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picrin/extlib/benz/boot.c

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load basic syntaxes at boot time
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#if 0
[boot.c] commentify scheme code (as c code)
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=pod
/*
=cut
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use strict;
my $src = <<'EOL';
(define-library (picrin base)
(define (memoize f)
"memoize on symbols"
(define cache (make-dictionary))
(lambda (sym)
(call-with-values (lambda () (dictionary-ref cache sym))
(lambda (value exists)
(if exists
value
(begin
(define val (f sym))
(dictionary-set! cache sym val)
val))))))
(define (er-macro-transformer f)
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(lambda (mac-env)
(lambda (expr use-env)
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(define rename
(memoize
(lambda (sym)
(make-identifier sym mac-env))))
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(define (compare x y)
(if (not (symbol? x))
#f
(if (not (symbol? y))
#f
(identifier=? use-env x use-env y))))
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(f expr rename compare))))
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(define-syntax syntax-error
(er-macro-transformer
(lambda (expr rename compare)
(apply error (cdr expr)))))
(define-syntax define-auxiliary-syntax
(er-macro-transformer
(lambda (expr r c)
(list (r 'define-syntax) (cadr expr)
(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)
(define-auxiliary-syntax =>)
(define-auxiliary-syntax unquote)
(define-auxiliary-syntax unquote-splicing)
(define-syntax let
(er-macro-transformer
(lambda (expr r compare)
(if (symbol? (cadr expr))
(begin
(define name (car (cdr expr)))
(define bindings (car (cdr (cdr expr))))
(define body (cdr (cdr (cdr expr))))
(list (r 'let) '()
(list (r 'define) name
(cons (r 'lambda) (cons (map car bindings) body)))
(cons name (map cadr bindings))))
(begin
(set! bindings (cadr expr))
(set! body (cddr expr))
(cons (cons (r 'lambda) (cons (map car bindings) body))
(map cadr bindings)))))))
(define-syntax cond
(er-macro-transformer
(lambda (expr r compare)
(let ((clauses (cdr expr)))
(if (null? clauses)
#f
(begin
(define clause (car clauses))
(if (compare (r 'else) (car clause))
(cons (r 'begin) (cdr clause))
(if (if (>= (length clause) 2)
(compare (r '=>) (list-ref clause 1))
#f)
(list (r 'let) (list (list (r 'x) (car clause)))
(list (r 'if) (r 'x)
(list (list-ref clause 2) (r 'x))
(cons (r 'cond) (cdr clauses))))
(list (r 'if) (car clause)
(cons (r 'begin) (cdr clause))
(cons (r 'cond) (cdr clauses)))))))))))
(define-syntax and
(er-macro-transformer
(lambda (expr r compare)
(let ((exprs (cdr expr)))
(cond
((null? exprs)
#t)
((= (length exprs) 1)
(car exprs))
(else
(list (r 'let) (list (list (r 'it) (car exprs)))
(list (r 'if) (r 'it)
(cons (r 'and) (cdr exprs))
(r 'it)))))))))
(define-syntax or
(er-macro-transformer
(lambda (expr r compare)
(let ((exprs (cdr expr)))
(cond
((null? exprs)
#t)
((= (length exprs) 1)
(car exprs))
(else
(list (r 'let) (list (list (r 'it) (car exprs)))
(list (r 'if) (r 'it)
(r 'it)
(cons (r 'or) (cdr exprs))))))))))
(define-syntax quasiquote
(er-macro-transformer
(lambda (form rename compare)
(define (quasiquote? form)
(and (pair? form) (compare (car form) (rename 'quasiquote))))
(define (unquote? form)
(and (pair? form) (compare (car form) (rename 'unquote))))
(define (unquote-splicing? form)
(and (pair? form) (pair? (car form))
(compare (car (car form)) (rename 'unquote-splicing))))
(define (qq depth expr)
(cond
;; unquote
