! Copyright (C) 2004, 2008 Chris Double, Matthew Willis, James Cash. ! See http://factorcode.org/license.txt for BSD license. USING: kernel sequences math vectors arrays namespaces make quotations promises combinators io lists accessors ; IN: lists.lazy M: promise car ( promise -- car ) force car ; M: promise cdr ( promise -- cdr ) force cdr ; M: promise nil? ( cons -- bool ) force nil? ; ! Both 'car' and 'cdr' are promises TUPLE: lazy-cons car cdr ; : lazy-cons ( car cdr -- promise ) [ promise ] bi@ \ lazy-cons boa T{ promise f f t f } clone swap >>value ; M: lazy-cons car ( lazy-cons -- car ) car>> force ; M: lazy-cons cdr ( lazy-cons -- cdr ) cdr>> force ; M: lazy-cons nil? ( lazy-cons -- bool ) nil eq? ; : 1lazy-list ( a -- lazy-cons ) [ nil ] lazy-cons ; : 2lazy-list ( a b -- lazy-cons ) 1lazy-list 1quotation lazy-cons ; : 3lazy-list ( a b c -- lazy-cons ) 2lazy-list 1quotation lazy-cons ; TUPLE: memoized-cons original car cdr nil? ; : not-memoized ( -- obj ) { } ; : not-memoized? ( obj -- bool ) not-memoized eq? ; : ( cons -- memoized-cons ) not-memoized not-memoized not-memoized memoized-cons boa ; M: memoized-cons car ( memoized-cons -- car ) dup car>> not-memoized? [ dup original>> car [ >>car drop ] keep ] [ car>> ] if ; M: memoized-cons cdr ( memoized-cons -- cdr ) dup cdr>> not-memoized? [ dup original>> cdr [ >>cdr drop ] keep ] [ cdr>> ] if ; M: memoized-cons nil? ( memoized-cons -- bool ) dup nil?>> not-memoized? [ dup original>> nil? [ >>nil? drop ] keep ] [ nil?>> ] if ; TUPLE: lazy-map cons quot ; C: lazy-map : lazy-map ( list quot -- result ) over nil? [ 2drop nil ] [ ] if ; M: lazy-map car ( lazy-map -- car ) [ cons>> car ] keep quot>> call( old -- new ) ; M: lazy-map cdr ( lazy-map -- cdr ) [ cons>> cdr ] keep quot>> lazy-map ; M: lazy-map nil? ( lazy-map -- bool ) cons>> nil? ; TUPLE: lazy-take n cons ; C: lazy-take : ltake ( n list -- result ) over zero? [ 2drop nil ] [ ] if ; M: lazy-take car ( lazy-take -- car ) cons>> car ; M: lazy-take cdr ( lazy-take -- cdr ) [ n>> 1- ] keep cons>> cdr ltake ; M: lazy-take nil? ( lazy-take -- bool ) dup n>> zero? [ drop t ] [ cons>> nil? ] if ; TUPLE: lazy-until cons quot ; C: lazy-until : luntil ( list quot -- result ) over nil? [ drop ] [ ] if ; M: lazy-until car ( lazy-until -- car ) cons>> car ; M: lazy-until cdr ( lazy-until -- cdr ) [ cons>> unswons ] keep quot>> tuck call( elt -- ? ) [ 2drop nil ] [ luntil ] if ; M: lazy-until nil? ( lazy-until -- bool ) drop f ; TUPLE: lazy-while cons quot ; C: lazy-while : lwhile ( list quot -- result ) over nil? [ drop ] [ ] if ; M: lazy-while car ( lazy-while -- car ) cons>> car ; M: lazy-while cdr ( lazy-while -- cdr ) [ cons>> cdr ] keep quot>> lwhile ; M: lazy-while nil? ( lazy-while -- bool ) [ car ] keep quot>> call( elt -- ? ) not ; TUPLE: lazy-filter cons quot ; C: lazy-filter : lfilter ( list quot -- result ) over nil? [ 2drop nil ] [ ] if ; : car-filter? ( lazy-filter -- ? ) [ cons>> car ] [ quot>> ] bi call( elt -- ? ) ; : skip ( lazy-filter -- ) dup cons>> cdr >>cons drop ; M: lazy-filter car ( lazy-filter -- car ) dup car-filter? [ cons>> ] [ dup skip ] if car ; M: lazy-filter cdr ( lazy-filter -- cdr ) dup car-filter? [ [ cons>> cdr ] [ quot>> ] bi lfilter ] [ dup skip cdr ] if ; M: lazy-filter nil? ( lazy-filter -- bool ) dup cons>> nil? [ drop t ] [ dup car-filter? [ drop f ] [ dup skip nil? ] if ] if ; TUPLE: lazy-append list1 list2 ; C: lazy-append : lappend ( list1 list2 -- result ) over nil? [ nip ] [ ] if ; M: lazy-append car ( lazy-append -- car ) list1>> car ; M: lazy-append cdr ( lazy-append -- cdr ) [ list1>> cdr ] keep list2>> lappend ; M: lazy-append nil? ( lazy-append -- bool ) drop f ; TUPLE: lazy-from-by n quot ; C: lfrom-by lazy-from-by : lfrom ( n -- list ) [ 1+ ] lfrom-by ; M: lazy-from-by car ( lazy-from-by -- car ) n>> ; M: lazy-from-by cdr ( lazy-from-by -- cdr ) [ n>> ] keep quot>> [ call( old -- new ) ] keep lfrom-by ; M: lazy-from-by nil? ( lazy-from-by -- bool ) drop f ; TUPLE: lazy-zip list1 list2 ; C: lazy-zip : lzip ( list1 list2 -- lazy-zip ) over nil? over nil? or [ 2drop nil ] [ ] if ; M: lazy-zip car ( lazy-zip -- car ) [ list1>> car ] keep list2>> car 2array ; M: lazy-zip cdr ( lazy-zip -- cdr ) [ list1>> cdr ] keep list2>> cdr lzip ; M: lazy-zip nil? ( lazy-zip -- bool ) drop f ; TUPLE: sequence-cons index seq ; C: sequence-cons : seq>list ( index seq -- list ) 2dup length >= [ 2drop nil ] [ ] if ; M: sequence-cons car ( sequence-cons -- car ) [ index>> ] keep seq>> nth ; M: sequence-cons cdr ( sequence-cons -- cdr ) [ index>> 1+ ] keep seq>> seq>list ; M: sequence-cons nil? ( sequence-cons -- bool ) drop f ; : >list ( object -- list ) { { [ dup sequence? ] [ 0 swap seq>list ] } { [ dup list? ] [ ] } [ "Could not convert object to a list" throw ] } cond ; TUPLE: lazy-concat car cdr ; C: lazy-concat DEFER: lconcat : (lconcat) ( car cdr -- list ) over nil? [ nip lconcat ] [ ] if ; : lconcat ( list -- result ) dup nil? [ drop nil ] [ uncons (lconcat) ] if ; M: lazy-concat car ( lazy-concat -- car ) car>> car ; M: lazy-concat cdr ( lazy-concat -- cdr ) [ car>> cdr ] keep cdr>> (lconcat) ; M: lazy-concat nil? ( lazy-concat -- bool ) dup car>> nil? [ cdr>> nil? ] [ drop f ] if ; : lcartesian-product ( list1 list2 -- result ) swap [ swap [ 2array ] with lazy-map ] with lazy-map lconcat ; : lcartesian-product* ( lists -- result ) dup nil? [ drop nil ] [ [ car ] keep cdr [ car lcartesian-product ] keep cdr list>array swap [ swap [ swap [ suffix ] with lazy-map ] with lazy-map lconcat ] reduce ] if ; : lcomp ( list quot -- result ) [ lcartesian-product* ] dip lazy-map ; : lcomp* ( list guards quot -- result ) [ [ lcartesian-product* ] dip [ lfilter ] each ] dip lazy-map ; DEFER: lmerge : (lmerge) ( list1 list2 -- result ) over [ car ] curry -rot [ dup [ car ] curry -rot [ [ cdr ] bi@ lmerge ] 2curry lazy-cons ] 2curry lazy-cons ; : lmerge ( list1 list2 -- result ) { { [ over nil? ] [ nip ] } { [ dup nil? ] [ drop ] } { [ t ] [ (lmerge) ] } } cond ; TUPLE: lazy-io stream car cdr quot ; C: lazy-io : lcontents ( stream -- result ) f f [ stream-read1 ] ; : llines ( stream -- result ) f f [ stream-readln ] ; M: lazy-io car ( lazy-io -- car ) dup car>> dup [ nip ] [ drop dup stream>> over quot>> call( stream -- value ) >>car ] if ; M: lazy-io cdr ( lazy-io -- cdr ) dup cdr>> dup [ nip ] [ drop dup [ stream>> ] keep [ quot>> ] keep car [ [ f f ] dip [ >>cdr drop ] keep ] [ 3drop nil ] if ] if ; M: lazy-io nil? ( lazy-io -- bool ) car not ; INSTANCE: sequence-cons list INSTANCE: memoized-cons list INSTANCE: promise list INSTANCE: lazy-io list INSTANCE: lazy-concat list INSTANCE: lazy-cons list INSTANCE: lazy-map list INSTANCE: lazy-take list INSTANCE: lazy-append list INSTANCE: lazy-from-by list INSTANCE: lazy-zip list INSTANCE: lazy-while list INSTANCE: lazy-until list INSTANCE: lazy-filter list