! Copyright (C) 2005, 2011 Slava Pestov, Daniel Ehrenberg. ! See http://factorcode.org/license.txt for BSD license. USING: accessors kernel kernel.private math math.order math.private slots.private ; IN: sequences MIXIN: sequence GENERIC: length ( seq -- n ) flushable GENERIC: set-length ( n seq -- ) GENERIC: nth ( n seq -- elt ) flushable GENERIC: set-nth ( elt n seq -- ) GENERIC: new-sequence ( len seq -- newseq ) flushable GENERIC: new-resizable ( len seq -- newseq ) flushable GENERIC: like ( seq exemplar -- newseq ) flushable GENERIC: clone-like ( seq exemplar -- newseq ) flushable : new-like ( len exemplar quot -- seq ) over [ [ new-sequence ] dip call ] dip like ; inline M: sequence like drop ; inline GENERIC: lengthen ( n seq -- ) GENERIC: shorten ( n seq -- ) M: sequence lengthen 2dup length > [ set-length ] [ 2drop ] if ; inline M: sequence shorten 2dup length < [ set-length ] [ 2drop ] if ; inline : empty? ( seq -- ? ) length 0 = ; inline : if-empty ( ..a seq quot1: ( ..a -- ..b ) quot2: ( ..a seq -- ..b ) -- ..b ) [ dup empty? ] [ [ drop ] prepose ] [ ] tri* if ; inline : when-empty ( seq quot -- ) [ ] if-empty ; inline : unless-empty ( seq quot -- ) [ ] swap if-empty ; inline : delete-all ( seq -- ) 0 swap set-length ; : first ( seq -- first ) 0 swap nth ; inline : second ( seq -- second ) 1 swap nth ; inline : third ( seq -- third ) 2 swap nth ; inline : fourth ( seq -- fourth ) 3 swap nth ; inline : set-first ( first seq -- ) 0 swap set-nth ; inline : set-second ( second seq -- ) 1 swap set-nth ; inline : set-third ( third seq -- ) 2 swap set-nth ; inline : set-fourth ( fourth seq -- ) 3 swap set-nth ; inline : push ( elt seq -- ) [ length ] [ set-nth ] bi ; ERROR: bounds-error index seq ; GENERIC# bounds-check? 1 ( n seq -- ? ) M: integer bounds-check? ( n seq -- ? ) dupd length < [ 0 >= ] [ drop f ] if ; inline : bounds-check ( n seq -- n seq ) 2dup bounds-check? [ bounds-error ] unless ; inline MIXIN: immutable-sequence ERROR: immutable element index sequence ; M: immutable-sequence set-nth immutable ; INSTANCE: immutable-sequence sequence ! The f object supports the sequence protocol trivially M: f length drop 0 ; inline M: f nth-unsafe nip ; inline M: f like drop [ f ] when-empty ; inline INSTANCE: f immutable-sequence ! Integer sequences TUPLE: iota-tuple { n integer read-only } ; ERROR: non-negative-integer-expected n ; : iota ( n -- iota ) dup 0 < [ non-negative-integer-expected ] when iota-tuple boa ; inline M: iota-tuple length n>> ; inline M: iota-tuple nth-unsafe drop ; inline INSTANCE: iota-tuple immutable-sequence : 1sequence ( obj exemplar -- seq ) 1 swap [ (1sequence) ] new-like ; inline : 2sequence ( obj1 obj2 exemplar -- seq ) 2 swap [ (2sequence) ] new-like ; inline : 3sequence ( obj1 obj2 obj3 exemplar -- seq ) 3 swap [ (3sequence) ] new-like ; inline : 4sequence ( obj1 obj2 obj3 obj4 exemplar -- seq ) 4 swap [ (4sequence) ] new-like ; inline : first2 ( seq -- first second ) 1 swap bounds-check nip first2-unsafe ; inline : first3 ( seq -- first second third ) 2 swap bounds-check nip first3-unsafe ; inline : first4 ( seq -- first second third fourth ) 3 swap bounds-check nip first4-unsafe ; inline : ?nth ( n seq -- elt/f ) 2dup bounds-check? [ nth-unsafe ] [ 2drop f ] if ; inline : ?set-nth ( elt n seq -- ) 2dup bounds-check? [ set-nth-unsafe ] [ 3drop ] if ; inline : ?first ( seq -- elt/f ) 0 swap ?nth ; inline : ?second ( seq -- elt/f ) 1 swap ?nth ; inline : ?last ( seq -- elt/f ) [ length 1 - ] keep over 0 < [ 2drop f ] [ nth-unsafe ] if ; inline MIXIN: virtual-sequence GENERIC: virtual-exemplar ( seq -- seq' ) GENERIC: virtual@ ( n seq -- n' seq' ) M: virtual-sequence nth virtual@ nth ; inline M: virtual-sequence set-nth virtual@ set-nth ; inline M: virtual-sequence nth-unsafe virtual@ nth-unsafe ; inline M: virtual-sequence set-nth-unsafe virtual@ set-nth-unsafe ; inline M: virtual-sequence like virtual-exemplar like ; inline M: virtual-sequence new-sequence virtual-exemplar new-sequence ; inline INSTANCE: virtual-sequence sequence ! A reversal of an underlying sequence. TUPLE: reversed { seq read-only } ; C: reversed M: reversed virtual-exemplar seq>> ; inline M: reversed virtual@ seq>> [ length swap - 1 - ] keep ; inline M: reversed length seq>> length ; inline INSTANCE: reversed virtual-sequence ! A slice of another sequence. TUPLE: slice { from read-only } { to read-only } { seq read-only } ; : collapse-slice ( m n slice -- m' n' seq ) [ from>> ] [ seq>> ] bi [ [ + ] curry bi@ ] dip ; inline ERROR: slice-error from to seq reason ; : check-slice-error ( from to seq ? string -- from to seq ) [ slice-error ] curry when ; inline : check-slice ( from to seq -- from to seq ) 3dup [ 2drop 0 < "start < 0" check-slice-error ] [ [ drop ] 2dip length > "end > sequence" check-slice-error ] [ drop > "start > end" check-slice-error ] 3tri ; inline ( from to seq -- slice ) dup slice? [ collapse-slice ] when slice boa ; inline PRIVATE> : ( from to seq -- slice ) check-slice ; inline M: slice virtual-exemplar seq>> ; inline M: slice virtual@ [ from>> + ] [ seq>> ] bi ; inline M: slice length [ to>> ] [ from>> ] bi - ; inline : short ( seq n -- seq n' ) over length min ; inline : head-slice ( seq n -- slice ) (head) ; inline : tail-slice ( seq n -- slice ) (tail) ; inline : rest-slice ( seq -- slice ) 1 tail-slice ; inline : head-slice* ( seq n -- slice ) from-end head-slice ; inline : tail-slice* ( seq n -- slice ) from-end tail-slice ; inline : but-last-slice ( seq -- slice ) 1 head-slice* ; inline INSTANCE: slice virtual-sequence ! One element repeated many times TUPLE: repetition { len read-only } { elt read-only } ; : ( len elt -- repetition ) over 0 < [ non-negative-integer-expected ] when repetition boa ; inline M: repetition length len>> ; inline M: repetition nth-unsafe nip elt>> ; inline INSTANCE: repetition immutable-sequence copy-state : ((copy)) ( n copy -- ) [ [ src-i>> + ] [ src>> ] bi nth-unsafe ] [ [ dst-i>> + ] [ dst>> ] bi set-nth-unsafe ] 2bi ; inline : (copy) ( n copy -- dst ) over 0 <= [ nip dst>> ] [ [ 1 - ] dip [ ((copy)) ] [ (copy) ] 2bi ] if ; inline recursive : subseq>copy ( from to seq -- n copy ) [ over - check-length swap ] dip 3dup nip new-sequence 0 swap ; inline : bounds-check-head ( n seq -- n seq ) over 0 < [ bounds-error ] when ; inline : check-copy ( src n dst -- src n dst ) 3dup bounds-check-head [ swap