!::::: :: :: %ford, new execution control !? 164 :::: |= pit/vase => =~ :: structures |% ++ gift gift-ford :: out result <-$ ++ heel path :: functional ending ++ kiss kiss-ford :: in request ->$ ++ move {p/duct q/(mold note gift)} :: local move ++ note :: out request $-> $% $: $c :: to %clay $% {$warp p/sock q/riff} :: == == == :: ++ sign :: in result $<- $% $: $c :: by %clay $% {$writ p/riot} :: == == == :: -- :: |% :: structures ++ axle :: all %ford state $: $2 :: version for update pol/(map ship baby) :: == :: ++ baby :: state by ship $: tad/{p/@ud q/(map @ud task)} :: tasks by number dym/(map duct @ud) :: duct to task number deh/(map @uvH deps) :: depends by hash jav/(map * calx) :: cache == :: ++ bolt :: gonadic edge |* a/$-(* *) :: product clam $: p/cafe :: cache $= q :: $% {$0 p/(set beam) q/a} :: depends+product {$1 p/(set {p/care q/beam r/tang})} :: blocks {$2 p/(set beam) q/tang} :: depends+error == :: == :: :: :: ++ burg :: gonadic rule |* {a/$-(* *) b/$-(* *)} :: from and to $-({c/cafe d/a} (bolt b)) :: :: :: ++ cafe :: live cache $: p/(set calx) :: used q/(map * calx) :: cache r/(map @uvH deps) :: dependss == :: :: :: ++ calm :: cache metadata $: laz/@da :: last accessed dep/(set beam) :: dependencies == :: ++ calx :: concrete cache line $% {$hood p/calm q/(pair beam cage) r/hood} :: compile {$bake p/calm q/(trel mark coin beam) r/(unit vase)} :: load {$slit p/calm q/{p/span q/span} r/span} :: slam type {$slim p/calm q/{p/span q/twig} r/(pair span nock)}:: mint {$slap p/calm q/{p/vase q/twig} r/vase} :: compute {$slam p/calm q/{p/vase q/vase} r/vase} :: compute == :: ++ deps :: depend state $% {$init p/(set beam)} :: given out {$sent p/(set duct) q/(set beam)} :: listener exists {$done $~} :: change seen == :: ++ task :: problem in progress $: nah/duct :: cause {bek/beak kas/silk} :: problem keg/(map (pair term beam) cage) :: block results kig/{p/@ud q/(map @ud {p/care q/beam})} :: blocks == :: ++ gagl (list (pair gage gage)) -- :: |% :: ++ calf :: reduce calx |* sem/* :: a spansystem hack |= cax/calx ?+ sem !! $hood ?>(?=($hood -.cax) r.cax) $bake ?>(?=($bake -.cax) r.cax) $slap ?>(?=($slap -.cax) r.cax) $slam ?>(?=($slam -.cax) r.cax) $slim ?>(?=($slim -.cax) r.cax) $slit ?>(?=($slit -.cax) r.cax) == :: ++ calk :: cache lookup |= a/cafe :: |= {b/@tas c/*} :: ^- {(unit calx) cafe} :: =+ d=(~(get by q.a) [b c]) :: ?~ d [~ a] :: [d a(p (~(put in p.a) u.d))] :: :: :: ++ came :: |= {a/cafe b/calx} :: cache install ^- cafe :: a(q (~(put by q.a) [-.b q.b] b)) :: :: :: ++ faun (flux |=(a/vase [%& %noun a])) :: vase to gage ++ feel (flux |=(a/cage q.a)) :: cage to vase ++ furl :: unwrap gage to cage |= {a/cafe b/gage} ^- (bolt cage) ?- -.b $tabl (flaw a >%bad-marc< ~) $| (flaw a p.b) $& (fine a p.b) == :: ++ fret :: lift error |= a/(bolt gage) ^- (bolt gage) ?. ?=($2 -.q.a) a [p.a [%0 p.q.a `gage`[%| q.q.a]]] :: ++ fine |* {a/cafe b/*} :: bolt from data [p=`cafe`a q=[%0 p=*(set beam) q=b]] :: ++ flaw |= {a/cafe b/tang} :: bolt from error [p=a q=[%2 p=*(set beam) q=b]] :: ++ flag :: beam into deps |* {a/beam b/(bolt)} :: ?: ?=($1 -.q.b) b =. p.q.b (~(put in p.q.b) a) b :: :: ++ flue |=(a/cafe (fine a ~)) :: cafe to empty ++ flux |* a/_* :: bolt lift (fmap) |* {cafe _,.+<.a} (fine +<- (a +<+)) :: ++ lark :: filter arch names |= {wox/$-(knot (unit @)) arc/arch} ^- (map @ knot) %- ~(gas by *(map @ knot)) =| rac/(list (pair @ knot)) |- ^+ rac ?~ dir.arc rac =. rac $(dir.arc l.dir.arc, rac $(dir.arc r.dir.arc)) =+ gib=(wox p.n.dir.arc) ?~(gib rac [[u.gib p.n.dir.arc] rac]) :: ++ tack :: fold path to term |= a/{i/term t/(list term)} ^- term (rap 3 |-([i.a ?~(t.a ~ ['-' $(a t.a)])])) :: ++ tear :: split term =- |=(a/term (rush a (most hep sym))) sym=(cook crip ;~(plug low (star ;~(pose low nud)))) :: ++ za :: per event =| $: $: our/ship :: computation owner hen/duct :: event floor $: now/@da :: event date eny/@ :: unique entropy ska/sley :: system namespace == :: mow/(list move) :: pending actions == :: bay/baby :: all owned state == :: |% ++ abet :: resolve ^- {(list move) baby} [(flop mow) bay] :: ++ apax :: call ^+ ..apax =+ nym=(~(get by dym.bay) hen) ?~ nym :: XX should never ~& [%ford-mystery hen] ..apax =+ tas=(need (~(get by q.tad.bay) u.nym)) amok:~(camo zo [u.nym tas]) :: ++ apex |= kub/bilk ^+ +> =+ num=p.tad.bay ?< (~(has by dym.bay) hen) =: p.tad.bay +(p.tad.bay) dym.bay (~(put by dym.bay) hen num) == ~(exec zo [num `task`[hen kub ~ 0 ~]]) :: ++ axon :: take |= {num/@ud tik/@ud sih/sign} ^+ +> ?- -.+.sih $writ =+ tus=(~(get by q.tad.bay) num) ?~ tus ~& [%ford-lost num] +>.$ (~(resp zo [num u.tus]) tik p.+.sih) == :: ++ axun :: take rev update |= {tea/wire dep/@uvH bem/beam sih/sign} ^+ +> ?- -.+.sih $writ ?~ p.sih +>.$ :: ~& writ+tea =+ dap=(~(got by deh.bay) dep) =- +>.$(mow mow, deh.bay ?~(dop deh.bay (~(put by deh.bay) dep dop))) ^- {dop/$@($~ _dap) mow/_mow} ?- -.dap $done `mow :: writ redundant $init ~|(never-subscribed+dep !!) $sent :- [%done ~] ;: weld (axap dep (~(del in q.dap) bem)) :: cancel outstanding (turn (~(tap in p.dap)) |=(hen/duct [hen %give %news dep])) mow == == == :: ++ axap :: unsubscribe beams |= {dep/@uvH dap/(set beam)} %+ turn (~(tap in dap)) |= bem/beam :^ hen %pass [(scot %p our) (scot %uv dep) (tope bem)] [%c %warp [our p.bem] q.bem ~] :: ++ awap :: get next revision ~% %ford-w ..is ~ |= {dep/@uvH ask/?