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2004-07-22 Michael Chastain <mec.gnu@mindspring.com>

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Test for PR exp/1715.
	* gdb.base/radix.exp: Refactor common procedures.  Make all
	test names unique.  Change XFAIL to KFAIL.
This commit is contained in:
Michael Chastain 2004-07-22 09:56:42 +00:00
parent 23a6d36940
commit 4a1135b808
2 changed files with 134 additions and 172 deletions
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6
gdb/testsuite/ChangeLog
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@ -1,3 +1,9 @@
2004-07-22 Michael Chastain <mec.gnu@mindspring.com>
Test for PR exp/1715.
* gdb.base/radix.exp: Refactor common procedures. Make all
test names unique. Change XFAIL to KFAIL.
2004-07-20 Michael Chastain <mec.gnu@mindspring.com>
* gdb.ada/gnat_ada.gpr.in: Rename from here ...

300
gdb/testsuite/gdb.base/radix.exp
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@ -1,4 +1,5 @@
# Copyright 1993, 1997 Free Software Foundation, Inc.
# This testcase is part of GDB, the GNU debugger.
# Copyright 1993, 1997, 2004 Free Software Foundation, Inc.
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
@ -14,10 +15,8 @@
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
# Please email any bugs, comments, and/or additions to this file to:
# bug-gdb@prep.ai.mit.edu
# This file was written by Fred Fish. (fnf@cygnus.com)
# And rewritten by Michael Chastain (mec.gnu@mindspring.com)
if $tracelevel then {
strace $tracelevel
@ -26,176 +25,133 @@ if $tracelevel then {
set prms_id 0
set bug_id 0
proc test_input_radix_2 {} {
gdb_test "set radix" \
"Input and output radices now set to decimal 10, hex a, octal 12." \
"set radix #1"
gdb_test "set input-radix 2" \
"Input radix now set to decimal 2, hex 2, octal 2."
gdb_test "show radix" \
"Input radix set to decimal 2, hex 2, octal 2.\r\nOutput radix set to decimal 10, hex a, octal 12." \
"show radix #1"
gdb_test "p 010" "8"
gdb_test "p 20." "20"
gdb_test "p (int) 20." "20"
gdb_test "p 0xf" "15"
gdb_test "p 10" "2"
gdb_test "p -101" "-5"
gdb_test "p 101" "5"
gdb_test "p 10101" "21"
gdb_test "p 4" "Invalid number \"4\"\\."
gdb_test "p -2" "Invalid number \"2\"\\."
}
# Test input radix 3 (an non-typical radix)
proc test_input_radix_3 {} {
gdb_test "set radix" \
"Input and output radices now set to decimal 10, hex a, octal 12." \
"set radix #2"
gdb_test "set input-radix 3" \
"Input radix now set to decimal 3, hex 3, octal 3."
gdb_test "show radix" \
"Input radix set to decimal 3, hex 3, octal 3.\r\nOutput radix set to decimal 10, hex a, octal 12." \
"show radix #2"
gdb_test "p 010" "8"
gdb_test "p 20." "20"
gdb_test "p (int) 20." "20"
gdb_test "p 0xf" "15"
gdb_test "p 10" "3"
gdb_test "p 0" "0"
gdb_test "p 1" "1"
gdb_test "p 2" "2"
gdb_test "p 10" "3"
gdb_test "p 20" "6"
gdb_test "p 100" "9"
gdb_test "p -100" "-9"
gdb_test "p 3" "Invalid number \"3\"."
gdb_test "p 30" "Invalid number \"30\"."
}
proc test_input_radix_8 {} {
gdb_test "set radix" \
"Input and output radices now set to decimal 10, hex a, octal 12." \
"set radix #3"
gdb_test "set input-radix 8" \
"Input radix now set to decimal 8, hex 8, octal 10."
gdb_test "show radix" \
"Input radix set to decimal 8, hex 8, octal 10.\r\nOutput radix set to decimal 10, hex a, octal 12." \
"set radix #3"
gdb_test "p 010" "8"
gdb_test "p 20." "20"
gdb_test "p (int) 20." "20"
gdb_test "p 0xf" "15"
gdb_test "p 10" "8"
gdb_test "p 20" "16"
gdb_test "p -20" "-16"
gdb_test "p 100" "64"
gdb_test "p 8" "Invalid number \"8\"."
gdb_test "p -9" "Invalid number \"9\"."
