206 lines
5.9 KiB
Factor
Executable File
206 lines
5.9 KiB
Factor
Executable File
! Copyright (C) 2008 Slava Pestov, Doug Coleman.
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! See http://factorcode.org/license.txt for BSD license.
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USING: accessors combinators combinators.short-circuit
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arrays compiler.cfg.hats compiler.cfg.instructions
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compiler.cfg.value-numbering.expressions
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compiler.cfg.value-numbering.graph
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compiler.cfg.value-numbering.simplify fry kernel layouts math
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namespaces sequences cpu.architecture math.bitwise locals ;
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IN: compiler.cfg.value-numbering.rewrite
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GENERIC: rewrite ( insn -- insn' )
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M: insn rewrite ;
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: ##branch-t? ( insn -- ? )
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dup ##compare-imm-branch? [
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{
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[ cc>> cc/= eq? ]
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[ src2>> \ f tag-number eq? ]
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} 1&&
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] [ drop f ] if ; inline
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: rewrite-boolean-comparison? ( insn -- ? )
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dup ##branch-t? [
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src1>> vreg>expr compare-expr?
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] [ drop f ] if ; inline
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: >compare-expr< ( expr -- in1 in2 cc )
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[ in1>> vn>vreg ] [ in2>> vn>vreg ] [ cc>> ] tri ; inline
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: >compare-imm-expr< ( expr -- in1 in2 cc )
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[ in1>> vn>vreg ] [ in2>> vn>constant ] [ cc>> ] tri ; inline
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: rewrite-boolean-comparison ( expr -- insn )
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src1>> vreg>expr dup op>> {
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{ \ ##compare [ >compare-expr< \ ##compare-branch new-insn ] }
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{ \ ##compare-imm [ >compare-imm-expr< \ ##compare-imm-branch new-insn ] }
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{ \ ##compare-float [ >compare-expr< \ ##compare-float-branch new-insn ] }
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} case ;
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: tag-fixnum-expr? ( expr -- ? )
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dup op>> \ ##shl-imm eq?
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[ in2>> vn>constant tag-bits get = ] [ drop f ] if ;
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: rewrite-tagged-comparison? ( insn -- ? )
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#! Are we comparing two tagged fixnums? Then untag them.
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{
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[ src1>> vreg>expr tag-fixnum-expr? ]
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[ src2>> tag-mask get bitand 0 = ]
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} 1&& ; inline
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: (rewrite-tagged-comparison) ( insn -- src1 src2 cc )
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[ src1>> vreg>expr in1>> vn>vreg ]
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[ src2>> tag-bits get neg shift ]
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[ cc>> ]
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tri ; inline
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GENERIC: rewrite-tagged-comparison ( insn -- insn' )
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M: ##compare-imm-branch rewrite-tagged-comparison
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(rewrite-tagged-comparison) \ ##compare-imm-branch new-insn ;
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M: ##compare-imm rewrite-tagged-comparison
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[ dst>> ] [ (rewrite-tagged-comparison) ] bi
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i \ ##compare-imm new-insn ;
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M: ##compare-imm-branch rewrite
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dup rewrite-boolean-comparison? [ rewrite-boolean-comparison ] when
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dup ##compare-imm-branch? [
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dup rewrite-tagged-comparison? [ rewrite-tagged-comparison ] when
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] when ;
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: >compare-imm ( insn swap? -- insn' )
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[
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{
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[ dst>> ]
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[ src1>> ]
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[ src2>> ]
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[ cc>> ]
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} cleave
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] dip [ [ swap ] [ ] bi* ] when
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[ vreg>constant ] dip
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i \ ##compare-imm new-insn ; inline
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M: ##compare rewrite
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dup [ src1>> ] [ src2>> ] bi
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[ vreg>expr constant-expr? ] bi@ 2array {
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{ { f t } [ f >compare-imm ] }
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{ { t f } [ t >compare-imm ] }
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[ drop ]
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} case ;
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: rewrite-redundant-comparison? ( insn -- ? )
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{
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[ src1>> vreg>expr compare-expr? ]
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[ src2>> \ f tag-number = ]
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[ cc>> { cc= cc/= } memq? ]
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} 1&& ; inline
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: rewrite-redundant-comparison ( insn -- insn' )
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[ cc>> ] [ dst>> ] [ src1>> vreg>expr dup op>> ] tri {
