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guile/module/language/cps/reify-primitives.scm
Andy Wingo 8ce6f359bb ursh, ursh/immediate, etc only residualized if count < 64 
* module/language/cps/reify-primitives.scm (reify-primitives): Remove
  cases for ursh/immediate etc, as these should all be within range, by
  construction.
* module/language/cps/specialize-numbers.scm (specialize-operations):
  Only reify ursh/immediate, etc if the shift count is less than 64.
* module/language/cps/specialize-primcalls.scm (specialize-primcalls):
  Remove specialization cases for ursh/immediate etc; this is the domain
  of specialize-numbers.
* module/language/cps/types.scm (ursh, srsh, ulsh): Limit arguments to
  be less than 63.
  (ulsh/immediate): Assume parameter is in range.
2017-11-15 19:57:36 +01:00

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;;; Continuation-passing style (CPS) intermediate language (IL)
;; Copyright (C) 2013, 2014, 2015, 2017 Free Software Foundation, Inc.
;;;; This library is free software; you can redistribute it and/or
;;;; modify it under the terms of the GNU Lesser General Public
;;;; License as published by the Free Software Foundation; either
;;;; version 3 of the License, or (at your option) any later version.
;;;;
;;;; This library 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
;;;; Lesser General Public License for more details.
;;;;
;;;; You should have received a copy of the GNU Lesser General Public
;;;; License along with this library; if not, write to the Free Software
;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
;;; Commentary:
;;;
;;; A pass to reify lone $prim's that were never folded into a
;;; $primcall, and $primcall's to primitives that don't have a
;;; corresponding VM op.
;;;
;;; Code:
(define-module (language cps reify-primitives)
#:use-module (ice-9 match)
#:use-module (language cps)
#:use-module (language cps utils)
#:use-module (language cps with-cps)
#:use-module (language cps primitives)
#:use-module (language cps intmap)
#:use-module (language bytecode)
#:export (reify-primitives))
(define (module-box cps src module name public? bound? val-proc)
(with-cps cps
(letv box)
(let$ body (val-proc box))
(letk kbox ($kargs ('box) (box) ,body))
(build-term ($continue kbox src
($primcall 'cached-module-box
(list module name public? bound?) ())))))
(define (primitive-module name)
(case name
((bytevector?
bytevector-length
bytevector-u8-ref bytevector-u8-set!
bytevector-s8-ref bytevector-s8-set!
bytevector-u16-ref bytevector-u16-set!
bytevector-u16-native-ref bytevector-u16-native-set!
bytevector-s16-ref bytevector-s16-set!
bytevector-s16-native-ref bytevector-s16-native-set!
bytevector-u32-ref bytevector-u32-set!
bytevector-u32-native-ref bytevector-u32-native-set!
bytevector-s32-ref bytevector-s32-set!
bytevector-s32-native-ref bytevector-s32-native-set!
bytevector-u64-ref bytevector-u64-set!
bytevector-u64-native-ref bytevector-u64-native-set!
bytevector-s64-ref bytevector-s64-set!
bytevector-s64-native-ref bytevector-s64-native-set!
bytevector-ieee-single-ref bytevector-ieee-single-set!
bytevector-ieee-single-native-ref bytevector-ieee-single-native-set!
bytevector-ieee-double-ref bytevector-ieee-double-set!
bytevector-ieee-double-native-ref bytevector-ieee-double-native-set!)
'(rnrs bytevectors))
((atomic-box?
make-atomic-box atomic-box-ref atomic-box-set!
atomic-box-swap! atomic-box-compare-and-swap!)
'(ice-9 atomic))
((current-thread) '(ice-9 threads))
((class-of) '(oop goops))
((u8vector-ref
u8vector-set! s8vector-ref s8vector-set!
u16vector-ref u16vector-set! s16vector-ref s16vector-set!
u32vector-ref u32vector-set! s32vector-ref s32vector-set!
u64vector-ref u64vector-set! s64vector-ref s64vector-set!
f32vector-ref f32vector-set! f64vector-ref f64vector-set!)
'(srfi srfi-4))
(else '(guile))))
(define (primitive-ref cps name k src)
(module-box cps src (primitive-module name) name #f #t
(lambda (cps box)
(with-cps cps
(build-term
($continue k src ($primcall 'box-ref #f (box))))))))
(define (builtin-ref cps idx k src)
(with-cps cps
(build-term
($continue k src ($primcall 'builtin-ref idx ())))))
(define (reify-clause cps ktail)
(with-cps cps
(letk knil ($kargs () () ($continue ktail #f ($values ()))))
(let$ body
(with-cps-constants ((wna 'wrong-number-of-args)
(args '(#f "Wrong number of arguments" () #f)))
(build-term
($continue knil #f
($primcall 'throw #f (wna args))))))
(letk kbody ($kargs () () ,body))
(letk kclause ($kclause ('() '() #f '() #f) kbody #f))
kclause))
;; A $kreceive continuation should have only one predecessor.
