X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=src%2Fcompiler%2Fgeneric%2Fvm-tran.lisp;h=1d93ebafc282f4f0c6400c147afeb489a4301110;hb=99501797db3d77ff2a7f32071d7fab0db3fdacae;hp=5ac2beac21cda57e0fb6ba11c67f1710f2fc342d;hpb=806d9ee2d5834c88c558f0ea422879895e9f2e5e;p=sbcl.git diff --git a/src/compiler/generic/vm-tran.lisp b/src/compiler/generic/vm-tran.lisp index 5ac2bea..1d93eba 100644 --- a/src/compiler/generic/vm-tran.lisp +++ b/src/compiler/generic/vm-tran.lisp @@ -42,7 +42,7 @@ ;;;; simplifying HAIRY-DATA-VECTOR-REF and HAIRY-DATA-VECTOR-SET (deftransform hairy-data-vector-ref ((string index) (simple-string t)) - (let ((ctype (continuation-type string))) + (let ((ctype (lvar-type string))) (if (array-type-p ctype) ;; the other transform will kick in, so that's OK (give-up-ir1-transform) @@ -74,7 +74,7 @@ (deftransform data-vector-ref ((array index) (simple-array t)) - (let ((array-type (continuation-type array))) + (let ((array-type (lvar-type array))) (unless (array-type-p array-type) (give-up-ir1-transform)) (let ((dims (array-type-dimensions array-type))) @@ -91,7 +91,7 @@ (deftransform hairy-data-vector-set ((string index new-value) (simple-string t t)) - (let ((ctype (continuation-type string))) + (let ((ctype (lvar-type string))) (if (array-type-p ctype) ;; the other transform will kick in, so that's OK (give-up-ir1-transform) @@ -126,7 +126,7 @@ (deftransform data-vector-set ((array index new-value) (simple-array t t)) - (let ((array-type (continuation-type array))) + (let ((array-type (lvar-type array))) (unless (array-type-p array-type) (give-up-ir1-transform)) (let ((dims (array-type-dimensions array-type))) @@ -143,7 +143,7 @@ new-value))))) (defoptimizer (%data-vector-and-index derive-type) ((array index)) - (let ((atype (continuation-type array))) + (let ((atype (lvar-type array))) (when (array-type-p atype) (values-specifier-type `(values (simple-array ,(type-specifier @@ -343,8 +343,8 @@ (deftransform fill ((sequence item) (simple-bit-vector bit) * :policy (>= speed space)) - (let ((value (if (constant-continuation-p item) - (if (= (continuation-value item) 0) + (let ((value (if (constant-lvar-p item) + (if (= (lvar-value item) 0) 0 #.(1- (ash 1 32))) `(if (= item 0) 0 #.(1- (ash 1 32)))))) @@ -368,8 +368,8 @@ (deftransform fill ((sequence item) (simple-base-string base-char) * :policy (>= speed space)) - (let ((value (if (constant-continuation-p item) - (let* ((char (continuation-value item)) + (let ((value (if (constant-lvar-p item) + (let* ((char (lvar-value item)) (code (sb!xc:char-code char))) (logior code (ash code 8) (ash code 16) (ash code 24))) `(let ((code (sb!xc:char-code item))) @@ -439,28 +439,32 @@ (= (double-float-high-bits x) (double-float-high-bits y)))) -;;;; 32-bit operations -#!-(or ppc sparc x86 mips) ; on X86 it is a modular function -(deftransform lognot ((x) ((unsigned-byte 32)) * - :node node - :result result) - "32-bit implementation" - (let ((dest (continuation-dest result))) - (unless (and (combination-p dest) - (eq (continuation-fun-name (combination-fun dest)) - 'logand)) - (give-up-ir1-transform)) - (unless (some (lambda (arg) - (csubtypep (continuation-type arg) - (specifier-type '(unsigned-byte 32)))) - (combination-args dest)) - (give-up-ir1-transform)) - (setf (node-derived-type node) - (values-specifier-type '(values (unsigned-byte 32) &optional))) - '(32bit-logical-not x))) - +;;;; modular functions (define-good-modular-fun logand) (define-good-modular-fun logior) +;;; FIXME: XOR? ANDC1, ANDC2? -- CSR, 2003-09-16 + +#!-alpha +(progn + (defknown sb!vm::ash-left-mod32 (integer (integer 0)) (unsigned-byte 32) + (foldable flushable movable)) + (define-modular-fun-optimizer ash ((integer count) :width width) + (when (and (<= width 32) + (constant-lvar-p count) ; ? + (plusp (lvar-value count))) + (cut-to-width integer width) + 'sb!vm::ash-left-mod32))) +#!+alpha +(progn + (defknown sb!vm::ash-left-mod64 (integer (integer 0)) (unsigned-byte 64) + (foldable flushable movable)) + (define-modular-fun-optimizer ash ((integer count) :width width) + (when (and (<= width 64) + (constant-lvar-p count) ; ? + (plusp (lvar-value count))) + (cut-to-width integer width) + 'sb!vm::ash-left-mod64))) + ;;; There are two different ways the multiplier can be recoded. The ;;; more obvious is to shift X by the correct amount for each bit set @@ -471,16 +475,14 @@ ;;; the high order bit is bit 31 because shifting by 32 doesn't work ;;; too well. (defun ub32-strength-reduce-constant-multiply (arg num) - (declare (type (unsigned-byte 32) numb)) + (declare (type (unsigned-byte 32) num)) (let ((adds 0) (shifts 0) (result nil) first-one) - (labels ((tub32 (x) `(truly-the (unsigned-byte 32) ,x)) - (add (next-factor) + (labels ((add (next-factor) (setf result - (tub32 - (if result - (progn (incf adds) `(+ ,result ,(tub32 next-factor))) - next-factor))))) + (if result + (progn (incf adds) `(+ ,result ,next-factor)) + next-factor)))) (declare (inline add)) (dotimes (bitpos 32) (if first-one @@ -492,8 +494,8 @@ (progn (incf adds) (incf shifts 2) - `(- ,(tub32 `(ash ,arg ,bitpos)) - ,(tub32 `(ash ,arg ,first-one)))))) + `(- (ash ,arg ,bitpos) + (ash ,arg ,first-one))))) (setf first-one nil)) (when (logbitp bitpos num) (setf first-one bitpos)))) @@ -503,8 +505,12 @@ (t (incf shifts 2) (incf adds) - (add `(- ,(tub32 `(ash ,arg 31)) - ,(tub32 `(ash ,arg ,first-one)))))) + (add `(- (ash ,arg 31) + (ash ,arg ,first-one))))) (incf shifts) (add `(ash ,arg 31)))) - (values result adds shifts))) + (values (if (plusp adds) + `(logand ,result #.(1- (ash 1 32))) ; using modular arithmetic + result) + adds + shifts)))