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sbcl-core.lisp
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sbcl-core.lisp
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;;; -*- mode: Lisp; indent-tabs-mode: nil; -*-
;;;
;;; Copyright (c) 2010, Alexander Gavrilov ([email protected])
;;;
;;; This file contains definitions of abstract VOPs, macros
;;; and utility functions used to implement the intrinsics.
;;;
(in-package #:SSE)
(eval-when (:load-toplevel :compile-toplevel :execute)
(define-symbol-macro +any-sse-reg+
'(int-sse-reg single-sse-reg double-sse-reg))
(define-symbol-macro +any-sse-reg/immediate+
'(int-sse-reg single-sse-reg double-sse-reg
int-sse-immediate single-sse-immediate double-sse-immediate)))
#|---------------------------------|
| SPECIFIC PACK TYPES |
|---------------------------------|#
(deftype sse-pack (&optional (arg nil arg-p))
(if arg-p `(simd-pack ,arg) 'simd-pack))
(deftype int-sse-pack () '(sse-pack integer))
(deftype float-sse-pack () '(sse-pack single-float))
(deftype double-sse-pack () '(sse-pack double-float))
(declaim (inline sse-pack-p))
(defun sse-pack-p (arg) (simd-pack-p arg))
;; Has no effect; just to stop any errors
(defvar *sse-pack-print-mode* nil)
#|---------------------------------|
| HELPER FUNCTIONS & MACROS |
|---------------------------------|#
(defconstant +uint32-mask+ #xFFFFFFFF)
(defconstant +uint64-mask+ #xFFFFFFFFFFFFFFFF)
(defconstant +min-int32+ (- (ash 1 31)))
(defconstant +max-int32+ (1- (ash 1 31)))
(defun type-name-to-primitive (lt)
(primitive-type-name (primitive-type (specifier-type lt))))
(defun type-name-to-reg (lt)
(ecase lt
(int-sse-pack 'int-sse-reg)
(float-sse-pack 'single-sse-reg)
(double-sse-pack 'double-sse-reg)))
(defun type-name-to-tag (lt)
(let ((elt (ecase lt
(int-sse-pack 'integer)
(float-sse-pack 'single-float)
(double-sse-pack 'double-float))))
(or (position elt *simd-pack-element-types*)
(error "Unknown tag for type ~A" lt))))
(defmacro %mkpack (type lo hi)
`(%make-simd-pack ,(type-name-to-tag type) ,lo ,hi))
(defun move-cmd-for-type (lt)
;; Select a move instruction that matches the type name best
(ecase lt
(int-sse-pack 'movdqa)
((float-sse-pack double-sse-pack) 'movaps)))
(defun ensure-reg-or-mem (tn)
;; Spill immediate constants to inline memory
(sc-case tn
((int-sse-immediate single-sse-immediate double-sse-immediate)
(register-inline-constant (tn-value tn)))
((immediate)
(register-inline-constant :dword (tn-value tn)))
(t tn)))
(defmacro ensure-load (type tgt src)
;; Ensure src gets to tgt, possibly from memory or immediate
`(unless (location= ,tgt ,src)
(inst ,(move-cmd-for-type type) ,tgt (ensure-reg-or-mem ,src))))
(defmacro ensure-move (type tgt src)
;; Ensure src gets to tgt; src should be a register
`(unless (location= ,tgt ,src)
(inst ,(move-cmd-for-type type) ,tgt ,src)))
(defmacro save-intrinsic-spec (name info)
;; Save forms in info for later processing (function generation)
`(eval-when (:compile-toplevel :load-toplevel :execute)
(setf (get ',name 'intrinsic-spec) ',info)))
(defmacro def-splice-transform (name args &body code)
"Define a transform unpacking a superposition of function calls. Args can contain nested call specs."
