! Copyright (C) 2008 James Cash ! See http://factorcode.org/license.txt for BSD license. USING: kernel peg sequences arrays strings combinators.lib namespaces combinators math locals locals.private locals.backend accessors vectors syntax lisp.parser assocs parser sequences.lib words quotations fry lists summary combinators.short-circuit ; IN: lisp DEFER: convert-form DEFER: funcall DEFER: lookup-var DEFER: lookup-macro DEFER: lisp-macro? DEFER: lisp-var? DEFER: define-lisp-macro ! Functions to convert s-exps to quotations ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! : convert-body ( cons -- quot ) [ ] [ convert-form compose ] foldl ; inline : convert-cond ( cons -- quot ) cdr [ 2car [ convert-form ] bi@ 2array ] { } lmap-as '[ , cond ] ; : convert-general-form ( cons -- quot ) uncons [ convert-body ] [ convert-form ] bi* '[ , @ funcall ] ; ! words for convert-lambda > , at ] [ ] bi or ] traverse ] } { [ dup lisp-symbol? ] [ name>> over at ] } [ ] } cond ; : localize-lambda ( body vars -- newvars newbody ) make-locals dup push-locals swap [ swap localize-body convert-form swap pop-locals ] dip swap ; : split-lambda ( cons -- body-cons vars-seq ) cdr uncons [ car ] [ [ name>> ] lmap>array ] bi* ; inline : rest-lambda ( body vars -- quot ) "&rest" swap [ index ] [ remove ] 2bi swapd localize-lambda lambda-rewrite call '[ , cut '[ @ , seq>list ] call , call ] ; : normal-lambda ( body vars -- quot ) localize-lambda lambda-rewrite [ compose call ] compose 1quotation ; PRIVATE> : convert-lambda ( cons -- quot ) split-lambda "&rest" over member? [ rest-lambda ] [ normal-lambda ] if ; : convert-quoted ( cons -- quot ) cadr 1quotation ; : convert-defmacro ( cons -- quot ) cdr [ car ] keep [ convert-lambda ] [ car name>> ] bi define-lisp-macro 1quotation ; : macro-expand ( cons -- quot ) uncons [ list>seq >quotation ] [ lookup-macro ] bi* call convert-form ; : form-dispatch ( cons lisp-symbol -- quot ) name>> { { "lambda" [ convert-lambda ] } { "defmacro" [ convert-defmacro ] } { "quote" [ convert-quoted ] } { "cond" [ convert-cond ] } [ drop convert-general-form ] } case ; : convert-list-form ( cons -- quot ) dup car { { [ dup lisp-macro? ] [ drop macro-expand ] } { [ dup lisp-symbol? ] [ form-dispatch ] } [ drop convert-general-form ] } cond ; : convert-form ( lisp-form -- quot ) { { [ dup cons? ] [ convert-list-form ] } { [ dup lisp-var? ] [ lookup-var 1quotation ] } { [ dup lisp-symbol? ] [ '[ , lookup-var ] ] } [ 1quotation ] } cond ; : lisp-string>factor ( str -- quot ) lisp-expr convert-form ; : lisp-eval ( str -- * ) lisp-string>factor call ; ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! SYMBOL: lisp-env SYMBOL: macro-env ERROR: no-such-var variable-name ; M: no-such-var summary drop "No such variable" ; : init-env ( -- ) H{ } clone lisp-env set H{ } clone macro-env set ; : lisp-define ( quot name -- ) lisp-env get set-at ; : defun ( name quot -- name ) over name>> lisp-define ; : lisp-get ( name -- word ) lisp-env get at ; : lookup-var ( lisp-symbol -- quot ) [ name>> ] [ lisp-var? ] bi [ lisp-get ] [ no-such-var ] if ; : lisp-var? ( lisp-symbol -- ? ) dup lisp-symbol? [ name>> lisp-env get key? ] [ drop f ] if ; : funcall ( quot sym -- * ) [ 1array [ call ] with-datastack >quotation ] dip dup lisp-symbol? [ lookup-var ] when curry call ; inline : define-primitive ( name vocab word -- ) swap lookup 1quotation '[ , compose call ] swap lisp-define ; : lookup-macro ( lisp-symbol -- lambda ) name>> macro-env get at ; : define-lisp-macro ( quot name -- ) macro-env get set-at ; : lisp-macro? ( car -- ? ) dup lisp-symbol? [ name>> macro-env get key? ] [ drop f ] if ;