1306 lines
37 KiB
Scheme
1306 lines
37 KiB
Scheme
;;; core syntaces
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(define-library (picrin core-syntax)
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(import (scheme base)
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(picrin macro))
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(define-syntax syntax-error
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(er-macro-transformer
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(lambda (expr rename compare)
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(apply error (cdr expr)))))
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(define-syntax define-auxiliary-syntax
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(er-macro-transformer
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(lambda (expr r c)
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(list (r 'define-syntax) (cadr expr)
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(list (r 'lambda) '_
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(list (r 'error) "invalid use of auxiliary syntax"))))))
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(define-auxiliary-syntax else)
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(define-auxiliary-syntax =>)
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(define-auxiliary-syntax _)
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(define-auxiliary-syntax ...)
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(define-auxiliary-syntax unquote)
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(define-auxiliary-syntax unquote-splicing)
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(define-syntax let
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(er-macro-transformer
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(lambda (expr r compare)
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(if (symbol? (cadr expr))
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(begin
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(define name (car (cdr expr)))
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(define bindings (car (cdr (cdr expr))))
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(define body (cdr (cdr (cdr expr))))
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(list (r 'let) '()
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(list (r 'define) name
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(cons (r 'lambda) (cons (map car bindings) body)))
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(cons name (map cadr bindings))))
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(begin
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(set! bindings (cadr expr))
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(set! body (cddr expr))
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(cons (cons (r 'lambda) (cons (map car bindings) body))
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(map cadr bindings)))))))
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(define-syntax cond
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(er-macro-transformer
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(lambda (expr r compare)
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(let ((clauses (cdr expr)))
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(if (null? clauses)
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#f
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(begin
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(define clause (car clauses))
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(if (compare (r 'else) (car clause))
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(cons (r 'begin) (cdr clause))
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(if (if (>= (length clause) 2)
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(compare (r '=>) (list-ref clause 1))
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#f)
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(list (r 'let) (list (list (r 'x) (car clause)))
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(list (r 'if) (r 'x)
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(list (list-ref clause 2) (r 'x))
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(cons (r 'cond) (cdr clauses))))
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(list (r 'if) (car clause)
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(cons (r 'begin) (cdr clause))
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(cons (r 'cond) (cdr clauses)))))))))))
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(define-syntax and
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(er-macro-transformer
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(lambda (expr r compare)
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(let ((exprs (cdr expr)))
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(cond
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((null? exprs)
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#t)
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((= (length exprs) 1)
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(car exprs))
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(else
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(list (r 'let) (list (list (r 'it) (car exprs)))
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(list (r 'if) (r 'it)
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(cons (r 'and) (cdr exprs))
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(r 'it)))))))))
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(define-syntax or
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(er-macro-transformer
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(lambda (expr r compare)
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(let ((exprs (cdr expr)))
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(cond
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((null? exprs)
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#t)
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((= (length exprs) 1)
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(car exprs))
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(else
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(list (r 'let) (list (list (r 'it) (car exprs)))
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(list (r 'if) (r 'it)
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(r 'it)
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(cons (r 'or) (cdr exprs))))))))))
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(define (list->vector list)
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(let ((vector (make-vector (length list))))
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(let loop ((list list) (i 0))
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(if (null? list)
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vector
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(begin
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(vector-set! vector i (car list))
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(loop (cdr list) (+ i 1)))))))
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(define (vector->list vector)
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(let ((length (vector-length vector)))
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(let loop ((list '()) (i 0))
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(if (= i length)
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(reverse list)
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(loop (cons (vector-ref vector i) list) (+ i 1))))))
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(define-syntax quasiquote
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(ir-macro-transformer
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(lambda (form inject compare)
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(define (quasiquote? form)
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(and (pair? form) (compare (car form) 'quasiquote)))
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(define (unquote? form)
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(and (pair? form) (compare (car form) 'unquote)))
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(define (unquote-splicing? form)
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(and (pair? form) (pair? (car form))
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(compare (car (car form)) 'unquote-splicing)))
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(define (qq depth expr)
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(cond
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;; unquote
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((unquote? expr)
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(if (= depth 1)
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(car (cdr expr))
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(list 'list
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(list 'quote (inject 'unquote))
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(qq (- depth 1) (car (cdr expr))))))
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;; unquote-splicing
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((unquote-splicing? expr)
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(if (= depth 1)
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(list 'append
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(car (cdr (car expr)))
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(qq depth (cdr expr)))
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(list 'cons
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(list 'list
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(list 'quote (inject 'unquote-splicing))
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(qq (- depth 1) (car (cdr (car expr)))))
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(qq depth (cdr expr)))))
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;; quasiquote
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((quasiquote? expr)
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(list 'list
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(list 'quote (inject 'quasiquote))
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(qq (+ depth 1) (car (cdr expr)))))
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;; list
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((pair? expr)
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(list 'cons
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(qq depth (car expr))
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(qq depth (cdr expr))))
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;; vector
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((vector? expr)
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(list 'list->vector (qq depth (vector->list expr))))
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;; simple datum
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(else
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(list 'quote expr))))
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(let ((x (cadr form)))
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(qq 1 x)))))
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#;
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(define-syntax let*
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(ir-macro-transformer
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(lambda (form inject compare)
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(let ((bindings (cadr form))
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(body (cddr form)))
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(if (null? bindings)
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`(let () ,@body)
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`(let ((,(caar bindings)
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,@(cdar bindings)))
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(let* (,@(cdr bindings))
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,@body)))))))
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(define-syntax let*
