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8eea1fb142
* module/language/cps/slot-allocation.scm (allocate-slots): Even if an expression does not define a live value, it might need a place to put its value. In that case we should stop scanning for hints, otherwise e.g. an (current-module) primcall whose value isn't used could clobber a hinted variable.
702 lines
31 KiB
Scheme
702 lines
31 KiB
Scheme
;;; Continuation-passing style (CPS) intermediate language (IL)
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;; Copyright (C) 2013, 2014, 2015 Free Software Foundation, Inc.
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;;;; This library is free software; you can redistribute it and/or
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;;;; modify it under the terms of the GNU Lesser General Public
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;;;; License as published by the Free Software Foundation; either
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;;;; version 3 of the License, or (at your option) any later version.
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;;;;
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;;;; This library is distributed in the hope that it will be useful,
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;;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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;;;; Lesser General Public License for more details.
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;;;;
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;;;; You should have received a copy of the GNU Lesser General Public
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;;;; License along with this library; if not, write to the Free Software
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;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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;;; Commentary:
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;;;
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;;; A module to assign stack slots to variables in a CPS term.
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;;;
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;;; Code:
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(define-module (language cps slot-allocation)
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#:use-module (ice-9 match)
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#:use-module (srfi srfi-1)
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#:use-module (srfi srfi-9)
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#:use-module (srfi srfi-26)
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#:use-module (language cps)
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#:use-module (language cps dfg)
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#:use-module (language cps intset)
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#:export (allocate-slots
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lookup-slot
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lookup-maybe-slot
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lookup-constant-value
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lookup-maybe-constant-value
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lookup-nlocals
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lookup-call-proc-slot
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lookup-parallel-moves
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lookup-dead-slot-map))
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(define-record-type $allocation
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(make-allocation dfa slots
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has-constv constant-values
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call-allocations
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nlocals)
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allocation?
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;; A DFA records all variables bound in a function, and assigns them
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;; indices. The slot in which a variable is stored at runtime can be
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;; had by indexing into the SLOTS vector with the variable's index.
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;;
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(dfa allocation-dfa)
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(slots allocation-slots)
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;; Not all variables have slots allocated. Variables that are
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;; constant and that are only used by primcalls that can accept
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;; constants directly are not allocated to slots, and their SLOT value
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;; is false. Likewise constants that are only used by calls are not
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;; allocated into slots, to avoid needless copying. If a variable is
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;; constant, its constant value is set in the CONSTANT-VALUES vector
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;; and the corresponding bit in the HAS-CONSTV bitvector is set.
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;;
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(has-constv allocation-has-constv)
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(constant-values allocation-constant-values)
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;; Some continuations have additional associated information. This
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;; addition information is a /call allocation/. Call allocations
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;; record the way that functions are passed values, and how their
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;; return values are rebound to local variables.
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;;
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;; A call allocation contains three pieces of information: the call's
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;; /proc slot/, a set of /parallel moves/, and a /dead slot map/. The
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;; proc slot indicates the slot of a procedure in a procedure call, or
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;; where the procedure would be in a multiple-value return. The
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;; parallel moves shuffle locals into position for a call, or shuffle
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;; returned values back into place. Though they use the same slot,
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;; moves for a call are called "call moves", and moves to handle a
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;; return are "return moves". The dead slot map indicates, for a
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;; call, what slots should be ignored by GC when marking the frame.
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;;
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;; $kreceive continuations record a proc slot and a set of return moves
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;; to adapt multiple values from the stack to local variables.
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;;
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;; Tail calls record arg moves, but no proc slot.
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;;
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;; Non-tail calls record arg moves, a call slot, and a dead slot map.
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;; Multiple-valued returns will have an associated $kreceive
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;; continuation, which records the same proc slot, but has return
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;; moves and no dead slot map.
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;;
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;; $prompt handlers are $kreceive continuations like any other.
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;;
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;; $values expressions with more than 1 value record moves but have no
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;; proc slot or dead slot map.
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;;
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;; A set of moves is expressed as an ordered list of (SRC . DST)
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;; moves, where SRC and DST are slots. This may involve a temporary
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;; variable. A dead slot map is a bitfield, as an integer.
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;;
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(call-allocations allocation-call-allocations)
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;; The number of locals for a $kclause.
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;;
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(nlocals allocation-nlocals))
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(define-record-type $call-allocation
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(make-call-allocation proc-slot moves dead-slot-map)
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call-allocation?