} ?: =(`@`0 dep) ~&(dep-empty+hen +>.$) ?: =(dep 0vtest) :: upstream testing +>.$(mow ?.(ask mow :_(mow [hen %give %news dep]))) =+ dap=(~(get by deh.bay) dep) ?~ dap ~&(dep-missed+dep +>.$) :: XX ~| !! :: ~& awap+[dep u.dap] ?- -.u.dap $done +>.$(mow ?.(ask mow :_(mow [hen %give %news dep]))) $sent =. p.u.dap ?: ask (~(put in p.u.dap) hen) (~(del in p.u.dap) hen) ?^ p.u.dap +>.$(deh.bay (~(put by deh.bay) dep u.dap)) =. mow (weld (axap dep q.u.dap) mow) +>.$(deh.bay (~(put by deh.bay) dep [%init q.u.dap])) :: $init ?. ask ~&(awap-kill-empty+dep +>.$) :: crash? %_ +>.$ deh.bay (~(put by deh.bay) dep [%sent [hen ~ ~] p.u.dap]) :: mow =< (welp :_(mow (turn (~(tap in p.u.dap)) .))) |= bem/beam :^ hen %pass [(scot %p our) (scot %uv dep) (tope bem)] [%c [%warp [our p.bem] q.bem ~ [%next %z r.bem (flop s.bem)]]] == == :: ++ zo ~% %ford-z ..is ~ |_ {num/@ud task} ++ abet %_(..zo q.tad.bay (~(put by q.tad.bay) num +<+)) ++ amok %_ ..zo q.tad.bay (~(del by q.tad.bay) num) dym.bay (~(del by dym.bay) nah) == ++ camo :: stop requests ^+ . =+ kiz=(~(tap by q.kig) *(list {p/@ud q/{p/care q/beam}})) |- ^+ +> ?~ kiz +> %= $ kiz t.kiz mow :_ mow :- hen :^ %pass [(scot %p our) (scot %ud num) (scot %ud p.i.kiz) ~] %c [%warp [our p.q.q.i.kiz] q.q.q.i.kiz ~] == :: ++ camp :: request a file |= {ren/care bem/beam} ^+ +> %= +> kig [+(p.kig) (~(put by q.kig) p.kig [ren bem])] mow :_ mow :- hen :^ %pass [(scot %p our) (scot %ud num) (scot %ud p.kig) ~] %c ~& >> [%camping ren bem] [%warp [our p.bem] q.bem [~ %sing ren r.bem (flop s.bem)]] == :: ++ clad :: hash dependencies |* hoc/(bolt) ^+ [*@uvH hoc] ?: ?=($1 -.q.hoc) [*@uvH hoc] =^ dep r.p.hoc (daze [p.q r.p]:hoc) [dep hoc] :: ++ clef :: cache a result |* sem/* |* {hoc/(bolt) fun/(burg)} ?- -.q.hoc $2 hoc $1 hoc $0 =^ cux p.hoc ((calk p.hoc) sem q.q.hoc) ?^ cux [p=p.hoc q=[%0 p=dep.p.u.cux q=((calf sem) u.cux)]] =+ nuf=(cope hoc fun) ?- -.q.nuf $2 nuf $1 nuf $0 :: ~& :- %clef-new :: ?+ sem `term`sem :: $hood [%hood (tope &1.q.q.hoc)] :: $bake [%bake `mark`&1.q.q.hoc (tope |2.q.q.hoc)] :: == :- p=(came p.nuf `calx`[sem `calm`[now p.q.nuf] q.q.hoc q.q.nuf]) q=q.nuf == == :: ++ coax !. :: bolt across |* {hoc/(bolt) fun/(burg)} ?- -.q.hoc $0 =+ nuf=$:fun(,.+<- p.hoc) :- p=p.nuf ^= q ?- -.q.nuf $0 [%0 p=(~(uni in p.q.hoc) p.q.nuf) q=[q.q.hoc q.q.nuf]] $1 q.nuf $2 q.nuf == $1 =+ nuf=$:fun(,.+<- p.hoc) :- p=p.nuf ^= q ?- -.q.nuf $0 q.hoc $1 [%1 p=(~(uni in p.q.nuf) p.q.hoc)] $2 q.nuf == $2 hoc == :: ++ cool :: error caption |* {cyt/$@(term (trap tank)) hoc/(bolt)} ?. ?=($2 -.q.hoc) hoc [p=p.hoc q=[%2 p=p.q.hoc q=[?^(cyt *cyt [>`@tas`cyt<]~) q.q.hoc]]] :: ++ cope :: bolt along |* {hoc/(bolt) fun/(burg)} ?- -.q.hoc $1 hoc $2 hoc $0 =+ nuf=(fun p.hoc q.q.hoc) :- p=p.nuf ^= q ?- -.q.nuf $1 q.nuf $2 [%2 p=(~(uni in `_p.q.nuf`p.q.hoc) p.q.nuf) q=q.q.nuf] $0 [%0 p=(~(uni in `_p.q.nuf`p.q.hoc) p.q.nuf) q=q.q.nuf] == == :: ++ coop :: bolt alter |* {hoc/(bolt) fun/$-(cafe (bolt))} ?- -.q.hoc $1 hoc $0 hoc $2 =+ nuf=(fun p.hoc) :- p=p.nuf ^= q ?- -.q.nuf $1 q.nuf $0 [%0 p=(~(uni in `_p.q.nuf`p.q.hoc) p.q.nuf) q=q.q.nuf] $2 =. q.q.nuf (welp q.q.nuf q.q.hoc) [%2 p=(~(uni in `_p.q.nuf`p.q.hoc) p.q.nuf) q=q.q.nuf] == == :: ++ coup :: toon to bolt |= cof/cafe |* {ton/toon fun/$-(* *)} :- p=cof ^= q ?- -.ton $2 [%2 p=*(set beam) q=p.ton] $0 [%0 p=*(set beam) q=(fun p.ton)] $1 :: ~& [%coup-need ((list path) p.ton)] =- ?- -.faw $& :- %1 ^= p %- silt %+ turn p.faw |=(a/{care beam} [-.a +.a *tang]) $| [%2 p=*(set beam) q=p.faw] == ^= faw |- ^- (each (list (pair care beam)) tang) ?~ p.ton [%& ~] =+ nex=$(p.ton t.p.ton) =+ err=|=(a/tape [%| leaf+a ?:(?=($& -.nex) ~ p.nex)]) =+ pax=(path i.p.ton) ?~ pax (err "blocking empty") ?. ?=($c (end 3 1 i.pax)) (err "blocking not clay") =+ ren=((soft care) (rsh 3 1 i.pax)) ?~ ren (err "blocking not care") =+ zis=(tome t.pax) ?~ zis (err "blocking not beam") ?- -.nex $& [%& [u.ren u.zis] p.nex] $| nex == == :: ++ cowl :: each to bolt |= cof/cafe |* {tod/(each * tang) fun/$-(* *)} %+ (coup cof) ?- -.tod $& [%0 p=p.tod] $| [%2 p=p.tod] == fun :: ++ tabl-run :: apply to all elems |= fun/(burg cage gage) |= {cof/cafe gag/gage} ^- (bolt gage) ?. ?=($tabl -.gag) (cope (furl cof gag) fun) %+ cope |- ^- (bolt (list (pair gage gage))) ?~ p.gag (fine cof ~) %. [cof p.gag] ;~ cope ;~ coax |=({cof/cafe {^ q/gage} t/gagl} (fret ^^$(cof cof, gag q))) |=({cof/cafe ^ t/gagl} ^$(cof cof, p.gag t)) == (flux |=({v/gage t/gagl} [[p.i.p.gag v] t])) == (flux |=(rex/gagl [%tabl rex])) :: ++ some-in-map |* fun/(burg knot (unit)) =+ res=_(need [?+(-.q !! $0 q.q)]:*fun) =+ marv=(map knot res) |= {cof/cafe sud/(map knot $~)} ^- (bolt marv) ?~ sud (flue cof) %. [cof sud] ;~ cope ;~ coax |=({cof/cafe _sud} ^$(cof cof, sud l)) |=({cof/cafe _sud} ^$(cof cof, sud r)) |= {cof/cafe {dir/@ta $~} ^} %+ cope (fun cof dir) (flux (lift |*(* [dir +<]))) == %- flux |= {lam/marv ram/marv nod/(unit {knot res})} ?