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|
# This testcase is part of GDB, the GNU debugger.
# Copyright 1992-2019 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
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
# Please email any bugs, comments, and/or additions to this file to:
# bug-gdb@gnu.org
# This file was written by Fred Fish. (fnf@cygnus.com)
standard_testfile .c
if { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable {debug}] != "" } {
untested "failed to compile"
return -1
}
get_compiler_info
proc test_integer_literals_accepted {} {
global gdb_prompt
# Test various decimal values.
gdb_test "p 123" " = 123"
gdb_test "p -123" " = -123"
gdb_test "p/d 123" " = 123"
# Test various octal values.
gdb_test "p 0123" " = 83"
gdb_test "p 00123" " = 83"
gdb_test "p -0123" " = -83"
gdb_test "p/o 0123" " = 0123"
# Test various hexadecimal values.
gdb_test "p 0x123" " = 291"
gdb_test "p -0x123" " = -291"
gdb_test "p 0x0123" " = 291"
gdb_test "p -0x0123" " = -291"
gdb_test "p 0xABCDEF" " = 11259375"
gdb_test "p 0xabcdef" " = 11259375"
gdb_test "p 0xAbCdEf" " = 11259375"
gdb_test "p/x 0x123" " = 0x123"
# Test various binary values.
gdb_test "p 0b0" " = 0"
gdb_test "p 0b1111" " = 15"
gdb_test "p 0B1111" " = 15"
gdb_test "p -0b1111" " = -15"
}
proc test_character_literals_accepted {} {
global gdb_prompt
gdb_test "p 'a'" " = 97 'a'"
gdb_test "p/c 'a'" " = 97 'a'"
gdb_test "p/x 'a'" " = 0x61"
gdb_test "p/d 'a'" " = 97"
gdb_test "p/t 'a'" " = 1100001"
gdb_test "p '\\141'" " = 97 'a'"
gdb_test "p/x '\\377'" " = 0xff"
# Note "p '\''" => "= 39 '\''"
gdb_test "p '\\''" " = 39 '\\\\''"
# Note "p '\\'" => "= 92 '\\'"
gdb_test "p '\\\\'" " = 92 '\\\\\\\\'"
}
proc test_integer_literals_rejected {} {
global gdb_prompt
test_print_reject "p 0x"
test_print_reject "p 0b"
gdb_test "p ''" "(Empty character constant\\.|A character constant must contain at least one character\\.)"
gdb_test "p '''" "(Empty character constant\\.|A character constant must contain at least one character\\.)"
test_print_reject "p '\\'"
# Note that this turns into "p '\\\'" at gdb's input.
test_print_reject "p '\\\\\\'"
# Test various decimal values.
test_print_reject "p DEADBEEF"
# Test various octal values.
test_print_reject "p 09"
test_print_reject "p 079"
# Test various hexadecimal values.
test_print_reject "p 0xG"
test_print_reject "p 0xAG"
# Test various binary values.
test_print_reject "p 0b2"
test_print_reject "p 0b12"
}
proc test_float_accepted {} {
global gdb_prompt
# This test is useful to catch successful parsing of the first fp value.
gdb_test "p 123.4+56.7" " = 180.(099\[0-9]*|100\[0-9\]*)" "check for floating addition"
# Test all the suffixes (including no suffix).
gdb_test "p 1." " = 1"
gdb_test "p 1.5" " = 1.5"
gdb_test "p 1.f" " = 1"
gdb_test "p 1.5f" " = 1.5"
gdb_test "p 1.l" " = 1"
gdb_test "p 1.5l" " = 1.5"
# Test hexadecimal floating point.
set test "p 0x1.1"
