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move picrin/syntax-rules

This commit is contained in:
Yuichi Nishiwaki 2015-07-09 04:02:55 +09:00
parent 9514bab879
commit ad38eb9202
4 changed files with 239 additions and 250 deletions
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3
Makefile
View File

@ -8,8 +8,7 @@ PICRIN_SRCS = \
PICRIN_OBJS = \
$(PICRIN_SRCS:.c=.o)
PICRIN_LIBS = \
piclib/picrin/macro.scm\
piclib/picrin/syntax-rules.scm
piclib/picrin/macro.scm
CONTRIB_SRCS =
CONTRIB_OBJS = $(CONTRIB_SRCS:.c=.o)

237
contrib/20.r7rs/scheme/base.scm
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@ -1,7 +1,6 @@
(define-library (scheme base)
(import (picrin base)
(picrin macro)
(picrin syntax-rules)
(picrin string)
(scheme file))
@ -139,6 +138,242 @@
;; 4.3.2 Pattern language
(define (succ n)
(+ n 1))
(define (pred n)
(if (= n 0)
0
(- n 1)))
(define (every? args)
(if (null? args)
#t
(if (car args)
(every? (cdr args))
#f)))
(define (filter f list)
(if (null? list)
'()
(if (f (car list))
(cons (car list)
(filter f (cdr list)))
(filter f (cdr list)))))
(define (take-tail n list)
(let drop ((n (- (length list) n)) (list list))
(if (= n 0)
list
(drop (- n 1) (cdr list)))))
(define (drop-tail n list)
(let take ((n (- (length list) n)) (list list))
(if (= n 0)
'()
(cons (car list) (take (- n 1) (cdr list))))))
(define (map-keys f assoc)
(map (lambda (s) `(,(f (car s)) . ,(cdr s))) assoc))
(define (map-values f assoc)
(map (lambda (s) `(,(car s) . ,(f (cdr s)))) assoc))
;; TODO
;; - placeholder
;; - vector
;; - (... template) pattern
;; p ::= constant
;; | var
;; | (p ... . p) (in input pattern, tail p should be a proper list)
;; | (p . p)
(define (compile ellipsis literals rules)
(define (constant? obj)
(and (not (pair? obj))
(not (variable? obj))))
(define (literal? obj)
(and (variable? obj)
(memq obj literals)))
(define (many? pat)
(and (pair? pat)
(pair? (cdr pat))
(variable? (cadr pat))
(variable=? (cadr pat) ellipsis)))
(define (pattern-validator pat) ; pattern -> validator
(letrec
((pattern-validator
(lambda (pat form)
(cond
((constant? pat)
#`(equal? '#,pat #,form))
((literal? pat)
#`(and (variable? #,form) (variable=? #'#,pat #,form)))
((variable? pat)
#t)
((many? pat)
(let ((head #`(drop-tail #,(length (cddr pat)) #,form))
(tail #`(take-tail #,(length (cddr pat)) #,form)))
#`(and (list? #,form)
(>= (length #,form) #,(length (cddr pat)))
(every? (map (lambda (#,'it) #,(pattern-validator (car pat) 'it)) #,head))
#,(pattern-validator (cddr pat) tail))))
((pair? pat)
#`(and (pair? #,form)
#,(pattern-validator (car pat) #`(car #,form))
#,(pattern-validator (cdr pat) #`(cdr #,form))))
(else
#f)))))
(pattern-validator pat 'it)))
(define (pattern-variables pat) ; pattern -> (freevar)
(cond
((constant? pat)
'())
((literal? pat)
'())
((variable? pat)
`(,pat))
((many? pat)
(append (pattern-variables (car pat))
(pattern-variables (cddr pat))))
((pair? pat)
(append (pattern-variables (car pat))
(pattern-variables (cdr pat))))))
(define (pattern-levels pat) ; pattern -> ((var * int))
(cond
((constant? pat)
'())
((literal? pat)
'())
((variable? pat)
`((,pat . 0)))
((many? pat)
(append (map-values succ (pattern-levels (car pat)))
(pattern-levels (cddr pat))))