^(nod [u.nod lam ram] (~(uni by lam) ram)) == ++ dash :: process cache |= cof/cafe ^+ +> %_(+> jav.bay q.cof, deh.bay r.cof) :: ++ diff :: diff |= {cof/cafe kas/silk kos/silk} ^- (bolt gage) %. [cof kas kos] ;~ cope ;~ coax |=({cof/cafe p/silk q/silk} (cope (make cof p) furl)) |=({cof/cafe p/silk q/silk} (cope (make cof q) furl)) == |= {cof/cafe cay/cage coy/cage} ^- (bolt gage) ?. =(p.cay p.coy) %+ flaw cof :_ ~ leaf+"diff on data of different marks: {(trip p.cay)} {(trip p.coy)}" ?: =(q.q.cay q.q.coy) (fine cof [%& %null [%atom %n ~] ~]) :: %+ cope (fang cof p.cay) |= {cof/cafe pro/vase} ?. (slab %grad p.pro) (flaw cof leaf+"no ++grad" ~) =+ gar=(slap pro [%limb %grad]) ?@ q.gar =+ for=((sand %tas) q.gar) ?~ for (flaw cof leaf+"bad mark ++grad" ~) %+ make cof ^- silk :+ %diff [%cast u.for [%$ cay]] [%cast u.for [%$ coy]] ?. (slab %form p.gar) (flaw cof leaf+"no ++form:grad" ~) ?. (slab %diff p.gar) (flaw cof leaf+"no ++diff:grad" ~) %+ cope (keel cof pro [[%& 6]~ q.cay]~) |= {cof/cafe pox/vase} %+ cope %^ maul cof (slap (slap pox [%limb %grad]) [%limb %diff]) q.coy |= {cof/cafe dif/vase} =+ for=((soft @tas) q:(slap gar [%limb %form])) ?~ for (flaw cof leaf+"bad ++form:grad" ~) (fine cof [%& u.for dif]) == :: ++ daze :: remember depends |= {dep/(set beam) deh/(map @uvH deps)} ^+ [*@uvH deh.bay] =. dep =< (silt (skip (~(tap in dep)) .)) |= dap/beam ^- ? ?~ s.dap | =>(.(s.dap t.s.dap) |((~(has in dep) dap) $)) ?~ dep [0v0 deh] =+ hap=(sham dep) ?: (~(has by deh) hap) [hap deh] [hap (~(put by deh) hap [%init dep])] :: ++ exec :: execute app ^+ ..zo ?: !=(~ q.kig) ..zo =+ bot=(make-norm-bek [~ jav.bay deh.bay] kas) =^ dep bot (clad bot) =. ..exec (dash p.bot) ?- -.q.bot $0 amok:(expo [%made dep q.q.bot]) $2 amok:(expo [%made dep %| q.q.bot]) $1 =+ zuk=(~(tap by p.q.bot) ~) =< abet |- ^+ ..exec ?~ zuk ..exec $(zuk t.zuk, ..exec `_..exec`(camp p.i.zuk q.i.zuk)) == :: ++ expo :: return gift |= gef/gift %_(+> mow :_(mow [hen %give gef])) :: ++ fade :: compile to hood |= {cof/cafe for/mark bem/beam} ^- (bolt hood) (fape cof for bem bem) :: ++ fape :: XX compile at path |= {cof/cafe for/mark bem/beam bim/beam} ^- (bolt hood) %+ cool |.(leaf+"ford: fade {<[(tope bem)]>}") %+ cope (liar cof %*(. bem s [for s.bem])) |= {cof/cafe cay/cage} %+ (clef %hood) (fine cof bim(r [%ud 0]) cay) ^- (burg (pair beam cage) hood) |= {cof/cafe bum/beam cay/cage} ~| fade+(tope bum) =+ rul=(fair bum) ?. ?=(@ q.q.cay) (flaw cof ~) =+ vex=((full rul) [[1 1] (trip q.q.cay)]) ?~ q.vex (flaw cof [%leaf "syntax error: {} {}"] ~) (fine cof p.u.q.vex) :: ++ fame :: beam with - as / |= {cof/cafe bem/beam} ^- (bolt beam) %+ cope ?~ s.bem (flue cof) =+ opt=`(list term)`(fall (tear i.s.bem) ~) ?~ opt (flue cof) |- ^- (bolt (unit beam)) =. i.s.bem (tack opt) %+ cope (lima cof %hoon many+~ bem) |= {cof/cafe vax/(unit vase)} ^- (bolt (unit beam)) ?^ vax (fine cof `bem) ?~ t.opt (flue cof) %+ cope ^$(opt t.opt, t.s.bem :_(t.s.bem i.opt), cof cof) |= {cof/cafe bem/(unit beam)} ^- (bolt (unit beam)) ?^ bem (fine cof bem) ^$(opt :_(t.t.opt (tack i.opt i.t.opt ~)), cof cof) (flux |=(a/(unit beam) (fall a bem))) :: ++ fang :: protocol door |= {cof/cafe for/mark} ^- (bolt vase) (lear cof bek /[for]/mar) :: ++ fair :: hood parsing rule |= bem/beam ?> ?=({$ud $0} r.bem) :: XX sentinel =+ vez=(vang & (tope bem)) =< hood |% ++ case %+ sear |= a/coin ?. ?=({$$ ?($da $ud $tas) *} a) ~ [~ u=(^case a)] nuck:so :: ++ hath (sear plex:vez (stag %conl poor:vez)) :: hood path ++ have (sear tome ;~(pfix fas hath)) :: hood beam ++ hood %+ ifix [gay gay] ;~ plug ;~ pose (ifix [;~(plug fas wut gap) gap] dem) (easy zuse) == :: ;~ pose (ifix [;~(plug fas hep gap) gap] (most ;~(plug com gaw) hoof)) (easy ~) == :: ;~ pose (ifix [;~(plug fas lus gap) gap] (most ;~(plug com gaw) hoof)) (easy ~) == :: (star ;~(sfix horn gap)) (most gap hoop) == :: ++ hoof %+ cook |=(a/^hoof a) ;~ plug sym ;~ pose %+ stag ~ ;~(plug ;~(pfix fas case) ;~(pfix ;~(plug fas sig) fed:ag)) (easy ~) == == :: ++ hoop ;~ pose (stag %| ;~(pfix ;~(plug fas fas gap) have)) (stag %& tall:vez) == :: ++ horn =< apex =| tol/? |% ++ apex %+ knee *^horn |. ~+ ;~ pfix fas ;~ pose (stag %ape ;~(pfix sig ape:read)) (stag %arg ;~(pfix buc ape:read)) (stag %alt ;~(pfix bar alt:read)) (stag %dep ;~(pfix hax day:read)) (stag %dub ;~(pfix tis dub:read)) (stag %fan ;~(pfix dot fan:read)) (stag %for ;~(pfix com for:read)) (stag %hel ;~(pfix cen day:read)) (stag %lin ;~(pfix pam lin:read)) (stag %man ;~(pfix tar man:read)) (stag %nap ;~(pfix cab day:read)) (stag %now ;~(pfix pat day:read)) (stag %saw ;~(pfix sem saw:read)) (stag %see ;~(pfix col see:read)) (stag %sic ;~(pfix ket sic:read)) (stag %toy ;~(sfix toy:read fas)) == == :: ++ rail |* {wid/rule tal/rule} ?. tol wid ;~(pose wid tal) :: ++ read |% ++ ape %+ rail (ifix [sel ser] (stag %conp (most ace wide:vez))) ;~(pfix gap tall:vez) :: ++ alt %+ rail (ifix [pel per] (most ace day)) ;~(sfix (star day) gap duz) :: ++ day %+ rail apex(tol |) ;~(pfix gap apex) :: ++ dub %+ rail ;~(plug sym ;~(pfix tis day)) ;~(pfix gap ;~(plug sym day)) :: ++ fan %+ rail fail ;~(sfix (star day) gap duz) :: ++ for %+ rail fail =- ;~(sfix (star -) gap duz) ;~(pfix gap fas ;~(plug hath day)) :: ++ lin %+ rail ;~(plug (plus ;~(sfix sym pam)) day) =+ (cook |=(a/term [a ~]) sym) ;~(pfix gap ;~(plug - day)) :: ++ man %+ rail fail %+ cook ~(gas by *(map term ^horn)) =< ;~(sfix (star (sear . day)) gap duz) |= a/^horn ^- (unit {term ^horn}) ?