(let* ((direct-args (mapcar (lambda (x) (if (consp x) (gensym) x)) args))
(flat-args (mapcan (lambda (x) (if (consp x) (copy-list (rest x)) (list x))) args)))
`(deftransform ,name ((,@direct-args) * *)
,(format nil "Simplify combination ~A" (cons name args))
,@(loop for spec in args and name in direct-args
when (consp spec)
collect `(splice-fun-args ,name ',(first spec) ,(1- (length spec))))
(list* 'lambda ',flat-args ',code))))
#|---------------------------------|
| INDEX-OFFSET SPLICING |
|---------------------------------|#
(defun skip-casts (lvar)
;; In unchecked mode, skip cast nodes and return their argument
(let ((inside (lvar-uses lvar)))
(if (and (cast-p inside)
(policy inside (= sb-c::type-check 0)))
(skip-casts (cast-value inside))
lvar)))
(defun delete-casts (lvar)
;; Delete outer cast nodes from the lvar
(loop for inside = (lvar-uses lvar)
while (cast-p inside)
do (delete-filter inside lvar (cast-value inside))))
(defun fold-index-addressing (fun-name index scale offset &key prefix-args postfix-args)
"Generic index expression folding transform; unpacks index into base + index*scale + offset."
;; Peek into the index argument:
(multiple-value-bind (func index-args)
(extract-fun-args (skip-casts index) '(+ - * ash) 2)
;; Found an arithmetic op in index...
(destructuring-bind (x constant) index-args
(declare (ignorable x))
(unless (constant-lvar-p constant)
(give-up-ir1-transform))
;; It has one constant argument...
(let ((value (lvar-value constant))
(scale-value (lvar-value scale))
(offset-value (lvar-value offset)))
(unless (integerp value)
(give-up-ir1-transform))
;; Compute new scale and offset constants:
(multiple-value-bind (new-scale new-offset)
(ecase func
(+ (values scale-value (+ offset-value (* value scale-value))))
(- (values scale-value (- offset-value (* value scale-value))))
(* (values (* scale-value value) offset-value))
(ash (unless (>= value 0)
(give-up-ir1-transform "negative index shift"))
(values (ash scale-value value) offset-value)))
;; Verify that the constants didn't overflow:
(unless (and (typep new-scale '(signed-byte 32))
(typep new-offset 'signed-word))
(give-up-ir1-transform "constant is too large for inlining"))
;; OK, actually apply the splice:
(delete-casts index)
(splice-fun-args index func 2)
`(lambda (,@prefix-args thing index const scale offset ,@postfix-args)
(declare (ignore const scale offset))
(,fun-name ,@prefix-args
thing (the signed-word index) ,new-scale ,new-offset
,@postfix-args)))))))
(deftransform fold-ref-index-addressing ((thing index scale offset) * * :defun-only t :node node)
(fold-index-addressing (lvar-fun-name (basic-combination-fun node)) index scale offset))
(deftransform fold-xmm-ref-index-addressing ((value thing index scale offset) * * :defun-only t :node node)
(fold-index-addressing (lvar-fun-name (basic-combination-fun node)) index scale offset :prefix-args '(value)))
(deftransform fold-set-index-addressing ((thing index scale offset value) * * :defun-only t :node node)
(fold-index-addressing (lvar-fun-name (basic-combination-fun node)) index scale offset :postfix-args '(value)))
#|---------------------------------|
| INDEX-OFFSET ADDRESSING |
|---------------------------------|#
(defun is-tagged-load-scale (value)
;; The scale factor can be adjusted for a tagged fixnum index
(not (logtest value (1- (ash 1 n-fixnum-tag-bits)))))
(deftype tagged-load-scale ()
'(and fixnum (satisfies is-tagged-load-scale)))
(defun find-lea-scale (scale)
;; Split the scale into a LEA-compatible part and the rest
(cond ((not (logtest scale 7)) (values (/ scale 8) 8))
((not (logtest scale 3)) (values (/ scale 4) 4))
((not (logtest scale 1)) (values (/ scale 2) 2))
(t (values scale 1))))
(defun reduce-offset (ioffset scale offset)
"Redistribute value from ioffset to offset, while keeping offset int32."
