(args-to-fn (if take-car `(car ,v) v))))
(let* ((fn-sym (gensym)) ; for ONCE-ONLY-ish purposes
- (call `(funcall ,fn-sym . ,(args-to-fn)))
+ (call `(%funcall ,fn-sym . ,(args-to-fn)))
(endtest `(or ,@(tests))))
- (ecase accumulate
- (:nconc
- (let ((temp (gensym))
- (map-result (gensym)))
- `(let ((,fn-sym ,fn)
- (,map-result (list nil)))
- (do-anonymous ((,temp ,map-result) . ,(do-clauses))
- (,endtest (cdr ,map-result))
- (setq ,temp (last (nconc ,temp ,call)))))))
- (:list
- (let ((temp (gensym))
- (map-result (gensym)))
- `(let ((,fn-sym ,fn)
- (,map-result (list nil)))
- (do-anonymous ((,temp ,map-result) . ,(do-clauses))
- (,endtest (truly-the list (cdr ,map-result)))
- (rplacd ,temp (setq ,temp (list ,call)))))))
- ((nil)
- `(let ((,fn-sym ,fn)
- (,n-first ,(first arglists)))
- (do-anonymous ,(do-clauses)
- (,endtest (truly-the list ,n-first))
- ,call))))))))
+
+ `(let ((,fn-sym (%coerce-callable-to-fun ,fn)))
+ ,(ecase accumulate
+ (:nconc
+ (let ((temp (gensym))
+ (map-result (gensym)))
+ `(let ((,map-result (list nil)))
+ (do-anonymous ((,temp ,map-result) . ,(do-clauses))
+ (,endtest (cdr ,map-result))
+ (setq ,temp (last (nconc ,temp ,call)))))))
+ (:list
+ (let ((temp (gensym))
+ (map-result (gensym)))
+ `(let ((,map-result (list nil)))
+ (do-anonymous ((,temp ,map-result) . ,(do-clauses))
+ (,endtest (truly-the list (cdr ,map-result)))
+ (rplacd ,temp (setq ,temp (list ,call)))))))
+ ((nil)
+ `(let ((,n-first ,(first arglists)))
+ (do-anonymous ,(do-clauses)
+ (,endtest (truly-the list ,n-first))
+ ,call)))))))))
(define-source-transform mapc (function list &rest more-lists)
(mapfoo-transform function (cons list more-lists) nil t))
(deftransform %check-vector-sequence-bounds ((vector start end)
(vector * *) *
:node node)
- (if (policy node (< safety speed))
+ (if (policy node (= 0 insert-array-bounds-checks))
'(or end (length vector))
'(let ((length (length vector)))
- (if (<= 0 start (or end length) length)
- (or end length)
- (sb!impl::signal-bounding-indices-bad-error vector start end)))))
-
-(macrolet ((def (name)
- `(deftransform ,name ((e l &key (test #'eql)) * *
- :node node)
- (unless (constant-lvar-p l)
- (give-up-ir1-transform))
-
- (let ((val (lvar-value l)))
- (unless (policy node
- (or (= speed 3)
- (and (>= speed space)
- (<= (length val) 5))))
- (give-up-ir1-transform))
-
- (labels ((frob (els)
- (if els
- `(if (funcall test e ',(car els))
- ',els
- ,(frob (cdr els)))
- nil)))
- (frob val))))))
- (def member)
- (def memq))
-
-;;; FIXME: We have rewritten the original code that used DOLIST to this
-;;; more natural MACROLET. However, the original code suggested that when
-;;; this was done, a few bytes could be saved by a call to a shared
-;;; function. This remains to be done.
-(macrolet ((def (fun eq-fun)
- `(deftransform ,fun ((item list &key test) (t list &rest t) *)
- "convert to EQ test"
- ;; FIXME: The scope of this transformation could be
- ;; widened somewhat, letting it work whenever the test is
- ;; 'EQL and we know from the type of ITEM that it #'EQ
- ;; works like #'EQL on it. (E.g. types FIXNUM, CHARACTER,
- ;; and SYMBOL.)
- ;; If TEST is EQ, apply transform, else
- ;; if test is not EQL, then give up on transform, else
- ;; if ITEM is not a NUMBER or is a FIXNUM, apply
- ;; transform, else give up on transform.
- (cond (test
- (unless (lvar-fun-is test '(eq))
- (give-up-ir1-transform)))
- ((types-equal-or-intersect (lvar-type item)
- (specifier-type 'number))
- (give-up-ir1-transform "Item might be a number.")))