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(proc-slot call-allocation-proc-slot)
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(moves call-allocation-moves)
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(dead-slot-map call-allocation-dead-slot-map))
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(define (find-first-zero n)
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;; Naive implementation.
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(let lp ((slot 0))
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(if (logbit? slot n)
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(lp (1+ slot))
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slot)))
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(define (find-first-trailing-zero n)
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(let lp ((slot (let lp ((count 2))
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(if (< n (ash 1 (1- count)))
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count
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;; Grow upper bound slower than factor 2 to avoid
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;; needless bignum allocation on 32-bit systems
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;; when there are more than 16 locals.
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(lp (+ count (ash count -1)))))))
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(if (or (zero? slot) (logbit? (1- slot) n))
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slot
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(lp (1- slot)))))
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(define (lookup-maybe-slot sym allocation)
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(match allocation
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(($ $allocation dfa slots)
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(vector-ref slots (dfa-var-idx dfa sym)))))
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(define (lookup-slot sym allocation)
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(or (lookup-maybe-slot sym allocation)
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(error "Variable not allocated to a slot" sym)))
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(define (lookup-constant-value sym allocation)
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(match allocation
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(($ $allocation dfa slots has-constv constant-values)
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(let ((idx (dfa-var-idx dfa sym)))
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(if (bitvector-ref has-constv idx)
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(vector-ref constant-values idx)
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(error "Variable does not have constant value" sym))))))
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(define (lookup-maybe-constant-value sym allocation)
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(match allocation
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(($ $allocation dfa slots has-constv constant-values)
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(let ((idx (dfa-var-idx dfa sym)))
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(values (bitvector-ref has-constv idx)
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(vector-ref constant-values idx))))))
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(define (lookup-call-allocation k allocation)
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(or (hashq-ref (allocation-call-allocations allocation) k)
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(error "Continuation not a call" k)))
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(define (lookup-call-proc-slot k allocation)
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(or (call-allocation-proc-slot (lookup-call-allocation k allocation))
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(error "Call has no proc slot" k)))
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(define (lookup-parallel-moves k allocation)
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(or (call-allocation-moves (lookup-call-allocation k allocation))
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(error "Call has no use parallel moves slot" k)))
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(define (lookup-dead-slot-map k allocation)
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(or (call-allocation-dead-slot-map (lookup-call-allocation k allocation))
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(error "Call has no dead slot map" k)))
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(define (lookup-nlocals k allocation)
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(or (hashq-ref (allocation-nlocals allocation) k)
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(error "Not a clause continuation" k)))
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(define (solve-parallel-move src dst tmp)
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"Solve the parallel move problem between src and dst slot lists, which
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are comparable with eqv?. A tmp slot may be used."
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;; This algorithm is taken from: "Tilting at windmills with Coq:
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;; formal verification of a compilation algorithm for parallel moves"
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;; by Laurence Rideau, Bernard Paul Serpette, and Xavier Leroy
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;; <http://gallium.inria.fr/~xleroy/publi/parallel-move.pdf>
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(define (split-move moves reg)
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(let loop ((revhead '()) (tail moves))
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(match tail
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(((and s+d (s . d)) . rest)
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(if (eqv? s reg)
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(cons d (append-reverse revhead rest))
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(loop (cons s+d revhead) rest)))
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(_ #f))))
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(define (replace-last-source reg moves)
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(match moves
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((moves ... (s . d))
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(append moves (list (cons reg d))))))
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(let loop ((to-move (map cons src dst))
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(being-moved '())
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(moved '())
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(last-source #f))
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;; 'last-source' should always be equivalent to:
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;; (and (pair? being-moved) (car (last being-moved)))
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(match being-moved
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(() (match to-move
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(() (reverse moved))
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(((and s+d (s . d)) . t1)
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(if (or (eqv? s d) ; idempotent
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(not s)) ; src is a constant and can be loaded directly
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(loop t1 '() moved #f)
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(loop t1 (list s+d) moved s)))))
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(((and s+d (s . d)) . b)
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(match (split-move to-move d)
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((r . t1) (loop t1 (acons d r being-moved) moved last-source))
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(#f (match b
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(() (loop to-move '() (cons s+d moved) #f))
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(_ (if (eqv? d last-source)
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(loop to-move
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(replace-last-source tmp b)
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(cons s+d (acons d tmp moved))
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tmp)
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(loop to-move b (cons s+d moved) last-source))))))))))
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(define (dead-after-def? k-idx v-idx dfa)
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(not (intset-ref (dfa-k-in dfa k-idx) v-idx)))
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(define (dead-after-use? k-idx v-idx dfa)
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(not (intset-ref (dfa-k-out dfa k-idx) v-idx)))
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(define (allocate-slots fun dfg)
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(let* ((dfa (compute-live-variables fun dfg))
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(min-label (dfg-min-label dfg))
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(label-count (dfg-label-count dfg))
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(usev (make-vector label-count '()))
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(defv (make-vector label-count '()))
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(slots (make-vector (dfa-var-count dfa) #f))
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(constant-values (make-vector (dfa-var-count dfa) #f))
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(has-constv (make-bitvector (dfa-var-count dfa) #f))
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(has-slotv (make-bitvector (dfa-var-count dfa) #t))
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(needs-slotv (make-bitvector (dfa-var-count dfa) #t))
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(needs-hintv (make-bitvector (dfa-var-count dfa) #f))
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(call-allocations (make-hash-table))
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(nlocals 0) ; Mutable. It pains me.