(let* ((istep (if (< ioffset 0) -1 1))
(icount (max 0
(if (< ioffset 0)
(- (1+ +min-int32+) ioffset) ; = (- +max-int32+)
(- ioffset +max-int32+))))
(ostep (* istep scale))
(ocount (truncate (- (if (> ostep 0) +max-int32+ +min-int32+) offset)
ostep))
(count (min ocount icount)))
(values (- ioffset (* count istep))
(+ offset (* count ostep)))))
(defun split-offset (offset scale)
;; Optimally split the offset into a scaled and unscaled part
(if (typep offset '(signed-byte 32))
(values 0 offset)
(multiple-value-bind (div rem) (floor offset scale)
(assert (typep rem '(signed-byte 32)))
(if (typep div '(signed-byte 32))
(values div rem)
(reduce-offset div scale rem)))))
(defun power-of-2? (scale)
(and (> scale 0) (not (logtest scale (1- scale)))))
(defun find-power-of-2 (scale)
(assert (power-of-2? scale))
(loop for i from 0 and sv = scale then (ash sv -1)
when (<= sv 1) return i))
(defun make-scaled-ea (size sap index scale offset tmp &key fixnum-index)
"Returns an ea representing the given sap + index*scale + offset formula.
May emit additional instructions using the temporary register."
(assemble ()
;; Check if the index is immediate too
(if (or (sc-is index immediate) (= scale 0))
;; Fully constant offset:
(let ((value (if (= scale 0) offset
(+ (* (tn-value index) scale) offset))))
(assert (typep value '(signed-byte 64)))
;; Represent the offset as an immediate, or a loaded constant
(if (typep value '(signed-byte 32))
(make-ea size :base sap :disp value)
(progn
(inst mov tmp (register-inline-constant :qword value))
(make-ea size :base sap :index tmp))))
;; Otherwise, indexing required
(progn
;; If the index is tagged, adjust the scale factor:
(when (sc-is index any-reg)
(assert (and fixnum-index (is-tagged-load-scale scale)))
(setf scale (ash scale (- n-fixnum-tag-bits))))
;; Split the scale factor for LEA
(multiple-value-bind (rscale outer-scale) (find-lea-scale scale)
;; One-instruction case?
(if (and (= rscale 1) (typep offset '(signed-byte 32)))
;; Return an EA representing the whole computation
(make-ea size :base sap :index index :scale scale :disp offset)
;; Otherwise, temporary needed; so split the offset.
;; outer-offset is guaranteed to be signed-byte 32
(multiple-value-bind (roffset outer-offset) (split-offset offset outer-scale)
;; Helpers:
(labels ((negate-when-<0 (register scale)
(when (< scale 0)
(inst neg register)))
(emit-shift-mul (register scale)
(inst shl register (find-power-of-2 (abs scale)))
(negate-when-<0 register scale))
(try-use-lea (try-scale &optional base)
;; Try to compute tmp via one LEA
(multiple-value-bind (rrscale in-scale) (find-lea-scale try-scale)
(when (and (= (abs rrscale) 1) ; signed 1
(typep (* rrscale roffset) '(signed-byte 32)))
;; Would work:
(when (and (= roffset 0) (null base)) ; minimize outer-offset
(multiple-value-setq (roffset outer-offset) (floor offset outer-scale)))
(let ((xoffset (* rrscale roffset)))
(inst lea tmp
(if (and (= in-scale 1) (null base))
(make-ea :byte :base index :disp xoffset)
(make-ea :byte :base base :index index
:scale in-scale :disp xoffset))))
(negate-when-<0 tmp rrscale)
:success))))
(declare (inline negate-when-<0 emit-shift-mul))
;; Select the best way to compute the temporary:
(cond
;; same register shift?
((and (= roffset 0) (location= tmp index) (power-of-2? (abs rscale)))
(emit-shift-mul tmp rscale))
;; one LEA?
