shrub/arvo/ford.hoon

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!:::::
:: :: %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
$: $1 :: 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
== ::
:: ::
++ 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
{$bake p/calm q/(trel mark beam heel) r/(unit vase)}:: load
{$lilt p/calm q/beak r/(jug mark mark)} :: translation graph
{$slit p/calm q/{p/span q/span} r/span} :: slam span
{$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)
$lilt ?>(?=($lilt -.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)) ::
:: ::
++ chub :: cache merge
|= {a/cafe b/cafe} ::
^- cafe ::
[(grom p.a p.b) (grum q.a q.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)} ::
?: ?=($1 -.q.b) b
=. p.q.b (~(put in p.q.b) a)
b
:: ::
++ flue |=(a/cafe (fine a ~)) :: cafe to empty
++ flux |* a/_* :: bolt lift (fmap)
|*({b/cafe c/_+<.a} (fine b (a c))) ::
++ grom :: merge sets
|* {one/(set) two/(set)}
^+ one
(~(gas in one) (~(tap in two) ~)) :: XX ugh
::
++ grum :: merge maps
|* {one/(map) two/(map)}
^+ one
(~(gas by one) (~(tap by two) ~)) :: XX ugh
::
++ lark :: filter arch names
|= {wox/$+(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 ~ ['-' $(a t.a)])]))
::
++ tear :: split term
=- |=(a/term (rush a (most hep sym)))
sym=(cook crip ;~(plug low (star ;~(pose low nud))))
::
++ norm :: normalize beam rev
|= {ska/sled bem/beam}
%_ bem
r ?: ?=($ud -.r.bem) r.bem
=+ num=(ska ~ %cw bem(s ~))
?. ?=({$~ $~ * * @u} num)
~& norm-lost+(tope bem(s ~))
r.bem :: XX
[%ud q.q.u.u.num]
==
::
++ za :: per event
=| $: $: our/ship :: computation owner
hen/duct :: event floor
$: now/@da :: event date
eny/@ :: unique entropy
ska/sled :: 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 !!)
$sent
:- [%done ~]
;: weld
(axap dep (~(del in q.dap) bem)) :: cancel outstanding
(turn (~(tap in p.dap)) |=(hen/duct [hen %give %news dep]))
mow
== ==
==
::
++ axap :: unsubscribe beams
|= {dep/@uvH dap/(set beam)}
%+ turn (~(tap in dap))
|= bem/beam
:^ hen %pass [(scot %p our) (scot %uv dep) (tope bem)]
[%c %warp [our p.bem] q.bem ~]
::
++ awap :: get next revision
~% %ford-w ..is ~
|= {dep/@uvH ask/?}
?~ dep
~&(dep-empty+hen +>.$)
?: =(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 %y r.bem (flop s.bem)]]]
== ==
::
++ zo
~% %ford-z
..is
==
%fade fade
%fair fair
%fang fang
%lime lime
%lima lima
%link link
%lion lion
%lily lily
%lope lope
%make make
%meow meow
==
|_ {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)]]
==
::
++ 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 `@tas`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=(grom 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=(grom 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=(grom `_p.q.nuf`p.q.hoc p.q.nuf) q=q.q.nuf]
$0 [%0 p=(grom `_p.q.nuf`p.q.hoc p.q.nuf) q=q.q.nuf]
== ==
::
++ coop :: bolt alter
|* {hoc/(bolt) fun/(burg)}
?- -.q.hoc
$1 hoc
$0 hoc
$2 =+ nuf=(fun(+<- p.hoc))
:- p=p.nuf
^= q
?- -.q.nuf
$1 q.nuf
$0 [%0 p=(grom `_p.q.nuf`p.q.hoc p.q.nuf) q=q.q.nuf]
$2 =. q.q.nuf (welp q.q.nuf q.q.hoc)
[%2 p=(grom `_p.q.nuf`p.q.hoc p.q.nuf) q=q.q.nuf]
== ==
::
++ coup :: toon to bolt
|= cof/cafe
|* {ton/toon fun/$+(* *)}
:- 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
%- sa
%+ 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 :_ (flux |=(rex/gagl [%tabl rex]))
|- ^- (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]))
==
::
++ 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 $~} ^}
%+ cope (fun cof dir)
(flux (lift |*(* [dir +<])))
==
%- flux
|= {lam/marv ram/marv nod/(unit {knot res})}
?^(nod [u.nod lam ram] (~(uni by lam) ram))
==
++ dash :: process cache
|= cof/cafe
^+ +>
:: ~? |
:: :+ %dash (lent (skim (~(tap in p.cof)) |=(a=calx ?=($bake -.a))))
:: =. q.cof (~(dif by q.cof) jav.bay)
:: =+ num=10
:: %. |= a/(list calx)
:: =+ len=(lent a)
:: =- [len (scag num (turn a f)) ?:((gth len num) %etc ~)]
:: =+ dewe=|=(beam +<(s ?+(s s {@ $web *} t.t.s)))
:: f=|=(b/calx [-.b ?+(-.b ~ %bake [p.q.b (tope (dewe q.q.b))])])
:: %~ run by
:: =< `(jar term calx)`(~(rep by q.cof) .)
