;;;; the MIPS definitions for array 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") ;;;; Allocator for the array header. (define-vop (make-array-header) (:policy :fast-safe) (:translate make-array-header) (:args (type :scs (any-reg)) (rank :scs (any-reg))) (:arg-types positive-fixnum positive-fixnum) (:temporary (:scs (non-descriptor-reg)) bytes header) (:temporary (:sc non-descriptor-reg :offset nl4-offset) pa-flag) (:results (result :scs (descriptor-reg))) (:generator 13 (inst addu bytes rank (+ (* (1+ array-dimensions-offset) n-word-bytes) lowtag-mask)) (inst srl bytes n-lowtag-bits) (inst sll bytes n-lowtag-bits) (inst addu header rank (fixnumize (1- array-dimensions-offset))) (inst sll header n-widetag-bits) (inst or header type) ;; Remove the extraneous fixnum tag bits because TYPE and RANK ;; were fixnums (inst srl header n-fixnum-tag-bits) (pseudo-atomic (pa-flag) (inst or result alloc-tn other-pointer-lowtag) (storew header result 0 other-pointer-lowtag) (inst addu alloc-tn bytes)))) ;;;; Additional accessors and setters for the array header. (define-full-reffer %array-dimension * array-dimensions-offset other-pointer-lowtag (any-reg) positive-fixnum sb!kernel:%array-dimension) (define-full-setter %set-array-dimension * array-dimensions-offset other-pointer-lowtag (any-reg) positive-fixnum sb!kernel:%set-array-dimension) (define-vop (array-rank-vop) (:translate sb!kernel:%array-rank) (:policy :fast-safe) (:args (x :scs (descriptor-reg))) (:temporary (:scs (non-descriptor-reg)) temp) (:results (res :scs (any-reg descriptor-reg))) (:generator 6 (loadw temp x 0 other-pointer-lowtag) (inst sra temp n-widetag-bits) (inst subu temp (1- array-dimensions-offset)) (inst sll res temp n-fixnum-tag-bits))) ;;;; Bounds checking routine. (define-vop (check-bound) (:translate %check-bound) (:policy :fast-safe) (:args (array :scs (descriptor-reg)) (bound :scs (any-reg descriptor-reg)) (index :scs (any-reg descriptor-reg) :target result)) (:results (result :scs (any-reg descriptor-reg))) (:temporary (:scs (non-descriptor-reg)) temp) (:vop-var vop) (:save-p :compute-only) (:generator 5 (let ((error (generate-error-code vop invalid-array-index-error array bound index))) (inst sltu temp index bound) (inst beq temp error) (inst nop) (move result index)))) ;;;; Accessors/Setters ;;; Variants built on top of word-index-ref, etc. I.e. those vectors whos ;;; elements are represented in integer registers and are built out of ;;; 8, 16, or 32 bit elements. (macrolet ((def-full-data-vector-frobs (type element-type &rest scs) `(progn (define-full-reffer ,(symbolicate "DATA-VECTOR-REF/" type) ,type vector-data-offset other-pointer-lowtag ,(remove-if #'(lambda (x) (member x '(null zero))) scs) ,element-type data-vector-ref) (define-full-setter ,(symbolicate "DATA-VECTOR-SET/" type) ,type vector-data-offset other-pointer-lowtag ,scs ,element-type data-vector-set))) (def-partial-data-vector-frobs (type element-type size signed &rest scs) `(progn (define-partial-reffer ,(symbolicate "DATA-VECTOR-REF/" type) ,type ,size ,signed vector-data-offset other-pointer-lowtag ,scs ,element-type data-vector-ref) (define-partial-setter ,(symbolicate "DATA-VECTOR-SET/" type) ,type ,size vector-data-offset other-pointer-lowtag ,scs ,element-type data-vector-set)))) (def-full-data-vector-frobs simple-vector * descriptor-reg any-reg null zero) (def-partial-data-vector-frobs simple-base-string character :byte nil character-reg) #!+sb-unicode (def-full-data-vector-frobs simple-character-string character character-reg) (def-partial-data-vector-frobs simple-array-unsigned-byte-7 positive-fixnum :byte nil unsigned-reg signed-reg) (def-partial-data-vector-frobs simple-array-unsigned-byte-8 positive-fixnum :byte nil unsigned-reg signed-reg) (def-partial-data-vector-frobs simple-array-unsigned-byte-15 positive-fixnum :short nil unsigned-reg signed-reg) (def-partial-data-vector-frobs simple-array-unsigned-byte-16 positive-fixnum :short nil unsigned-reg signed-reg) (def-full-data-vector-frobs simple-array-unsigned-byte-31 unsigned-num unsigned-reg) (def-full-data-vector-frobs simple-array-unsigned-byte-32 unsigned-num unsigned-reg) (def-partial-data-vector-frobs simple-array-signed-byte-8 tagged-num :byte t