;;;; the x86-64 VM definition of operand loading/saving and the MOVE vop ;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; ;;;; This software is derived from the CMU CL system, which was ;;;; written at Carnegie Mellon University and released into the ;;;; public domain. The software is in the public domain and is ;;;; provided with absolutely no warranty. See the COPYING and CREDITS ;;;; files for more information. (in-package "SB!VM") (defun make-byte-tn (tn) (aver (sc-is tn any-reg descriptor-reg unsigned-reg signed-reg)) (make-random-tn :kind :normal :sc (sc-or-lose 'byte-reg) :offset (tn-offset tn))) (defun make-dword-tn (tn) (aver (sc-is tn any-reg descriptor-reg character-reg unsigned-reg signed-reg)) (make-random-tn :kind :normal :sc (sc-or-lose 'dword-reg) :offset (tn-offset tn))) (defun zeroize (tn) (let ((offset (tn-offset tn))) ;; Using the 32-bit instruction accomplishes the same thing and is ;; one byte shorter. (if (<= offset edi-offset) (let ((tn (make-random-tn :kind :normal :sc (sc-or-lose 'dword-reg) :offset offset))) (inst xor tn tn)) (inst xor tn tn)))) (define-move-fun (load-immediate 1) (vop x y) ((immediate) (any-reg descriptor-reg)) (let ((val (tn-value x))) (etypecase val (integer (if (zerop val) (zeroize y) (inst mov y (fixnumize val)))) (symbol (load-symbol y val)) (character (inst mov y (logior (ash (char-code val) n-widetag-bits) character-widetag)))))) (define-move-fun (load-number 1) (vop x y) ((immediate) (signed-reg unsigned-reg)) (let ((val (tn-value x))) (if (zerop val) (zeroize y) (inst mov y val)))) (define-move-fun (load-character 1) (vop x y) ((immediate) (character-reg)) (inst mov y (char-code (tn-value x)))) (define-move-fun (load-system-area-pointer 1) (vop x y) ((immediate) (sap-reg)) (inst mov y (sap-int (tn-value x)))) (define-move-fun (load-constant 5) (vop x y) ((constant) (descriptor-reg any-reg)) (inst mov y x)) (define-move-fun (load-stack 5) (vop x y) ((control-stack) (any-reg descriptor-reg) (character-stack) (character-reg) (sap-stack) (sap-reg) (signed-stack) (signed-reg) (unsigned-stack) (unsigned-reg)) (inst mov y x)) (define-move-fun (store-stack 5) (vop x y) ((any-reg descriptor-reg) (control-stack) (character-reg) (character-stack) (sap-reg) (sap-stack) (signed-reg) (signed-stack) (unsigned-reg) (unsigned-stack)) (inst mov y x)) ;;;; the MOVE VOP (define-vop (move) (:args (x :scs (any-reg descriptor-reg immediate) :target y :load-if (not (location= x y)))) (:results (y :scs (any-reg descriptor-reg) :load-if (not (or (location= x y) (and (sc-is x any-reg descriptor-reg immediate) (sc-is y control-stack)))))) (:temporary (:sc unsigned-reg) temp) (:effects) (:affected) (:generator 0 (if (and (sc-is x immediate) (sc-is y any-reg descriptor-reg control-stack)) (let ((val (tn-value x))) (etypecase val (integer (if (and (zerop val) (sc-is y any-reg descriptor-reg)) (zeroize y) (move-immediate y (fixnumize val) temp))) (symbol (inst mov y (+ nil-value (static-symbol-offset val)))) (character (inst mov y (logior (ash (char-code val) n-widetag-bits) character-widetag))))) (move y x)))) (define-move-vop move :move (any-reg descriptor-reg immediate) (any-reg descriptor-reg)) ;;; Make MOVE the check VOP for T so that type check generation ;;; doesn't