((pair? pat)
(append (pattern-levels (car pat))
(pattern-levels (cdr pat))))))
(define (pattern-selectors pat) ; pattern -> ((var * selector))
(letrec
((pattern-selectors
(lambda (pat form)
(cond
((constant? pat)
'())
((literal? pat)
'())
((variable? pat)
`((,pat . ,form)))
((many? pat)
(let ((head #`(drop-tail #,(length (cddr pat)) #,form))
(tail #`(take-tail #,(length (cddr pat)) #,form)))
(let ((envs (pattern-selectors (car pat) 'it)))
(append
(map-values (lambda (s) #`(map (lambda (#,'it) #,s) #,head)) envs)
(pattern-selectors (cddr pat) tail)))))
((pair? pat)
(append (pattern-selectors (car pat) #`(car #,form))
(pattern-selectors (cdr pat) #`(cdr #,form))))))))
(pattern-selectors pat 'it)))
(define (template-representation pat levels selectors)
(cond
((constant? pat)
pat)
((variable? pat)
(let ((it (assq pat levels)))
(if it
(if (= 0 (cdr it))
(cdr (assq pat selectors))
(error "unmatched pattern variable level" pat))
#`(#,'rename '#,pat))))
((many? pat)
(letrec*
((inner-pat
(car pat))
(inner-levels
(map (lambda (s) `(,(car s) . ,(pred (cdr s)))) levels))
(inner-freevars
(filter (lambda (v) (assq v levels)) (pattern-variables inner-pat)))
(inner-vars
;; select only vars declared with ellipsis
(filter (lambda (v) (> (cdr (assq v levels)) 0)) inner-freevars))
(inner-tmps
(map (lambda (v) #'it) inner-vars))
(inner-selectors
;; first env '(map cons ...)' shadows second env 'selectors'
(append (map cons inner-vars inner-tmps) selectors))
(inner-rep
(template-representation inner-pat inner-levels inner-selectors))
(sorted-selectors
(map (lambda (v) (assq v selectors)) inner-vars))
(list-of-selectors
;; ((a . xs) (b . ys) (c . zs)) -> (xs ys zs)
(map cdr sorted-selectors)))
(let ((rep1 #`(map (lambda #,inner-tmps #,inner-rep) #,@list-of-selectors))
(rep2 (template-representation (cddr pat) levels selectors)))
#`(append #,rep1 #,rep2))))
((pair? pat)
#`(cons #,(template-representation (car pat) levels selectors)
#,(template-representation (cdr pat) levels selectors)))))
(define (compile-rule pattern template)
(let ((levels
(pattern-levels pattern))
(selectors
(pattern-selectors pattern)))
(template-representation template levels selectors)))
(define (compile-rules rules)
(if (null? rules)
#`(error "unmatch")
(let ((pattern (car (car rules)))
(template (cadr (car rules))))
#`(if #,(pattern-validator pattern)
#,(compile-rule pattern template)
#,(compile-rules (cdr rules))))))
(define (compile rules)
#`(call-with-current-environment
(lambda (env)
(letrec
((#,'rename (let ((reg (make-register)))
(lambda (x)
(if (undefined? (reg x))
(let ((id (make-identifier x env)))
(reg x id)
id)
(reg x))))))
(lambda #,'it
#,(compile-rules rules))))))
(let ((rules (map-keys cdr rules))) ; TODO: check pattern head is a variable
(compile rules)))
(define-syntax (syntax-rules . args)
(if (list? (car args))
#`(syntax-rules ... #,@args)
(let ((ellipsis (car args))
(literals (car (cdr args)))
(rules (cdr (cdr args))))
(compile ellipsis literals rules))))
(define-syntax (define-auxiliary-syntax var)
#`(define-macro #,var
(lambda _
(error "invalid use of auxiliary syntax" '#,var))))
(define-auxiliary-syntax _)
(define-auxiliary-syntax ...)
(export syntax-rules
_
...)