:: |= {{* a/calx} b/(jar term calx)}
:: (~(add ja b) -.a a)
%_(+> jav.bay q.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 %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)
^+ [*@uvH deh.bay]
=. dep
=< (sa (skip (~(tap in dep)) .))
|= dap/beam ^- ?
?~ s.dap |
=>(.(s.dap t.s.dap) |((~(has in dep) dap) $))
?~ dep [0v0 deh.bay]
=+ hap=(sham dep)
?: (~(has by deh.bay) hap)
[hap deh.bay]
[hap (~(put by deh.bay) hap [%init dep])]
::
++ exec :: execute app
^+ ..zo
?: !=(~ q.kig) ..zo
=+ bot=(make [~ jav.bay] kas)
=. ..exec (dash p.bot)
?- -.q.bot
$0 =^ dep deh.bay (daze p.q.bot)
amok:(expo [%made dep q.q.bot])
$2 =^ dep deh.bay (daze p.q.bot)
amok:(expo [%made dep %| q.q.bot])
$1 =+ zuk=(~(tap by p.q.bot) ~)
=< abet
|- ^+ ..exec
?~ zuk ..exec
$(zuk t.zuk, ..exec `_..exec`(camp p.i.zuk q.i.zuk))
==
::
++ expo :: return gift
|= gef/gift
%_(+> mow :_(mow [hen %give gef]))
::
++ fade :: compile to hood
|= {cof/cafe for/mark bem/beam}
^- (bolt hood)
%+ cool |.(leaf+"ford: fade {<[(tope bem)]>}")
%+ cope (cope (make cof [%bake for bem ~]) furl)
|= {cof/cafe cay/cage}
%+ (clef %hood) (fine cof bem(r [%ud 0]) cay)
^- (burg (pair beam cage) hood)
|= {cof/cafe bum/beam cay/cage}
~| fade+(tope bum)
:: ~& fade+clef-miss+bem
=+ rul=(fair bum)
?. ?=(@ q.q.cay)
(flaw cof ~)
=+ vex=((full rul) [[1 1] (trip q.q.cay)])
?~ q.vex
(flaw cof [%leaf "syntax error: {<p.p.vex>} {<q.p.vex>}"] ~)
(fine cof p.u.q.vex)
::
++ fame
|= {cof/cafe bem/beam} :: beam with - as /
^- (bolt beam)
%- cope :_ (flux |=(a/(unit beam) (fall a bem)))
?~ s.bem (flue cof)
=+ opt=`(list term)`(fall (tear i.s.bem) ~)
?~ opt (flue cof)
|- ^- (bolt (unit beam))
=. i.s.bem (tack opt)
%+ cope (lima cof %hoon bem ~)
|= {cof/cafe vax/(unit vase)} ^- (bolt (unit beam))
?^ vax (fine cof `bem)
?~ t.opt (flue cof)
%+ cope ^$(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)
^$(opt :_(t.t.opt (tack i.opt i.t.opt ~)), cof cof)
::
++ fang :: protocol door
|= {cof/cafe for/mark} ^- (bolt vase)
(cope (lamp cof bek /[for]/mar) lear)
::
++ fair :: hood parsing rule
|= bem/beam
?> ?=({$ud $0} r.bem) :: XX sentinel
=+ vez=(vang & (tope bem))
=< hood
|%
++ case
%- sear
:_ nuck:so
|= a/coin
?. ?=({$$ ?($da $ud $tas) *} a) ~
[~ u=(^case a)]
::
++ hath (sear plex:vez (stag %clsg 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 %toy ;~(sfix sym fas))
(stag %ape ;~(pfix sig ape:read))
(stag %arg ;~(pfix buc ape:read))
(stag %day ;~(pfix bar day:read))
(stag %dub ;~(pfix tis dub:read))
(stag %fan ;~(pfix dot fan:read))