- `(,',eq-fun item list))))
- (def delete delq)
- (def assoc assq)
- (def member memq))
+ (if (<= 0 start (or end length) length)
+ (or end length)
+ (sequence-bounding-indices-bad-error vector start end)))))
+
+(defun specialized-list-seek-function-name (function-name key-functions)
+ (or (find-symbol (with-output-to-string (s)
+ ;; Write "%NAME-FUN1-FUN2-FUN3", etc. Not only is
+ ;; this ever so slightly faster then FORMAT, this
+ ;; way we are also proof against *PRINT-CASE*
+ ;; frobbing and such.
+ (write-char #\% s)
+ (write-string (symbol-name function-name) s)
+ (dolist (f key-functions)
+ (write-char #\- s)
+ (write-string (symbol-name f) s)))
+ (load-time-value (find-package "SB!KERNEL")))
+ (bug "Unknown list item seek transform: name=~S, key-functions=~S"
+ function-name key-functions)))
+
+(defun transform-list-item-seek (name list key test test-not node)
+ ;; Key can legally be NIL, but if it's NIL for sure we pretend it's
+ ;; not there at all. If it might be NIL, make up a form to that
+ ;; ensure it is a function.
+ (multiple-value-bind (key key-form)
+ (if key
+ (let ((key-type (lvar-type key))
+ (null-type (specifier-type 'null)))
+ (cond ((csubtypep key-type null-type)
+ (values nil nil))
+ ((csubtypep null-type key-type)
+ (values key '(if key
+ (%coerce-callable-to-fun key)
+ #'identity)))
+ (t
+ (values key '(%coerce-callable-to-fun key))))))
+ (let* ((funs (remove nil (list (and key 'key) (cond (test 'test)
+ (test-not 'test-not)))))
+ (target-expr (if key '(%funcall key target) 'target))
+ (test-expr (cond (test `(%funcall test item ,target-expr))
+ (test-not `(not (%funcall test-not item ,target-expr)))
+ (t `(eql item ,target-expr)))))
+ (labels ((open-code (tail)
+ (when tail
+ `(if (let ((this ',(car tail)))
+ ,(ecase name
+ (assoc
+ `(and this (let ((target (car this)))
+ ,test-expr)))
+ (member
+ `(let ((target this))
+ ,test-expr))))
+ ',(ecase name
+ (assoc (car tail))
+ (member tail))
+ ,(open-code (cdr tail)))))
+ (ensure-fun (fun)
+ (if (eq 'key fun)
+ key-form
+ `(%coerce-callable-to-fun ,fun))))
+ (let* ((cp (constant-lvar-p list))
+ (c-list (when cp (lvar-value list))))
+ (cond ((and cp c-list (policy node (>= speed space)))
+ `(let ,(mapcar (lambda (fun) `(,fun ,(ensure-fun fun))) funs)
+ ,(open-code c-list)))
+ ((and cp (not c-list))
+ ;; constant nil list -- nothing to find!
+ nil)
+ (t
+ ;; specialized out-of-line version
+ `(,(specialized-list-seek-function-name name funs)
+ item list ,@(mapcar #'ensure-fun funs)))))))))
+
+(deftransform member ((item list &key key test test-not) * * :node node)
+ (transform-list-item-seek 'member list key test test-not node))
+
+(deftransform assoc ((item list &key key test test-not) * * :node node)
+ (transform-list-item-seek 'assoc list key test test-not node))
+
+(deftransform memq ((item list) (t (constant-arg list)))
+ (labels ((rec (tail)
+ (if tail
+ `(if (eq item ',(car tail))
+ ',tail
+ ,(rec (cdr tail)))
+ nil)))
+ (rec (lvar-value list))))
+
+;;; A similar transform used to apply to MEMBER and ASSOC, but since
+;;; TRANSFORM-LIST-ITEM-SEEK now takes care of them those transform
+;;; would never fire, and (%MEMBER-TEST ITEM LIST #'EQ) should be
+;;; almost as fast as MEMQ.
+(deftransform delete ((item list &key test) (t list &rest t) *)
+ "convert to EQ test"
+ ;; FIXME: The scope of this transformation could be
+ ;; widened somewhat, letting it work whenever the test is
+ ;; 'EQL and we know from the type of ITEM that it #'EQ
+ ;; works like #'EQL on it. (E.g. types FIXNUM, CHARACTER,
+ ;; and SYMBOL.)
+ ;; If TEST is EQ, apply transform, else
+ ;; if test is not EQL, then give up on transform, else
+ ;; if ITEM is not a NUMBER or is a FIXNUM, apply
+ ;; transform, else give up on transform.
+ (cond (test
+ (unless (lvar-fun-is test '(eq))
+ (give-up-ir1-transform)))
+ ((types-equal-or-intersect (lvar-type item)
+ (specifier-type 'number))
+ (give-up-ir1-transform "Item might be a number.")))
