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add crappy experimental code for compiler.cfg.graphviz & compiler.cfg.gvn

db4
Alex Vondrak 2011-05-22 17:15:56 -07:00 committed by John Benediktsson
parent 7873719c6e
commit 64b541759e
28 changed files with 4502 additions and 0 deletions
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89
basis/compiler/cfg/graphviz/graphviz.factor Normal file
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! Copyright (C) 2011 Alex Vondrak.
! See http://factorcode.org/license.txt for BSD license
USING: accessors fry io io.streams.string kernel math.parser
namespaces prettyprint sequences splitting strings
tools.annotations
compiler.cfg
compiler.cfg.builder
compiler.cfg.debugger
compiler.cfg.linearization
compiler.cfg.finalization
compiler.cfg.optimizer
compiler.cfg.rpo
compiler.cfg.value-numbering
compiler.cfg.value-numbering.graph
graphviz
graphviz.notation
graphviz.render
;
FROM: compiler.cfg.linearization => number-blocks ;
IN: compiler.cfg.graphviz
: left-justify ( str -- str' )
string-lines "\\l" join ;
: bb-label ( bb -- str )
[
instructions>> [ insn. ] each
] with-string-writer left-justify ;
: add-cfg-vertex ( graph bb -- graph' )
[ number>> <node> ]
[ bb-label =label ]
[ kill-block?>> [ "grey" =color "filled" =style ] when ]
tri add ;
: add-cfg-edges ( graph bb -- graph' )
dup successors>> [
[ number>> ] bi@ ->
] with each ;
SYMBOL: linearize?
linearize? off
: ?linearize ( graph cfg -- graph' )
linearize? get [
<anon>
edge[ "invis" =style ];
swap linearization-order [ number>> ] map ~->
add
] [ drop ] if ;
SYMBOL: step
: (cfgviz) ( cfg label filename -- )
[
<digraph>
graph[ "t" =labelloc ];
node[ "box" =shape "Courier" =fontname 10 =fontsize ];
swap drop ! =label
swap
[ ?linearize ]
[ [ add-cfg-vertex ] each-basic-block ]
[ [ add-cfg-edges ] each-basic-block ]
tri
] dip png ;
: cfgviz ( cfg pass -- )
"After " prepend
step inc step get number>string
(cfgviz) ;
: (watch-cfgs) ( cfg -- )
0 step [
[
dup "build-cfg" cfgviz
dup \ optimize-cfg def>> [
[ def>> call( cfg -- cfg' ) ] keep
name>> cfgviz
] with each
finalize-cfg "finalize-cfg" cfgviz
] with-cfg
] with-variable ;
: watch-cfgs ( quot -- )
test-builder [ (watch-cfgs) ] each ;

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basis/compiler/cfg/gvn/alien/alien.factor Normal file
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! Copyright (C) 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors combinators combinators.short-circuit fry
kernel make math sequences
cpu.architecture
compiler.cfg.hats
compiler.cfg.utilities
compiler.cfg.registers
compiler.cfg.instructions
compiler.cfg.gvn.math
compiler.cfg.gvn.graph
compiler.cfg.gvn.rewrite ;
IN: compiler.cfg.gvn.alien
M: ##box-displaced-alien rewrite
dup displacement>> vreg>insn zero-insn?
[ [ dst>> ] [ base>> ] bi <copy> ] [ drop f ] if ;
! ##box-displaced-alien f 1 2 3 <class>
! ##unbox-c-ptr 4 1 <class>
! =>
! ##box-displaced-alien f 1 2 3 <class>
! ##unbox-c-ptr 5 3 <class>
! ##add 4 5 2
: rewrite-unbox-alien ( insn box-insn -- insn )
[ dst>> ] [ src>> ] bi* <copy> ;
: rewrite-unbox-displaced-alien ( insn box-insn -- insns )
[
[ dst>> ]
[ [ base>> ] [ base-class>> ] [ displacement>> ] tri ] bi*
[ ^^unbox-c-ptr ] dip
##add
] { } make ;
: rewrite-unbox-any-c-ptr ( insn -- insn/f )
dup src>> vreg>insn
{
{ [ dup ##box-alien? ] [ rewrite-unbox-alien ] }
{ [ dup ##box-displaced-alien? ] [ rewrite-unbox-displaced-alien ] }
[ 2drop f ]
} cond ;
M: ##unbox-any-c-ptr rewrite rewrite-unbox-any-c-ptr ;
M: ##unbox-alien rewrite rewrite-unbox-any-c-ptr ;
! Fuse ##add-imm into ##load-memory(-imm) and ##store-memory(-imm)
! just update the offset in the instruction
: fuse-base-offset? ( insn -- ? )
base>> vreg>insn ##add-imm? ;
: fuse-base-offset ( insn -- insn' )
dup base>> vreg>insn
[ src1>> ] [ src2>> ] bi
[ >>base ] [ '[ _ + ] change-offset ] bi* ;
! Fuse ##add-imm into ##load-memory and ##store-memory
! just update the offset in the instruction
: fuse-displacement-offset? ( insn -- ? )
{ [ scale>> 0 = ] [ displacement>> vreg>insn ##add-imm? ] } 1&& ;
: fuse-displacement-offset ( insn -- insn' )
dup displacement>> vreg>insn
[ src1>> ] [ src2>> ] bi
[ >>displacement ] [ '[ _ + ] change-offset ] bi* ;
! Fuse ##add into ##load-memory-imm and ##store-memory-imm
! construct a new ##load-memory or ##store-memory with the
! ##add's operand as the displacement
: fuse-displacement? ( insn -- ? )
{
[ offset>> 0 = complex-addressing? or ]
[ base>> vreg>insn ##add? ]
} 1&& ;
GENERIC: alien-insn-value ( insn -- value )
M: ##load-memory-imm alien-insn-value dst>> ;
M: ##store-memory-imm alien-insn-value src>> ;
GENERIC: new-alien-insn ( value base displacement scale offset rep c-type insn -- insn )
M: ##load-memory-imm new-alien-insn drop \ ##load-memory new-insn ;
M: ##store-memory-imm new-alien-insn drop \ ##store-memory new-insn ;
: fuse-displacement ( insn -- insn' )
{
[ alien-insn-value ]
[ base>> vreg>insn [ src1>> ] [ src2>> ] bi ]
[ drop 0 ]
[ offset>> ]
[ rep>> ]
[ c-type>> ]
[ ]
} cleave new-alien-insn ;
! Fuse ##shl-imm into ##load-memory or ##store-memory
: scale-insn? ( insn -- ? )
{ [ ##shl-imm? ] [ src2>> { 1 2 3 } member? ] } 1&& ;
: fuse-scale? ( insn -- ? )
{ [ scale>> 0 = ] [ displacement>> vreg>insn scale-insn? ] } 1&& ;
: fuse-scale ( insn -- insn' )
dup displacement>> vreg>insn
[ src1>> ] [ src2>> ] bi
[ >>displacement ] [ >>scale ] bi* ;
: rewrite-memory-op ( insn -- insn/f )
complex-addressing? [
{
{ [ dup fuse-base-offset? ] [ fuse-base-offset ] }
{ [ dup fuse-displacement-offset? ] [ fuse-displacement-offset ] }
{ [ dup fuse-scale? ] [ fuse-scale ] }
[ drop f ]
} cond
] [ drop f ] if ;
: rewrite-memory-imm-op ( insn -- insn/f )
{
{ [ dup fuse-base-offset? ] [ fuse-base-offset ] }
{ [ dup fuse-displacement? ] [ fuse-displacement ] }
[ drop f ]
} cond ;
M: ##load-memory rewrite rewrite-memory-op ;
M: ##load-memory-imm rewrite rewrite-memory-imm-op ;
M: ##store-memory rewrite rewrite-memory-op ;
M: ##store-memory-imm rewrite rewrite-memory-imm-op ;

