Merge remote-tracking branch 'origin/stable-2.0'

[bpt/guile.git] / module / ice-9 / eval.scm
diff --git a/module/ice-9/eval.scm b/module/ice-9/eval.scm

index 7098d4f..fdf16c8 100644 (file)
--- a/module/ice-9/eval.scm
+++ b/module/ice-9/eval.scm
@@ -1,7 +1,6 @@
  ;;; -*- mode: scheme; coding: utf-8; -*-
  
-;;;; Copyright (C) 2009, 2010, 2011
-;;;; Free Software Foundation, Inc.
+;;;; Copyright (C) 2009, 2010, 2011, 2012, 2013 Free Software Foundation, Inc.
  ;;;;
  ;;;; This library is free software; you can redistribute it and/or
  ;;;; modify it under the terms of the GNU Lesser General Public
@@ -65,7 +64,7 @@
        (define (make-formals n)
          (map (lambda (i)
                 (datum->syntax
-                x 
+                x
                  (string->symbol
                   (string (integer->char (+ (char->integer #\a) i))))))
               (iota n)))
@@ -204,8 +203,6 @@
  ;;;       module-ref: 14468
  ;;;           define: 1259
  ;;;     toplevel-set: 328
-;;;          dynwind: 162
-;;;      with-fluids: 0
  ;;;          call/cc: 0
  ;;;       module-set: 0
  ;;;
@@ -225,11 +222,12 @@
      ;; multiple arities, as with case-lambda.
      (define (make-general-closure env body nreq rest? nopt kw inits alt)
        (define alt-proc
-        (and alt
+        (and alt                             ; (body docstring nreq ...)
               (let* ((body (car alt))
-                    (nreq (cadr alt))
-                    (rest (if (null? (cddr alt)) #f (caddr alt)))
-                    (tail (and (pair? (cddr alt)) (pair? (cdddr alt)) (cdddr alt)))
+                    (spec (cddr alt))
+                    (nreq (car spec))
+                    (rest (if (null? (cdr spec)) #f (cadr spec)))
+                    (tail (and (pair? (cdr spec)) (pair? (cddr spec)) (cddr spec)))
                      (nopt (if tail (car tail) 0))
                      (kw (and tail (cadr tail)))
                      (inits (if tail (caddr tail) '()))
@@ -246,9 +244,10 @@
                                                 (and kw (car kw))
                                                 (and rest? '_)))
                  (set-procedure-minimum-arity! proc nreq nopt rest?))
-              (let* ((nreq* (cadr alt))
-                     (rest?* (if (null? (cddr alt)) #f (caddr alt)))
-                     (tail (and (pair? (cddr alt)) (pair? (cdddr alt)) (cdddr alt)))
+              (let* ((spec (cddr alt))
+                     (nreq* (car spec))
+                     (rest?* (if (null? (cdr spec)) #f (cadr spec)))
+                     (tail (and (pair? (cdr spec)) (pair? (cddr spec)) (cddr spec)))
                       (nopt* (if tail (car tail) 0))
                       (alt* (and tail (cadddr tail))))
                  (if (or (< nreq* nreq)
@@ -297,72 +296,83 @@
                                   (1- nopt) args (cdr inits))
                               (lp (cons (car args) env)
                                   (1- nopt) (cdr args) (cdr inits)))))
-                   ;; With keywords, we stop binding optionals at the first
-                   ;; keyword.
                     (let lp ((env env)
                              (nopt* nopt)
                              (args args)
                              (inits inits))
-                     (if (> nopt* 0)
-                         (if (or (null? args) (keyword? (car args)))
-                             (lp (cons (eval (car inits) env) env)
-                                 (1- nopt*) args (cdr inits))
-                             (lp (cons (car args) env)
-                                 (1- nopt*) (cdr args) (cdr inits)))
-                         ;; Finished with optionals.
-                         (let* ((aok (car kw))
-                                (kw (cdr kw))
-                                (kw-base (+ nopt nreq (if rest? 1 0)))
-                                (imax (let lp ((imax (1- kw-base)) (kw kw))
-                                        (if (null? kw)
-                                            imax
-                                            (lp (max (cdar kw) imax)
-                                                (cdr kw)))))
-                                ;; Fill in kwargs  with "undefined" vals.
-                                (env (let lp ((i kw-base)
-                                              ;; Also, here we bind the rest
-                                              ;; arg, if any.
-                                              (env (if rest? (cons args env) env)))
-                                       (if (<= i imax)
-                                           (lp (1+ i) (cons unbound-arg env))
-                                           env))))
-                           ;; Now scan args for keywords.
-                           (let lp ((args args))
-                             (if (and (pair? args) (pair? (cdr args))
-                                      (keyword? (car args)))
-                                 (let ((kw-pair (assq (car args) kw))
-                                       (v (cadr args)))
-                                   (if kw-pair
-                                       ;; Found a known keyword; set its value.
-                                       (list-set! env (- imax (cdr kw-pair)) v)
-                                       ;; Unknown keyword.
-                                       (if (not aok)
-                                           (scm-error 'keyword-argument-error
-                                                      "eval" "Unrecognized keyword"
-                                                      '() #f)))
-                                   (lp (cddr args)))
-                                 (if (pair? args)
-                                     (if rest?
-                                         ;; Be lenient parsing rest args.
-                                         (lp (cdr args))
-                                         (scm-error 'keyword-argument-error
-                                                    "eval" "Invalid keyword"
-                                                    '() #f))
-                                     ;; Finished parsing keywords. Fill in
-                                     ;; uninitialized kwargs by evalling init
-                                     ;; expressions in their appropriate
-                                     ;; environment.
-                                     (let lp ((i (- imax kw-base))
-                                              (inits inits))
-                                       (if (pair? inits)
-                                           (let ((tail (list-tail env i)))
-                                             (if (eq? (car tail) unbound-arg)
-                                                 (set-car! tail
-                                                           (eval (car inits)
-                                                                 (cdr tail))))
-                                             (lp (1- i) (cdr inits)))
-                                           ;; Finally, eval the body.
-                                           (eval body env)))))))))))))))
+                     (cond
+                      ;; With keywords, we stop binding optionals at the
+                      ;; first keyword.
+                      ((> nopt* 0)
+                       (if (or (null? args) (keyword? (car args)))
+                           (lp (cons (eval (car inits) env) env)
+                               (1- nopt*) args (cdr inits))
+                           (lp (cons (car args) env)
+                               (1- nopt*) (cdr args) (cdr inits))))
+                      ;; Finished with optionals.
+                      ((and alt (pair? args) (not (keyword? (car args)))
+                            (not rest?))
+                       ;; Too many positional args, no #:rest arg,
+                       ;; and we have an alternate.
+                       (apply alt-proc %args))
+                      (else
+                       (let* ((aok (car kw))
+                              (kw (cdr kw))
+                              (kw-base (+ nopt nreq (if rest? 1 0)))
+                              (imax (let lp ((imax (1- kw-base)) (kw kw))
+                                      (if (null? kw)
+                                          imax
+                                          (lp (max (cdar kw) imax)
+                                              (cdr kw)))))
+                              ;; Fill in kwargs  with "undefined" vals.
+                              (env (let lp ((i kw-base)
+                                            ;; Also, here we bind the rest
+                                            ;; arg, if any.
+                                            (env (if rest?
+                                                     (cons args env)
+                                                     env)))
+                                     (if (<= i imax)
+                                         (lp (1+ i) (cons unbound-arg env))
+                                         env))))
+                         ;; Now scan args for keywords.
+                         (let lp ((args args))
+                           (if (and (pair? args) (pair? (cdr args))
+                                    (keyword? (car args)))
+                               (let ((kw-pair (assq (car args) kw))
+                                     (v (cadr args)))
+                                 (if kw-pair
+                                     ;; Found a known keyword; set its value.
+                                     (list-set! env
+                                                (- imax (cdr kw-pair)) v)
+                                     ;; Unknown keyword.
+                                     (if (not aok)
+                                         (scm-error
+                                          'keyword-argument-error
+                                          "eval" "Unrecognized keyword"
+                                          '() (list (car args)))))
+                                 (lp (cddr args)))
+                               (if (pair? args)
+                                   (if rest?
+                                       ;; Be lenient parsing rest args.
+                                       (lp (cdr args))
+                                       (scm-error 'keyword-argument-error
+                                                  "eval" "Invalid keyword"
+                                                  '() (list (car args))))
+                                   ;; Finished parsing keywords. Fill in
+                                   ;; uninitialized kwargs by evalling init
+                                   ;; expressions in their appropriate
+                                   ;; environment.
+                                   (let lp ((i (- imax kw-base))
+                                            (inits inits))
+                                     (if (pair? inits)
+                                         (let ((tail (list-tail env i)))
+                                           (if (eq? (car tail) unbound-arg)
+                                               (set-car! tail
+                                                         (eval (car inits)
+                                                               (cdr tail))))
+                                           (lp (1- i) (cdr inits)))
+                                         ;; Finally, eval the body.
+                                         (eval body env))))))))))))))))
  