gdb_test_multiple $test $test {
-re " = 1\\.0625\r\n$gdb_prompt $" {
pass $test
}
-re "Invalid number \"0x1\\.1\"\\.\r\n$gdb_prompt $" {
# Older glibc does not support hex float, newer does.
xfail $test
}
}
}
proc test_float_rejected {} {
# Gdb use to fail this test for all configurations. The C
# lexer thought that 123DEADBEEF was a floating point number, but
# then failed to notice that atof() only eats the 123 part.
# Fixed, 4/25/97, by Bob Manson.
test_print_reject "p 123DEADBEEF"
test_print_reject "p 123foobar.bazfoo3"
test_print_reject "p 123EEEEEEEEEEEEEEEEE33333k333"
# Test bad suffixes.
test_print_reject "p 1.1x"
test_print_reject "p 1.1ff"
test_print_reject "p 1.1ll"
}
# Regression test for PR gdb/21675
proc test_radices {} {
gdb_test "print/o 16777211" " = 077777773"
gdb_test "print/d 1.5" " = 1"
gdb_test "print/u 1.5" " = 1"
gdb_test "print/u (char) -1" " = 255"
gdb_test "print/d (unsigned char) -1" " = -1"
}
proc test_print_all_chars {} {
global gdb_prompt
# Set the target-charset to ASCII, because the output varies from
# different charset.
with_target_charset "ASCII" {
gdb_test "p ctable1\[0\]" " = 0 '\\\\000'"
gdb_test "p ctable1\[1\]" " = 1 '\\\\001'"
gdb_test "p ctable1\[2\]" " = 2 '\\\\002'"
gdb_test "p ctable1\[3\]" " = 3 '\\\\003'"
gdb_test "p ctable1\[4\]" " = 4 '\\\\004'"
gdb_test "p ctable1\[5\]" " = 5 '\\\\005'"
gdb_test "p ctable1\[6\]" " = 6 '\\\\006'"
gdb_test "p ctable1\[7\]" " = 7 '\\\\a'"
gdb_test "p ctable1\[8\]" " = 8 '\\\\b'"
gdb_test "p ctable1\[9\]" " = 9 '\\\\t'"
gdb_test "p ctable1\[10\]" " = 10 '\\\\n'"
gdb_test "p ctable1\[11\]" " = 11 '\\\\v'"
gdb_test "p ctable1\[12\]" " = 12 '\\\\f'"
gdb_test "p ctable1\[13\]" " = 13 '\\\\r'"
gdb_test "p ctable1\[14\]" " = 14 '\\\\016'"
gdb_test "p ctable1\[15\]" " = 15 '\\\\017'"
gdb_test "p ctable1\[16\]" " = 16 '\\\\020'"
gdb_test "p ctable1\[17\]" " = 17 '\\\\021'"
gdb_test "p ctable1\[18\]" " = 18 '\\\\022'"
gdb_test "p ctable1\[19\]" " = 19 '\\\\023'"
gdb_test "p ctable1\[20\]" " = 20 '\\\\024'"
gdb_test "p ctable1\[21\]" " = 21 '\\\\025'"
gdb_test "p ctable1\[22\]" " = 22 '\\\\026'"
gdb_test "p ctable1\[23\]" " = 23 '\\\\027'"
gdb_test "p ctable1\[24\]" " = 24 '\\\\030'"
gdb_test "p ctable1\[25\]" " = 25 '\\\\031'"
gdb_test "p ctable1\[26\]" " = 26 '\\\\032'"
gdb_test "p ctable1\[27\]" " = 27 '\\\\033'"
gdb_test "p ctable1\[28\]" " = 28 '\\\\034'"
gdb_test "p ctable1\[29\]" " = 29 '\\\\035'"
gdb_test "p ctable1\[30\]" " = 30 '\\\\036'"
gdb_test "p ctable1\[31\]" " = 31 '\\\\037'"
gdb_test "p ctable1\[32\]" " = 32 ' '"
gdb_test "p ctable1\[33\]" " = 33 '!'"
