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diff tests/automated/lisp-tests.el @ 5307:c096d8051f89

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Have NATNUMP give t for positive bignums; check limits appropriately. src/ChangeLog addition: 2010-11-20 Aidan Kehoe <kehoea@parhasard.net> * abbrev.c (Fexpand_abbrev): * alloc.c: * alloc.c (Fmake_list): * alloc.c (Fmake_vector): * alloc.c (Fmake_bit_vector): * alloc.c (Fmake_byte_code): * alloc.c (Fmake_string): * alloc.c (vars_of_alloc): * bytecode.c (UNUSED): * bytecode.c (Fbyte_code): * chartab.c (decode_char_table_range): * cmds.c (Fself_insert_command): * data.c (check_integer_range): * data.c (Fnatnump): * data.c (Fnonnegativep): * data.c (Fstring_to_number): * elhash.c (hash_table_size_validate): * elhash.c (decode_hash_table_size): * eval.c (Fbacktrace_frame): * event-stream.c (lisp_number_to_milliseconds): * event-stream.c (Faccept_process_output): * event-stream.c (Frecent_keys): * event-stream.c (Fdispatch_event): * events.c (Fmake_event): * events.c (Fevent_timestamp): * events.c (Fevent_timestamp_lessp): * events.h: * events.h (struct command_builder): * file-coding.c (gzip_putprop): * fns.c: * fns.c (check_sequence_range): * fns.c (Frandom): * fns.c (Fnthcdr): * fns.c (Flast): * fns.c (Fnbutlast): * fns.c (Fbutlast): * fns.c (Fmember): * fns.c (Ffill): * fns.c (Freduce): * fns.c (replace_string_range_1): * fns.c (Freplace): * font-mgr.c (Ffc_pattern_get): * frame-msw.c (msprinter_set_frame_properties): * glyphs.c (check_valid_xbm_inline): * indent.c (Fmove_to_column): * intl-win32.c (mswindows_multibyte_to_unicode_putprop): * lisp.h: * lisp.h (ARRAY_DIMENSION_LIMIT): * lread.c (decode_mode_1): * mule-ccl.c (ccl_get_compiled_code): * number.h: * process-unix.c (unix_open_multicast_group): * process.c (Fset_process_window_size): * profile.c (Fstart_profiling): * unicode.c (Funicode_to_char): Change NATNUMP to return 1 for positive bignums; changes uses of it and of CHECK_NATNUM appropriately, usually by checking for an integer in an appropriate range. Add array-dimension-limit and use it in #'make-vector, #'make-string. Add array-total-size-limit, array-rank-limit while we're at it, for the sake of any Common Lisp-oriented code that uses these limits. Rename check_int_range to check_integer_range, have it take Lisp_Objects (and thus bignums) instead. Remove bignum_butlast(), just set int_n to an appropriately large integer if N is a bignum. Accept bignums in check_sequence_range(), change the functions that use check_sequence_range() appropriately. Move the definition of NATNUMP() to number.h; document why it's a reasonable name, contradicting an old comment. tests/ChangeLog addition: 2010-11-20 Aidan Kehoe <kehoea@parhasard.net> * automated/lisp-tests.el: * automated/lisp-tests.el (featurep): * automated/lisp-tests.el (wrong-type-argument): * automated/mule-tests.el (featurep): Check for args-out-of-range errors instead of wrong-type-argument errors in various places when code is handed a large bignum instead of a fixnum. Also check for the wrong-type-argument errors when giving the same code a non-integer value.
author Aidan Kehoe <kehoea@parhasard.net>
date Sat, 20 Nov 2010 16:49:11 +0000
parents 9f738305f80f
children f87bb35a6b94 8d29f1c4bb98
line wrap: on
line diff
--- a/tests/automated/lisp-tests.el	Wed Nov 17 14:37:26 2010 +0000
+++ b/tests/automated/lisp-tests.el	Sat Nov 20 16:49:11 2010 +0000
@@ -213,6 +213,16 @@
 (Assert (eq (butlast  '()) nil))
 (Assert (eq (nbutlast '()) nil))
 
+(when (featurep 'bignum)
+  (let* ((x (list* 0 1 2 3 4 5 6.0 ?7 ?8 (vector 'a 'b 'c)))
+         (y (butlast x (* 2 most-positive-fixnum)))
+         (z (nbutlast x (* 3 most-positive-fixnum))))
+    (Assert (eq nil y) "checking butlast with a large bignum gives nil")
+    (Assert (eq nil z) "checking nbutlast with a large bignum gives nil")
+    (Check-Error wrong-type-argument
+		 (nbutlast x (1- most-negative-fixnum))
+                 "checking nbutlast with a negative bignum errors")))
+
 ;;-----------------------------------------------------
 ;; Test `copy-list'
 ;;-----------------------------------------------------
@@ -2511,4 +2521,152 @@
 			(mapcar fourth-bit
 				(loop for i from 0 to 6000 collect i)))))))
 