}
proc test_input_radix_10 {} {
gdb_test "set radix" \
"Input and output radices now set to decimal 10, hex a, octal 12." \
"set radix #4"
gdb_test "set input-radix 10" \
"Input radix now set to decimal 10, hex a, octal 12."
gdb_test "show radix" \
"Input and output radices set to decimal 10, hex a, octal 12." \
"show radix #4"
gdb_test "p 010" "8"
gdb_test "p 20." "20"
gdb_test "p (int) 20." "20"
gdb_test "p 0xf" "15"
gdb_test "p 10" "10"
gdb_test "p -12" "-12"
}
proc test_input_radix_16 {} {
gdb_test "set radix" \
"Input and output radices now set to decimal 10, hex a, octal 12." \
"set radix #5"
gdb_test "set input-radix 16" \
"Input radix now set to decimal 16, hex 10, octal 20."
gdb_test "show radix" \
"Input radix set to decimal 16, hex 10, octal 20.\r\nOutput radix set to decimal 10, hex a, octal 12." \
"show radix #5"
gdb_test "p 010" "8"
gdb_test "p 20." "20"
gdb_test "p (int) 20." "20"
gdb_test "p 0xf" "15"
gdb_test "p 10" "16"
gdb_test "p 100" "256"
}
proc test_output_radix_8 {} {
gdb_test "set radix" \
"Input and output radices now set to decimal 10, hex a, octal 12." \
"set radix #6"
gdb_test "set output-radix 8" \
"Output radix now set to decimal 8, hex 8, octal 10."
gdb_test "show radix" \
"Input radix set to decimal 10, hex a, octal 12.\r\nOutput radix set to decimal 8, hex 8, octal 10." \
"show radix #6"
gdb_test "p 010" "010"
# FIXME: If gdb can't handle float printing in different radices, it
# should at least warn once the first time that is attempted.
setup_xfail "*-*-*"
gdb_test "p 20." "24" "Float printing when output radix is 8"
gdb_test "p (int) 20." "24"
gdb_test "p 0xf" "17"
gdb_test "p 10" "12"
gdb_test "p 100" "144"
}
proc test_output_radix_10 {} {
gdb_test "set radix" \
"Input and output radices now set to decimal 10, hex a, octal 12." \
"set radix #7"
gdb_test "set output-radix 10" \
"Output radix now set to decimal 10, hex a, octal 12."
gdb_test "show radix" \
"Input and output radices set to decimal 10, hex a, octal 12." \
"show radix #7"
gdb_test "p 010" "8"
gdb_test "p 20." "20"
gdb_test "p (int) 20." "20"
gdb_test "p 0xf" "15"
gdb_test "p 10" "10"
gdb_test "p 100" "100"
}
proc test_output_radix_16 {} {
gdb_test "set radix" \
"Input and output radices now set to decimal 10, hex a, octal 12." \
"set radix #8"
gdb_test "set output-radix 16" \
"Output radix now set to decimal 16, hex 10, octal 20."
gdb_test "show radix" \
"Input radix set to decimal 10, hex a, octal 12.\r\nOutput radix set to decimal 16, hex 10, octal 20." \
"show radix #8"
gdb_test "p 010" "8"
# FIXME: If gdb can't handle float printing in different radices, it
# should at least warn once the first time that is attempted.
setup_xfail "*-*-*"
gdb_test "p 20." "14" "Float printing when output radix is 16"
gdb_test "p (int) 20." "14"
gdb_test "p 0xf" "f"
gdb_test "p 10" "a"
gdb_test "p 100" "64"
}
# Start with a fresh gdb.
gdb_exit
gdb_start
test_input_radix_2
test_input_radix_3
test_input_radix_8
test_input_radix_10
test_input_radix_16
test_output_radix_8
test_output_radix_10
test_output_radix_16
# Test input radices.
proc test_one_input { iradix input output } {
gdb_test "print $input" "$output" \
"print $input; expect $output; input radix $iradix"
}
proc test_input_radix { iradix iradixhex iradixoctal } {
# set input-radix = $iradix, output-radix = ten
gdb_test "set radix" \
"Input and output radices now set to decimal 10, hex a, octal 12." \
"initialize radix, input radix $iradix"
gdb_test "set input-radix $iradix" \
"Input radix now set to decimal $iradix, hex $iradixhex, octal $iradixoctal."
