572 lines
25 KiB
C
572 lines
25 KiB
C
#if 0
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=pod
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/*
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=cut
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use strict;
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my $src = <<'EOL';
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(define-library (picrin base)
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(define (memoize f)
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"memoize on symbols"
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(define cache (make-dictionary))
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(lambda (sym)
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(call-with-values (lambda () (dictionary-ref cache sym))
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(lambda (value exists)
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(if exists
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value
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(begin
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(define val (f sym))
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(dictionary-set! cache sym val)
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val))))))
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(define (er-macro-transformer f)
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(lambda (mac-env)
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(lambda (expr use-env)
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(define rename
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(memoize
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(lambda (sym)
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(make-identifier sym mac-env))))
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(define (compare x y)
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(if (not (symbol? x))
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#f
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(if (not (symbol? y))
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#f
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(identifier=? use-env x use-env y))))
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(f expr rename compare))))
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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 'lambda) '_
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(list (r 'error) (list (r 'string-append) "invalid use of auxiliary syntax: '" (symbol->string (cadr expr)) "'"))))))))
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(define-auxiliary-syntax else)
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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-syntax quasiquote
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(er-macro-transformer
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(lambda (form rename compare)
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(define (quasiquote? form)
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(and (pair? form) (compare (car form) (rename 'quasiquote))))
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(define (unquote? form)
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(and (pair? form) (compare (car form) (rename '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)) (rename '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 (rename 'list)
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(list (rename 'quote) (rename '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 (rename 'append)
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(car (cdr (car expr)))
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(qq depth (cdr expr)))
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(list (rename 'cons)
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(list (rename 'list)
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(list (rename 'quote) (rename '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 (rename 'list)
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(list (rename 'quote) (rename '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 (rename '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 (rename 'list->vector) (qq depth (vector->list expr))))
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;; simple datum
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(else
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(list (rename 'quote) expr))))
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(let ((x (cadr form)))
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(qq 1 x)))))
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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 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-syntax define-values
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(er-macro-transformer
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(lambda (form r compare)
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(let ((formal (cadr form))
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(exprs (cddr form)))
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`(,(r 'begin)
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,@(let loop ((formal formal))
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(if (not (pair? formal))
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(if (symbol? formal)
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`((,(r 'define) ,formal #f))
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'())
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`((,(r 'define) ,(car formal) #f) . ,(loop (cdr formal)))))
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(,(r 'call-with-values) (,(r 'lambda) () ,@exprs)
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(,(r 'lambda) ,(r 'args)
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,@(let loop ((formal formal) (args (r 'args)))
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(if (not (pair? formal))
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(if (symbol? formal)