((unquote? expr)
(if (= depth 1)
(car (cdr expr))
(list (rename 'list)
(list (rename 'quote) (rename 'unquote))
(qq (- depth 1) (car (cdr expr))))))
;; unquote-splicing
((unquote-splicing? expr)
(if (= depth 1)
(list (rename 'append)
(car (cdr (car expr)))
(qq depth (cdr expr)))
(list (rename 'cons)
(list (rename 'list)
(list (rename 'quote) (rename 'unquote-splicing))
(qq (- depth 1) (car (cdr (car expr)))))
(qq depth (cdr expr)))))
;; quasiquote
((quasiquote? expr)
(list (rename 'list)
(list (rename 'quote) (rename 'quasiquote))
(qq (+ depth 1) (car (cdr expr)))))
;; list
((pair? expr)
(list (rename 'cons)
(qq depth (car expr))
(qq depth (cdr expr))))
;; vector
((vector? expr)
(list (rename 'list->vector) (qq depth (vector->list expr))))
;; simple datum
(else
(list (rename 'quote) expr))))
(let ((x (cadr form)))
(qq 1 x)))))
(define-syntax let*
(er-macro-transformer
(lambda (form r compare)
(let ((bindings (cadr form))
(body (cddr form)))
(if (null? bindings)
`(,(r 'let) () ,@body)
`(,(r 'let) ((,(caar bindings)
,@(cdar bindings)))
(,(r 'let*) (,@(cdr bindings))
,@body)))))))
(define-syntax letrec*
(er-macro-transformer
(lambda (form r compare)
(let ((bindings (cadr form))
(body (cddr form)))
(let ((vars (map (lambda (v) `(,v #f)) (map car bindings)))
(initials (map (lambda (v) `(,(r 'set!) ,@v)) bindings)))
`(,(r 'let) (,@vars)
,@initials
,@body))))))
(define-syntax letrec
(er-macro-transformer
(lambda (form rename compare)
`(,(rename 'letrec*) ,@(cdr form)))))
(define-syntax let*-values
(er-macro-transformer
(lambda (form r c)
(let ((formals (cadr form)))
(if (null? formals)
`(,(r 'let) () ,@(cddr form))
`(,(r 'call-with-values) (,(r 'lambda) () ,@(cdar formals))
(,(r 'lambda) (,@(caar formals))
(,(r 'let*-values) (,@(cdr formals))
,@(cddr form)))))))))
(define-syntax let-values
(er-macro-transformer
(lambda (form r c)
`(,(r 'let*-values) ,@(cdr form)))))
(define-syntax define-values
(er-macro-transformer
(lambda (form r compare)
(let ((formal (cadr form))
(exprs (cddr form)))
`(,(r 'begin)
,@(let loop ((formal formal))
(if (not (pair? formal))
(if (symbol? formal)
`((,(r 'define) ,formal #f))
'())
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`((,(r 'define) ,(car formal) #f) . ,(loop (cdr formal)))))
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(,(r 'call-with-values) (,(r 'lambda) () ,@exprs)
(,(r 'lambda) ,(r 'args)
,@(let loop ((formal formal) (args (r 'args)))
(if (not (pair? formal))
(if (symbol? formal)
`((,(r 'set!) ,formal ,args))
'())
`((,(r 'set!) ,(car formal) (,(r 'car) ,args))
,@(loop (cdr formal) `(,(r 'cdr) ,args))))))))))))
(define-syntax do
(er-macro-transformer
(lambda (form r compare)
(let ((bindings (car (cdr form)))
(finish (car (cdr (cdr form))))
(body (cdr (cdr (cdr form)))))
`(,(r 'let) ,(r 'loop) ,(map (lambda (x)
(list (car x) (cadr x)))
bindings)
(,(r 'if) ,(car finish)
(,(r 'begin) ,@(cdr finish))
(,(r 'begin) ,@body
(,(r 'loop) ,@(map (lambda (x)
(if (null? (cddr x))
(car x)
(car (cddr x))))
bindings)))))))))
(define-syntax when
(er-macro-transformer
(lambda (expr rename compare)
(let ((test (cadr expr))
(body (cddr expr)))
`(,(rename 'if) ,test
(,(rename 'begin) ,@body)
#f)))))
(define-syntax unless
(er-macro-transformer
(lambda (expr rename compare)
(let ((test (cadr expr))
(body (cddr expr)))
`(,(rename 'if) ,test
#f
(,(rename 'begin) ,@body))))))
(define-syntax case
(er-macro-transformer
(lambda (expr r compare)
(let ((key (cadr expr))
(clauses (cddr expr)))
`(,(r 'let) ((,(r 'key) ,key))
,(let loop ((clauses clauses))
(if (null? clauses)
#f
(begin
(define clause (car clauses))