+(-.a ~ $dub `[p.a q.a]) :: ++ saw %+ rail ;~(plug ;~(sfix wide:vez sem) day) ;~(pfix gap ;~(plug tall:vez day)) :: ++ see %+ rail ;~(plug ;~(sfix have col) day) ;~(pfix gap ;~(plug have day)) :: ++ sic %+ rail ;~(plug ;~(sfix wide:vez ket) day) ;~(pfix gap ;~(plug tall:vez day)) :: ++ toy ;~(plug ;~(pose (cold | zap) (easy &)) sym) -- :: -- -- :: ++ join |= {cof/cafe for/mark kas/silk kos/silk} ^- (bolt gage) %. [cof kas kos] ;~ cope ;~ coax |=({cof/cafe p/silk q/silk} (cope (make cof p) furl)) |=({cof/cafe p/silk q/silk} (cope (make cof q) furl)) == |= {cof/cafe cay/cage coy/cage} ^- (bolt gage) :: %+ cope (fang cof for) |= {cof/cafe pro/vase} ?. (slab %grad p.pro) (flaw cof leaf+"no ++grad" ~) =+ gar=(slap pro [%limb %grad]) ?@ q.gar =+ too=((sand %tas) q.gar) ?~ too (flaw cof leaf+"bad mark ++grad" ~) (make cof %join u.too [%$ cay] [%$ coy]) ?. (slab %form p.gar) (flaw cof leaf+"no ++form:grad" ~) =+ fom=((soft @tas) q:(slap gar [%limb %form])) ?~ fom (flaw cof leaf+"bad ++form:grad" ~) ?. &(=(u.fom p.cay) =(u.fom p.coy)) %+ flaw cof :_ :_ ~ leaf+"join on data of bad marks: {(trip p.cay)} {(trip p.coy)}" leaf+"expected mark {(trip u.fom)}" ?: =(q.q.cay q.q.coy) (fine cof [%& cay]) ?. (slab %join p.gar) (flaw cof leaf+"no ++join:grad" ~) %+ cope %^ maul cof (slap (slap pro [%limb %grad]) [%limb %join]) (slop q.cay q.coy) |= {cof/cafe dif/vase} ?@ q.dif (fine cof [%& %null dif]) (fine cof [%& u.fom (slot 3 dif)]) == :: ++ mash |= {cof/cafe for/mark mas/milk mos/milk} ^- (bolt gage) %. [cof r.mas r.mos] ;~ cope ;~ coax |=({cof/cafe p/silk q/silk} (cope (make cof p) furl)) |=({cof/cafe p/silk q/silk} (cope (make cof q) furl)) == |= {cof/cafe cay/cage coy/cage} ^- (bolt gage) %+ cope (fang cof for) |= {cof/cafe pro/vase} ?. (slab %grad p.pro) (flaw cof leaf+"no ++grad" ~) =+ gar=(slap pro [%limb %grad]) ?@ q.gar =+ too=((sand %tas) q.gar) ?~ too (flaw cof leaf+"bad mark ++grad" ~) %+ make cof `silk`[%mash u.too [p.mas q.mas [%$ cay]] [p.mos q.mos [%$ coy]]] ?. (slab %form p.gar) (flaw cof leaf+"no ++form:grad" ~) =+ fom=((soft @tas) q:(slap gar [%limb %form])) ?~ fom (flaw cof leaf+"bad ++form:grad" ~) ?. &(=(u.fom p.cay) =(u.fom p.coy)) %+ flaw cof :_ :_ ~ leaf+"mash on data of bad marks: {(trip p.cay)} {(trip p.coy)}" leaf+"expected mark {(trip u.fom)}" ?: =(q.q.cay q.q.coy) (fine cof %& cay) ?. (slab %mash p.gar) (fine cof %& %null [%atom %n ~] ~) %+ cope %^ maul cof (slap (slap pro [%limb %grad]) [%limb %mash]) %+ slop :(slop [[%atom %p ~] p.mas] [[%atom %tas ~] q.mas] q.cay) :(slop [[%atom %p ~] p.mos] [[%atom %tas ~] q.mos] q.coy) (flux |=(dif/vase [%& u.fom dif])) == :: ++ kale :: mutate |= {cof/cafe kas/silk muy/(list (pair wing silk))} ^- (bolt gage) %+ cope |- ^- (bolt (list (pair wing vase))) ?~ muy (flue cof) %+ cope (cope (make cof q.i.muy) furl) |= {cof/cafe cay/cage} %+ cope ^$(muy t.muy) |= {cof/cafe rex/(list (pair wing vase))} (fine cof [[p.i.muy q.cay] rex]) |= {cof/cafe yom/(list (pair wing vase))} %+ cope (make cof kas) %- tabl-run |= {cof/cafe cay/cage} %+ cope (keel cof q.cay yom) (flux |=(vax/vase [%& p.cay vax])) :: ++ keel :: apply mutations |= {cof/cafe suh/vase yom/(list (pair wing vase))} ^- (bolt vase) %+ cool =< |.(leaf+"ford: keel {<(murn yom +)>}") |= {a/wing b/span *} =+ c=p:(slap suh wing+a) ?: (~(nest ut c) | b) ~ (some [a c b]) %^ maim cof %+ slop suh |- ^- vase ?~ yom [[%atom %n ~] ~] (slop q.i.yom $(yom t.yom)) ^- twig :+ %keep [%& 2]~ =+ axe=3 |- ^- (list (pair wing twig)) ?~ yom ~ :- [p.i.yom [%$ (peg axe 2)]] $(yom t.yom, axe (peg axe 3)) :: ++ lads :: possible children |= {cof/cafe bem/beam} ^- (bolt (map knot $~)) %^ lash cof bem |= {cof/cafe dir/knot} %+ cope (lend cof bem(s [dir s.bem])) (flux |=(a/arch ?~(dir.a ~ (some ~)))) :: ++ laze :: find real or virtual |= {cof/cafe bem/beam} %^ lash cof bem |= {cof/cafe for/mark} ^- (bolt (unit $~)) ?. ((sane %tas) for) (flue cof) =. s.bem [for s.bem] %+ cope (lend cof bem) |= {cof/cafe arc/arch} (fine cof (bind fil.arc $~)) :: ++ lace :: load real or virtual |= {cof/cafe for/mark arg/coin bem/beam} ^- (bolt vase) %+ cool |.(leaf+"ford: load {} {<(tope bem)>}") =. s.bem [for s.bem] %+ cope (liar cof bem) |= {cof/cafe cay/cage} ?. =(for p.cay) (flaw cof leaf+"unexpected mark {}" ~) ((lake for) cof q.cay) :: ++ lake :: check+coerce |= for/mark |= {cof/cafe sam/vase} ^- (bolt vase) %+ cool |.(leaf+"ford: check {<[for bek `@p`(mug q.sam)]>}") ?: ?=($hoon for) =+ mas=((soft @t) q.sam) ?~ mas (flaw cof [leaf+"ford: bad hoon: {<[for bek]>}"]~) (fine cof [%atom %t ~] u.mas) %+ cope (fang cof for) |= {cof/cafe tux/vase} =+ typ=p:(slot 6 tux) =. typ ?+(-.typ typ $face q.typ) ?: (~(nest ut typ) | p.sam) (fine cof typ q.sam) ?. (slob %grab p.tux) (flaw cof [%leaf "ford: no grab: {<[for bek]>}"]~) =+ gab=(slap tux [%limb %grab]) ?. (slob %noun p.gab) (flaw cof [%leaf "ford: no noun: {<[for bek]>}"]~) %+ cope (maul cof (slap gab [%limb %noun]) [%noun q.sam]) |= {cof/cafe pro/vase} ?> (~(nest ut typ) | p.pro) ?: =(q.pro q.sam) (fine cof typ q.pro) (flaw cof [%leaf "ford: invalid content: {<[for bek]>}"]~) :: ++ lamp :: normalize version |= {cof/cafe bem/beam} ^- (bolt beam) ?: ?=($ud -.r.bem) (fine cof bem) =+ von=(syve [151 %noun] ~ %cw bem(s ~)) ?~ von [p=cof q=[%1 [%w bem ~] ~ ~]] (fine cof bem(r [%ud ((hard @) +.