;;;; This file is for compiler tests which have side effects (e.g. ;;;; executing DEFUN) but which don't need any special side-effecting ;;;; environmental stuff (e.g. DECLAIM of particular optimization ;;;; settings). Similar tests which *do* expect special settings may ;;;; be in files compiler-1.impure.lisp, compiler-2.impure.lisp, etc. ;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; ;;;; While most of SBCL is derived from the CMU CL system, the test ;;;; files (like this one) were written from scratch after the fork ;;;; from CMU CL. ;;;; ;;;; This software is in the public domain and is provided with ;;;; absolutely no warranty. See the COPYING and CREDITS files for ;;;; more information. (cl:in-package :cl-user) ;;; In sbcl-0.6.10, Douglas Brebner reported that (SETF EXTERN-ALIEN) ;;; was messed up so badly that trying to execute expressions like ;;; this signalled an error. (setf (sb-alien:extern-alien "current_control_stack_pointer" sb-alien:unsigned) (sb-alien:extern-alien "current_control_stack_pointer" sb-alien:unsigned)) ;;; bug 133, fixed in 0.7.0.5: Somewhere in 0.pre7.*, C void returns ;;; were broken ("unable to use values types here") when ;;; auto-PROCLAIM-of-return-value was added to DEFINE-ALIEN-ROUTINE. (sb-alien:define-alien-routine ("free" free) void (ptr (* t) :in)) ;;; Types of alien functions were being incorrectly DECLAIMED when ;;; docstrings were included in the definition until sbcl-0.7.6.15. (sb-alien:define-alien-routine ("getenv" ftype-correctness) c-string "docstring" (name c-string)) (multiple-value-bind (function warningsp failurep) (compile nil '(lambda () (ftype-correctness))) (assert warningsp)) (multiple-value-bind (function warningsp failurep) (compile nil '(lambda () (ftype-correctness "FOO"))) (assert (not warningsp))) (multiple-value-bind (function warningsp failurep) (compile nil '(lambda () (ftype-correctness "FOO" "BAR"))) (assert warningsp)) ;;; This used to break due to too eager auxiliary type twiddling in ;;; parse-alien-record-type. (defparameter *maybe* nil) (defun with-alien-test-for-struct-plus-funcall () (with-alien ((x (struct bar (x unsigned) (y unsigned))) ;; bogus definition, but we just need the symbol (f (function int (* (struct bar))) :extern "printf")) (when *maybe* (alien-funcall f (addr x))))) ;;; Mutually referent structures (define-alien-type struct.1 (struct struct.1 (x (* (struct struct.2))) (y int))) (define-alien-type struct.2 (struct struct.2 (x (* (struct struct.1))) (y int))) (let ((s1 (make-alien struct.1)) (s2 (make-alien struct.2))) (setf (slot s1 'x) s2 (slot s2 'x) s1 (slot (slot s1 'x) 'y) 1 (slot (slot s2 'x) 'y) 2) (assert (= 1 (slot (slot s1 'x) 'y))) (assert (= 2 (slot (slot s2 'x) 'y)))) ;;; "Alien bug" on sbcl-devel 2004-10-11 by Thomas F. Burdick caused ;;; by recursive struct definition. (let ((fname "alien-bug-2004-10-11.tmp.lisp")) (unwind-protect (progn (with-open-file (f fname :direction :output) (mapc (lambda (form) (print form f)) '((defpackage :alien-bug (:use :cl :sb-alien)) (in-package :alien-bug) (define-alien-type objc-class (struct objc-class (protocols (* (struct protocol-list (list (array (* (struct objc-class)))))))))))) (load fname) (load fname) (load (compile-file fname)) (load (compile-file fname))) (delete-file (compile-file-pathname fname)) (delete-file fname))) ;;; enumerations with only one enum resulted in division-by-zero ;;; reported on sbcl-help 2004-11-16 by John Morrison (define-alien-type enum.1 (enum nil (:val0 0))) (define-alien-type enum.2 (enum nil (zero 0) (one 1) (two 2) (three 3) (four 4) (five 5) (six 6) (seven 7) (eight 8) (nine 9))) (with-alien ((integer-array (array int 3))) (let ((enum-array (cast integer-array (array enum.2 3)))) (setf (deref enum-array 0) 'three (deref enum-array 1) 'four) (setf (deref integer-array 2) (+ (deref integer-array 0) (deref integer-array 1))) (assert (eql (deref enum-array 2) 'seven)))) ;; The code that is used for mapping from integers to symbols depends on the ;; `density' of the set of used integers, so test with a sparse set as well. (define-alien-type enum.3 (enum nil (zero 0) (one 1) (k-one 1001) (k-two 1002))) (with-alien ((integer-array (array int 3))) (let ((enum-array (cast integer-array (array enum.3 3)))) (setf (deref enum-array 0) 'one (deref enum-array 1) 'k-one) (setf (deref integer-array 2) (+ (deref integer-array 0) (deref integer-array 1))) (assert (eql (deref enum-array 2) 'k-two)))) ;;; success (quit :unix-status 104)