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(er-macro-transformer
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(lambda (form r compare)
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(let ((bindings (cadr form))
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(body (cddr form)))
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(if (null? bindings)
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`(,(r 'let) () ,@body)
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`(,(r 'let) ((,(caar bindings)
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,@(cdar bindings)))
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(,(r 'let*) (,@(cdr bindings))
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,@body)))))))
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(define-syntax letrec*
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(er-macro-transformer
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(lambda (form r compare)
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(let ((bindings (cadr form))
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(body (cddr form)))
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(let ((vars (map (lambda (v) `(,v #f)) (map car bindings)))
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(initials (map (lambda (v) `(,(r 'set!) ,@v)) bindings)))
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`(,(r 'let) (,@vars)
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,@initials
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,@body))))))
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(define-syntax letrec
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(er-macro-transformer
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(lambda (form rename compare)
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`(,(rename 'letrec*) ,@(cdr form)))))
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(define-syntax do
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(er-macro-transformer
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(lambda (form r compare)
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(let ((bindings (car (cdr form)))
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(finish (car (cdr (cdr form))))
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(body (cdr (cdr (cdr form)))))
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`(,(r 'let) ,(r 'loop) ,(map (lambda (x)
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(list (car x) (cadr x)))
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bindings)
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(,(r 'if) ,(car finish)
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(,(r 'begin) ,@(cdr finish))
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(,(r 'begin) ,@body
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(,(r 'loop) ,@(map (lambda (x)
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(if (null? (cddr x))
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(car x)
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(car (cddr x))))
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bindings)))))))))
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(define-syntax when
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(er-macro-transformer
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(lambda (expr rename compare)
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(let ((test (cadr expr))
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(body (cddr expr)))
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`(,(rename 'if) ,test
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(,(rename 'begin) ,@body)
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#f)))))
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(define-syntax unless
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(er-macro-transformer
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(lambda (expr rename compare)
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(let ((test (cadr expr))
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(body (cddr expr)))
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`(,(rename 'if) ,test
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#f
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(,(rename 'begin) ,@body))))))
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(define-syntax case
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(er-macro-transformer
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(lambda (expr r compare)
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(let ((key (cadr expr))
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(clauses (cddr expr)))
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`(,(r 'let) ((,(r 'key) ,key))
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,(let loop ((clauses clauses))
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(if (null? clauses)
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#f
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(begin
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(define clause (car clauses))
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`(,(r 'if) ,(if (compare (r 'else) (car clause))
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'#t
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`(,(r 'or)
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,@(map (lambda (x)
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`(,(r 'eqv?) ,(r 'key) (,(r 'quote) ,x)))
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(car clause))))
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,(if (compare (r '=>) (list-ref clause 1))
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`(,(list-ref clause 2) ,(r 'key))
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`(,(r 'begin) ,@(cdr clause)))
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,(loop (cdr clauses)))))))))))
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(define-syntax letrec-syntax
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(er-macro-transformer
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(lambda (form r c)
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(let ((formal (car (cdr form)))
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(body (cdr (cdr form))))
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`(let ()
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,@(map (lambda (x)
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`(,(r 'define-syntax) ,(car x) ,(cadr x)))
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formal)
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,@body)))))
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(export let let* letrec letrec*
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quasiquote unquote unquote-splicing
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and or
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cond case else =>
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do when unless
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letrec-syntax
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_ ... syntax-error))
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;;; multiple value
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(define-library (picrin multiple-value)
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(import (scheme base)
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(picrin macro)
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(picrin core-syntax))
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(define-syntax let*-values
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(er-macro-transformer
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(lambda (form r c)
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(let ((formals (cadr form)))
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(if (null? formals)
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`(,(r 'let) () ,@(cddr form))
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`(,(r 'call-with-values) (,(r 'lambda) () ,@(cdar formals))
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(,(r 'lambda) (,@(caar formals))
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(,(r 'let*-values) (,@(cdr formals))
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,@(cddr form)))))))))
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(define-syntax let-values
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(er-macro-transformer
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(lambda (form r c)
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`(,(r 'let*-values) ,@(cdr form)))))
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(define (vector-map proc vect)
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(do ((i 0 (+ i 1))
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(u (make-vector (vector-length vect))))
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((= i (vector-length vect))
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u)
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(vector-set! u i (proc (vector-ref vect i)))))
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(define (walk proc expr)
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(cond
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((null? expr)
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'())
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((pair? expr)
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(cons (proc (car expr))
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(walk proc (cdr expr))))
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((vector? expr)
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(vector-map proc expr))
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(else
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(proc expr))))
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(define (flatten expr)
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(let ((list '()))
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(walk
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(lambda (x)
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(set! list (cons x list)))
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expr)
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(reverse list)))
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(define uniq
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(let ((counter 0))
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(lambda (x)
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(let ((sym (string->symbol (string-append "var$" (number->string counter)))))
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(set! counter (+ counter 1))
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sym))))
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(define-syntax define-values
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(ir-macro-transformer
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(lambda (form inject compare)
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(let* ((formal (cadr form))
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(formal* (walk uniq formal))
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(exprs (cddr form)))
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`(begin
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,@(map
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(lambda (var) `(define ,var #f))
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(flatten formal))
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(call-with-values (lambda () ,@exprs)
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(lambda ,formal*
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,@(map
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(lambda (var val) `(set! ,var ,val))
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(flatten formal)
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(flatten formal*)))))))))
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(export let-values
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let*-values
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define-values))