(stag %for ;~(pfix com for:read))
(stag %hel ;~(pfix cen hel:read))
(stag %hub ;~(pfix pat day:read))
(stag %man ;~(pfix tar man:read))
(stag %nap ;~(pfix cab day:read))
(stag %now ;~(pfix pam day:read))
(stag %saw ;~(pfix sem saw:read))
(stag %see ;~(pfix col see:read))
(stag %sic ;~(pfix ket sic:read))
==
==
::
++ rail
|* {wid/rule tal/rule}
?. tol wid
;~(pose wid tal)
::
++ read
|% ++ ape
%+ rail
(ifix [sel ser] (stag %cltr (most ace wide:vez)))
;~(pfix gap tall:vez)
::
++ day
%+ rail
apex(tol |)
;~(pfix gap apex)
::
++ dub
%+ rail
;~(plug sym ;~(pfix tis apex(tol |)))
;~(pfix gap ;~(plug sym ;~(pfix gap apex)))
::
++ fan
%+ rail fail
;~(sfix (star ;~(pfix gap apex)) ;~(plug gap duz))
::
++ for
%+ rail
;~(plug (ifix [sel ser] hath) apex(tol |))
;~(pfix gap ;~(plug hath ;~(pfix gap apex)))
::
++ hel
%+ rail
;~(plug ;~(pose ;~(sfix dem:ag cen) (easy 0)) apex(tol |))
;~(pfix gap ;~(plug ;~(pose ;~(sfix dem:ag gap) (easy 0)) apex))
::
++ man
%+ rail fail
%- sear
:_ ;~(sfix (star ;~(pfix gap apex)) ;~(plug gap duz))
|= fan/(list ^horn)
=| naf/(list (pair term ^horn))
|- ^- (unit (map term ^horn))
?~ fan (some (~(gas by *(map term ^horn)) naf))
?. ?=($dub -.i.fan) ~
$(fan t.fan, naf [[p.i.fan q.i.fan] naf])
::
++ saw
%+ rail
;~(plug ;~(sfix wide:vez sem) apex(tol |))
;~(pfix gap ;~(plug tall:vez ;~(pfix gap apex)))
::
++ see
%+ rail
;~(plug ;~(sfix have col) apex(tol |))
;~(pfix gap ;~(plug have ;~(pfix gap apex)))
::
++ sic
%+ rail
;~(plug ;~(sfix wide:vez ket) apex(tol |))
;~(pfix gap ;~(plug tall:vez ;~(pfix gap apex)))
--
::
--
--
::
++ 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
[%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
:+ %cncb [%& 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 arg/heel}
^- (bolt (map knot $~))
=| {res/(map knot $~) new/(qeu beam)}
=+ all=`(set beam)`[bem `~]
|^ %+ with (cope ?^(arg (flue cof) kids) return)
|=(_. (with (cope marks look) next))
::
++ done .
++ with
|* {a/(bolt _done) b/$+(_done (bolt))} ^+ *b
(cope a |=({cof/cafe c/_done} (b c(cof cof))))
::
++ return
%- flux
|=(a/(map knot $~) done(res (~(uni by res) a)))
::
++ next
|= _. => +<
^- (bolt (map knot $~))
?^ s.bem
$(s.bem t.s.bem, arg [i.s.bem arg])
?: =(~ new) (fine cof res)
=^ bem new ~(get to new)
~| next-beam+(tope bem)
?< (gth (lent +.bem) 10)
$(bem bem, arg ~)
::
++ kids
%^ lash cof bem
|= {cof/cafe dir/knot}
%+ cope (lend cof bem(s [dir s.bem]))
(flux |=(a/arch ?~(dir.a ~ (some ~))))
::
++ marks
=< (cope (laze cof bem) (flux .))