if { $iradix == 10 } then {
gdb_test "show radix" \
"Input and output radices set to decimal 10, hex a, octal 12." \
"show radix, input radix $iradix"
} else {
gdb_test "show radix" \
"Input radix set to decimal $iradix, hex $iradixhex, octal $iradixoctal.\r\nOutput radix set to decimal 10, hex a, octal 12." \
"show radix, input radix $iradix"
}
# test constants with specific bases that do not use $iradix
test_one_input $iradix "010" "8"
test_one_input $iradix "20." "20"
test_one_input $iradix "(int) 20." "20"
test_one_input $iradix "0xf" "15"
# test simple one-digit constants
test_one_input $iradix "0" "0"
test_one_input $iradix "1" "1"
test_one_input $iradix "-1" "-1"
# test simple two-digit constants
test_one_input $iradix "10" [expr $iradix]
test_one_input $iradix "11" [expr $iradix + 1]
test_one_input $iradix "-10" [expr 0 - $iradix]
test_one_input $iradix "-11" [expr 0 - $iradix - 1]
# test simple three-digit constants
test_one_input $iradix "100" [expr $iradix * $iradix]
test_one_input $iradix "101" [expr $iradix * $iradix + 1]
test_one_input $iradix "-100" [expr 0 - $iradix * $iradix]
test_one_input $iradix "-101" [expr 0 - $iradix * $iradix - 1]
# test a five-digit constant
test_one_input $iradix "10101" \
[expr $iradix * $iradix * $iradix * $iradix + $iradix * $iradix + 1]
}
test_input_radix 2 "2" "2"
test_one_input 2 "4" "Invalid number \"4\"\\."
test_one_input 2 "-2" "Invalid number \"2\"\\."
test_input_radix 3 "3" "3"
test_one_input 3 "2" "2"
test_one_input 3 "20" "6"
test_one_input 3 "3" "Invalid number \"3\"\\."
test_one_input 2 "30" "Invalid number \"30\"\\."
test_input_radix 8 "8" "10"
test_one_input 8 "20" "16"
test_one_input 8 "-20" "-16"
test_one_input 8 "8" "Invalid number \"8\"."
test_one_input 8 "-9" "Invalid number \"9\"."
test_input_radix 10 "a" "12"
test_one_input 10 "-12" "-12"
test_input_radix 16 "10" "20"
# Test output radices.
proc test_one_output { oradix input output } {
gdb_test "print $input" "$output" \
"print $input; expect $output; output radix $oradix"
}
proc test_output_radix { oradix oradixhex oradixoctal } {
# set input-radix = ten, output-radix = $oradix
gdb_test "set radix" \
"Input and output radices now set to decimal 10, hex a, octal 12." \
"initialize radix, output radix $oradix"
gdb_test "set output-radix $oradix" \
"Output radix now set to decimal $oradix, hex $oradixhex, octal $oradixoctal."
if { $oradix == 10 } then {
gdb_test "show radix" \
"Input and output radices set to decimal 10, hex a, octal 12." \
"show radix, output radix $oradix"
} else {
gdb_test "show radix" \
"Input radix set to decimal 10, hex a, octal 12.\r\nOutput radix set to decimal $oradix, hex $oradixhex, octal $oradixoctal." \
"show radix, output radix $oradix"
}
# no standard tests for output radix
}
test_output_radix 8 "8" "10"
test_one_output 8 "010" "010"
test_one_output 8 "0xf" "17"
test_one_output 8 "10" "12"
test_one_output 8 "100" "144"
setup_kfail *-*-* "gdb/1715"
test_one_output 8 "20." "24"
test_one_output 8 "(int) 20." "24"
test_output_radix 10 "a" "12"
test_one_output 10 "010" "8"
test_one_output 10 "0xf" "15"
test_one_output 10 "10" "10"
test_one_output 10 "100" "100"
test_one_output 10 "20." "20"
test_one_output 10 "(int) 20." "20"
test_output_radix 16 "10" "20"
test_one_output 16 "010" "8"
test_one_output 16 "0xf" "f"
test_one_output 16 "10" "a"
test_one_output 16 "100" "64"
setup_kfail *-*-* "gdb/1715"
test_one_output 16 "20." "14"
test_one_output 16 "(int) 20." "14"