+ `(delq item list))
(deftransform delete-if ((pred list) (t list))
"open code"
(values
`(with-array-data ((data seq)
(start start)
- (end end))
+ (end end)
+ :check-fill-pointer t)
(declare (type (simple-array ,element-type 1) data))
(declare (type fixnum start end))
(do ((i start (1+ i)))
(t
(give-up-ir1-transform))))
-;;; FIXME: Why is this code commented out? (Why *was* it commented
-;;; out? We inherited this situation from cmucl-2.4.8, with no
-;;; explanation.) Should we just delete this code?
-#|
-;;; This is a frob whose job it is to make it easier to pass around
-;;; the arguments to IR1 transforms. It bundles together the name of
-;;; the argument (which should be referenced in any expansion), and
-;;; the continuation for that argument (or NIL if unsupplied.)
-(defstruct (arg (:constructor %make-arg (name cont))
- (:copier nil))
- (name nil :type symbol)
- (cont nil :type (or continuation null)))
-(defmacro make-arg (name)
- `(%make-arg ',name ,name))
-
-;;; If Arg is null or its CONT is null, then return Default, otherwise
-;;; return Arg's NAME.
-(defun default-arg (arg default)
- (declare (type (or arg null) arg))
- (if (and arg (arg-cont arg))
- (arg-name arg)
- default))
-
-;;; If Arg is null or has no CONT, return the default. Otherwise, Arg's
-;;; CONT must be a constant continuation whose value we return. If not, we
-;;; give up.
-(defun arg-constant-value (arg default)
- (declare (type (or arg null) arg))
- (if (and arg (arg-cont arg))
- (let ((cont (arg-cont arg)))
- (unless (constant-continuation-p cont)
- (give-up-ir1-transform "Argument is not constant: ~S."
- (arg-name arg)))
- (continuation-value from-end))
- default))
-
-;;; If Arg is a constant and is EQL to X, then return T, otherwise NIL. If
-;;; Arg is NIL or its CONT is NIL, then compare to the default.
-(defun arg-eql (arg default x)
- (declare (type (or arg null) x))
- (if (and arg (arg-cont arg))
- (let ((cont (arg-cont arg)))
- (and (constant-continuation-p cont)
- (eql (continuation-value cont) x)))
- (eql default x)))
-
-(defstruct (iterator (:copier nil))
- ;; The kind of iterator.
- (kind nil (member :normal :result))
- ;; A list of LET* bindings to create the initial state.
- (binds nil :type list)
- ;; A list of declarations for Binds.
- (decls nil :type list)
- ;; A form that returns the current value. This may be set with SETF to set
- ;; the current value.
- (current (error "Must specify CURRENT."))
- ;; In a :NORMAL iterator, a form that tests whether there is a current value.
- (done nil)
- ;; In a :RESULT iterator, a form that truncates the result at the current
- ;; position and returns it.
- (result nil)
- ;; A form that returns the initial total number of values. The result is
- ;; undefined after NEXT has been evaluated.
- (length (error "Must specify LENGTH."))
- ;; A form that advances the state to the next value. It is an error to call
- ;; this when the iterator is Done.
- (next (error "Must specify NEXT.")))
-
-;;; Type of an index var that can go negative (in the from-end case.)
-(deftype neg-index ()
- `(integer -1 ,most-positive-fixnum))
-
-;;; Return an ITERATOR structure describing how to iterate over an arbitrary
-;;; sequence. Sequence is a variable bound to the sequence, and Type is the
-;;; type of the sequence. If true, INDEX is a variable that should be bound to
-;;; the index of the current element in the sequence.
-;;;
-;;; If we can't tell whether the sequence is a list or a vector, or whether
-;;; the iteration is forward or backward, then GIVE-UP.