|= a/(map mark ?) ^- (list mark)
(turn :_(head (skip :_(tail (~(tap by a)))))) :: | = %hook
::
++ look
|= {cof/cafe hok/(list mark)} ^- (bolt _done)
?~ hok (fine cof done)
%+ with $(hok t.hok)
|= _done ^- (bolt _done)
=+ bim=bem(s [i.hok s.bem])
=+ hid=(fade cof %hook bim)
?: ?=($2 -.q.hid)
(fine cof done)
=< (cope hid (flux .))
|= hyd/hood
=^ neu all
(chop:(meow bim (flop arg)) all %fan fan.hyd)
done(new (~(gas to new) (~(tap in `(set beam)`neu))))
--
::
++ 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}
?^ fil.arc (fine cof (some &))
?. (~(has by dir.arc) %hook)
(flue cof)
%+ cope (lend cof bem(s [%hook s.bem]))
|= {cof/cafe arc/arch}
?~ fil.arc
(flue cof)
(fine cof (some |))
::
++ lace :: load real or virtual
|= {cof/cafe for/mark bem/beam arg/heel lit/?}
^- (bolt vase)
=. s.bem [for s.bem]
?: lit
%+ cool |.(leaf+"ford: load {<for>} {<(tope bem)>}")
%+ cope (liar cof bem)
|= {cof/cafe cay/cage}
?. =(for p.cay)
(flaw cof leaf+"unexpected mark {<p.cay>}" ~)
((lake for) cof q.cay)
%+ cool |.(leaf+"ford: hook {<for>} {<(tope bem)>}")
%+ cope (fade cof %hook bem)
|= {cof/cafe hyd/hood}
(cope (abut:(meow bem arg) cof hyd) (lake for))
::
++ lake :: check+coerce
|= for/mark
|= {cof/cafe sam/vase}
^- (bolt vase)
%+ cool |.(leaf+"ford: check {<[for bek `@p`(mug q.sam)]>}")
?: ?=(?($hoon $hook) for)
=+ mas=((soft @t) q.sam)
?~ mas
(flaw cof [leaf+"ford: bad hoon or hook: {<[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) :: XX vulcanization
?: (~(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)
%+ cope
?: ?=($ud -.r.bem) (fine cof bem)
=+ von=(save ~ %cw bem(s ~))
?~ von [p=cof q=[%1 [%w bem ~] ~ ~]]
(fine cof bem(r [%ud ((hard @) +.+:(need u.von))]))
|= {cof/cafe bem/{{ship desk $ud r/@u} s/spur}}
?: =(0 r.bem)
(flaw cof [leaf+"ford: no data: {<(tope bem(s ~))>}"]~)
(fine cof bem)
::
++ 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)
%+ cope (fame cof bem)
|= {cof/cafe bem/beam}
(cope (fade cof %hoon bem) abut:(meow bem ~))
::
++ lend :: load arch
|= {cof/cafe bem/beam}
^- (bolt arch)
=+ von=(save ~ %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)
=+ von=(save ~ %cx bem)
?~ von
[p=*cafe q=[%1 [[%x bem ~] ~ ~]]]
?~ u.von
(flaw cof leaf+"file not found" (smyt (tope bem)) ~)
(fine cof u.u.von)
::
++ lily :: translation targets
|= {cof/cafe for/mark} ^- (bolt (set @tas))
%+ cope (lilt cof)
|= {cof/cafe lil/(jug mark mark)}
(fine cof (~(get ju lil) for))
::
++ lilt
|= cof/cafe ^- (bolt (jug mark mark))
%+ (clef %lilt) (fine cof bek)
^- (burg beak (jug mark mark))
|= {cof/cafe bek/beak}
%+ cope (lyle(bek bek) cof)
%- flux
|= mav/(map mark vase)
=+ all=(~(tap by mav))
|- ^- (jug mark mark)
?~ all ~
%- ~(gas ju $(all t.all))
=+ `{for/mark vax/vase}`i.all
~| weg=(jam 3 p.vax)
%+ weld
^- (list {mark mark})
?. (slob %grab p.vax) ~
=+ gab=(slap vax [%limb %grab])
:: =+ opt=(skip (sloe p.gap) |=(fro/mark =(fro %noun)))
(turn (sloe p.gab) |=(fro/mark [fro for]))
?. (slob %grow p.vax) ~
=+ gow=(slap vax [%limb %grow])
(turn (sloe p.gow) |=(too/mark [for too]))
::
++ lyle :: all mark doors
|= cof/cafe ^- (bolt (map mark vase))
=| {sup/path res/(map mark vase)}
|^ `(bolt (map mark vase))`wide
++ here [bek (welp sup /mar)]
++ wide
%+ cope (lend cof here)
