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- ; Part of Scheme 48 1.9. See file COPYING for notices and license.
- ; Authors: Richard Kelsey, Jonathan Rees, Mike Sperber, Robert Ransom
- ; Macro expansion.
- ;----------------
- ; Scanning for definitions.
- ;
- ; Returns a list of forms expanded to the point needed to distinguish
- ; definitions from other forms. Definitions and syntax definitions are
- ; added to ENV.
- (define (scan-forms forms env)
- (let loop ((forms forms) (expanded '()))
- (if (null? forms)
- (reverse expanded)
- (let ((form (expand-head (car forms) env))
- (more-forms (cdr forms)))
- (cond ((define? form)
- (loop more-forms
- (cons (scan-define form env) expanded)))
- ((define-syntax? form)
- (loop more-forms
- (append (scan-define-syntax form env)
- expanded)))
- ((begin? form)
- (loop (append (cdr form) more-forms)
- expanded))
- (else
- (loop more-forms (cons form expanded))))))))
- (define (expand-scanned-form form env)
- (if (define? form)
- (expand-define form env)
- (expand form env)))
- (define (scan-define form env)
- (let ((new-form (destructure-define form)))
- (if new-form
- (begin
- (comp-env-define! env (cadr new-form) usual-variable-type)
- new-form)
- (syntax-violation 'syntax-rules "ill-formed definition" form))))
- (define (expand-define form env)
- (make-node operator/define
- (list (car form)
- (expand (cadr form) env)
- (expand (caddr form) env))))
- (define (scan-define-syntax form env)
- (if (and (or (this-long? form 3)
- (this-long? form 4)) ; may have name list for reifier
- (name? (cadr form)))
- (let ((name (cadr form))
- (source (caddr form))
- (package (extract-package-from-comp-env env)))
- (comp-env-define! env
- name
- syntax-type
- (process-syntax (if (null? (cdddr form))
- source
- `(cons ,source ',(cadddr form)))
- env
- name
- package))
- '())
- (syntax-violation 'define-syntax "ill-formed syntax definition" form)))
- ; This is used by the ,expand command.
- (define (expand-form form env)
- (let loop ((forms (list form)) (expanded '()))
- (if (null? forms)
- (if (= (length expanded) 1)
- (car expanded)
- (make-node operator/begin (cons 'begin (reverse expanded))))
- (let ((form (expand-head (car forms) env))
- (more-forms (cdr forms)))
- (cond ((define? form)
- (let* ((new-form (destructure-define form))
- (temp (if new-form
- (expand-define new-form env)
- (syntax-violation 'expand "ill-formed definition"
- form))))
- (loop more-forms (cons temp expanded))))
- ((define-syntax? form)
- (loop more-forms
- (cons (make-node operator/define-syntax
- (list (car form)
- (expand (cadr form) env)
- (make-node operator/quote
- `',(caddr form))))
- expanded)))
- ((begin? form)
- (loop (append (cdr form) more-forms)
- expanded))
- (else
- (loop more-forms
- (cons (expand form env) expanded))))))))
- ;----------------
- ; Looking for definitions.
- ; This expands the form until it reaches a name, a form whose car is an
- ; operator, a form whose car is unknown, or a literal.
- (define (expand-head form env)
- (cond ((node? form)
- (if (and (name-node? form)
- (not (node-ref form 'binding)))
- (expand-name (node-form form) env)
- form))
- ((name? form)
- (expand-name form env))
- ((pair? form)
- (let ((op (expand-head (car form) env)))
- (if (and (node? op)
- (name-node? op))
- (let ((probe (node-ref op 'binding)))
- (if (binding? probe)
- (let ((s (binding-static probe)))
- (cond ((and (transform? s)
- (eq? (binding-type probe) syntax-type))
- (expand-macro-application
- s (cons op (cdr form)) env expand-head))
- ((and (operator? s)
- (eq? s operator/structure-ref))
- (expand-structure-ref form env expand-head))
- (else
- (cons op (cdr form)))))
- (cons op (cdr form))))
- (cons op (cdr form)))))
- (else
- form)))
- ; Returns a DEFINE of the form (define <id> <value>). This handles the following
- ; kinds of defines:
- ; (define <id> <value>)
- ; (define <id>) ; value is unassigned
- ; (define (<id> . <formals>) <value>) ; value is a lambda
- ; The return value is #f if any syntax error is found.
