ikarus/scheme/pass-specify-rep-primops.ss

2207 lines
63 KiB
Scheme

;;; Ikarus Scheme -- A compiler for R6RS Scheme.
;;; Copyright (C) 2006,2007,2008 Abdulaziz Ghuloum
;;;
;;; This program is free software: you can redistribute it and/or modify
;;; it under the terms of the GNU General Public License version 3 as
;;; published by the Free Software Foundation.
;;;
;;; This program is distributed in the hope that it will be useful, but
;;; WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
;;; General Public License for more details.
;;;
;;; You should have received a copy of the GNU General Public License
;;; along with this program. If not, see <http://www.gnu.org/licenses/>.
(define-syntax section
(syntax-rules (/section)
[(section e* ... /section) (begin e* ...)]))
(section ;;; helpers
(define (prm op . arg*)
(make-primcall op arg*))
(define (nop) (make-primcall 'nop '()))
(define (K x) (make-constant x))
(define (tag-test x mask tag)
(if mask
(prm '= (prm 'logand x (K mask)) (K tag))
(prm '= x (K tag))))
(define (sec-tag-test x pmask ptag smask stag)
(make-conditional
(tag-test x pmask ptag)
(tag-test (prm 'mref x (K (- ptag))) smask stag)
(make-constant #f)))
(define (safe-ref x disp mask tag)
(seq*
(interrupt-unless (tag-test x mask tag))
(prm 'mref x (K (- disp tag)))))
(define (dirty-vector-set address)
(define shift-bits 2)
(prm 'mset
(prm 'int+
(prm 'mref pcr (K pcb-dirty-vector))
(prm 'sll (prm 'srl address (K pageshift)) (K shift-bits)))
(K 0)
(K dirty-word)))
(define (smart-dirty-vector-set addr what)
(struct-case what
[(constant t)
(if (or (fixnum? t) (immediate? t))
(prm 'nop)
(dirty-vector-set addr))]
[else (dirty-vector-set addr)]))
(define (slow-mem-assign v x i)
(with-tmp ([t (prm 'int+ x (K i))])
(make-seq
(prm 'mset t (K 0) (T v))
(dirty-vector-set t))))
(define (mem-assign v x i)
(struct-case v
[(constant t)
(if (or (fixnum? t) (immediate? t))
(prm 'mset x (K i) (T v))
(slow-mem-assign v x i))]
[else (slow-mem-assign v x i)]))
(define (align-code unknown-amt known-amt)
(prm 'sll
(prm 'sra
(prm 'int+ unknown-amt
(K (+ known-amt (sub1 object-alignment))))
(K align-shift))
(K align-shift)))
/section)
(section ;;; simple objects section
(define-primop base-rtd safe
[(V) (prm 'mref pcr (K pcb-base-rtd))]
[(P) (K #t)]
[(E) (prm 'nop)])
(define-primop void safe
[(V) (K void-object)]
[(P) (K #t)]
[(E) (prm 'nop)])
(define-primop nop unsafe
[(E) (prm 'nop)])
(define-primop neq? unsafe
[(P x y) (prm '!= (T x) (T y))]
[(E x y) (nop)])
(define-primop eq? safe
[(P x y) (prm '= (T x) (T y))]
[(E x y) (nop)])
(define-primop null? safe
[(P x) (prm '= (T x) (K nil))]
[(E x) (nop)])
(define-primop not safe
[(P x) (prm '= (T x) (K bool-f))]
[(E x) (nop)])
(define-primop eof-object safe
[(V) (K eof)]
[(P) (K #t)]
[(E) (nop)])
(define-primop eof-object? safe
[(P x) (prm '= (T x) (K eof))]
[(E x) (nop)])
(define-primop $unbound-object? unsafe
[(P x) (prm '= (T x) (K unbound))]
[(E x) (nop)])
(define-primop immediate? safe
[(P x)
(make-conditional
(tag-test (T x) fx-mask fx-tag)
(make-constant #t)
(tag-test (T x) 7 7))]
[(E x) (nop)])
(define-primop boolean? safe
[(P x) (tag-test (T x) bool-mask bool-tag)]
[(E x) (nop)])
(define-primop bwp-object? safe
[(P x) (prm '= (T x) (K bwp-object))]
[(E x) (nop)])
(define-primop $forward-ptr? unsafe
[(P x) (prm '= (T x) (K -1))]
[(E x) (nop)])
(define-primop pointer-value unsafe
[(V x) (prm 'logand
(prm 'srl (T x) (K 1))
(K (* -1 fx-scale)))]
[(P x) (K #t)]
[(E x) (nop)])
(define-primop $arg-list unsafe
[(V) (prm 'mref pcr (K pcb-arg-list))]
[(P) (K #t)]
[(E) (nop)])
(define-primop $collect-key unsafe
[(V) (prm 'mref pcr (K pcb-collect-key))]
[(E x) (prm 'mset pcr (K pcb-collect-key) (T x))])
(define-primop $memq safe
[(P x ls)
(struct-case ls
[(constant ls)
(cond
[(not (list? ls)) (interrupt)]
[else
(with-tmp ([x (T x)])
(let f ([ls ls])
(cond
[(null? ls) (K #f)]
[(null? (cdr ls)) (prm '= x (T (K (car ls))))]
[else
(make-conditional
(prm '= x (T (K (car ls))))
(K #t)
(f (cdr ls)))])))])]
[else (interrupt)])]
[(V x ls)
(struct-case ls
[(constant ls)
(cond
[(not (list? ls)) (interrupt)]
[else
(with-tmp ([x (T x)])
(let f ([ls ls])
(cond
[(null? ls) (K bool-f)]
[else
(make-conditional
(prm '= x (T (K (car ls))))
(T (K ls))
(f (cdr ls)))])))])]
[else (interrupt)])]
[(E x ls) (nop)])
/section)
(section ;;; pairs
(define-primop pair? safe
[(P x) (tag-test (T x) pair-mask pair-tag)]
[(E x) (nop)])
(define-primop cons safe
[(V a d)
(with-tmp ([t (prm 'alloc (K pair-size) (K pair-tag))])
(prm 'mset t (K (- disp-car pair-tag)) (T a))
(prm 'mset t (K (- disp-cdr pair-tag)) (T d))
t)]
[(P a d) (K #t)]
[(E a d) (prm 'nop)])
(define-primop $car unsafe
[(V x) (prm 'mref (T x) (K (- disp-car pair-tag)))]
[(E x) (nop)])
(define-primop $cdr unsafe
[(V x) (prm 'mref (T x) (K (- disp-cdr pair-tag)))]
[(E x) (nop)])
(define-primop $set-car! unsafe
[(E x v)
(with-tmp ([x (T x)])
(prm 'mset x (K (- disp-car pair-tag)) (T v))
(smart-dirty-vector-set x v))])
(define-primop $set-cdr! unsafe
[(E x v)
(with-tmp ([x (T x)])
(prm 'mset x (K (- disp-cdr pair-tag)) (T v))
(smart-dirty-vector-set x v))])
(define-primop car safe
[(V x)
(safe-ref (T x) disp-car pair-mask pair-tag)]
[(E x)
(interrupt-unless (tag-test (T x) pair-mask pair-tag))])
(define-primop cdr safe
[(V x)
(safe-ref (T x) disp-cdr pair-mask pair-tag)]
[(E x)
(interrupt-unless (tag-test (T x) pair-mask pair-tag))])
(define-primop set-car! safe
[(E x v)
(with-tmp ([x (T x)])
(interrupt-unless (tag-test x pair-mask pair-tag))
(prm 'mset x (K (- disp-car pair-tag)) (T v))
(smart-dirty-vector-set x v))])
(define-primop set-cdr! safe
[(E x v)
(with-tmp ([x (T x)])
(interrupt-unless (tag-test x pair-mask pair-tag))
(prm 'mset x (K (- disp-cdr pair-tag)) (T v))
(smart-dirty-vector-set x v))])
(define (expand-cxr val ls)
(cond
[(null? ls) (T val)]
[else
(with-tmp ([x (expand-cxr val (cdr ls))])
(interrupt-unless (tag-test x pair-mask pair-tag))
(prm 'mref x
(case (car ls)
[(a) (K (- disp-car pair-tag))]
[else (K (- disp-cdr pair-tag))])))]))
(define-primop caar safe [(V x) (expand-cxr x '(a a))])
(define-primop cadr safe [(V x) (expand-cxr x '(a d))])