think it is a hairy type. This also allows checking of a ;;; few of the values in a continuation to fall out. (primitive-type-vop move (:check) t) (defun move-immediate (target val &optional tmp-tn) (cond ;; If target is a register, we can just mov it there directly ((and (tn-p target) (sc-is target signed-reg unsigned-reg descriptor-reg any-reg)) (inst mov target val)) ;; Likewise if the value is small enough. ((typep val '(signed-byte 31)) (inst mov target val)) ;; Otherwise go through the temporary register (tmp-tn (inst mov tmp-tn val) (inst mov target tmp-tn)) (t (error "~A is not a register, no temporary given, and immediate ~A too large" target val)))) ;;; The MOVE-ARG VOP is used for moving descriptor values into ;;; another frame for argument or known value passing. ;;; ;;; Note: It is not going to be possible to move a constant directly ;;; to another frame, except if the destination is a register and in ;;; this case the loading works out. (define-vop (move-arg) (:args (x :scs (any-reg descriptor-reg immediate) :target y :load-if (not (and (sc-is y any-reg descriptor-reg) (sc-is x control-stack)))) (fp :scs (any-reg) :load-if (not (sc-is y any-reg descriptor-reg)))) (:results (y)) (:generator 0 (sc-case y ((any-reg descriptor-reg) (if (sc-is x immediate) (let ((val (tn-value x))) (etypecase val ((integer 0 0) (zeroize y)) ((or (signed-byte 29) (unsigned-byte 29)) (inst mov y (fixnumize val))) (integer (move-immediate y (fixnumize val))) (symbol (load-symbol y val)) (character (inst mov y (logior (ash (char-code val) n-widetag-bits) character-widetag))))) (move y x))) ((control-stack) (if (sc-is x immediate) (let ((val (tn-value x))) (if (= (tn-offset fp) esp-offset) ;; C-call (etypecase val (integer (storew (fixnumize val) fp (tn-offset y))) (symbol (storew (+ nil-value (static-symbol-offset val)) fp (tn-offset y))) (character (storew (logior (ash (char-code val) n-widetag-bits) character-widetag) fp (tn-offset y)))) ;; Lisp stack (etypecase val (integer (storew (fixnumize val) fp (frame-word-offset (tn-offset y)))) (symbol (storew (+ nil-value (static-symbol-offset val)) fp (frame-word-offset (tn-offset y)))) (character (storew (logior (ash (char-code val) n-widetag-bits) character-widetag) fp (frame-word-offset (tn-offset y))))))) (if (= (tn-offset fp) esp-offset) ;; C-call (storew x fp (tn-offset y)) ;; Lisp stack (storew x fp (frame-word-offset (tn-offset y))))))))) (define-move-vop move-arg :move-arg (any-reg descriptor-reg) (any-reg descriptor-reg)) ;;;; ILLEGAL-MOVE ;;; This VOP exists just to begin the lifetime of a TN that couldn't ;;; be written legally due to a type error. An error is signalled ;;; before this VOP is so we don't need to do anything (not that there ;;; would be anything sensible to do anyway.) (define-vop (illegal-move) (:args (x) (type)) (:results (y)) (:ignore y) (:vop-var vop) (:save-p :compute-only) (:generator 666 (error-call vop 'object-not-type-error x type))) ;;;; moves and coercions ;;; These MOVE-TO-WORD VOPs move a tagged integer to a raw full-word ;;; representation. Similarly, the MOVE-FROM-WORD VOPs converts a raw ;;; integer to a tagged bignum or fixnum. ;;; Arg is a fixnum, so just shift it. We need a type restriction ;;; because some possible arg SCs (control-stack) overlap with ;;; possible bignum arg SCs. (define-vop (move-to-word/fixnum) (:args (x :scs (any-reg descriptor-reg) :target y :load-if (not (location= x y)))) (:results (y :scs (signed-reg unsigned-reg) :load-if (not (location= x y)))) (:arg-types tagged-num) (:note "fixnum untagging") (:generator 1 (move y x) (inst sar y (1- n-lowtag-bits)))) (define-move-vop move-to-word/fixnum :move (any-reg descriptor-reg) (signed-reg unsigned-reg)) ;;; Arg is a non-immediate constant, load it. (define-vop (move-to-word-c) (:args (x :scs (constant))) (:results (y :scs (signed-reg unsigned-reg))) (:note "constant load") (:generator 1 (inst mov y (tn-value x)))) (define-move-vop move-to-word-c :move (constant) (signed-reg unsigned-reg)) ;;; Arg is a fixnum or bignum, figure out which and load if necessary. (define-vop (move-to-word/integer) (:args (x :scs (descriptor-reg) :target eax)) (:results (y :scs (signed-reg unsigned-reg))) (:note "integer to untagged word coercion") (:temporary (:sc unsigned-reg :offset eax-offset :from (:argument 0) :to (:result 0) :target y) eax) (:generator 4 (move eax x) (inst test al-tn 7) ; a symbolic constant for this (inst jmp :z FIXNUM) ; would be nice (loadw y eax bignum-digits-offset other-pointer-lowtag) (inst jmp DONE) FIXNUM (inst sar eax (1- n-lowtag-bits)) (move y eax) DONE)) (define-move-vop move-to-word/integer :move (descriptor-reg) (signed-reg unsigned-reg)) ;;; Result is a fixnum, so we can just shift. We need the result type ;;; restriction because of the control-stack ambiguity noted above. (define-vop (move-from-word/fixnum) (:args (x :scs (signed-reg unsigned-reg) :target y :load-if (not (location= x y)))) (:results (y :scs (any-reg descriptor-reg) :load-if (not (location= x y)))) (:result-types tagged-num) (:note "fixnum tagging") (:generator 1 (cond ((and (sc-is x signed-reg unsigned-reg) (not (location= x y))) ;; Uses 7 bytes, but faster on the Pentium (inst lea y (make-ea :qword :index x :scale 8))) (t ;; Uses: If x is a reg 2 + 3; if x = y uses only 3 bytes (move y x) (inst shl y (1- n-lowtag-bits)))))) (define-move-vop move-from-word/fixnum :move (signed-reg unsigned-reg) (any-reg descriptor-reg)) ;;; Convert an untagged signed word to a lispobj -- fixnum or bignum ;;; as the case may be. Fixnum case inline, bignum case in an assembly ;;; routine. (define-vop (move-from-signed) (:args (x :scs (signed-reg unsigned-reg) :to :result)) (:results (y :scs (any-reg descriptor-reg) :from :argument)) (:note "signed word to integer coercion") ;; Worst case cost to make sure people know they may be number consing. (:generator 20 (aver (not (location= x y))) (let ((done (gen-label))) (inst imul y x #.(ash 1 n-fixnum-tag-bits)) (inst jmp :no done) (inst mov y x) (inst lea temp-reg-tn (make-ea :qword :disp (make-fixup (ecase (tn-offset y) (#.rax-offset 'alloc-signed-bignum-in-rax) (#.rcx-offset 'alloc-signed-bignum-in-rcx) (#.rdx-offset 'alloc-signed-bignum-in-rdx) (#.rbx-offset 'alloc-signed-bignum-in-rbx) (#.rsi-offset 'alloc-signed-bignum-in-rsi) (#.rdi-offset 'alloc-signed-bignum-in-rdi) (#.r8-offset 'alloc-signed-bignum-in-r8) (#.r9-offset 'alloc-signed-bignum-in-r9) (#.r10-offset 'alloc-signed-bignum-in-r10) (#.r12-offset 'alloc-signed-bignum-in-r12) (#.r13-offset 