- (define (destructure-define form)
- (if (at-least-this-long? form 2)
- (let ((pat (cadr form))
- (operator (car form)))
- (cond ((pair? pat)
- (if (and (name? (car pat))
- (names? (cdr pat))
- (not (null? (cddr form))))
- `(,operator ,(car pat)
- (,operator/lambda ,(cdr pat)
- . ,(cddr form)))
- #f))
- ((null? (cddr form))
- `(,operator ,pat (,operator/unassigned)))
- ((null? (cdddr form))
- `(,operator ,pat ,(caddr form)))
- (else
- #f)))
- #f))
- (define (make-operator-predicate operator-id)
- (let ((operator (get-operator operator-id syntax-type)))
- (lambda (form)
- (and (pair? form)
- (eq? operator
- (static-value (car form)))))))
- (define define? (make-operator-predicate 'define))
- (define begin? (make-operator-predicate 'begin))
- (define define-syntax? (make-operator-predicate 'define-syntax))
- (define (static-value form)
- (if (and (node? form)
- (name-node? form))
- (let ((probe (node-ref form 'binding)))
- (if (binding? probe)
- (binding-static probe)
- #f))
- #f))
- ; --------------------
- ; The horror of internal defines
- ; This returns a single node, either a LETREC, if there are internal definitions,
- ; or a BEGIN if there aren't any. If there are no expressions we turn the last
- ; definition back into an expression, thus causing the correct warning to be
- ; printed by the compiler.
- (define (expand-body body env)
- (if (null? (cdr body)) ;++
- (expand (car body) env)
- (call-with-values
- (lambda ()
- (scan-body-forms body env '()))
- (lambda (defs exps env)
- (if (null? defs)
- (make-node operator/begin (cons 'begin (expand-list exps env)))
- (call-with-values
- (lambda ()
- (if (null? exps)
- (values (reverse (cdr defs))
- `((,operator/define ,(caar defs) ,(cdar defs))))
- (values (reverse defs)
- exps)))
- (lambda (defs exps)
- (expand-letrec operator/letrec
- (map car defs)
- (map cdr defs)
- exps
- env))))))))
- ; Walk through FORMS looking for definitions. ENV is the current environment,
- ; DEFS a list of definitions found so far.
- ;
- ; Returns three values: a list of (define <name> <value>) lists, a list of
- ; remaining forms, and the environment to use for expanding all of the above.
- (define (scan-body-forms forms env defs)
- (if (null? forms)
- (values defs '() env)
- (let ((form (expand-head (car forms) env))
- (more-forms (cdr forms)))
- (cond ((define? form)
- (let ((new-form (destructure-define form)))
- (if new-form
- (let* ((name (cadr new-form))
- (node (make-node operator/name name)))
- (scan-body-forms more-forms
- (bind1 name node env)
- (cons (cons node
- (caddr new-form))
- defs)))
- (syntax-violation 'scan-body-forms
- "ill-formed definition" form))))
- ((begin? form)
- (call-with-values
- (lambda ()
- (scan-body-forms (cdr form)
- env
- defs))
- (lambda (new-defs exps env)
- (cond ((null? exps)
- (scan-body-forms more-forms env new-defs))
- ((eq? new-defs defs)
- (values defs (append exps more-forms) env))
- (else
- (body-lossage forms env))))))
- (else
- (values defs (cons form more-forms) env))))))
- (define (body-lossage node env)
- (syntax-violation 'body
- "definitions and expressions intermixed"
- (schemify node env)))
- ;--------------------
- ; Expands all macros in FORM and returns a node.