-(defun make-sequence-iterator (sequence type &key start end from-end index)
- (declare (symbol sequence) (type ctype type)
- (type (or arg null) start end from-end)
- (type (or symbol null) index))
- (let ((from-end (arg-constant-value from-end nil)))
- (cond ((csubtypep type (specifier-type 'vector))
- (let* ((n-stop (gensym))
- (n-idx (or index (gensym)))
- (start (default-arg 0 start))
- (end (default-arg `(length ,sequence) end)))
- (make-iterator
- :kind :normal
- :binds `((,n-idx ,(if from-end `(1- ,end) ,start))
- (,n-stop ,(if from-end `(1- ,start) ,end)))
- :decls `((type neg-index ,n-idx ,n-stop))
- :current `(aref ,sequence ,n-idx)
- :done `(,(if from-end '<= '>=) ,n-idx ,n-stop)
- :next `(setq ,n-idx
- ,(if from-end `(1- ,n-idx) `(1+ ,n-idx)))
- :length (if from-end
- `(- ,n-idx ,n-stop)
- `(- ,n-stop ,n-idx)))))
- ((csubtypep type (specifier-type 'list))
- (let* ((n-stop (if (and end (not from-end)) (gensym) nil))
- (n-current (gensym))
- (start-p (not (arg-eql start 0 0)))
- (end-p (not (arg-eql end nil nil)))
- (start (default-arg start 0))
- (end (default-arg end nil)))
- (make-iterator
- :binds `((,n-current
- ,(if from-end
- (if (or start-p end-p)
- `(nreverse (subseq ,sequence ,start
- ,@(when end `(,end))))
- `(reverse ,sequence))
- (if start-p
- `(nthcdr ,start ,sequence)
- sequence)))
- ,@(when n-stop
- `((,n-stop (nthcdr (the index
- (- ,end ,start))
- ,n-current))))
- ,@(when index
- `((,index ,(if from-end `(1- ,end) start)))))
- :kind :normal
- :decls `((list ,n-current ,n-end)
- ,@(when index `((type neg-index ,index))))
- :current `(car ,n-current)
- :done `(eq ,n-current ,n-stop)
- :length `(- ,(or end `(length ,sequence)) ,start)
- :next `(progn
- (setq ,n-current (cdr ,n-current))
- ,@(when index
- `((setq ,n-idx
- ,(if from-end
- `(1- ,index)
- `(1+ ,index)))))))))
- (t
- (give-up-ir1-transform
- "can't tell whether sequence is a list or a vector")))))
-
-;;; Make an iterator used for constructing result sequences. Name is a
-;;; variable to be bound to the result sequence. Type is the type of result
-;;; sequence to make. Length is an expression to be evaluated to get the
-;;; maximum length of the result (not evaluated in list case.)
-(defun make-result-sequence-iterator (name type length)
- (declare (symbol name) (type ctype type))
-
-;;; Define each NAME as a local macro that will call the value of the
-;;; function arg with the given arguments. If the argument isn't known to be a
-;;; function, give them an efficiency note and reference a coerced version.
-(defmacro coerce-funs (specs &body body)
- #!+sb-doc
- "COERCE-FUNCTIONS ({(Name Fun-Arg Default)}*) Form*"
- (collect ((binds)
- (defs))
- (dolist (spec specs)
- `(let ((body (progn ,@body))
- (n-fun (arg-name ,(second spec)))
- (fun-cont (arg-cont ,(second spec))))
- (cond ((not fun-cont)
- `(macrolet ((,',(first spec) (&rest args)
- `(,',',(third spec) ,@args)))
- ,body))
- ((not (csubtypep (continuation-type fun-cont)
- (specifier-type 'function)))
- (when (policy *compiler-error-context*
- (> speed inhibit-warnings))
- (compiler-notify
- "~S may not be a function, so must coerce at run-time."
- n-fun))
- (once-only ((n-fun `(if (functionp ,n-fun)
- ,n-fun
- (symbol-function ,n-fun))))
- `(macrolet ((,',(first spec) (&rest args)
- `(funcall ,',n-fun ,@args)))
- ,body)))
- (t
- `(macrolet ((,',(first spec) (&rest args)
- `(funcall ,',n-fun ,@args)))
- ,body)))))))
-
-;;; Wrap code around the result of the body to define Name as a local macro
-;;; that returns true when its arguments satisfy the test according to the Args
-;;; Test and Test-Not. If both Test and Test-Not are supplied, abort the
-;;; transform.
-(defmacro with-sequence-test ((name test test-not) &body body)
- `(let ((not-p (arg-cont ,test-not)))
- (when (and (arg-cont ,test) not-p)
- (abort-ir1-transform "Both ~S and ~S were supplied."
- (arg-name ,test)
- (arg-name ,test-not)))
- (coerce-funs ((,name (if not-p ,test-not ,test) eql))
- ,@body)))
-|#
-\f
+
;;;; hairy sequence transforms
;;; FIXME: no hairy sequence transforms in SBCL?
+;;;
+;;; There used to be a bunch of commented out code about here,
+;;; containing the (apparent) beginning of hairy sequence transform
+;;; infrastructure. People interested in implementing better sequence
+;;; transforms might want to look at it for inspiration, even though
+;;; the actual code is ancient CMUCL -- and hence bitrotted. The code
+;;; was deleted in 1.0.7.23.
\f
;;;; string operations
;;; you tweak it, make sure that you compare the disassembly, if not the
;;; performance of, the functions implementing string streams
;;; (e.g. SB!IMPL::STRING-OUCH).
