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290 lines
7.9 KiB
Markdown
290 lines
7.9 KiB
Markdown
section 2eD
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===========
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<h3 id="++bend"><code>++bend</code></h3>
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Conditional composer
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++ bend :: conditional comp
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~/ %bend
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|* raq=_|*([a=* b=*] [~ u=[a b]])
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~/ %fun
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|* [vex=edge sab=_rule]
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?~ q.vex
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vex
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=+ yit=(sab q.u.q.vex)
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=+ yur=(last p.vex p.yit)
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?~ q.yit
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[p=yur q=q.vex]
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=+ vux=(raq p.u.q.vex p.u.q.yit)
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?~ vux
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[p=yur q=q.vex]
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[p=yur q=[~ u=[p=u.vux q=q.u.q.yit]]]
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::
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Parsing composer: connects the edge `vex` with the subsequent rule `sab`
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as an optional suffix, using the gate `raq` to compose or reject its
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result. If there is no suffix, or if the suffix fails to be composed
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with the current result, the current result is produced. Used to map a
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group of rules to a specified output.
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`raq` is a [gate]().
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`sab` is a [rule]().
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`vex` is an [edge]().
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~zod/try=> (;~((bend |=([a=char b=char] ?.(=(a b) ~ (some +(a))))) prn prn) [1 1] "qs")
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[p=[p=1 q=3] q=[~ u=[p=~~q q=[p=[p=1 q=2] q="s"]]]]
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~zod/try=> (;~((bend |=([a=char b=char] ?.(=(a b) ~ (some +(a))))) prn prn) [1 1] "qqq")
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[p=[p=1 q=3] q=[~ u=[p=~~r q=[p=[p=1 q=3] q="q"]]]]
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~zod/try=> (scan "aa" ;~((bend |=([a=char b=char] ?.(=(a b) ~ (some +(a))))) prn prn))
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~~b
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~zod/try=> (scan "ba" ;~((bend |=([a=char b=char] ?.(=(a b) ~ (some +(a))))) prn prn))
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! {1 3}
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! exit
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~zod/try=> `(unit ,@tas)`(scan "" ;~((bend) (easy ~) sym))
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~
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~zod/try=> `(unit ,@tas)`(scan "sep" ;~((bend) (easy ~) sym))
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[~ %sep]
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------------------------------------------------------------------------
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<h3 id="++comp"><code>++comp</code></h3>
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Arbitrary compose
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++ comp
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~/ %comp
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|* raq=_|*([a=* b=*] [a b]) :: arbitrary compose
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~/ %fun
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|* [vex=edge sab=_rule]
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?~ q.vex
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vex
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=+ yit=(sab q.u.q.vex)
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=+ yur=(last p.vex p.yit)
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?~ q.yit
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[p=yur q=q.yit]
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[p=yur q=[~ u=[p=(raq p.u.q.vex p.u.q.yit) q=q.u.q.yit]]]
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::
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Parsing composer: connects the edge `vex` with a following rule `sab`,
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combining the contents of `vex` with the result of `sab` using a binary
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gate `raq`. Used to fold over the results of several rules.
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`raq` is a [gate]() that accepts a cell of two nouns, `a` and `b`, and
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produces a cell of two nouns.
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`sab` is a [rule]().
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`vex` is an [edge]().
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~zod/try=> (scan "123" ;~((comp |=([a=@u b=@u] (add a b))) dit dit dit))
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6
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~zod/try=> (scan "12" ;~((comp |=([a=@u b=@u] (add a b))) dit dit dit))
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! {1 3}
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! exit
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------------------------------------------------------------------------
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<h3 id="++glue"><code>++glue</code></h3>
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Skip delimiter
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++ glue :: add rule
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~/ %glue
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|* bus=_rule
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~/ %fun
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|* [vex=edge sab=_rule]
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(plug vex ;~(pfix bus sab))
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::
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Parsing composer: connects an edge `vex` with a following rule `sab` by
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parsing the rule `bus` (the delimiting symbol) and throwing out the
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result.
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`bus` is a [rule]().
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`sab` is a [rule]().
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`vex` is an [edge]().
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~zod/try=> (scan "200|mal|bon" ;~((glue bar) dem sym sym))
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[q=200 7.102.829 7.237.474]
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~zod/try=> `[@u @tas @tas]`(scan "200|mal|bon" ;~((glue bar) dem sym sym))
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[200 %mal %bon]
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~zod/try=> (scan "200|;|bon" ;~((glue bar) dem sem sym))
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[q=200 ~~~3b. 7.237.474]
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~zod/try=> (scan "200.;.bon" ;~((glue dot) dem sem sym))
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[q=200 ~~~3b. 7.237.474]
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------------------------------------------------------------------------
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<h3 id="++less"><code>++less</code></h3>
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Parse unless
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++ less :: no first and second
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|* [vex=edge sab=_rule]
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?~ q.vex
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=+ roq=(sab)
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[p=(last p.vex p.roq) q=q.roq]
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vex(q ~)
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::
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Parsing composer: if an edge `vex` reflects a success, fail. Otherwise,
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connect `vex` with the following rule.