- (define (expand form env)
- (cond ((node? form)
- (if (and (name-node? form)
- (not (node-ref form 'binding)))
- (expand-name (node-form form) env)
- form))
- ((name? form)
- (expand-name form env))
- ((pair? form)
- (if (operator? (car form))
- (expand-operator-form (car form) (car form) form env)
- (let ((op-node (expand (car form) env)))
- (if (name-node? op-node)
- (let ((probe (node-ref op-node 'binding)))
- (if (binding? probe)
- (let ((s (binding-static probe)))
- (cond ((operator? s)
- (expand-operator-form s op-node form env))
- ((and (transform? s)
- (eq? (binding-type probe) syntax-type))
- ;; Non-syntax transforms get done later
- (expand-macro-application
- s (cons op-node (cdr form)) env expand))
- (else
- (expand-call op-node form env))))
- (expand-call op-node form env)))
- (expand-call op-node form env)))))
- ((literal? form)
- (expand-literal form))
- ;; ((qualified? form) ...)
- (else
- (syntax-violation 'expand "invalid expression" form))))
- (define (expand-list exps env)
- (map (lambda (exp)
- (expand exp env))
- exps))
- (define (expand-literal exp)
- (make-node operator/literal (make-immutable! exp)))
- (define (expand-call proc-node exp env)
- (if (list? exp)
- (make-node operator/call
- (cons proc-node (expand-list (cdr exp) env)))
- (syntax-violation 'expand-call "invalid expression" exp)))
- ; An environment is a procedure that takes a name and returns one of
- ; the following:
- ;
- ; 1. A binding record.
- ; 2. A pair (<binding-record> . <path>)
- ; 3. A node, which is taken to be a substitution for the name.
- ; Or, for lexically bound variables, this is just a name node.
- ; 4. #f, for unbound variables
- ;
- ; In case 1, EXPAND caches the binding as the node's BINDING property.
- ; In case 2, it simply returns the node.
- (define (expand-name name env)
- (let ((binding (lookup env name)))
- (if (node? binding)
- binding
- (let ((node (make-node operator/name name)))
- (node-set! node 'binding (or binding 'unbound))
- node))))
- ; Expand a macro. EXPAND may either be expand or expand-head.
- (define (expand-macro-application transform form env-of-use expand)
- (call-with-values
- (lambda ()
- (maybe-apply-macro-transform transform
- form
- (node-form (car form))
- env-of-use))
- (lambda (new-form new-env)
- (if (eq? new-form form)
- (syntax-violation (schemify (car form) env-of-use)
- "use of macro doesn't match definition"
- (cons (schemify (car form) env-of-use)
- (desyntaxify (cdr form))))
- (expand new-form new-env)))))
- ;--------------------
- ; Specialist classifiers for particular operators
- (define (expand-operator-form op op-node form env)
- ((operator-table-ref expanders (operator-uid op))
- op op-node form env))
- (define expanders
- (make-operator-table (lambda (op op-node form env)
- (if (let ((nargs (operator-nargs op)))
- (or (not nargs)
- (and (list? (cdr form))
- (= nargs (length (cdr form))))))
- (make-node op
- (cons op-node
- (expand-list (cdr form) env)))
- (expand-call op-node form env)))))
- (define (define-expander name proc)
- (operator-define! expanders name syntax-type proc))
- ; Definitions are not expressions.
- (define-expander 'define
- (lambda (op op-node exp env)
- (syntax-violation 'define
- (if (destructure-define exp)
- "definition in expression context"
- "ill-formed definition")
- exp)))
- ; Remove generated names from quotations.