+(eval-when (:compile-toplevel :load-toplevel :execute)
+ (defun make-replace-transform (saetp sequence-type1 sequence-type2)
+ `(deftransform replace ((seq1 seq2 &key (start1 0) (start2 0) end1 end2)
+ (,sequence-type1 ,sequence-type2 &rest t)
+ ,sequence-type1
+ :node node)
+ ,(cond
+ ((and saetp (valid-bit-bash-saetp-p saetp)) nil)
+ ;; If the sequence types are different, SEQ1 and SEQ2 must
+ ;; be distinct arrays, and we can open code the copy loop.
+ ((not (eql sequence-type1 sequence-type2)) nil)
+ ;; If we're not bit-bashing, only allow cases where we
+ ;; can determine the order of copying up front. (There
+ ;; are actually more cases we can handle if we know the
+ ;; amount that we're copying, but this handles the
+ ;; common cases.)
+ (t '(unless (= (constant-value-or-lose start1 0)
+ (constant-value-or-lose start2 0))
+ (give-up-ir1-transform))))
+ `(let* ((len1 (length seq1))
+ (len2 (length seq2))
+ (end1 (or end1 len1))
+ (end2 (or end2 len2))
+ (replace-len1 (- end1 start1))
+ (replace-len2 (- end2 start2)))
+ ,(unless (policy node (= safety 0))
+ `(progn
+ (unless (<= 0 start1 end1 len1)
+ (sequence-bounding-indices-bad-error seq1 start1 end1))
+ (unless (<= 0 start2 end2 len2)
+ (sequence-bounding-indices-bad-error seq2 start2 end2))))
+ ,',(cond
+ ((and saetp (valid-bit-bash-saetp-p saetp))
+ (let* ((n-element-bits (sb!vm:saetp-n-bits saetp))
+ (bash-function (intern (format nil "UB~D-BASH-COPY"
+ n-element-bits)
+ (find-package "SB!KERNEL"))))
+ `(funcall (function ,bash-function) seq2 start2
+ seq1 start1 (min replace-len1 replace-len2))))
+ (t
+ ;; We can expand the loop inline here because we
+ ;; would have given up the transform (see above)
+ ;; if we didn't have constant matching start
+ ;; indices.
+ '(do ((i start1 (1+ i))
+ (j start2 (1+ j))
+ (end (+ start1
+ (min replace-len1 replace-len2))))
+ ((>= i end))
+ (declare (optimize (insert-array-bounds-checks 0)))
+ (setf (aref seq1 i) (aref seq2 j)))))
+ seq1))))
+
(macrolet
((define-replace-transforms ()
(loop for saetp across sb!vm:*specialized-array-element-type-properties*
for sequence-type = `(simple-array ,(sb!vm:saetp-specifier saetp) (*))
unless (= (sb!vm:saetp-typecode saetp) sb!vm::simple-array-nil-widetag)
- collect
- `(deftransform replace ((seq1 seq2 &key (start1 0) (start2 0) end1 end2)
- (,sequence-type ,sequence-type &rest t)
- ,sequence-type
- :node node)
- ,(cond
- ((valid-bit-bash-saetp-p saetp) nil)
- ;; If we're not bit-bashing, only allow cases where we
- ;; can determine the order of copying up front. (There
- ;; are actually more cases we can handle if we know the
- ;; amount that we're copying, but this handles the
- ;; common cases.)
- (t '(unless (= (constant-value-or-lose start1 0)
- (constant-value-or-lose start2 0))
- (give-up-ir1-transform))))
- `(let* ((len1 (length seq1))
- (len2 (length seq2))
- (end1 (or end1 len1))
- (end2 (or end2 len2))
- (replace-len1 (- end1 start1))
- (replace-len2 (- end2 start2)))
- ,(unless (policy node (= safety 0))
- `(progn
- (unless (<= 0 start1 end1 len1)
- (sb!impl::signal-bounding-indices-bad-error seq1 start1 end1))
- (unless (<= 0 start2 end2 len2)
- (sb!impl::signal-bounding-indices-bad-error seq2 start2 end2))))
- ,',(cond
- ((valid-bit-bash-saetp-p saetp)
- (let* ((n-element-bits (sb!vm:saetp-n-bits saetp))
- (bash-function (intern (format nil "UB~D-BASH-COPY" n-element-bits)
- (find-package "SB!KERNEL"))))
- `(funcall (function ,bash-function) seq2 start2
- seq1 start1 (min replace-len1 replace-len2))))
- (t
- ;; We can expand the loop inline here because we
- ;; would have given up the transform (see above)
- ;; if we didn't have constant matching start
- ;; indices.
