;;; Exceptions ;;; Copyright (C) 2019-2020 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: ;;; ;;; Definition of the standard exception types. ;;; ;;; Code: (define-module (ice-9 exceptions) #:re-export (&exception make-exception make-exception-type simple-exceptions exception? exception-type? exception-predicate exception-accessor exception-kind exception-args &error &programming-error &quit-exception &non-continuable raise-exception with-exception-handler) #:export (define-exception-type &message make-exception-with-message exception-with-message? exception-message &warning make-warning warning? make-error error? &external-error make-external-error external-error? make-quit-exception quit-exception? make-programming-error programming-error? &assertion-failure make-assertion-failure assertion-failure? &irritants make-exception-with-irritants exception-with-irritants? exception-irritants &origin make-exception-with-origin exception-with-origin? exception-origin make-non-continuable-error non-continuable-error? &implementation-restriction make-implementation-restriction-error implementation-restriction-error? &lexical make-lexical-error lexical-error? &syntax make-syntax-error syntax-error? syntax-error-form syntax-error-subform &undefined-variable make-undefined-variable-error undefined-variable-error? raise-continuable guard)) (define-syntax define-exception-type-procedures (syntax-rules () ((_ exception-type supertype constructor predicate (field accessor) ...) (begin (define constructor (record-constructor exception-type)) (define predicate (exception-predicate exception-type)) (define accessor (exception-accessor exception-type (record-accessor exception-type 'field))) ...)))) (define-syntax define-exception-type (syntax-rules () ((_ exception-type supertype constructor predicate (field accessor) ...) (begin (define exception-type (make-record-type 'exception-type '((immutable field) ...) #:parent supertype #:extensible? #t)) (define-exception-type-procedures exception-type supertype constructor predicate (field accessor) ...))))) (define-exception-type-procedures &error &exception make-error error?) (define-exception-type-procedures &programming-error &error make-programming-error programming-error?) (define-exception-type &assertion-failure &programming-error make-assertion-failure assertion-failure?) (define-exception-type &message &exception make-exception-with-message exception-with-message? (message exception-message)) (define-exception-type &warning &exception make-warning warning?) (define-exception-type &external-error &error make-external-error external-error?) (define-exception-type &irritants &exception make-exception-with-irritants exception-with-irritants? (irritants exception-irritants)) (define-exception-type &origin &exception make-exception-with-origin exception-with-origin? (origin exception-origin)) (define-exception-type-procedures &non-continuable &programming-error make-non-continuable-error non-continuable-error?) (define-exception-type &implementation-restriction &programming-error make-implementation-restriction-error implementation-restriction-error?) (define-exception-type &lexical &programming-error make-lexical-error lexical-error?) (define-exception-type &syntax &programming-error make-syntax-error syntax-error? (form syntax-error-form) (subform syntax-error-subform)) (define-exception-type &undefined-variable &programming-error make-undefined-variable-error undefined-variable-error?) (define make-exception-with-kind-and-args (record-constructor &exception-with-kind-and-args)) (define make-quit-exception (record-constructor &quit-exception)) (define quit-exception? (exception-predicate &quit-exception)) (define (default-guile-exception-converter key args) (make-exception (make-error) (guile-common-exceptions key args))) (define (guile-common-exceptions key args) (apply (case-lambda ((subr msg margs . _) (make-exception (make-exception-with-origin subr) (make-exception-with-message msg) (make-exception-with-irritants margs))) (_ (make-exception-with-irritants args))) args)) (define (convert-guile-exception key args) (let ((converter (assv-ref guile-exception-converters key))) (make-exception (or (and converter (converter key args)) (default-guile-exception-converter key args)) (make-exception-with-kind-and-args key args)))) (define (raise-continuable obj) (raise-exception obj #:continuable? #t)) ;;; Exception printing (define (exception-printer port key args punt) (cond ((and (= 1 (length args)) (exception? (car args))) (display "ERROR:\n" port) (format-exception port (car args))) (else (punt)))) (define (format-exception port exception) (let ((components (simple-exceptions exception))) (if (null? components) (format port "Empty exception object") (let loop ((i 1) (components components)) (cond ((pair? components) (format port " ~a. " i) (format-simple-exception port (car components)) (when (pair? (cdr components)) (newline port)) (loop (+ i 1) (cdr components)))))))) (define (format-simple-exception port exception) (let* ((type (struct-vtable exception)) (name (record-type-name type)) (fields (record-type-fields type))) (cond ((null? fields) (format port "~a" name)) ((null? (cdr fields)) (format port "~a: ~s" name (struct-ref exception 0))) (else (format port "~a:\n" name) (let lp ((fields fields) (i 0)) (let ((field (car fields)) (fields (cdr fields))) (format port " ~a: ~s" field (struct-ref exception i)) (unless (null? fields) (newline port) (lp fields (+ i 1))))))))) (set-exception-printer! '%exception exception-printer) ;; Guile exception converters ;; ;; Each converter is a procedure (converter KEY ARGS) that returns ;; either an exception object or #f. If #f is returned, ;; 'default-guile-exception-converter' will be used. (define (guile-syntax-error-converter