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basis/compiler/cfg/gvn/alien/authors.txt Normal file
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Slava Pestov

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basis/compiler/cfg/gvn/comparisons/authors.txt Normal file
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Slava Pestov

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basis/compiler/cfg/gvn/comparisons/comparisons.factor Normal file
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! Copyright (C) 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors combinators kernel math math.order namespaces
sequences vectors combinators.short-circuit
cpu.architecture
compiler.cfg
compiler.cfg.comparisons
compiler.cfg.instructions
compiler.cfg.registers
compiler.cfg.gvn.math
compiler.cfg.gvn.graph
compiler.cfg.gvn.rewrite ;
IN: compiler.cfg.gvn.comparisons
! Optimizations performed here:
!
! 1) Eliminating intermediate boolean values when the result of
! a comparison is used by a compare-branch
! 2) Folding comparisons where both inputs are literal
! 3) Folding comparisons where both inputs are congruent
! 4) Converting compare instructions into compare-imm instructions
: fold-compare-imm? ( insn -- ? )
src1>> vreg>insn literal-insn? ;
: evaluate-compare-imm ( insn -- ? )
[ src1>> vreg>literal ] [ src2>> ] [ cc>> ] tri
{
{ cc= [ eq? ] }
{ cc/= [ eq? not ] }
} case ;
: fold-compare-integer-imm? ( insn -- ? )
src1>> vreg>insn ##load-integer? ;
: evaluate-compare-integer-imm ( insn -- ? )
[ src1>> vreg>integer ] [ src2>> ] [ cc>> ] tri
[ <=> ] dip evaluate-cc ;
: fold-test-imm? ( insn -- ? )
src1>> vreg>insn ##load-integer? ;
: evaluate-test-imm ( insn -- ? )
[ src1>> vreg>integer ] [ src2>> ] [ cc>> ] tri
[ bitand ] dip {
{ cc= [ 0 = ] }
{ cc/= [ 0 = not ] }
} case ;
: rewrite-into-test? ( insn -- ? )
{
[ drop test-instruction? ]
[ cc>> { cc= cc/= } member-eq? ]
[ src2>> 0 = ]
} 1&& ;
: >compare< ( insn -- in1 in2 cc )
[ src1>> ] [ src2>> ] [ cc>> ] tri ; inline
: >test-vector< ( insn -- src1 temp rep vcc )
{
[ src1>> ]
[ drop next-vreg ]
[ rep>> ]
[ vcc>> ]
} cleave ; inline
UNION: scalar-compare-insn
##compare
##compare-imm
##compare-integer
##compare-integer-imm
##test
##test-imm
##compare-float-unordered
##compare-float-ordered ;
UNION: general-compare-insn scalar-compare-insn ##test-vector ;
: rewrite-boolean-comparison? ( insn -- ? )
{
[ src1>> vreg>insn general-compare-insn? ]
[ src2>> not ]
[ cc>> cc/= eq? ]
} 1&& ; inline
: rewrite-boolean-comparison ( insn -- insn )
src1>> vreg>insn {
{ [ dup ##compare? ] [ >compare< \ ##compare-branch new-insn ] }
{ [ dup ##compare-imm? ] [ >compare< \ ##compare-imm-branch new-insn ] }
{ [ dup ##compare-integer? ] [ >compare< \ ##compare-integer-branch new-insn ] }
{ [ dup ##compare-integer-imm? ] [ >compare< \ ##compare-integer-imm-branch new-insn ] }
{ [ dup ##test? ] [ >compare< \ ##test-branch new-insn ] }
{ [ dup ##test-imm? ] [ >compare< \ ##test-imm-branch new-insn ] }
{ [ dup ##compare-float-unordered? ] [ >compare< \ ##compare-float-unordered-branch new-insn ] }
{ [ dup ##compare-float-ordered? ] [ >compare< \ ##compare-float-ordered-branch new-insn ] }
{ [ dup ##test-vector? ] [ >test-vector< \ ##test-vector-branch new-insn ] }
} cond ;
: fold-branch ( ? -- insn )
0 1 ?
basic-block get [ nth 1vector ] change-successors drop
\ ##branch new-insn ;
: fold-compare-imm-branch ( insn -- insn/f )
evaluate-compare-imm fold-branch ;
: >test-branch ( insn -- insn )
[ src1>> ] [ src1>> ] [ cc>> ] tri \ ##test-branch new-insn ;
M: ##compare-imm-branch rewrite
{
{ [ dup rewrite-boolean-comparison? ] [ rewrite-boolean-comparison ] }
{ [ dup fold-compare-imm? ] [ fold-compare-imm-branch ] }
[ drop f ]
} cond ;
: fold-compare-integer-imm-branch ( insn -- insn/f )
evaluate-compare-integer-imm fold-branch ;
M: ##compare-integer-imm-branch rewrite
{
{ [ dup fold-compare-integer-imm? ] [ fold-compare-integer-imm-branch ] }
{ [ dup rewrite-into-test? ] [ >test-branch ] }
[ drop f ]
} cond ;
: fold-test-imm-branch ( insn -- insn/f )
evaluate-test-imm fold-branch ;
M: ##test-imm-branch rewrite
{
{ [ dup fold-test-imm? ] [ fold-test-imm-branch ] }
[ drop f ]
} cond ;
: swap-compare ( src1 src2 cc swap? -- src1 src2 cc )
[ [ swap ] dip swap-cc ] when ; inline
: (>compare-imm-branch) ( insn swap? -- src1 src2 cc )
[ [ src1>> ] [ src2>> ] [ cc>> ] tri ] dip swap-compare ; inline
: >compare-imm-branch ( insn swap? -- insn' )
(>compare-imm-branch)
[ vreg>literal ] dip
\ ##compare-imm-branch new-insn ; inline
: >compare-integer-imm-branch ( insn swap? -- insn' )
(>compare-imm-branch)
[ vreg>integer ] dip
\ ##compare-integer-imm-branch new-insn ; inline
: evaluate-self-compare ( insn -- ? )
cc>> { cc= cc<= cc>= } member-eq? ;
: rewrite-self-compare-branch ( insn -- insn' )