((try-use-lea rscale))
((try-use-lea (1- rscale) index))
;; Generic case, use mul/shl and add
(t
(if (power-of-2? (abs rscale))
(progn
(move tmp index)
(emit-shift-mul tmp rscale))
(inst imul tmp index rscale))
(unless (= roffset 0)
;; Make outer-offset as small as possible
(multiple-value-setq (roffset outer-offset) (floor offset outer-scale))
;; Emit ADD for the offset
(if (typep roffset '(signed-byte 32))
(inst add tmp roffset)
(inst add tmp (register-inline-constant :qword roffset))))))
;; Return the final EA definition:
(make-ea size :base sap :index tmp :scale outer-scale :disp outer-offset)))))))))
#|---------------------------------|
| INITIALIZATION INTRINSICS |
|---------------------------------|#
(defmacro def-float-set-intrinsic (&whole whole pubname fname atype aregtype rtype move-insn)
(declare (ignore pubname))
`(progn
(save-intrinsic-spec ,fname ,whole)
(defknown ,fname (,atype) ,rtype (foldable flushable dx-safe))
;;
(define-vop (,fname)
(:translate ,fname)
(:args (arg :scs (,aregtype) :target dst))
(:arg-types ,atype)
(:results (dst :scs (,(type-name-to-reg rtype))))
(:result-types ,(type-name-to-primitive rtype))
(:policy :fast-safe)
(:generator 1
(unless (location= dst arg)
(inst ,move-insn dst arg))))))
#|---------------------------------|
| UNARY OPERATION INTRINSICS |
|---------------------------------|#
(define-vop (sse-unary-op)
;; no immediate because expecting to be folded
(:args (x :scs #.+any-sse-reg+))
(:arg-types simd-pack)
(:policy :fast-safe)
(:note "inline SSE unary operation")
(:vop-var vop)
(:save-p :compute-only))
(defmacro def-unary-intrinsic (&whole whole
name rtype insn cost c-name
&key
partial ; instruction modifies only part of the destination
immediate-arg result-size arg-type)
(declare (ignore c-name))
(let* ((imm (if immediate-arg '(imm)))
(immt (if immediate-arg (list immediate-arg)))
(rprimtype (type-name-to-primitive rtype))
(rregtype (cond ((subtypep rtype 'unsigned-byte)
'unsigned-reg)
((subtypep rtype 'integer)
'signed-reg)
(t (type-name-to-reg rtype))))
(aregtype (type-name-to-reg (or arg-type rtype)))
(target (if (eq rregtype aregtype) '(:target r) '())))
(assert (or (not partial) (not (subtypep rtype 'integer))))
`(progn
(export ',name)
(save-intrinsic-spec ,name ,whole)
(defknown ,name (sse-pack ,@immt) ,rtype (foldable flushable dx-safe))
;;
(define-vop (,name sse-unary-op)
(:translate ,name)
(:args (x :scs ,+any-sse-reg+ ,@target))
,@(if immediate-arg
`((:arg-types simd-pack (:constant ,immediate-arg))
(:info imm)))
(:results (r :scs (,rregtype)))
(:result-types ,rprimtype)
(:generator ,cost
,@(ecase partial
(:one-arg `((ensure-move ,rtype r x)
(inst ,insn r ,@imm)))
(t `((ensure-move ,rtype r x)
(inst ,insn r r ,@imm)))
((nil) `((inst ,insn
,(if result-size `(reg-in-size r ,result-size) 'r)
x ,@imm)))))))))
#|---------------------------------|
| UNARY TO INT32 & SIGN-EXTEND |
|---------------------------------|#
(define-vop (sse-cvt-to-int32-op sse-unary-op)
(:temporary (:sc signed-reg :offset rax-offset :target r :to :result) rax)
(:results (r :scs (signed-reg))))
(defmacro def-cvt-to-int32-intrinsic (name rtype insn cost c-name &key arg-type)
(declare (ignore arg-type))