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;;; parameter
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(define-library (picrin parameter)
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(import (scheme base)
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(picrin macro)
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(picrin core-syntax)
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(picrin var)
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(picrin attribute)
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(picrin dictionary))
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(define (single? x)
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(and (list? x) (= (length x) 1)))
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(define (double? x)
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(and (list? x) (= (length x) 2)))
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(define (%make-parameter init conv)
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(let ((var (make-var (conv init))))
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(define (parameter . args)
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(cond
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((null? args)
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(var-ref var))
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((single? args)
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(var-set! var (conv (car args))))
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((double? args)
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(var-set! var ((cadr args) (car args))))
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(else
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(error "invalid arguments for parameter"))))
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(dictionary-set! (attribute parameter) '@@var var)
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parameter))
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(define (make-parameter init . conv)
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(let ((conv
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(if (null? conv)
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(lambda (x) x)
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(car conv))))
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(%make-parameter init conv)))
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(define-syntax with
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(ir-macro-transformer
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(lambda (form inject compare)
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(let ((before (car (cdr form)))
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(after (car (cdr (cdr form))))
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(body (cdr (cdr (cdr form)))))
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`(begin
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(,before)
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(let ((result (begin ,@body)))
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(,after)
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result))))))
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(define (var-of parameter)
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(dictionary-ref (attribute parameter) '@@var))
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(define-syntax parameterize
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(ir-macro-transformer
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(lambda (form inject compare)
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(let ((formal (car (cdr form)))
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(body (cdr (cdr form))))
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(let ((vars (map car formal))
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(vals (map cadr formal)))
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`(with
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(lambda () ,@(map (lambda (var val) `(var-push! (var-of ,var) ,val)) vars vals))
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(lambda () ,@(map (lambda (var) `(var-pop! (var-of ,var))) vars))
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,@body))))))
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(export make-parameter
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parameterize))
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;;; Record Type
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(define-library (picrin record)
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(import (scheme base)
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(picrin macro)
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(picrin core-syntax))
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(define record-marker (list 'record-marker))
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(define real-vector? vector?)
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(set! vector?
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(lambda (x)
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(and (real-vector? x)
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(or (= 0 (vector-length x))
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(not (eq? (vector-ref x 0)
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record-marker))))))
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#|
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;; (scheme eval) is not provided for now
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(define eval
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(let ((real-eval eval))
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(lambda (exp env)
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((real-eval `(lambda (vector?) ,exp))
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vector?))))
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|#
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(define (record? x)
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(and (real-vector? x)
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(< 0 (vector-length x))
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(eq? (vector-ref x 0) record-marker)))
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(define (make-record size)
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(let ((new (make-vector (+ size 1))))
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(vector-set! new 0 record-marker)
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new))
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(define (record-ref record index)
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(vector-ref record (+ index 1)))
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(define (record-set! record index value)
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(vector-set! record (+ index 1) value))
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(define record-type% (make-record 3))
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(record-set! record-type% 0 record-type%)
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(record-set! record-type% 1 'record-type%)
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(record-set! record-type% 2 '(name field-tags))
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(define (make-record-type name field-tags)
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(let ((new (make-record 3)))
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(record-set! new 0 record-type%)
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(record-set! new 1 name)
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(record-set! new 2 field-tags)
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new))
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(define (record-type record)
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(record-ref record 0))
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(define (record-type-name record-type)
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(record-ref record-type 1))
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(define (record-type-field-tags record-type)
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(record-ref record-type 2))
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(define (field-index type tag)
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(let rec ((i 1) (tags (record-type-field-tags type)))
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(cond ((null? tags)
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(error "record type has no such field" type tag))
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((eq? tag (car tags)) i)
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(else (rec (+ i 1) (cdr tags))))))
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(define (record-constructor type tags)
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(let ((size (length (record-type-field-tags type)))
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(arg-count (length tags))
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(indexes (map (lambda (tag) (field-index type tag)) tags)))
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(lambda args
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(if (= (length args) arg-count)
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(let ((new (make-record (+ size 1))))
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(record-set! new 0 type)
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(for-each (lambda (arg i) (record-set! new i arg)) args indexes)
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new)
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(error "wrong number of arguments to constructor" type args)))))
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(define (record-predicate type)
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(lambda (thing)
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(and (record? thing)
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(eq? (record-type thing)
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type))))
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(define (record-accessor type tag)
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(let ((index (field-index type tag)))
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(lambda (thing)
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(if (and (record? thing)
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(eq? (record-type thing)
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type))
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(record-ref thing index)
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(error "accessor applied to bad value" type tag thing)))))
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(define (record-modifier type tag)
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(let ((index (field-index type tag)))
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(lambda (thing value)
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(if (and (record? thing)
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(eq? (record-type thing)
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type))
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(record-set! thing index value)
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(error "modifier applied to bad value" type tag thing)))))
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(define-syntax define-record-field
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(ir-macro-transformer
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(lambda (form inject compare?)
|
|
(let ((type (car (cdr form)))
|
|
(field-tag (car (cdr (cdr form))))
|
|
(acc-mod (cdr (cdr (cdr form)))))
|
|
(if (= 1 (length acc-mod))
|
|
`(define ,(car acc-mod)
|
|
(record-accessor ,type ',field-tag))
|
|
`(begin
|
|
(define ,(car acc-mod)
|
|
(record-accessor ,type ',field-tag))
|
|
(define ,(cadr acc-mod)
|
|
(record-modifier ,type ',field-tag))))))))
|
|
|
|
(define-syntax define-record-type
|
|
(ir-macro-transformer
|
|
(lambda (form inject compare?)