evaluate-self-compare fold-branch ;
M: ##compare-branch rewrite
{
{ [ dup src1>> vreg-immediate-comparand? ] [ t >compare-imm-branch ] }
{ [ dup src2>> vreg-immediate-comparand? ] [ f >compare-imm-branch ] }
{ [ dup diagonal? ] [ rewrite-self-compare-branch ] }
[ drop f ]
} cond ;
M: ##compare-integer-branch rewrite
{
{ [ dup src1>> vreg-immediate-arithmetic? ] [ t >compare-integer-imm-branch ] }
{ [ dup src2>> vreg-immediate-arithmetic? ] [ f >compare-integer-imm-branch ] }
{ [ dup diagonal? ] [ rewrite-self-compare-branch ] }
[ drop f ]
} cond ;
: (>compare-imm) ( insn swap? -- dst src1 src2 cc )
[ { [ dst>> ] [ src1>> ] [ src2>> ] [ cc>> ] } cleave ] dip
swap-compare ; inline
: >compare-imm ( insn swap? -- insn' )
(>compare-imm)
[ vreg>literal ] dip
next-vreg \ ##compare-imm new-insn ; inline
: >compare-integer-imm ( insn swap? -- insn' )
(>compare-imm)
[ vreg>integer ] dip
next-vreg \ ##compare-integer-imm new-insn ; inline
: >boolean-insn ( insn ? -- insn' )
[ dst>> ] dip \ ##load-reference new-insn ;
: rewrite-self-compare ( insn -- insn' )
dup evaluate-self-compare >boolean-insn ;
M: ##compare rewrite
{
{ [ dup src1>> vreg-immediate-comparand? ] [ t >compare-imm ] }
{ [ dup src2>> vreg-immediate-comparand? ] [ f >compare-imm ] }
{ [ dup diagonal? ] [ rewrite-self-compare ] }
[ drop f ]
} cond ;
M: ##compare-integer rewrite
{
{ [ dup src1>> vreg-immediate-arithmetic? ] [ t >compare-integer-imm ] }
{ [ dup src2>> vreg-immediate-arithmetic? ] [ f >compare-integer-imm ] }
{ [ dup diagonal? ] [ rewrite-self-compare ] }
[ drop f ]
} cond ;
: rewrite-redundant-comparison? ( insn -- ? )
{
[ src1>> vreg>insn scalar-compare-insn? ]
[ src2>> not ]
[ cc>> { cc= cc/= } member? ]
} 1&& ; inline
: rewrite-redundant-comparison ( insn -- insn' )
[ cc>> ] [ dst>> ] [ src1>> vreg>insn ] tri {
{ [ dup ##compare? ] [ >compare< next-vreg \ ##compare new-insn ] }
{ [ dup ##compare-imm? ] [ >compare< next-vreg \ ##compare-imm new-insn ] }
{ [ dup ##compare-integer? ] [ >compare< next-vreg \ ##compare-integer new-insn ] }
{ [ dup ##compare-integer-imm? ] [ >compare< next-vreg \ ##compare-integer-imm new-insn ] }
{ [ dup ##test? ] [ >compare< next-vreg \ ##test new-insn ] }
{ [ dup ##test-imm? ] [ >compare< next-vreg \ ##test-imm new-insn ] }
{ [ dup ##compare-float-unordered? ] [ >compare< next-vreg \ ##compare-float-unordered new-insn ] }
{ [ dup ##compare-float-ordered? ] [ >compare< next-vreg \ ##compare-float-ordered new-insn ] }
} cond
swap cc= eq? [ [ negate-cc ] change-cc ] when ;
: fold-compare-imm ( insn -- insn' )
dup evaluate-compare-imm >boolean-insn ;
M: ##compare-imm rewrite
{
{ [ dup rewrite-redundant-comparison? ] [ rewrite-redundant-comparison ] }
{ [ dup fold-compare-imm? ] [ fold-compare-imm ] }
[ drop f ]
} cond ;
: fold-compare-integer-imm ( insn -- insn' )
dup evaluate-compare-integer-imm >boolean-insn ;
: >test ( insn -- insn' )
{ [ dst>> ] [ src1>> ] [ src1>> ] [ cc>> ] [ temp>> ] } cleave
\ ##test new-insn ;
M: ##compare-integer-imm rewrite
{
{ [ dup fold-compare-integer-imm? ] [ fold-compare-integer-imm ] }
{ [ dup rewrite-into-test? ] [ >test ] }
[ drop f ]
} cond ;
: (simplify-test) ( insn -- src1 src2 cc )
[ src1>> vreg>insn [ src1>> ] [ src2>> ] bi ] [ cc>> ] bi ; inline
: simplify-test ( insn -- insn )
dup (simplify-test) drop [ >>src1 ] [ >>src2 ] bi* ; inline
: simplify-test-branch ( insn -- insn )
dup (simplify-test) drop [ >>src1 ] [ >>src2 ] bi* ; inline
: (simplify-test-imm) ( insn -- src1 src2 cc )
[ src1>> vreg>insn [ src1>> ] [ src2>> ] bi ] [ cc>> ] bi ; inline
: simplify-test-imm ( insn -- insn )
[ dst>> ] [ (simplify-test-imm) ] [ temp>> ] tri \ ##test-imm new-insn ; inline
: simplify-test-imm-branch ( insn -- insn )
(simplify-test-imm) \ ##test-imm-branch new-insn ; inline
: >test-imm ( insn ? -- insn' )
(>compare-imm) [ vreg>integer ] dip next-vreg
\ ##test-imm new-insn ; inline
: >test-imm-branch ( insn ? -- insn' )
(>compare-imm-branch) [ vreg>integer ] dip
\ ##test-imm-branch new-insn ; inline
M: ##test rewrite
{
{ [ dup src1>> vreg-immediate-comparand? ] [ t >test-imm ] }
{ [ dup src2>> vreg-immediate-comparand? ] [ f >test-imm ] }
{ [ dup diagonal? ] [
{
{ [ dup src1>> vreg>insn ##and? ] [ simplify-test ] }
{ [ dup src1>> vreg>insn ##and-imm? ] [ simplify-test-imm ] }
[ drop f ]
} cond
] }
[ drop f ]
} cond ;
M: ##test-branch rewrite
{
{ [ dup src1>> vreg-immediate-comparand? ] [ t >test-imm-branch ] }
{ [ dup src2>> vreg-immediate-comparand? ] [ f >test-imm-branch ] }
{ [ dup diagonal? ] [
{
{ [ dup src1>> vreg>insn ##and? ] [ simplify-test-branch ] }
{ [ dup src1>> vreg>insn ##and-imm? ] [ simplify-test-imm-branch ] }
[ drop f ]
} cond
] }
[ drop f ]
} cond ;
: fold-test-imm ( insn -- insn' )
dup evaluate-test-imm >boolean-insn ;
M: ##test-imm rewrite
{
{ [ dup fold-test-imm? ] [ fold-test-imm ] }
[ drop f ]
} cond ;