- '(do ((i start1 (1+ i))
- (end (+ start1
- (min replace-len1 replace-len2))))
- ((>= i end))
- (declare (optimize (insert-array-bounds-checks 0)))
- (setf (aref seq1 i) (aref seq2 i)))))
- seq1))
+ collect (make-replace-transform saetp sequence-type sequence-type)
into forms
- finally (return `(progn ,@forms)))))
- (define-replace-transforms))
+ finally (return `(progn ,@forms))))
+ (define-one-transform (sequence-type1 sequence-type2)
+ (make-replace-transform nil sequence-type1 sequence-type2)))
+ (define-replace-transforms)
+ (define-one-transform simple-base-string (simple-array character (*)))
+ (define-one-transform (simple-array character (*)) simple-base-string))
;;; Expand simple cases of UB<SIZE>-BASH-COPY inline. "simple" is
;;; defined as those cases where we are doing word-aligned copies from
(type (integer 0 #.sb!xc:array-dimension-limit) j i))
(setf (aref ,dst (1- j)) (aref ,src (1- i))))))
+;;; SUBSEQ, COPY-SEQ
+
(deftransform subseq ((seq start &optional end)
- ((or (simple-unboxed-array (*)) simple-vector) t &optional t)
- * :node node)
- (let ((array-type (lvar-type seq)))
- (unless (array-type-p array-type)
- (give-up-ir1-transform))
- (let ((element-type (type-specifier (array-type-specialized-element-type array-type))))
- `(let* ((length (length seq))
- (end (or end length)))
- ,(unless (policy node (= safety 0))
- '(progn
- (unless (<= 0 start end length)
- (sb!impl::signal-bounding-indices-bad-error seq start end))))
- (let* ((size (- end start))
- (result (make-array size :element-type ',element-type)))
- ,(maybe-expand-copy-loop-inline 'seq (if (constant-lvar-p start)
- (lvar-value start)
- 'start)
- 'result 0 'size element-type)
- result)))))
-
-(deftransform copy-seq ((seq) ((or (simple-unboxed-array (*)) simple-vector)) *)
- (let ((array-type (lvar-type seq)))
- (unless (array-type-p array-type)
- (give-up-ir1-transform))
- (let ((element-type (type-specifier (array-type-specialized-element-type array-type))))
- `(let* ((length (length seq))
- (result (make-array length :element-type ',element-type)))
- ,(maybe-expand-copy-loop-inline 'seq 0 'result 0 'length element-type)
- result))))
+ (vector t &optional t)
+ *
+ :node node)
+ (let ((type (lvar-type seq)))
+ (cond
+ ((and (array-type-p type)
+ (csubtypep type (specifier-type '(or (simple-unboxed-array (*)) simple-vector))))
+ (let ((element-type (type-specifier (array-type-specialized-element-type type))))
+ `(let* ((length (length seq))
+ (end (or end length)))
+ ,(unless (policy node (zerop insert-array-bounds-checks))
+ '(progn
+ (unless (<= 0 start end length)
+ (sequence-bounding-indices-bad-error seq start end))))
+ (let* ((size (- end start))
+ (result (make-array size :element-type ',element-type)))
+ ,(maybe-expand-copy-loop-inline 'seq (if (constant-lvar-p start)
+ (lvar-value start)
+ 'start)
+ 'result 0 'size element-type)
+ result))))
+ ((csubtypep type (specifier-type 'string))
+ '(string-subseq* seq start end))
+ (t
+ '(vector-subseq* seq start end)))))
+
+(deftransform subseq ((seq start &optional end)
+ (list t &optional t))
+ `(list-subseq* seq start end))
+
+(deftransform subseq ((seq start &optional end)
+ ((and sequence (not vector) (not list)) t &optional t))
+ '(sb!sequence:subseq seq start end))
+
+(deftransform copy-seq ((seq) (vector))
+ (let ((type (lvar-type seq)))
+ (cond ((and (array-type-p type)
+ (csubtypep type (specifier-type '(or (simple-unboxed-array (*)) simple-vector))))
+ (let ((element-type (type-specifier (array-type-specialized-element-type type))))
+ `(let* ((length (length seq))
+ (result (make-array length :element-type ',element-type)))
+ ,(maybe-expand-copy-loop-inline 'seq 0 'result 0 'length element-type)
+ result)))
+ ((csubtypep type (specifier-type 'string))
+ '(string-subseq* seq 0 nil))
+ (t
+ '(vector-subseq* seq 0 nil)))))
+
+(deftransform copy-seq ((seq) (list))
+ '(list-copy-seq* seq))
+
+(deftransform copy-seq ((seq) ((and sequence (not vector) (not list))))
+ '(sb!sequence:copy-seq seq))
;;; FIXME: it really should be possible to take advantage of the
;;; macros used in code/seq.lisp here to avoid duplication of code,
from-end)
(vector vector &rest t)
*
+ :node node
:policy (> speed (max space safety)))
"open code"
(let ((from-end (when (lvar-p from-end)
(give-up-ir1-transform ":FROM-END is not constant."))
