X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=src%2Fcode%2Farray.lisp;h=b5e399977a0716d0c8fd8f0f162126ff141c9b48;hb=d7cbe5c40e93796d326937f3fb962fa4d7b1fa85;hp=c4a0e266fb34ece32eb36ce4578b1b64a1ad1bce;hpb=fb2d28ba0ccab2afb9e68b4de722ba2179bcea8e;p=sbcl.git diff --git a/src/code/array.lisp b/src/code/array.lisp index c4a0e26..b5e3999 100644 --- a/src/code/array.lisp +++ b/src/code/array.lisp @@ -133,6 +133,28 @@ (bit #.sb!vm:complex-bit-vector-widetag) (t #.sb!vm:complex-vector-widetag))))) +(defglobal %%simple-array-n-bits%% (make-array (1+ sb!vm:widetag-mask))) +#.(loop for info across sb!vm:*specialized-array-element-type-properties* + collect `(setf (aref %%simple-array-n-bits%% ,(sb!vm:saetp-typecode info)) + ,(sb!vm:saetp-n-bits info)) into forms + finally (return `(progn ,@forms))) + +(defun allocate-vector-with-widetag (widetag length &optional n-bits) + (declare (type (unsigned-byte 8) widetag) + (type index length)) + (let ((n-bits (or n-bits (aref %%simple-array-n-bits%% widetag)))) + (declare (type (integer 0 256) n-bits)) + (allocate-vector widetag length + (ceiling + (* (if (or (= widetag sb!vm:simple-base-string-widetag) + #!+sb-unicode + (= widetag + sb!vm:simple-character-string-widetag)) + (1+ length) + length) + n-bits) + sb!vm:n-word-bits)))) + (defun make-array (dimensions &key (element-type t) (initial-element nil initial-element-p) @@ -159,18 +181,7 @@ (declare (type (unsigned-byte 8) type) (type (integer 0 256) n-bits)) (let* ((length (car dimensions)) - (array (allocate-vector - type - length - (ceiling - (* (if (or (= type sb!vm:simple-base-string-widetag) - #!+sb-unicode - (= type - sb!vm:simple-character-string-widetag)) - (1+ length) - length) - n-bits) - sb!vm:n-word-bits)))) + (array (allocate-vector-with-widetag type length n-bits))) (declare (type index length)) (when initial-element-p (fill array initial-element)) @@ -189,7 +200,7 @@ (let* ((total-size (reduce #'* dimensions)) (data (or displaced-to (data-vector-from-inits - dimensions total-size element-type + dimensions total-size element-type nil initial-contents initial-contents-p initial-element initial-element-p))) (array (make-array-header @@ -289,24 +300,22 @@ of specialized arrays is supported." ;;; specified array characteristics. Dimensions is only used to pass ;;; to FILL-DATA-VECTOR for error checking on the structure of ;;; initial-contents. -(defun data-vector-from-inits (dimensions total-size element-type +(defun data-vector-from-inits (dimensions total-size + element-type widetag initial-contents initial-contents-p initial-element initial-element-p) - (when (and initial-contents-p initial-element-p) - (error "cannot supply both :INITIAL-CONTENTS and :INITIAL-ELEMENT to + (when initial-element-p + (when initial-contents-p + (error "cannot supply both :INITIAL-CONTENTS and :INITIAL-ELEMENT to either MAKE-ARRAY or ADJUST-ARRAY.")) - (let ((data (if initial-element-p - (make-array total-size - :element-type element-type - :initial-element initial-element) - (make-array total-size - :element-type element-type)))) + (unless (typep initial-element element-type) + (error "~S cannot be used to initialize an array of type ~S." + initial-element element-type))) + (let ((data (if widetag + (allocate-vector-with-widetag widetag total-size) + (make-array total-size :element-type element-type)))) (cond (initial-element-p - (unless (simple-vector-p data) - (unless (typep initial-element element-type) - (error "~S cannot be used to initialize an array of type ~S." - initial-element element-type)) - (fill (the vector data) initial-element))) + (fill (the vector data) initial-element)) (initial-contents-p (fill-data-vector data dimensions initial-contents))) data)) @@ -317,7 +326,7 @@ of specialized arrays is supported." (coerce (the list objects) 'simple-vector)) -;;;; accessor/setter and subseq functions +;;;; accessor/setter functions ;;; Dispatch to an optimized routine the data vector accessors for ;;; each different specialized vector type. Do dispatching by looking @@ -328,9 +337,6 @@ of specialized arrays is supported." ;;; the type information is available. Finally, for each of these ;;; routines also provide a slow path, taken for arrays that are not ;;; vectors