+:(need u.von))])) :: ++ lave :: validate |= {cof/cafe for/mark som/*} ^- (bolt vase) ((lake for) cof [%noun som]) :: ++ lane :: span infer |= {cof/cafe typ/span gen/twig} %+ (cowl cof) (mule |.((~(play ut typ) gen))) |=(ref/span ref) :: ++ lash :: filter at beam |* {cof/cafe bem/beam fun/(burg knot (unit))} %+ cope (lend cof bem) |=({cof/cafe arc/arch} ((some-in-map fun) cof dir.arc)) :: ++ lear :: load core |= {cof/cafe bem/beam} ^- (bolt vase) (leap cof bem bem many+~) :: ++ leap :: XX load with path |= {cof/cafe bem/beam bom/beam arg/coin} %+ cope (lamp cof bem) |= {cof/cafe bem/beam} %+ cope (fame cof bem) |= {cof/cafe bem/beam} (cope (fape cof %hoon bem bom) abut:(meow bom arg)) :: ++ lend :: load arch |= {cof/cafe bem/beam} ^- (bolt arch) =+ von=(syve [151 %noun] ~ %cy bem) ?~ von [p=cof q=[%1 [%y bem ~] ~ ~]] ?> ?=({$~ $arch ^} u.von) =+ arc=((hard arch) q.q.u.u.von) %+ cope (lamp cof bem) |= {cof/cafe bem/beam} (flag bem (fine cof arc)) :: ++ liar :: load cage |= {cof/cafe bem/beam} ^- (bolt cage) ?: =([%ud 0] r.bem) (flaw cof [leaf+"ford: no data: {<(tope bem(s ~))>}"]~) =+ von=(syve [151 %noun] ~ %cx bem) ?~ von [p=cof q=[%1 [[%x bem ~] ~ ~]]] ?~ u.von (flaw cof leaf+"file not found" (smyt (tope bem)) ~) (fine cof u.u.von) :: ++ lily |= {cof/cafe for/mark} ^- (bolt (set @tas)) %+ cope (coop (fang cof for) |=(cof/cafe (fine cof %void ~))) %- flux |= vax/vase ^- (set mark) %- =- ~(gas in `(set mark)`-) ?. (slob %grow p.vax) ~ (silt (sloe p:(slap vax [%limb %grow]))) ?. (slob %garb p.vax) ~ =+ (slap vax [%limb %garb]) (fall ((soft (list mark)) q) ~) :: ++ lima :: load at depth |= {cof/cafe for/mark arg/coin bem/beam} %+ (clef %bake) [p=cof q=[%0 p=[bem `~] q=[for arg bem]]] |= {cof/cafe for/mark arg/coin bem/beam} ^- (bolt (unit vase)) %+ cope (laze cof bem) |= {cof/cafe mal/(map mark $~)} ?: (~(has by mal) for) (cope (lace cof for arg bem) (flux some)) =+ opt=(silt (turn (~(tap by mal)) head)) :: XX asymptotics %+ cope (lion cof for opt) |= {cof/cafe wuy/(list @tas)} ?~ wuy (flue cof) %+ cope (lace cof i.wuy arg bem) |= {cof/cafe hoc/vase} (cope (lope cof i.wuy t.wuy hoc) (flux some)) :: ++ lime :: load beam |= {cof/cafe for/mark arg/coin bem/beam} ^- (bolt vase) %+ cope (lima cof for arg bem) |= {cof/cafe vux/(unit vase)} ?^ vux (fine cof u.vux) (leap cof [-.bem /[for]/ren] bem arg) :: ++ link :: translate |= {cof/cafe too/mark for/mark vax/vase} ^- (bolt vase) :: %+ cool |.(leaf+"ford: link {} {} {}") ?: =(too for) (fine cof vax) ?: |(=(%noun for) =(%$ for)) ((lake too) cof vax) %+ cope (fang cof for) |= {cof/cafe pro/vase} ^- (bolt vase) ?: &((slob %grow p.pro) (slob too p:(slap pro [%limb %grow]))) %+ cope (keel cof pro [[%& 6]~ vax]~) |= {cof/cafe pox/vase} (maim cof pox [%per [%limb %grow] [%limb too]]) %+ cope (fang cof too) |= {cof/cafe pro/vase} =+ ^= zat ^- (unit vase) ?. (slob %grab p.pro) ~ =+ gab=(slap pro [%limb %grab]) ?. (slob for p.gab) ~ `(slap gab [%limb for]) ?~ zat (flaw cof [%leaf "ford: no link: {<[for too]>}"]~) ~| [%link-maul for too] (maul cof u.zat vax) :: ++ lion :: translation search |= {cof/cafe too/mark fro/(set mark)} :: ~& lion+[too=too fro=(silt fro)] ^- (bolt (list mark)) =- %+ coop (gro cof too ~ ~) :: XX better grab layer |= cof/cafe %+ cope (fang cof too) |= {cof/cafe vax/vase} ^- (bolt (list mark)) ?. (slob %grab p.vax) (flue cof) %+ cope (gro cof (silt (sloe p:(slap vax [%limb %grab])))) (flux |=(a/path (welp a /[too]))) ^= gro |= {cof/cafe tag/(set mark)} =| $: war/(map mark (list mark)) pax/(list mark) won/{p/mark q/(qeu mark)} == %. [cof fro] |= {cof/cafe fro/(set mark)} ^- (bolt (list mark)) ?: (~(has in tag) p.won) (fine cof (flop pax)) =+ for=(skip (~(tap by fro)) ~(has by war)) =. for (sort for aor) :: XX useful? =: q.won (~(gas to q.won) for) war (~(gas by war) (turn for |=(mark [+< pax]))) == ?: =(~ q.won) (flue cof) =. won ~(get to q.won) %+ cope (lily cof p.won) ..$(pax [p.won (~(got by war) p.won)]) :: ++ lope :: translation pipe |= {cof/cafe for/mark yaw/(list mark) vax/vase} ^- (bolt vase) ?~ yaw (fine cof vax) %+ cope (link cof i.yaw for vax) |= {cof/cafe yed/vase} ^$(cof cof, for i.yaw, yaw t.yaw, vax yed) :: ++ mail :: cached mint |= {cof/cafe sut/span gen/twig} ^- (bolt (pair span nock)) %+ (clef %slim) (fine cof sut gen) |= {cof/cafe sut/span gen/twig} =+ puz=(mule |.((~(mint ut sut) [%noun gen]))) ?- -.puz $| (flaw cof p.puz) $& (fine cof p.puz) == :: ++ maim :: slap |= {cof/cafe vax/vase gen/twig} ^- (bolt vase) %+ cope (mail cof p.vax gen) |= {cof/cafe typ/span fol/nock} %+ (coup cof) (mock [q.vax fol] (sloy syve)) |=(val/* `vase`[typ val]) :: ++ make-norm-bek :: normalize root beak |= {cof/cafe kas/silk} %+ cope (lamp cof bek ~) |=({cof/cafe byk/beak *} (make(bek byk) cof kas)) :: ++ make :: reduce silk |= {cof/cafe kas/silk} :: =+ ^= pre :: ?+ -.kas -.kas :: ^ %cell :: :: %boil [-.kas p.kas (tope q.kas)] :: %bake [-.kas p.kas (tope q.kas)] :: %core [-.kas (tope p.kas)] :: == :: ~& [dyv `term`(cat 3 %make (fil 3 dyv ' ')) pre] :: =- ~& [dyv `term`(cat 3 %made (fil 3 dyv ' ')) pre] - :: =. dyv +(dyv) ^- (bolt gage) ?- -.kas ^ %. [cof p.kas q.kas] ;~ cope ;~ coax |=({cof/cafe p/silk q/silk} (cope ^$(cof cof, kas p.kas) furl)) |=({cof/cafe p/silk q/silk} (cope ^$(cof cof, kas q.kas) furl)) == :: XX merge %tabl :: |= {cof/cafe bor/cage heg/cage} ^- (bolt gage) (faun cof (slop q.bor q.heg)) == :: $$ (fine cof %& p.kas) $alts %. cof |= cof/cafe ^- (bolt gage) ?