;;;; the MIPS VM definition of SAP operations ;;;; 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") ;;;; Moves and coercions: ;;; Move a tagged SAP to an untagged representation. (define-vop (move-to-sap) (:args (x :scs (any-reg descriptor-reg))) (:results (y :scs (sap-reg))) (:note "pointer to SAP coercion") (:generator 1 (loadw y x sap-pointer-slot other-pointer-lowtag))) (define-move-vop move-to-sap :move (descriptor-reg) (sap-reg)) ;;; Move an untagged SAP to a tagged representation. (define-vop (move-from-sap) (:args (sap :scs (sap-reg) :to :save)) (:temporary (:scs (non-descriptor-reg)) ndescr) (:temporary (:sc non-descriptor-reg :offset nl4-offset) pa-flag) (:results (res :scs (descriptor-reg))) (:note "SAP to pointer coercion") (:generator 20 (with-fixed-allocation (res pa-flag ndescr sap-widetag sap-size nil) (storew sap res sap-pointer-slot other-pointer-lowtag)))) (define-move-vop move-from-sap :move (sap-reg) (descriptor-reg)) ;;; Move untagged SAP values. (define-vop (sap-move) (:args (x :target y :scs (sap-reg) :load-if (not (location= x y)))) (:results (y :scs (sap-reg) :load-if (not (location= x y)))) (:note "SAP move") (:effects) (:affected) (:generator 0 (move y x))) (define-move-vop sap-move :move (sap-reg) (sap-reg)) ;;; Move untagged SAP arguments/return-values. (define-vop (move-sap-arg) (:args (x :target y :scs (sap-reg)) (fp :scs (any-reg) :load-if (not (sc-is y sap-reg)))) (:results (y)) (:note "SAP argument move") (:generator 0 (sc-case y (sap-reg (move y x)) (sap-stack (storew x fp (tn-offset y)))))) (define-move-vop move-sap-arg :move-arg (descriptor-reg sap-reg) (sap-reg)) ;;; Use standard MOVE-ARG + coercion to move an untagged SAP to a ;;; descriptor passing location. (define-move-vop move-arg :move-arg (sap-reg) (descriptor-reg)) ;;;; SAP-INT and INT-SAP ;;; The function SAP-INT is used to generate an integer corresponding ;;; to the system area pointer, suitable for passing to the kernel ;;; interfaces (which want all addresses specified as integers). The ;;; function INT-SAP is used to do the opposite conversion. The ;;; integer representation of a SAP is the byte offset of the SAP from ;;; the start of the address space. (define-vop (sap-int) (:args (sap :scs (sap-reg) :target int)) (:arg-types system-area-pointer) (:results (int :scs (unsigned-reg))) (:result-types unsigned-num) (:translate sap-int) (:policy :fast-safe) (:generator 1 (move int sap))) (define-vop (int-sap) (:args (int :scs (unsigned-reg) :target sap)) (:arg-types unsigned-num) (:results (sap :scs (sap-reg))) (:result-types system-area-pointer) (:translate int-sap) (:policy :fast-safe) (:generator 1 (move sap int))) ;;;; POINTER+ and POINTER- (define-vop (pointer+) (:translate sap+) (:args (ptr :scs (sap-reg)) (offset :scs (signed-reg immediate))) (:arg-types system-area-pointer signed-num) (:results (res :scs (sap-reg))) (:result-types system-area-pointer) (:policy :fast-safe) (:generator 1 (sc-case offset (signed-reg (inst addu res ptr offset)) (immediate (inst addu res ptr (tn-value offset)))))) (define-vop (pointer-) (:translate sap-) (:args (ptr1 :scs (sap-reg)) (ptr2 :scs (sap-reg))) (:arg-types system-area-pointer system-area-pointer) (:policy :fast-safe) (:results (res :scs (signed-reg))) (:result-types signed-num) (:generator 1 (inst subu res ptr1 ptr2))) ;;;; mumble-SYSTEM-REF and mumble-SYSTEM-SET (macrolet ((def-system-ref-and-set (ref-name set-name sc type size &optional signed) (let ((ref-name-c (symbolicate ref-name "-C")) (set-name-c (symbolicate set-name "-C"))) `(progn (define-vop (,ref-name) (:translate ,ref-name) (:policy :fast-safe) (:args (object :scs (sap-reg) :target sap) (offset :scs (signed-reg))) (:arg-types system-area-pointer signed-num) (:results (result :scs (,sc))) (:result-types ,type) (:temporary (:scs (sap-reg) :from (:argument 0)) sap) (:generator 5 (inst addu sap object offset) ,@(ecase size (:byte (if signed '((inst lb result sap 0)) '((inst lbu result sap 0)))) (:short (if signed '((inst lh result sap 0)) '((inst lhu result sap 0)))) (:long '((inst lw result sap 0))) (:single '((inst lwc1 result sap 0))) (:double (ecase *backend-byte-order* (:big-endian '((inst lwc1 result sap n-word-bytes) (inst lwc1-odd result sap 0))) (:little-endian '((inst lwc1 result sap 0) (inst