|= {cof/cafe arc/arch}
=+ all=(skim (turn (~(tap by dir.arc)) head) (sane %tas))
=. all (sort all gth) :: short-deepest
|- ^- (bolt (map mark vase))
?~ all (fine cof res)
%+ cope $(all t.all)
|= {cof/cafe res/(map mark vase)}
=. ^res res
=- (cope - (tall i.all))
?. (~(has by dir.arc) %hoon) (flue cof)
node(cof cof)
::
++ tall
|= for/term
|= {cof/cafe new/(unit {mark vase})}
wide(cof cof, sup [for sup], res (~(gas by res) (drop new)))
::
++ node
^- (bolt (unit {mark vase}))
=+ pax=(flop sup)
?~ pax (flue cof)
=+ for=(tack pax)
?: (~(has by res) for) (flue cof)
=+ raf=(lear cof here)
?. ?=($2 -.q.raf)
(cope raf (flux |=(vax/vase (some [for vax]))))
=- ((slog (flop `tang`-)) (flue cof))
=+ (lent t.pax)
?: ?~ - | :: error if level above built
(~(has by res) (tack i.pax (scag (dec -) t.pax)))
~
:_(q.q.raf leaf+"! {<`mark`for>} build failed, ignoring.")
--
::
++ lima :: load at depth
|= {cof/cafe for/mark bem/beam arg/heel}
%+ (clef %bake) [p=cof q=[%0 p=[bem `~] q=[for bem arg]]]
|= {cof/cafe for/mark bem/beam arg/heel}
^- (bolt (unit vase))
%+ cope (laze cof bem)
|= {cof/cafe mal/(map mark ?)}
=+ lit=(~(get by mal) for)
?^ lit
(cope (lace cof for bem arg u.lit) (flux some))
=+ opt=(sa (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 bem arg (~(got by mal) i.wuy))
|= {cof/cafe hoc/vase}
(cope (lope cof i.wuy t.wuy hoc) (flux some))
::
++ lime :: load beam
|= {cof/cafe for/mark bem/beam arg/heel}
=+ [mob=bem mer=(flop arg)]
|- ^- (bolt vase)
%+ cope (lima cof for mob (flop mer))
|= {cof/cafe vux/(unit vase)}
?^ vux (fine cof u.vux)
?~ s.mob
%+ flaw cof
~[leaf+"build {<for>}" leaf+"no usable ancestors" (smyt (tope bem))]
^$(s.mob t.s.mob, mer [i.s.mob mer])
::
++ link :: translate
|= {cof/cafe too/mark for/mark vax/vase}
^- (bolt vase)
:: %+ cool |.(leaf+"ford: link {<too>} {<for>} {<p.vax>}")
?: =(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 [%tsgr [%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=(sa fro)]
^- (bolt (list 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))
?: =(too 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] (mole (slod save)))
|=(val/* `vase`[typ val])
::
++ 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)
$bake
:: ~& > [p.kas (tope q.kas)]
:: %+ cool |.(leaf+"ford: bake {<p.kas>} {<(tope q.kas)>}")
%+ cope (lima cof p.kas q.kas r.kas)
|= {cof/cafe vux/(unit vase)}
?~ vux
(flaw cof leaf+"file not found" (smyt (tope q.kas)) ~)
(fine cof [%& p.kas u.vux])
::
$boil
^- (bolt gage)
%+ cool |.(leaf+"ford: boil {<p.kas>} {<(tope q.kas)>} {<r.kas>}")
%+ cope (lamp cof q.kas)
|= {cof/cafe bem/beam}
%+ cope (lime cof p.kas bem r.kas)
|= {cof/cafe vax/vase}
(fine cof `gage`[%& p.kas vax])
::
$bunt
%+ cool |.(leaf+"ford: bunt {<p.kas>}")
?: ?=(?($hoon $hook) 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) :: XX vulcanization
(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 {<p.kas>}")
%+ cope $(kas q.kas)
%- tabl-run
|= {cof/cafe cay/cage}
^- (bolt gage)
%+ cool |.(leaf+"ford: casting {<p.cay>} to {<p.kas>}")
%+ 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 {<p.kas>}")
%+ 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.kas>} {<`@p`(mug q.kas)>} {<`@p`(mug r.kas)>}"
(join cof p.kas q.kas r.kas)
::
$mash
%+ cool
|.