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(nlocals-table (make-hash-table)))
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(define (label->idx label) (- label min-label))
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(define (idx->label idx) (+ idx min-label))
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(define (bump-nlocals! nlocals*)
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(when (< nlocals nlocals*)
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(set! nlocals nlocals*)))
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(define (empty-live-slots)
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#b0)
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(define (add-live-slot slot live-slots)
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(logior live-slots (ash 1 slot)))
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(define (kill-dead-slot slot live-slots)
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(logand live-slots (lognot (ash 1 slot))))
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(define (compute-slot live-slots hint)
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;; Slots 253-255 are reserved for shuffling; see comments in
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;; assembler.scm.
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(if (and hint (not (logbit? hint live-slots))
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(or (< hint 253) (> hint 255)))
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hint
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(let ((slot (find-first-zero live-slots)))
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(if (or (< slot 253) (> slot 255))
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slot
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(+ 256 (find-first-zero (ash live-slots -256)))))))
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(define (compute-call-proc-slot live-slots)
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(+ 2 (find-first-trailing-zero live-slots)))
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(define (compute-prompt-handler-proc-slot live-slots)
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(if (zero? live-slots)
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0
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(1- (find-first-trailing-zero live-slots))))
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(define (recompute-live-slots k nargs)
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(let ((in (dfa-k-in dfa (label->idx k))))
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(let lp ((v 0) (live-slots 0))
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(let ((v (intset-next in v)))
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(if v
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(let ((slot (vector-ref slots v)))
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(lp (1+ v)
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(if slot
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(add-live-slot slot live-slots)
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live-slots)))
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live-slots)))))
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(define* (allocate! var-idx hint live)
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(cond
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((not (bitvector-ref needs-slotv var-idx)) live)
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((vector-ref slots var-idx) => (cut add-live-slot <> live))
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((and (not hint) (bitvector-ref needs-hintv var-idx)) live)
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(else
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(let ((slot (compute-slot live hint)))
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(bump-nlocals! (1+ slot))
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(vector-set! slots var-idx slot)
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(add-live-slot slot live)))))
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;; Although some parallel moves may proceed without a temporary
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;; slot, in general one is needed. That temporary slot must not be
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;; part of the source or destination sets, and that slot should not
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;; correspond to a live variable. Usually the source and
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;; destination sets are a subset of the union of the live sets
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;; before and after the move. However for stack slots that don't
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;; have names -- those slots that correspond to function arguments
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;; or to function return values -- it could be that they are out of
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;; the computed live set. In that case they need to be adjoined to
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;; the live set, used when choosing a temporary slot.
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;;
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;; Note that although we reserve slots 253-255 for shuffling
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;; operands that address less than the full 24-bit range of locals,
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;; that reservation doesn't apply here, because this temporary
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;; itself is used while doing parallel assignment via "mov", and
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;; "mov" does not need shuffling.
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(define (compute-tmp-slot live stack-slots)
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(find-first-zero (fold add-live-slot live stack-slots)))
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(define (parallel-move src-slots dst-slots tmp-slot)
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(let ((moves (solve-parallel-move src-slots dst-slots tmp-slot)))
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(when (assv tmp-slot moves)
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(bump-nlocals! (1+ tmp-slot)))
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moves))
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;; Find variables that are actually constant, and determine which
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;; of those can avoid slot allocation.