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! Copyright (C) 2008, 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors arrays classes classes.algebra combinators fry
generic.parser kernel math namespaces quotations sequences slots
words make sets
compiler.cfg.instructions
compiler.cfg.instructions.syntax
compiler.cfg.gvn.graph ;
FROM: sequences.private => set-array-nth ;
IN: compiler.cfg.gvn.expressions
<<
GENERIC: >expr ( insn -- expr )
: input-values ( slot-specs -- slot-specs' )
[ type>> { use literal } member-eq? ] filter ;
: slot->expr-quot ( slot-spec -- quot )
[ name>> reader-word 1quotation ]
[
type>> {
{ use [ [ vreg>vn ] ] }
{ literal [ [ ] ] }
} case
] bi append ;
: narray-quot ( length -- quot )
[
[ , [ f <array> ] % ]
[
dup iota [
- 1 - , [ swap [ set-array-nth ] keep ] %
] with each
] bi
] [ ] make ;
: >expr-quot ( insn slot-specs -- quot )
[
[ literalize , \ swap , ]
[
[ [ slot->expr-quot ] map cleave>quot % ]
[ length 1 + narray-quot % ]
bi
] bi*
] [ ] make ;
: define->expr-method ( insn slot-specs -- )
[ drop \ >expr create-method-in ] [ >expr-quot ] 2bi define ;
insn-classes get
[ foldable-insn class<= ] filter
{ ##copy ##load-integer ##load-reference } diff
[
dup "insn-slots" word-prop input-values
define->expr-method
] each
>>
TUPLE: integer-expr value ;
C: <integer-expr> integer-expr
TUPLE: reference-expr value ;
C: <reference-expr> reference-expr
M: reference-expr equal?
over reference-expr? [
[ value>> ] bi@
2dup [ float? ] both?
[ fp-bitwise= ] [ eq? ] if
] [ 2drop f ] if ;
M: reference-expr hashcode*
nip value>> dup float? [ double>bits ] [ identity-hashcode ] if ;
M: insn >expr drop input-expr-counter counter neg ;
M: ##copy >expr "Fail" throw ;
M: ##load-integer >expr val>> <integer-expr> ;
M: ##load-reference >expr obj>> <reference-expr> ;

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Value numbering expressions

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Slava Pestov

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! Copyright (C) 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors kernel layouts math math.bitwise
compiler.cfg.instructions
compiler.cfg.gvn.graph
compiler.cfg.gvn.rewrite ;
IN: compiler.cfg.gvn.folding
: binary-constant-fold? ( insn -- ? )
src1>> vreg>insn ##load-integer? ; inline
GENERIC: binary-constant-fold* ( x y insn -- z )
M: ##add-imm binary-constant-fold* drop + ;
M: ##sub-imm binary-constant-fold* drop - ;
M: ##mul-imm binary-constant-fold* drop * ;
M: ##and-imm binary-constant-fold* drop bitand ;
M: ##or-imm binary-constant-fold* drop bitor ;
M: ##xor-imm binary-constant-fold* drop bitxor ;
M: ##shr-imm binary-constant-fold* drop [ cell-bits 2^ wrap ] dip neg shift ;
M: ##sar-imm binary-constant-fold* drop neg shift ;
M: ##shl-imm binary-constant-fold* drop shift ;
: binary-constant-fold ( insn -- insn' )
[ dst>> ]
[ [ src1>> vreg>integer ] [ src2>> ] [ ] tri binary-constant-fold* ] bi
\ ##load-integer new-insn ; inline
: unary-constant-fold? ( insn -- ? )
src>> vreg>insn ##load-integer? ; inline
GENERIC: unary-constant-fold* ( x insn -- y )
M: ##not unary-constant-fold* drop bitnot ;
M: ##neg unary-constant-fold* drop neg ;
: unary-constant-fold ( insn -- insn' )
[ dst>> ] [ [ src>> vreg>integer ] [ ] bi unary-constant-fold* ] bi
\ ##load-integer new-insn ; inline

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! Copyright (C) 2008, 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors kernel math namespaces assocs ;
IN: compiler.cfg.gvn.graph
SYMBOL: input-expr-counter
! assoc mapping vregs to value numbers
! this is the identity on canonical representatives
SYMBOL: vregs>vns
! assoc mapping expressions to value numbers
SYMBOL: exprs>vns
! assoc mapping value numbers to instructions
SYMBOL: vns>insns
! assoc mapping vregs to *global* value numbers
SYMBOL: vregs>gvns
SYMBOL: changed?
: vn>insn ( vn -- insn ) vns>insns get at ;
! : vreg>vn ( vreg -- vn ) vregs>vns get [ ] cache ;
: vreg>vn ( vreg -- vn ) vregs>gvns get at ;
! : set-vn ( vn vreg -- ) vregs>vns get set-at ;
: local-vn ( vn vreg -- lvn )
vregs>vns get ?at
[ nip ]
[ dupd vregs>vns get set-at ] if ;
: set-vn ( vn vreg -- )
[ local-vn ] keep
vregs>gvns get maybe-set-at [ changed? on ] when ;
: vreg>insn ( vreg -- insn ) vreg>vn vn>insn ;
: init-gvn ( -- )
H{ } clone vregs>gvns set ;
: init-value-graph ( -- )
0 input-expr-counter set
H{ } clone vregs>vns set
H{ } clone exprs>vns set
H{ } clone vns>insns set ;