(define-primop cdar safe [(V x) (expand-cxr x '(d a))])
(define-primop cddr safe [(V x) (expand-cxr x '(d d))])
(define-primop caaar safe [(V x) (expand-cxr x '(a a a))])
(define-primop caadr safe [(V x) (expand-cxr x '(a a d))])
(define-primop cadar safe [(V x) (expand-cxr x '(a d a))])
(define-primop caddr safe [(V x) (expand-cxr x '(a d d))])
(define-primop cdaar safe [(V x) (expand-cxr x '(d a a))])
(define-primop cdadr safe [(V x) (expand-cxr x '(d a d))])
(define-primop cddar safe [(V x) (expand-cxr x '(d d a))])
(define-primop cdddr safe [(V x) (expand-cxr x '(d d d))])
;(define-primop caaaar safe [(V x) (expand-cxr x '(a a a a))])
;(define-primop caaadr safe [(V x) (expand-cxr x '(a a a d))])
;(define-primop caadar safe [(V x) (expand-cxr x '(a a d a))])
;(define-primop caaddr safe [(V x) (expand-cxr x '(a a d d))])
;(define-primop cadaar safe [(V x) (expand-cxr x '(a d a a))])
;(define-primop cadadr safe [(V x) (expand-cxr x '(a d a d))])
;(define-primop caddar safe [(V x) (expand-cxr x '(a d d a))])
(define-primop cadddr safe [(V x) (expand-cxr x '(a d d d))])
;(define-primop cdaaar safe [(V x) (expand-cxr x '(d a a a))])
;(define-primop cdaadr safe [(V x) (expand-cxr x '(d a a d))])
;(define-primop cdadar safe [(V x) (expand-cxr x '(d a d a))])
;(define-primop cdaddr safe [(V x) (expand-cxr x '(d a d d))])
;(define-primop cddaar safe [(V x) (expand-cxr x '(d d a a))])
;(define-primop cddadr safe [(V x) (expand-cxr x '(d d a d))])
;(define-primop cdddar safe [(V x) (expand-cxr x '(d d d a))])
;(define-primop cddddr safe [(V x) (expand-cxr x '(d d d d))])
(define-primop list safe
[(V) (K nil)]
[(V . arg*)
(let ([n (length arg*)] [t* (map T arg*)])
(with-tmp ([v (prm 'alloc (K (align (* n pair-size))) (K pair-tag))])
(prm 'mset v (K (- disp-car pair-tag)) (car t*))
(prm 'mset v
(K (- (+ disp-cdr (* (sub1 n) pair-size)) pair-tag))
(K nil))
(let f ([t* (cdr t*)] [i pair-size])
(cond
[(null? t*) v]
[else
(with-tmp ([tmp (prm 'int+ v (K i))])
(prm 'mset tmp (K (- disp-car pair-tag)) (car t*))
(prm 'mset tmp (K (+ disp-cdr (- pair-size) (- pair-tag))) tmp)
(f (cdr t*) (+ i pair-size)))]))))]
[(P . arg*) (K #t)]
[(E . arg*) (nop)])
(define-primop cons* safe
[(V) (interrupt)]
[(V x) (T x)]
[(V a . a*)
(let ([t* (map T a*)] [n (length a*)])
(with-tmp ([v (prm 'alloc (K (* n pair-size)) (K pair-tag))])
(prm 'mset v (K (- disp-car pair-tag)) (T a))
(let f ([t* t*] [i pair-size])
(cond
[(null? (cdr t*))
(seq* (prm 'mset v (K (- i disp-cdr pair-tag)) (car t*)) v)]
[else
(with-tmp ([tmp (prm 'int+ v (K i))])
(prm 'mset tmp (K (- disp-car pair-tag)) (car t*))
(prm 'mset tmp (K (- (- disp-cdr pair-tag) pair-size)) tmp)
(f (cdr t*) (+ i pair-size)))]))))]
[(P) (interrupt)]
[(P x) (P x)]
[(P a . a*) (K #t)]
[(E) (interrupt)]
[(E . a*) (nop)])
/section)
(section ;;; vectors
(section ;;; helpers
(define (vector-range-check x idx)
(define (check-fx i)
(seq*
(interrupt-unless (tag-test (T x) vector-mask vector-tag))
(with-tmp ([len (cogen-value-$vector-length x)])
(interrupt-unless (prm 'u< (K (* i wordsize)) len))
(interrupt-unless-fixnum len))))
(define (check-? idx)
(seq*
(interrupt-unless (tag-test (T x) vector-mask vector-tag))
(with-tmp ([len (cogen-value-$vector-length x)])
(interrupt-unless (prm 'u< (T idx) len))
(with-tmp ([t (prm 'logor len (T idx))])
(interrupt-unless-fixnum t)))))
(struct-case idx
[(constant i)
(if (and (fixnum? i) (fx>= i 0))
(check-fx i)
(check-? idx))]
[else (check-? idx)]))
/section)
(define-primop vector? unsafe
[(P x) (sec-tag-test (T x) vector-mask vector-tag fx-mask fx-tag)]
[(E x) (nop)])
(define-primop $make-vector unsafe
[(V len)
(struct-case len
[(constant i)
(unless (fixnum? i) (interrupt))
(with-tmp ([v (prm 'alloc
(K (align (+ (* i wordsize) disp-vector-data)))
(K vector-tag))])
(prm 'mset v
(K (- disp-vector-length vector-tag))
(K (* i fx-scale)))
v)]
[else
(with-tmp ([alen (align-code (T len) disp-vector-data)])
(with-tmp ([v (prm 'alloc alen (K vector-tag))])
(prm 'mset v (K (- disp-vector-length vector-tag)) (T len))
v))])]
[(P len) (K #t)]
[(E len) (nop)])
(define-primop make-vector safe
[(V len)
(with-tmp ([x (make-forcall "ikrt_make_vector1" (list (T len)))])
(interrupt-when (prm '= x (K 0)))
x)])
(define-primop $vector-ref unsafe
[(V x i)
(or
(struct-case i
[(constant i)
(and (fixnum? i)
(fx>= i 0)
(prm 'mref (T x)
(K (+ (* i wordsize) (- disp-vector-data vector-tag)))))]
[else #f])
(prm 'mref (T x)
(prm 'int+ (T i) (K (- disp-vector-data vector-tag)))))])
(define-primop $vector-length unsafe
[(V x) (prm 'mref (T x) (K (- disp-vector-length vector-tag)))]
[(E x) (prm 'nop)]
[(P x) (K #t)])
(define-primop vector-length safe
[(V x)
(seq*
(interrupt-unless (tag-test (T x) vector-mask vector-tag))
(with-tmp ([t (cogen-value-$vector-length x)])
(interrupt-unless-fixnum t)
t))]
[(E x)
(seq*
(interrupt-unless (tag-test (T x) vector-mask vector-tag))
(with-tmp ([t (cogen-value-$vector-length x)])
(interrupt-unless-fixnum t)))]
[(P x)
(seq* (cogen-effect-vector-length x) (K #t))])
(define-primop vector-ref safe
[(V x i)
(seq*
(vector-range-check x i)
(cogen-value-$vector-ref x i))]
[(E x i)
(vector-range-check x i)])
(define-primop $vector-set! unsafe
[(E x i v)
(struct-case i
[(constant i)
(unless (fixnum? i) (interrupt))
(mem-assign v (T x)
(+ (* i wordsize)
(- disp-vector-data vector-tag)))]
[else
(mem-assign v
(prm 'int+ (T x) (T i))
(- disp-vector-data vector-tag))])])
(define-primop vector-set! safe
[(E x i v)
(seq*
(vector-range-check x i)
(cogen-effect-$vector-set! x i v))])
(define-primop vector safe
[(V . arg*)
(with-tmp ([v (prm 'alloc
(K (align (+ disp-vector-data
(* (length arg*) wordsize))))
(K vector-tag))])
(seq*
(prm 'mset v (K (- disp-vector-length vector-tag))
(K (* (length arg*) wordsize)))
(let f ([t* (map T arg*)]
[i (- disp-vector-data vector-tag)])
(cond
[(null? t*) v]
[else
(make-seq
(prm 'mset v (K i) (car t*))
(f (cdr t*) (+ i wordsize)))]))))]
[(E . arg*) (prm 'nop)]
[(P . arg*) (K #t)])
/section)
(section ;;; closures
(define-primop procedure? safe
[(P x) (tag-test (T x) closure-mask closure-tag)])
(define-primop $cpref unsafe
[(V x i)
(struct-case i