gdb_test "p ctable1\[34\]" " = 34 '\"'"
gdb_test "p ctable1\[35\]" " = 35 '#'"
gdb_test "p ctable1\[36\]" " = 36 '\\\$'"
gdb_test "p ctable1\[37\]" " = 37 '%'"
gdb_test "p ctable1\[38\]" " = 38 '&'"
gdb_test "p ctable1\[39\]" " = 39 '\\\\''"
gdb_test "p ctable1\[40\]" " = 40 '\\('"
gdb_test "p ctable1\[41\]" " = 41 '\\)'"
gdb_test "p ctable1\[42\]" " = 42 '\\*'"
gdb_test "p ctable1\[43\]" " = 43 '\\+'"
gdb_test "p ctable1\[44\]" " = 44 ','"
gdb_test "p ctable1\[45\]" " = 45 '-'"
gdb_test "p ctable1\[46\]" " = 46 '.'"
gdb_test "p ctable1\[47\]" " = 47 '/'"
gdb_test "p ctable1\[48\]" " = 48 '0'"
gdb_test "p ctable1\[49\]" " = 49 '1'"
gdb_test "p ctable1\[50\]" " = 50 '2'"
gdb_test "p ctable1\[51\]" " = 51 '3'"
gdb_test "p ctable1\[52\]" " = 52 '4'"
gdb_test "p ctable1\[53\]" " = 53 '5'"
gdb_test "p ctable1\[54\]" " = 54 '6'"
gdb_test "p ctable1\[55\]" " = 55 '7'"
gdb_test "p ctable1\[56\]" " = 56 '8'"
gdb_test "p ctable1\[57\]" " = 57 '9'"
gdb_test "p ctable1\[58\]" " = 58 ':'"
gdb_test "p ctable1\[59\]" " = 59 ';'"
gdb_test "p ctable1\[60\]" " = 60 '<'"
gdb_test "p ctable1\[61\]" " = 61 '='"
gdb_test "p ctable1\[62\]" " = 62 '>'"
gdb_test "p ctable1\[63\]" " = 63 '\\?'"
gdb_test "p ctable1\[64\]" " = 64 '@'"
gdb_test "p ctable1\[65\]" " = 65 'A'"
gdb_test "p ctable1\[66\]" " = 66 'B'"
gdb_test "p ctable1\[67\]" " = 67 'C'"
gdb_test "p ctable1\[68\]" " = 68 'D'"
gdb_test "p ctable1\[69\]" " = 69 'E'"
gdb_test "p ctable1\[70\]" " = 70 'F'"
gdb_test "p ctable1\[71\]" " = 71 'G'"
gdb_test "p ctable1\[72\]" " = 72 'H'"
gdb_test "p ctable1\[73\]" " = 73 'I'"
gdb_test "p ctable1\[74\]" " = 74 'J'"
gdb_test "p ctable1\[75\]" " = 75 'K'"
gdb_test "p ctable1\[76\]" " = 76 'L'"
gdb_test "p ctable1\[77\]" " = 77 'M'"
gdb_test "p ctable1\[78\]" " = 78 'N'"
gdb_test "p ctable1\[79\]" " = 79 'O'"
gdb_test "p ctable1\[80\]" " = 80 'P'"
gdb_test "p ctable1\[81\]" " = 81 'Q'"
gdb_test "p ctable1\[82\]" " = 82 'R'"
gdb_test "p ctable1\[83\]" " = 83 'S'"
gdb_test "p ctable1\[84\]" " = 84 'T'"
gdb_test "p ctable1\[85\]" " = 85 'U'"
gdb_test "p ctable1\[86\]" " = 86 'V'"
gdb_test "p ctable1\[87\]" " = 87 'W'"
gdb_test "p ctable1\[88\]" " = 88 'X'"
gdb_test "p ctable1\[89\]" " = 89 'Y'"
gdb_test "p ctable1\[90\]" " = 90 'Z'"
gdb_test "p ctable1\[91\]" " = 91 '\\\['"
gdb_test "p ctable1\[92\]" " = 92 '\\\\\\\\'"
gdb_test "p ctable1\[93\]" " = 93 '\\\]'"
gdb_test "p ctable1\[94\]" " = 94 '\\^'"
gdb_test "p ctable1\[95\]" " = 95 '_'"