~ p.kas (flaw cof leaf+"ford: out of options" ~) (coop ^$(cof cof, kas i.p.kas) ..$(p.kas t.p.kas)) :: $bake ^- (bolt gage) %+ cool |.(leaf+"ford: bake {} {<(tope r.kas)>} {~(rend co q.kas)}") %+ cope (lamp cof r.kas) |= {cof/cafe bem/beam} %+ cope (lime cof p.kas q.kas bem) |= {cof/cafe vax/vase} (fine cof `gage`[%& p.kas vax]) :: $bunt %+ cool |.(leaf+"ford: bunt {}") ?: ?=($hoon p.kas) (fine cof %& p.kas [%atom %t ~] '') %+ cope (fang cof p.kas) |= {cof/cafe tux/vase} =+ [typ=p val=q]:(slot 6 tux) =. typ ?+(-.typ typ $face q.typ) (fine cof [%& p.kas [typ val]]) :: $call :: %+ cool |.(leaf+"ford: call {<`@p`(mug kas)>}") %. [cof p.kas q.kas] ;~ cope ;~ coax |=({cof/cafe p/silk q/silk} (cope ^$(cof cof, kas p) furl)) |=({cof/cafe p/silk q/silk} ^$(cof cof, kas q)) == :: |= {cof/cafe gat/cage sam/gage} %. [cof sam] %- tabl-run |= {cof/cafe sam/cage} (cope (maul cof q.gat q.sam) faun) == :: $cast %+ cool |.(leaf+"ford: cast {}") %+ cope $(kas q.kas) %- tabl-run |= {cof/cafe cay/cage} ^- (bolt gage) %+ cool |.(leaf+"ford: casting {} to {}") %+ cope (lion cof p.kas p.cay `~) |= {cof/cafe wuy/(list @tas)} %+ cope ?~ wuy (link cof p.kas p.cay q.cay) (lope cof i.wuy t.wuy q.cay) (flux |=(vax/vase [%& p.kas vax])) :: $core %+ cool |.(leaf+"ford: core {<(tope p.kas)>}") (cope (lear cof p.kas) (flux |=(a/vase [%& %core a]))) :: $diff %+ cool |.(leaf+"ford: diff {<`@p`(mug p.kas)>} {<`@p`(mug q.kas)>}") (diff cof p.kas q.kas) :: $dude (cool p.kas $(kas q.kas)) $file %+ cool |.(leaf+"ford: file {}") %+ cope (liar cof p.kas) (flux |=(cay/cage [%& cay])) :: $flag =+ rez=$(kas q.kas) ?: ?=($1 -.q.rez) rez =- rez(p.q -) |- ^- (set beam) ?~ p.kas p.q.rez =. p.q.rez $(p.kas l.p.kas) =. p.q.rez $(p.kas r.p.kas) ?^ n.p.kas (~(put in p.q.rez) n.p.kas) =+ dap=(~(get by deh.bay) n.p.kas) ?~ dap ~&(flag-missed+n.p.kas p.q.rez) %- ~(uni in p.q.rez) ^- (set beam) ?-(-.u.dap $init p.u.dap, $sent q.u.dap, $done [[bek ~] ~ ~]) :: XX revisit ^ during dependency review $join %+ cool |. leaf+"ford: join {} {<`@p`(mug q.kas)>} {<`@p`(mug r.kas)>}" (join cof p.kas q.kas r.kas) :: $mash %+ cool |. leaf+"ford: mash {} {<`@p`(mug q.kas)>} {<`@p`(mug r.kas)>}" (mash cof p.kas q.kas r.kas) :: $mute (kale cof p.kas q.kas) $pact %+ cool |.(leaf+"ford: pact {<`@p`(mug p.kas)>} {<`@p`(mug q.kas)>}") (pact cof p.kas q.kas) :: $plan (cope (abut:(meow p.kas q.kas) cof r.kas) faun) $reef (faun cof pit) $ride %+ cool |.(leaf+"ford: build failed") %+ cope $(kas q.kas) %- tabl-run |= {cof/cafe cay/cage} %+ cope (maim cof q.cay p.kas) |= {cof/cafe vax/vase} (faun cof vax) :: $tabl %+ cope |- ^- (bolt (list (pair gage gage))) ?~ p.kas (fine cof ~) %. [cof p.kas] ;~ cope ;~ coax |=({cof/cafe _p.kas} (fret ^^$(cof cof, kas p.i))) |=({cof/cafe _p.kas} (fret ^^$(cof cof, kas q.i))) |=({cof/cafe _p.kas} ^$(cof cof, p.kas t)) == (flux |=({k/gage v/gage t/(list {gage gage})} [[k v] t])) == (flux |=(rex/(list (pair gage gage)) [%tabl rex])) :: $vale %+ cool |.(leaf+"ford: vale {} {<`@p`(mug q.kas)>}") %+ cope (lave cof p.kas q.kas) (flux |=(vax/vase `gage`[%& p.kas vax])) :: $volt %+ cool |.(leaf+"ford: volt {}") %+ cope $(kas [%bunt p.p.kas]) %- tabl-run |= {cof/cafe cay/cage} ^- (bolt gage) (fine cof [%& p.p.kas p.q.cay q.p.kas]) == :: ++ malt :: cached slit |= {cof/cafe gat/span sam/span} ^- (bolt span) %+ (clef %slit) (fine cof gat sam) |= {cof/cafe gat/span sam/span} %+ cool |.(%.(%have ~(dunk ut sam))) %+ cool |.(%.(%want ~(dunk ut (~(peek ut gat) %free 6)))) =+ top=(mule |.((slit gat sam))) ?- -.top $| (flaw cof p.top) $& (fine cof p.top) == :: ++ maul :: slam |= {cof/cafe gat/vase sam/vase} ^- (bolt vase) %+ cope (malt cof p.gat p.sam) |= {cof/cafe typ/span} %+ (coup cof) (mong [q.gat q.sam] (sloy syve)) |=(val/* `vase`[typ val]) :: ++ meow :: assemble |= {how/beam arg/coin} =| $: rop/(map term (pair hoof twig)) :: structures bil/(map term (pair hoof twig)) :: libraries boy/(list twig) :: body stack lit/? :: drop arguments == ~% %meow ..meow ~ |% ++ able :: assemble preamble ^- twig :+ %per ?:(=(~ rop) [%$ 1] [%core (~(run by rop) |=({^ a/twig} [%ash a]))]) ?:(=(~ bil) [%$ 1] [%core (~(run by bil) |=({^ a/twig} [%ash a]))]) :: ++ abut :: generate |= {cof/cafe hyd/hood} ^- (bolt vase) %+ cope (apex cof hyd) |= {cof/cafe sel/_..abut} =. ..abut sel %+ cope (maim cof pit able) |= {cof/cafe bax/vase} %+ cope (chap cof bax [%fan fan.hyd]) |= {cof/cafe mar/mark gox/vase} %+ cope (maim cof (slop gox bax) [%tow (flop boy)]) |= {cof/cafe fin/vase} (fine cof fin) :: ~> %slog.[0 ~(duck ut p.q.cay)] :: ++ apex :: build to body |= {cof/cafe hyd/hood} ^- (bolt _..apex) %+ cope (body cof src.hyd) |= {cof/cafe sel/_..apex} =. ..apex sel %+ cope (neck cof lib.hyd) |= {cof/cafe sel/_..apex} =. ..apex sel(boy boy) %+ cope (head cof sur.hyd) |= {cof/cafe sel/_..apex} (fine cof sel) :: ++ body :: produce functions |= {cof/cafe src/(list hoop)} ^- (bolt _..body) ?~ src (fine cof ..body) %+ cope (wilt cof i.src) |= {cof/cafe sel/_..body} ^$(src t.src, ..body sel, cof cof) :: ++ chad :: atomic list |= {cof/cafe bax/vase doe/term hon/horn} ^- (bolt vase) %+ cope (lash cof how (flux (slat doe))) |= {cof/cafe yep/(map knot @)} =+ ^= poy ^- (list (pair knot @)) %+ sort (~(tap by yep) ~) |=({{* a/@} {* b/@}} (lth a b)) %+ cope |- ^- (bolt (list (pair @ vase))) ?