|
|
(let ((type (cadr form))
|
|
(constructor (car (cdr (cdr form))))
|
|
(predicate (car (cdr (cdr (cdr form)))))
|
|
(field-tag (cdr (cdr (cdr (cdr form))))))
|
|
`(begin
|
|
(define ,type
|
|
(make-record-type ',type ',(cdr constructor)))
|
|
(define ,(car constructor)
|
|
(record-constructor ,type ',(cdr constructor)))
|
|
(define ,predicate
|
|
(record-predicate ,type))
|
|
,@(map
|
|
(lambda (x)
|
|
`(define-record-field ,type ,(car x) ,(cadr x) ,@(cddr x)))
|
|
field-tag))))))
|
|
|
|
(export define-record-type vector?))
|
|
|
|
(import (picrin macro)
|
|
(picrin core-syntax)
|
|
(picrin multiple-value)
|
|
(picrin parameter)
|
|
(picrin record))
|
|
|
|
(export let let* letrec letrec*
|
|
quasiquote unquote unquote-splicing
|
|
and or
|
|
cond case else =>
|
|
do when unless
|
|
letrec-syntax
|
|
_ ... syntax-error)
|
|
|
|
(export let-values
|
|
let*-values
|
|
define-values)
|
|
|
|
(export make-parameter
|
|
parameterize)
|
|
|
|
(export vector? ; override definition
|
|
define-record-type)
|
|
|
|
(define (every pred list)
|
|
(if (null? list)
|
|
#t
|
|
(if (pred (car list))
|
|
(every pred (cdr list))
|
|
#f)))
|
|
|
|
(define (fold f s xs)
|
|
(if (null? xs)
|
|
s
|
|
(fold f (f (car xs) s) (cdr xs))))
|
|
|
|
;;; 6.2. Numbers
|
|
|
|
(define (floor/ n m)
|
|
(values (floor-quotient n m)
|
|
(floor-remainder n m)))
|
|
|
|
(define (truncate/ n m)
|
|
(values (truncate-quotient n m)
|
|
(truncate-remainder n m)))
|
|
|
|
; (import (only (scheme inexact) sqrt))
|
|
(import (scheme inexact))
|
|
|
|
(define (exact-integer-sqrt k)
|
|
(let ((n (exact (floor (sqrt k)))))
|
|
(values n (- k (square n)))))
|
|
|
|
(export floor/ truncate/
|
|
exact-integer-sqrt)
|
|
|
|
;;; 6.3 Booleans
|
|
|
|
(define (boolean=? . objs)
|
|
(or (every (lambda (x) (eq? x #t)) objs)
|
|
(every (lambda (x) (eq? x #f)) objs)))
|
|
|
|
(export boolean=?)
|
|
|
|
;;; 6.4 Pairs and lists
|
|
|
|
(define (memq obj list)
|
|
(if (null? list)
|
|
#f
|
|
(if (eq? obj (car list))
|
|
list
|
|
(memq obj (cdr list)))))
|
|
|
|
(define (memv obj list)
|
|
(if (null? list)
|
|
#f
|
|
(if (eqv? obj (car list))
|
|
list
|
|
(memq obj (cdr list)))))
|
|
|
|
(define (assq obj list)
|
|
(if (null? list)
|
|
#f
|
|
(if (eq? obj (caar list))
|
|
(car list)
|
|
(assq obj (cdr list)))))
|
|
|
|
(define (assv obj list)
|
|
(if (null? list)
|
|
#f
|
|
(if (eqv? obj (caar list))
|
|
(car list)
|
|
(assq obj (cdr list)))))
|
|
|
|
(define (member obj list . opts)
|
|
(let ((compare (if (null? opts) equal? (car opts))))
|
|
(if (null? list)
|
|
#f
|
|
(if (compare obj (car list))
|
|
list
|
|
(member obj (cdr list) compare)))))
|
|
|
|
(define (assoc obj list . opts)
|
|
(let ((compare (if (null? opts) equal? (car opts))))
|
|
(if (null? list)
|
|
#f
|
|
(if (compare obj (caar list))
|
|
(car list)
|
|
(assoc obj (cdr list) compare)))))
|
|
|
|
(export memq memv member
|
|
assq assv assoc)
|
|
|
|
;;; 6.5. Symbols
|
|
|
|
(define (symbol=? . objs)
|
|
(let ((sym (car objs)))
|
|
(if (symbol? sym)
|
|
(every (lambda (x)
|
|
(and (symbol? x)
|
|
(eq? x sym)))
|
|
(cdr objs))
|
|
#f)))
|
|
|
|
(export symbol=?)
|
|
|
|
;;; 6.6 Characters
|
|
|
|
(define-macro (define-char-transitive-predicate name op)
|
|
`(define (,name . cs)
|
|
(apply ,op (map char->integer cs))))
|
|
|
|
(define-char-transitive-predicate char=? =)
|
|
(define-char-transitive-predicate char<? <)
|
|
(define-char-transitive-predicate char>? >)
|
|
(define-char-transitive-predicate char<=? <=)
|
|
(define-char-transitive-predicate char>=? >=)
|
|
|
|
(export char=?
|
|
char<?
|
|
char>?
|
|
char<=?
|
|
char>=?)