`(progn
(export ',name)
(save-intrinsic-spec ,name (def-unary-intrinsic ,name ,rtype ,insn ,cost ,c-name))
(defknown ,name (sse-pack) (signed-byte 32) (foldable flushable dx-safe))
;;
(define-vop (,name sse-cvt-to-int32-op)
(:translate ,name)
(:result-types ,(type-name-to-primitive rtype))
(:generator ,cost
(inst ,insn (reg-in-size rax :dword) x)
(inst cdqe)
(move r rax)))))
#|---------------------------------|
| BITWISE NOT INTRINSICS |
|---------------------------------|#
(define-vop (sse-not-op sse-unary-op)
(:temporary (:sc sse-reg) tmp))
(defmacro def-not-intrinsic (name rtype insn)
`(progn
(export ',name)
(save-intrinsic-spec ,name (def-unary-intrinsic ,name ,rtype ,insn 3 nil))
(defknown ,name (sse-pack) ,rtype (foldable flushable dx-safe))
;;
(define-vop (,name sse-not-op)
(:translate ,name)
(:args (x :scs ,+any-sse-reg+ :target r))
(:results (r :scs (,(type-name-to-reg rtype))))
(:result-types ,(type-name-to-primitive rtype))
(:generator 3
(if (location= x r)
(progn
(inst pcmpeqd tmp tmp)
(inst ,insn r tmp))
(progn
(inst pcmpeqd r r)
(inst ,insn r x)))))))
#|---------------------------------|
| BINARY OPERATION INTRINSICS |
|---------------------------------|#
(define-vop (sse-binary-base-op)
(:args (x :scs #.+any-sse-reg/immediate+ :target r)
(y :scs #.+any-sse-reg/immediate+))
(:results (r :scs (int-sse-reg)))
(:arg-types simd-pack simd-pack)
(:policy :fast-safe)
(:note "inline SSE binary operation")
(:vop-var vop)
(:save-p :compute-only))
(define-vop (sse-binary-op sse-binary-base-op)
(:temporary (:sc sse-reg) tmp))
(define-vop (sse-binary-comm-op sse-binary-base-op)
(:args (x :scs #.+any-sse-reg/immediate+ :target r)
(y :scs #.+any-sse-reg/immediate+ :target r)))
(defmacro def-binary-intrinsic (&whole whole
name rtype insn cost c-name
&key commutative tags immediate-arg x-type y-type)
(declare (ignore c-name x-type y-type))
(let* ((imm (if immediate-arg '(imm)))
(immt (if immediate-arg (list immediate-arg))))
`(progn
(export ',name)
(save-intrinsic-spec ,name ,whole)
(defknown ,name (sse-pack sse-pack ,@immt) ,rtype (foldable flushable dx-safe))
;;
(define-vop (,name ,(if commutative 'sse-binary-comm-op 'sse-binary-op))
(:translate ,name)
(:results (r :scs (,(type-name-to-reg rtype))))
(:result-types ,(type-name-to-primitive rtype))
,@(if immediate-arg
`((:arg-types simd-pack simd-pack (:constant ,immediate-arg))
(:info imm)))
(:generator ,cost
,@(if commutative
`((when (location= y r)
(rotatef x y))
(ensure-load ,rtype r x)
(inst ,insn ,@tags r (ensure-reg-or-mem y) ,@imm))
;; Noncommutative may require usage of a temporary:
`((unless (location= y r)
(setf tmp r))
(ensure-load ,rtype tmp x)
(inst ,insn ,@tags tmp (ensure-reg-or-mem y) ,@imm)
(ensure-move ,rtype r tmp))))))))
#|---------------------------------|
| XMM/INTEGER BINARY INTRINSICS |
|---------------------------------|#
(define-vop (sse-int-base-op)
(:results (r :scs (int-sse-reg)))
(:policy :fast-safe)
(:note "inline SSE/integer operation")
(:vop-var vop)
(:save-p :compute-only))
(define-vop (sse-int-op sse-int-base-op)
(:args (x :scs #.+any-sse-reg/immediate+ :target r)
(iv :scs (signed-reg signed-stack immediate)))
(:arg-types simd-pack signed-num))