(define (uniquify-receive cps k)
(match (intmap-ref cps k)
(($ $kreceive ($ $arity req () rest () #f) kargs)
(with-cps cps
(letk k ($kreceive req rest kargs))
k))
(_
(with-cps cps k))))
(define (reify-primitives cps)
(define (visit-cont label cont cps)
(define (resolve-prim cps name k src)
(cond
((builtin-name->index name)
=> (lambda (idx) (builtin-ref cps idx k src)))
(else
(primitive-ref cps name k src))))
(match cont
(($ $kfun src meta self tail #f)
(with-cps cps
(let$ clause (reify-clause tail))
(setk label ($kfun src meta self tail clause))))
(($ $kargs names vars ($ $continue k src ($ $prim name)))
(with-cps cps
(let$ k (uniquify-receive k))
(let$ body (resolve-prim name k src))
(setk label ($kargs names vars ,body))))
(($ $kargs names vars
($ $continue k src ($ $primcall 'call-thunk/no-inline #f (proc))))
(with-cps cps
(setk label ($kargs names vars ($continue k src ($call proc ()))))))
(($ $kargs names vars
($ $continue k src ($ $primcall 'mul/immediate b (a))))
(with-cps cps
(letv b*)
(letk kb ($kargs ('b) (b*)
($continue k src ($primcall 'mul #f (a b*)))))
(setk label ($kargs names vars
($continue kb src ($const b))))))
(($ $kargs names vars ($ $continue k src ($ $primcall name param args)))
(cond
((prim-instruction name)
;; Assume arities are correct.
(let ()
(define (u6? val) (and (exact-integer? val) (<= 0 val 63)))
(define (u8? val) (and (exact-integer? val) (<= 0 val 255)))
(define-syntax-rule (reify-constants
wrap
((op (pred? c) in ...) (op* out ...))
...
(_ default))
(match name
('op
(if (pred? param)
cps
(match args
((in ...)
(with-cps cps
(letv c)
(letk kconst ($kargs ('c) (c)
($continue k src
($primcall 'op* #f (out ...)))))
(setk label
($kargs names vars
($continue kconst src wrap))))))))
...
(_ default)))
(define-syntax-rule (reify-scm-constants clause ...)
(reify-constants ($const param) clause ...))
(define-syntax-rule (reify-u64-constants clause ...)
(reify-constants ($primcall 'load-u64 param ()) clause ...))
(reify-scm-constants
((add/immediate (u8? y) x) (add x y))
((sub/immediate (u8? y) x) (sub x y))
(_
(reify-u64-constants
((make-vector/immediate (u8? size) init) (make-vector size init))
((vector-ref/immediate (u8? idx) v) (vector-ref v idx))
((vector-set!/immediate (u8? idx) v val) (vector-set! v idx val))
((allocate-struct/immediate (u8? size) vt) (allocate-struct vt size))
((struct-ref/immediate (u8? idx) s) (struct-ref s idx))
((struct-set!/immediate (u8? idx) s val) (struct-set! s idx val))
((uadd/immediate (u8? y) x) (uadd x y))
((usub/immediate (u8? y) x) (usub x y))
((umul/immediate (u8? y) x) (umul x y))
((rsh/immediate (u6? y) x) (rsh x y))
((lsh/immediate (u6? y) x) (lsh x y))
;; These should all be u6's by construction.
;; ((ursh/immediate (u6? y) x) (ursh x y))
;; ((srsh/immediate (u6? y) x) (srsh x y))
;; ((ulsh/immediate (u6? y) x) (ulsh x y))
(_ cps))))))
(param (error "unexpected param to reified primcall" name))
(else
(with-cps cps
(letv proc)
(let$ k (uniquify-receive k))
(letk kproc ($kargs ('proc) (proc)
($continue k src ($call proc args))))
(let$ body (resolve-prim name kproc src))
(setk label ($kargs names vars ,body))))))
(($ $kargs names vars
($ $continue kf src ($ $branch kt ($ $primcall name param args))))
(let ()
(define (u11? val) (<= 0 val #x7ff))
(define (u12? val) (<= 0 val #xfff))
(define (s12? val) (<= (- #x800) val #x7ff))
(define-syntax-rule (reify-constants ((op (pred? c) in ...)
wrap-op (op* out ...))
...
(_ default))
(match name
('op
(if (pred? param)
cps
(match args
((in ...)
(with-cps cps
(letv c)
(letk kconst
($kargs ('c) (c)
($continue kf src
($branch kt ($primcall 'op* #f (out ...))))))
(setk label
($kargs names vars
($continue kconst src
($primcall 'wrap-op param ())))))))))
...
(_ default)))
(reify-constants
((u64-imm-= (u11? b) a) load-u64 (u64-= a b))
((u64-imm-< (u12? b) a) load-u64 (u64-< a b))
((imm-u64-< (u12? a) b) load-u64 (u64-< a b))
((s64-imm-= (s12? b) a) load-s64 (s64-= a b))
((s64-imm-< (s12? b) a) load-s64 (s64-< a b))
((imm-s64-< (s12? a) b) load-s64 (s64-< a b))
(_ cps))))
(($ $kargs names vars ($ $continue k src ($ $call proc args)))
(with-cps cps
(let$ k (uniquify-receive k))
(setk label ($kargs names vars
($continue k src ($call proc args))))))
(($ $kargs names vars ($ $continue k src ($ $callk k* proc args)))
(with-cps cps
(let$ k (uniquify-receive k))
(setk label ($kargs names vars
($continue k src ($callk k* proc args))))))
(_ cps)))
(with-fresh-name-state cps
(persistent-intmap (intmap-fold visit-cont cps cps))))
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