- (define-expander 'quote
- (lambda (op op-node exp env)
- (if (this-long? exp 2)
- (make-node op (list op (desyntaxify (cadr exp))))
- (syntax-violation 'quote "invalid expression" exp))))
- ; Don't evaluate, but don't remove generated names either. This is
- ; used when writing macro-defining macros. Once we have avoided the
- ; use of DESYNTAXIFY it is safe to replace this with regular QUOTE.
- (define-expander 'code-quote
- (lambda (op op-node exp env)
- (if (this-long? exp 2)
- (make-node operator/quote (list op (cadr exp)))
- (syntax-violation 'code-quote "invalid expression" exp))))
- ; Convert one-armed IF to two-armed IF.
- (define-expander 'if
- (lambda (op op-node exp env)
- (cond ((this-long? exp 3)
- (make-node op
- (cons op
- (expand-list (append (cdr exp)
- (list (unspecific-node)))
- env))))
- ((this-long? exp 4)
- (make-node op
- (cons op (expand-list (cdr exp) env))))
- (else
- (syntax-violation 'if "invalid expression" exp)))))
- (define (unspecific-node)
- (make-node operator/unspecific '(unspecific)))
- ; For the module system:
- (define-expander 'structure-ref
- (lambda (op op-node form env)
- (expand-structure-ref form env expand)))
- ; This is also called by EXPAND-HEAD, which passes in a different expander.
- (define (expand-structure-ref form env expander)
- (let ((struct-node (expand (cadr form) env))
- (lose (lambda ()
- (syntax-violation 'structure-ref "invalid structure reference" form))))
- (if (and (this-long? form 3)
- (name? (caddr form))
- (name-node? struct-node))
- (let ((b (node-ref struct-node 'binding)))
- (if (and (binding? b)
- (binding-static b)) ; (structure? ...)
- (expander (generate-name (desyntaxify (caddr form))
- (binding-static b)
- (node-form struct-node))
- env)
- (lose)))
- (lose))))
- ; Scheme 48 internal special form principally for use by the
- ; DEFINE-STRUCTURES macro.
- (define-expander '%file-name%
- (lambda (op op-node form env)
- (make-node operator/quote `',(source-file-name env))))
- ; Checking the syntax of others special forms
- (define-expander 'lambda
- (lambda (op op-node exp env)
- (if (and (at-least-this-long? exp 3)
- (names? (cadr exp)))
- (expand-lambda (cadr exp) (cddr exp) env)
- (syntax-violation 'lambda "invalid expression" exp))))
- (define (expand-lambda names body env)
- (call-with-values
- (lambda ()
- (bind-names names env))
- (lambda (names env)
- (make-node operator/lambda
- (list 'lambda names (expand-body body env))))))
- (define (bind-names names env)
- (let loop ((names names) (nodes '()) (out-names '()))
- (cond ((null? names)
- (values (reverse nodes)
- (bind out-names nodes env)))
- ((name? names)
- (let ((last (make-node operator/name names)))
- (values (append (reverse nodes) last)
- (bind (cons names out-names) (cons last nodes) env))))
- (else
- (let ((node (make-node operator/name (car names))))
- (loop (cdr names) (cons node nodes) (cons (car names) out-names)))))))
- (define (names? l)
- (or (null? l)
- (name? l)
- (and (pair? l)
- (name? (car l))
- (names? (cdr l)))))
- (define-expander 'set!