(define-vop (sse-uint-op sse-int-base-op)
(:args (x :scs #.+any-sse-reg/immediate+ :target r)
(iv :scs (unsigned-reg unsigned-stack immediate)))
(:arg-types simd-pack unsigned-num))
(defmacro def-sse-int-intrinsic (&whole whole
name itype rtype insn cost c-name
&key make-temporary immediate-arg defun-body)
(declare (ignore c-name defun-body))
(let* ((imm (if immediate-arg '(imm)))
(immt (if immediate-arg (list immediate-arg)))
(unsigned? (subtypep itype 'unsigned-byte)))
`(progn
(export ',name)
(save-intrinsic-spec ,name ,whole)
(defknown ,name (sse-pack ,itype ,@immt) ,rtype (foldable flushable dx-safe))
;;
(define-vop (,name ,(if unsigned? 'sse-uint-op 'sse-int-op))
(:translate ,name)
(:results (r :scs (,(type-name-to-reg rtype))))
(:result-types ,(type-name-to-primitive rtype))
,@(if immediate-arg
`((:arg-types simd-pack
,(if unsigned? 'unsigned-num 'signed-num)
(:constant ,immediate-arg))
(:info imm)))
,@(if make-temporary
`((:temporary (:sc sse-reg) tmp)))
(:generator ,cost
(ensure-load ,rtype r x)
,@(if (eq make-temporary t)
'((inst movd tmp (ensure-reg-or-mem iv)))
make-temporary)
(inst ,insn r ,(if make-temporary 'tmp '(ensure-reg-or-mem iv)) ,@imm))))))
#|---------------------------------|
| COMPARISON PREDICATE INTRINSICS |
|---------------------------------|#
(define-vop (sse-comparison-op)
(:args (x :scs #.+any-sse-reg+)
(y :scs #.+any-sse-reg/immediate+))
(:arg-types simd-pack simd-pack)
(:policy :fast-safe)
(:note "inline SSE binary comparison predicate")
(:vop-var vop)
(:save-p :compute-only))
(define-vop (sse-comparison-comm-op sse-comparison-op)
(:args (x :scs #.+any-sse-reg+
:load-if (not (and (sc-is x int-sse-immediate single-sse-immediate double-sse-immediate)
(sc-is y int-sse-reg single-sse-reg double-sse-reg))))
(y :scs #.+any-sse-reg/immediate+)))
(defmacro def-comparison-intrinsic (&whole whole
name arg-type insn cost c-name
&key commutative tags)
(declare (ignore arg-type c-name))
(let* ()
`(progn
(export ',name)
(save-intrinsic-spec ,name ,whole)
(defknown ,name (sse-pack sse-pack) boolean (foldable flushable dx-safe))
(define-vop (,name ,(if commutative 'sse-comparison-comm-op 'sse-comparison-op))
(:translate ,name)
(:conditional ,@tags)
(:generator ,cost
,(if commutative
`(if (sc-is x int-sse-reg single-sse-reg double-sse-reg)
(inst ,insn x y)
(inst ,insn y x))
`(inst ,insn x y)))))))
#|---------------------------------|
| MEMORY LOAD INTRINSICS |
|---------------------------------|#
(define-vop (sse-load-base-op)
(:results (r :scs (int-sse-reg)))
(:policy :fast-safe)
(:note "inline SSE load operation"))
(define-vop (sse-load-op sse-load-base-op)
(:args (sap :scs (sap-reg) :to :eval)
(index :scs (signed-reg immediate) :target tmp))
(:arg-types system-area-pointer signed-num
(:constant fixnum) (:constant signed-word))
(:temporary (:sc signed-reg :from (:argument 1)) tmp)
(:info scale offset))
(define-vop (sse-load-op/tag sse-load-base-op)
(:args (sap :scs (sap-reg) :to :eval)
(index :scs (any-reg signed-reg immediate) :target tmp))
(:arg-types system-area-pointer tagged-num
(:constant tagged-load-scale) (:constant signed-word))
(:temporary (:sc any-reg :from (:argument 1)) tmp)
(:info scale offset))