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`((,(r 'set!) ,formal ,args))
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'())
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`((,(r 'set!) ,(car formal) (,(r 'car) ,args))
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,@(loop (cdr formal) `(,(r 'cdr) ,args))))))))))))
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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 (dynamic-bind parameters values body)
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(let* ((old-bindings
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(current-dynamic-environment))
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(binding
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(map (lambda (parameter value)
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(cons parameter (parameter value #f)))
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parameters
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values))
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(new-bindings
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(cons binding old-bindings)))
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(dynamic-wind
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(lambda () (current-dynamic-environment new-bindings))
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body
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(lambda () (current-dynamic-environment old-bindings)))))
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(define-syntax parameterize
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(er-macro-transformer
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(lambda (form r compare)
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(let ((formal (cadr form))
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(body (cddr form)))
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`(,(r 'dynamic-bind)
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(list ,@(map car formal))
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(list ,@(map cadr formal))
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(,(r 'lambda) () ,@body))))))
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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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(define-syntax let-syntax
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(er-macro-transformer
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(lambda (form r c)
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`(,(r 'letrec-syntax) ,@(cdr form)))))
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(export let let* letrec letrec*
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let-values let*-values define-values
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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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parameterize
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let-syntax letrec-syntax
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syntax-error))
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EOL
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open IN, "./boot.c";
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my @data = <IN>;
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close IN;
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open STDOUT, ">", "./boot.c";
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foreach (@data) {
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print;
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last if $_ eq "#---END---\n";
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}
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print "\n#endif\n\n";
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print <<EOL;
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const char pic_boot[][80] = {
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EOL
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my @lines = $src =~ /.{0,80}/gs;
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foreach (@lines) {
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s/\\/\\\\/g;
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s/"/\\"/g;
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s/\n/\\n/g;
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print "\"$_\",\n";
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}
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print "\"\"\n";
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=pod
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*/
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=cut
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print <<EOL;
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};
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#if 0
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Local Variables:
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mode: scheme
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End:
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=cut
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#endif
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EOL
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=pod
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#---END---
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#endif
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const char pic_boot[][80] = {
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"\n(define-library (picrin base)\n\n (define (memoize f)\n \"memoize on symbols\"\n ",
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" (define cache (make-dictionary))\n (lambda (sym)\n (call-with-values (l",
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"ambda () (dictionary-ref cache sym))\n (lambda (value exists)\n (i",
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"f exists\n value\n (begin\n (define val (f",
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" sym))\n (dictionary-set! cache sym val)\n val))))))",
