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factor/library/compiler/linearizer.factor

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Factor
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! Copyright (C) 2004, 2006 Slava Pestov.
! See http://factorcode.org/license.txt for BSD license.
USING: arrays compiler-backend generic hashtables inference
kernel math namespaces sequences words ;
IN: compiler-frontend
! On PowerPC and AMD64, we use a stack discipline whereby
! stack frames are used to hold parameters. We need to compute
! the stack frame size to compile the prologue on entry to a
! word.
GENERIC: stack-reserve*
M: object stack-reserve* drop 0 ;
: stack-reserve ( node -- )
0 swap [ stack-reserve* max ] each-node ;
DEFER: #terminal?
PREDICATE: #merge #terminal-merge node-successor #terminal? ;
UNION: #terminal POSTPONE: f #return #values #terminal-merge ;
: tail-call? ( -- ? )
node-stack get [ node-successor ] map [ #terminal? ] all? ;
GENERIC: linearize* ( node -- next )
: linearize-child ( node -- )
[ node@ linearize* ] iterate-nodes ;
! A map from words to linear IR.
SYMBOL: linearized
! Renamed labels. To avoid problems with labels with the same
! name in different scopes.
SYMBOL: renamed-labels
: make-linear ( word quot -- )
[
swap >r { } make r> linearized get set-hash
] with-node-iterator ; inline
: linearize-1 ( word node -- )
swap [
dup stack-reserve %prologue , linearize-child
] make-linear ;
: init-linearizer ( -- )
H{ } clone linearized set
H{ } clone renamed-labels set ;
: linearize ( word dataflow -- linearized )
#! Outputs a hashtable mapping from labels to their
#! respective linear IR.
init-linearizer linearize-1 linearized get ;
M: node linearize* ( node -- next ) drop iterate-next ;
: linearize-call ( label -- next )
tail-call? [
%jump , f
] [
%call , iterate-next
] if ;
: rename-label ( label -- label )
<label> dup rot renamed-labels get set-hash ;
: renamed-label ( label -- label )
renamed-labels get hash ;
: linearize-call-label ( label -- next )
rename-label linearize-call ;
M: #label linearize* ( node -- next )
#! We remap the IR node's label to a new label object here,
#! to avoid problems with two IR #label nodes having the
#! same label in different lexical scopes.
dup node-param dup linearize-call-label >r
renamed-label swap node-child linearize-1
r> ;
: in-1 0 0 %peek-d , ;
: in-2 0 1 %peek-d , 1 0 %peek-d , ;
: in-3 0 2 %peek-d , 1 1 %peek-d , 2 0 %peek-d , ;
: out-1 T{ vreg f 0 } 0 %replace-d , ;
: intrinsic ( #call -- quot ) node-param "intrinsic" word-prop ;
: if-intrinsic ( #call -- quot )
dup node-successor #if?
[ node-param "if-intrinsic" word-prop ] [ drop f ] if ;
: linearize-if ( node label -- next )
<label> dup >r >r >r node-children first2 linearize-child
r> r> %jump-label , %label , linearize-child r> %label ,
iterate-next ;
M: #call linearize* ( node -- next )
dup if-intrinsic [
>r <label> 2dup r> call
>r node-successor r> linearize-if node-successor
] [
dup intrinsic
[ call iterate-next ] [ node-param linearize-call ] if*
] if* ;
M: #call-label linearize* ( node -- next )
node-param renamed-label linearize-call ;
: ?static-branch ( node -- n )
node-in-d first dup value?
[ value-literal 0 1 ? ] [ drop f ] if ;
M: #if linearize* ( node -- next )
dup ?static-branch [
-1 %inc-d ,
swap node-children nth linearize-child iterate-next
] [
in-1 -1 %inc-d , <label> dup 0 %jump-t , linearize-if
] if* ;
: dispatch-head ( vtable -- label/node )
#! Output the jump table insn and return a list of
#! label/branch pairs.
in-1 -1 %inc-d , 0 %dispatch ,
[ <label> dup %target-label , 2array ] map ;
: dispatch-body ( label/node -- )
<label> swap [
first2 %label , linearize-child dup %jump-label ,
] each %label , ;
M: #dispatch linearize* ( node -- next )
#! The parameter is a list of nodes, each one is a branch to
#! take in case the top of stack has that type.
node-children dispatch-head dispatch-body iterate-next ;
M: #return linearize* drop %return , f ;
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