(define-vop (sse-xmm-load-op sse-load-base-op)
(:args (value :scs #.+any-sse-reg/immediate+ :target r)
(sap :scs (sap-reg) :to :eval)
(index :scs (signed-reg immediate) :target tmp))
(:arg-types simd-pack system-area-pointer signed-num
(:constant fixnum) (:constant signed-word))
(:temporary (:sc signed-reg :from (:argument 2)) tmp)
(:info scale offset))
(define-vop (sse-xmm-load-op/tag sse-load-base-op)
(:args (value :scs #.+any-sse-reg/immediate+ :target r)
(sap :scs (sap-reg) :to :eval)
(index :scs (any-reg signed-reg immediate) :target tmp))
(:arg-types simd-pack system-area-pointer tagged-num
(:constant tagged-load-scale) (:constant signed-word))
(:temporary (:sc any-reg :from (:argument 2)) tmp)
(:info scale offset))
(define-vop (sse-load-ix-op sse-load-base-op)
(:args (sap :scs (descriptor-reg) :to :eval)
(index :scs (signed-reg immediate) :target tmp))
(:arg-types * signed-num
(:constant fixnum) (:constant signed-word))
(:temporary (:sc signed-reg :from (:argument 1)) tmp)
(:info scale offset))
(define-vop (sse-load-ix-op/tag sse-load-base-op)
(:args (sap :scs (descriptor-reg) :to :eval)
(index :scs (any-reg signed-reg immediate) :target tmp))
(:arg-types * tagged-num
(:constant tagged-load-scale) (:constant signed-word))
(:temporary (:sc any-reg :from (:argument 1)) tmp)
(:info scale offset))
(defmacro def-load-intrinsic (&whole whole
name rtype insn c-name
&key register-arg tags postfix-fmt (size :qword) side-effect?)
(declare (ignore c-name postfix-fmt))
(let* ((vop (symbolicate "%" name))
(ix-vop (symbolicate vop "/IX"))
(valtype (if register-arg '(sse-pack)))
(r-arg (if rtype '(r)))
(rtypes (if rtype
`((:results (r :scs (,(type-name-to-reg rtype))))
(:result-types ,(type-name-to-primitive rtype)))
`((:results))))
(known-flags (if side-effect?
'(always-translatable dx-safe)
'(flushable always-translatable dx-safe))))
(assert (or rtype (not register-arg)))
`(progn
(export ',name)
(save-intrinsic-spec ,name ,whole)
(defknown ,vop (,@valtype system-area-pointer signed-word fixnum signed-word)
,(or rtype '(values)) ,known-flags)
;;
(define-vop (,vop ,(if register-arg 'sse-xmm-load-op 'sse-load-op))
(:translate ,vop)
,@rtypes
(:generator 5
,(if register-arg `(ensure-load ,rtype r value))
(inst ,insn ,@tags ,@r-arg (make-scaled-ea ,size sap index scale offset tmp))))
(define-vop (,(symbolicate vop "/TAG") ,(if register-arg 'sse-xmm-load-op/tag 'sse-load-op/tag))
(:translate ,vop)
,@rtypes
(:generator 4
,(if register-arg `(ensure-load ,rtype r value))
(inst ,insn ,@tags ,@r-arg (make-scaled-ea ,size sap index scale offset tmp :fixnum-index t))))
;;
(%deftransform ',vop '(function * *)
#',(if register-arg 'fold-xmm-ref-index-addressing 'fold-ref-index-addressing)
"fold semi-constant offset expressions")
;; If the operation doesn't have a separate XMM argument:
,@(if (null register-arg)
`(;; Lisp vector indexing version
(defknown ,ix-vop (simple-array signed-word fixnum signed-word) ,(or rtype '(values))
,known-flags)
;;
(define-vop (,ix-vop sse-load-ix-op)
(:translate ,ix-vop)
,@rtypes
(:generator 4
(inst ,insn ,@tags ,@r-arg (make-scaled-ea ,size sap index scale offset tmp))))
(define-vop (,(symbolicate ix-vop "/TAG") sse-load-ix-op/tag)