[(constant i)
(unless (fixnum? i) (interrupt))
(prm 'mref (T x)
(K (+ (- disp-closure-data closure-tag)
(* i wordsize))))]
[else (interrupt)])])
/section)
(section ;;; symbols
(define-primop symbol? safe
[(P x)
(sec-tag-test (T x) vector-mask vector-tag #f symbol-record-tag)]
[(E x) (nop)])
(define-primop $make-symbol unsafe
[(V str)
(with-tmp ([x (prm 'alloc (K (align symbol-record-size)) (K symbol-ptag))])
(prm 'mset x (K (- symbol-ptag)) (K symbol-record-tag))
(prm 'mset x (K (- disp-symbol-record-string symbol-ptag)) (T str))
(prm 'mset x (K (- disp-symbol-record-ustring symbol-ptag)) (K 0))
(prm 'mset x (K (- disp-symbol-record-value symbol-ptag)) (K unbound))
(prm 'mset x (K (- disp-symbol-record-proc symbol-ptag)) (K unbound))
(prm 'mset x (K (- disp-symbol-record-plist symbol-ptag)) (K nil))
x)]
[(P str) (K #t)]
[(E str) (nop)])
(define-primop $symbol-string unsafe
[(V x) (prm 'mref (T x) (K (- disp-symbol-record-string symbol-ptag)))]
[(E x) (nop)])
(define-primop $set-symbol-string! unsafe
[(E x v) (mem-assign v (T x) (- disp-symbol-record-string symbol-ptag))])
(define-primop $symbol-unique-string unsafe
[(V x) (prm 'mref (T x) (K (- disp-symbol-record-ustring symbol-ptag)))]
[(E x) (nop)])
(define-primop $set-symbol-unique-string! unsafe
[(E x v) (mem-assign v (T x) (- disp-symbol-record-ustring symbol-ptag))])
(define-primop $symbol-plist unsafe
[(V x) (prm 'mref (T x) (K (- disp-symbol-record-plist symbol-ptag)))]
[(E x) (nop)])
(define-primop $set-symbol-plist! unsafe
[(E x v) (mem-assign v (T x) (- disp-symbol-record-plist symbol-ptag))])
(define-primop $symbol-value unsafe
[(V x) (prm 'mref (T x) (K (- disp-symbol-record-value symbol-ptag)))]
[(E x) (nop)])
(define-primop $set-symbol-value! unsafe
[(E x v)
(with-tmp ([x (T x)])
(prm 'mset x (K (- disp-symbol-record-value symbol-ptag)) (T v))
(dirty-vector-set x))])
(define-primop $set-symbol-proc! unsafe
[(E x v)
(with-tmp ([x (T x)])
(prm 'mset x (K (- disp-symbol-record-proc symbol-ptag)) (T v))
(dirty-vector-set x))])
(define-primop $set-symbol-value/proc! unsafe
[(E x v)
(with-tmp ([x (T x)] [v (T v)])
(prm 'mset x (K (- disp-symbol-record-value symbol-ptag)) v)
(prm 'mset x (K (- disp-symbol-record-proc symbol-ptag)) v)
(dirty-vector-set x))])
(define-primop top-level-value safe
[(V x)
(struct-case x
[(constant s)
(if (symbol? s)
(with-tmp ([v (cogen-value-$symbol-value x)])
(interrupt-when (cogen-pred-$unbound-object? v))
v)
(interrupt))]
[else
(with-tmp ([x (T x)])
(interrupt-unless (cogen-pred-symbol? x))
(with-tmp ([v (cogen-value-$symbol-value x)])
(interrupt-when (cogen-pred-$unbound-object? v))
v))])]
[(E x)
(struct-case x
[(constant s)
(if (symbol? s)
(with-tmp ([v (cogen-value-$symbol-value x)])
(interrupt-when (cogen-pred-$unbound-object? v)))
(interrupt))]
[else
(with-tmp ([x (T x)])
(interrupt-unless (cogen-pred-symbol? x))
(with-tmp ([v (cogen-value-$symbol-value x)])
(interrupt-when (cogen-pred-$unbound-object? v))))])])
(define-primop $init-symbol-function! unsafe
[(E x v)
(with-tmp ([x (T x)] [v (T v)])
(prm 'mset x (K (- disp-symbol-record-proc symbol-ptag)) v)
;(prm 'mset x (K (- disp-symbol-error-function symbol-tag)) v)
(dirty-vector-set x))])
/section)
(section ;;; fixnums
(define-primop fixnum? safe
[(P x) (tag-test (T x) fx-mask fx-tag)]
[(E x) (nop)])
(define-primop fixnum-width safe
[(V) (K (fxsll (- (* wordsize 8) fx-shift) fx-shift))]
[(E) (nop)]
[(P) (K #t)])
(define-primop least-fixnum safe
[(V) (K (sll (- (expt 2 (- (- (* wordsize 8) fx-shift) 1)))
fx-shift))]
[(E) (nop)]
[(P) (K #t)])
(define-primop greatest-fixnum safe
[(V) (K (sll (- (expt 2 (- (- (* wordsize 8) fx-shift) 1)) 1)
fx-shift))]
[(E) (nop)]
[(P) (K #t)])
(define-primop $fxzero? unsafe
[(P x) (prm '= (T x) (K 0))]
[(E x) (nop)])
(define-primop $fx= unsafe
[(P x y) (prm '= (T x) (T y))]
[(E x y) (nop)])
(define-primop $fx< unsafe
[(P x y) (prm '< (T x) (T y))]
[(E x y) (nop)])
(define-primop $fx<= unsafe
[(P x y) (prm '<= (T x) (T y))]
[(E x y) (nop)])
(define-primop $fx> unsafe
[(P x y) (prm '> (T x) (T y))]
[(E x y) (nop)])
(define-primop $fx>= unsafe
[(P x y) (prm '>= (T x) (T y))]
[(E x y) (nop)])
(define-primop $fxadd1 unsafe
[(V x) (cogen-value-$fx+ x (K 1))]
[(P x) (K #t)]
[(E x) (nop)])
(define-primop $fxsub1 unsafe
[(V x) (cogen-value-$fx+ x (K -1))]
[(P x) (K #t)]
[(E x) (nop)])
(define-primop $fx+ unsafe
[(V x y) (prm 'int+ (T x) (T y))]
[(P x y) (K #t)]
[(E x y) (nop)])
(define-primop $fx* unsafe
[(V a b)
(struct-case a
[(constant a)
(unless (fixnum? a) (interrupt))
(prm 'int* (T b) (K a))]
[else
(struct-case b
[(constant b)
(unless (fixnum? b) (interrupt))
(prm 'int* (T a) (K b))]
[else
(prm 'int* (T a) (prm 'sra (T b) (K fx-shift)))])])]
[(P x y) (K #t)]
[(E x y) (nop)])
(define-primop $fxlognot unsafe
[(V x) (cogen-value-$fxlogxor x (K -1))]
[(P x) (K #t)]
[(E x) (nop)])
(define-primop $fxlogand unsafe
[(V x y) (prm 'logand (T x) (T y))]
[(P x y) (K #t)]
[(E x y) (nop)])
(define-primop $fxlogor unsafe
[(V x y) (prm 'logor (T x) (T y))]
[(P x y) (K #t)]
[(E x y) (nop)])
(define-primop $fxlogxor unsafe
[(V x y) (prm 'logxor (T x) (T y))]
[(P x y) (K #t)]
[(E x y) (nop)])
(define-primop $fx- unsafe
[(V x y) (prm 'int- (T x) (T y))]
[(P x y) (K #t)]
[(E x y) (nop)])
(define-primop $fxsll unsafe
[(V x i)
(struct-case i
[(constant i)
(unless (fixnum? i) (interrupt))
(prm 'sll (T x) (K i))]
[else
(prm 'sll (T x) (prm 'sra (T i) (K fx-shift)))])]
[(P x i) (K #t)]
[(E x i) (nop)])
(define-primop $fxsra unsafe
[(V x i)
(struct-case i
[(constant i)
(unless (fixnum? i) (interrupt))
(prm 'logand
(prm 'sra (T x) (K (if (> i 31) 31 i)))
(K (* -1 fx-scale)))]
[else
(with-tmp ([i (prm 'sra (T i) (K fx-shift))])
(with-tmp ([i (make-conditional
(prm '< i (K 32))
i
(K 31))])
(prm 'logand
(prm 'sra (T x) i)
(K (* -1 fx-scale)))))])]
[(P x i) (K #t)]
[(E x i) (nop)])
(define-primop $fxquotient unsafe
[(V a b)
(with-tmp ([b (T b)]) ;;; FIXME: why is quotient called remainder?
(prm 'sll (prm 'remainder (T a) b) (K fx-shift)))]
[(P a b) (K #t)]
[(E a b) (nop)])
(define-primop $fxmodulo unsafe
[(V a b)
(with-tmp ([b (T b)]) ;;; FIXME: why is modulo called quotient?