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(define (compute-constants!)
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(let lp ((n 0))
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(when (< n (vector-length constant-values))
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(let ((sym (dfa-var-sym dfa n)))
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(call-with-values (lambda () (find-constant-value sym dfg))
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(lambda (has-const? const)
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(when has-const?
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(bitvector-set! has-constv n has-const?)
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(vector-set! constant-values n const)
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(when (not (constant-needs-allocation? sym const dfg))
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(bitvector-set! needs-slotv n #f)))
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(lp (1+ n))))))))
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;; Record uses and defs, as lists of variable indexes, indexed by
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;; label index.
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(define (compute-uses-and-defs!)
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(let lp ((n 0))
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(when (< n (vector-length usev))
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(match (lookup-cont (idx->label n) dfg)
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(($ $kfun src meta self)
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(vector-set! defv n (list (dfa-var-idx dfa self))))
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(($ $kargs names syms body)
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(vector-set! defv n (map (cut dfa-var-idx dfa <>) syms))
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(vector-set! usev n
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(map (cut dfa-var-idx dfa <>)
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(match (find-expression body)
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(($ $call proc args)
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(cons proc args))
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(($ $callk k proc args)
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(cons proc args))
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(($ $primcall name args)
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args)
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(($ $branch kt ($ $primcall name args))
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args)
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(($ $branch kt ($ $values args))
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args)
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(($ $values args)
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args)
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(($ $prompt escape? tag handler)
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(list tag))
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(_ '())))))
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(_ #f))
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(lp (1+ n)))))
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;; Results of function calls that are not used don't need to be
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;; allocated to slots.
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(define (compute-unused-results!)
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(define (kreceive-get-kargs kreceive)
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(match (lookup-cont kreceive dfg)
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(($ $kreceive arity kargs) kargs)
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(_ #f)))
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(let ((candidates (make-bitvector label-count #f)))
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;; Find all $kargs that are the successors of $kreceive nodes.
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(let lp ((n 0))
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(when (< n label-count)
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(and=> (kreceive-get-kargs (idx->label n))
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(lambda (kargs)
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(bitvector-set! candidates (label->idx kargs) #t)))
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(lp (1+ n))))
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;; For $kargs that only have $kreceive predecessors, remove unused
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;; variables from the needs-slotv set.
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(let lp ((n 0))
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(let ((n (bit-position #t candidates n)))
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(when n
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(match (lookup-predecessors (idx->label n) dfg)
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;; At least one kreceive is in the predecessor set, so we
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;; only need to do the check for nodes with >1
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;; predecessor.
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((or (_) ((? kreceive-get-kargs) ...))
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(for-each (lambda (var)
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(when (dead-after-def? n var dfa)
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(bitvector-set! needs-slotv var #f)))
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(vector-ref defv n)))
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(_ #f))
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(lp (1+ n)))))))
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;; Compute the set of variables whose allocation should be delayed
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;; until a "hint" is known about where to allocate them. This is
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;; the case for some procedure arguments.
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;;
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;; This algorithm used is a conservative approximation of what
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;; really should happen, which would be eager allocation of call
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;; frames as soon as it's known that a call will happen. It would
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;; be nice to recast this as a proper data-flow problem.
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(define (compute-needs-hint!)
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(define (live-before n)
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(dfa-k-in dfa n))
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(define (live-after n)
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(dfa-k-out dfa n))
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(define needs-slot
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(bitvector->intset needs-slotv))
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;; Walk backwards. At a call, compute the set of variables that
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;; have allocated slots and are live before but not after. This
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;; set contains candidates for needs-hintv.
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(define (scan-for-call n)
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(when (<= 0 n)
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(match (lookup-cont (idx->label n) dfg)
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(($ $kargs names syms body)
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(match (find-expression body)
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((or ($ $call) ($ $callk))
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(let* ((args (intset-subtract (live-before n) (live-after n)))
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(args-needing-slots (intset-intersect args needs-slot)))
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(if (intset-next args-needing-slots #f)
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(scan-for-hints (1- n) args-needing-slots)
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(scan-for-call (1- n)))))
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(_ (scan-for-call (1- n)))))
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(_ (scan-for-call (1- n))))))
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;; Walk backwards in the current basic block. Stop when the block
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;; ends, we reach a call, or when an expression kills a value.