|
|
|
|
;;; 6.7 String
|
|
|
|
(define (string->list string . opts)
|
|
(let ((start (if (pair? opts) (car opts) 0))
|
|
(end (if (>= (length opts) 2)
|
|
(cadr opts)
|
|
(string-length string))))
|
|
(do ((i start (+ i 1))
|
|
(res '()))
|
|
((= i end)
|
|
(reverse res))
|
|
(set! res (cons (string-ref string i) res)))))
|
|
|
|
(define (list->string list)
|
|
(let ((len (length list)))
|
|
(let ((v (make-string len)))
|
|
(do ((i 0 (+ i 1))
|
|
(l list (cdr l)))
|
|
((= i len)
|
|
v)
|
|
(string-set! v i (car l))))))
|
|
|
|
(define (string . objs)
|
|
(list->string objs))
|
|
|
|
(export string string->list list->string)
|
|
|
|
;;; 6.8. Vector
|
|
|
|
(define (vector . objs)
|
|
(let ((len (length objs)))
|
|
(let ((v (make-vector len)))
|
|
(do ((i 0 (+ i 1))
|
|
(l objs (cdr l)))
|
|
((= i len)
|
|
v)
|
|
(vector-set! v i (car l))))))
|
|
|
|
(define (vector->list vector . opts)
|
|
(let ((start (if (pair? opts) (car opts) 0))
|
|
(end (if (>= (length opts) 2)
|
|
(cadr opts)
|
|
(vector-length vector))))
|
|
(do ((i start (+ i 1))
|
|
(res '()))
|
|
((= i end)
|
|
(reverse res))
|
|
(set! res (cons (vector-ref vector i) res)))))
|
|
|
|
(define (list->vector list)
|
|
(apply vector list))
|
|
|
|
(define (vector-copy! to at from . opts)
|
|
(let* ((start (if (pair? opts) (car opts) 0))
|
|
(end (if (>= (length opts) 2)
|
|
(cadr opts)
|
|
(vector-length from)))
|
|
(vs #f))
|
|
(if (eq? from to)
|
|
(begin
|
|
(set! vs (make-vector (- end start)))
|
|
(vector-copy! vs 0 from start end)
|
|
(vector-copy! to at vs))
|
|
(do ((i at (+ i 1))
|
|
(j start (+ j 1)))
|
|
((= j end))
|
|
(vector-set! to i (vector-ref from j))))))
|
|
|
|
(define (vector-copy v . opts)
|
|
(let ((start (if (pair? opts) (car opts) 0))
|
|
(end (if (>= (length opts) 2)
|
|
(cadr opts)
|
|
(vector-length v))))
|
|
(let ((res (make-vector (- end start))))
|
|
(vector-copy! res 0 v start end)
|
|
res)))
|
|
|
|
(define (vector-append . vs)
|
|
(define (vector-append-2-inv w v)
|
|
(let ((res (make-vector (+ (vector-length v) (vector-length w)))))
|
|
(vector-copy! res 0 v)
|
|
(vector-copy! res (vector-length v) w)
|
|
res))
|
|
(fold vector-append-2-inv #() vs))
|
|
|
|
(define (vector-fill! v fill . opts)
|
|
(let ((start (if (pair? opts) (car opts) 0))
|
|
(end (if (>= (length opts) 2)
|
|
(cadr opts)
|
|
(vector-length v))))
|
|
(do ((i start (+ i 1)))
|
|
((= i end)
|
|
#f)
|
|
(vector-set! v i fill))))
|
|
|
|
(define (vector->string . args)
|
|
(list->string (apply vector->list args)))
|
|
|
|
(define (string->vector . args)
|
|
(list->vector (apply string->list args)))
|
|
|
|
(export vector vector->list list->vector
|
|
vector-copy! vector-copy
|
|
vector-append vector-fill!
|
|
vector->string string->vector)
|
|
|
|
;;; 6.9 bytevector
|
|
|
|
(define (bytevector . objs)
|
|
(let ((len (length objs)))
|
|
(let ((v (make-bytevector len)))
|
|
(do ((i 0 (+ i 1))
|
|
(l objs (cdr l)))
|
|
((= i len)
|
|
v)
|
|
(bytevector-u8-set! v i (car l))))))
|
|
|
|
(define (bytevector-copy! to at from . opts)
|
|
(let* ((start (if (pair? opts) (car opts) 0))
|
|
(end (if (>= (length opts) 2)
|
|
(cadr opts)
|
|
(bytevector-length from)))
|
|
(vs #f))
|
|
(if (eq? from to)
|
|
(begin
|
|
(set! vs (make-bytevector (- end start)))
|
|
(bytevector-copy! vs 0 from start end)
|
|
(bytevector-copy! to at vs))
|
|
(do ((i at (+ i 1))
|
|
(j start (+ j 1)))
|
|
((= j end))
|
|
(bytevector-u8-set! to i (bytevector-u8-ref from j))))))
|
|
|
|
(define (bytevector-copy v . opts)
|
|
(let ((start (if (pair? opts) (car opts) 0))
|
|
(end (if (>= (length opts) 2)
|
|
(cadr opts)
|
|
(bytevector-length v))))
|
|
(let ((res (make-bytevector (- end start))))
|
|
(bytevector-copy! res 0 v start end)
|
|
res)))
|
|
|
|
(define (bytevector-append . vs)
|
|
(define (bytevector-append-2-inv w v)
|
|
(let ((res (make-bytevector (+ (bytevector-length v) (bytevector-length w)))))
|
|
(bytevector-copy! res 0 v)
|
|
(bytevector-copy! res (bytevector-length v) w)
|
|
res))
|
|
(fold bytevector-append-2-inv #u8() vs))
|
|
|
|
(define (bytevector->list v start end)
|
|
(do ((i start (+ i 1))
|
|
(res '()))
|
|
((= i end)
|
|
(reverse res))
|
|
(set! res (cons (bytevector-u8-ref v i) res))))
|
|
|
|
(define (list->bytevector v)
|
|
(apply bytevector v))
|
|
|
|
(define (utf8->string v . opts)
|
|
(let ((start (if (pair? opts) (car opts) 0))
|
|
(end (if (>= (length opts) 2)
|
|
(cadr opts)
|
|
(bytevector-length v))))
|
|
(list->string (map integer->char (bytevector->list v start end)))))
|
|
|
|
(define (string->utf8 s . opts)
|
|
(let ((start (if (pair? opts) (car opts) 0))
|
|
(end (if (>= (length opts) 2)
|
|
(cadr opts)
|
|
(string-length s))))
|
|
(list->bytevector (map char->integer (string->list s start end)))))
|
|
|
|
(export bytevector
|
|
bytevector-copy!