(with-tmp ([c (prm 'logand b
(prm 'sra (prm 'logxor b (T a))
(K (sub1 (* 8 wordsize)))))])
(prm 'int+ c (prm 'quotient (T a) b))))]
[(P a b) (K #t)]
[(E a b) (nop)])
(define-primop $fxinthash unsafe
[(V key)
(with-tmp ([k (T key)])
(with-tmp ([k (prm 'int+ k (prm 'logxor (prm 'sll k (K 15)) (K -1)))])
(with-tmp ([k (prm 'logxor k (prm 'sra k (K 10)))])
(with-tmp ([k (prm 'int+ k (prm 'sll k (K 3)))])
(with-tmp ([k (prm 'logxor k (prm 'sra k (K 6)))])
(with-tmp ([k (prm 'int+ k (prm 'logxor (prm 'sll k (K 11)) (K -1)))])
(with-tmp ([k (prm 'logxor k (prm 'sra k (K 16)))])
(prm 'sll k (K fx-shift)))))))))])
;(define inthash
; (lambda (key)
; ;static int inthash(int key) { /* from Bob Jenkin's */
; ; key += ~(key << 15);
; ; key ^= (key >> 10);
; ; key += (key << 3);
; ; key ^= (key >> 6);
; ; key += ~(key << 11);
; ; key ^= (key >> 16);
; ; return key;
; ;}
; (let* ([key ($fx+ key ($fxlognot ($fxsll key 15)))]
; [key ($fxlogxor key ($fxsra key 10))]
; [key ($fx+ key ($fxsll key 3))]
; [key ($fxlogxor key ($fxsra key 6))]
; [key ($fx+ key ($fxlognot ($fxsll key 11)))]
; [key ($fxlogxor key ($fxsra key 16))])
; key)))
/section)
(section ;;; bignums
(define-primop bignum? safe
[(P x) (sec-tag-test (T x) vector-mask vector-tag bignum-mask bignum-tag)]
[(E x) (nop)])
(define-primop $bignum-positive? unsafe
[(P x)
(prm '= (prm 'logand
(prm 'mref (T x) (K (- vector-tag)))
(K bignum-sign-mask))
(K 0))]
[(E x) (nop)])
(define-primop $bignum-byte-ref unsafe
[(V s i)
(struct-case i
[(constant i)
(unless (fixnum? i) (interrupt))
(prm 'sll
(prm 'logand
(prm 'mref (T s)
(K (+ i (- disp-bignum-data record-tag))))
(K 255))
(K fx-shift))]
[else
(prm 'sll
(prm 'srl ;;; FIXME: bref
(prm 'mref (T s)
(prm 'int+
(prm 'sra (T i) (K fx-shift))
;;; ENDIANNESS DEPENDENCY
(K (- disp-bignum-data
(- wordsize 1)
record-tag))))
(K (* (- wordsize 1) 8)))
(K fx-shift))])]
[(P s i) (K #t)]
[(E s i) (nop)])
(define-primop $bignum-size unsafe
[(V x)
(prm 'sll
(prm 'sra
(prm 'mref (T x) (K (- record-tag)))
(K bignum-length-shift))
(K (* 2 fx-shift)))])
/section)
(section ;;; flonums
(define ($flop-aux op fl0 fl1)
(with-tmp ([x (prm 'alloc (K (align flonum-size)) (K vector-tag))])
(prm 'mset x (K (- vector-tag)) (K flonum-tag))
(prm 'fl:load (T fl0) (K (- disp-flonum-data vector-tag)))
(prm op (T fl1) (K (- disp-flonum-data vector-tag)))
(prm 'fl:store x (K (- disp-flonum-data vector-tag)))
x))
(define ($flop-aux* op fl fl*)
(with-tmp ([x (prm 'alloc (K (align flonum-size)) (K vector-tag))])
(prm 'mset x (K (- vector-tag)) (K flonum-tag))
(prm 'fl:load (T fl) (K (- disp-flonum-data vector-tag)))
(let f ([fl* fl*])
(cond
[(null? fl*) (prm 'nop)]
[else
(make-seq
(prm op (T (car fl*)) (K (- disp-flonum-data vector-tag)))
(f (cdr fl*)))]))
(prm 'fl:store x (K (- disp-flonum-data vector-tag)))
x))
(define ($flcmp-aux op fl0 fl1)
(make-seq
(prm 'fl:load (T fl0) (K (- disp-flonum-data vector-tag)))
(prm op (T fl1) (K (- disp-flonum-data vector-tag)))))
(define-primop flonum? safe
[(P x) (sec-tag-test (T x) vector-mask vector-tag #f flonum-tag)]
[(E x) (nop)])
(define-primop $flonum-u8-ref unsafe
[(V s i)
(struct-case i
[(constant i)
(unless (and (fixnum? i) (fx<= 0 i) (fx<= i 7))
(interrupt))
(prm 'sll
(prm 'logand
(prm 'bref (T s)
(K (+ (- 7 i) (- disp-flonum-data record-tag))))
(K 255))
(K fx-shift))]
[else (interrupt)])]
[(P s i) (K #t)]
[(E s i) (nop)])
(define-primop $make-flonum unsafe
[(V)
(with-tmp ([x (prm 'alloc (K (align flonum-size)) (K vector-tag))])
(prm 'mset x (K (- vector-tag)) (K flonum-tag))
x)]
[(P str) (K #t)]
[(E str) (nop)])
(define-primop $flonum-set! unsafe
[(E x i v)
(struct-case i
[(constant i)
(unless (and (fixnum? i) (fx<= 0 i) (fx<= i 7))
(interrupt))
(prm 'bset/h (T x)
(K (+ (- 7 i) (- disp-flonum-data vector-tag)))
(prm 'sll (T v) (K (- 8 fx-shift))))]
[else (interrupt)])])
(define-primop $fixnum->flonum unsafe
[(V fx)
(with-tmp ([x (prm 'alloc (K (align flonum-size)) (K vector-tag))])
(prm 'mset x (K (- vector-tag)) (K flonum-tag))
(prm 'fl:from-int
(K 0) ; dummy
(prm 'sra (T fx) (K fx-shift)))
(prm 'fl:store x (K (- disp-flonum-data vector-tag)))
x)])
(define (check-flonums ls code)
(cond
[(null? ls) code]
[else
(struct-case (car ls)
[(constant v)
(if (flonum? v)
(check-flonums (cdr ls) code)
(interrupt))]
[else
(check-flonums (cdr ls)
(with-tmp ([x (T (car ls))])
(interrupt-unless
(tag-test x vector-mask vector-tag))
(interrupt-unless
(prm '= (prm 'mref x (K (- vector-tag)))
(K flonum-tag)))
code))])]))
; (define (primary-tag-tests ls)
; (cond
; [(null? ls) (prm 'nop)]
; [else
; (seq*
; (interrupt-unless
; (tag-test (car ls) vector-mask vector-tag))
; (primary-tag-tests (cdr ls)))]))
; (define (secondary-tag-tests ls)
; (define (or* a*)
; (cond
; [(null? (cdr a*)) (car a*)]
; [else (prm 'logor (car a*) (or* (cdr a*)))]))
; (interrupt-unless
; (prm '= (or* (map (lambda (x)
; (prm 'mref x (K (- vector-tag))))
; ls))
; (K flonum-tag))))
; (let ([check
; (let f ([ls ls] [ac '()])
; (cond
; [(null? ls) ac]
; [else
; (struct-case (car ls)
; [(constant v)
; (if (flonum? v)
; (f (cdr ls) ac)
; #f)]
; [else (f (cdr ls) (cons (T (car ls)) ac))])]))])
; (cond
; [(not check) (interrupt)]
; [(null? check) code]
; [else
; (seq*
; (primary-tag-tests check)
; (secondary-tag-tests check)
; code)])))
(define-primop $fl+ unsafe
[(V x y) ($flop-aux 'fl:add! x y)])
(define-primop $fl- unsafe
[(V x y) ($flop-aux 'fl:sub! x y)])
(define-primop $fl* unsafe
[(V x y) ($flop-aux 'fl:mul! x y)])
(define-primop $fl/ unsafe
[(V x y) ($flop-aux 'fl:div! x y)])
(define-primop fl+ safe
[(V) (K (make-object 0.0))]
[(V x) (check-flonums (list x) (T x))]
[(V x . x*) (check-flonums (cons x x*) ($flop-aux* 'fl:add! x x*))]
[(P . x*) (check-flonums x* (K #t))]
[(E . x*) (check-flonums x* (nop))])
(define-primop fl* safe
[(V) (K (make-object 1.0))]
[(V x) (check-flonums (list x) (T x))]
[(V x . x*) (check-flonums (cons x x*) ($flop-aux* 'fl:mul! x x*))]
[(P . x*) (check-flonums x* (K #t))]
[(E . x*) (check-flonums x* (nop))])
(define-primop fl- safe
[(V x) (check-flonums (list x) ($flop-aux 'fl:sub! (K 0.0) x))]
[(V x . x*) (check-flonums (cons x x*) ($flop-aux* 'fl:sub! x x*))]
[(P x . x*) (check-flonums (cons x x*) (K #t))]
[(E x . x*) (check-flonums (cons x x*) (nop))])
(define-primop fl/ safe
[(V x) (check-flonums (list x) ($flop-aux 'fl:div! (K 1.0) x))]
[(V x . x*) (check-flonums (cons x x*) ($flop-aux* 'fl:div! x x*))]
[(P x . x*) (check-flonums (cons x x*) (K #t))]
[(E x . x*) (check-flonums (cons x x*) (nop))])
(define-primop $fl= unsafe
[(P x y) ($flcmp-aux 'fl:= x y)])
(define-primop $fl< unsafe
[(P x y) ($flcmp-aux 'fl:< x y)])
(define-primop $fl<= unsafe
[(P x y) ($flcmp-aux 'fl:<= x y)])
(define-primop $fl> unsafe
[(P x y) ($flcmp-aux 'fl:> x y)])
(define-primop $fl>= unsafe
[(P x y) ($flcmp-aux 'fl:>= x y)])
(define-primop fl=? safe
[(P x y) (check-flonums (list x y) ($flcmp-aux 'fl:= x y))]
[(E x y) (check-flonums (list x y) (nop))])
(define-primop fl<? safe
[(P x y) (check-flonums (list x y) ($flcmp-aux 'fl:< x y))]
[(E x y) (check-flonums (list x y) (nop))])
(define-primop fl<=? safe
[(P x y) (check-flonums (list x y) ($flcmp-aux 'fl:<= x y))]
