- (element-type 'base-char)
- (initial-element
- #.*default-init-char-form*)))
- '(make-array (the index length)
- :element-type element-type
- :initial-element initial-element))
-
-(defstruct (specialized-array-element-type-properties
- (:conc-name saetp-)
- (:constructor !make-saetp (ctype
- initial-element-default
- n-bits
- typecode
- &key
- (n-pad-elements 0)))
- (:copier nil))
- ;; the element type, e.g. #<BUILT-IN-CLASS BASE-CHAR (sealed)> or
- ;; #<SB-KERNEL:NUMERIC-TYPE (UNSIGNED-BYTE 4)>
- (ctype (missing-arg) :type ctype :read-only t)
- ;; what we get when the low-level vector-creation logic zeroes all
- ;; the bits (which also serves as the default value of MAKE-ARRAY's
- ;; :INITIAL-ELEMENT keyword)
- (initial-element-default (missing-arg) :read-only t)
- ;; how many bits per element
- (n-bits (missing-arg) :type index :read-only t)
- ;; the low-level type code
- (typecode (missing-arg) :type index :read-only t)
- ;; the number of extra elements we use at the end of the array for
- ;; low level hackery (e.g., one element for arrays of BASE-CHAR,
- ;; which is used for a fixed #\NULL so that when we call out to C
- ;; we don't need to cons a new copy)
- (n-pad-elements (missing-arg) :type index :read-only t))
-
-(defparameter *specialized-array-element-type-properties*
- (map 'simple-vector
- (lambda (args)
- (destructuring-bind (type-spec &rest rest) args
- (let ((ctype (specifier-type type-spec)))
- (apply #'!make-saetp ctype rest))))
- `(;; Erm. Yeah. There aren't a lot of things that make sense
- ;; for an initial element for (ARRAY NIL). -- CSR, 2002-03-07
- (nil '#:mu 0 ,sb!vm:simple-array-nil-widetag)
- (base-char ,(code-char 0) 8 ,sb!vm:simple-string-widetag
- ;; (SIMPLE-STRINGs are stored with an extra trailing
- ;; #\NULL for convenience in calling out to C.)
- :n-pad-elements 1)
- (single-float 0.0f0 32 ,sb!vm:simple-array-single-float-widetag)
- (double-float 0.0d0 64 ,sb!vm:simple-array-double-float-widetag)
- #!+long-float (long-float 0.0L0 #!+x86 96 #!+sparc 128
- ,sb!vm:simple-array-long-float-widetag)
- (bit 0 1 ,sb!vm:simple-bit-vector-widetag)
- ;; KLUDGE: The fact that these UNSIGNED-BYTE entries come
- ;; before their SIGNED-BYTE partners is significant in the
- ;; implementation of the compiler; some of the cross-compiler
- ;; code (see e.g. COERCE-TO-SMALLEST-ELTYPE in
- ;; src/compiler/debug-dump.lisp) attempts to create an array
- ;; specialized on (UNSIGNED-BYTE FOO), where FOO could be 7;
- ;; (UNSIGNED-BYTE 7) is SUBTYPEP (SIGNED-BYTE 8), so if we're
- ;; not careful we could get the wrong specialized array when
- ;; we try to FIND-IF, below. -- CSR, 2002-07-08
- ((unsigned-byte 2) 0 2 ,sb!vm:simple-array-unsigned-byte-2-widetag)
- ((unsigned-byte 4) 0 4 ,sb!vm:simple-array-unsigned-byte-4-widetag)
- ((unsigned-byte 8) 0 8 ,sb!vm:simple-array-unsigned-byte-8-widetag)
- ((unsigned-byte 16) 0 16 ,sb!vm:simple-array-unsigned-byte-16-widetag)
- ((unsigned-byte 32) 0 32 ,sb!vm:simple-array-unsigned-byte-32-widetag)
- ((signed-byte 8) 0 8 ,sb!vm:simple-array-signed-byte-8-widetag)
- ((signed-byte 16) 0 16 ,sb!vm:simple-array-signed-byte-16-widetag)
- ((signed-byte 30) 0 32 ,sb!vm:simple-array-signed-byte-30-widetag)
- ((signed-byte 32) 0 32 ,sb!vm:simple-array-signed-byte-32-widetag)
- ((complex single-float) #C(0.0f0 0.0f0) 64
- ,sb!vm:simple-array-complex-single-float-widetag)
- ((complex double-float) #C(0.0d0 0.0d0) 128
- ,sb!vm:simple-array-complex-double-float-widetag)
- #!+long-float ((complex long-float) #C(0.0L0 0.0L0)
- #!+x86 192 #!+sparc 256
- ,sb!vm:simple-array-complex-long-float-widetag)
- (t 0 32 ,sb!vm:simple-vector-widetag))))
+ (element-type 'character)
+ (initial-element
+ #.*default-init-char-form*)))
+ `(the simple-string (make-array (the index length)
+ :element-type element-type
+ ,@(when initial-element
+ '(:initial-element initial-element)))))
+
+;;; Prevent open coding DIMENSION and :INITIAL-CONTENTS arguments,
+;;; so that we can pick them apart.