leaf+"ford: mash {<p.kas>} {<`@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)
::
$tabl
%- cope :_ (flux |=(rex/(list (pair gage gage)) [%tabl rex]))
!.
|- ^- (bolt (list (pair gage gage)))
?~ p.kas (fine cof ~)
%. [cof p.kas]
;~ cope
;~ coax
|=({cof/cafe _p.kas} (fret ^^$(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]))
==
::
$vale
%+ cool |.(leaf+"ford: vale {<p.kas>} {<`@p`(mug q.kas)>}")
%+ cope (lave cof p.kas q.kas)
(flux |=(vax/vase `gage`[%& p.kas vax]))
::
$volt
%+ cool |.(leaf+"ford: volt {<p.p.kas>}")
%+ 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] (mole (slod save)))
|=(val/* `vase`[typ val])
::
++ meow :: assemble
|= {how/beam arg/heel}
=| $: rop/(map term (pair hoof twig)) :: structures
bil/(map term (pair hoof twig)) :: libraries
boy/(list twig) :: body stack
==
~% %meow ..meow
==
%able able
%abut abut
%apex apex
%body body
%chad chad
%chai chai
%chap chap
%head head
%hone hone
%neck neck
%wilt wilt
==
|%
++ able :: assemble preamble
^- twig
:+ %tsgr
?:(=(~ rop) [%$ 1] [%brcn (~(run by rop) |=({^ a/twig} [%ash a]))])
?:(=(~ bil) [%$ 1] [%brcn (~(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 gox/vase}
%+ cope (maim cof (slop gox bax) [%tssg (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 |=(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 @ vase) ^- vase
?~ doy [[%atom %n `~] 0]
%+ slop
(slop [[%atom %ta ~] p.n.doy] q.n.doy)
(slop $(doy l.doy) $(doy r.doy))
::
++ chap :: produce resources
|= {cof/cafe bax/vase hon/horn}
^- (bolt vase)
?- -.hon
$ape (maim cof bax p.hon)
$arg
%+ cope (maim cof bax p.hon)
|= {cof/cafe gat/vase}
(maul cof gat !>([how arg]))
::
$day (chad cof bax %dr p.hon)
$dub
%+ cope $(hon q.hon)
(flux |=(vax/vase [[%face p.hon p.vax] q.vax]))
::
$fan
%+ cope
|- ^- (bolt (list vase))
?~ p.hon (flue cof)
%+ cope ^$(cof cof, hon i.p.hon)
|= {cof/cafe 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))
::
$for $(hon q.hon, s.how (weld (flop p.hon) s.how))
$hel
%= $
hon q.hon
arg (scag p.hon arg)
s.how (weld (slag p.hon arg) s.how)
==
::
$hub (chad cof bax %ud p.hon)
$man
|- ^- (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 vax/vase}
%+ fine cof
%+ slop
(slop [[%atom %tas ~] p.n.p.hon] vax)
(slop lef rig)
::
$now (chad cof bax %da p.hon)
$nap (chai cof bax p.hon)
$see
=. r.p.hon ?:(?=({$ud $0} r.p.hon) r.how r.p.hon)
$(hon q.hon, how p.hon)
::
$saw
%+ cope $(hon q.hon)
|= {cof/cafe sam/vase}
%+ cope (maim cof bax p.hon)
|= {cof/cafe gat/vase}
(maul cof gat sam)
::
$sic
%+ cope $(hon q.hon)
|= {cof/cafe vax/vase}
%+ cope (maim cof bax [%cnbc p.hon])
|= {cof/cafe tug/vase}
?. (~(nest ut p.tug) | p.vax)
(flaw cof [%leaf "span error: {<p.hon>} {<q.hon>}"]~)
(fine cof [p.tug q.vax])
::
$toy (cope (cope (make cof %boil p.hon how ~) furl) feel)
==
::
++ chop :: possible subpaths
|= {old/(set beam) hon/horn}
=+ acc=[new=*(set beam) old=old]
|- ^+ acc
?- -.hon
?($ape $arg $toy) acc
?($dub $sic $saw) $(hon q.hon)
