result-type-arg-value)))))
`(lambda (result-type-arg fun ,@seq-names)
(truly-the ,result-type
- ,(cond ((policy node (> speed safety))
+ ,(cond ((policy node (< safety 3))
+ ;; ANSI requires the length-related type check only
+ ;; when the SAFETY quality is 3... in other cases, we
+ ;; skip it, because it could be expensive.
bare)
((not constant-result-type-arg-p)
`(sequence-of-checked-length-given-type ,bare
result-type-arg))
(t
- (let ((result-ctype (specifier-type result-type)))
+ (let ((result-ctype (ir1-transform-specifier-type
+ result-type)))
(if (array-type-p result-ctype)
- (let* ((dims (array-type-dimensions result-ctype))
- (dim (first dims)))
- (if (eq dim '*)
- bare
- `(vector-of-checked-length-given-length ,bare
- ,dim)))
+ (let ((dims (array-type-dimensions result-ctype)))
+ (unless (and (listp dims) (= (length dims) 1))
+ (give-up-ir1-transform "invalid sequence type"))
+ (let ((dim (first dims)))
+ (if (eq dim '*)
+ bare
+ `(vector-of-checked-length-given-length ,bare
+ ,dim))))
+ ;; FIXME: this is wrong, as not all subtypes of
+ ;; VECTOR are ARRAY-TYPEs [consider, for
+ ;; example, (OR (VECTOR T 3) (VECTOR T
+ ;; 4))]. However, it's difficult to see what we
+ ;; should put here... maybe we should
+ ;; GIVE-UP-IR1-TRANSFORM if the type is a
+ ;; subtype of VECTOR but not an ARRAY-TYPE?
bare))))))))
;;; Try to compile %MAP efficiently when we can determine sequence
:policy (> speed space))
"open code"
(let ((element-type (upgraded-element-type-specifier-or-give-up seq)))
- `(with-array-data ((data seq)
- (start start)
- (end end))
+ (values
+ `(with-array-data ((data seq)
+ (start start)
+ (end end))
(declare (type (simple-array ,element-type 1) data))
+ (declare (type fixnum start end))
(do ((i start (1+ i)))
((= i end) seq)
(declare (type index i))
;; WITH-ARRAY-DATA did our range checks once and for all, so
- ;; it'd be wasteful to check again on every AREF.
+ ;; it'd be wasteful to check again on every AREF...
(declare (optimize (safety 0)))
- (setf (aref data i) item)))))
+ (setf (aref data i) item)))
+ ;; ... though we still need to check that the new element can fit
+ ;; into the vector in safe code. -- CSR, 2002-07-05
+ `((declare (type ,element-type item))))))
\f
;;;; utilities
;;; %CONCATENATE (with a DEFTRANSFORM to translate constant RTYPE to
;;; CTYPE before calling %CONCATENATE) which is comparably efficient,
;;; at least once DYNAMIC-EXTENT works.
+;;;
+;;; FIXME: currently KLUDGEed because of bug 188
(deftransform concatenate ((rtype &rest sequences)
(t &rest simple-string)
- simple-string)
+ simple-string
+ :policy (< safety 3))
(collect ((lets)
(forms)
(all-lengths)
(forms `(bit-bash-copy ,n-seq ,vector-data-bit-offset
res start
,n-length))
- (forms `(setq start (+ start ,n-length)))))
+ (forms `(setq start (opaque-identity (+ start ,n-length))))))
`(lambda (rtype ,@(args))
(declare (ignore rtype))
- (let* (,@(lets)
- (res (make-string (truncate (the index (+ ,@(all-lengths)))
- sb!vm:n-byte-bits)))
- (start ,vector-data-bit-offset))
- (declare (type index start ,@(all-lengths)))
- ,@(forms)
- res))))
+ ;; KLUDGE
+ (flet ((opaque-identity (x) x))
+ (declare (notinline opaque-identity))
+ (let* (,@(lets)
+ (res (make-string (truncate (the index (+ ,@(all-lengths)))
+ sb!vm:n-byte-bits)))
+ (start ,vector-data-bit-offset))
+ (declare (type index start ,@(all-lengths)))
+ ,@(forms)
+ res)))))
\f
;;;; CONS accessor DERIVE-TYPE optimizers