; Copyright (c) 1993-1999 by Richard Kelsey and Jonathan Rees. See file COPYING. ; Once we know that we want something to be inlined, the following things ; actually makes use of the fact. For procedures for which all ; arguments can be substituted unconditionally, we make a transform ; (a macro, really) that performs the substitution. (define (make-inline-transform node type package name) (let* ((free (find-node-usages node)) (env (package->environment package)) (qualified-free (map (lambda (name) (cons name (name->qualified name env))) free))) (let ((form (clean-node node '())) (aux-names (map (lambda (pair) (do ((name (cdr pair) (qualified-parent-name name))) ((not (qualified? name)) name))) qualified-free))) (make-transform (inline-transform form aux-names) package ;env ? type `(inline-transform ',(remove-bindings form qualified-free) ',aux-names) name)))) ; This routine is obligated to return an S-expression. ; It's better not to rely on the constancy of node id's, so ; the output language is a sort of quasi-Scheme. Any form that's a list ; has an operator name in its car. ; ; ENV is an a-list mapping names to qualified (for package variables) or ; non-clashing (for lexical variables) new names. ; ; What about SET! ? (define (clean-node node env) (cond ((name-node? node) (clean-lookup env node)) ((quote-node? node) `(quote ,(cadr (node-form node)))) ((lambda-node? node) (clean-lambda node env)) ((call-node? node) (cons 'call (map (lambda (node) (clean-node node env)) (node-form node)))) ((loophole-node? node) (let ((args (cdr (node-form node)))) `(loophole ,(type->sexp (car args) #t) ,(clean-node (cadr args) env)))) ;; LETREC had better not occur, since we ain't prepared for it ((pair? (node-form node)) (cons (operator-name (node-operator node)) (map (lambda (subnode) (clean-node subnode env)) (cdr (node-form node))))) (else (node-form node)))) ;literal (define (clean-lambda node env) (let* ((exp (node-form node)) (formals (cadr exp)) (env (fold (lambda (name-node env) `((,name-node . , (unused-name env (node-form name-node))) . ,env)) (normalize-formals formals) env))) `(lambda ,(let recur ((foo formals)) (cond ((node? foo) (clean-lookup env foo)) ((pair? foo) (cons (recur (car foo)) (recur (cdr foo)))) (else foo))) ; when does this happen? ,(clean-node (caddr exp) env)))) ; Package names get looked up by name, lexical names get looked up by the ; node itself. (define (clean-lookup env node) (let ((binding (node-ref node 'binding))) (if (binding? binding) `(package-name ,(node-form node) ,binding) (cdr (assq node env))))) ; I'm aware that this is pedantic. (define (unused-name env name) (let ((sym (name->symbol name))) (do ((i 0 (+ i 1)) (name sym (string->symbol (string-append (symbol->string sym) (number->string i))))) ((every (lambda (pair) (not (eq? name (cdr pair)))) env) name)))) ; We need to remove the binding records from the form that will be used for ; reification. (define (remove-bindings form free) (let label ((form form)) (if (pair? form) (case (car form) ((package-name) (cdr (assq (cadr form) free))) ; just the name ((quote) form) ((lambda) `(lambda ,(cadr form) ,(label (caddr form)))) (else (map label form))) form))) ;---------------- ; ST stands for substitution template (cf. MAKE-SUBSTITUTION-TEMPLATE) (define (inline-transform st aux-names) (cons (if (and (pair? st) (eq? (car st) 'lambda)) (let ((formals (cadr st)) (body (caddr st))) (lambda (exp package rename) (let ((args (cdr exp))) (if (= (length formals) (length args)) (reconstitute body package (make-substitution rename formals args)) ;; No need to generate warning since the type checker will ;; produce one. Besides, we don't want to produce a warning ;; for things like (> x y z). exp)))) (lambda (exp package rename) (cons (reconstitute st package rename) (cdr exp)))) aux-names)) (define (make-substitution rename formals args) (let ((subs (map cons formals args))) (lambda (name) (let ((probe (assq name subs))) (cond (probe (cdr probe)) ((generated? name) (signal 'note "this shouldn't happen - make-substitution" name) name) ;TEMPORARY KLUDGE. (else (rename name))))))) ; Turn an s-expression back into a node. ; ST is an S-expression as returned by MAKE-SUBSTITUTION-TEMPLATE. (define (reconstitute st package rename) (let label ((st st)) (cond ((symbol? st) (let ((foo (rename st))) (if (name? foo) (reconstitute-name foo package) foo))) ((qualified? st) (reconstitute-name (qualified->name st rename) package)) ((pair? st) (case (car st) ((quote) (make-node (get-operator 'quote) st)) ((package-name) (let ((node (make-node operator/name (cadr st)))) (node-set! node 'binding (caddr st)) node)) ((call) (make-node (get-operator 'call) (map label (cdr st)))) ((loophole) (make-node (get-operator 'loophole) (list 'loophole (sexp->type (cadr st) #t) (label (caddr st))))) ((lambda) (error "lambda substitution NYI" st)) (else (let ((keyword (car st))) (make-node (get-operator keyword) (cons keyword (map label (cdr st)))))))) (else (make-node operator/literal st))))) (define (reconstitute-name name package) (let ((binding (package-lookup package name)) (node (make-node operator/name name))) (if (binding? binding) (node-set! node 'binding binding)) node)) (define operator/name (get-operator 'name)) (define operator/literal (get-operator 'literal)) ; -------------------- ; Convert a qualified name #(>> parent-name symbol) to an alias. (define (qualified->name qualified rename) (let recur ((name qualified)) (if (qualified? name) (let ((parent (recur (qualified-parent-name name)))) (generate-name (qualified-symbol name) (get-qualified-env (generated-env parent) (generated-name parent)) parent)) (rename name)))) (define (get-qualified-env env parent) (let ((binding (generic-lookup env parent))) (if (binding? binding) (let ((static (binding-static binding))) (cond ((transform? static) (transform-env static)) ((structure? static) static) (else (error "invalid qualified reference" env parent static)))) (error "invalid qualified reference" env parent binding)))) ;---------------- (define quote-node? (node-predicate 'quote)) (define call-node? (node-predicate 'call)) (define lambda-node? (node-predicate 'lambda)) (define name-node? (node-predicate 'name)) (define loophole-node? (node-predicate 'loophole))