|
|
bytevector-copy
|
|
bytevector-append
|
|
utf8->string
|
|
string->utf8)
|
|
|
|
;;; 6.10 control features
|
|
|
|
(define (string-map f v . vs)
|
|
(let* ((len (fold min (string-length v) (map string-length vs)))
|
|
(vec (make-string len)))
|
|
(let loop ((n 0))
|
|
(if (= n len)
|
|
vec
|
|
(begin (string-set! vec n
|
|
(apply f (cons (string-ref v n)
|
|
(map (lambda (v) (string-ref v n)) vs))))
|
|
(loop (+ n 1)))))))
|
|
|
|
(define (string-for-each f v . vs)
|
|
(let* ((len (fold min (string-length v) (map string-length vs))))
|
|
(let loop ((n 0))
|
|
(unless (= n len)
|
|
(apply f (string-ref v n)
|
|
(map (lambda (v) (string-ref v n)) vs))
|
|
(loop (+ n 1))))))
|
|
|
|
(define (vector-map f v . vs)
|
|
(let* ((len (fold min (vector-length v) (map vector-length vs)))
|
|
(vec (make-vector len)))
|
|
(let loop ((n 0))
|
|
(if (= n len)
|
|
vec
|
|
(begin (vector-set! vec n
|
|
(apply f (cons (vector-ref v n)
|
|
(map (lambda (v) (vector-ref v n)) vs))))
|
|
(loop (+ n 1)))))))
|
|
|
|
(define (vector-for-each f v . vs)
|
|
(let* ((len (fold min (vector-length v) (map vector-length vs))))
|
|
(let loop ((n 0))
|
|
(unless (= n len)
|
|
(apply f (vector-ref v n)
|
|
(map (lambda (v) (vector-ref v n)) vs))
|
|
(loop (+ n 1))))))
|
|
|
|
(export string-map string-for-each
|
|
vector-map vector-for-each)
|
|
|
|
;;; 6.13. Input and output
|
|
|
|
(import (picrin port))
|
|
|
|
(define current-input-port (make-parameter standard-input-port))
|
|
(define current-output-port (make-parameter standard-output-port))
|
|
(define current-error-port (make-parameter standard-error-port))
|
|
|
|
(export current-input-port
|
|
current-output-port
|
|
current-error-port)
|
|
|
|
(define (call-with-port port proc)
|
|
(dynamic-wind
|
|
(lambda () #f)
|
|
(lambda () (proc port))
|
|
(lambda () (close-port port))))
|
|
|
|
(export call-with-port)
|
|
|
|
;;; include syntax
|
|
|
|
(import (scheme read)
|
|
(scheme file))
|
|
|
|
(define (read-many filename)
|
|
(call-with-port (open-input-file filename)
|
|
(lambda (port)
|
|
(let loop ((expr (read port)) (exprs '()))
|
|
(if (eof-object? expr)
|
|
(reverse exprs)
|
|
(loop (read port) (cons expr exprs)))))))
|
|
|
|
(define-syntax include
|
|
(er-macro-transformer
|
|
(lambda (form rename compare)
|
|
(let ((filenames (cdr form)))
|
|
(let ((exprs (apply append (map read-many filenames))))
|
|
`(,(rename 'begin) ,@exprs))))))
|
|
|
|
(export include)
|
|
|
|
;;; syntax-rules
|
|
(define-library (picrin syntax-rules)
|
|
(import (scheme base)
|
|
(picrin macro))
|
|
|
|
;;; utility functions
|
|
(define (reverse* l)
|
|
;; (reverse* '(a b c d . e)) => (e d c b a)
|
|
(let loop ((a '())
|
|
(d l))
|
|
(if (pair? d)
|
|
(loop (cons (car d) a) (cdr d))
|
|
(cons d a))))
|
|
|
|
(define (var->sym v)
|
|
(let loop ((cnt 0)
|
|
(v v))
|
|
(if (symbol? v)
|
|
(string->symbol (string-append (symbol->string v) "/" (number->string cnt)))
|
|
(loop (+ 1 cnt) (car v)))))
|
|
|
|
(define push-var list)
|
|
|
|
(define (every? pred l)
|
|
(if (null? l)
|
|
#t
|
|
(and (pred (car l)) (every? pred (cdr l)))))
|
|
|
|
(define (flatten l)
|
|
(cond
|
|
((null? l) '())
|
|
((pair? (car l))
|
|
(append (flatten (car l)) (flatten (cdr l))))
|
|
(else
|
|
(cons (car l) (flatten (cdr l))))))
|
|
|
|
;;; main function
|
|
(define-syntax syntax-rules
|
|
(er-macro-transformer
|
|
(lambda (form r compare)
|
|
(define _define (r 'define))
|
|
(define _let (r 'let))
|
|
(define _if (r 'if))
|
|
(define _begin (r 'begin))
|
|
(define _lambda (r 'lambda))
|
|
(define _set! (r 'set!))
|
|
(define _not (r 'not))
|
|
(define _and (r 'and))
|
|
(define _car (r 'car))
|
|
(define _cdr (r 'cdr))
|
|
(define _cons (r 'cons))
|
|
(define _pair? (r 'pair?))
|
|
(define _null? (r 'null?))
|
|
(define _symbol? (r 'symbol?))
|
|
(define _eqv? (r 'eqv?))