lwc1-odd result sap n-word-bytes)))))) (inst nop))) (define-vop (,ref-name-c) (:translate ,ref-name) (:policy :fast-safe) (:args (object :scs (sap-reg))) (:arg-types system-area-pointer (:constant ,(if (eq size :double) ;; We need to be able to add 4. `(integer ,(- (ash 1 16)) ,(- (ash 1 16) 5)) '(signed-byte 16)))) (:info offset) (:results (result :scs (,sc))) (:result-types ,type) (:generator 4 ,@(ecase size (:byte (if signed '((inst lb result object offset)) '((inst lbu result object offset)))) (:short (if signed '((inst lh result object offset)) '((inst lhu result object offset)))) (:long '((inst lw result object offset))) (:single '((inst lwc1 result object offset))) (:double (ecase *backend-byte-order* (:big-endian '((inst lwc1 result object (+ offset n-word-bytes)) (inst lwc1-odd result object offset))) (:little-endian '((inst lwc1 result object offset) (inst lwc1-odd result object (+ offset n-word-bytes))))))) (inst nop))) (define-vop (,set-name) (:translate ,set-name) (:policy :fast-safe) (:args (object :scs (sap-reg) :target sap) (offset :scs (signed-reg)) (value :scs (,sc) :target result)) (:arg-types system-area-pointer signed-num ,type) (:results (result :scs (,sc))) (:result-types ,type) (:temporary (:scs (sap-reg) :from (:argument 0)) sap) (:generator 5 (inst addu sap object offset) ,@(ecase size (:byte '((inst sb value sap 0) (move result value))) (:short '((inst sh value sap 0) (move result value))) (:long '((inst sw value sap 0) (move result value))) (:single '((inst swc1 value sap 0) (unless (location= result value) (inst fmove :single result value)))) (:double (ecase *backend-byte-order* (:big-endian '((inst swc1 value sap n-word-bytes) (inst swc1-odd value sap 0) (unless (location= result value) (inst fmove :double result value)))) (:little-endian '((inst swc1 value sap 0) (inst swc1-odd value sap n-word-bytes) (unless (location= result value) (inst fmove :double result value))))))))) (define-vop (,set-name-c) (:translate ,set-name) (:policy :fast-safe) (:args (object :scs (sap-reg)) (value :scs (,sc) :target result)) (:arg-types system-area-pointer (:constant ,(if (eq size :double) ;; We need to be able to add 4. `(integer ,(- (ash 1 16)) ,(- (ash 1 16) 5)) '(signed-byte 16))) ,type) (:info offset) (:results (result :scs (,sc))) (:result-types ,type) (:generator 4 ,@(ecase size (:byte '((inst sb value object offset) (move result value))) (:short '((inst sh value object offset) (move result value))) (:long '((inst sw value object offset) (move result value))) (:single '((inst swc1 value object offset) (unless (location= result value) (inst fmove :single result value)))) (:double (ecase *backend-byte-order* (:big-endian '((inst swc1 value object (+ offset n-word-bytes)) (inst swc1-odd value object (+ offset n-word-bytes)) (unless (location= result value) (inst fmove :double result value)))) (:little-endian '((inst swc1 value object offset) (inst swc1-odd value object (+ offset n-word-bytes)) (unless (location= result value) (inst fmove :double result value))))))))))))) (def-system-ref-and-set sap-ref-8 %set-sap-ref-8 unsigned-reg positive-fixnum :byte nil) (def-system-ref-and-set signed-sap-ref-8 %set-signed-sap-ref-8 signed-reg tagged-num :byte t) (def-system-ref-and-set sap-ref-16 %set-sap-ref-16 unsigned-reg positive-fixnum :short nil) (def-system-ref-and-set signed-sap-ref-16 %set-signed-sap-ref-16 signed-reg tagged-num :short t) (def-system-ref-and-set sap-ref-32 %set-sap-ref-32 unsigned-reg unsigned-num :long nil) (def-system-ref-and-set signed-sap-ref-32 %set-signed-sap-ref-32 signed-reg signed-num :long t) (def-system-ref-and-set sap-ref-sap %set-sap-ref-sap sap-reg system-area-pointer :long) (def-system-ref-and-set sap-ref-lispobj %set-sap-ref-lispobj descriptor-reg * :long) (def-system-ref-and-set sap-ref-single %set-sap-ref-single single-reg single-float :single) (def-system-ref-and-set sap-ref-double %set-sap-ref-double double-reg double-float :double)) ;;; Noise to convert normal lisp data objects into SAPs. (define-vop (vector-sap) (:translate vector-sap) (:policy :fast-safe) (:args (vector :scs (descriptor-reg))) (:results (sap :scs (sap-reg))) (:result-types system-area-pointer) (:generator 2 (inst addu sap vector (- (* vector-data-offset n-word-bytes) other-pointer-lowtag))))