key args) (apply (case-lambda ((who what where form subform . extra) (make-exception (make-syntax-error form subform) (make-exception-with-origin who) (make-exception-with-message what))) (_ #f)) args)) (define make-quit-exception (record-constructor &quit-exception)) (define (guile-quit-exception-converter key args) (define code (cond ((not (pair? args)) 0) ((integer? (car args)) (car args)) ((not (car args)) 1) (else 0))) (make-exception (make-quit-exception code) (guile-common-exceptions key args))) (define (guile-lexical-error-converter key args) (make-exception (make-lexical-error) (guile-common-exceptions key args))) (define (guile-assertion-failure-converter key args) (make-exception (make-assertion-failure) (guile-common-exceptions key args))) (define (guile-undefined-variable-error-converter key args) (make-exception (make-undefined-variable-error) (guile-common-exceptions key args))) (define (guile-implementation-restriction-converter key args) (make-exception (make-implementation-restriction-error) (guile-common-exceptions key args))) (define (guile-external-error-converter key args) (make-exception (make-external-error) (guile-common-exceptions key args))) (define (guile-system-error-converter key args) (apply (case-lambda ((subr msg msg-args errno . rest) ;; XXX TODO we should return a more specific error ;; (usually an I/O error) as expected by R6RS programs. ;; Unfortunately this often requires the 'filename' (or ;; other?) which is not currently provided by the native ;; Guile exceptions. (make-exception (make-external-error) (guile-common-exceptions key args))) (_ (guile-external-error-converter key args))) args)) ;; TODO: Arrange to have the needed information included in native ;; Guile I/O exceptions, and arrange here to convert them to the ;; proper exceptions. Remove the earlier exception conversion ;; mechanism: search for 'with-throw-handler' in the 'rnrs' ;; tree, e.g. 'with-i/o-filename-exceptions' and ;; 'with-i/o-port-error' in (rnrs io ports). ;; XXX TODO: How should we handle the 'misc-error', 'vm-error', and ;; 'signal' native Guile exceptions? ;; XXX TODO: Should we handle the 'quit' exception specially? ;; An alist mapping native Guile exception keys to converters. (define guile-exception-converters `((quit . ,guile-quit-exception-converter) (read-error . ,guile-lexical-error-converter) (syntax-error . ,guile-syntax-error-converter) (unbound-variable . ,guile-undefined-variable-error-converter) (wrong-number-of-args . ,guile-assertion-failure-converter) (wrong-type-arg . ,guile-assertion-failure-converter) (keyword-argument-error . ,guile-assertion-failure-converter) (out-of-range . ,guile-assertion-failure-converter) (regular-expression-syntax . ,guile-assertion-failure-converter) (program-error . ,guile-assertion-failure-converter) (goops-error . ,guile-assertion-failure-converter) (null-pointer-error . ,guile-assertion-failure-converter) (system-error . ,guile-system-error-converter) (host-not-found . ,guile-external-error-converter) (getaddrinfo-error . ,guile-external-error-converter) (no-data . ,guile-external-error-converter) (no-recovery . ,guile-external-error-converter) (try-again . ,guile-external-error-converter) (stack-overflow . ,guile-implementation-restriction-converter) (numerical-overflow . ,guile-implementation-restriction-converter) (memory-allocation-error . ,guile-implementation-restriction-converter))) (define (set-guile-exception-converter! key proc) (set! guile-exception-converters (acons key proc guile-exception-converters))) ;; Override core definition. (set! make-exception-from-throw convert-guile-exception) (define-syntax guard (lambda (stx) "Establish an exception handler during the evaluation of an expression. @example (guard (@var{exn} @var{clause1} @var{clause2} ...) @var{body} @var{body*} ...) @end example Each @var{clause} should have the same form as a @code{cond} clause. The @code{(begin body body* ...)} is evaluated with an exception handler that binds the raised object to @var{exn} and within the scope of that binding evaluates the clauses as if they were the clauses of a cond expression. When a clause of that implicit cond expression matches, its consequent is evaluated with the continuation and dynamic environment of the @code{guard} expression. If every clause's test evaluates to false and there is no @code{else} clause, then @code{raise-continuable} is re-invoked on the raised object, within the dynamic environment of the original call to raise except that the current exception handler is that of the guard expression. Note that in a slight deviation from SRFI-34, R6RS, and R7RS, Guile evaluates the clause tests within the continuation of the exception handler, not the continuation of the @code{guard}. This allows unhandled exceptions to continue to dispatch within the original continuation, without unwinding then rewinding any intermediate @code{dynamic-wind} invocations." (define (dispatch tag exn clauses) (define (build-clause test handler clauses) #`(let ((t #,test)) (if t (abort-to-prompt #,tag #,handler t) #,(dispatch tag exn clauses)))) (syntax-case clauses (=> else) (() #`(raise-continuable #,exn)) (((test => f) . clauses) (build-clause #'test #'(lambda (res) (f res)) #'clauses)) (((else e e* ...) . clauses) (build-clause #'#t #'(lambda (res) e e* ...) #'clauses)) (((test) . clauses) (build-clause #'test #'(lambda (res) res) #'clauses)) (((test e* ...) . clauses) (build-clause #'test #'(lambda (res) e* ...) #'clauses)))) (syntax-case stx () ((guard (exn clause clause* ...) body body* ...) (identifier? #'exn) #`(let ((tag (make-prompt-tag))) (call-with-prompt tag (lambda () (with-exception-handler (lambda (exn) #,(dispatch #'tag #'exn #'(clause clause* ...))) (lambda () body body* ...))) (lambda (_ h v) (h v))))))))