~ poy (flue cof) %+ cope $(poy t.poy) |= {cof/cafe nex/(list (pair @ vase))} %+ cope (chap(s.how [p.i.poy s.how]) cof bax hon) (flux |=({mar/mark elt/vase} [[q.i.poy elt] nex])) %- flux |= yal/(list (pair @ vase)) ^- vase ?~ yal [[%atom %n `~] 0] (slop (slop [[%atom doe ~] p.i.yal] q.i.yal) $(yal t.yal)) :: ++ chai :: atomic map |= {cof/cafe bax/vase hon/horn} ^- (bolt vase) %+ cope %+ cope (lads cof how) %- some-in-map |= {cof/cafe dir/knot} =+ nod=(chap(s.how [dir s.how]) cof bax hon) ?: ?=($2 -.q.nod) (flue cof) (cope nod (flux some)) %- flux |= doy/(map @ cage) ^- vase ?~ doy [[%atom %n `0] 0] %+ slop (slop [[%atom %ta ~] p.n.doy] q.q.n.doy) (slop $(doy l.doy) $(doy r.doy)) :: ++ chap :: produce resources |= {cof/cafe bax/vase hon/horn} ^- (bolt cage) ?- -.hon $ape (cope (maim cof bax p.hon) (flux |=(a/vase [%noun a]))) $arg %+ cope (maim cof bax p.hon) |= {cof/cafe gat/vase} %+ cope (maim cof !>(~) ((jock |) arg)) |= {cof/cafe val/vase} %+ cope (maul cof gat (slop !>(how) val)) (flux |=(a/vase noun+a)) :: $alt %. cof |= cof/cafe ^- (bolt cage) ?~ p.hon (flaw cof leaf+"ford: out of options" ~) (coop ^$(cof cof, hon i.p.hon) ..$(p.hon t.p.hon)) :: $dep =+ [dep bot]=(clad $(hon p.hon)) :: XX review %+ cope bot %- flux |= {mark vax/vase} [%noun (slop [atom+['uvH' ~] dep] vax)] :: $dub %+ cope $(hon q.hon) %- flux |= {mar/mark vax/vase} [mar [%face p.hon p.vax] q.vax] :: $fan %+ cope %+ cope |- ^- (bolt (list vase)) ?~ p.hon (flue cof) %+ cope ^$(cof cof, hon i.p.hon) |= {cof/cafe mar/mark vax/vase} %+ cope ^$(cof cof, p.hon t.p.hon) (flux |=(tev/(list vase) [vax tev])) |= {cof/cafe tev/(list vase)} %+ fine cof |- ^- vase ?~ tev [[%atom %n `~] 0] (slop i.tev $(tev t.tev)) (flux |=(a/vase noun+a)) :: $for =+ opt=|.(>(turn p.hon |=({a/path ^} a))<) |- ^- (bolt cage) ?~ p.hon (flaw cof leaf+"ford: no match" >(tope how)< *opt ~) ?: =(p.i.p.hon (scag (lent p.i.p.hon) (flop s.how))) ^$(hon q.i.p.hon) $(p.hon t.p.hon) :: $hel $(hon p.hon, lit |) $lin %+ cope $(hon q.hon) |= {cof/cafe cay/cage} ^- (bolt cage) ?~ p.hon (fine cof cay) %+ cope $(p.hon t.p.hon) |= {cof/cafe cay/cage} (cope (make cof %cast i.p.hon $+cay) furl) :: $man %+ cope |- ^- (bolt vase) ?~ p.hon (fine cof [[%atom %n `~] 0]) %+ cope $(p.hon l.p.hon) |= {cof/cafe lef/vase} %+ cope ^$(cof cof, p.hon r.p.hon) |= {cof/cafe rig/vase} %+ cope ^^^$(cof cof, hon q.n.p.hon) |= {cof/cafe mar/mark vax/vase} %+ fine cof %+ slop (slop [[%atom %tas ~] p.n.p.hon] vax) (slop lef rig) (flux |=(a/vase noun+a)) :: $now %+ cope (chad cof bax %da p.hon) (flux |=(a/vase noun+a)) :: $nap %+ cope (chai cof bax p.hon) (flux |=(a/vase noun+a)) :: $saw %+ cope $(hon q.hon) |= {cof/cafe mar/mark sam/vase} %+ cope (maim cof bax p.hon) |= {cof/cafe gat/vase} %+ cope (maul cof gat sam) (flux |=(a/vase noun+a)) :: $see =. r.p.hon ?:(?=({$ud $0} r.p.hon) r.how r.p.hon) $(hon q.hon, how p.hon) :: $sic %+ cope $(hon q.hon) |= {cof/cafe mar/mark vax/vase} %+ cope (maim cof bax [%bunt p.hon]) |= {cof/cafe tug/vase} ?. (~(nest ut p.tug) | p.vax) (flaw cof [%leaf "type error: {} {}"]~) (fine cof [mar p.tug q.vax]) :: $toy ?: p.hon =. arg ?.(lit arg many+~) (cope (make cof %bake q.hon arg how) furl) %+ cool |.(leaf+"ford: hook {} {<(tope how)>}") %+ cope (fade cof %hoon how) |= {cof/cafe hyd/hood} %+ cope (abut:(meow how arg) cof hyd) ;~(cope (lake q.hon) (flux |=(a/vase [q.hon a]))) == :: ++ head :: consume structures |= {cof/cafe bir/(list hoof)} ^- (bolt _..head) ?~ bir (fine cof ..head) =+ byf=(~(get by rop) p.i.bir) ?^ byf ?. =(`hoof`i.bir `hoof`p.u.byf) (flaw cof [%leaf "structure mismatch: {<~[p.u.byf i.bir]>}"]~) $(bir t.bir) %+ cope (fame cof (hone %sur i.bir)) |= {cof/cafe bem/beam} %+ cope (fade cof %hoon bem) |= {cof/cafe hyd/hood} %+ cope (apex(how bem, boy ~) cof hyd) |= {cof/cafe sel/_..head} =. ..head %= sel boy boy how how rop %+ ~(put by (~(uni by rop) rop.sel)) p.i.bir [i.bir [%tow (flop boy.sel)]] == ^^^$(cof cof, bir t.bir) :: ++ hone :: plant hoof |= {way/@tas huf/hoof} ^- beam ?~ q.huf how(s ~[p.huf way]) [[q.u.q.huf q.how p.u.q.huf] ~[p.huf way]] :: ++ neck :: consume libraries |= {cof/cafe bir/(list hoof)} ^- (bolt _..neck) ?~ bir (fine cof ..neck) =+ byf=(~(get by bil) p.i.bir) ?^ byf ?. =(`hoof`i.bir `hoof`p.u.byf) (flaw cof [%leaf "library mismatch: {<~[p.u.byf i.bir]>}"]~) $(bir t.bir) %+ cope (fame cof (hone %lib i.bir)) |= {cof/cafe bem/beam} %+ cope (fade cof %hoon bem) |= {cof/cafe hyd/hood} %+ cope (apex(how bem, boy ~) cof hyd) |= {cof/cafe sel/_..neck} =. ..neck %= sel how how bil (~(put by bil) p.i.bir [i.bir [%tow (flop boy.sel)]]) == ^^^$(cof cof, bir t.bir) :: ++ wilt :: process body entry |= {cof/cafe hop/hoop} ^- (bolt _..wilt) ?- -.hop $& (fine cof ..wilt(boy [p.hop boy])) $| =. r.p.hop ?:(?=({$ud $0} r.p.hop) r.how r.p.hop) %+ cool |.(leaf+"ford: wilt {<[(tope p.hop)]>}") %+ cope (lend cof p.hop) |= {cof/cafe arc/arch} ?: (~(has by dir.arc) %hoon) %+ cope (fade cof %hoon p.hop) |= {cof/cafe hyd/hood} %+ cope (apex(boy ~) cof hyd) (flux |=(sel/_..wilt sel(boy [[%tow boy.sel] boy]))) =+ [all=(lark (slat %tas) arc) sel=..wilt] %+ cope |- ^- (bolt (pair (map term foot) _..wilt)) ?