      ;; The "engine". EXP is a memoized expression.
      (define (eval exp env)
@@ -397,14 +407,20 @@
                 (eval body new-env)
                 (lp (cdr inits)
                     (cons (eval (car inits) env) new-env)))))
-      
-        (('lambda (body nreq . tail))
-         (if (null? tail)
-             (make-fixed-closure eval nreq body (capture-env env))
-             (if (null? (cdr tail))
-                 (make-general-closure (capture-env env) body nreq (car tail)
-                                       0 #f '() #f)
-                 (apply make-general-closure (capture-env env) body nreq tail))))
+
+        (('lambda (body docstring nreq . tail))
+         (let ((proc
+                (if (null? tail)
+                    (make-fixed-closure eval nreq body (capture-env env))
+                    (if (null? (cdr tail))
+                        (make-general-closure (capture-env env) body
+                                              nreq (car tail)
+                                              0 #f '() #f)
+                        (apply make-general-closure (capture-env env)
+                               body nreq tail)))))
+           (when docstring
+             (set-procedure-property! proc 'documentation docstring))
+           proc))
  
          (('seq (head . tail))
           (begin
@@ -445,24 +461,11 @@
                                                           env))))
            (eval x env)))
        
-        (('dynwind (in exp . out))
-         (dynamic-wind (eval in env)
-                       (lambda () (eval exp env))
-                       (eval out env)))
-        
-        (('with-fluids (fluids vals . exp))
-         (let* ((fluids (map (lambda (x) (eval x env)) fluids))
-                (vals (map (lambda (x) (eval x env)) vals)))
-           (let lp ((fluids fluids) (vals vals))
-             (if (null? fluids)
-                 (eval exp env)
-                 (with-fluids (((car fluids) (car vals)))
-                   (lp (cdr fluids) (cdr vals)))))))
-        
-        (('prompt (tag exp . handler))
-         (@prompt (eval tag env)
-                  (eval exp env)
-                  (eval handler env)))
+        (('call-with-prompt (tag thunk . handler))
+         (call-with-prompt
+          (eval tag env)
+          (eval thunk env)
+          (eval handler env)))
          
          (('call/cc proc)
           (call/cc (eval proc env)))