5
t/syntax-rules.scm → contrib/20.r7rs/t/syntax-rules.scm
View File

@ -1,8 +1,7 @@
(import (picrin base)
(picrin syntax-rules)
(import (scheme base)
(picrin test))
(test-begin)
(test-begin "syntax-rules")
(define-syntax extract?
(syntax-rules ()

244
piclib/picrin/syntax-rules.scm
View File

@ -1,244 +0,0 @@
(define-library (picrin syntax-rules)
(import (picrin base)
(picrin macro))
(define-syntax (define-auxiliary-syntax var)
#`(define-macro #,var
(lambda _
(error "invalid use of auxiliary syntax" '#,var))))
(define-auxiliary-syntax _)
(define-auxiliary-syntax ...)
(define (succ n)
(+ n 1))
(define (pred n)
(if (= n 0)
0
(- n 1)))
(define (every? args)
(if (null? args)
#t
(if (car args)
(every? (cdr args))
#f)))
(define (filter f list)
(if (null? list)
'()
(if (f (car list))
(cons (car list)
(filter f (cdr list)))
(filter f (cdr list)))))
(define (take-tail n list)
(let drop ((n (- (length list) n)) (list list))
(if (= n 0)
list
(drop (- n 1) (cdr list)))))
(define (drop-tail n list)
(let take ((n (- (length list) n)) (list list))
(if (= n 0)
'()
(cons (car list) (take (- n 1) (cdr list))))))
(define (map-keys f assoc)
(map (lambda (s) `(,(f (car s)) . ,(cdr s))) assoc))
(define (map-values f assoc)
(map (lambda (s) `(,(car s) . ,(f (cdr s)))) assoc))
;; TODO
;; - placeholder
;; - vector
;; - (... template) pattern
;; p ::= constant
;; | var
;; | (p ... . p) (in input pattern, tail p should be a proper list)
;; | (p . p)
(define (compile ellipsis literals rules)
(define (constant? obj)
(and (not (pair? obj))
(not (variable? obj))))
(define (literal? obj)
(and (variable? obj)
(memq obj literals)))
(define (many? pat)
(and (pair? pat)
(pair? (cdr pat))
(variable? (cadr pat))
(variable=? (cadr pat) ellipsis)))
(define (pattern-validator pat) ; pattern -> validator
(letrec
((pattern-validator
(lambda (pat form)
(cond
((constant? pat)
#`(equal? '#,pat #,form))
((literal? pat)
#`(and (variable? #,form) (variable=? #'#,pat #,form)))
((variable? pat)
#t)
((many? pat)
(let ((head #`(drop-tail #,(length (cddr pat)) #,form))
(tail #`(take-tail #,(length (cddr pat)) #,form)))
#`(and (list? #,form)
(>= (length #,form) #,(length (cddr pat)))
(every? (map (lambda (#,'it) #,(pattern-validator (car pat) 'it)) #,head))
#,(pattern-validator (cddr pat) tail))))
((pair? pat)
#`(and (pair? #,form)
#,(pattern-validator (car pat) #`(car #,form))
#,(pattern-validator (cdr pat) #`(cdr #,form))))
(else
#f)))))
(pattern-validator pat 'it)))
(define (pattern-variables pat) ; pattern -> (freevar)
(cond
((constant? pat)
'())
((literal? pat)
'())
((variable? pat)
`(,pat))
((many? pat)
(append (pattern-variables (car pat))
(pattern-variables (cddr pat))))
((pair? pat)
(append (pattern-variables (car pat))
(pattern-variables (cdr pat))))))
(define (pattern-levels pat) ; pattern -> ((var * int))
(cond
((constant? pat)
'())
((literal? pat)
'())
((variable? pat)
`((,pat . 0)))
((many? pat)
(append (map-values succ (pattern-levels (car pat)))
(pattern-levels (cddr pat))))
((pair? pat)