length + ] dip lengthen ; inline : copy-unsafe ( src i dst -- ) #! The check-length call forces partial dispatch [ [ length check-length 0 ] keep ] 2dip (copy) drop ; inline PRIVATE> : subseq ( from to seq -- subseq ) [ check-slice subseq>copy (copy) ] keep like ; : head ( seq n -- headseq ) (head) subseq ; : tail ( seq n -- tailseq ) (tail) subseq ; : rest ( seq -- tailseq ) 1 tail ; : head* ( seq n -- headseq ) from-end head ; : tail* ( seq n -- tailseq ) from-end tail ; : but-last ( seq -- headseq ) 1 head* ; : copy ( src i dst -- ) check-copy copy-unsafe ; inline M: sequence clone-like [ dup length ] dip new-sequence [ 0 swap copy-unsafe ] keep ; inline M: immutable-sequence clone-like like ; inline : push-all ( src dst -- ) [ length ] [ copy ] bi ; inline : append-as ( seq1 seq2 exemplar -- newseq ) [ 2dup [ length ] bi@ + ] dip [ (append) ] new-like ; inline : 3append-as ( seq1 seq2 seq3 exemplar -- newseq ) [ 3dup [ length ] tri@ + + ] dip [ [ [ 2over [ length ] bi@ + ] dip copy-unsafe ] [ (append) ] bi ] new-like ; inline : append ( seq1 seq2 -- newseq ) over append-as ; : prepend-as ( seq1 seq2 exemplar -- newseq ) swapd append-as ; inline : prepend ( seq1 seq2 -- newseq ) over prepend-as ; : 3append ( seq1 seq2 seq3 -- newseq ) pick 3append-as ; : surround ( seq1 seq2 seq3 -- newseq ) swapd 3append ; inline : glue ( seq1 seq2 seq3 -- newseq ) swap 3append ; inline : change-nth ( ..a i seq quot: ( ..a elt -- ..b newelt ) -- ..b ) [ [ nth ] dip call ] 3keep drop set-nth-unsafe ; inline : min-length ( seq1 seq2 -- n ) [ length ] bi@ min ; inline : max-length ( seq1 seq2 -- n ) [ length ] bi@ max ; inline : each ( ... seq quot: ( ... x -- ... ) -- ... ) (each) each-integer ; inline : reduce ( ... seq identity quot: ( ... prev elt -- ... next ) -- ... result ) swapd each ; inline : map-integers ( ... len quot: ( ... i -- ... elt ) exemplar -- ... newseq ) [ over ] dip [ [ collect ] keep ] new-like ; inline : map-as ( ... seq quot: ( ... elt -- ... newelt ) exemplar -- ... newseq ) [ (each) ] dip map-integers ; inline : map ( ... seq quot: ( ... elt -- ... newelt ) -- ... newseq ) over map-as ; inline : replicate-as ( ... len quot: ( ... -- ... newelt ) exemplar -- ... newseq ) [ [ drop ] prepose ] dip map-integers ; inline : replicate ( ... len quot: ( ... -- ... newelt ) -- ... newseq ) { } replicate-as ; inline : map! ( ... seq quot: ( ... elt -- ... newelt ) -- ... seq ) over [ map-into ] keep ; inline : accumulate-as ( ... seq identity quot: ( ... prev elt -- ... next ) exemplar -- ... final newseq ) [ (accumulate) ] dip map-as ; inline : accumulate ( ... seq identity quot: ( ... prev elt -- ... next ) -- ... final newseq ) pick accumulate-as ; inline : accumulate! ( ... seq identity quot: ( ... prev elt -- ... next ) -- ... final seq ) (accumulate) map! ; inline : 2each ( ... seq1 seq2 quot: ( ... elt1 elt2 -- ... ) -- ... ) (2each) each-integer ; inline : 2reduce ( ... seq1 seq2 identity quot: ( ... prev elt1 elt2 -- ... next ) -- ... result ) [ -rot ] dip 2each ; inline : 2map-as ( ... seq1 seq2 quot: ( ... elt1 elt2 -- ... newelt ) exemplar -- ... newseq ) [ (2each) ] dip map-integers ; inline : 2map ( ... seq1 seq2 quot: ( ... elt1 elt2 -- ... newelt ) -- ... newseq ) pick 2map-as ; inline : 2all? ( ... seq1 seq2 quot: ( ... elt1 elt2 -- ... ? ) -- ... ? ) (2each) all-integers? ; inline : 3each ( ... seq1 seq2 seq3 quot: ( ... elt1 elt2 elt3 -- ... ) -- ... ) (3each) each-integer ; inline : 3map-as ( ... seq1 seq2 seq3 quot: ( ... elt1 elt2 elt3 -- ... newelt ) exemplar -- ... newseq ) [ (3each) ] dip map-integers ; inline : 3map ( ... seq1 seq2 seq3 quot: ( ... elt1 elt2 elt3 -- ... newelt ) -- ... newseq ) [ pick ] dip swap 3map-as ; inline : find-from ( ... n seq quot: ( ... elt -- ... ? ) -- ... i elt ) [ (find-integer) ] (find-from) ; inline : find ( ... seq quot: ( ... elt -- ... ? ) -- ... i elt ) [ find-integer ] (find) ; inline : find-last-from ( ... n seq quot: ( ... elt -- ... ? ) -- ... i elt ) [ nip find-last-integer ] (find-from) ; inline : find-last ( ... seq quot: ( ... elt -- ... ? ) -- ... i elt ) [ [ 1 - ] dip find-last-integer ] (find) ; inline : find-index-from ( ... n seq quot: ( ... elt i -- ... ? ) -- ... i elt ) [ (find-integer) ] (find-index-from) ; inline : find-index ( ... seq quot: ( ... elt i -- ... ? ) -- ... i elt ) [ find-integer ] (find-index) ; inline : all? ( ... seq quot: ( ... elt -- ... ? ) -- ... ? ) (each) all-integers? ; inline : push-if ( ..a elt quot: ( ..a elt -- ..b ? ) accum -- ..b ) [ keep ] dip rot [ push ] [ 2drop ] if ; inline : selector-for ( quot exemplar -- selector accum ) [ length ] keep (selector-for) ; inline : selector ( quot -- selector accum ) V{ } selector-for ; inline : filter-as ( ... seq quot: ( ... elt -- ... ? ) exemplar -- ... subseq ) pick length over [ (selector-for) [ each ] dip ] 2curry dip like ; inline : filter ( ... seq quot: ( ... elt -- ... ? ) -- ... subseq ) over filter-as ; inline : push-either ( ..a elt quot: ( ..a elt -- ..b ? ) accum1 accum2 -- ..b ) [ keep swap ] 2dip ? push ; inline : 2selector ( quot -- selector accum1 accum2 ) V{ } clone V{ } clone [ [ push-either ] 3curry ] 2keep ; inline : partition ( ... seq quot: ( ... elt -- ... ? ) -- ... trueseq falseseq ) over [ 2selector [ each ] 2dip ] dip [ like ] curry bi@ ; inline : collector-for ( quot exemplar -- quot' vec ) [ length ] keep new-resizable [ [ push ] curry compose ] keep ; inline : collector ( quot -- quot' vec ) V{ } collector-for ; inline : produce-as ( ..a pred: ( ..a -- ..b ? ) quot: ( ..b -- ..a obj ) exemplar -- ..b seq ) dup [ collector-for [ while ] dip ] curry dip like ; inline : produce ( ..a pred: ( ..a -- ..b ? ) quot: ( ..b -- ..a obj ) -- ..b seq ) { } produce-as ; inline : follow ( ... obj quot: ( ... prev -- ... result/f ) -- ... seq ) [ dup ] swap [ keep ] curry produce nip ; inline : each-index ( ... seq quot: ( ... elt index -- ... ) -- ... ) (each-index) each-integer ; inline : interleave ( ... seq between quot: ( ... elt -- ... ) -- ... ) pick empty? [ 3drop ] [ [ [ drop first-unsafe ] dip call ] [ [ bi* ] 2curry [ 1 ] 2dip (each) (each-integer) ] 3bi ] if ; inline : map-index-as ( ... seq quot: ( ... elt index -- ... newelt ) exemplar -- ... newseq ) [ dup length iota ] 2dip 2map-as ; inline : map-index ( ... seq quot: ( ... elt index -- ... newelt ) -- ... newseq ) { } map-index-as ; inline : reduce-index ( ... seq identity quot: ( ... prev elt index -- ... next ) -- ... result ) swapd each-index ; inline : index ( obj seq -- n ) [ = ] with find drop ; : index-from ( obj i seq -- n ) rot [ = ] curry find-from drop ; : last-index ( obj seq -- n ) [ = ] with find-last drop ; : last-index-from ( obj i seq -- n ) rot [ = ] curry find-last-from drop ; : indices ( obj seq -- indices ) swap V{ } clone [ [ (indices) ] 2curry each-index ] keep ; : nths ( indices seq -- seq' ) [ [ nth ] curry ] keep map-as ; : any? ( ... seq quot: ( ... elt -- ... ? ) -- ... ? ) find drop >boolean ; inline : member? ( elt seq -- ? ) [ = ] with any? ; : member-eq? ( elt seq -- ? ) [ eq? ] with any? ; : remove ( elt seq -- newseq ) [ = not ] with filter ; : remove-eq ( elt seq -- newseq ) [ eq? not ] with filter ; : sift ( seq -- newseq ) [ ] filter ; : harvest ( seq -- newseq ) [ empty? not ] filter ; : mismatch ( seq1 seq2 -- i ) [ min-length ] 2keep mismatch-unsafe ; inline M: sequence <=> [ mismatch ] 2keep pick [ 2nth-unsafe <=> ] [ [ length ] compare nip ] if ; : sequence= ( seq1 seq2 -- ? ) 2dup [ length ] bi@ dupd = [ -rot mismatch-unsafe not ] [ 3drop f ] if ; inline ERROR: assert-sequence got expected ; : assert-sequence= ( a b -- ) 2dup sequence= [ 2drop ] [ assert-sequence ] if ; fixnum swap [ [ -2 fixnum-shift-fast ] [ 5 fixnum-shift-fast ] bi fixnum+fast fixnum+fast ] keep fixnum-bitxor ; inline PRIVATE> : sequence-hashcode ( n seq -- x ) [ 0 ] 2dip [ hashcode* sequence-hashcode-step ] with each ; inline M: reversed equal? over reversed? [ sequence= ] [ 2drop f ] if ; M: slice equal? over slice? [ sequence= ] [ 2drop f ] if ; : move ( to from seq -- ) 2over = [ 3drop ] [ [ nth swap ] [ set-nth ] bi ] if ; inline : filter! ( ... seq quot: ( ... elt -- ... ? ) -- ... seq ) swap [ [ 0 0 ] dip (filter!) ] keep ; inline : remove! ( elt seq -- seq ) [ = not ] with filter! ; : remove-eq! ( elt seq -- seq ) [ eq? not ] with filter! ; : prefix ( seq elt -- newseq ) over [ over length 1 + ] dip [ (1sequence) [ 1 swap copy-unsafe ] keep ] new-like ; : suffix ( seq elt -- newseq ) over [ over length 1 + ] dip [ [ [ over length ] dip set-nth-unsafe ] keep [ 0 swap copy-unsafe ] keep ] new-like ; : suffix! ( seq elt -- seq ) over push ; inline : append! ( seq1 seq2 -- seq1 ) over push-all ; inline : last ( seq -- elt ) [ length 1 - ] keep over 0 < [ bounds-error ] [ nth-unsafe ] if ; inline : set-last ( elt seq -- ) [ length 1 - ] keep over 0 < [ bounds-error ] [ set-nth-unsafe ] if ; inline : pop* ( seq -- ) [ length 1 - ] [ shorten ] bi ; [ [ length ] keep ] dip (open-slice) ] 2dip set-length ] if ; PRIVATE> : delete-slice ( from to seq -- ) check-slice [ over [ - ] dip ] dip open-slice ; : remove-nth! ( n seq -- seq ) [ [ dup 1 + ] dip delete-slice ] keep ; : snip ( from to seq -- head tail ) [ swap head ] [ swap tail ] bi-curry bi* ; inline : snip-slice ( from to seq -- head tail ) [ swap head-slice ] [ swap tail-slice ] bi-curry bi* ; inline : replace-slice ( new from to seq -- seq' ) snip-slice surround ; : remove-nth ( n seq -- seq' ) [ [ dup 1 + ] dip snip-slice ] keep append-as ; : pop ( seq -- elt ) [ length 1 - ] keep over 0 >= [ [ nth-unsafe ] [ shorten ] 2bi ] [ bounds-error ] if ; : exchange ( m n seq -- ) [ nip bounds-check 2drop ] [ bounds-check 3drop ] [ exchange-unsafe ] 3tri ; : midpoint@ ( seq -- n ) length 2/ ; inline : reverse! ( seq -- seq ) [ [ midpoint@ ] [ length ] [ ] tri [ [ over - 1 - ] dip exchange-unsafe ] 2curry each-integer ] keep ; : reverse ( seq -- newseq ) [ dup [ length ] keep new-sequence [ 0 swap copy-unsafe ] keep reverse! ] keep like ; GENERIC: sum-lengths ( seq -- n ) M: object sum-lengths 0 [ length + ] reduce ; M: repetition sum-lengths [ len>> ] [ elt>> length ] bi * ; : concat-as ( seq exemplar -- newseq ) swap [ { } ] [ [ sum-lengths over new-resizable ] keep [ append! ] each ] if-empty swap like ; : concat ( seq -- newseq ) [ { } ] [ dup first concat-as ] if-empty ; : join-as ( seq glue exemplar -- newseq ) over empty? [ nip concat-as ] [ [ 2dup joined-length over new-resizable [ [ [ push-all ] 2curry ] [ nip [ push-all ] curry ] 2bi interleave ] keep ] dip like ] if ; : join ( seq glue -- newseq ) dup join-as ; inline : padding ( ... seq n elt quot: ( ... seq1 seq2 -- ... newseq ) -- ... newseq ) [ [ over length [-] dup 0 = [ drop ] ] dip [ ] curry ] dip compose if ; inline : pad-head ( seq n elt -- padded ) [ swap dup append-as ] padding ; : pad-tail ( seq n elt -- padded ) [ append ] padding ; : shorter? ( seq1 seq2 -- ? ) [ length ] bi@ < ; inline : longer? ( seq1 seq2 -- ? ) [ length ] bi@ > ; inline : shorter ( seq1 seq2 -- seq ) [ [ length ] bi@ <= ] 2keep ? ; inline : longer ( seq1 seq2 -- seq ) [ [ length ] bi@ >= ] 2keep ? ; inline : head? ( seq begin -- ? ) 2dup shorter? [ 2drop f ] [ [ length [ head-slice ] keep swap ] keep mismatch-unsafe not ] if ; : tail? ( seq end -- ? ) 2dup shorter? [ 2drop f ] [ [ length [ tail-slice* ] keep swap ] keep mismatch-unsafe not ] if ; : cut-slice ( seq n -- before-slice after-slice ) [ head-slice ] [ tail-slice ] 2bi ; inline : insert-nth ( elt n seq -- seq' ) swap cut-slice [ swap suffix ] dip append ; : halves ( seq -- first-slice second-slice ) dup midpoint@ cut-slice ; inline fixnum { [ 2drop nip ] [ 2nip swap nth-unsafe ] [ -rot [ drop swap nth2-unsafe ] dip call ] [ -rot [ drop swap nth3-unsafe ] dip bi@ ] } dispatch ] [ [ 2/ ] [ over - ] bi [ 2dup + ] dip [ (binary-reduce) ] [ 2curry ] curry 2bi@ pick [ 3bi ] dip call ] if ; inline recursive PRIVATE> : binary-reduce ( seq start quot: ( elt1 elt2 -- newelt ) -- value ) pick length 0 max 0 swap (binary-reduce) ; inline : cut ( seq n -- before after ) [ head ] [ tail ] 2bi ; : cut* ( seq n -- before after ) [ head* ] [ tail* ] 2bi ; : start* ( subseq seq n -- i ) pick length [ pick length swap - 1 + ] keep [ (start) ] curry (find-integer) 2nip ; : start ( subseq seq -- i ) 0 start* ; inline : subseq? ( subseq seq -- ? ) start >boolean ; : drop-prefix ( seq1 seq2 -- slice1 slice2 ) 2dup mismatch [ 2dup min-length ] unless* [ tail-slice ] curry bi@ ; : unclip ( seq -- rest first ) [ rest ] [ first-unsafe ] bi ; : unclip-last ( seq -- butlast last ) [ but-last ] [ last-unsafe ] bi ; : unclip-slice ( seq -- rest-slice first ) [ rest-slice ] [ first-unsafe ] bi ; inline : map-reduce ( ..a seq map-quot: ( ..a elt -- ..b intermediate ) reduce-quot: ( ..b prev intermediate -- ..a next ) -- ..a result ) [ [ dup first ] dip [ call ] keep ] dip compose swapd [ 1 ] 2dip (each) (each-integer) ; inline : 2map-reduce ( ..a seq1 seq2 map-quot: ( ..a elt1 elt2 -- ..b intermediate ) reduce-quot: ( ..b prev intermediate -- ..a next ) -- ..a result ) [ [ 2dup [ first ] bi@ ] dip [ call ] keep ] dip compose [ -rot ] dip [ 1 ] 3dip (2each) (each-integer) ; inline : map-find ( ... seq quot: ( ... elt -- ... result/f ) -- ... result elt ) [ find ] (map-find) ; inline : map-find-last ( ... seq quot: ( ... elt -- ... result/f ) -- ... result elt ) [ find-last ] (map-find) ; inline : unclip-last-slice ( seq -- butlast-slice last ) [ but-last-slice ] [ last-unsafe ] bi ; inline : trim-head-slice ( ... seq quot: ( ... elt -- ... ? ) -- ... slice ) (trim-head) tail-slice ; inline : trim-head ( ... seq quot: ( ... elt -- ... ? ) -- ... newseq ) (trim-head) tail ; inline : trim-tail-slice ( ... seq quot: ( ... elt -- ... ? ) -- ... slice ) (trim-tail) head-slice ; inline : trim-tail ( ... seq quot: ( ... elt -- ... ? ) -- ... newseq ) (trim-tail) head ; inline : trim-slice ( ... seq quot: ( ... elt -- ... ? ) -- ... slice ) [ trim-head-slice ] [ trim-tail-slice ] bi ; inline : trim ( ... seq quot: ( ... elt -- ... ? ) -- ... newseq ) [ trim-slice ] [ drop ] 2bi like ; inline GENERIC: sum ( seq -- n ) M: object sum 0 [ + ] binary-reduce ; inline M: iota-tuple sum length dup 1 - * 2/ ; inline M: repetition sum [ elt>> ] [ len>> ] bi * ; inline : product ( seq -- n ) 1 [ * ] binary-reduce ; : infimum ( seq -- n ) [ ] [ min ] map-reduce ; : supremum ( seq -- n ) [ ] [ max ] map-reduce ; : map-sum ( ... seq quot: ( ... elt -- ... n ) -- ... n ) [ 0 ] 2dip [ dip + ] curry [ swap ] prepose each ; inline : count ( ... seq quot: ( ... elt -- ... ? ) -- ... n ) [ 1 0 ? ] compose map-sum ; inline : cartesian-each ( ... seq1 seq2 quot: ( ... elt1 elt2 -- ... ) -- ... ) [ with each ] 2curry each ; inline : cartesian-map ( ... seq1 seq2 quot: ( ... elt1 elt2 -- ... newelt ) -- ... newseq ) [ with map ] 2curry map ; inline : cartesian-product ( seq1 seq2 -- newseq ) [ { } 2sequence ] cartesian-map ; : each-from ( ... seq quot: ( ... x -- ... ) i -- ... ) -rot (each) (each-integer) ; inline : supremum-by ( ... seq quot: ( ... elt -- ... x ) -- ... elt ) [ after? ] select-by ; inline : infimum-by ( ... seq quot: ( ... elt -- ... x ) -- ... elt ) [ before? ] select-by ; inline : shortest ( seqs -- elt ) [ length ] infimum-by ; : longest ( seqs -- elt ) [ length ] supremum-by ; ! We hand-optimize flip to such a degree because type hints ! cannot express that an array is an array of arrays yet, and ! this word happens to be performance-critical since the compiler ! itself uses it. Optimizing it like this reduced compile time. > ; inline : array-flip ( matrix -- newmatrix ) { array } declare [ [ first-unsafe array-length 1 ] keep [ array-length min ] (each) (each-integer) iota ] keep [ [ { array } declare array-nth ] with { } map-as ] curry { } map-as ; PRIVATE> : flip ( matrix -- newmatrix ) dup empty? [ dup array? [ dup [ array? ] all? [ array-flip ] [ generic-flip ] if ] [ generic-flip ] if ] unless ;