+(define-source-transform make-array (&whole form dimensions &rest keyargs
+ &environment env)
+ (if (and (fun-lexically-notinline-p 'list)
+ (fun-lexically-notinline-p 'vector))
+ (values nil t)
+ `(locally (declare (notinline list vector))
+ ;; Transform '(3) style dimensions to integer args directly.
+ ,(if (sb!xc:constantp dimensions env)
+ (let ((dims (constant-form-value dimensions env)))
+ (if (and (listp dims) (= 1 (length dims)))
+ `(make-array ',(car dims) ,@keyargs)
+ form))
+ form))))
+
+;;; This baby is a bit of a monster, but it takes care of any MAKE-ARRAY
+;;; call which creates a vector with a known element type -- and tries
+;;; to do a good job with all the different ways it can happen.
+(defun transform-make-array-vector (length element-type initial-element
+ initial-contents call)
+ (aver (or (not element-type) (constant-lvar-p element-type)))
+ (let* ((c-length (when (constant-lvar-p length)
+ (lvar-value length)))
+ (elt-spec (if element-type
+ (lvar-value element-type)
+ t))
+ (elt-ctype (ir1-transform-specifier-type elt-spec))
+ (saetp (if (unknown-type-p elt-ctype)
+ (give-up-ir1-transform "~S is an unknown type: ~S"
+ :element-type elt-spec)
+ (find-saetp-by-ctype elt-ctype)))
+ (default-initial-element (sb!vm:saetp-initial-element-default saetp))
+ (n-bits (sb!vm:saetp-n-bits saetp))
+ (typecode (sb!vm:saetp-typecode saetp))
+ (n-pad-elements (sb!vm:saetp-n-pad-elements saetp))
+ (n-words-form
+ (if c-length
+ (ceiling (* (+ c-length n-pad-elements) n-bits)
+ sb!vm:n-word-bits)
+ (let ((padded-length-form (if (zerop n-pad-elements)
+ 'length
+ `(+ length ,n-pad-elements))))
+ (cond
+ ((= n-bits 0) 0)
+ ((>= n-bits sb!vm:n-word-bits)
+ `(* ,padded-length-form
+ ;; i.e., not RATIO
+ ,(the fixnum (/ n-bits sb!vm:n-word-bits))))
+ (t
+ (let ((n-elements-per-word (/ sb!vm:n-word-bits n-bits)))
+ (declare (type index n-elements-per-word)) ; i.e., not RATIO
+ `(ceiling ,padded-length-form ,n-elements-per-word)))))))
+ (result-spec
+ `(simple-array ,(sb!vm:saetp-specifier saetp) (,(or c-length '*))))
+ (alloc-form
+ `(truly-the ,result-spec
+ (allocate-vector ,typecode (the index length) ,n-words-form))))
+ (cond ((and initial-element initial-contents)
+ (abort-ir1-transform "Both ~S and ~S specified."
+ :initial-contents :initial-element))
+ ;; :INITIAL-CONTENTS (LIST ...), (VECTOR ...) and `(1 1 ,x) with a
+ ;; constant LENGTH.