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Value numbering expression graph

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! Copyright (C) 2008, 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: namespaces arrays assocs kernel accessors fry grouping
sorting sets sequences locals
cpu.architecture
sequences.deep
compiler.cfg
compiler.cfg.rpo
compiler.cfg.def-use
compiler.cfg.utilities
compiler.cfg.instructions
compiler.cfg.gvn.alien
compiler.cfg.gvn.comparisons
compiler.cfg.gvn.graph
compiler.cfg.gvn.math
compiler.cfg.gvn.rewrite
compiler.cfg.gvn.slots
compiler.cfg.gvn.misc
compiler.cfg.gvn.expressions ;
IN: compiler.cfg.gvn
GENERIC: process-instruction ( insn -- insn' )
: redundant-instruction ( insn vn -- insn' )
[ dst>> ] dip [ swap set-vn ] [ <copy> ] 2bi ;
:: useful-instruction ( insn expr -- insn' )
insn dst>> :> vn
vn vn set-vn
vn expr exprs>vns get set-at
insn vn vns>insns get set-at
insn ;
: check-redundancy ( insn -- insn' )
dup >expr dup exprs>vns get at
[ redundant-instruction ] [ useful-instruction ] ?if ;
M: insn process-instruction
dup rewrite [ process-instruction ] [ ] ?if ;
M: foldable-insn process-instruction
dup rewrite
[ process-instruction ]
[ dup defs-vregs length 1 = [ check-redundancy ] when ] ?if ;
M: ##copy process-instruction
dup [ src>> vreg>vn ] [ dst>> ] bi set-vn ;
M: ##phi rewrite
[ dst>> ] [ inputs>> values [ vreg>vn ] map ] bi
dup sift
dup all-equal? [
nip
[ drop f ]
[ first <copy> ] if-empty
] [ 3drop f ] if ;
M: ##phi process-instruction
dup rewrite
[ process-instruction ] [ check-redundancy ] ?if ;
M: ##phi >expr
inputs>> values [ vreg>vn ] map \ ##phi prefix ;
M: array process-instruction
[ process-instruction ] map ;
: value-numbering-step ( insns -- insns' )
init-value-graph
! [ process-instruction ] map flatten ;
! idea: let rewrite do the constant/copy propagation (as
! that eventually leads to better VNs), but don't actually
! use them here, since changing the CFG mid-optimistic-GVN
! won't be sound
dup [ process-instruction drop ] each ;
: value-numbering ( cfg -- cfg )
dup
init-gvn
'[
changed? off
_ [ value-numbering-step ] simple-optimization
changed? get
] loop
dup [ init-value-graph [ process-instruction ] map flatten ] simple-optimization
cfg-changed predecessors-changed ;
USING: io math math.private prettyprint tools.annotations
compiler.cfg.debugger
compiler.cfg.graphviz
compiler.cfg.tco
compiler.cfg.useless-conditionals
compiler.cfg.branch-splitting
compiler.cfg.block-joining
compiler.cfg.height
compiler.cfg.ssa.construction
compiler.cfg.alias-analysis
compiler.cfg.copy-prop
compiler.cfg.dce
compiler.cfg.finalization ;
SYMBOL: gvn-test
[ 0 100 [ 1 fixnum+fast ] times ]
test-builder first [
optimize-tail-calls
delete-useless-conditionals
split-branches
join-blocks
normalize-height
construct-ssa
alias-analysis
] with-cfg gvn-test set-global
: watch-gvn ( -- )
\ value-numbering-step
[
'[
_ call
"Basic block #" write basic-block get number>> .
"vregs>gvns: " write vregs>gvns get .
"vregs>vns: " write vregs>vns get .
"exprs>vns: " write exprs>vns get .
"vns>insns: " write vns>insns get .
"\n---\n" print
]
] annotate ;
: reset-gvn ( -- )
\ value-numbering-step reset ;
: test-gvn ( -- )
watch-gvn
gvn-test get-global [
dup "Before GVN" "1" (cfgviz)
value-numbering
dup "After GVN" "2" (cfgviz)
copy-propagation
dup "After CP" "3" (cfgviz)
eliminate-dead-code
dup "After DCE" "4" (cfgviz)
finalize-cfg
dup "Final CFG" "5" (cfgviz)
drop
] with-cfg
reset-gvn ;