|
|
(define _string=? (r 'string=?))
|
|
(define _map (r 'map))
|
|
(define _vector->list (r 'vector->list))
|
|
(define _list->vector (r 'list->vector))
|
|
(define _quote (r 'quote))
|
|
(define _quasiquote (r 'quasiquote))
|
|
(define _unquote (r 'unquote))
|
|
(define _unquote-splicing (r 'unquote-splicing))
|
|
(define _syntax-error (r 'syntax-error))
|
|
(define _call/cc (r 'call/cc))
|
|
(define _er-macro-transformer (r 'er-macro-transformer))
|
|
|
|
(define (compile-match ellipsis literals pattern)
|
|
(letrec ((compile-match-base
|
|
(lambda (pattern)
|
|
(cond ((compare pattern (r '_)) (values #f '()))
|
|
((member pattern literals compare)
|
|
(values
|
|
`(,_if (,_and (,_symbol? expr) (cmp expr (rename ',pattern)))
|
|
#f
|
|
(exit #f))
|
|
'()))
|
|
((and ellipsis (compare pattern ellipsis))
|
|
(values `(,_syntax-error "invalid pattern") '()))
|
|
((symbol? pattern)
|
|
(values `(,_set! ,(var->sym pattern) expr) (list pattern)))
|
|
((pair? pattern)
|
|
(compile-match-list pattern))
|
|
((vector? pattern)
|
|
(compile-match-vector pattern))
|
|
((string? pattern)
|
|
(values
|
|
`(,_if (,_not (,_string=? ',pattern expr))
|
|
(exit #f))
|
|
'()))
|
|
(else
|
|
(values
|
|
`(,_if (,_not (,_eqv? ',pattern expr))
|
|
(exit #f))
|
|
'())))))
|
|
|
|
(compile-match-list
|
|
(lambda (pattern)
|
|
(let loop ((pattern pattern)
|
|
(matches '())
|
|
(vars '())
|
|
(accessor 'expr))
|
|
(cond ;; (hoge)
|
|
((not (pair? (cdr pattern)))
|
|
(let*-values (((match1 vars1) (compile-match-base (car pattern)))
|
|
((match2 vars2) (compile-match-base (cdr pattern))))
|
|
(values
|
|
`(,_begin ,@(reverse matches)
|
|
(,_if (,_pair? ,accessor)
|
|
(,_begin
|
|
(,_let ((expr (,_car ,accessor)))
|
|
,match1)
|
|
(,_let ((expr (,_cdr ,accessor)))
|
|
,match2))
|
|
(exit #f)))
|
|
(append vars (append vars1 vars2)))))
|
|
;; (hoge ... rest args)
|
|
((and ellipsis (compare (cadr pattern) ellipsis))
|
|
(let-values (((match-r vars-r) (compile-match-list-reverse pattern)))
|
|
(values
|
|
`(,_begin ,@(reverse matches)
|
|
(,_let ((expr (,_let loop ((a ())
|
|
(d ,accessor))
|
|
(,_if (,_pair? d)
|
|
(loop (,_cons (,_car d) a) (,_cdr d))
|
|
(,_cons d a)))))
|
|
,match-r))
|
|
(append vars vars-r))))
|
|
(else
|
|
(let-values (((match1 vars1) (compile-match-base (car pattern))))
|
|
(loop (cdr pattern)
|
|
(cons `(,_if (,_pair? ,accessor)
|
|
(,_let ((expr (,_car ,accessor)))
|
|
,match1)
|
|
(exit #f))
|
|
matches)
|
|
(append vars vars1)
|
|
`(,_cdr ,accessor))))))))
|
|
|
|
(compile-match-list-reverse
|
|
(lambda (pattern)
|
|
(let loop ((pattern (reverse* pattern))
|
|
(matches '())
|
|
(vars '())
|
|
(accessor 'expr))
|
|
(cond ((and ellipsis (compare (car pattern) ellipsis))
|
|
(let-values (((match1 vars1) (compile-match-ellipsis (cadr pattern))))
|
|
(values
|
|
`(,_begin ,@(reverse matches)
|
|
(,_let ((expr ,accessor))
|
|
,match1))
|
|
(append vars vars1))))
|
|
(else
|
|
(let-values (((match1 vars1) (compile-match-base (car pattern))))
|
|
(loop (cdr pattern)
|
|
(cons `(,_let ((expr (,_car ,accessor))) ,match1) matches)
|
|
(append vars vars1)
|
|
`(,_cdr ,accessor))))))))
|
|
|
|
(compile-match-ellipsis
|
|
(lambda (pattern)
|
|
(let-values (((match vars) (compile-match-base pattern)))
|
|
(values
|
|
`(,_let loop ((expr expr))
|
|
(,_if (,_not (,_null? expr))
|
|
(,_let ,(map (lambda (var) `(,(var->sym var) '())) vars)
|
|
(,_let ((expr (,_car expr)))
|
|
,match)
|
|
,@(map
|
|
(lambda (var)
|
|
`(,_set! ,(var->sym (push-var var))
|
|
(,_cons ,(var->sym var) ,(var->sym (push-var var)))))
|
|
vars)
|
|
(loop (,_cdr expr)))))
|
|
(map push-var vars)))))
|
|
|
|
(compile-match-vector
|
|
(lambda (pattern)
|
|
(let-values (((match vars) (compile-match-list (vector->list pattern))))
|
|
(values
|
|
`(,_let ((expr (,_vector->list expr)))
|
|
,match)
|
|
vars)))))
|
|
|
|
(let-values (((match vars) (compile-match-base (cdr pattern))))
|
|
(values `(,_let ((expr (,_cdr expr)))
|
|
,match
|
|
#t)
|
|
vars))))
|
|
|
|
;;; compile expand
|
|
(define (compile-expand ellipsis reserved template)
|
|
(letrec ((compile-expand-base
|
|
(lambda (template ellipsis-valid)
|
|
(cond ((member template reserved eq?)