(append (pattern-levels (car pat))
(pattern-levels (cdr pat))))))
(define (pattern-selectors pat) ; pattern -> ((var * selector))
(letrec
((pattern-selectors
(lambda (pat form)
(cond
((constant? pat)
'())
((literal? pat)
'())
((variable? pat)
`((,pat . ,form)))
((many? pat)
(let ((head #`(drop-tail #,(length (cddr pat)) #,form))
(tail #`(take-tail #,(length (cddr pat)) #,form)))
(let ((envs (pattern-selectors (car pat) 'it)))
(append
(map-values (lambda (s) #`(map (lambda (#,'it) #,s) #,head)) envs)
(pattern-selectors (cddr pat) tail)))))
((pair? pat)
(append (pattern-selectors (car pat) #`(car #,form))
(pattern-selectors (cdr pat) #`(cdr #,form))))))))
(pattern-selectors pat 'it)))
(define (template-representation pat levels selectors)
(cond
((constant? pat)
pat)
((variable? pat)
(let ((it (assq pat levels)))
(if it
(if (= 0 (cdr it))
(cdr (assq pat selectors))
(error "unmatched pattern variable level" pat))
#`(#,'rename '#,pat))))
((many? pat)
(letrec*
((inner-pat
(car pat))
(inner-levels
(map (lambda (s) `(,(car s) . ,(pred (cdr s)))) levels))
(inner-freevars
(filter (lambda (v) (assq v levels)) (pattern-variables inner-pat)))
(inner-vars
;; select only vars declared with ellipsis
(filter (lambda (v) (> (cdr (assq v levels)) 0)) inner-freevars))
(inner-tmps
(map (lambda (v) #'it) inner-vars))
(inner-selectors
;; first env '(map cons ...)' shadows second env 'selectors'
(append (map cons inner-vars inner-tmps) selectors))
(inner-rep
(template-representation inner-pat inner-levels inner-selectors))
(sorted-selectors
(map (lambda (v) (assq v selectors)) inner-vars))
(list-of-selectors
;; ((a . xs) (b . ys) (c . zs)) -> (xs ys zs)
(map cdr sorted-selectors)))
(let ((rep1 #`(map (lambda #,inner-tmps #,inner-rep) #,@list-of-selectors))
(rep2 (template-representation (cddr pat) levels selectors)))
#`(append #,rep1 #,rep2))))
((pair? pat)
#`(cons #,(template-representation (car pat) levels selectors)
#,(template-representation (cdr pat) levels selectors)))))
(define (compile-rule pattern template)
(let ((levels
(pattern-levels pattern))
(selectors
(pattern-selectors pattern)))
(template-representation template levels selectors)))
(define (compile-rules rules)
(if (null? rules)
#`(error "unmatch")
(let ((pattern (car (car rules)))
(template (cadr (car rules))))
#`(if #,(pattern-validator pattern)
#,(compile-rule pattern template)
#,(compile-rules (cdr rules))))))
(define (compile rules)
#`(call-with-current-environment
(lambda (env)
(letrec
((#,'rename (let ((reg (make-register)))
(lambda (x)
(if (undefined? (reg x))
(let ((id (make-identifier x env)))
(reg x id)
id)
(reg x))))))
(lambda #,'it
#,(compile-rules rules))))))
(let ((rules (map-keys cdr rules))) ; TODO: check pattern head is a variable
(compile rules)))
(define-syntax (syntax-rules . args)
(if (list? (car args))
#`(syntax-rules ... #,@args)
(let ((ellipsis (car args))
(literals (car (cdr args)))
(rules (cdr (cdr args))))
(compile ellipsis literals rules))))
(export syntax-rules
_
...))