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(define (scan-for-hints n args)
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(when (< 0 n)
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(match (lookup-cont (idx->label n) dfg)
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(($ $kargs names syms body)
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(match (lookup-predecessors (idx->label (1+ n)) dfg)
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(((? (cut eqv? <> (idx->label n))))
|
|
;; If we are indeed in the same basic block, then if we
|
|
;; are finished with the scan, we kill uses of the
|
|
;; terminator, but leave its definitions.
|
|
(match (find-expression body)
|
|
((or ($ $const) ($ $prim) ($ $closure)
|
|
($ $primcall) ($ $prompt)
|
|
;; If $values has more than one argument, it may
|
|
;; use a temporary, which would invalidate our
|
|
;; assumptions that slots not allocated are not
|
|
;; used.
|
|
($ $values (or () (_))))
|
|
(define (intset-empty? intset) (not (intset-next intset)))
|
|
(let ((killed (intset-subtract (live-before n) (live-after n))))
|
|
;; If the expression kills no values needing slots,
|
|
;; and defines no value needing a slot that's not
|
|
;; in our args, then we keep on trucking.
|
|
(if (intset-empty? (intset-intersect
|
|
(fold (lambda (def clobber)
|
|
(if (intset-ref args def)
|
|
clobber
|
|
(intset-add clobber def)))
|
|
killed
|
|
(vector-ref defv n))
|
|
needs-slot))
|
|
(scan-for-hints (1- n) args)
|
|
(finish-hints n (live-before n) args))))
|
|
((or ($ $call) ($ $callk) ($ $values) ($ $branch))
|
|
(finish-hints n (live-before n) args))))
|
|
;; Otherwise we kill uses of the block entry.
|
|
(_ (finish-hints n (live-before (1+ n)) args))))
|
|
(_ (finish-hints n (live-before (1+ n)) args)))))
|
|
|
|
;; Add definitions ARGS minus KILL to NEED-HINTS, and go back to
|
|
;; looking for calls.
|
|
(define (finish-hints n kill args)
|
|
(let ((new-hints (intset-subtract args kill)))
|
|
(let lp ((n 0))
|
|
(let ((n (intset-next new-hints n)))
|
|
(when n
|
|
(bitvector-set! needs-hintv n #t)
|
|
(lp (1+ n))))))
|
|
(scan-for-call n))
|
|
|
|
(scan-for-call (1- label-count)))
|
|
|
|
(define (allocate-call label k uses pre-live post-live)
|
|
(match (lookup-cont k dfg)
|
|
(($ $ktail)
|
|
(let* ((tail-nlocals (length uses))
|
|
(tail-slots (iota tail-nlocals))
|
|
(pre-live (fold allocate! pre-live uses tail-slots))
|
|
(moves (parallel-move (map (cut vector-ref slots <>) uses)
|
|
tail-slots
|
|
(compute-tmp-slot pre-live tail-slots))))
|
|
(bump-nlocals! tail-nlocals)
|
|
(hashq-set! call-allocations label
|
|
(make-call-allocation #f moves #f))))
|
|
(($ $kreceive arity kargs)
|
|
(let* ((proc-slot (compute-call-proc-slot post-live))
|
|
(call-slots (map (cut + proc-slot <>) (iota (length uses))))
|
|
(pre-live (fold allocate! pre-live uses call-slots))
|
|
(arg-moves (parallel-move (map (cut vector-ref slots <>) uses)
|
|
call-slots
|
|
(compute-tmp-slot pre-live
|
|
call-slots)))
|
|
(result-vars (vector-ref defv (label->idx kargs)))
|
|
(value-slots (map (cut + proc-slot 1 <>)
|
|
(iota (length result-vars))))
|
|
;; Shuffle the first result down to the lowest slot, and
|
|
;; leave any remaining results where they are. This
|
|
;; strikes a balance between avoiding shuffling,
|
|
;; especially for unused extra values, and avoiding
|
|
;; frame size growth due to sparse locals.
|
|
(result-live (match (cons result-vars value-slots)
|
|
((() . ()) post-live)
|
|
(((var . vars) . (slot . slots))
|
|
(fold allocate!