[(E x y) (check-flonums (list x y) (nop))])
(define-primop fl>? safe
[(P x y) (check-flonums (list x y) ($flcmp-aux 'fl:> x y))]
[(E x y) (check-flonums (list x y) (nop))])
(define-primop fl>=? safe
[(P x y) (check-flonums (list x y) ($flcmp-aux 'fl:>= x y))]
[(E x y) (check-flonums (list x y) (nop))])
(define-primop $flonum-sbe unsafe
[(V x)
(prm 'sll
(prm 'srl
(prm 'mref (T x)
(K (- (+ disp-flonum-data 4) vector-tag)))
(K 20))
(K fx-shift))])
/section)
(section ;;; ratnums
(define-primop ratnum? safe
[(P x) (sec-tag-test (T x) vector-mask vector-tag #f ratnum-tag)]
[(E x) (nop)])
(define-primop $make-ratnum unsafe
[(V num den)
(with-tmp ([x (prm 'alloc (K (align ratnum-size)) (K vector-tag))])
(prm 'mset x (K (- vector-tag)) (K ratnum-tag))
(prm 'mset x (K (- disp-ratnum-num vector-tag)) (T num))
(prm 'mset x (K (- disp-ratnum-den vector-tag)) (T den))
x)]
[(P str) (K #t)]
[(E str) (nop)])
(define-primop $ratnum-n unsafe
[(V x) (prm 'mref (T x) (K (- disp-ratnum-num vector-tag)))])
(define-primop $ratnum-d unsafe
[(V x) (prm 'mref (T x) (K (- disp-ratnum-den vector-tag)))])
/section)
(section ;;; generic arithmetic
(define (non-fixnum? x)
(struct-case x
[(constant i) (not (fixnum? i))]
[else #f]))
(define (or* a a*)
(cond
[(null? a*) a]
[(constant? (car a*)) (or* a (cdr a*))]
[else (or* (prm 'logor a (T (car a*))) (cdr a*))]))
(define (assert-fixnums a a*)
(cond
[(constant? a)
(if (null? a*)
(nop)
(assert-fixnums (car a*) (cdr a*)))]
[else
(interrupt-unless
(tag-test (or* (T a) a*) fx-mask fx-tag))]))
(define (fixnum-fold-p op a a*)
(cond
[(or (non-fixnum? a) (ormap non-fixnum? a*)) (interrupt)]
[else
(seq*
(assert-fixnums a a*)
(let f ([a a] [a* a*])
(cond
[(null? a*) (K #t)]
[else
(let ([b (car a*)])
(make-conditional
(prm op (T a) (T b))
(f b (cdr a*))
(K #f)))])))]))
(define (fixnum-fold-e a a*)
(cond
[(or (non-fixnum? a) (ormap non-fixnum? a*)) (interrupt)]
[else (assert-fixnums a a*)]))
(define-primop = safe
[(P) (interrupt)]
[(P a . a*) (fixnum-fold-p '= a a*)]
[(E) (interrupt)]
[(E a . a*) (fixnum-fold-e a a*)])
(define-primop < safe
[(P) (interrupt)]
[(P a . a*) (fixnum-fold-p '< a a*)]
[(E) (interrupt)]
[(E a . a*) (fixnum-fold-e a a*)])
(define-primop <= safe
[(P) (interrupt)]
[(P a . a*) (fixnum-fold-p '<= a a*)]
[(E) (interrupt)]
[(E a . a*) (fixnum-fold-e a a*)])
(define-primop > safe
[(P) (interrupt)]
[(P a . a*) (fixnum-fold-p '> a a*)]
[(E) (interrupt)]
[(E a . a*) (fixnum-fold-e a a*)])
(define-primop >= safe
[(P) (interrupt)]
[(P a . a*) (fixnum-fold-p '>= a a*)]
[(E) (interrupt)]
[(E a . a*) (fixnum-fold-e a a*)])
(define-primop - safe
[(V a)
(cond
[(non-fixnum? a) (interrupt)]
[else
(interrupt)
(seq*
(assert-fixnums a '())
(prm 'int-/overflow (K 0) (T a)))])]
[(V a . a*)
(cond
[(or (non-fixnum? a) (ormap non-fixnum? a*)) (interrupt)]
[else
(interrupt)
(seq*
(assert-fixnums a a*)
(let f ([a (T a)] [a* a*])
(cond
[(null? a*) a]
[else
(f (prm 'int-/overflow a (T (car a*))) (cdr a*))])))])]
[(P a . a*) (seq* (assert-fixnums a a*) (K #t))]
[(E a . a*) (assert-fixnums a a*)])
(define-primop + safe
[(V) (K 0)]
[(V a . a*)
(cond
[(or (non-fixnum? a) (ormap non-fixnum? a*)) (interrupt)]
[else
(interrupt)
(seq*
(assert-fixnums a a*)
(let f ([a (T a)] [a* a*])
(cond
[(null? a*) a]
[else
(f (prm 'int+/overflow a (T (car a*))) (cdr a*))])))])]
[(P) (K #t)]
[(P a . a*) (seq* (assert-fixnums a a*) (K #t))]
[(E) (nop)]
[(E a . a*) (assert-fixnums a a*)])
(define-primop add1 safe
[(V x) (cogen-value-+ x (K 1))])
(define-primop sub1 safe
[(V x) (cogen-value-+ x (K -1))])
(define-primop fxadd1 safe
[(V x) (cogen-value-+ x (K 1))])
(define-primop fxsub1 safe
[(V x) (cogen-value-+ x (K -1))])
(define-primop * safe
[(V) (K (fxsll 1 fx-shift))]
[(V a b)
(struct-case a
[(constant ak)
(cond
[(fx? ak)
(with-tmp ([b (T b)])
(assert-fixnum b)
(prm 'int*/overflow b a))]
[else (interrupt)])]
[else
(struct-case b
[(constant bk)
(cond
[(fx? bk)
(with-tmp ([a (T a)])
(assert-fixnum a)
(prm 'int*/overflow a b))]
[else (interrupt)])]
[else (interrupt)])])]
[(P) (K #t)]
[(P a . a*) (seq* (assert-fixnums a a*) (K #t))]
[(E) (nop)]
[(E a . a*) (assert-fixnums a a*)])
(define-primop bitwise-and safe
[(V) (K (fxsll -1 fx-shift))]
[(V a . a*)
(cond
[(or (non-fixnum? a) (ormap non-fixnum? a*)) (interrupt)]
[else
(interrupt)
(seq*
(assert-fixnums a a*)
(let f ([a (T a)] [a* a*])
(cond
[(null? a*) a]
[else
(f (prm 'logand a (T (car a*))) (cdr a*))])))])]
[(P) (K #t)]
[(P a . a*) (seq* (assert-fixnums a a*) (K #t))]
[(E) (nop)]
[(E a . a*) (assert-fixnums a a*)])
(define-primop fx+ safe
[(V x y) (cogen-value-+ x y)])
(define-primop fx- safe
[(V x) (cogen-value-- (K 0) x)]
[(V x y) (cogen-value-- x y)])
(define-primop fx* safe
[(V a b)
(struct-case a
[(constant ak)
(cond
[(fx? ak)
(with-tmp ([b (T b)])
(assert-fixnum b)
(prm 'int*/overflow b a))]
[else (interrupt)])]
[else
(struct-case b
[(constant bk)
(cond
[(fx? bk)
(with-tmp ([a (T a)])
(assert-fixnum a)
(prm 'int*/overflow a b))]
[else (interrupt)])]
[else
(with-tmp ([a (T a)] [b (T b)])
(assert-fixnum a)
(assert-fixnum b)
(prm 'int*/overflow
(prm 'sra a (K fx-shift)) b))])])])
(define-primop zero? safe
[(P x)
(seq*
(interrupt-unless (cogen-pred-fixnum? x))
(cogen-pred-$fxzero? x))]
[(E x) (interrupt-unless (cogen-pred-fixnum? x))])
(define-primop fxarithmetic-shift-left safe
[(V x n)
(struct-case n
[(constant i)
(cond
[(and (fixnum? i)
(>= i 0)
(< i (- (* wordsize 8) fx-shift)))
(with-tmp ([x (T x)])
(assert-fixnum x)
(cond
[(< i 6)
(let f ([i i])
(cond
[(zero? i) x]
[else (prm 'sll/overflow (f (- i 1)) (K 1))]))]
[else
(with-tmp ([x2 (prm 'sll x (K i))])
(interrupt-unless (prm '= (prm 'sra x2 (K i)) x))
x2)]))]
[else
(interrupt)])]
[else
(with-tmp ([x (T x)] [n (T n)])
(assert-fixnums x (list n))
(with-tmp ([n (prm 'sra n (K fx-shift))])
(interrupt-when
(prm '< n (K 0)))
(interrupt-when
(prm '>= n (K (- (* wordsize 8) fx-shift))))
(with-tmp ([x2 (prm 'sll x n)])
(interrupt-unless (prm '= (prm 'sra x2 n) x))
x2)))])])
(define (log2 n)
(let f ([n n] [i 0])
(cond
[(zero? (fxand n 1))
(f (fxsra n 1) (+ i 1))]
[(= n 1) i]
[else #f])))
(define-primop div safe
[(V x n)
(struct-case n
[(constant i)
(cond
[(and (fixnum? i) (> i 0) (log2 i)) =>
(lambda (bits)
(seq*
(interrupt-unless (cogen-pred-fixnum? x))
(prm 'sll
(prm 'sra (T x) (K (+ bits fx-shift)))
(K fx-shift))))]
[else
(interrupt)])]
[else (interrupt)])])
(define-primop quotient safe
[(V x n)
(struct-case n
[(constant i)
(if (eqv? i 2)
(seq*
(interrupt-unless (cogen-pred-fixnum? x))
(make-conditional
(prm '< (T x) (K 0))
(prm 'logand
(prm 'int+
(prm 'sra (T x) (K 1))
(K (fxsll 1 (sub1 fx-shift))))
(K (fxsll -1 fx-shift)))
(prm 'logand
(prm 'sra (T x) (K 1))
(K (fxsll -1 fx-shift)))))
(interrupt))]
[else (interrupt)])])
/section)
(section ;;; structs
(define-primop $struct? unsafe
[(P x) (sec-tag-test (T x) vector-mask vector-tag vector-mask vector-tag)]
[(E x) (nop)])
(define-primop $struct/rtd? unsafe
[(P x rtd)
(make-conditional
(tag-test (T x) vector-mask vector-tag)
(prm '= (prm 'mref (T x) (K (- vector-tag))) (T rtd))
(make-constant #f))]
[(E x rtd) (nop)])
(define-primop $make-struct unsafe
