! Copyright (C) 2007, 2009 Slava Pestov. ! See http://factorcode.org/license.txt for BSD license. USING: fry accessors arrays kernel words sequences generic math namespaces make quotations assocs combinators classes.tuple classes.tuple.private effects summary hashtables classes generic sets definitions generic.standard slots.private continuations locals generalizations stack-checker.backend stack-checker.state stack-checker.visitor stack-checker.errors stack-checker.values stack-checker.recursive-state ; IN: stack-checker.transforms : give-up-transform ( word -- ) { { [ dup "inferred-effect" word-prop ] [ cached-infer ] } { [ dup recursive-word? ] [ call-recursive-word ] } [ dup infer-word apply-word/effect ] } cond ; :: ((apply-transform)) ( word quot values stack rstate -- ) rstate recursive-state [ stack quot with-datastack first ] with-variable [ word inlined-dependency depends-on values [ length meta-d shorten-by ] [ #drop, ] bi rstate infer-quot ] [ word give-up-transform ] if* ; : literals? ( values -- ? ) [ literal-value? ] all? ; : (apply-transform) ( word quot n -- ) ensure-d dup literals? [ dup empty? [ dup recursive-state get ] [ [ ] [ [ literal value>> ] map ] [ first literal recursion>> ] tri ] if ((apply-transform)) ] [ 2drop give-up-transform ] if ; : apply-transform ( word -- ) [ ] [ "transform-quot" word-prop ] [ "transform-n" word-prop ] tri (apply-transform) ; : apply-macro ( word -- ) [ ] [ "macro" word-prop ] [ "declared-effect" word-prop in>> length ] tri (apply-transform) ; : define-transform ( word quot n -- ) [ drop "transform-quot" set-word-prop ] [ nip "transform-n" set-word-prop ] 3bi ; ! Combinators \ cond [ cond>quot ] 1 define-transform \ case [ [ [ no-case ] ] [ dup peek callable? [ dup peek swap but-last ] [ [ no-case ] swap ] if case>quot ] if-empty ] 1 define-transform \ cleave [ cleave>quot ] 1 define-transform \ 2cleave [ 2cleave>quot ] 1 define-transform \ 3cleave [ 3cleave>quot ] 1 define-transform \ spread [ spread>quot ] 1 define-transform \ (call-next-method) [ [ [ "method-class" word-prop ] [ "method-generic" word-prop ] bi [ inlined-dependency depends-on ] bi@ ] [ [ next-method-quot ] [ '[ _ no-next-method ] ] bi or ] bi ] 1 define-transform ! Constructors \ boa [ dup tuple-class? [ dup inlined-dependency depends-on [ "boa-check" word-prop [ ] or ] [ tuple-layout '[ _ ] ] bi append ] [ drop f ] if ] 1 define-transform \ new [ dup tuple-class? [ dup inlined-dependency depends-on [ [ all-slots [ initial>> literalize , ] each ] [ literalize , ] bi \ boa , ] [ ] make ] [ drop f ] if ] 1 define-transform ! Membership testing CONSTANT: bit-member-n 256 : bit-member? ( seq -- ? ) #! Can we use a fast byte array test here? { { [ dup length 8 < ] [ f ] } { [ dup [ integer? not ] any? ] [ f ] } { [ dup [ 0 < ] any? ] [ f ] } { [ dup [ bit-member-n >= ] any? ] [ f ] } [ t ] } cond nip ; : bit-member-seq ( seq -- flags ) bit-member-n swap [ member? 1 0 ? ] curry B{ } map-as ; : exact-float? ( f -- ? ) dup float? [ dup >integer >float = ] [ drop f ] if ; inline : bit-member-quot ( seq -- newquot ) [ bit-member-seq , [ { { [ over fixnum? ] [ ?nth 1 eq? ] } { [ over bignum? ] [ ?nth 1 eq? ] } { [ over exact-float? ] [ ?nth 1 eq? ] } [ 2drop f ] } cond ] % ] [ ] make ; : member-quot ( seq -- newquot ) dup bit-member? [ bit-member-quot ] [ [ literalize [ t ] ] { } map>assoc [ drop f ] suffix [ case ] curry ] if ; \ member? [ dup sequence? [ member-quot ] [ drop f ] if ] 1 define-transform : memq-quot ( seq -- newquot ) [ [ dupd eq? ] curry [ drop t ] ] { } map>assoc [ drop f ] suffix [ cond ] curry ; \ memq? [ dup sequence? [ memq-quot ] [ drop f ] if ] 1 define-transform ! Shuffling : nths-quot ( indices -- quot ) [ [ '[ _ swap nth ] ] map ] [ length ] bi '[ _ cleave _ narray ] ; \ shuffle [ shuffle-mapping nths-quot ] 1 define-transform