(lvar-value from-end)))
(keyp (lvar-p key))
- (testp (lvar-p test)))
+ (testp (lvar-p test))
+ (check-bounds-p (policy node (plusp insert-array-bounds-checks))))
`(block search
- (let ((end1 (or end1 (length pattern)))
- (end2 (or end2 (length text)))
- ,@(when keyp
- '((key (coerce key 'function))))
- ,@(when testp
- '((test (coerce test 'function)))))
- (declare (type index start1 start2 end1 end2))
- (do (,(if from-end
- '(index2 (- end2 (- end1 start1)) (1- index2))
- '(index2 start2 (1+ index2))))
- (,(if from-end
- '(< index2 start2)
- '(>= index2 end2))
- nil)
- ;; INDEX2 is FIXNUM, not an INDEX, as right before the loop
- ;; terminates is hits -1 when :FROM-END is true and :START2
- ;; is 0.
- (declare (type fixnum index2))
- (when (do ((index1 start1 (1+ index1))
- (index2 index2 (1+ index2)))
- ((>= index1 end1) t)
- (declare (type index index1 index2))
- ,@(unless from-end
- '((when (= index2 end2)
- (return-from search nil))))
- (unless (,@(if testp
- '(funcall test)
- '(eql))
- ,(if keyp
- '(funcall key (aref pattern index1))
- '(aref pattern index1))
- ,(if keyp
- '(funcall key (aref text index2))
- '(aref text index2)))
- (return nil)))
- (return index2)))))))
-
-;;; FIXME: It seems as though it should be possible to make a DEFUN
-;;; %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
-;;;
-;;; FIXME: disabled for sb-unicode: probably want it back
-#!-sb-unicode
-(deftransform concatenate ((rtype &rest sequences)
- (t &rest (or simple-base-string
- (simple-array nil (*))))
- simple-base-string
- :policy (< safety 3))
- (loop for rest-seqs on sequences
- for n-seq = (gensym "N-SEQ")
- for n-length = (gensym "N-LENGTH")
- for start = 0 then next-start
- for next-start = (gensym "NEXT-START")
- collect n-seq into args
- collect `(,n-length (length ,n-seq)) into lets
- collect n-length into all-lengths
- collect next-start into starts
- collect `(if (and (typep ,n-seq '(simple-array nil (*)))
- (> ,n-length 0))
- (error 'nil-array-accessed-error)
- (#.(let* ((i (position 'character sb!kernel::*specialized-array-element-types*))
- (saetp (aref sb!vm:*specialized-array-element-type-properties* i))
- (n-bits (sb!vm:saetp-n-bits saetp)))
- (intern (format nil "UB~D-BASH-COPY" n-bits)
- "SB!KERNEL"))
- ,n-seq 0 res ,start ,n-length))
- into forms
- collect `(setq ,next-start (+ ,start ,n-length)) into forms
- finally
- (return
- `(lambda (rtype ,@args)
- (declare (ignore rtype))
- (let* (,@lets
- (res (make-string (the index (+ ,@all-lengths))
- :element-type 'base-char)))
- (declare (type index ,@all-lengths))
- (let (,@(mapcar (lambda (name) `(,name 0)) starts))
- (declare (type index ,@starts))
- ,@forms)
- res)))))
+ (flet ((oops (vector start end)
+ (sequence-bounding-indices-bad-error vector start end)))
+ (let* ((len1 (length pattern))
+ (len2 (length text))
+ (end1 (or end1 len1))
+ (end2 (or end2 len2))
+ ,@(when keyp
+ '((key (coerce key 'function))))
+ ,@(when testp
+ '((test (coerce test 'function)))))
+ (declare (type index start1 start2 end1 end2))
+ ,@(when check-bounds-p
+ `((unless (<= start1 end1 len1)
+ (oops pattern start1 end1))
+ (unless (<= start2 end2 len2)
+ (oops pattern start2 end2))))
+ (do (,(if from-end
+ '(index2 (- end2 (- end1 start1)) (1- index2))
+ '(index2 start2 (1+ index2))))
+ (,(if from-end
+ '(< index2 start2)
+ '(>= index2 end2))
+ nil)
+ ;; INDEX2 is FIXNUM, not an INDEX, as right before the loop
+ ;; terminates is hits -1 when :FROM-END is true and :START2
+ ;; is 0.
