(library (geiser) (export geiser:eval geiser:completions geiser:module-completions geiser:autodoc geiser:no-values geiser:load-file geiser:newline geiser:macroexpand) (import (chezscheme)) (define (call-with-result thunk) (let ((output-string (open-output-string))) (write (call/cc (lambda (k) (with-exception-handler (lambda (e) (debug-condition e) ; save the condition for the debugger (k `((result "") (output . ,(with-output-to-string (lambda () (display-condition e)))) (error (key . condition))))) (lambda () (call-with-values (lambda () (parameterize ((current-output-port output-string)) (thunk))) (lambda result `((result ,(with-output-to-string (lambda () (pretty-print (if (null? (cdr result)) (car result) result))))) (output . ,(get-output-string output-string)))))))))) (newline) (close-output-port output-string))) (define (last-index-of str-list char idx last-idx) (if (null? str-list) last-idx (last-index-of (cdr str-list) char (+ 1 idx) (if (char=? char (car str-list)) idx last-idx)))) (define (obj-file-name name) (let ((idx (last-index-of (string->list name) #\. 0 -1))) (if (= idx -1) (string-append name ".so") (string-append (substring name 0 idx) ".so")))) (define (geiser:load-file filename) (let ((output-filename (obj-file-name filename))) (call-with-result (lambda () (with-output-to-string (lambda () (maybe-compile-file filename output-filename))) (load output-filename))))) (define string-prefix? (lambda (x y) (let ([n (string-length x)]) (and (fx<= n (string-length y)) (let prefix? ([i 0]) (or (fx= i n) (and (char=? (string-ref x i) (string-ref y i)) (prefix? (fx+ i 1))))))))) (define (geiser:completions prefix . rest) (sort string-ciparameter-list p) (define (nparams n) (map (lambda (n) (string->symbol (format "x~a" n))) (iota n))) (let* ((m (procedure-arity-mask p)) (pm (if (< m 0) (+ 1 (lognot m)) m)) (n (if (> pm 0) (/ (log pm) (log 2)) 0))) (let loop ((k 1) (pl '())) (cond ((> k n) (reverse (if (< m 0) (cons (append (car pl) '(...)) pl) pl))) ((logbit? k pm) (loop (+ k 1) (cons (nparams k) pl))) (else (loop (+ k 1) pl)))))) (define (source->parameter-list p) ;; same as (inspect object), then hitting c (let* ((s (((inspect/object p) 'code) 'source)) (form (and s (s 'value)))) (and (list? form) (>= (length form) 2) (case (car form) [(lambda) (list (cadr form))] [(case-lambda) (map car (cdr form))] [(record-predicate record-accessor) (list (list (record-type-name (cadr (cadr form)))))] [(record-mutator) (let ([rtd (cadr (cadr form))] [field-idx (caddr form)]) (list (list (record-type-name rtd) (vector-ref (record-type-field-names rtd) field-idx))))] [(record-constructor) (let* ([rcd (cadr (cadr form))] [rtd (((inspect/object rcd) 'ref 'rtd) 'value)]) (list (vector->list (record-type-field-names rtd))))] [else #f])))) (define (operator-arglist operator) (define (procedure-parameter-list p) (and (procedure? p) (or (source->parameter-list p) (arity->parameter-list p)))) (define (autodoc-arglist* args req) (cond ((null? args) (list (list* "required" (reverse req)))) ((pair? args) (autodoc-arglist* (cdr args) (cons (car args) req))) (else `(("required" . ,(reverse req)) ("optional" ,args))))) (define (autodoc-arglist arglist) (autodoc-arglist* arglist '())) (let ([binding (with-exception-handler (lambda (e) #f) (lambda () (eval operator)))]) (if binding (let ([arglists (procedure-parameter-list binding)]) (if arglists `(,operator ("args" ,@(map autodoc-arglist arglists))) `(,operator ("value" . ,(write-to-string binding))))) '()))) (define (geiser:autodoc ids . rest) (cond ((null? ids) '()) ((not (list? ids)) (geiser:autodoc (list ids))) ((not (symbol? (car ids))) (geiser:autodoc (cdr ids))) (else (map operator-arglist ids)))) (define (geiser:no-values) #f) (define (geiser:newline) #f) (define (geiser:macroexpand form . rest) (with-output-to-string (lambda () (pretty-print (syntax->datum (expand form)))))))