gdb_test "p ctable1\[96\]" " = 96 '`'"
gdb_test "p ctable1\[97\]" " = 97 'a'"
gdb_test "p ctable1\[98\]" " = 98 'b'"
gdb_test "p ctable1\[99\]" " = 99 'c'"
gdb_test "p ctable1\[100\]" " = 100 'd'"
gdb_test "p ctable1\[101\]" " = 101 'e'"
gdb_test "p ctable1\[102\]" " = 102 'f'"
gdb_test "p ctable1\[103\]" " = 103 'g'"
gdb_test "p ctable1\[104\]" " = 104 'h'"
gdb_test "p ctable1\[105\]" " = 105 'i'"
gdb_test "p ctable1\[106\]" " = 106 'j'"
gdb_test "p ctable1\[107\]" " = 107 'k'"
gdb_test "p ctable1\[108\]" " = 108 'l'"
gdb_test "p ctable1\[109\]" " = 109 'm'"
gdb_test "p ctable1\[110\]" " = 110 'n'"
gdb_test "p ctable1\[111\]" " = 111 'o'"
gdb_test "p ctable1\[112\]" " = 112 'p'"
gdb_test "p ctable1\[113\]" " = 113 'q'"
gdb_test "p ctable1\[114\]" " = 114 'r'"
gdb_test "p ctable1\[115\]" " = 115 's'"
gdb_test "p ctable1\[116\]" " = 116 't'"
gdb_test "p ctable1\[117\]" " = 117 'u'"
gdb_test "p ctable1\[118\]" " = 118 'v'"
gdb_test "p ctable1\[119\]" " = 119 'w'"
gdb_test "p ctable1\[120\]" " = 120 'x'"
gdb_test "p ctable1\[121\]" " = 121 'y'"
gdb_test "p ctable1\[122\]" " = 122 'z'"
gdb_test "p ctable1\[123\]" " = 123 '\[{\]+'"
gdb_test "p ctable1\[124\]" " = 124 '\[|\]+'"
gdb_test "p ctable1\[125\]" " = 125 '\[}\]+'"
gdb_test "p ctable1\[126\]" " = 126 '\[~\]'"
gdb_test "p ctable1\[127\]" " = 127 '\\\\177'"
gdb_test "p ctable1\[128\]" " = 128 '\\\\200'"
gdb_test "p ctable1\[129\]" " = 129 '\\\\201'"
gdb_test "p ctable1\[130\]" " = 130 '\\\\202'"
gdb_test "p ctable1\[131\]" " = 131 '\\\\203'"
gdb_test "p ctable1\[132\]" " = 132 '\\\\204'"
gdb_test "p ctable1\[133\]" " = 133 '\\\\205'"
gdb_test "p ctable1\[134\]" " = 134 '\\\\206'"
gdb_test "p ctable1\[135\]" " = 135 '\\\\207'"
gdb_test "p ctable1\[136\]" " = 136 '\\\\210'"
gdb_test "p ctable1\[137\]" " = 137 '\\\\211'"
gdb_test "p ctable1\[138\]" " = 138 '\\\\212'"
gdb_test "p ctable1\[139\]" " = 139 '\\\\213'"
gdb_test "p ctable1\[140\]" " = 140 '\\\\214'"
gdb_test "p ctable1\[141\]" " = 141 '\\\\215'"
gdb_test "p ctable1\[142\]" " = 142 '\\\\216'"
gdb_test "p ctable1\[143\]" " = 143 '\\\\217'"
gdb_test "p ctable1\[144\]" " = 144 '\\\\220'"
gdb_test "p ctable1\[145\]" " = 145 '\\\\221'"
gdb_test "p ctable1\[146\]" " = 146 '\\\\222'"
gdb_test "p ctable1\[147\]" " = 147 '\\\\223'"
gdb_test "p ctable1\[148\]" " = 148 '\\\\224'"
gdb_test "p ctable1\[149\]" " = 149 '\\\\225'"
gdb_test "p ctable1\[150\]" " = 150 '\\\\226'"
gdb_test "p ctable1\[151\]" " = 151 '\\\\227'"