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Slava Pestov

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! Copyright (C) 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors combinators combinators.short-circuit
cpu.architecture fry kernel layouts locals make math sequences
compiler.cfg.instructions
compiler.cfg.registers
compiler.cfg.utilities
compiler.cfg.gvn.folding
compiler.cfg.gvn.graph
compiler.cfg.gvn.rewrite ;
IN: compiler.cfg.gvn.math
: f-insn? ( insn -- ? )
{ [ ##load-reference? ] [ obj>> not ] } 1&& ; inline
: zero-insn? ( insn -- ? )
{ [ ##load-integer? ] [ val>> 0 = ] } 1&& ; inline
M: ##tagged>integer rewrite
[ dst>> ] [ src>> vreg>insn ] bi {
{ [ dup ##load-integer? ] [ val>> tag-fixnum \ ##load-integer new-insn ] }
{ [ dup f-insn? ] [ drop \ f type-number \ ##load-integer new-insn ] }
[ 2drop f ]
} cond ;
: self-inverse ( insn -- insn' )
[ dst>> ] [ src>> vreg>insn src>> ] bi <copy> ;
: identity ( insn -- insn' )
[ dst>> ] [ src1>> ] bi <copy> ;
M: ##neg rewrite
{
{ [ dup src>> vreg>insn ##neg? ] [ self-inverse ] }
{ [ dup unary-constant-fold? ] [ unary-constant-fold ] }
[ drop f ]
} cond ;
M: ##not rewrite
{
{ [ dup src>> vreg>insn ##not? ] [ self-inverse ] }
{ [ dup unary-constant-fold? ] [ unary-constant-fold ] }
[ drop f ]
} cond ;
! Reassociation converts
! ## *-imm 2 1 X
! ## *-imm 3 2 Y
! into
! ## *-imm 3 1 (X $ Y)
! If * is associative, then $ is the same operation as *.
! In the case of shifts, $ is addition.
: (reassociate) ( insn -- dst src1 src2' src2'' )
{
[ dst>> ]
[ src1>> vreg>insn [ src1>> ] [ src2>> ] bi ]
[ src2>> ]
} cleave ; inline
: reassociate ( insn -- dst src1 src2 )
[ (reassociate) ] keep binary-constant-fold* ;
: ?new-insn ( dst src1 src2 ? class -- insn/f )
'[ _ new-insn ] [ 3drop f ] if ; inline
: reassociate-arithmetic ( insn new-insn -- insn/f )
[ reassociate dup immediate-arithmetic? ] dip ?new-insn ; inline
: reassociate-bitwise ( insn new-insn -- insn/f )
[ reassociate dup immediate-bitwise? ] dip ?new-insn ; inline
: reassociate-shift ( insn new-insn -- insn/f )
[ (reassociate) + dup immediate-shift-count? ] dip ?new-insn ; inline
M: ##add-imm rewrite
{
{ [ dup src2>> 0 = ] [ identity ] }
{ [ dup binary-constant-fold? ] [ binary-constant-fold ] }
{ [ dup src1>> vreg>insn ##add-imm? ] [ \ ##add-imm reassociate-arithmetic ] }
[ drop f ]
} cond ;
: sub-imm>add-imm ( insn -- insn' )
[ dst>> ] [ src1>> ] [ src2>> neg ] tri
dup immediate-arithmetic?
\ ##add-imm ?new-insn ;
M: ##sub-imm rewrite sub-imm>add-imm ;
! Convert ##mul-imm -1 => ##neg
: mul-to-neg? ( insn -- ? )
src2>> -1 = ;
: mul-to-neg ( insn -- insn' )
[ dst>> ] [ src1>> ] bi \ ##neg new-insn ;
! Convert ##mul-imm 2^X => ##shl-imm X
: mul-to-shl? ( insn -- ? )
src2>> power-of-2? ;
: mul-to-shl ( insn -- insn' )
[ [ dst>> ] [ src1>> ] bi ] [ src2>> log2 ] bi \ ##shl-imm new-insn ;
! Distribution converts
! ##+-imm 2 1 X
! ##*-imm 3 2 Y
! Into
! ##*-imm 4 1 Y
! ##+-imm 3 4 X*Y
! Where * is mul or shl, + is add or sub
! Have to make sure that X*Y fits in an immediate
:: (distribute) ( outer inner imm temp add-op mul-op -- new-outers/f )
imm immediate-arithmetic? [
[
temp inner src1>> outer src2>> mul-op execute
outer dst>> temp imm add-op execute
] { } make
] [ f ] if ; inline
: distribute-over-add? ( insn -- ? )
src1>> vreg>insn ##add-imm? ;
: distribute-over-sub? ( insn -- ? )
src1>> vreg>insn ##sub-imm? ;
: distribute ( insn add-op mul-op -- new-insns/f )
[
dup src1>> vreg>insn
2dup src2>> swap [ src2>> ] keep binary-constant-fold*
next-vreg
] 2dip (distribute) ; inline
M: ##mul-imm rewrite
{
{ [ dup binary-constant-fold? ] [ binary-constant-fold ] }
{ [ dup mul-to-neg? ] [ mul-to-neg ] }
{ [ dup mul-to-shl? ] [ mul-to-shl ] }
{ [ dup src1>> vreg>insn ##mul-imm? ] [ \ ##mul-imm reassociate-arithmetic ] }
{ [ dup distribute-over-add? ] [ \ ##add-imm \ ##mul-imm distribute ] }
{ [ dup distribute-over-sub? ] [ \ ##sub-imm \ ##mul-imm distribute ] }
[ drop f ]
} cond ;
M: ##and-imm rewrite
{
{ [ dup binary-constant-fold? ] [ binary-constant-fold ] }
{ [ dup src1>> vreg>insn ##and-imm? ] [ \ ##and-imm reassociate-bitwise ] }
{ [ dup src2>> 0 = ] [ dst>> 0 \ ##load-integer new-insn ] }
{ [ dup src2>> -1 = ] [ identity ] }
[ drop f ]
} cond ;
M: ##or-imm rewrite
{
{ [ dup src2>> 0 = ] [ identity ] }
{ [ dup src2>> -1 = ] [ dst>> -1 \ ##load-integer new-insn ] }
{ [ dup binary-constant-fold? ] [ binary-constant-fold ] }
{ [ dup src1>> vreg>insn ##or-imm? ] [ \ ##or-imm reassociate-bitwise ] }
[ drop f ]
} cond ;
M: ##xor-imm rewrite
{
{ [ dup src2>> 0 = ] [ identity ] }
{ [ dup src2>> -1 = ] [ [ dst>> ] [ src1>> ] bi \ ##not new-insn ] }
{ [ dup binary-constant-fold? ] [ binary-constant-fold ] }
{ [ dup src1>> vreg>insn ##xor-imm? ] [ \ ##xor-imm reassociate-bitwise ] }
[ drop f ]
} cond ;
M: ##shl-imm rewrite
{
{ [ dup src2>> 0 = ] [ identity ] }
{ [ dup binary-constant-fold? ] [ binary-constant-fold ] }
{ [ dup src1>> vreg>insn ##shl-imm? ] [ \ ##shl-imm reassociate-shift ] }
{ [ dup distribute-over-add? ] [ \ ##add-imm \ ##shl-imm distribute ] }
{ [ dup distribute-over-sub? ] [ \ ##sub-imm \ ##shl-imm distribute ] }
[ drop f ]
} cond ;
M: ##shr-imm rewrite
{
{ [ dup src2>> 0 = ] [ identity ] }
{ [ dup binary-constant-fold? ] [ binary-constant-fold ] }
{ [ dup src1>> vreg>insn ##shr-imm? ] [ \ ##shr-imm reassociate-shift ] }
[ drop f ]
} cond ;
M: ##sar-imm rewrite
{
{ [ dup src2>> 0 = ] [ identity ] }
{ [ dup binary-constant-fold? ] [ binary-constant-fold ] }
{ [ dup src1>> vreg>insn ##sar-imm? ] [ \ ##sar-imm reassociate-shift ] }
[ drop f ]
} cond ;
! Convert
! ##load-integer 2 X
! ##* 3 1 2
! Where * is an operation with an -imm equivalent into
! ##*-imm 3 1 X
: insn>imm-insn ( insn op swap? -- new-insn )
swap [
[ [ dst>> ] [ src1>> ] [ src2>> ] tri ] dip
[ swap ] when vreg>integer
] dip new-insn ; inline
M: ##add rewrite
{
{ [ dup src2>> vreg-immediate-arithmetic? ] [ \ ##add-imm f insn>imm-insn ] }
{ [ dup src1>> vreg-immediate-arithmetic? ] [ \ ##add-imm t insn>imm-insn ] }
[ drop f ]
} cond ;
: diagonal? ( insn -- ? )
[ src1>> vreg>vn ] [ src2>> vreg>vn ] bi = ; inline
! ##sub 2 1 1 => ##load-integer 2 0
: rewrite-subtraction-identity ( insn -- insn' )
dst>> 0 \ ##load-integer new-insn ;
! ##load-integer 1 0
! ##sub 3 1 2
! =>
! ##neg 3 2
: sub-to-neg? ( ##sub -- ? )
src1>> vreg>insn zero-insn? ;
: sub-to-neg ( ##sub -- insn )
[ dst>> ] [ src2>> ] bi \ ##neg new-insn ;
M: ##sub rewrite
{
{ [ dup sub-to-neg? ] [ sub-to-neg ] }
{ [ dup diagonal? ] [ rewrite-subtraction-identity ] }
{ [ dup src2>> vreg-immediate-arithmetic? ] [ \ ##sub-imm f insn>imm-insn ] }
[ drop f ]
} cond ;
M: ##mul rewrite
{
{ [ dup src2>> vreg-immediate-arithmetic? ] [ \ ##mul-imm f insn>imm-insn ] }
{ [ dup src1>> vreg-immediate-arithmetic? ] [ \ ##mul-imm t insn>imm-insn ] }
[ drop f ]
} cond ;
M: ##and rewrite
{
{ [ dup diagonal? ] [ identity ] }
{ [ dup src2>> vreg-immediate-bitwise? ] [ \ ##and-imm f insn>imm-insn ] }
{ [ dup src1>> vreg-immediate-bitwise? ] [ \ ##and-imm t insn>imm-insn ] }
[ drop f ]
} cond ;
M: ##or rewrite
{
{ [ dup diagonal? ] [ identity ] }
{ [ dup src2>> vreg-immediate-bitwise? ] [ \ ##or-imm f insn>imm-insn ] }
{ [ dup src1>> vreg-immediate-bitwise? ] [ \ ##or-imm t insn>imm-insn ] }
[ drop f ]
} cond ;
M: ##xor rewrite
{
{ [ dup diagonal? ] [ dst>> 0 \ ##load-integer new-insn ] }
{ [ dup src2>> vreg-immediate-bitwise? ] [ \ ##xor-imm f insn>imm-insn ] }
{ [ dup src1>> vreg-immediate-bitwise? ] [ \ ##xor-imm t insn>imm-insn ] }
[ drop f ]
} cond ;
M: ##shl rewrite
{
{ [ dup src2>> vreg-immediate-bitwise? ] [ \ ##shl-imm f insn>imm-insn ] }
[ drop f ]
} cond ;
M: ##shr rewrite
{
{ [ dup src2>> vreg-immediate-bitwise? ] [ \ ##shr-imm f insn>imm-insn ] }
[ drop f ]
} cond ;
M: ##sar rewrite
{
{ [ dup src2>> vreg-immediate-bitwise? ] [ \ ##sar-imm f insn>imm-insn ] }
[ drop f ]
} cond ;