`(,(r 'if) ,(if (compare (r 'else) (car clause))
'#t
`(,(r 'or)
,@(map (lambda (x)
`(,(r 'eqv?) ,(r 'key) (,(r 'quote) ,x)))
(car clause))))
,(if (compare (r '=>) (list-ref clause 1))
`(,(list-ref clause 2) ,(r 'key))
`(,(r 'begin) ,@(cdr clause)))
,(loop (cdr clauses)))))))))))
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(define (dynamic-bind parameters values body)
(let* ((old-bindings
(current-dynamic-environment))
(binding
[prepare] dictionary is to be changed to have only symbols for its keys
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(map (lambda (parameter value)
(cons parameter (parameter value #f)))
parameters
values))
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(new-bindings
(cons binding old-bindings)))
(dynamic-wind
(lambda () (current-dynamic-environment new-bindings))
body
(lambda () (current-dynamic-environment old-bindings)))))
(define-syntax parameterize
(er-macro-transformer
(lambda (form r compare)
(let ((formal (cadr form))
(body (cddr form)))
`(,(r 'dynamic-bind)
(list ,@(map car formal))
(list ,@(map cadr formal))
(,(r 'lambda) () ,@body))))))
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(define-syntax letrec-syntax
(er-macro-transformer
(lambda (form r c)
(let ((formal (car (cdr form)))
(body (cdr (cdr form))))
`(let ()
,@(map (lambda (x)
`(,(r 'define-syntax) ,(car x) ,(cadr x)))
formal)
,@body)))))
(define-syntax let-syntax
(er-macro-transformer
(lambda (form r c)
`(,(r 'letrec-syntax) ,@(cdr form)))))
(export let let* letrec letrec*
let-values let*-values define-values
quasiquote unquote unquote-splicing
and or
cond case else =>
do when unless
implement parameterize
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parameterize
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let-syntax letrec-syntax
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syntax-error))
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EOL
add local variables list
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open IN, "./boot.c";
my @data = <IN>;
close IN;
open STDOUT, ">", "./boot.c";
foreach (@data) {
print;
last if $_ eq "#---END---\n";
}
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 = $src =~ /.{0,80}/gs;
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foreach (@lines) {
s/\\/\\\\/g;
s/"/\\"/g;
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s/\n/\\n/g;
print "\"$_\",\n";
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}
[boot.c] commentify scheme code (as c code)
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=pod
*/
=cut
load basic syntaxes at boot time
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print <<EOL;
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};
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#if 0
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Local Variables:
mode: scheme
End:
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=cut
#endif
EOL
=pod
#---END---
#endif
split cstrings every 80 line
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const char pic_boot[][80] = {
"\n(define-library (picrin base)\n\n (define (memoize f)\n \"memoize on symbols\"\n ",
" (define cache (make-dictionary))\n (lambda (sym)\n (call-with-values (l",
"ambda () (dictionary-ref cache sym))\n (lambda (value exists)\n (i",
"f exists\n value\n (begin\n (define val (f",
" sym))\n (dictionary-set! cache sym val)\n val))))))",
"\n\n (define (er-macro-transformer f)\n (lambda (mac-env)\n (lambda (expr u",
"se-env)\n\n (define rename\n (memoize\n (lambda (sym)\n ",
" (make-identifier sym mac-env))))\n\n (define (compare x y)\n ",