|
|
(values (var->sym template) (list template)))
|
|
((symbol? template)
|
|
(values `(rename ',template) '()))
|
|
((pair? template)
|
|
(compile-expand-list template ellipsis-valid))
|
|
((vector? template)
|
|
(compile-expand-vector template ellipsis-valid))
|
|
(else
|
|
(values `',template '())))))
|
|
|
|
(compile-expand-list
|
|
(lambda (template ellipsis-valid)
|
|
(let loop ((template template)
|
|
(expands '())
|
|
(vars '()))
|
|
(cond ;; (... hoge)
|
|
((and ellipsis-valid
|
|
(pair? template)
|
|
(compare (car template) ellipsis))
|
|
(if (and (pair? (cdr template)) (null? (cddr template)))
|
|
(compile-expand-base (cadr template) #f)
|
|
(values '(,_syntax-error "invalid template") '())))
|
|
;; hoge
|
|
((not (pair? template))
|
|
(let-values (((expand1 vars1)
|
|
(compile-expand-base template ellipsis-valid)))
|
|
(values
|
|
`(,_quasiquote (,@(reverse expands) . (,_unquote ,expand1)))
|
|
(append vars vars1))))
|
|
;; (a ... rest syms)
|
|
((and ellipsis-valid
|
|
(pair? (cdr template))
|
|
(compare (cadr template) ellipsis))
|
|
(let-values (((expand1 vars1)
|
|
(compile-expand-base (car template) ellipsis-valid)))
|
|
(loop (cddr template)
|
|
(cons
|
|
`(,_unquote-splicing
|
|
(,_map (,_lambda ,(map var->sym vars1) ,expand1)
|
|
,@(map (lambda (v) (var->sym (push-var v))) vars1)))
|
|
expands)
|
|
(append vars (map push-var vars1)))))
|
|
(else
|
|
(let-values (((expand1 vars1)
|
|
(compile-expand-base (car template) ellipsis-valid)))
|
|
(loop (cdr template)
|
|
(cons
|
|
`(,_unquote ,expand1)
|
|
expands)
|
|
(append vars vars1))))))))
|
|
|
|
(compile-expand-vector
|
|
(lambda (template ellipsis-valid)
|
|
(let-values (((expand1 vars1)
|
|
(compile-expand-list (vector->list template) ellipsis-valid)))
|
|
`(,_list->vector ,expand1)
|
|
vars1))))
|
|
|
|
(compile-expand-base template ellipsis)))
|
|
|
|
(define (check-vars vars-pattern vars-template)
|
|
;;fixme
|
|
#t)
|
|
|
|
(define (compile-rule ellipsis literals rule)
|
|
(let ((pattern (car rule))
|
|
(template (cadr rule)))
|
|
(let*-values (((match vars-match)
|
|
(compile-match ellipsis literals pattern))
|
|
((expand vars-expand)
|
|
(compile-expand ellipsis (flatten vars-match) template)))
|
|
(if (check-vars vars-match vars-expand)
|
|
(list vars-match match expand)
|
|
'mismatch))))
|
|
|
|
(define (expand-clauses clauses rename)
|
|
(cond ((null? clauses)
|
|
`(,_quote (syntax-error "no matching pattern")))
|
|
((compare (car clauses) 'mismatch)
|
|
`(,_syntax-error "invalid rule"))
|
|
(else
|
|
(let ((vars (list-ref (car clauses) 0))
|
|
(match (list-ref (car clauses) 1))
|
|
(expand (list-ref (car clauses) 2)))
|
|
`(,_let ,(map (lambda (v) (list (var->sym v) '())) vars)
|
|
(,_let ((result (,_call/cc (,_lambda (exit) ,match))))
|
|
(,_if result
|
|
,expand
|
|
,(expand-clauses (cdr clauses) rename))))))))
|
|
|
|
(define (normalize-form form)
|
|
(if (and (list? form) (>= (length form) 2))
|
|
(let ((ellipsis '...)
|
|
(literals (cadr form))
|
|
(rules (cddr form)))
|
|
|
|
(when (symbol? literals)
|
|
(set! ellipsis literals)
|
|
(set! literals (car rules))
|
|
(set! rules (cdr rules)))
|
|
|
|
(if (and (symbol? ellipsis)
|
|
(list? literals)
|
|
(every? symbol? literals)
|
|
(list? rules)
|
|
(every? (lambda (l) (and (list? l) (= (length l) 2))) rules))
|
|
(if (member ellipsis literals compare)
|
|
`(syntax-rules #f ,literals ,@rules)
|
|
`(syntax-rules ,ellipsis ,literals ,@rules))
|
|
#f))
|
|
#f))
|
|
|
|
(let ((form (normalize-form form)))
|
|
(if form
|
|
(let ((ellipsis (list-ref form 1))
|
|
(literals (list-ref form 2))
|
|
(rules (list-tail form 3)))
|
|
(let ((clauses (map (lambda (rule) (compile-rule ellipsis literals rule))
|
|
rules)))
|
|
`(,_er-macro-transformer
|
|
(,_lambda (expr rename cmp)
|
|
,(expand-clauses clauses r)))))
|
|
|
|
`(,_syntax-error "malformed syntax-rules"))))))
|
|
|
|
(export syntax-rules))
|
|
|
|
(import (picrin syntax-rules))
|
|
(export syntax-rules)
|
|
|