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{ \ ##compare [ >compare-expr< i \ ##compare new-insn ] }
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{ \ ##compare-imm [ >compare-imm-expr< i \ ##compare-imm new-insn ] }
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{ \ ##compare-float [ >compare-expr< i \ ##compare-float new-insn ] }
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} case
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swap cc= eq? [ [ negate-cc ] change-cc ] when ;
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M: ##compare-imm rewrite
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dup rewrite-redundant-comparison? [
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rewrite-redundant-comparison
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dup number-values rewrite
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] when
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dup ##compare-imm? [
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dup rewrite-tagged-comparison? [
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rewrite-tagged-comparison
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dup number-values rewrite
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] when
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] when ;
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: constant-fold ( insn -- insn' )
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dup dst>> vreg>expr dup constant-expr? [
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[ dst>> ] [ value>> ] bi* \ ##load-immediate new-insn
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dup number-values
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] [
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drop
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] if ;
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: (new-imm-insn) ( insn dst src1 n op -- new-insn/insn )
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[ cell-bits bits ] dip over small-enough? [
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new-insn dup number-values nip
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] [
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2drop 2drop
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] if constant-fold ; inline
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: new-imm-insn ( insn dst src n op -- n' op' )
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2dup [ sgn ] dip 2array
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{
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{ { -1 ##add-imm } [ drop neg \ ##sub-imm (new-imm-insn) ] }
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{ { -1 ##sub-imm } [ drop neg \ ##add-imm (new-imm-insn) ] }
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[ drop (new-imm-insn) ]
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} case ; inline
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: combine-imm? ( insn op -- ? )
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[ src1>> vreg>expr op>> ] dip = ;
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: (combine-imm) ( insn quot op -- insn )
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[
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{
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[ ]
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[ dst>> ]
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[ src1>> vreg>expr [ in1>> vn>vreg ] [ in2>> vn>constant ] bi ]
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[ src2>> ]
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} cleave
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] [ call ] [ ] tri* new-imm-insn ; inline
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:: combine-imm ( insn quot op -- insn )
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insn op combine-imm? [
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insn quot op (combine-imm)
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] [
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insn
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] if ; inline
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M: ##add-imm rewrite
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{
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{ [ dup \ ##add-imm combine-imm? ] [ [ + ] \ ##add-imm (combine-imm) ] }
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{ [ dup \ ##sub-imm combine-imm? ] [ [ - ] \ ##sub-imm (combine-imm) ] }
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[ ]
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} cond ;
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M: ##sub-imm rewrite
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{
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{ [ dup \ ##add-imm combine-imm? ] [ [ - ] \ ##add-imm (combine-imm) ] }
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{ [ dup \ ##sub-imm combine-imm? ] [ [ + ] \ ##sub-imm (combine-imm) ] }
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[ ]
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} cond ;
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M: ##mul-imm rewrite
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dup src2>> dup power-of-2? [
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[ [ dst>> ] [ src1>> ] bi ] [ log2 ] bi* \ ##shl-imm new-insn
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dup number-values
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] [
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drop [ * ] \ ##mul-imm combine-imm
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] if ;
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M: ##and-imm rewrite [ bitand ] \ ##and-imm combine-imm ;
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M: ##or-imm rewrite [ bitor ] \ ##or-imm combine-imm ;
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M: ##xor-imm rewrite [ bitxor ] \ ##xor-imm combine-imm ;
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: rewrite-add? ( insn -- ? )
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src2>> {
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[ vreg>expr constant-expr? ]
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[ vreg>constant small-enough? ]
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} 1&& ;
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M: ##add rewrite
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dup rewrite-add? [
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[ dst>> ]
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[ src1>> ]
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[ src2>> vreg>constant ] tri \ ##add-imm new-insn
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dup number-values
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] when ;
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M: ##sub rewrite constant-fold ;
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