[(V rtd len)
(struct-case len
[(constant i)
(unless (fixnum? i) (interrupt))
(with-tmp ([t (prm 'alloc
(K (align (+ (* i wordsize) disp-struct-data)))
(K vector-tag))])
(prm 'mset t (K (- disp-struct-rtd vector-tag)) (T rtd))
t)]
[else
(with-tmp ([ln (align-code len disp-struct-data)])
(with-tmp ([t (prm 'alloc ln (K vector-tag))])
(prm 'mset t (K (- disp-struct-rtd vector-tag)) (T rtd))
t))])]
[(P rtd len) (K #t)]
[(E rtd len) (nop)])
(define-primop $struct-rtd unsafe
[(V x)
(prm 'mref (T x) (K (- disp-struct-rtd vector-tag)))]
[(E x) (nop)]
[(P x) #t])
(define-primop $struct-ref unsafe
[(V x i) (cogen-value-$vector-ref x i)]
[(E x i) (cogen-effect-$vector-ref x i)]
[(P x i) (cogen-pred-$vector-ref x i)])
(define-primop $struct-set! unsafe
[(V x i v)
(seq* (cogen-effect-$vector-set! x i v)
(K void-object))]
[(E x i v) (cogen-effect-$vector-set! x i v)]
[(P x i v)
(seq* (cogen-effect-$vector-set! x i v)
(K #t))])
(define-primop $struct unsafe
[(V rtd . v*)
(with-tmp ([t (prm 'alloc
(K (align
(+ disp-struct-data
(* (length v*) wordsize))))
(K vector-tag))])
(prm 'mset t (K (- disp-struct-rtd vector-tag)) (T rtd))
(let f ([v* v*]
[i (- disp-struct-data vector-tag)])
(cond
[(null? v*) t]
[else
(make-seq
(prm 'mset t (K i) (T (car v*)))
(f (cdr v*) (+ i wordsize)))])))]
[(P rtd . v*) (K #t)]
[(E rtd . v*) (nop)])
/section)
(section ;;; characters
(define-primop char? safe
[(P x) (tag-test (T x) char-mask char-tag)]
[(E x) (nop)])
(define-primop $char= unsafe
[(P x y) (prm '= (T x) (T y))]
[(E x y) (nop)])
(define-primop $char< unsafe
[(P x y) (prm '< (T x) (T y))]
[(E x y) (nop)])
(define-primop $char<= unsafe
[(P x y) (prm '<= (T x) (T y))]
[(E x y) (nop)])
(define-primop $char> unsafe
[(P x y) (prm '> (T x) (T y))]
[(E x y) (nop)])
(define-primop $char>= unsafe
[(P x y) (prm '>= (T x) (T y))]
[(E x y) (nop)])
(define-primop $fixnum->char unsafe
[(V x)
(prm 'logor
(prm 'sll (T x) (K (- char-shift fx-shift)))
(K char-tag))]
[(P x) (K #t)]
[(E x) (nop)])
(define-primop $char->fixnum unsafe
[(V x) (prm 'sra (T x) (K (- char-shift fx-shift)))]
[(P x) (K #t)]
[(E x) (nop)])
(define (non-char? x)
(struct-case x
[(constant i) (not (char? i))]
[else #f]))
(define (assert-chars a a*)
(cond
[(constant? a)
(if (null? a*)
(nop)
(assert-chars (car a*) (cdr a*)))]
[else
(interrupt-unless
(tag-test (or* (T a) a*) char-mask char-tag))]))
(define (char-fold-p op a a*)
(cond
[(or (non-char? a) (ormap non-char? a*)) (interrupt)]
[else
(seq*
(assert-chars a a*)
(let f ([a a] [a* a*])
(cond
[(null? a*) (K #t)]
[else
(let ([b (car a*)])
(make-conditional
(prm op (T a) (T b))
(f b (cdr a*))
(K #f)))])))]))
(define (char-fold-e a a*)
(cond
[(or (non-char? a) (ormap non-char? a*)) (interrupt)]
[else (assert-chars a a*)]))
(define-primop char=? safe
[(P) (interrupt)]
[(P a . a*) (char-fold-p '= a a*)]
[(E) (interrupt)]
[(E a . a*) (char-fold-e a a*)])
(define-primop char<? safe
[(P) (interrupt)]
[(P a . a*) (char-fold-p '< a a*)]
[(E) (interrupt)]
[(E a . a*) (char-fold-e a a*)])
(define-primop char<=? safe
[(P) (interrupt)]
[(P a . a*) (char-fold-p '<= a a*)]
[(E) (interrupt)]
[(E a . a*) (char-fold-e a a*)])
(define-primop char>? safe
[(P) (interrupt)]
[(P a . a*) (char-fold-p '> a a*)]
[(E) (interrupt)]
[(E a . a*) (char-fold-e a a*)])
(define-primop char>=? safe
[(P) (interrupt)]
[(P a . a*) (char-fold-p '>= a a*)]
[(E) (interrupt)]
[(E a . a*) (char-fold-e a a*)])
/section)
(section ;;; bytevectors
(define-primop bytevector? safe
[(P x) (tag-test (T x) bytevector-mask bytevector-tag)]
[(E x) (nop)])
(define-primop $make-bytevector unsafe
[(V n)
(struct-case n
[(constant n)
(unless (fixnum? n) (interrupt))
(with-tmp ([s (prm 'alloc
(K (align (+ n 1 disp-bytevector-data)))
(K bytevector-tag))])
(prm 'mset s
(K (- disp-bytevector-length bytevector-tag))
(K (* n fx-scale)))
(prm 'bset/c s
(K (+ n (- disp-bytevector-data bytevector-tag)))
(K 0))
s)]
[else
(with-tmp ([s (prm 'alloc
(align-code
(prm 'sra (T n) (K fx-shift))
(+ disp-bytevector-data 1))
(K bytevector-tag))])
(prm 'mset s
(K (- disp-bytevector-length bytevector-tag))
(T n))
(prm 'bset/c s
(prm 'int+
(prm 'sra (T n) (K fx-shift))
(K (- disp-bytevector-data bytevector-tag)))
(K 0))
s)])]
[(P n) (K #t)]
[(E n) (nop)])
(define-primop $bytevector-length unsafe
[(V x) (prm 'mref (T x) (K (- disp-bytevector-length bytevector-tag)))]
[(P x) (K #t)]
[(E x) (nop)])
(define-primop $bytevector-u8-ref unsafe
[(V s i)
(struct-case i
[(constant i)
(unless (fixnum? i) (interrupt))
(prm 'sll
(prm 'logand
(prm 'bref (T s)
(K (+ i (- disp-bytevector-data bytevector-tag))))
(K 255))
(K fx-shift))]
[else
(prm 'sll
(prm 'logand
(prm 'bref (T s)
(prm 'int+
(prm 'sra (T i) (K fx-shift))
(K (- disp-bytevector-data bytevector-tag))))
(K 255))
(K fx-shift))])]
[(P s i) (K #t)]
[(E s i) (nop)])
(define-primop $bytevector-s8-ref unsafe
[(V s i)
(struct-case i
[(constant i)
(unless (fixnum? i) (interrupt))
(prm 'sra
(prm 'sll
(prm 'logand
(prm 'bref (T s)
(K (+ i (- disp-bytevector-data bytevector-tag))))
(K 255))
(K (- (* wordsize 8) 8)))
(K (- (* wordsize 8) (+ 8 fx-shift))))]
[else
(prm 'sra
(prm 'sll
(prm 'bref (T s)
(prm 'int+
(prm 'sra (T i) (K fx-shift))
(K (- disp-bytevector-data bytevector-tag))))
(K (- (* wordsize 8) 8)))
(K (- (* wordsize 8) (+ 8 fx-shift))))])]
[(P s i) (K #t)]
[(E s i) (nop)])
(define-primop $bytevector-set! unsafe
[(E x i c)
(struct-case i
[(constant i)
(unless (fixnum? i) (interrupt))
(struct-case c
[(constant c)
(unless (fixnum? c) (interrupt))
(prm 'bset/c (T x)
(K (+ i (- disp-bytevector-data bytevector-tag)))
(K (cond
[(<= -128 c 127) c]
[(<= 128 c 255) (- c 256)]
[else (interrupt)])))]
[else
(prm 'bset/h (T x)
(K (+ i (- disp-bytevector-data bytevector-tag)))
(prm 'sll (T c) (K (- 8 fx-shift))))])]
[else
(struct-case c
[(constant c)
(unless (fixnum? c) (interrupt))
(prm 'bset/c (T x)
(prm 'int+
(prm 'sra (T i) (K fx-shift))
(K (- disp-bytevector-data bytevector-tag)))
(K (cond
[(<= -128 c 127) c]
[(<= 128 c 255) (- c 256)]
[else (interrupt)])))]
[else
(prm 'bset/h (T x)
(prm 'int+
(prm 'sra (T i) (K fx-shift))
(K (- disp-bytevector-data bytevector-tag)))
(prm 'sll (T c) (K (- 8 fx-shift))))])])])
(define-primop $bytevector-ieee-double-native-ref unsafe
[(V bv i)
(with-tmp ([x (prm 'alloc (K (align flonum-size)) (K vector-tag))])
(prm 'mset x (K (- vector-tag)) (K flonum-tag))
(prm 'fl:load
(prm 'int+ (T bv) (prm 'sra (T i) (K fx-shift)))
(K (- disp-bytevector-data bytevector-tag)))
(prm 'fl:store x (K (- disp-flonum-data vector-tag)))
x)])
;;; the following uses unsupported sse3 instructions
;(define-primop $bytevector-ieee-double-nonnative-ref unsafe
; [(V bv i)
; (with-tmp ([x (prm 'alloc (K (align flonum-size)) (K vector-tag))])
; (prm 'mset x (K (- vector-tag)) (K flonum-tag))
; (prm 'fl:load
; (prm 'int+ (T bv) (prm 'sra (T i) (K fx-shift)))
; (K (- disp-bytevector-data bytevector-tag)))
; (prm 'fl:shuffle
; (K (make-object '#vu8(7 6 2 3 4 5 1 0)))
; (K (- disp-bytevector-data bytevector-tag)))
; (prm 'fl:store x (K (- disp-flonum-data vector-tag)))
; x)])
(define-primop $bytevector-ieee-double-nonnative-ref unsafe
[(V bv i)