gdb_test "p ctable1\[152\]" " = 152 '\\\\230'"
gdb_test "p ctable1\[153\]" " = 153 '\\\\231'"
gdb_test "p ctable1\[154\]" " = 154 '\\\\232'"
gdb_test "p ctable1\[155\]" " = 155 '\\\\233'"
gdb_test "p ctable1\[156\]" " = 156 '\\\\234'"
gdb_test "p ctable1\[157\]" " = 157 '\\\\235'"
gdb_test "p ctable1\[158\]" " = 158 '\\\\236'"
gdb_test "p ctable1\[159\]" " = 159 '\\\\237'"
gdb_test "p ctable1\[160\]" " = 160 '\\\\240'"
gdb_test "p ctable1\[161\]" " = 161 '\\\\241'"
gdb_test "p ctable1\[162\]" " = 162 '\\\\242'"
gdb_test "p ctable1\[163\]" " = 163 '\\\\243'"
gdb_test "p ctable1\[164\]" " = 164 '\\\\244'"
gdb_test "p ctable1\[165\]" " = 165 '\\\\245'"
gdb_test "p ctable1\[166\]" " = 166 '\\\\246'"
gdb_test "p ctable1\[167\]" " = 167 '\\\\247'"
gdb_test "p ctable1\[168\]" " = 168 '\\\\250'"
gdb_test "p ctable1\[169\]" " = 169 '\\\\251'"
gdb_test "p ctable1\[170\]" " = 170 '\\\\252'"
gdb_test "p ctable1\[171\]" " = 171 '\\\\253'"
gdb_test "p ctable1\[172\]" " = 172 '\\\\254'"
gdb_test "p ctable1\[173\]" " = 173 '\\\\255'"
gdb_test "p ctable1\[174\]" " = 174 '\\\\256'"
gdb_test "p ctable1\[175\]" " = 175 '\\\\257'"
gdb_test "p ctable1\[176\]" " = 176 '\\\\260'"
gdb_test "p ctable1\[177\]" " = 177 '\\\\261'"
gdb_test "p ctable1\[178\]" " = 178 '\\\\262'"
gdb_test "p ctable1\[179\]" " = 179 '\\\\263'"
gdb_test "p ctable1\[180\]" " = 180 '\\\\264'"
gdb_test "p ctable1\[181\]" " = 181 '\\\\265'"
gdb_test "p ctable1\[182\]" " = 182 '\\\\266'"
gdb_test "p ctable1\[183\]" " = 183 '\\\\267'"
gdb_test "p ctable1\[184\]" " = 184 '\\\\270'"
gdb_test "p ctable1\[185\]" " = 185 '\\\\271'"
gdb_test "p ctable1\[186\]" " = 186 '\\\\272'"
gdb_test "p ctable1\[187\]" " = 187 '\\\\273'"
gdb_test "p ctable1\[188\]" " = 188 '\\\\274'"
gdb_test "p ctable1\[189\]" " = 189 '\\\\275'"
gdb_test "p ctable1\[190\]" " = 190 '\\\\276'"
gdb_test "p ctable1\[191\]" " = 191 '\\\\277'"
gdb_test "p ctable1\[192\]" " = 192 '\\\\300'"
gdb_test "p ctable1\[193\]" " = 193 '\\\\301'"
gdb_test "p ctable1\[194\]" " = 194 '\\\\302'"
gdb_test "p ctable1\[195\]" " = 195 '\\\\303'"
gdb_test "p ctable1\[196\]" " = 196 '\\\\304'"
gdb_test "p ctable1\[197\]" " = 197 '\\\\305'"
gdb_test "p ctable1\[198\]" " = 198 '\\\\306'"
gdb_test "p ctable1\[199\]" " = 199 '\\\\307'"
gdb_test "p ctable1\[200\]" " = 200 '\\\\310'"
gdb_test "p ctable1\[201\]" " = 201 '\\\\311'"
gdb_test "p ctable1\[202\]" " = 202 '\\\\312'"
gdb_test "p ctable1\[203\]" " = 203 '\\\\313'"