- (lambda (op op-node exp env)
- (if (and (this-long? exp 3)
- (name? (cadr exp)))
- (make-node op (cons op (expand-list (cdr exp) env)))
- (syntax-violation 'set! "invalid expression" exp))))
- (define (letrec-expander op/letrec)
- (lambda (op op-node exp env)
- (if (and (at-least-this-long? exp 3)
- (let-specs? (cadr exp)))
- (let ((specs (cadr exp))
- (body (cddr exp)))
- (let* ((names (map (lambda (spec)
- (make-node operator/name (car spec)))
- specs))
- (env (bind (map car specs) names env)))
- (expand-letrec op/letrec names (map cadr specs) body env)))
- (syntax-violation 'letrec "invalid expression" exp))))
- (define-expander 'letrec
- (letrec-expander operator/letrec))
- (define-expander 'letrec*
- (letrec-expander operator/letrec*))
- (define (expand-letrec op/letrec names values body env)
- (let* ((new-specs (map (lambda (name value)
- (list name
- (expand value env)))
- names
- values)))
- (make-node op/letrec
- (list 'letrec new-specs (expand-body body env)))))
- (define-expander 'loophole
- (lambda (op op-node exp env)
- (if (this-long? exp 3)
- (make-node op (list op
- (sexp->type (desyntaxify (cadr exp)) #t)
- (expand (caddr exp) env)))
- (syntax-violation 'loophole "invalid expression" exp))))
- (define-expander 'let-syntax
- (lambda (op op-node exp env)
- (if (and (at-least-this-long? exp 3)
- (let-specs? (cadr exp)))
- (let ((specs (cadr exp)))
- (expand-body (cddr exp)
- (bind (map car specs)
- (map (lambda (spec)
- (make-binding syntax-type
- (list 'let-syntax)
- (process-syntax (cadr spec)
- env
- (car spec)
- env)))
- specs)
- env)))
- (syntax-violation 'let-syntax "invalid expression" exp))))
- (define-expander 'letrec-syntax
- (lambda (op op-node exp env)
- (if (and (at-least-this-long? exp 3)
- (let-specs? (cadr exp)))
- (let* ((specs (cadr exp))
- (bindings (map (lambda (spec)
- (make-binding syntax-type
- (list 'letrec-syntax)
- 'unassigned))
- specs))
- (new-env (bind (map car specs) bindings env)))
- (for-each (lambda (spec binding)
- (set-binding-static! binding
- (process-syntax (cadr spec)
- new-env
- (car spec)
- new-env)))
- specs bindings)
- (expand-body (cddr exp) new-env))
- (syntax-violation 'letrec-syntax "invalid expression" exp))))
-
- (define (process-syntax form env name env-or-package)
- (let ((eval+env (force (comp-env-macro-eval env))))
- (make-transform/macro ((car eval+env) form (cdr eval+env))
- env-or-package
- syntax-type
- form
- name)))
- ; This just looks up the names that the LAP code will want and replaces them
- ; with the appropriate node.
- ;
- ; (lap <id> (<free name> ...) <instruction> ...)
- (define-expander 'lap
- (lambda (op op-node exp env)
- (if (and (at-least-this-long? exp 4)
- (name? (cdr exp))
- (every name? (caddr exp)))
- (make-node op `(,op
- ,(desyntaxify (cadr exp))
- ,(map (lambda (name)
- (expand-name (cadr exp) env))
- (caddr exp))
- . ,(cdddr exp)))
- (syntax-violation 'lap "invalid expression" exp))))
- ; --------------------
- ; Syntax checking utilities
- (define (this-long? l n)
- (cond ((null? l)
- (= n 0))
- ((pair? l)
- (this-long? (cdr l) (- n 1)))
- (else
- #f)))
- (define (at-least-this-long? l n)
- (cond ((null? l)
- (<= n 0))
- ((pair? l)
- (at-least-this-long? (cdr l) (- n 1)))
- (else
- #f)))
- (define (let-specs? x)
- (or (null? x)
- (and (pair? x)
- (let ((s (car x)))
- (and (pair? s)
- (name? (car s))
- (pair? (cdr s))
- (null? (cddr s))))
- (let-specs? (cdr x)))))
- ; --------------------
- ; Utilities
- (define (literal? exp)
- (or (number? exp) (char? exp) (string? exp) (boolean? exp)
- (code-vector? exp)))
- (define (syntax? d)
- (cond ((operator? d)
- (eq? (operator-type d) syntax-type))
- ((transform? d)
- (eq? (transform-type d) syntax-type))
- (else #f)))
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