~ all (fine cof ~ ..wilt) %+ cope $(all l.all) |= {cof/cafe lef/(map term foot) sel/_..wilt} %+ cope ^$(all r.all, cof cof, sel sel) |= {cof/cafe rig/(map term foot) sel/_..wilt} %+ cope %= ^^^^$ cof cof ..wilt sel(boy ~) s.p.hop [p.n.all s.p.hop] == |= {cof/cafe sel/_..wilt} %+ fine cof [`(map term foot)`[[p.n.all [%ash [%tow boy.sel]]] lef rig] sel] |= {cof/cafe mav/(map term foot) sel/_..wilt} ?~ mav (flaw cof [%leaf "source missing: {<(tope p.hop)>}"]~) (fine cof sel(boy [[%core mav] boy])) == -- :: ++ pact :: patch |= {cof/cafe kas/silk kos/silk} ^- (bolt gage) %. [cof kas kos] ;~ cope ;~ coax |=({cof/cafe p/silk q/silk} (cope (make cof p) furl)) |=({cof/cafe p/silk q/silk} (cope (make cof q) furl)) == |= {cof/cafe cay/cage coy/cage} ^- (bolt gage) ?: ?=($hoon p.cay) ?. ?=($txt-diff p.coy) (flaw cof leaf+"{} mark with bad diff type: {}" ~) =+ txt=((soft @t) q.q.cay) ?~ txt (flaw cof leaf+"{} mark on bad data" ~) =+ dif=((soft (urge cord)) q.q.coy) ?~ dif =- (flaw cof leaf+"{} data with bad diff" -) [>type=p.q.coy< >want=p:!>(*(urge cord))< ~] =+ pac=(role (lurk (lore u.txt) u.dif)) (fine cof `gage`[%& p.cay [%atom %t ~] (end 3 (dec (met 3 pac)) pac)]) :: %+ cope (fang cof p.cay) |= {cof/cafe pro/vase} ?. (slab %grad p.pro) (flaw cof leaf+"no ++grad" ~) =+ gar=(slap pro [%limb %grad]) ?@ q.gar =+ for=((sand %tas) q.gar) ?~ for (flaw cof leaf+"bad mark ++grad" ~) (make cof `silk`[%cast p.cay %pact [%cast u.for %$ cay] %$ coy]) ?. (slab %form p.gar) (flaw cof leaf+"no ++form:grad" ~) =+ for=((soft @tas) q:(slap gar [%limb %form])) ?~ for (flaw cof leaf+"bad ++form:grad" ~) ?. =(u.for p.coy) %+ flaw cof :_ ~ =< leaf+"pact on data with wrong form: {-} {+<} {+>}" [(trip p.cay) (trip u.for) (trip p.coy)] ?. (slab %pact p.gar) (flaw cof leaf+"no ++pact:grad" ~) %+ cope (keel cof pro [[%& 6]~ q.cay]~) |= {cof/cafe pox/vase} %+ cope %^ maul cof (slap (slap pox [%limb %grad]) [%limb %pact]) q.coy (flux |=(pat/vase [%& p.cay pat])) == :: ++ resp |= {tik/@ud rot/riot} ^+ ..zo ?> (~(has by q.kig) tik) =+ `{ren/care bem/beam}`(~(got by q.kig) tik) ?~ rot =^ dep deh.bay (daze ~ deh.bay) :: dependencies? amok:(expo [%made dep %| (smyt ren (tope bem)) ~]) =+ (cat 3 'c' ren) exec(q.kig (~(del by q.kig) tik), keg (~(put by keg) [- bem] r.u.rot)) :: ++ syve ^- sley |= {ref/* sec/(unit (set monk)) tem/term bem/beam} ^- (unit (unit cage)) ?> =(%151 -.ref) %- %- lift |= (unit cage) :: ignore block %+ biff +< |= cay/cage ^- (unit cage) ?. -:(nets:wa +.ref `span`p.q.cay) :: error if bad type ~ `cay ^- (unit (unit cage)) =+ (~(get by keg) tem bem) ?^ - (some -) (ska +<.$) -- -- :: -- . == =| axle =* lex - |= {now/@da eny/@ ski/sley} :: activate ^? :: opaque core ~% %ford-d ..is ~ |% :: ++ call :: request |= {hen/duct hic/(hypo (hobo kiss))} ^+ [p=*(list move) q=..^$] => .(q.hic ?.(?=($soft -.q.hic) q.hic ((hard kiss) p.q.hic))) ?: ?=($wegh -.q.hic) :_ ..^$ :_ ~ :^ hen %give %mass :- %ford :- %| %- |= a/(list (list mass)) ^- (list mass) :: XX single-home =+ a2=a ?~ a !! ?~ i.a ~ :_ $(a (turn a2 tail)) :- p.i.i.a ?~ -.q.i.i.a [%& (turn (turn a2 head) |=(b/mass ?~(-.q.b p.q.b !!)))] [%| $(a (turn (turn a2 head) |=(b/mass ?~(-.q.b !! p.q.b))))] %+ turn (~(tap by pol)) |= {@ baby} :~ =< cache+[%| (turn `(list term)`/hood/bake/slit/slim/slap/slam .)] =- |=(a/term [a %& (~(get ja dep) a)]) =< `dep/(jar term *)`(~(rep by jav) .) |=({{* a/{term *}} b/(jar term *)} (~(add ja b) -.a +.a)) :: =< depends+[%| (turn `(list term)`/init/sent/done .)] =- |=(a/term [a %& (~(get ja dep) a)]) =< `dep/(jar term *)`(~(rep by deh) .) |=({{@ a/{term *}} b/(jar term *)} (~(add ja b) -.a +.a)) :: tasks+[%& dym tad] == =+ our=p.q.hic =+ ^= bay ^- baby =+ buy=(~(get by pol.lex) our) ?~(buy *baby u.buy) =^ mos bay ?- -.q.hic $wipe ~&(%ford-cache-wiped [~ bay(jav ~)]) $wasp abet:(~(awap za [our hen [now eny ski] ~] bay) q.q.hic) $exec ?~ q.q.hic abet:~(apax za [our hen [now eny ski] ~] bay) abet:(~(apex za [our hen [now eny ski] ~] bay) u.q.q.hic) == [mos ..^$(pol (~(put by pol) our bay))] :: ++ doze |= {now/@da hen/duct} ^- (unit @da) ~ :: ++ load :: highly forgiving |=(old/axle ..^$(+>- old)) ::=. old :: ?. ?=([%0 *] old) old :: remove at 1 :: :- %1 :: |- ^- * :: ?~ +.old ~ :: ?> ?=([n=[p=* q=[tad=* dym=* deh=* jav=*]] l=* r=*] +.old) :: :- [p.n.+.old [tad.q.n.+.old dym.q.n.+.old deh.q.n.+.old ~]] :: [$(+.old l.+.old) $(+.old r.+.old)] ::|= old=* ::=+ lox=((soft axle) old) ::^+ ..^$ ::?~ lox :: ~& %ford-reset :: ..^$ ::..^$(+>- u.lox) :: ++ scry |= {fur/(unit (set monk)) ren/@tas who/ship syd/desk lot/coin tyl/path} ^- (unit (unit cage)) [~ ~] :: ++ stay :: save w+o cache `axle`+>-.$(pol (~(run by pol) |=(a/baby [tad.a dym.a deh.a ~]))) :: ++ take :: response |= {tea/wire hen/duct hin/(hypo sign)} ^+ [p=*(list move) q=..^$] ?> ?=({@ @ *} tea) =+ our=(slav %p i.tea) =+ bay=(~(got by pol.lex) our) =^ mos bay =+ dep=(slaw %uv i.t.tea) ?^ dep =+ bem=(need (tome t.t.tea)) abet:(~(axun za [our hen [now eny ski] ~] bay) tea u.dep bem q.hin) ?> ?=({@ $~} t.t.tea) =+ :* num=(slav %ud i.t.tea) tik=(slav %ud i.t.t.tea) == abet:(~(axon za [our hen [now eny ski] ~] bay) num tik q.hin) [mos ..^$(pol (~(put by pol) our bay))] --