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`sab` is a [rule]().
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`vex` is an [edge]().
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~zod/try=> (scan "sas-/lo" (star ;~(less lus bar prn)))
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"sas-/lo"
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~zod/try=> (scan "sas-/l+o" (star ;~(less lus bar prn)))
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! {1 8}
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! exit
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~zod/try=> (scan "sas|-/lo" (star ;~(less lus bar prn)))
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! {1 5}
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! exit
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------------------------------------------------------------------------
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<h3 id="++pfix"><code>++pfix</code></h3>
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Discard first rule
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++ pfix :: discard first rule
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~/ %pfix
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(comp |*([a=* b=*] b))
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::
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Parsing composer: connects an [edge]() `vex` with two subsequent rules,
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ignoring the result of the first and producing the result of the second.
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`vex` is an [edge]().
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~zod/try=> `@t`(scan "%him" ;~(pfix cen sym))
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'him'
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~zod/try=> (scan "+++10" ;~(pfix (star lus) dem))
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q=10
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------------------------------------------------------------------------
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<h3 id="++plug"><code>++plug</code></h3>
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Parse to tuple
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++ plug :: first then second
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~/ %plug
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|* [vex=edge sab=_rule]
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?~ q.vex
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vex
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=+ yit=(sab q.u.q.vex)
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=+ yur=(last p.vex p.yit)
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?~ q.yit
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[p=yur q=q.yit]
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[p=yur q=[~ u=[p=[p.u.q.vex p.u.q.yit] q=q.u.q.yit]]]
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::
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Parsing composer: connects `vex` with a following rule `sab`, producing
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a cell of both the results. See also: the monad applicator [;\~]() for a
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more detailed explanation.
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`sab` is a [rule]().
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`vex` is an [edge]().
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~zod/try=> (scan "1..20" ;~(plug dem dot dot dem))
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[q=1 ~~~. ~~~. q=20]
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~zod/try=> (scan "moke/~2014.1.1" ;~(plug sym fas nuck:so))
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[1.701.539.693 ~~~2f. [% p=[p=~.da q=170.141.184.500.766.106.671.844.917.172.921.958.400]]]
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~zod/try=> ;;(,[@tas @t ~ %da @da] (scan "moke/~2014.1.1" ;~(plug sym fas nuck:so)))
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[%moke '/' ~ %da ~2014.1.1]
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------------------------------------------------------------------------
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<h3 id="++pose"><code>++pose</code></h3>
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Parse options
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++ pose :: first or second
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~/ %pose
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|* [vex=edge sab=_rule]
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?~ q.vex
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=+ roq=(sab)
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[p=(last p.vex p.roq) q=q.roq]
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vex
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Parsing composer: if `vex` reflects a failure, connect it with the
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following rule `sab`. See also: the monad applicator [;\~]()
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`sab` is a [rule]().
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`vex` is an [edge]().
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~zod/try=> `@t`(scan "+" ;~(pose lus tar cen))
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'+'
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~zod/try=> `@t`(scan "*" ;~(pose lus tar cen))
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'*'
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~zod/try=> `@t`(scan "%" ;~(pose lus tar cen))
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'%'
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~zod/try=> `@t`(scan "-" ;~(pose lus tar cen))
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! {1 1}
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! exit
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------------------------------------------------------------------------
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<h3 id="++simu"><code>++simu</code></h3>
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First and second
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++ simu :: first and second
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|* [vex=edge sab=_rule]
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?~ q.vex
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vex
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=+ roq=(sab)
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roq
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::
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Parsing composer: if an edge `vex` reflects a failure, fail. Otherwise,
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connect `vex` with the following rule.
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`sab` is a [rule]().
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`vex` is an [edge]().
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~zod/try=> (scan "~zod" scat:vast)
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[%dtzy p=%p q=0]
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~zod/try=> (scan "%zod" scat:vast)
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[%dtzz p=%tas q=6.582.138]
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~zod/try=> (scan "%zod" ;~(simu cen scat:vast))
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[%dtzz p=%tas q=6.582.138]
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~zod/try=> (scan "~zod" ;~(simu cen scat:vast))
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! {1 1}
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! exit
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------------------------------------------------------------------------
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<h3 id="++sfix"><code>++sfix</code></h3>
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Discard second rule
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++ sfix :: discard second rule
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~/ %sfix
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(comp |*([a=* b=*] a))
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Parsing composer: connects `vex` with two subsequent rules returning the
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result of the first and discarding the result of the second.
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`a` is the result of parsing the first [rule]().
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`b` is the result of of parsing the second [rule]().
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~zod/try=> `@t`(scan "him%" ;~(sfix sym cen))
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'him'
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~zod/try=> (scan "10+++" ;~(sfix dem (star lus)))
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q=10
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------------------------------------------------------------------------
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