(defun streamp (stream)
(typep stream 'stream))
-;;; Is X a (VECTOR T)?
-(defun vector-t-p (x)
- (or (simple-vector-p x)
- (and (complex-vector-p x)
- (do ((data (%array-data-vector x) (%array-data-vector data)))
- ((not (array-header-p data)) (simple-vector-p data))))))
+;;; various (VECTOR FOO) type predicates, not implemented as simple
+;;; widetag tests
+(macrolet
+ ((def ()
+ `(progn
+ ,@(loop for (name spec) in *vector-without-complex-typecode-infos*
+ collect `(defun ,name (x)
+ (or (typep x '(simple-array ,spec (*)))
+ (and (complex-vector-p x)
+ (do ((data (%array-data-vector x) (%array-data-vector data)))
+ ((not (array-header-p data)) (typep data '(simple-array ,spec (*))))))))))))
+ (def))
;;; Is X an extended sequence?
(defun extended-sequence-p (x)
(def-type-predicate-wrapper array-header-p)
(def-type-predicate-wrapper arrayp)
(def-type-predicate-wrapper atom)
- (def-type-predicate-wrapper base-char-p)
+ ;; Testing for BASE-CHAR-P is usually redundant on #-sb-unicode,
+ ;; remove it there completely so that #-sb-unicode build will
+ ;; break when it's used.
+ #!+sb-unicode (def-type-predicate-wrapper base-char-p)
(def-type-predicate-wrapper base-string-p)
#!+sb-unicode (def-type-predicate-wrapper character-string-p)
(def-type-predicate-wrapper bignump)
(def-type-predicate-wrapper integerp)
(def-type-predicate-wrapper listp)
(def-type-predicate-wrapper long-float-p)
- #!+(and sb-thread sb-lutex)
- (def-type-predicate-wrapper lutexp)
(def-type-predicate-wrapper lra-p)
(def-type-predicate-wrapper null)
(def-type-predicate-wrapper numberp)
(def-type-predicate-wrapper ratiop)
(def-type-predicate-wrapper realp)
(def-type-predicate-wrapper short-float-p)
- (def-type-predicate-wrapper simple-array-p)
- (def-type-predicate-wrapper simple-bit-vector-p)
- (def-type-predicate-wrapper simple-base-string-p)
- #!+sb-unicode (def-type-predicate-wrapper simple-character-string-p)
- (def-type-predicate-wrapper simple-string-p)
- (def-type-predicate-wrapper simple-vector-p)
(def-type-predicate-wrapper single-float-p)
- (def-type-predicate-wrapper stringp)
+ #!+sb-simd-pack (def-type-predicate-wrapper simd-pack-p)
(def-type-predicate-wrapper %instancep)
(def-type-predicate-wrapper symbolp)
+ (def-type-predicate-wrapper %other-pointer-p)
(def-type-predicate-wrapper system-area-pointer-p)
(def-type-predicate-wrapper weak-pointer-p)
- (def-type-predicate-wrapper vectorp)
- #!+#.(cl:if (cl:= 32 sb!vm:n-word-bits) '(and) '(or))
- (def-type-predicate-wrapper unsigned-byte-32-p)
#!+#.(cl:if (cl:= 32 sb!vm:n-word-bits) '(and) '(or))
- (def-type-predicate-wrapper signed-byte-32-p)
- #!+#.(cl:if (cl:= 64 sb!vm:n-word-bits) '(and) '(or))
- (def-type-predicate-wrapper unsigned-byte-64-p)
+ (progn
+ (def-type-predicate-wrapper unsigned-byte-32-p)
+ (def-type-predicate-wrapper signed-byte-32-p))
#!+#.(cl:if (cl:= 64 sb!vm:n-word-bits) '(and) '(or))
- (def-type-predicate-wrapper signed-byte-64-p)
- (def-type-predicate-wrapper simple-array-nil-p)
- (def-type-predicate-wrapper simple-array-unsigned-byte-2-p)
- (def-type-predicate-wrapper simple-array-unsigned-byte-4-p)
- (def-type-predicate-wrapper simple-array-unsigned-byte-8-p)
- (def-type-predicate-wrapper simple-array-unsigned-byte-16-p)
- (def-type-predicate-wrapper simple-array-unsigned-byte-32-p)
- (def-type-predicate-wrapper simple-array-signed-byte-8-p)
- (def-type-predicate-wrapper simple-array-signed-byte-16-p)
- (def-type-predicate-wrapper simple-array-signed-byte-30-p)
- (def-type-predicate-wrapper simple-array-signed-byte-32-p)
- (def-type-predicate-wrapper simple-array-single-float-p)
- (def-type-predicate-wrapper simple-array-double-float-p)
- #!+long-float (def-type-predicate-wrapper simple-array-long-float-p)
- (def-type-predicate-wrapper simple-array-complex-single-float-p)
- (def-type-predicate-wrapper simple-array-complex-double-float-p)
- #!+long-float (def-type-predicate-wrapper simple-array-complex-long-float-p)
+ (progn
+ (def-type-predicate-wrapper unsigned-byte-64-p)
+ (def-type-predicate-wrapper signed-byte-64-p))
+ ;; Specialized array types
+ (macrolet ((saetp-defs ()
+ `(progn
+ ,@(map 'list
+ (lambda (saetp)
+ `(def-type-predicate-wrapper
+ ,(symbolicate (sb!vm:saetp-primitive-type-name saetp) "-P")))
+ sb!vm:*specialized-array-element-type-properties*))))
+ (saetp-defs))
+ ;; Other array types
+ (def-type-predicate-wrapper simple-array-p)
+ (def-type-predicate-wrapper simple-string-p)
+ (def-type-predicate-wrapper stringp)
+ (def-type-predicate-wrapper vectorp)
(def-type-predicate-wrapper vector-nil-p))
+
+#!+(or x86 x86-64)
+(defun fixnum-mod-p (x limit)
+ (and (fixnump x)
+ (<= 0 x limit)))
+
\f
;;; Return the specifier for the type of object. This is not simply
;;; (TYPE-SPECIFIER (CTYPE-OF OBJECT)) because CTYPE-OF has different
(extended-char 'extended-char)
((member t) 'boolean)
(keyword 'keyword)
- ((or array complex)
+ ((or array complex #!+sb-simd-pack sb!kernel:simd-pack)
(type-specifier (ctype-of object)))
(t
(let* ((classoid (layout-classoid (layout-of object)))
(defun bit-vector-= (x y)
(declare (type bit-vector x y))
- (if (and (simple-bit-vector-p x)
- (simple-bit-vector-p y))
- (bit-vector-= x y) ; DEFTRANSFORM
- (and (= (length x) (length y))
- (do ((i 0 (1+ i))
- (length (length x)))
- ((= i length) t)
- (declare (fixnum i))
- (unless (= (bit x i) (bit y i))
- (return nil))))))
+ (cond ((eq x y))
+ ((and (simple-bit-vector-p x)
+ (simple-bit-vector-p y))
+ (bit-vector-= x y)) ; DEFTRANSFORM
+ (t
+ (and (= (length x) (length y))
+ (do ((i 0 (1+ i))
+ (length (length x)))
+ ((= i length) t)
+ (declare (fixnum i))
+ (unless (= (bit x i) (bit y i))
+ (return nil)))))))
(defun equal (x y)
#!+sb-doc