gdb_test "p ctable1\[204\]" " = 204 '\\\\314'"
gdb_test "p ctable1\[205\]" " = 205 '\\\\315'"
gdb_test "p ctable1\[206\]" " = 206 '\\\\316'"
gdb_test "p ctable1\[207\]" " = 207 '\\\\317'"
gdb_test "p ctable1\[208\]" " = 208 '\\\\320'"
gdb_test "p ctable1\[209\]" " = 209 '\\\\321'"
gdb_test "p ctable1\[210\]" " = 210 '\\\\322'"
gdb_test "p ctable1\[211\]" " = 211 '\\\\323'"
gdb_test "p ctable1\[212\]" " = 212 '\\\\324'"
gdb_test "p ctable1\[213\]" " = 213 '\\\\325'"
gdb_test "p ctable1\[214\]" " = 214 '\\\\326'"
gdb_test "p ctable1\[215\]" " = 215 '\\\\327'"
gdb_test "p ctable1\[216\]" " = 216 '\\\\330'"
gdb_test "p ctable1\[217\]" " = 217 '\\\\331'"
gdb_test "p ctable1\[218\]" " = 218 '\\\\332'"
gdb_test "p ctable1\[219\]" " = 219 '\\\\333'"
gdb_test "p ctable1\[220\]" " = 220 '\\\\334'"
gdb_test "p ctable1\[221\]" " = 221 '\\\\335'"
gdb_test "p ctable1\[222\]" " = 222 '\\\\336'"
gdb_test "p ctable1\[223\]" " = 223 '\\\\337'"
gdb_test "p ctable1\[224\]" " = 224 '\\\\340'"
gdb_test "p ctable1\[225\]" " = 225 '\\\\341'"
gdb_test "p ctable1\[226\]" " = 226 '\\\\342'"
gdb_test "p ctable1\[227\]" " = 227 '\\\\343'"
gdb_test "p ctable1\[228\]" " = 228 '\\\\344'"
gdb_test "p ctable1\[229\]" " = 229 '\\\\345'"
gdb_test "p ctable1\[230\]" " = 230 '\\\\346'"
gdb_test "p ctable1\[231\]" " = 231 '\\\\347'"
gdb_test "p ctable1\[232\]" " = 232 '\\\\350'"
gdb_test "p ctable1\[233\]" " = 233 '\\\\351'"
gdb_test "p ctable1\[234\]" " = 234 '\\\\352'"
gdb_test "p ctable1\[235\]" " = 235 '\\\\353'"
gdb_test "p ctable1\[236\]" " = 236 '\\\\354'"
gdb_test "p ctable1\[237\]" " = 237 '\\\\355'"
gdb_test "p ctable1\[238\]" " = 238 '\\\\356'"
gdb_test "p ctable1\[239\]" " = 239 '\\\\357'"
gdb_test "p ctable1\[240\]" " = 240 '\\\\360'"
gdb_test "p ctable1\[241\]" " = 241 '\\\\361'"
gdb_test "p ctable1\[242\]" " = 242 '\\\\362'"
gdb_test "p ctable1\[243\]" " = 243 '\\\\363'"
gdb_test "p ctable1\[244\]" " = 244 '\\\\364'"
gdb_test "p ctable1\[245\]" " = 245 '\\\\365'"
gdb_test "p ctable1\[246\]" " = 246 '\\\\366'"
gdb_test "p ctable1\[247\]" " = 247 '\\\\367'"
gdb_test "p ctable1\[248\]" " = 248 '\\\\370'"
gdb_test "p ctable1\[249\]" " = 249 '\\\\371'"
gdb_test "p ctable1\[250\]" " = 250 '\\\\372'"
gdb_test "p ctable1\[251\]" " = 251 '\\\\373'"
gdb_test "p ctable1\[252\]" " = 252 '\\\\374'"
gdb_test "p ctable1\[253\]" " = 253 '\\\\375'"
gdb_test "p ctable1\[254\]" " = 254 '\\\\376'"
gdb_test "p ctable1\[255\]" " = 255 '\\\\377'"