?($day $hub $nap $now) acc :: drop to avoid cycles
$for $(hon q.hon, s.how (weld (flop p.hon) s.how))
$see
=. r.p.hon ?:(?=({$ud $0} r.p.hon) r.how r.p.hon)
$(hon q.hon, how p.hon)
::
$hel
=. s.how (weld (slag p.hon arg) s.how)
?: (~(has in old.acc) how) acc
[(~(put in new.acc) how) (~(put in old.acc) how)]
::
$fan
|- ^+ acc
?~ p.hon acc
^$(hon i.p.hon, acc $(p.hon t.p.hon))
::
$man
|- ^+ acc
?~ p.hon acc
=. acc $(p.hon l.p.hon, acc $(p.hon r.p.hon))
^$(hon q.n.p.hon)
==
::
++ 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]>}"]~)
$(bir t.bir)
%+ cope (fame cof (hone %sur i.bir))
|= {cof/cafe bem/beam}
%+ cope (fade cof %hoon bem)
|= {cof/cafe hyd/hood}
%+ cope (apex(how bem, boy ~) cof hyd)
|= {cof/cafe sel/_..head}
=. ..head
%= sel
boy boy
how how
rop %+ ~(put by (~(uni by rop) rop.sel))
p.i.bir
[i.bir [%tssg (flop boy.sel)]]
==
^^^$(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]>}"]~)
$(bir t.bir)
%+ cope (fame cof (hone %lib i.bir))
|= {cof/cafe bem/beam}
%+ cope (fade cof %hoon bem)
|= {cof/cafe hyd/hood}
%+ cope (apex(how bem, boy ~) cof hyd)
|= {cof/cafe sel/_..neck}
=. ..neck
%= sel
how how
bil (~(put by bil) p.i.bir [i.bir [%tssg (flop boy.sel)]])
==
^^^$(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 [[%tssg 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 [%tssg 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 [[%brcn 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 $hook) p.cay)
?. ?=($txt-diff p.coy)
(flaw cof leaf+"{<p.cay>} mark with bad diff span: {<p.coy>}" ~)
=+ txt=((soft @t) q.q.cay)
?~ txt
(flaw cof leaf+"{<p.cay>} mark on bad data" ~)
=+ dif=((soft (urge cord)) q.q.coy)
?~ dif
=- (flaw cof leaf+"{<p.cay>} data with bad diff" -)
[>span=p.q.coy< >want=p:!>(*(urge cord))< ~]
=+ pac=(role (lurk (lore (cat 3 u.txt '\0a')) u.dif))
(fine cof %& 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 %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 ~) :: 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))
::
++ save
^- sled
|= {(unit (set monk)) tem/term bem/beam}
^- (unit (unit cage))
=+ (~(get by keg) tem bem)
?^ -
``u.-
(ska +<.$)
--
--
::
--
. ==
=| axle
=* lex -
|= {now/@da eny/@ ski/sled} :: activate
^? :: opaque core
~% %ford-d ..is ~
|% ::
++ call :: request
|= {hen/duct hic/(hypo (hobo kiss))}
^+ [p=*(list move) q=..^$]
=> .(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/lilt/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))
::
=< 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))
::
tasks+`[dym tad]
==
=+ our=p.q.hic
=+ ^= bay ^- baby
=+ buy=(~(get by pol.lex) our)
?~(buy *baby u.buy)
=^ mos bay
?- -.q.hic
$wasp
abet:(~(awap za [our hen [now eny ski] ~] bay) q.q.hic)
$exec
?~ q.q.hic
abet:~(apax za [our hen [now eny ski] ~] bay)
=. p.u.q.q.hic -:(norm ski p.u.q.q.hic ~)
abet:(~(apex za [our hen [now eny ski] ~] bay) u.q.q.hic)
==
[mos ..^$(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))]
--