or not simple. -;;; -;;; Similarly for SUBSEQ, except we don't have the slow-path at all: -;;; VECTOR-SUBEQ* takes care of that. (macrolet ((def (name table-name) `(progn (defglobal ,table-name (make-array ,(1+ sb!vm:widetag-mask))) @@ -342,9 +348,29 @@ of specialized arrays is supported." (svref ,',table-name tag))))))) (def !find-data-vector-setter %%data-vector-setters%%) (def !find-data-vector-setter/check-bounds %%data-vector-setters/check-bounds%%) - (def !find-data-vector-reffer %%data-vector-reffers%%) - (def !find-data-vector-reffer/check-bounds %%data-vector-reffers/check-bounds%%) - (def !find-vector-subseq-fun %%vector-subseq-funs%%)) + ;; Used by DO-VECTOR-DATA -- which in turn appears in DOSEQUENCE expansion, + ;; meaning we can have post-build dependences on this. + (def %find-data-vector-reffer %%data-vector-reffers%%) + (def !find-data-vector-reffer/check-bounds %%data-vector-reffers/check-bounds%%)) + +;;; Like DOVECTOR, but more magical -- can't use this on host. +(defmacro do-vector-data ((elt vector &optional result) &body body) + (multiple-value-bind (forms decls) (parse-body body :doc-string-allowed nil) + (with-unique-names (index vec start end ref) + `(with-array-data ((,vec ,vector) + (,start) + (,end) + :check-fill-pointer t) + (let ((,ref (%find-data-vector-reffer ,vec))) + (do ((,index ,start (1+ ,index))) + ((>= ,index ,end) + (let ((,elt nil)) + ,@(filter-dolist-declarations decls) + ,elt + ,result)) + (let ((,elt (funcall ,ref ,vec ,index))) + ,@decls + (tagbody ,@forms)))))))) (macrolet ((%ref (accessor-getter extra-params) `(funcall (,accessor-getter array) array index ,@extra-params)) @@ -379,7 +405,7 @@ of specialized arrays is supported." (declare (ignore end)) (,accessor-name vector index ,@extra-params))))))) (define hairy-data-vector-ref slow-hairy-data-vector-ref - !find-data-vector-reffer + %find-data-vector-reffer nil (progn)) (define hairy-data-vector-set slow-hairy-data-vector-set !find-data-vector-setter @@ -399,34 +425,6 @@ of specialized arrays is supported." :datum array :expected-type 'vector)) -(defun hairy-subseq-error (array start end) - (declare (ignore start end)) - (error 'type-error - :datum array - :expected-type '(simple-array * (*)))) - -;;; Populate the dispatch tables. -(macrolet ((def-subseq-funs () - `(progn - (set '%%vector-subseq-funs%% - (make-array (1+ sb!vm:widetag-mask) - :initial-element #'hairy-subseq-error)) - ,@(map 'list - (lambda (saetp) - (let ((name (symbolicate "SUBSEQ/" - (sb!vm:saetp-primitive-type-name saetp)))) - `(progn - (defun ,name (vector start end) - (declare (type (simple-array ,(sb!vm:saetp-specifier saetp) (*)) - vector) - (index start end) - (optimize speed (safety 0))) - (subseq vector start end)) - (setf (svref %%vector-subseq-funs%% - ,(sb!vm:saetp-typecode saetp)) - #',name)))) - sb!vm:*specialized-array-element-type-properties*)))) - (def-subseq-funs)) (macrolet ((define-reffer (saetp check-form) (let* ((type (sb!vm:saetp-specifier saetp)) (atype `(simple-array ,type (*)))) @@ -847,18 +845,17 @@ of specialized arrays is supported." (setf (%array-fill-pointer array) (1+ fill-pointer)) fill-pointer)))) -(defun vector-push-extend (new-element - vector - &optional - (min-extension - (let ((length (length vector))) - (min (1+ length) - (- array-dimension-limit length))))) - (declare (fixnum min-extension)) +(defun vector-push-extend (new-element vector &optional min-extension) + (declare (type (or null fixnum) min-extension)) (let ((fill-pointer (fill-pointer vector))) (declare (fixnum fill-pointer)) (when (= fill-pointer (%array-available-elements vector)) - (adjust-array vector (+ fill-pointer (max 1 min-extension)))) + (let ((min-extension + (or min-extension + (let ((length (length vector))) + (min (1+ length) + (- array-dimension-limit length)))))) + (adjust-array vector (+ fill-pointer (max 1 min-extension))))) ;; disable bounds checking (locally (declare (optimize (safety 0))) (setf (aref vector fill-pointer) new-element)) @@ -883,7 +880,7 @@ of specialized arrays is supported." ;;;; ADJUST-ARRAY (defun adjust-array (array dimensions &key - (element-type (array-element-type array)) + (element-type (array-element-type array) element-type-p) (initial-element