|
|
(allocate! var #f post-live)
|
|
vars slots))))
|
|
(result-slots (map (cut vector-ref slots <>) result-vars))
|
|
;; Filter out unused results.
|
|
(value-slots (filter-map (lambda (val result) (and result val))
|
|
value-slots result-slots))
|
|
(result-slots (filter (lambda (x) x) result-slots))
|
|
(result-moves (parallel-move value-slots
|
|
result-slots
|
|
(compute-tmp-slot result-live
|
|
value-slots)))
|
|
(dead-slot-map (logand (1- (ash 1 (- proc-slot 2)))
|
|
(lognot post-live))))
|
|
(bump-nlocals! (+ proc-slot (length uses)))
|
|
(hashq-set! call-allocations label
|
|
(make-call-allocation proc-slot arg-moves dead-slot-map))
|
|
(hashq-set! call-allocations k
|
|
(make-call-allocation proc-slot result-moves #f))))
|
|
|
|
(_
|
|
(let* ((proc-slot (compute-call-proc-slot post-live))
|
|
(call-slots (map (cut + proc-slot <>) (iota (length uses))))
|
|
(pre-live (fold allocate! pre-live uses call-slots))
|
|
(arg-moves (parallel-move (map (cut vector-ref slots <>) uses)
|
|
call-slots
|
|
(compute-tmp-slot pre-live
|
|
call-slots))))
|
|
(bump-nlocals! (+ proc-slot (length uses)))
|
|
(hashq-set! call-allocations label
|
|
(make-call-allocation proc-slot arg-moves #f))))))
|
|
|
|
(define (allocate-values label k uses pre-live post-live)
|
|
(match (lookup-cont k dfg)
|
|
(($ $ktail)
|
|
(let* ((src-slots (map (cut vector-ref slots <>) uses))
|
|
(tail-nlocals (1+ (length uses)))
|
|
(dst-slots (cdr (iota tail-nlocals)))
|
|
(moves (parallel-move src-slots dst-slots
|
|
(compute-tmp-slot pre-live dst-slots))))
|
|
(bump-nlocals! tail-nlocals)
|
|
(hashq-set! call-allocations label
|
|
(make-call-allocation #f moves #f))))
|
|
(($ $kargs (_) (_))
|
|
;; When there is only one value in play, we allow the dst to be
|
|
;; hinted (see scan-for-hints). If the src doesn't have a
|
|
;; slot, then the actual slot for the dst would end up being
|
|
;; decided by the call that uses it. Because we don't know the
|
|
;; slot, we can't really compute the parallel moves in that
|
|
;; case, so just bail and rely on the bytecode emitter to
|
|
;; handle the one-value case specially.
|
|
(match (cons uses (vector-ref defv (label->idx k)))
|
|
(((src) . (dst))
|
|
(allocate! dst (vector-ref slots src) post-live))))
|
|
(($ $kargs)
|
|
(let* ((src-slots (map (cut vector-ref slots <>) uses))
|
|
(dst-vars (vector-ref defv (label->idx k)))
|
|
(result-live (fold allocate! post-live dst-vars src-slots))
|
|
(dst-slots (map (cut vector-ref slots <>) dst-vars))
|
|
(moves (parallel-move src-slots dst-slots
|
|
(compute-tmp-slot (logior pre-live result-live)
|
|
'()))))
|
|
(hashq-set! call-allocations label
|
|
(make-call-allocation #f moves #f))))))
|
|
|
|
(define (allocate-prompt label k handler nargs)
|
|
(match (lookup-cont handler dfg)
|
|
(($ $kreceive arity kargs)
|
|
(let* ((handler-live (recompute-live-slots handler nargs))
|
|
(proc-slot (compute-prompt-handler-proc-slot handler-live))
|
|
(result-vars (vector-ref defv (label->idx kargs)))
|
|
(value-slots (map (cut + proc-slot 1 <>)
|
|
(iota (length result-vars))))
|
|
(result-live (fold allocate!
|
|
handler-live result-vars value-slots))
|
|
(result-slots (map (cut vector-ref slots <>) result-vars))
|
|
;; Filter out unused results.