+ (declare (type fixnum index2))
+ (when (do ((index1 start1 (1+ index1))
+ (index2 index2 (1+ index2)))
+ ((>= index1 end1) t)
+ (declare (type index index1 index2)
+ (optimize (insert-array-bounds-checks 0)))
+ ,@(unless from-end
+ '((when (= index2 end2)
+ (return-from search nil))))
+ (unless (,@(if testp
+ '(funcall test)
+ '(eql))
+ ,(if keyp
+ '(funcall key (aref pattern index1))
+ '(aref pattern index1))
+ ,(if keyp
+ '(funcall key (aref text index2))
+ '(aref text index2)))
+ (return nil)))
+ (return index2))))))))
+
+
+;;; Open-code CONCATENATE for strings. It would be possible to extend
+;;; this transform to non-strings, but I chose to just do the case that
+;;; should cover 95% of CONCATENATE performance complaints for now.
+;;; -- JES, 2007-11-17
+(deftransform concatenate ((result-type &rest lvars)
+ (symbol &rest sequence)
+ *
+ :policy (> speed space))
+ (unless (constant-lvar-p result-type)
+ (give-up-ir1-transform))
+ (let* ((element-type (let ((type (lvar-value result-type)))
+ ;; Only handle the simple result type cases. If
+ ;; somebody does (CONCATENATE '(STRING 6) ...)
+ ;; their code won't be optimized, but nobody does
+ ;; that in practice.
+ (case type
+ ((string simple-string) 'character)
+ ((base-string simple-base-string) 'base-char)
+ (t (give-up-ir1-transform)))))
+ (vars (loop for x in lvars collect (gensym)))
+ (lvar-values (loop for lvar in lvars
+ collect (when (constant-lvar-p lvar)
+ (lvar-value lvar))))
+ (lengths
+ (loop for value in lvar-values
+ for var in vars
+ collect (if value
+ (length value)
+ `(sb!impl::string-dispatch ((simple-array * (*))
+ sequence)
+ ,var
+ (declare (muffle-conditions compiler-note))
+ (length ,var))))))
+ `(apply
+ (lambda ,vars
+ (declare (ignorable ,@vars))
+ (let* ((.length. (+ ,@lengths))
+ (.pos. 0)
+ (.string. (make-string .length. :element-type ',element-type)))
+ (declare (type index .length. .pos.)
+ (muffle-conditions compiler-note))
+ ,@(loop for value in lvar-values
+ for var in vars
+ collect (if (stringp value)
+ ;; Fold the array reads for constant arguments
+ `(progn
+ ,@(loop for c across value
+ collect `(setf (aref .string.
+ .pos.) ,c)
+ collect `(incf .pos.)))
+ `(sb!impl::string-dispatch
+ (#!+sb-unicode
+ (simple-array character (*))
+ (simple-array base-char (*))
+ t)
+ ,var
+ (replace .string. ,var :start1 .pos.)
+ (incf .pos. (length ,var)))))
+ .string.))
+ lvars)))
\f
;;;; CONS accessor DERIVE-TYPE optimizers
(declare (type index index))
(dolist (i sequence
(if (and end (> end index))
- (sb!impl::signal-bounding-indices-bad-error
+ (sequence-bounding-indices-bad-error
sequence start end)
(values find position)))
(let ((key-i (funcall key i)))
end-arg
element
done-p-expr)
- (with-unique-names (offset block index n-sequence sequence n-end end)
- `(let ((,n-sequence ,sequence-arg)
- (,n-end ,end-arg))
+ (with-unique-names (offset block index n-sequence sequence end)
+ `(let* ((,n-sequence ,sequence-arg))
(with-array-data ((,sequence ,n-sequence :offset-var ,offset)
(,start ,start)
- (,end (%check-vector-sequence-bounds
- ,n-sequence ,start ,n-end)))
+ (,end ,end-arg)
+ :check-fill-pointer t)
(block ,block
(macrolet ((maybe-return ()
;; WITH-ARRAY-DATA has already performed bounds
;; in the inner loop.
'(let ((,element (locally (declare (optimize (insert-array-bounds-checks 0)))
(aref ,sequence ,index))))
- (when ,done-p-expr
- (return-from ,block
- (values ,element
- (- ,index ,offset)))))))
+ (when ,done-p-expr
+ (return-from ,block
+ (values ,element
+ (- ,index ,offset)))))))
(if ,from-end
(loop for ,index
;; (If we aren't fastidious about declaring that
from (1- ,end) downto ,start do
(maybe-return))
(loop for ,index of-type index from ,start below ,end do
- (maybe-return))))
+ (maybe-return))))
(values nil nil))))))
(def!macro %find-position-vector-macro (item sequence
"expand inline"
(check-inlineability-of-find-position-if sequence from-end)
'(%find-position-vector-macro item sequence
- from-end start end key test))
+ from-end start end key test))
;;; logic to unravel :TEST, :TEST-NOT, and :KEY options in FIND,
;;; POSITION-IF, etc.