" (if (not (symbol? x))\n #f\n (if (not (symbol? y))\n ",
" #f\n (identifier=? use-env x use-env y))))\n\n ",
" (f expr rename compare))))\n\n (define-syntax syntax-error\n (er-macro-tran",
"sformer\n (lambda (expr rename compare)\n (apply error (cdr expr)))))\n\n ",
" (define-syntax define-auxiliary-syntax\n (er-macro-transformer\n (lambda (",
"expr r c)\n (list (r 'define-syntax) (cadr expr)\n (list (r 'lam",
"bda) '_\n (list (r 'lambda) '_\n (list (",
"r 'error) (list (r 'string-append) \"invalid use of auxiliary syntax: '\" (symbol-",
">string (cadr expr)) \"'\"))))))))\n\n (define-auxiliary-syntax else)\n (define-aux",
"iliary-syntax =>)\n (define-auxiliary-syntax unquote)\n (define-auxiliary-syntax",
" unquote-splicing)\n\n (define-syntax let\n (er-macro-transformer\n (lambda ",
"(expr r compare)\n (if (symbol? (cadr expr))\n (begin\n ",
" (define name (car (cdr expr)))\n (define bindings (car (cdr (cdr",
" expr))))\n (define body (cdr (cdr (cdr expr))))\n (li",
"st (r 'let) '()\n (list (r 'define) name\n ",
" (cons (r 'lambda) (cons (map car bindings) body)))\n (cons n",
"ame (map cadr bindings))))\n (begin\n (set! bindings (cadr e",
"xpr))\n (set! body (cddr expr))\n (cons (cons (r 'lambda) ",
"(cons (map car bindings) body))\n (map cadr bindings)))))))\n\n ",
"(define-syntax cond\n (er-macro-transformer\n (lambda (expr r compare)\n ",
" (let ((clauses (cdr expr)))\n (if (null? clauses)\n #f\n ",
" (begin\n (define clause (car clauses))\n (if ",
"(compare (r 'else) (car clause))\n (cons (r 'begin) (cdr clause",
"))\n (if (if (>= (length clause) 2)\n ",
"(compare (r '=>) (list-ref clause 1))\n #f)\n ",
" (list (r 'let) (list (list (r 'x) (car clause)))\n ",
" (list (r 'if) (r 'x)\n (list (list-re",
"f clause 2) (r 'x))\n (cons (r 'cond) (cdr clau",
"ses))))\n (list (r 'if) (car clause)\n ",
" (cons (r 'begin) (cdr clause))\n (cons (r 'con",
"d) (cdr clauses)))))))))))\n\n (define-syntax and\n (er-macro-transformer\n ",
"(lambda (expr r compare)\n (let ((exprs (cdr expr)))\n (cond\n ",
" ((null? exprs)\n #t)\n ((= (length exprs) 1)\n (car",
" exprs))\n (else\n (list (r 'let) (list (list (r 'it) (car expr",
"s)))\n (list (r 'if) (r 'it)\n (cons (r 'and",
") (cdr exprs))\n (r 'it)))))))))\n\n (define-syntax or\n (",
"er-macro-transformer\n (lambda (expr r compare)\n (let ((exprs (cdr expr",
")))\n (cond\n ((null? exprs)\n #t)\n ((= (length",
" exprs) 1)\n (car exprs))\n (else\n (list (r 'let) (li",
"st (list (r 'it) (car exprs)))\n (list (r 'if) (r 'it)\n ",
" (r 'it)\n (cons (r 'or) (cdr exprs))))))))))\n\n",
" (define-syntax quasiquote\n (er-macro-transformer\n (lambda (form rename ",
"compare)\n\n (define (quasiquote? form)\n (and (pair? form) (compare ",
"(car form) (rename 'quasiquote))))\n\n (define (unquote? form)\n (and",
" (pair? form) (compare (car form) (rename 'unquote))))\n\n (define (unquote-",
"splicing? form)\n (and (pair? form) (pair? (car form))\n (com",
"pare (car (car form)) (rename 'unquote-splicing))))\n\n (define (qq depth ex",
"pr)\n (cond\n ;; unquote\n ((unquote? expr)\n (i",
"f (= depth 1)\n (car (cdr expr))\n (list (rename 'list",
")\n (list (rename 'quote) (rename 'unquote))\n ",
" (qq (- depth 1) (car (cdr expr))))))\n ;; unquote-splicing\n ",
" ((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",
"",
};
load basic syntaxes at boot time
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#if 0
add local variables list
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Local Variables:
mode: scheme
End:
load basic syntaxes at boot time
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=cut
#endif