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"\n\n (define (er-macro-transformer f)\n (lambda (mac-env)\n (lambda (expr u",
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"se-env)\n\n (define rename\n (memoize\n (lambda (sym)\n ",
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" (make-identifier sym mac-env))))\n\n (define (compare x y)\n ",
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" (if (not (symbol? x))\n #f\n (if (not (symbol? y))\n ",
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" #f\n (identifier=? use-env x use-env y))))\n\n ",
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" (f expr rename compare))))\n\n (define-syntax syntax-error\n (er-macro-tran",
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"sformer\n (lambda (expr rename compare)\n (apply error (cdr expr)))))\n\n ",
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" (define-syntax define-auxiliary-syntax\n (er-macro-transformer\n (lambda (",
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"expr r c)\n (list (r 'define-syntax) (cadr expr)\n (list (r 'lam",
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"bda) '_\n (list (r 'lambda) '_\n (list (",
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"r 'error) (list (r 'string-append) \"invalid use of auxiliary syntax: '\" (symbol-",
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">string (cadr expr)) \"'\"))))))))\n\n (define-auxiliary-syntax else)\n (define-aux",
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"iliary-syntax =>)\n (define-auxiliary-syntax unquote)\n (define-auxiliary-syntax",
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" unquote-splicing)\n\n (define-syntax let\n (er-macro-transformer\n (lambda ",
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"(expr r compare)\n (if (symbol? (cadr expr))\n (begin\n ",
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" (define name (car (cdr expr)))\n (define bindings (car (cdr (cdr",
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" expr))))\n (define body (cdr (cdr (cdr expr))))\n (li",
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"st (r 'let) '()\n (list (r 'define) name\n ",
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" (cons (r 'lambda) (cons (map car bindings) body)))\n (cons n",
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"ame (map cadr bindings))))\n (begin\n (set! bindings (cadr e",
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"xpr))\n (set! body (cddr expr))\n (cons (cons (r 'lambda) ",
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"(cons (map car bindings) body))\n (map cadr bindings)))))))\n\n ",
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"(define-syntax cond\n (er-macro-transformer\n (lambda (expr r compare)\n ",
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" (let ((clauses (cdr expr)))\n (if (null? clauses)\n #f\n ",
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" (begin\n (define clause (car clauses))\n (if ",
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"(compare (r 'else) (car clause))\n (cons (r 'begin) (cdr clause",
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"))\n (if (if (>= (length clause) 2)\n ",
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"(compare (r '=>) (list-ref clause 1))\n #f)\n ",
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" (list (r 'let) (list (list (r 'x) (car clause)))\n ",
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" (list (r 'if) (r 'x)\n (list (list-re",
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"f clause 2) (r 'x))\n (cons (r 'cond) (cdr clau",
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"ses))))\n (list (r 'if) (car clause)\n ",
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" (cons (r 'begin) (cdr clause))\n (cons (r 'con",
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"d) (cdr clauses)))))))))))\n\n (define-syntax and\n (er-macro-transformer\n ",
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"(lambda (expr r compare)\n (let ((exprs (cdr expr)))\n (cond\n ",
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" ((null? exprs)\n #t)\n ((= (length exprs) 1)\n (car",
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" exprs))\n (else\n (list (r 'let) (list (list (r 'it) (car expr",
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"s)))\n (list (r 'if) (r 'it)\n (cons (r 'and",
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") (cdr exprs))\n (r 'it)))))))))\n\n (define-syntax or\n (",
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"er-macro-transformer\n (lambda (expr r compare)\n (let ((exprs (cdr expr",
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")))\n (cond\n ((null? exprs)\n #t)\n ((= (length",
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" exprs) 1)\n (car exprs))\n (else\n (list (r 'let) (li",
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"st (list (r 'it) (car exprs)))\n (list (r 'if) (r 'it)\n ",
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" (r 'it)\n (cons (r 'or) (cdr exprs))))))))))\n\n",
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" (define-syntax quasiquote\n (er-macro-transformer\n (lambda (form rename ",
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"compare)\n\n (define (quasiquote? form)\n (and (pair? form) (compare ",
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"(car form) (rename 'quasiquote))))\n\n (define (unquote? form)\n (and",
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" (pair? form) (compare (car form) (rename 'unquote))))\n\n (define (unquote-",
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"splicing? form)\n (and (pair? form) (pair? (car form))\n (com",
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"pare (car (car form)) (rename 'unquote-splicing))))\n\n (define (qq depth ex",
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"pr)\n (cond\n ;; unquote\n ((unquote? expr)\n (i",
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"f (= depth 1)\n (car (cdr expr))\n (list (rename 'list",
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")\n (list (rename 'quote) (rename 'unquote))\n ",