+ ((and initial-contents c-length
+ (lvar-matches initial-contents
+ :fun-names '(list vector sb!impl::backq-list)
+ :arg-count c-length))
+ (let ((parameters (eliminate-keyword-args
+ call 1 '((:element-type element-type)
+ (:initial-contents initial-contents))))
+ (elt-vars (make-gensym-list c-length))
+ (lambda-list '(length)))
+ (splice-fun-args initial-contents :any c-length)
+ (dolist (p parameters)
+ (setf lambda-list
+ (append lambda-list
+ (if (eq p 'initial-contents)
+ elt-vars
+ (list p)))))
+ `(lambda ,lambda-list
+ (declare (type ,elt-spec ,@elt-vars)
+ (ignorable ,@lambda-list))
+ (truly-the ,result-spec
+ (initialize-vector ,alloc-form ,@elt-vars)))))
+ ;; constant :INITIAL-CONTENTS and LENGTH
+ ((and initial-contents c-length (constant-lvar-p initial-contents))
+ (let ((contents (lvar-value initial-contents)))
+ (unless (= c-length (length contents))
+ (abort-ir1-transform "~S has ~S elements, vector length is ~S."
+ :initial-contents (length contents) c-length))
+ (let ((parameters (eliminate-keyword-args
+ call 1 '((:element-type element-type)
+ (:initial-contents initial-contents)))))
+ `(lambda (length ,@parameters)
+ (declare (ignorable ,@parameters))
+ (truly-the ,result-spec
+ (initialize-vector ,alloc-form
+ ,@(map 'list (lambda (elt)
+ `(the ,elt-spec ',elt))
+ contents)))))))
+ ;; any other :INITIAL-CONTENTS
+ (initial-contents
+ (let ((parameters (eliminate-keyword-args
+ call 1 '((:element-type element-type)
+ (:initial-contents initial-contents)))))
+ `(lambda (length ,@parameters)
+ (declare (ignorable ,@parameters))
+ (unless (= length (length initial-contents))
+ (error "~S has ~S elements, vector length is ~S."
+ :initial-contents (length initial-contents) length))
+ (truly-the ,result-spec
+ (replace ,alloc-form initial-contents)))))
+ ;; :INITIAL-ELEMENT, not EQL to the default
+ ((and initial-element
+ (or (not (constant-lvar-p initial-element))
+ (not (eql default-initial-element (lvar-value initial-element)))))
+ (let ((parameters (eliminate-keyword-args
+ call 1 '((:element-type element-type)
+ (:initial-element initial-element))))
+ (init (if (constant-lvar-p initial-element)
+ (list 'quote (lvar-value initial-element))
+ 'initial-element)))
+ `(lambda (length ,@parameters)
+ (declare (ignorable ,@parameters))
+ (truly-the ,result-spec
+ (fill ,alloc-form (the ,elt-spec ,init))))))
+ ;; just :ELEMENT-TYPE, or maybe with :INITIAL-ELEMENT EQL to the
+ ;; default
+ (t
+ #-sb-xc-host
+ (unless (ctypep default-initial-element elt-ctype)
+ ;; This situation arises e.g. in (MAKE-ARRAY 4 :ELEMENT-TYPE
+ ;; '(INTEGER 1 5)) ANSI's definition of MAKE-ARRAY says "If
+ ;; INITIAL-ELEMENT is not supplied, the consequences of later
+ ;; reading an uninitialized element of new-array are undefined,"
+ ;; so this could be legal code as long as the user plans to
+ ;; write before he reads, and if he doesn't we're free to do
+ ;; anything we like. But in case the user doesn't know to write
+ ;; elements before he reads elements (or to read manuals before
+ ;; he writes code:-), we'll signal a STYLE-WARNING in case he
+ ;; didn't realize this.
+ (if initial-element
+ (compiler-warn "~S ~S is not a ~S"
+ :initial-element default-initial-element
+ elt-spec)
+ (compiler-style-warn "The default initial element ~S is not a ~S."
+ default-initial-element
+ elt-spec)))
+ (let ((parameters (eliminate-keyword-args
+ call 1 '((:element-type element-type)
+ (:initial-element initial-element)))))
+ `(lambda (length ,@parameters)
+ (declare (ignorable ,@parameters))
+ ,alloc-form))))))
+
+;;; IMPORTANT: The order of these three MAKE-ARRAY forms matters: the least
+;;; specific must come first, otherwise suboptimal transforms will result for
+;;; some forms.