;;; transformation of top-level bindings into letrec* ;; Copyright (C) 2019-2021,2023 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 library; if not, write to the Free Software ;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA (define-module (language tree-il letrectify) #:use-module ((srfi srfi-1) #:select (fold-right)) #:use-module (srfi srfi-11) #:use-module (ice-9 match) #:use-module (language tree-il) #:use-module (language tree-il effects) #:export (letrectify)) ;; Take a sequence of top-level definitions and turn the defintions into ;; letrec*. From this: ;; ;; (begin ;; (define a 10) ;; (define b (lambda () a)) ;; (foo a) ;; (define c (lambda () (set! c b) (c)))) ;; ;; To this: ;; ;; (letrec* ((a-var (module-make-local-var! (current-module) 'a)) ;; (a 10) ;; (_ (begin (variable-set! a-var a))) ;; (b-var (module-make-local-var! (current-module) 'b)) ;; (b (lambda () a)) ;; (_ (begin (variable-set! b-var b))) ;; (_ (begin (foo a) #t)) ;; (c-var (module-make-local-var! (current-module) 'c))) ;; (c (lambda () (variable-set! c-var b) ((variable-ref c-var)))) ;; (_ (begin (variable-set! c-var c)))) ;; (void)) ;; ;; Inside the compilation unit, references to "declarative" top-level ;; definitions are accessed directly as lexicals. A declarative ;; definition is a variable for which the expander knows the module, ;; which is defined in the compilation unit exactly one time, and which ;; is not assigned in the compilation unit. ;; ;; The assumption is that it's safe for the compiler to reason about the ;; *values* of declarative bindings, because they are immutable in ;; practice. Of course someone can come later from another compilation ;; unit or another module and use the private module API to mutate ;; definitions from this compilation unit; in that case, updates from ;; that third party may not be visible to users of declarative ;; definitions. That kind of use is not common, though. The letrectify ;; transformation is so important for performance that most users are ;; willing to accept the restrictions of this transformation. ;; ;; Incidentally, the later fix-letrec and peval passes should optimize ;; the above example to: ;; ;; (begin ;; (variable-set! (module-make-local-var! (current-module) 'a) 10) ;; (variable-set! (module-make-local-var! (current-module) 'b) ;; (lambda () 10)) ;; (foo 10) ;; (let ((c-var (module-make-local-var! (current-module) 'c))) ;; (variable-set! c-var ;; (lambda () ;; (variable-set! c-var (lambda () 10)) ;; ((variable-ref c-var)))) ;; (void))) ;; ;; As you can see, letrectification allowed for inlining of the uses of ;; both A and B. ;; (define for-each-fold (make-tree-il-folder)) (define (tree-il-for-each f x) (for-each-fold x (lambda (x) (f x) (values)) (lambda (x) (values)))) (define (compute-declarative-toplevels x) (define dynamic (make-hash-table)) (define defined (make-hash-table)) (define assigned (make-hash-table)) (tree-il-for-each (lambda (x) (match x (($ src mod name) (if mod (hash-set! assigned (cons mod name) #t) (hashq-set! dynamic name #t))) (($ src mod name expr) (if mod (hash-set! (if (hash-ref defined (cons mod name)) assigned defined) (cons mod name) expr) (hashq-set! dynamic name #t))) (_ (values)))) x) (let ((declarative (make-hash-table))) (define (declarative-module? mod) (let ((m (resolve-module mod #f #:ensure #f))) (and m (module-declarative? m)))) (hash-for-each (lambda (k expr) (match k ((mod . name) (unless (or (hash-ref assigned k) (hashq-ref dynamic name) (not (declarative-module? mod))) (hash-set! declarative k expr))))) defined) declarative)) (define (compute-private-toplevels declarative) ;; Set of variables exported by the modules of declarative bindings in ;; this compilation unit. (define exports (make-hash-table)) ;; If a module exports a macro, that macro could implicitly export any ;; top-level binding in a module; we have to avoid sealing private ;; bindings in that case. (define exports-macro? (make-hash-table)) (hash-for-each (lambda (k _) (match k ((mod . name) (unless (hash-get-handle exports-macro? mod) (hash-set! exports-macro? mod #f) (let ((i (module-public-interface (resolve-module mod)))) (when i (module-for-each (lambda (k v) (hashq-set! exports v k) (when (and (variable-bound? v) (macro? (variable-ref v))) (hash-set! exports-macro? mod #t))) i))))))) declarative) (let ((private (make-hash-table))) (hash-for-each (lambda (k _) (match k ((mod . name) (unless (or (hash-ref exports-macro? mod) (hashq-ref exports (module-local-variable (resolve-module mod) name))) (hash-set! private k #t))))) declarative) private)) (define* (letrectify expr #:key (seal-private-bindings? #f)) (define declarative (compute-declarative-toplevels expr)) (define private (if seal-private-bindings? (compute-private-toplevels declarative) (make-hash-table))) (define declarative-box+value (let ((tab (make-hash-table))) (hash-for-each (lambda (key val) (let ((box (and (not (hash-ref private key)) (gensym))) (val (gensym))) (hash-set! tab key (cons box val)))) declarative) (lambda (mod name) (hash-ref tab (cons mod name))))) (define compute-effects ;; Assume all lexicals are assigned, for the purposes of this ;; transformation. (It doesn't matter.) (let ((assigned? (lambda (sym) #t))) (make-effects-analyzer assigned?))) (define (can-elide-statement? stmt) (let ((effects (compute-effects stmt))) (effect-free? (exclude-effects effects (logior &allocation &zero-values))))) (define (add-binding name var val tail) (match tail (($ src #t names vars vals tail) (make-letrec src #t (cons name names) (cons var vars) (cons val vals) tail)) (_ (make-letrec (tree-il-srcv tail) #t (list name) (list var) (list val) tail)))) (define (add-statement src stmt tail) (if (can-elide-statement? stmt) tail (add-binding '_ (gensym "_") (make-seq src stmt (make-void src)) tail))) (define (visit-expr expr) (post-order (lambda (expr) (match expr (($ src mod name) (match (declarative-box+value mod name) (#f expr) ((box . value) (make-lexical-ref src name value)))) (_ expr))) expr)) (define (visit-top-level expr mod-vars) (match expr (($ src mod name exp) (match (declarative-box+value mod name) (#f (values (visit-expr expr) mod-vars)) ((#f . value) (values (add-binding name value (visit-expr exp) (make-void src)) mod-vars)) ((box . value) (match (assoc-ref mod-vars mod) (#f (let* ((mod-var (gensym "mod")) (mod-vars (acons mod mod-var mod-vars))) (call-with-values (lambda () (visit-top-level expr mod-vars)) (lambda (tail mod-vars) (values (add-binding 'mod mod-var (make-primcall src 'current-module '()) tail) mod-vars))))) (mod-var (let* ((loc (make-primcall src 'module-ensure-local-variable! (list (make-lexical-ref src 'mod mod-var) (make-const src name)))) (exp (visit-expr exp)) (ref (make-lexical-ref src name value)) (init (make-primcall src '%variable-set! (list (make-lexical-ref src name box) ref)))) (values (add-binding name box loc (add-binding name value exp (add-statement src init (make-void src)))) mod-vars))))))) (($ src names vars vals body) (let lp ((names names) (vars vars) (vals vals) (mod-vars mod-vars)) (match (vector names vars vals) (#(() () ()) (values (visit-expr body) mod-vars)) (#((name . names) (var . vars) (val . vals)) (let* ((val (visit-expr val)) (mod-vars (match val (($ _ ($ _ '(guile) 'define-module* #f) (($ _ mod) . args)) (acons mod var mod-vars)) (_ mod-vars)))) (let-values (((exp mod-vars) (lp names vars vals mod-vars))) (values (add-binding name var val exp) mod-vars))))))) (($ src head tail) (let*-values (((head mod-vars) (visit-top-level head mod-vars)) ((tail mod-vars) (visit-top-level tail mod-vars))) (values (match head (($ src2 #t names vars vals head) (fold-right add-binding (add-statement src head tail) names vars vals)) (else (add-statement src head tail))) mod-vars))) ;; What would the advantages/disadvantages be if we flattened all ;; bindings here, even those from nested let/letrec? (_ (values (visit-expr expr) mod-vars)))) (values (visit-top-level expr '())))