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" (qq (- depth 1) (car (cdr expr))))))\n ;; unquote-splicing\n ",
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" ((unquote-splicing? expr)\n (if (= depth 1)\n (list (ren",
|
|
"ame 'append)\n (car (cdr (car expr)))\n (q",
|
|
"q depth (cdr expr)))\n (list (rename 'cons)\n (l",
|
|
"ist (rename 'list)\n (list (rename 'quote) (rename 'unq",
|
|
"uote-splicing))\n (qq (- depth 1) (car (cdr (car expr))",
|
|
")))\n (qq depth (cdr expr)))))\n ;; quasiquote\n ",
|
|
" ((quasiquote? expr)\n (list (rename 'list)\n (list (",
|
|
"rename 'quote) (rename 'quasiquote))\n (qq (+ depth 1) (car (cdr ",
|
|
"expr)))))\n ;; list\n ((pair? expr)\n (list (rename 'co",
|
|
"ns)\n (qq depth (car expr))\n (qq depth (cdr expr)",
|
|
")))\n ;; vector\n ((vector? expr)\n (list (rename 'list",
|
|
"->vector) (qq depth (vector->list expr))))\n ;; simple datum\n (",
|
|
"else\n (list (rename 'quote) expr))))\n\n (let ((x (cadr form)))\n ",
|
|
" (qq 1 x)))))\n\n (define-syntax let*\n (er-macro-transformer\n (lambd",
|
|
"a (form r compare)\n (let ((bindings (cadr form))\n (body (cddr ",
|
|
"form)))\n (if (null? bindings)\n `(,(r 'let) () ,@body)\n ",
|
|
" `(,(r 'let) ((,(caar bindings)\n ,@(cdar binding",
|
|
"s)))\n (,(r 'let*) (,@(cdr bindings))\n ,@body)))))))",
|
|
"\n\n (define-syntax letrec*\n (er-macro-transformer\n (lambda (form r compar",
|
|
"e)\n (let ((bindings (cadr form))\n (body (cddr form)))\n ",
|
|
" (let ((vars (map (lambda (v) `(,v #f)) (map car bindings)))\n (ini",
|
|
"tials (map (lambda (v) `(,(r 'set!) ,@v)) bindings)))\n `(,(r 'let) (,@",
|
|
"vars)\n ,@initials\n ,@body))))))\n\n (define-syntax letrec",
|
|
"\n (er-macro-transformer\n (lambda (form rename compare)\n `(,(rename ",
|
|
"'letrec*) ,@(cdr form)))))\n\n (define-syntax let*-values\n (er-macro-transform",
|
|
"er\n (lambda (form r c)\n (let ((formals (cadr form)))\n (if (nul",
|
|
"l? formals)\n `(,(r 'let) () ,@(cddr form))\n `(,(r 'call-",
|
|
"with-values) (,(r 'lambda) () ,@(cdar formals))\n (,(r 'lambda) (,@",
|
|
"(caar formals))\n (,(r 'let*-values) (,@(cdr formals))\n ",
|
|
" ,@(cddr form)))))))))\n\n (define-syntax let-values\n (er-macro-transform",
|
|
"er\n (lambda (form r c)\n `(,(r 'let*-values) ,@(cdr form)))))\n\n (defin",
|
|
"e-syntax define-values\n (er-macro-transformer\n (lambda (form r compare)\n ",
|
|
" (let ((formal (cadr form))\n (exprs (cddr form)))\n `(,",
|
|
"(r 'begin)\n ,@(let loop ((formal formal))\n (if (not (p",
|
|
"air? formal))\n (if (symbol? formal)\n `",
|
|
"((,(r 'define) ,formal #f))\n '())\n `((",
|
|
",(r 'define) ,(car formal) #f) . ,(loop (cdr formal)))))\n (,(r 'call-",
|
|
"with-values) (,(r 'lambda) () ,@exprs)\n (,(r 'lambda) ,(r 'args)\n ",
|
|
" ,@(let loop ((formal formal) (args (r 'args)))\n ",
|
|
" (if (not (pair? formal))\n (if (symbol? formal)\n ",
|
|
" `((,(r 'set!) ,formal ,args))\n '()",
|
|
")\n `((,(r 'set!) ,(car formal) (,(r 'car) ,args))\n ",
|
|
" ,@(loop (cdr formal) `(,(r 'cdr) ,args))))))))))))\n\n (define",
|
|
"-syntax do\n (er-macro-transformer\n (lambda (form r compare)\n (let (",
|
|
"(bindings (car (cdr form)))\n (finish (car (cdr (cdr form))))\n ",
|
|
" (body (cdr (cdr (cdr form)))))\n `(,(r 'let) ,(r 'loop) ,(map",
|
|
" (lambda (x)\n (list (car x) (cadr x)))\n ",
|
|
" bindings)\n (,(r 'if) ,(car finish)",
|
|
"\n (,(r 'begin) ,@(cdr finish))\n (,(r 'begin) ,@body\n ",
|
|
" (,(r 'loop) ,@(map (lambda (x)\n (if (nul",
|
|
"l? (cddr x))\n (car x)\n ",
|
|
" (car (cddr x))))\n bindings))))))",
|
|
")))\n\n (define-syntax when\n (er-macro-transformer\n (lambda (expr rename c",
|
|
"ompare)\n (let ((test (cadr expr))\n (body (cddr expr)))\n ",
|
|
" `(,(rename 'if) ,test\n (,(rename 'begin) ,@body)\n #f",
|
|
")))))\n\n (define-syntax unless\n (er-macro-transformer\n (lambda (expr rena",
|
|
"me compare)\n (let ((test (cadr expr))\n (body (cddr expr)))\n ",
|
|
" `(,(rename 'if) ,test\n #f\n (,(rename 'begin) ,@b",
|
|
"ody))))))\n\n (define-syntax case\n (er-macro-transformer\n (lambda (expr r ",
|
|
"compare)\n (let ((key (cadr expr))\n (clauses (cddr expr)))\n ",
|
|
" `(,(r 'let) ((,(r 'key) ,key))\n ,(let loop ((clauses clauses))\n ",
|
|
" (if (null? clauses)\n #f\n (begi",
|
|
"n\n (define clause (car clauses))\n `(,(r ",
|
|
"'if) ,(if (compare (r 'else) (car clause))\n ",
|
|
"'#t\n `(,(r 'or)\n ",
|
|
" ,@(map (lambda (x)\n `(",
|
|
",(r 'eqv?) ,(r 'key) (,(r 'quote) ,x)))\n ",
|
|
" (car clause))))\n ,(if (compare (r '=>) (list-ref cla",
|
|
"use 1))\n `(,(list-ref clause 2) ,(r 'key))\n ",
|
|
" `(,(r 'begin) ,@(cdr clause)))\n ,(loop (",
|
|
"cdr clauses)))))))))))\n\n (define (dynamic-bind parameters values body)\n (let",
|
|
"* ((old-bindings\n (current-dynamic-environment))\n (binding\n",
|
|
" (map (lambda (parameter value)\n (cons parameter (p",
|
|
"arameter value #f)))\n parameters\n values))\n ",
|
|
" (new-bindings\n (cons binding old-bindings)))\n (dynamic-win",
|
|
"d\n (lambda () (current-dynamic-environment new-bindings))\n bod",
|
|
"y\n (lambda () (current-dynamic-environment old-bindings)))))\n\n (define",
|
|
"-syntax parameterize\n (er-macro-transformer\n (lambda (form r compare)\n ",
|
|
" (let ((formal (cadr form))\n (body (cddr form)))\n `(,(r '",
|
|
"dynamic-bind)\n (list ,@(map car formal))\n (list ,@(map cadr ",
|
|
"formal))\n (,(r 'lambda) () ,@body))))))\n\n (define-syntax letrec-synta",
|
|
"x\n (er-macro-transformer\n (lambda (form r c)\n (let ((formal (car (c",
|
|
"dr form)))\n (body (cdr (cdr form))))\n `(let ()\n ",
|
|
" ,@(map (lambda (x)\n `(,(r 'define-syntax) ,(car x) ,(cadr x",
|
|
")))\n formal)\n ,@body)))))\n\n (define-syntax let-syn",
|
|
"tax\n (er-macro-transformer\n (lambda (form r c)\n `(,(r 'letrec-synta",
|
|
"x) ,@(cdr form)))))\n\n (export let let* letrec letrec*\n let-values let*",
|
|
"-values define-values\n quasiquote unquote unquote-splicing\n an",
|
|
"d or\n cond case else =>\n do when unless\n parameterize",
|
|
"\n let-syntax letrec-syntax\n syntax-error))\n\n",
|
|
"",
|
|
""
|
|
};
|
|
|
|
#if 0
|
|
Local Variables:
|
|
mode: scheme
|
|
End:
|
|
|
|
=cut
|
|
#endif
|