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Slava Pestov

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! Copyright (C) 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors cpu.architecture kernel
compiler.cfg.instructions
compiler.cfg.gvn.graph
compiler.cfg.gvn.rewrite ;
IN: compiler.cfg.gvn.misc
M: ##replace rewrite
[ loc>> ] [ src>> vreg>insn ] bi
dup literal-insn? [
insn>literal dup immediate-store?
[ swap \ ##replace-imm new-insn ] [ 2drop f ] if
] [ 2drop f ] if ;

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! Copyright (C) 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors combinators combinators.short-circuit kernel
layouts math cpu.architecture
compiler.cfg.instructions
compiler.cfg.gvn.graph ;
IN: compiler.cfg.gvn.rewrite
! Outputs f to mean no change
GENERIC: rewrite ( insn -- insn/f )
M: insn rewrite drop f ;
! Utilities
GENERIC: insn>integer ( insn -- n )
M: ##load-integer insn>integer val>> ;
: vreg>integer ( vreg -- n ) vreg>insn insn>integer ; inline
: vreg-immediate-arithmetic? ( vreg -- ? )
vreg>insn {
[ ##load-integer? ]
[ val>> immediate-arithmetic? ]
} 1&& ;
: vreg-immediate-bitwise? ( vreg -- ? )
vreg>insn {
[ ##load-integer? ]
[ val>> immediate-bitwise? ]
} 1&& ;
UNION: literal-insn ##load-integer ##load-reference ;
GENERIC: insn>literal ( insn -- n )
M: ##load-integer insn>literal val>> >fixnum ;
M: ##load-reference insn>literal obj>> ;
: vreg>literal ( vreg -- n ) vreg>insn insn>literal ; inline
: vreg-immediate-comparand? ( vreg -- ? )
vreg>insn {
{ [ dup ##load-integer? ] [ val>> tag-fixnum immediate-comparand? ] }
{ [ dup ##load-reference? ] [ obj>> immediate-comparand? ] }
[ drop f ]
} cond ;