(let ([bvoff (- disp-bytevector-data bytevector-tag)]
[floff (- disp-flonum-data vector-tag)])
(with-tmp ([x (prm 'alloc (K (align flonum-size)) (K vector-tag))])
(prm 'mset x (K (- vector-tag)) (K flonum-tag))
(with-tmp ([t (prm 'int+ (T bv)
(prm 'sra (T i) (K fx-shift)))])
(with-tmp ([x0 (prm 'mref t (K bvoff))])
(prm 'bswap! x0 x0)
(prm 'mset x (K (+ floff wordsize)) x0))
(with-tmp ([x0 (prm 'mref t (K (+ bvoff wordsize)))])
(prm 'bswap! x0 x0)
(prm 'mset x (K floff) x0)))
x))])
(define-primop $bytevector-ieee-double-native-set! unsafe
[(E bv i x)
(seq*
(prm 'fl:load (T x) (K (- disp-flonum-data vector-tag)))
(prm 'fl:store
(prm 'int+ (T bv) (prm 'sra (T i) (K fx-shift)))
(K (- disp-bytevector-data bytevector-tag))))])
(define-primop $bytevector-ieee-single-native-ref unsafe
[(V bv i)
(with-tmp ([x (prm 'alloc (K (align flonum-size)) (K vector-tag))])
(prm 'mset x (K (- vector-tag)) (K flonum-tag))
(prm 'fl:load-single
(prm 'int+ (T bv) (prm 'sra (T i) (K fx-shift)))
(K (- disp-bytevector-data bytevector-tag)))
(prm 'fl:single->double)
(prm 'fl:store x (K (- disp-flonum-data vector-tag)))
x)])
(define-primop $bytevector-ieee-single-native-set! unsafe
[(E bv i x)
(seq*
(prm 'fl:load (T x) (K (- disp-flonum-data vector-tag)))
(prm 'fl:double->single)
(prm 'fl:store-single
(prm 'int+ (T bv) (prm 'sra (T i) (K fx-shift)))
(K (- disp-bytevector-data bytevector-tag))))])
(define-primop $bytevector-ieee-single-nonnative-ref unsafe
[(V bv i)
(let ([bvoff (- disp-bytevector-data bytevector-tag)]
[floff (- disp-flonum-data vector-tag)])
(with-tmp ([x (prm 'alloc (K (align flonum-size)) (K vector-tag))])
(prm 'mset x (K (- vector-tag)) (K flonum-tag))
(with-tmp ([t (prm 'int+ (T bv) (prm 'sra (T i) (K fx-shift)))])
(with-tmp ([x0 (prm 'mref t (K bvoff))])
(prm 'bswap! x0 x0)
(prm 'mset x (K floff) x0)))
(prm 'fl:load-single x (K floff))
(prm 'fl:single->double)
(prm 'fl:store x (K floff))
x))])
;;; the following uses unsupported sse3 instructions
;(define-primop $bytevector-ieee-double-nonnative-set! unsafe
; [(E bv i x)
; (seq*
; (prm 'fl:load (T x) (K (- disp-flonum-data vector-tag)))
; (prm 'fl:shuffle
; (K (make-object '#vu8(7 6 2 3 4 5 1 0)))
; (K (- disp-bytevector-data bytevector-tag)))
; (prm 'fl:store
; (prm 'int+ (T bv) (prm 'sra (T i) (K fx-shift)))
; (K (- disp-bytevector-data bytevector-tag))))])
(define-primop $bytevector-ieee-double-nonnative-set! unsafe
[(E bv i x)
(let ([bvoff (- disp-bytevector-data bytevector-tag)]
[floff (- disp-flonum-data vector-tag)])
(with-tmp ([t (prm 'int+ (T bv)
(prm 'sra (T i) (K fx-shift)))])
(with-tmp ([x0 (prm 'mref (T x) (K floff))])
(prm 'bswap! x0 x0)
(prm 'mset t (K (+ bvoff wordsize)) x0))
(with-tmp ([x0 (prm 'mref (T x) (K (+ floff wordsize)))])
(prm 'bswap! x0 x0)
(prm 'mset t (K bvoff) x0))))])
(define-primop $bytevector-ieee-single-nonnative-set! unsafe
[(E bv i x)
(let ([bvoff (- disp-bytevector-data bytevector-tag)]
[floff (- disp-flonum-data vector-tag)])
(seq*
(prm 'fl:load (T x) (K floff))
(prm 'fl:double->single)
(with-tmp ([t (prm 'int+ (T bv)
(prm 'sra (T i) (K fx-shift)))])
(prm 'fl:store-single t (K bvoff))
(with-tmp ([x0 (prm 'mref t (K bvoff))])
(prm 'bswap! x0 x0)
(prm 'mset t (K bvoff) x0)))))])
/section)
(section ;;; strings
(define-primop string? safe
[(P x) (tag-test (T x) string-mask string-tag)]
[(E x) (nop)])
(define-primop $make-string unsafe
[(V n)
(struct-case n
[(constant n)
(unless (fixnum? n) (interrupt))
(with-tmp ([s (prm 'alloc
(K (align (+ (* n wordsize) disp-string-data)))
(K string-tag))])
(prm 'mset s
(K (- disp-string-length string-tag))
(K (* n fx-scale)))
s)]
[else
(with-tmp ([s (prm 'alloc
(align-code (T n) disp-string-data)
(K string-tag))])
(prm 'mset s
(K (- disp-string-length string-tag))
(T n))
s)])]
[(P n) (K #t)]
[(E n) (nop)])
(define-primop $string-length unsafe
[(V x) (prm 'mref (T x) (K (- disp-string-length string-tag)))]
[(P x) (K #t)]
[(E x) (nop)])
(define-primop $string-ref unsafe
[(V s i)
(struct-case i
[(constant i)
(unless (fixnum? i) (interrupt))
(prm 'mref32 (T s)
(K (+ (* i char-size)
(- disp-string-data string-tag))))]
[else
(prm 'mref32 (T s)
(prm 'int+
(cond
[(= wordsize char-size) (T i)]
[(= wordsize 8) (prm 'sra (T i) (K 1))]
[else (error '$string-ref "invalid operand")])
(K (- disp-string-data string-tag))))])]
[(P s i) (K #t)]
[(E s i) (nop)])
(define (assert-fixnum x)
(struct-case x
[(constant i)
(if (fixnum? i) (nop) (interrupt))]
[else (interrupt-unless (cogen-pred-fixnum? x))]))
(define (assert-string x)
(struct-case x
[(constant s) (if (string? s) (nop) (interrupt))]
[else (interrupt-unless (cogen-pred-string? x))]))
(define-primop string-ref safe
[(V s i)
(seq*
(assert-fixnum i)
(assert-string s)
(interrupt-unless (prm 'u< (T i) (cogen-value-$string-length s)))
(cogen-value-$string-ref s i))]
[(P s i)
(seq*
(assert-fixnum i)
(assert-string s)
(interrupt-unless (prm 'u< (T i) (cogen-value-$string-length s)))
(K #t))]
[(E s i)
(seq*
(assert-fixnum i)
(assert-string s)
(interrupt-unless (prm 'u< (T i) (cogen-value-$string-length s))))])
(define-primop $string-set! unsafe
[(E x i c)
(struct-case i
[(constant i)
(unless (fixnum? i) (interrupt))
(prm 'mset32 (T x)
(K (+ (* i char-size)
(- disp-string-data string-tag)))
(T c))]
[else
(prm 'mset32 (T x)
(prm 'int+
(cond
[(= wordsize char-size) (T i)]
[(= wordsize 8) (prm 'sra (T i) (K 1))]
[else (error '$string-set! "invalid operand")])
(K (- disp-string-data string-tag)))
(T c))])])
/section)
(section ;;; ports
(define-primop port? safe
[(P x) (sec-tag-test (T x) vector-mask vector-tag port-mask port-tag)]
[(E x) (nop)])
;(define-primop input-port? safe
; [(P x) (sec-tag-test (T x) vector-mask vector-tag #f input-port-tag)]
; [(E x) (nop)])
;
;(define-primop output-port? safe
; [(P x) (sec-tag-test (T x) vector-mask vector-tag #f output-port-tag)]
; [(E x) (nop)])
(define port-attrs-shift 6)
(define-primop $make-port unsafe
[(V attrs idx sz buf tr id read write getp setp cl cookie)
(with-tmp ([p (prm 'alloc (K (align port-size)) (K vector-tag))])
(prm 'mset p (K (- vector-tag))
(prm 'logor (prm 'sll (T attrs) (K port-attrs-shift)) (K port-tag)))
(prm 'mset p (K (- disp-port-index vector-tag)) (T idx))
(prm 'mset p (K (- disp-port-size vector-tag)) (T sz))
(prm 'mset p (K (- disp-port-buffer vector-tag)) (T buf))
(prm 'mset p (K (- disp-port-transcoder vector-tag)) (T tr))
(prm 'mset p (K (- disp-port-id vector-tag)) (T id))
(prm 'mset p (K (- disp-port-read! vector-tag)) (T read))
(prm 'mset p (K (- disp-port-write! vector-tag)) (T write))
(prm 'mset p (K (- disp-port-get-position vector-tag)) (T getp))
(prm 'mset p (K (- disp-port-set-position! vector-tag)) (T setp))
(prm 'mset p (K (- disp-port-close vector-tag)) (T cl))
(prm 'mset p (K (- disp-port-cookie vector-tag)) (T cookie))
(prm 'mset p (K (- disp-port-position vector-tag)) (K 0))
(prm 'mset p (K (- disp-port-unused vector-tag)) (K 0))
p)])
(define-primop $port-index unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-index vector-tag)))])
(define-primop $port-size unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-size vector-tag)))])