'alloc-signed-bignum-in-r13) (#.r14-offset 'alloc-signed-bignum-in-r14) (#.r15-offset 'alloc-signed-bignum-in-r15)) :assembly-routine))) (inst call temp-reg-tn) (emit-label done)))) (define-move-vop move-from-signed :move (signed-reg) (descriptor-reg)) ;;; Convert an untagged unsigned word to a lispobj -- fixnum or bignum ;;; as the case may be. Fixnum case inline, bignum case in an assembly ;;; routine. (define-vop (move-from-unsigned) (:args (x :scs (signed-reg unsigned-reg) :to :result)) (:results (y :scs (any-reg descriptor-reg) :from :argument)) (:note "unsigned word to integer coercion") ;; Worst case cost to make sure people know they may be number consing. (:generator 20 (aver (not (location= x y))) (let ((done (gen-label))) (inst mov y #.(ash lowtag-mask (- n-word-bits n-fixnum-tag-bits 1))) ;; The assembly routines test the sign flag from this one, so if ;; you change stuff here, make sure the sign flag doesn't get ;; overwritten before the CALL! (inst test x y) ;; Faster but bigger then SHL Y 4. The cost of doing this ;; speculatively should be noise compared to bignum consing if ;; that is needed and saves one branch. (inst lea y (make-ea :qword :index x :scale 8)) (inst jmp :z done) (inst mov y x) (inst lea temp-reg-tn (make-ea :qword :disp (make-fixup (ecase (tn-offset y) (#.rax-offset 'alloc-unsigned-bignum-in-rax) (#.rcx-offset 'alloc-unsigned-bignum-in-rcx) (#.rdx-offset 'alloc-unsigned-bignum-in-rdx) (#.rbx-offset 'alloc-unsigned-bignum-in-rbx) (#.rsi-offset 'alloc-unsigned-bignum-in-rsi) (#.rdi-offset 'alloc-unsigned-bignum-in-rdi) (#.r8-offset 'alloc-unsigned-bignum-in-r8) (#.r9-offset 'alloc-unsigned-bignum-in-r9) (#.r10-offset 'alloc-unsigned-bignum-in-r10) (#.r12-offset 'alloc-unsigned-bignum-in-r12) (#.r13-offset 'alloc-unsigned-bignum-in-r13) (#.r14-offset 'alloc-unsigned-bignum-in-r14) (#.r15-offset 'alloc-unsigned-bignum-in-r15)) :assembly-routine))) (inst call temp-reg-tn) (emit-label done)))) (define-move-vop move-from-unsigned :move (unsigned-reg) (descriptor-reg)) ;;; Move untagged numbers. (define-vop (word-move) (:args (x :scs (signed-reg unsigned-reg) :target y :load-if (not (location= x y)))) (:results (y :scs (signed-reg unsigned-reg) :load-if (not (or (location= x y) (and (sc-is x signed-reg unsigned-reg) (sc-is y signed-stack unsigned-stack)))))) (:effects) (:affected) (:note "word integer move") (:generator 0 (move y x))) (define-move-vop word-move :move (signed-reg unsigned-reg) (signed-reg unsigned-reg)) ;;; Move untagged number arguments/return-values. (define-vop (move-word-arg) (:args (x :scs (signed-reg unsigned-reg) :target y) (fp :scs (any-reg) :load-if (not (sc-is y sap-reg)))) (:results (y)) (:note "word integer argument move") (:generator 0 (sc-case y ((signed-reg unsigned-reg) (move y x)) ((signed-stack unsigned-stack) (if (= (tn-offset fp) esp-offset) (storew x fp (tn-offset y)) ; c-call (storew x fp (frame-word-offset (tn-offset y)))))))) (define-move-vop move-word-arg :move-arg (descriptor-reg any-reg signed-reg unsigned-reg) (signed-reg unsigned-reg)) ;;; Use standard MOVE-ARG and coercion to move an untagged number ;;; to a descriptor passing location. (define-move-vop move-arg :move-arg (signed-reg unsigned-reg) (any-reg descriptor-reg))