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! Copyright (C) 2008, 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors combinators combinators.short-circuit arrays
fry kernel layouts math namespaces sequences cpu.architecture
math.bitwise math.order classes generalizations
combinators.smart locals make alien.c-types io.binary grouping
math.vectors.simd.intrinsics
compiler.cfg
compiler.cfg.registers
compiler.cfg.utilities
compiler.cfg.comparisons
compiler.cfg.instructions
compiler.cfg.gvn.math
compiler.cfg.gvn.graph
compiler.cfg.gvn.rewrite ;
IN: compiler.cfg.gvn.simd
! Some lame constant folding for SIMD intrinsics. Eventually this
! should be redone completely.
: useless-shuffle-vector-imm? ( insn -- ? )
[ shuffle>> ] [ rep>> rep-length iota ] bi sequence= ;
: compose-shuffle-vector-imm ( outer inner -- insn' )
2dup [ rep>> ] bi@ eq? [
[ [ dst>> ] [ src>> ] bi* ]
[ [ shuffle>> ] bi@ nths ]
[ drop rep>> ]
2tri \ ##shuffle-vector-imm new-insn
] [ 2drop f ] if ;
: (fold-shuffle-vector-imm) ( shuffle bytes -- bytes' )
2dup length swap length /i group nths concat ;
: fold-shuffle-vector-imm ( outer inner -- insn' )
[ [ dst>> ] [ shuffle>> ] bi ] [ obj>> ] bi*
(fold-shuffle-vector-imm) \ ##load-reference new-insn ;
M: ##shuffle-vector-imm rewrite
dup src>> vreg>insn {
{ [ over useless-shuffle-vector-imm? ] [ drop [ dst>> ] [ src>> ] bi <copy> ] }
{ [ dup ##shuffle-vector-imm? ] [ compose-shuffle-vector-imm ] }
{ [ dup ##load-reference? ] [ fold-shuffle-vector-imm ] }
[ 2drop f ]
} cond ;
: scalar-value ( literal-insn rep -- byte-array )
{
{ float-4-rep [ obj>> float>bits 4 >le ] }
{ double-2-rep [ obj>> double>bits 8 >le ] }
[ [ val>> ] [ rep-component-type heap-size ] bi* >le ]
} case ;
: (fold-scalar>vector) ( insn bytes -- insn' )
[ [ dst>> ] [ rep>> rep-length ] bi ] dip <repetition> concat
\ ##load-reference new-insn ;
: fold-scalar>vector ( outer inner -- insn' )
over rep>> scalar-value (fold-scalar>vector) ;
M: ##scalar>vector rewrite
dup src>> vreg>insn {
{ [ dup literal-insn? ] [ fold-scalar>vector ] }
{ [ dup ##vector>scalar? ] [ [ dst>> ] [ src>> ] bi* <copy> ] }
[ 2drop f ]
} cond ;
:: fold-gather-vector-2 ( insn src1 src2 -- insn )
insn dst>>
src1 src2 [ insn rep>> scalar-value ] bi@ append
\ ##load-reference new-insn ;
: rewrite-gather-vector-2 ( insn -- insn/f )
dup [ src1>> vreg>insn ] [ src2>> vreg>insn ] bi {
{ [ 2dup [ literal-insn? ] both? ] [ fold-gather-vector-2 ] }
[ 3drop f ]
} cond ;
M: ##gather-vector-2 rewrite rewrite-gather-vector-2 ;
M: ##gather-int-vector-2 rewrite rewrite-gather-vector-2 ;
:: fold-gather-vector-4 ( insn src1 src2 src3 src4 -- insn )
insn dst>>
[
src1 src2 src3 src4
[ insn rep>> scalar-value ] 4 napply
] B{ } append-outputs-as
\ ##load-reference new-insn ;
: rewrite-gather-vector-4 ( insn -- insn/f )
dup { [ src1>> ] [ src2>> ] [ src3>> ] [ src4>> ] } cleave [ vreg>insn ] 4 napply
{
{ [ 4 ndup [ literal-insn? ] 4 napply and and and ] [ fold-gather-vector-4 ] }
[ 5 ndrop f ]
} cond ;
M: ##gather-vector-4 rewrite rewrite-gather-vector-4 ;
M: ##gather-int-vector-4 rewrite rewrite-gather-vector-4 ;
: fold-shuffle-vector ( insn src1 src2 -- insn )
[ dst>> ] [ obj>> ] [ obj>> ] tri*
swap nths \ ##load-reference new-insn ;
M: ##shuffle-vector rewrite
dup [ src>> vreg>insn ] [ shuffle>> vreg>insn ] bi
{
{ [ 2dup [ ##load-reference? ] both? ] [ fold-shuffle-vector ] }
[ 3drop f ]
} cond ;
M: ##xor-vector rewrite
dup diagonal?
[ [ dst>> ] [ rep>> ] bi \ ##zero-vector new-insn ] [ drop f ] if ;
: vector-not? ( insn -- ? )
{
[ ##not-vector? ]
[ {
[ ##xor-vector? ]
[ [ src1>> ] [ src2>> ] bi [ vreg>insn ##fill-vector? ] either? ]
} 1&& ]
} 1|| ;
GENERIC: vector-not-src ( insn -- vreg )
M: ##not-vector vector-not-src
src>> ;
M: ##xor-vector vector-not-src
dup src1>> vreg>insn ##fill-vector? [ src2>> ] [ src1>> ] if ;
M: ##and-vector rewrite
{
{ [ dup src1>> vreg>insn vector-not? ] [
{
[ dst>> ]
[ src1>> vreg>insn vector-not-src ]
[ src2>> ]
[ rep>> ]
} cleave \ ##andn-vector new-insn
] }
{ [ dup src2>> vreg>insn vector-not? ] [
{
[ dst>> ]
[ src2>> vreg>insn vector-not-src ]
[ src1>> ]
[ rep>> ]
} cleave \ ##andn-vector new-insn
] }
[ drop f ]
} cond ;
M: ##andn-vector rewrite
dup src1>> vreg>insn vector-not? [
{
[ dst>> ]
[ src1>> vreg>insn vector-not-src ]
[ src2>> ]
[ rep>> ]
} cleave \ ##and-vector new-insn
] [ drop f ] if ;

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Slava Pestov

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! Copyright (C) 2010 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: accessors combinators.short-circuit cpu.architecture fry
kernel math
compiler.cfg.instructions
compiler.cfg.gvn.graph
compiler.cfg.gvn.rewrite ;
IN: compiler.cfg.gvn.slots
: simplify-slot-addressing? ( insn -- ? )
complex-addressing?
[ slot>> vreg>insn ##add-imm? ] [ drop f ] if ;
: simplify-slot-addressing ( insn -- insn/f )
dup simplify-slot-addressing? [
dup slot>> vreg>insn
[ src1>> >>slot ]
[ src2>> over scale>> '[ _ _ shift - ] change-tag ]
bi
] [ drop f ] if ;
M: ##slot rewrite simplify-slot-addressing ;
M: ##set-slot rewrite simplify-slot-addressing ;
M: ##write-barrier rewrite simplify-slot-addressing ;

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Global value numbering for common subexpression elimination