(define-primop $port-buffer unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-buffer vector-tag)))])
(define-primop $port-transcoder unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-transcoder vector-tag)))])
(define-primop $port-id unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-id vector-tag)))])
(define-primop $port-read! unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-read! vector-tag)))])
(define-primop $port-write! unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-write! vector-tag)))])
(define-primop $port-get-position unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-get-position vector-tag)))])
(define-primop $port-set-position! unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-set-position! vector-tag)))])
(define-primop $port-close unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-close vector-tag)))])
(define-primop $port-cookie unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-cookie vector-tag)))])
(define-primop $port-position unsafe
[(V x) (prm 'mref (T x) (K (- disp-port-position vector-tag)))])
(define-primop $port-attrs unsafe
[(V x)
(prm 'sra
(prm 'mref (T x) (K (- disp-port-attrs vector-tag)))
(K port-attrs-shift))])
(define-primop $port-tag unsafe
[(V x)
(make-conditional
(tag-test (T x) vector-mask vector-tag)
(with-tmp ([tag
(prm 'mref (T x) (K (- disp-port-attrs vector-tag)))])
(make-conditional
(tag-test tag port-mask port-tag)
(prm 'sra tag (K port-attrs-shift))
(K 0)))
(K 0))])
(define-primop $set-port-index! unsafe
[(E x i) (prm 'mset (T x) (K (- disp-port-index vector-tag)) (T i))])
(define-primop $set-port-size! unsafe
[(E x i) (prm 'mset (T x) (K (- disp-port-size vector-tag)) (T i))])
(define-primop $set-port-position! unsafe
[(E x i) (prm 'mset (T x) (K (- disp-port-position vector-tag)) (T i))])
(define-primop $set-port-attrs! unsafe
[(E x i)
(prm 'mset (T x)
(K (- disp-port-attrs vector-tag))
(prm 'logor (prm 'sll (T i) (K port-attrs-shift)) (K port-tag)))])
/section)
(section ;;; interrupts-and-engines
(define-primop $interrupted? unsafe
[(P) (prm '!= (prm 'mref pcr (K pcb-interrupted)) (K 0))])
(define-primop $unset-interrupted! unsafe
[(E) (prm 'mset pcr (K pcb-interrupted) (K 0))])
(define-primop $do-event safe
[(E)
(begin
(interrupt)
(prm 'incr/zero? pcr (K pcb-engine-counter)))])
(define-primop $stack-overflow-check unsafe
[(E)
(make-shortcut
(make-conditional
(make-primcall '<
(list esp (make-primcall 'mref
(list pcr (make-constant pcb-frame-redline)))))
(make-primcall 'interrupt '())
(make-primcall 'nop '()))
(make-forcall "ik_stack_overflow" '()))])
/section)
(section ;;; control operations
(define-primop $fp-at-base unsafe
[(P)
(prm '= (prm 'int+
(prm 'mref pcr (K pcb-frame-base))
(K (- wordsize))) fpr)])
(define-primop $current-frame unsafe
[(V) (prm 'mref pcr (K pcb-next-continuation))])
(define-primop $seal-frame-and-call unsafe
[(V x) ;;; PCB NEXT CONT;;; PCB BASE
(with-tmp ([k (prm 'alloc (K continuation-size) (K vector-tag))])
(with-tmp ([base (prm 'int+
(prm 'mref pcr (K pcb-frame-base))
(K (- wordsize)))])
(with-tmp ([underflow-handler (prm 'mref base (K 0))])
(prm 'mset k (K (- vector-tag)) (K continuation-tag))
(prm 'mset k (K (- disp-continuation-top vector-tag)) fpr)
(prm 'mset k (K (- disp-continuation-next vector-tag))
(prm 'mref pcr (K pcb-next-continuation)))
(prm 'mset k (K (- disp-continuation-size vector-tag)) (prm 'int- base fpr))
(prm 'mset pcr (K pcb-next-continuation) k)
(prm 'mset pcr (K pcb-frame-base) fpr)
(prm '$call-with-underflow-handler underflow-handler (T x) k))))]
[(E . args) (interrupt)]
[(P . args) (interrupt)])
(define-primop $frame->continuation unsafe
[(V x)
(with-tmp ([t (prm 'alloc
(K (align (+ disp-closure-data wordsize)))
(K closure-tag))])
(prm 'mset t (K (- disp-closure-code closure-tag))
(K (make-code-loc (sl-continuation-code-label))))
(prm 'mset t (K (- disp-closure-data closure-tag))
(T x))
t)]
[(P x) (K #t)]
[(E x) (nop)])
(define-primop $make-call-with-values-procedure unsafe
[(V) (K (make-closure
(make-code-loc (sl-cwv-label))
'() #f))]
[(P) (interrupt)]
[(E) (interrupt)])
(define-primop $make-values-procedure unsafe
[(V) (K (make-closure
(make-code-loc (sl-values-label))
'() #f))]
[(P) (interrupt)]
[(E) (interrupt)])
/section)
(section ;;; hash table tcbuckets
(define-primop $make-tcbucket unsafe
[(V tconc key val next)
(with-tmp ([x (prm 'alloc (K (align tcbucket-size)) (K vector-tag))])
(prm 'mset x (K (- disp-tcbucket-tconc vector-tag)) (T tconc))
(prm 'mset x (K (- disp-tcbucket-key vector-tag)) (T key))
(prm 'mset x (K (- disp-tcbucket-val vector-tag)) (T val))
(prm 'mset x (K (- disp-tcbucket-next vector-tag)) (T next))
x)])
(define-primop $tcbucket-key unsafe
[(V x) (prm 'mref (T x) (K (- disp-tcbucket-key vector-tag)))])
(define-primop $tcbucket-val unsafe
[(V x) (prm 'mref (T x) (K (- disp-tcbucket-val vector-tag)))])
(define-primop $tcbucket-next unsafe
[(V x) (prm 'mref (T x) (K (- disp-tcbucket-next vector-tag)))])
(define-primop $set-tcbucket-key! unsafe
[(E x v) (mem-assign v (T x) (- disp-tcbucket-key vector-tag))])
(define-primop $set-tcbucket-val! unsafe
[(E x v) (mem-assign v (T x) (- disp-tcbucket-val vector-tag))])
(define-primop $set-tcbucket-next! unsafe
[(E x v) (mem-assign v (T x) (- disp-tcbucket-next vector-tag))])
(define-primop $set-tcbucket-tconc! unsafe
[(E x v) (mem-assign v (T x) (- disp-tcbucket-tconc vector-tag))])
/section)
(section ;;; codes
(define-primop code? unsafe
[(P x) (sec-tag-test (T x) vector-mask vector-tag #f code-tag)])
(define-primop $closure-code unsafe
[(V x)
(prm 'int+
(prm 'mref (T x) (K (- disp-closure-code closure-tag)))
(K (- vector-tag disp-code-data)))])
(define-primop $code-freevars unsafe
[(V x) (prm 'mref (T x) (K (- disp-code-freevars vector-tag)))])
(define-primop $code-reloc-vector unsafe
[(V x) (prm 'mref (T x) (K (- disp-code-relocsize vector-tag)))])
(define-primop $code-size unsafe
[(V x) (prm 'mref (T x) (K (- disp-code-instrsize vector-tag)))])
(define-primop $code-annotation unsafe
[(V x) (prm 'mref (T x) (K (- disp-code-annotation vector-tag)))])
(define-primop $code->closure unsafe
[(V x)
(with-tmp ([v (prm 'alloc
(K (align (+ 0 disp-closure-data)))
(K closure-tag))])
(prm 'mset v
(K (- disp-closure-code closure-tag))
(prm 'int+ (T x)
(K (- disp-code-data vector-tag))))
v)])
(define-primop $code-ref unsafe
[(V x i)
(prm 'sll
(prm 'logand
(prm 'mref (T x)
(prm 'int+
(prm 'sra (T i) (K fx-shift))
(K (- disp-code-data vector-tag))))
(K 255))
(K fx-shift))])
(define-primop $code-set! unsafe
[(E x i v)
(prm 'bset/h (T x)
(prm 'int+
(prm 'sra (T i) (K fx-shift))
(K (- disp-code-data vector-tag)))
(prm 'sll (T v) (K (- 8 fx-shift))))])
(define-primop $set-code-annotation! unsafe
[(E x v) (mem-assign v (T x) (- disp-code-annotation vector-tag))])
/section)
(section ; transcoders
(define-primop transcoder? unsafe
[(P x) (tag-test (T x) transcoder-mask transcoder-tag)])
(define-primop $data->transcoder unsafe
[(V x) (prm 'logor
(prm 'sll (T x) (K (- transcoder-payload-shift
fx-shift)))
(K transcoder-tag))])
(define-primop $transcoder->data unsafe
[(V x) (prm 'sra (T x) (K (- transcoder-payload-shift fx-shift)))])
/section)