~ ?~ in.async-input [%wait ~] ?. ?=(%sigh -.sign.u.in.async-input) [%fail %expected-sigh >got=-.sign.u.in.async-input< ~] [%done httr.sign.u.in.async-input] :: :: Wait until we get an HTTP response and unset contract :: ++ take-sigh =/ m (async ,httr:eyre) ^- form:m ;< =httr:eyre bind:m take-sigh-raw ;< ~ bind:m (set-raw-contract | %hiss ~) (pure:m httr) :: :: Extract body from raw httr :: ++ extract-httr-body |= =httr:eyre =/ m (async ,cord) ^- form:m ?. =(2 (div p.httr 100)) (async-fail %httr-error >p.httr< >+.httr< ~) ?~ r.httr (async-fail %expected-httr-body >httr< ~) (pure:m q.u.r.httr) :: :: Parse cord to json :: ++ parse-json |= =cord =/ m (async ,json) ^- form:m =/ json=(unit json) (de-json:html cord) ?~ json (async-fail %json-parse-error ~) (pure:m u.json) :: :: Fetch json at given url :: ++ fetch-json |= url=tape =/ m (async ,json) ^- form:m =/ =hiss:eyre :* purl=(scan url auri:de-purl:html) meth=%get math=~ body=~ == ;< ~ bind:m (send-hiss hiss) ;< =httr:eyre bind:m take-sigh ;< =cord bind:m (extract-httr-body httr) (parse-json cord) :: :: ---- :: :: Time is what keeps everything from happening at once :: ++ get-time =/ m (async ,@da) ^- form:m |= =async-input [~ ~ ~ %done now.bowl.async-input] :: :: Set a timer :: ++ send-wait |= at=@da =/ m (async ,~) ^- form:m ;< ~ bind:m (send-raw-card %wait /note/(scot %da at) at) (set-raw-contract & %wait at) :: :: Wait until we get a wake event :: ++ take-wake-raw =/ m (async ,@da) ^- form:m |= =async-input :^ ~ ~ ~ ?~ in.async-input [%wait ~] ?. ?=(%wake -.sign.u.in.async-input) [%fail %expected-wake >got=-.sign.u.in.async-input< ~] ?~ wire.u.in.async-input [%fail %expected-wake-time ~] =/ at=(unit @da) (slaw %da i.wire.u.in.async-input) ?~ at [%fail %expected-wake-time-da >wire< ~] [%done u.at] :: :: Wait until we get a wake event and unset contract :: ++ take-wake =/ m (async ,~) ^- form:m ;< at=@da bind:m take-wake-raw (set-raw-contract | %wait at) :: :: Wait until time :: ++ wait |= until=@da =/ m (async ,~) ^- form:m ;< ~ bind:m (send-wait until) take-wake :: :: Wait until time then start new computation :: ++ wait-effect |= until=@da =/ m (async ,~) ^- form:m (send-effect %wait /effect/(scot %da until) until) :: :: Cancel computation if not done by time :: ++ set-timeout |* computation-result=mold =/ m (async ,computation-result) |= [when=@da computation=form:m] ^- form:m ;< ~ bind:m (send-wait when) |= =async-input =* loop $ ?: ?& ?=([~ * %wake *] in.async-input) =(/(scot %da when) wire.u.in.async-input) == [~ ~ (silt [| %wait when]~) %fail %async-timeout ~] =/ c-res (computation async-input) ?. ?=(%cont -.next.c-res) c-res c-res(self.next ..loop(computation self.next.c-res)) :: :: ---- :: :: Apps :: ++ poke-app |= [[her=ship app=term] =poke-data] =/ m (async ,~) ^- form:m (send-effect %poke / [her app] poke-data) :: ++ peer-app |= [[her=ship app=term] =path] =/ m (async ,~) ^- form:m =/ =wire (weld /(scot %p her)/[app] path) (send-effect %peer wire [her app] path) :: ++ pull-app |= [[her=ship app=term] =path] =/ m (async ,~) ^- form:m =/ =wire (weld /(scot %p her)/[app] path) (send-effect %pull wire [her app] ~) :: :: ---- :: :: Handle subscriptions :: :: Get bones at particular path; for internal use only :: ++ get-bones-on-path |= =the=path =/ m (async ,(list bone)) ^- form:m |= =async-input :^ ~ ~ ~ :- %done %+ murn ~(tap by sup.bowl.async-input) |= [ost=bone her=ship =sub=path] ^- (unit bone) ?. =(the-path sub-path) ~ `ost :: :: Give a result to subscribers on particular path :: ++ give-result |= [=path =out-peer-data] =/ m (async ,~) ^- form:m ;< bones=(list bone) bind:m (get-bones-on-path path) |- ^- form:m =* loop $ ?~ bones (pure:m ~) ;< ~ bind:m (send-effect-on-bone i.bones %diff out-peer-data) loop(bones t.bones) --