|
|
(value-slots (filter-map (lambda (val result) (and result val))
|
|
value-slots result-slots))
|
|
(result-slots (filter (lambda (x) x) result-slots))
|
|
(moves (parallel-move value-slots
|
|
result-slots
|
|
(compute-tmp-slot result-live
|
|
value-slots))))
|
|
(bump-nlocals! (+ proc-slot 1 (length result-vars)))
|
|
(hashq-set! call-allocations handler
|
|
(make-call-allocation proc-slot moves #f))))))
|
|
|
|
(define (allocate-defs! n live)
|
|
(fold (cut allocate! <> #f <>) live (vector-ref defv n)))
|
|
|
|
;; This traversal will visit definitions before uses, as
|
|
;; definitions dominate uses and a block's dominator will appear
|
|
;; before it, in reverse post-order.
|
|
(define (visit-clause n nargs live)
|
|
(let lp ((n n) (live (recompute-live-slots (idx->label n) nargs)))
|
|
(define (kill-dead live vars-by-label-idx pred)
|
|
(fold (lambda (v live)
|
|
(let ((slot (vector-ref slots v)))
|
|
(if (and slot (pred n v dfa))
|
|
(kill-dead-slot slot live)
|
|
live)))
|
|
live
|
|
(vector-ref vars-by-label-idx n)))
|
|
(define (kill-dead-defs live)
|
|
(kill-dead live defv dead-after-def?))
|
|
(define (kill-dead-uses live)
|
|
(kill-dead live usev dead-after-use?))
|
|
(if (= n label-count)
|
|
n
|
|
(let* ((label (idx->label n))
|
|
(live (if (control-point? label dfg)
|
|
(recompute-live-slots label nargs)
|
|
live))
|
|
(live (kill-dead-defs (allocate-defs! n live)))
|
|
(post-live (kill-dead-uses live)))
|
|
;; LIVE are the live slots coming into the term.
|
|
;; POST-LIVE is the subset that is still live after the
|
|
;; term uses its inputs.
|
|
(match (lookup-cont (idx->label n) dfg)
|
|
(($ $kclause) n)
|
|
(($ $kargs names syms body)
|
|
(define (compute-k-live k)
|
|
(match (lookup-predecessors k dfg)
|
|
((_) post-live)
|
|
(_ (recompute-live-slots k nargs))))
|
|
(let ((uses (vector-ref usev n)))
|
|
(match (find-call body)
|
|
(($ $continue k src (or ($ $call) ($ $callk)))
|
|
(allocate-call label k uses live (compute-k-live k)))
|
|
(($ $continue k src ($ $primcall)) #t)
|
|
(($ $continue k src ($ $values))
|
|
(allocate-values label k uses live (compute-k-live k)))
|
|
(($ $continue k src ($ $prompt escape? tag handler))
|
|
(allocate-prompt label k handler nargs))
|
|
(_ #f)))
|
|
(lp (1+ n) post-live))
|
|
((or ($ $kreceive) ($ $ktail))
|
|
(lp (1+ n) post-live)))))))
|
|
|
|
(define (visit-entry)
|
|
(define (visit-clauses n live)
|
|
(unless (eqv? live (add-live-slot 0 (empty-live-slots)))
|
|
(error "Unexpected clause live set"))
|
|
(set! nlocals 1)
|
|
(match (lookup-cont (idx->label n) dfg)
|
|
(($ $kclause arity ($ $cont kbody ($ $kargs names)) alternate)
|
|
(unless (eq? (idx->label (1+ n)) kbody)
|
|
(error "Unexpected label order"))
|
|
(let* ((nargs (length names))
|
|
(next (visit-clause (1+ n)
|
|
nargs
|
|
(fold allocate! live
|
|
(vector-ref defv (1+ n))
|
|
(cdr (iota (1+ nargs)))))))
|
|
(hashq-set! nlocals-table (idx->label n) nlocals)
|
|
(when (< next label-count)
|
|
(match alternate
|
|
(($ $cont kalt)
|
|
(unless (eq? kalt (idx->label next))
|
|
(error "Unexpected clause order"))))
|
|
(visit-clauses next live))))))
|
|
(match (lookup-cont (idx->label 0) dfg)
|
|
(($ $kfun src meta self)
|
|
(visit-clauses 1 (allocate-defs! 0 (empty-live-slots))))))
|
|
|
|
(compute-constants!)
|
|
(compute-uses-and-defs!)
|
|
(compute-unused-results!)
|
|
(compute-needs-hint!)
|
|
(visit-entry)
|
|
|
|
(make-allocation dfa slots
|
|
has-constv constant-values
|
|
call-allocations
|
|
nlocals-table)))
|