(:translate ,ix-vop)
,@rtypes
(:generator 3
(inst ,insn ,@tags ,@r-arg (make-scaled-ea ,size sap index scale offset tmp :fixnum-index t))))
;;
(%deftransform ',ix-vop '(function * *) #'fold-ref-index-addressing
"fold semi-constant index expressions"))))))
#|---------------------------------|
| MEMORY STORE INTRINSICS |
|---------------------------------|#
(define-vop (sse-store-base-op)
(:policy :fast-safe)
(:note "inline SSE store operation"))
(define-vop (sse-store-op sse-store-base-op)
(:args (sap :scs (sap-reg) :to :eval)
(index :scs (signed-reg immediate) :target tmp)
(value :scs #.+any-sse-reg+))
(:arg-types system-area-pointer signed-num
(:constant fixnum) (:constant signed-word) simd-pack)
(:temporary (:sc signed-reg :from (:argument 1)) tmp)
(:info scale offset))
(define-vop (sse-store-op/tag sse-store-base-op)
(:args (sap :scs (sap-reg) :to :eval)
(index :scs (any-reg signed-reg immediate) :target tmp)
(value :scs #.+any-sse-reg+))
(:arg-types system-area-pointer tagged-num
(:constant tagged-load-scale) (:constant signed-word) simd-pack)
(:temporary (:sc any-reg :from (:argument 1)) tmp)
(:info scale offset))
(define-vop (sse-store-ix-op sse-store-base-op)
(:args (sap :scs (descriptor-reg) :to :eval)
(index :scs (signed-reg immediate) :target tmp)
(value :scs #.+any-sse-reg+))
(:arg-types * signed-num
(:constant fixnum) (:constant signed-word) simd-pack)
(:temporary (:sc signed-reg :from (:argument 1)) tmp)
(:info scale offset))
(define-vop (sse-store-ix-op/tag sse-store-base-op)
(:args (sap :scs (descriptor-reg) :to :eval)
(index :scs (any-reg signed-reg immediate) :target tmp)
(value :scs #.+any-sse-reg+))
(:arg-types * tagged-num
(:constant tagged-load-scale) (:constant signed-word) simd-pack)
(:temporary (:sc any-reg :from (:argument 1)) tmp)
(:info scale offset))
(defmacro def-store-intrinsic (&whole whole
name rtype insn c-name
&key setf-name)
(declare (ignore rtype c-name))
(let* ((vop (symbolicate "%" name))
(ix-vop (symbolicate vop "/IX")))
`(progn
,(unless setf-name `(export ',name))
(save-intrinsic-spec ,name ,whole)
(defknown ,vop (system-area-pointer signed-word fixnum signed-word sse-pack) (values)
(always-translatable))
;;
(define-vop (,vop sse-store-op)
(:translate ,vop)
(:generator 5
(inst ,insn (make-scaled-ea :qword sap index scale offset tmp) value)))
(define-vop (,(symbolicate vop "/TAG") sse-store-op/tag)
(:translate ,vop)
(:generator 4
(inst ,insn (make-scaled-ea :qword sap index scale offset tmp :fixnum-index t) value)))
;;
(%deftransform ',vop '(function * *) #'fold-set-index-addressing
"fold semi-constant offset expressions")
;;
;; Lisp vector indexing version
(defknown ,ix-vop (simple-array signed-word fixnum signed-word sse-pack) (values)
(always-translatable))
;;
(define-vop (,ix-vop sse-store-ix-op)
(:translate ,ix-vop)
(:generator 4
(inst ,insn (make-scaled-ea :qword sap index scale offset tmp) value)))
(define-vop (,(symbolicate ix-vop "/TAG") sse-store-ix-op/tag)
(:translate ,ix-vop)
(:generator 3
(inst ,insn (make-scaled-ea :qword sap index scale offset tmp :fixnum-index t) value)))
;;
(%deftransform ',ix-vop '(function * *) #'fold-set-index-addressing
"fold semi-constant index expressions"))))