nil initial-element-p) (initial-contents nil initial-contents-p) fill-pointer @@ -896,7 +893,8 @@ of specialized arrays is supported." (cond ((/= (the fixnum (length (the list dimensions))) (the fixnum (array-rank array))) (error "The number of dimensions not equal to rank of array.")) - ((not (subtypep element-type (array-element-type array))) + ((and element-type-p + (not (subtypep element-type (array-element-type array)))) (error "The new element type, ~S, is incompatible with old type." element-type)) ((and fill-pointer (not (array-has-fill-pointer-p array))) @@ -911,11 +909,11 @@ of specialized arrays is supported." (cond (initial-contents-p ;; array former contents replaced by INITIAL-CONTENTS (if (or initial-element-p displaced-to) - (error "INITIAL-CONTENTS may not be specified with ~ + (error ":INITIAL-CONTENTS may not be specified with ~ the :INITIAL-ELEMENT or :DISPLACED-TO option.")) (let* ((array-size (apply #'* dimensions)) (array-data (data-vector-from-inits - dimensions array-size element-type + dimensions array-size element-type nil initial-contents initial-contents-p initial-element initial-element-p))) (if (adjustable-array-p array) @@ -969,9 +967,13 @@ of specialized arrays is supported." (setf new-data (data-vector-from-inits dimensions new-length element-type + (widetag-of old-data) initial-contents initial-contents-p initial-element initial-element-p)) + ;; Provide :END1 to avoid full call to LENGTH + ;; inside REPLACE. (replace new-data old-data + :end1 new-length :start2 old-start :end2 old-end)) (t (setf new-data (shrink-vector old-data new-length)))) @@ -993,7 +995,8 @@ of specialized arrays is supported." (> new-length old-length)) (data-vector-from-inits dimensions new-length - element-type () nil + element-type + (widetag-of old-data) () nil initial-element initial-element-p) old-data))) (if (or (zerop old-length) (zerop new-length)) @@ -1375,3 +1378,59 @@ function to be removed without further warning." (declare (type index src-index dst-index)) (setf (sbit dst dst-index) (logxor (sbit src src-index) 1)))))))) + +;;;; array type dispatching + +;;; Given DISPATCH-FOO as the DISPATCH-NAME argument (unevaluated), +;;; defines the functions +;;; +;;; DISPATCH-FOO/SIMPLE-BASE-STRING +;;; DISPATCH-FOO/SIMPLE-CHARACTER-STRING +;;; DISPATCH-FOO/SIMPLE-ARRAY-SINGLE-FLOAT +;;; ... +;;; +;;; PARAMS are the function parameters in the definition of each +;;; specializer function. The array being specialized must be the +;;; first parameter in PARAMS. A type declaration for this parameter +;;; is automatically inserted into the body of each function. +;;; +;;; The dispatch table %%FOO-FUNS%% is defined and populated by these +;;; functions. The table is padded by the function +;;; HAIRY-FOO-DISPATCH-ERROR, also defined by DEFINE-ARRAY-DISPATCH. +;;; +;;; Finally, the DISPATCH-FOO macro is defined which does the actual +;;; dispatching when called. It expects arguments that match PARAMS. +;;; +(defmacro define-array-dispatch (dispatch-name params &body body) + (let ((table-name (symbolicate "%%" dispatch-name "-FUNS%%")) + (error-name (symbolicate "HAIRY-" dispatch-name "-ERROR"))) + `(progn + (eval-when (:compile-toplevel :load-toplevel :execute) + (defun ,error-name (&rest args) + (error 'type-error + :datum (first args) + :expected-type '(simple-array * (*))))) + (defglobal ,table-name (make-array ,(1+ sb!vm:widetag-mask) + :initial-element #',error-name)) + ,@(loop for info across sb!vm:*specialized-array-element-type-properties* + for typecode = (sb!vm:saetp-typecode info) + for specifier = (sb!vm:saetp-specifier info) + for primitive-type-name = (sb!vm:saetp-primitive-type-name info) + collect (let ((fun-name (symbolicate (string dispatch-name) + "/" primitive-type-name))) + `(progn + (defun ,fun-name ,params + (declare (type (simple-array ,specifier (*)) + ,(first params))) + ,@body) + (setf (svref ,table-name ,typecode) #',fun-name)))) + (defmacro ,dispatch-name (&rest args) + (check-type (first args) symbol) + (let ((tag (gensym "TAG"))) + `(funcall + (the function + (let ((,tag 0)) + (when (sb!vm::%other-pointer-p ,(first args)) + (setf ,tag (%other-pointer-widetag ,(first args)))) + (svref ,',table-name ,tag))) + ,@args))))))