+(Check-Error wrong-type-argument (self-insert-command 'self-insert-command))
+(Check-Error wrong-type-argument (make-list 'make-list 'make-list))
+(Check-Error wrong-type-argument (make-vector 'make-vector 'make-vector))
+(Check-Error wrong-type-argument (make-bit-vector 'make-bit-vector
+						  'make-bit-vector))
+(Check-Error wrong-type-argument (make-byte-code '(&rest ignore) "\xc0\x87" [4]
+						 'ignore))
+(Check-Error wrong-type-argument (make-string ?a ?a))
+(Check-Error wrong-type-argument (nth-value 'nth-value (truncate pi e)))
+(Check-Error wrong-type-argument (make-hash-table :test #'eql :size :size))
+(Check-Error wrong-type-argument
+	     (accept-process-output nil 'accept-process-output))
+(Check-Error wrong-type-argument
+	     (accept-process-output nil 2000 'accept-process-output))
+(Check-Error wrong-type-argument
+             (self-insert-command 'self-insert-command))
+(Check-Error wrong-type-argument (string-to-number "16" 'string-to-number))
+(Check-Error wrong-type-argument (move-to-column 'move-to-column))
+(stop-profiling)
+(Check-Error wrong-type-argument (start-profiling (float most-positive-fixnum)))
+(stop-profiling)
+(Check-Error wrong-type-argument
+             (fill '(1 2 3 4 5) 1 :start (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (fill [1 2 3 4 5] 1 :start (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (fill "1 2 3 4 5" ?1 :start (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (fill #*10101010 1 :start (float most-positive-fixnum))
+(Check-Error wrong-type-argument
+             (fill '(1 2 3 4 5) 1 :end (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (fill [1 2 3 4 5] 1 :end (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (fill "1 2 3 4 5" ?1 :end (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (fill #*10101010 1 :end (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (reduce #'cons '(1 2 3 4 5) :start (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (reduce #'cons [1 2 3 4 5] :start (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (reduce #'cons "1 2 3 4 5" :start (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (reduce #'cons #*10101010 :start (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (reduce #'cons '(1 2 3 4 5) :end (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (reduce #'cons [1 2 3 4 5] :end (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (reduce #'cons "1 2 3 4 5" :end (float most-positive-fixnum)))
+(Check-Error wrong-type-argument
+             (reduce #'cons #*10101010 :end (float most-positive-fixnum)))
+
+(when (featurep 'bignum)
+  (Check-Error args-out-of-range
+	       (self-insert-command (* 2 most-positive-fixnum)))
+  (Check-Error args-out-of-range
+	       (make-list (* 3 most-positive-fixnum) 'make-list))
+  (Check-Error args-out-of-range
+	       (make-vector (* 4 most-positive-fixnum) 'make-vector))
+  (Check-Error args-out-of-range
+	       (make-bit-vector (+ 2 most-positive-fixnum) 'make-bit-vector))
+  (Check-Error args-out-of-range
+	       (make-byte-code '(&rest ignore) "\xc0\x87" [4]
+			       (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+	       (make-byte-code '(&rest ignore) "\xc0\x87" [4]
+			       #x10000))
+  (Check-Error args-out-of-range
+	       (make-string (* 4 most-positive-fixnum) ?a))
+  (Check-Error args-out-of-range
+	       (nth-value most-positive-fixnum (truncate pi e)))
+  (Check-Error args-out-of-range
+	       (make-hash-table :test #'equalp :size (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+	       (accept-process-output nil 4294967))
+  (Check-Error args-out-of-range
+	       (accept-process-output nil 10 (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (self-insert-command (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (string-to-number "16" (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (recent-keys (1+ most-positive-fixnum)))
+  (when (featurep 'xbm)
+    (Check-Error-Message
+     invalid-argument
+     "^data is too short for width and height"
+     (set-face-background-pixmap
+      'left-margin
+      `[xbm :data (20 ,(* 2 most-positive-fixnum) "random-text")])))
+  (Check-Error args-out-of-range
+               (move-to-column (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (move-to-column (1- most-negative-fixnum)))
+  (stop-profiling)
+  (when (< most-positive-fixnum (lsh 1 32))
+    ;; We only support machines with integers of 32 bits or more. If
+    ;; most-positive-fixnum is less than 2^32, we're on a 32-bit machine,
+    ;; and it's appropriate to test start-profiling with a bignum.
+    (Assert (eq nil (start-profiling (* most-positive-fixnum 2)))))
+  (stop-profiling)
+  (Check-Error args-out-of-range
+               (fill '(1 2 3 4 5) 1 :start (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (fill [1 2 3 4 5] 1 :start (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (fill "1 2 3 4 5" ?1 :start (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (fill #*10101010 1 :start (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (fill '(1 2 3 4 5) 1 :end (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (fill [1 2 3 4 5] 1 :end (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (fill "1 2 3 4 5" ?1 :end (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (fill #*10101010 1 :end (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (reduce #'cons '(1 2 3 4 5) :start (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (reduce #'cons [1 2 3 4 5] :start (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (reduce #'cons "1 2 3 4 5" :start (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (reduce #'cons #*10101010 :start (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (reduce #'cons '(1 2 3 4 5) :end (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (reduce #'cons [1 2 3 4 5] :end (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (reduce #'cons "1 2 3 4 5" :end (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (reduce #'cons #*10101010 :end (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (replace '(1 2 3 4 5) [5 4 3 2 1]
+                        :start1 (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (replace '(1 2 3 4 5) [5 4 3 2 1]
+                        :start2 (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (replace '(1 2 3 4 5) [5 4 3 2 1]
+                        :end1 (1+ most-positive-fixnum)))
+  (Check-Error args-out-of-range
+               (replace '(1 2 3 4 5) [5 4 3 2 1]
+                        :end2 (1+ most-positive-fixnum))))
+
 ;;; end of lisp-tests.el