signed-reg) (def-partial-data-vector-frobs simple-array-signed-byte-16 tagged-num :short t signed-reg) (def-full-data-vector-frobs simple-array-unsigned-fixnum positive-fixnum any-reg) (def-full-data-vector-frobs simple-array-fixnum tagged-num any-reg) (def-full-data-vector-frobs simple-array-signed-byte-32 signed-num signed-reg)) ;;; Integer vectors whose elements are smaller than a byte. I.e. bit, 2-bit, ;;; and 4-bit vectors. (macrolet ((def-small-data-vector-frobs (type bits) (let* ((elements-per-word (floor n-word-bits bits)) (bit-shift (1- (integer-length elements-per-word)))) `(progn (define-vop (,(symbolicate "DATA-VECTOR-REF/" type)) (:note "inline array access") (:translate data-vector-ref) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (index :scs (unsigned-reg))) (:arg-types ,type positive-fixnum) (:results (value :scs (any-reg))) (:result-types positive-fixnum) (:temporary (:scs (interior-reg)) lip) (:temporary (:scs (non-descriptor-reg) :to (:result 0)) temp result) (:generator 20 (inst srl temp index ,bit-shift) (inst sll temp n-fixnum-tag-bits) (inst addu lip object temp) (inst lw result lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag)) (inst and temp index ,(1- elements-per-word)) ,@(when (eq *backend-byte-order* :big-endian) `((inst xor temp ,(1- elements-per-word)))) ,@(unless (= bits 1) `((inst sll temp ,(1- (integer-length bits))))) (inst srl result temp) (inst and result ,(1- (ash 1 bits))) (inst sll value result n-fixnum-tag-bits))) (define-vop (,(symbolicate "DATA-VECTOR-REF-C/" type)) (:translate data-vector-ref) (:policy :fast-safe) (:args (object :scs (descriptor-reg))) (:arg-types ,type (:constant (integer 0 ,(1- (* (1+ (- (floor (+ #x7fff other-pointer-lowtag) n-word-bytes) vector-data-offset)) elements-per-word))))) (:info index) (:results (result :scs (unsigned-reg))) (:result-types positive-fixnum) (:generator 15 (multiple-value-bind (word extra) (floor index ,elements-per-word) ,@(when (eq *backend-byte-order* :big-endian) `((setf extra (logxor extra (1- ,elements-per-word))))) (loadw result object (+ word vector-data-offset) other-pointer-lowtag) (unless (zerop extra) (inst srl result (* extra ,bits))) (unless (= extra ,(1- elements-per-word)) (inst and result ,(1- (ash 1 bits))))))) (define-vop (,(symbolicate "DATA-VECTOR-SET/" type)) (:note "inline array store") (:translate data-vector-set) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (index :scs (unsigned-reg) :target shift) (value :scs (unsigned-reg zero immediate) :target result)) (:arg-types ,type positive-fixnum positive-fixnum) (:results (result :scs (unsigned-reg))) (:result-types positive-fixnum) (:temporary (:scs (interior-reg)) lip) (:temporary (:scs (non-descriptor-reg)) temp old) (:temporary (:scs (non-descriptor-reg) :from (:argument 1)) shift) (:generator 25 (inst srl temp index ,bit-shift) (inst sll temp n-fixnum-tag-bits) (inst addu lip object temp) (inst lw old lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag)) (inst and shift index ,(1- elements-per-word)) ,@(when (eq *backend-byte-order* :big-endian) `((inst xor shift ,(1- elements-per-word)))) ,@(unless (= bits 1) `((inst sll shift ,(1- (integer-length bits))))) (unless (and (sc-is value immediate) (= (tn-value value) ,(1- (ash 1 bits)))) (inst li temp ,(1- (ash 1 bits))) (inst sll temp shift) (inst nor temp temp zero-tn) (inst and old temp)) (unless (sc-is value zero) (sc-case value (immediate (inst li temp (logand (tn-value value) ,(1- (ash 1 bits))))) (unsigned-reg (inst and temp value ,(1- (ash 1 bits))))) (inst sll temp shift) (inst or old temp)) (inst sw old lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag)) (sc-case value (immediate (inst li result (tn-value value))) (zero (move result zero-tn)) (unsigned-reg (move result value))))) (define-vop (,(symbolicate "DATA-VECTOR-SET-C/" type)) (:translate data-vector-set) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (value :scs (unsigned-reg zero immediate) :target result)) (:arg-types ,type (:constant (integer 0 ,(1- (* (1+ (- (floor (+ #x7fff other-pointer-lowtag) n-word-bytes) vector-data-offset)) elements-per-word)))) positive-fixnum) (:info index) (:results (result :scs (unsigned-reg))) (:result-types positive-fixnum) (:temporary (:scs (non-descriptor-reg)) temp old) (:generator 20 (multiple-value-bind (word extra) (floor index ,elements-per-word) ,@(when (eq *backend-byte-order* :big-endian) `((setf extra (logxor extra (1- ,elements-per-word))))) (inst lw old object (- (* (+ word vector-data-offset) n-word-bytes) other-pointer-lowtag)) (unless (and (sc-is value immediate) (= (tn-value value) ,(1- (ash 1 bits)))) (cond ((= extra ,(1- elements-per-word)) (inst sll old ,bits) (inst srl old ,bits)) (t (inst li temp (lognot (ash ,(1- (ash 1 bits)) (* extra ,bits)))) (inst and old temp)))) (sc-case value (zero) (immediate (let ((value (ash (logand (tn-value value) ,(1- (ash 1 bits))) (* extra ,bits)))) (cond ((< value #x10000) (inst or old value)) (t (inst li temp value) (inst or old temp))))) (unsigned-reg (inst sll temp value (* extra ,bits)) (inst or old temp))) (inst sw old object (- (* (+ word vector-data-offset) n-word-bytes) other-pointer-lowtag)) (sc-case value (immediate (inst li result (tn-value value))) (zero (move result zero-tn)) (unsigned-reg (move result value)))))))))) (def-small-data-vector-frobs simple-bit-vector 1) (def-small-data-vector-frobs simple-array-unsigned-byte-2 2) (def-small-data-vector-frobs simple-array-unsigned-byte-4 4)) ;;; And the float variants. (define-vop (data-vector-ref/simple-array-single-float) (:note "inline array access") (:translate data-vector-ref) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (index :scs (any-reg))) (:arg-types simple-array-single-float positive-fixnum) (:results (value :scs (single-reg))) (:result-types single-float) (:temporary (:scs (interior-reg)) lip) (:generator 20 (inst addu lip object index) (inst lwc1 value lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag)) (inst nop))) (define-vop (data-vector-set/simple-array-single-float) (:note "inline array store") (:translate data-vector-set) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (index :scs (any-reg)) (value :scs (single-reg) :target result)) (:arg-types simple-array-single-float positive-fixnum single-float) (:results (result :scs (single-reg))) (:result-types single-float) (:temporary (:scs (interior-reg)) lip) (:generator 20 (inst addu lip object index) (inst swc1 value lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag)) (unless (location= result value) (inst fmove :single result value)))) (define-vop (data-vector-ref/simple-array-double-float) (:note "inline array access") (:translate data-vector-ref) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (index :scs (any-reg))) (:arg-types simple-array-double-float positive-fixnum) (:results (value :scs (double-reg))) (:result-types double-float) (:temporary (:scs (interior-reg)) lip) (:generator 20 (inst addu lip object index) (inst addu lip index) (ecase *backend-byte-order* (:big-endian (inst lwc1 value lip (+ (- (* vector-data-offset n-word-bytes) other-pointer-lowtag) n-word-bytes)) (inst lwc1-odd value lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag))) (:little-endian (inst lwc1 value lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag)) (inst lwc1-odd value lip (+ (- (* vector-data-offset n-word-bytes) other-pointer-lowtag) n-word-bytes)))) (inst nop))) (define-vop (data-vector-set/simple-array-double-float) (:note "inline array store") (:translate data-vector-set) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (index :scs (any-reg)) (value :scs (double-reg) :target result)) (:arg-types simple-array-double-float positive-fixnum double-float) (:results (result :scs (double-reg))) (:result-types double-float) (:temporary (:scs (interior-reg)) lip) (:generator 20 (inst addu lip object index) (inst addu lip index) (ecase *backend-byte-order* (:big-endian (inst swc1 value lip (+ (- (* vector-data-offset n-word-bytes) other-pointer-lowtag) n-word-bytes)) (inst swc1-odd value lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag))) (:little-endian (inst swc1 value lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag)) (inst swc1-odd value lip (+ (- (* vector-data-offset n-word-bytes) other-pointer-lowtag) n-word-bytes)))) (unless (location= result value) (inst fmove :double result value)))) ;;; Complex float arrays. (define-vop (data-vector-ref/simple-array-complex-single-float) (:note "inline array access") (:translate data-vector-ref) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (index :scs (any-reg))) (:arg-types simple-array-complex-single-float positive-fixnum) (:results (value :scs (complex-single-reg))) (:temporary (:scs (interior-reg)) lip) (:result-types complex-single-float) (:generator 5 (inst addu lip object index) (inst addu lip index) (let ((real-tn (complex-single-reg-real-tn value))) (inst lwc1 real-tn lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag))) (let ((imag-tn (complex-single-reg-imag-tn value))) (inst lwc1 imag-tn lip (- (* (1+ vector-data-offset) n-word-bytes) other-pointer-lowtag))) (inst nop))) (define-vop (data-vector-set/simple-array-complex-single-float) (:note "inline array store") (:translate data-vector-set) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (index :scs (any-reg)) (value :scs (complex-single-reg) :target result)) (:arg-types simple-array-complex-single-float positive-fixnum complex-single-float) (:results (result :scs (complex-single-reg))) (:result-types complex-single-float) (:temporary (:scs (interior-reg)) lip) (:generator 5 (inst addu lip object index) (inst addu lip index) (let ((value-real (complex-single-reg-real-tn value)) (result-real (complex-single-reg-real-tn result))) (inst swc1 value-real lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag)) (unless (location= result-real value-real) (inst fmove :single result-real value-real))) (let ((value-imag (complex-single-reg-imag-tn value)) (result-imag (complex-single-reg-imag-tn result))) (inst swc1 value-imag lip (- (* (1+ vector-data-offset) n-word-bytes) other-pointer-lowtag)) (unless (location= result-imag value-imag) (inst fmove :single result-imag value-imag))))) (define-vop (data-vector-ref/simple-array-complex-double-float) (:note "inline array access") (:translate data-vector-ref) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (index :scs (any-reg) :target shift)) (:arg-types simple-array-complex-double-float positive-fixnum) (:results (value :scs (complex-double-reg))) (:result-types complex-double-float) (:temporary (:scs (interior-reg)) lip) (:temporary (:scs (any-reg) :from (:argument 1)) shift) (:generator 6 (inst sll shift index n-fixnum-tag-bits) (inst addu lip object shift) (let ((real-tn (complex-double-reg-real-tn value))) (ld-double real-tn lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag))) (let ((imag-tn (complex-double-reg-imag-tn value))) (ld-double imag-tn lip (- (* (+ vector-data-offset 2) n-word-bytes) other-pointer-lowtag))) (inst nop))) (define-vop (data-vector-set/simple-array-complex-double-float) (:note "inline array store") (:translate data-vector-set) (:policy :fast-safe) (:args (object :scs (descriptor-reg)) (index :scs (any-reg) :target shift) (value :scs (complex-double-reg) :target result)) (:arg-types simple-array-complex-double-float positive-fixnum complex-double-float) (:results (result :scs (complex-double-reg))) (:result-types complex-double-float) (:temporary (:scs (interior-reg)) lip) (:temporary (:scs (any-reg) :from (:argument 1)) shift) (:generator 6 (inst sll shift index n-fixnum-tag-bits) (inst addu lip object shift) (let ((value-real (complex-double-reg-real-tn value)) (result-real (complex-double-reg-real-tn result))) (str-double value-real lip (- (* vector-data-offset n-word-bytes) other-pointer-lowtag)) (unless (location= result-real value-real) (inst fmove :double result-real value-real))) (let ((value-imag (complex-double-reg-imag-tn value)) (result-imag (complex-double-reg-imag-tn result))) (str-double value-imag lip (- (* (+ vector-data-offset 2) n-word-bytes) other-pointer-lowtag)) (unless (location= result-imag value-imag) (inst fmove :double result-imag value-imag))))) ;;; These vops are useful for accessing the bits of a vector irrespective of ;;; what type of vector it is. (define-full-reffer vector-raw-bits * vector-data-offset other-pointer-lowtag (unsigned-reg) unsigned-num %vector-raw-bits) (define-full-setter set-vector-raw-bits * vector-data-offset other-pointer-lowtag (unsigned-reg) unsigned-num %set-vector-raw-bits) ;;;; Misc. Array VOPs. (define-vop (get-vector-subtype get-header-data)) (define-vop (set-vector-subtype set-header-data))