;;; Continuation-passing style (CPS) intermediate language (IL) ;; Copyright (C) 2013-2018,2020,2021,2023 Free Software Foundation, Inc. ;;; This library is free software; you can redistribute it and/or modify it ;;; under the terms of the GNU Lesser General Public License as published by ;;; the Free Software Foundation; either version 3 of the License, or (at ;;; your option) any later version. ;;; ;;; This library is distributed in the hope that it will be useful, but ;;; WITHOUT ANY WARRANTY; without even the implied warranty of ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser ;;; General Public License for more details. ;;; ;;; You should have received a copy of the GNU Lesser General Public License ;;; along with this program. If not, see . ;;; Commentary: ;;; ;;; Optimizations on CPS. ;;; ;;; Code: (define-module (language cps optimize) #:use-module (ice-9 match) #:use-module (language cps closure-conversion) #:use-module (language cps contification) #:use-module (language cps cse) #:use-module (language cps dce) #:use-module (language cps devirtualize-integers) #:use-module (language cps elide-arity-checks) #:use-module (language cps licm) #:use-module (language cps peel-loops) #:use-module (language cps prune-top-level-scopes) #:use-module (language cps renumber) #:use-module (language cps rotate-loops) #:use-module (language cps return-types) #:use-module (language cps self-references) #:use-module (language cps simplify) #:use-module (language cps specialize-numbers) #:use-module (language cps specialize-primcalls) #:use-module (language cps split-rec) #:use-module (language cps switch) #:use-module (language cps type-fold) #:use-module (language cps verify) #:use-module (system base optimize) #:use-module (system base target) #:export (optimize-higher-order-cps optimize-first-order-cps cps-optimizations make-cps-lowerer)) (define *debug?* #f) (define (maybe-verify program) (if *debug?* (verify program) program)) (define-syntax-rule (define-optimizer optimize (pass kw) ...) (define* (optimize program #:optional (opts '())) ;; This series of assignments to `program' used to be a series of ;; let* bindings of `program', as you would imagine. In compiled ;; code this is fine because the compiler is able to allocate all ;; let*-bound variable to the same slot, which also means that the ;; garbage collector doesn't have to retain so many copies of the ;; term being optimized. However during bootstrap, the interpreter ;; doesn't do this optimization, leading to excessive data retention ;; as the terms are rewritten. To marginally improve bootstrap ;; memory usage, here we use set! instead. The compiler should ;; produce the same code in any case, though currently it does not ;; because it doesn't do escape analysis on the box created for the ;; set!. (maybe-verify program) (set! program (if (assq-ref opts kw) (maybe-verify (pass program)) program)) ... (maybe-verify program))) ;; Passes that are needed: ;; ;; * Abort contification: turning abort primcalls into continuation ;; calls, and eliding prompts if possible. ;; (define-optimizer optimize-higher-order-cps ;; FIXME: split-rec call temporarily moved to compile-bytecode and run ;; unconditionally, because closure conversion requires it. Move the ;; pass back here when that's fixed. ;; ;; (split-rec #:split-rec?) (eliminate-dead-code #:eliminate-dead-code?) (prune-top-level-scopes #:prune-top-level-scopes?) (simplify #:simplify?) (contify #:contify?) (simplify #:simplify?) (devirtualize-integers #:devirtualize-integers?) (peel-loops #:peel-loops?) (eliminate-common-subexpressions #:cse?) (type-fold #:type-fold?) (resolve-self-references #:resolve-self-references?) (eliminate-dead-code #:eliminate-dead-code?) (simplify #:simplify?)) (define-optimizer optimize-first-order-cps (elide-arity-checks #:elide-arity-checks?) (specialize-numbers #:specialize-numbers?) (hoist-loop-invariant-code #:licm?) (specialize-primcalls #:specialize-primcalls?) (optimize-branch-chains #:optimize-branch-chains?) (eliminate-common-subexpressions #:cse?) (optimize-known-return-types #:optimize-known-return-types?) (eliminate-dead-code #:eliminate-dead-code?) ;; Running simplify here enables rotate-loops to do a better job. (simplify #:simplify?) (rotate-loops #:rotate-loops?) (simplify #:simplify?)) (define (cps-optimizations) (available-optimizations 'cps)) (define (make-backend-cps-lowerer optimization-level opts) (let* ((iface (resolve-interface `(language cps ,(target-runtime)))) (make-lowerer (module-ref iface 'make-lowerer))) (make-lowerer optimization-level opts))) (define (lower-cps/generic exp opts) ;; FIXME: For now the closure conversion pass relies on $rec instances ;; being separated into SCCs. We should fix this to not be the case, ;; and instead move the split-rec pass back to ;; optimize-higher-order-cps. (set! exp (split-rec exp)) (set! exp (optimize-higher-order-cps exp opts)) (set! exp (convert-closures exp)) (optimize-first-order-cps exp opts)) (define (select-optimizations optimization-level opts all-opts) (define (kw-arg-ref args kw default) (match (memq kw args) ((_ val . _) val) (_ default))) (define (enabled-for-level? level) (<= level optimization-level)) (let lp ((all-opts all-opts)) (match all-opts (() '()) (((kw level) . all-opts) (acons kw (kw-arg-ref opts kw (enabled-for-level? level)) (lp all-opts)))))) (define (make-cps-lowerer optimization-level opts) (define generic-opts (select-optimizations optimization-level opts (cps-optimizations))) (define lower-cps/backend (make-backend-cps-lowerer optimization-level opts)) (lambda (exp env) (renumber (lower-cps/backend (lower-cps/generic exp generic-opts) env))))