}
}
# Test interaction of the number of print elements to print and the
# repeat count, set to the default of 10.
proc test_print_repeats_10 {} {
global gdb_prompt decimal
for { set x 1 } { $x <= 16 } { incr x } {
gdb_test_no_output "set print elements $x" "elements $x repeats"
for { set e 1 } { $e <= 16 } {incr e } {
set v [expr $e - 1]
set command "p &ctable2\[${v}*16\]"
if { $x < $e } {
set aval $x
} else {
set aval $e
}
set xval [expr $x - $e]
if { $xval < 0 } {
set xval 0
}
if { $aval > 10 } {
set a "'a' <repeats $aval times>"
if { $xval > 0 } {
set a "${a}, \\\""
}
} else {
set a "\\\"[string range "aaaaaaaaaaaaaaaa" 1 $aval]"
if { $xval > 10 } {
set a "$a\\\", "
}
}
set xstr ""
if { $xval > 10 } {
set xstr "'X' <repeats $xval times>"
} else {
if { $xval > 0 } {
set xstr "[string range "XXXXXXXXXXXXXXXX" 1 $xval]\\\""
} else {
if { $aval <= 10 } {
set xstr "\\\""
}
}
}
if { $aval < 16 } {
set xstr "${xstr}\[.\]\[.\]\[.\]"
}
set string " = \[(\]unsigned char \[*\]\[)\] <ctable2(\\+$decimal)?> ${a}${xstr}"
gdb_test "$command" "$string" "$command with print elements set to $x"
}
}
}
# This tests whether GDB uses the correct element content offsets
# (relative to the complete `some_struct' value) when counting value
# repetitions.
proc test_print_repeats_embedded_array {} {
global gdb_prompt
gdb_test_escape_braces "p/x some_struct" \
"= {a = 0x12345678, b = 0x87654321, array = {0xaa <repeats 20 times>}}" \
"correct element repeats in array embedded at offset > 0"
}
proc test_print_strings {} {
global gdb_prompt decimal
# We accept "(unsigned char *) " before the string. char vs. unsigned char
# is already tested elsewhere.
# Test that setting print elements unlimited doesn't completely suppress
# printing; this was a bug in older gdb's.
gdb_test_no_output "set print elements 0"
gdb_test "p teststring" \
" = (.unsigned char .. )?\"teststring contents\"" "p teststring with elements set to 0"
gdb_test_no_output "set print elements 1"
gdb_test "p teststring" \
" = (.unsigned char .. )?\"t\"\\.\\.\\." "p teststring with elements set to 1"
gdb_test_no_output "set print elements 5"
gdb_test "p teststring" \
" = (.unsigned char .. )?\"tests\"\\.\\.\\." "p teststring with elements set to 5"
gdb_test_no_output "set print elements 19"
gdb_test "p teststring" \
" = (.unsigned char .. )?\"teststring contents\"" "p teststring with elements set to 19"
gdb_test_no_output "set print elements 20"
gdb_test "p teststring" \
" = (.unsigned char .. )?\"teststring contents\"" "p teststring with elements set to 20"
gdb_test_no_output "set print elements 8"
# Set the target-charset to ASCII, because the output varies from
# different charset.
with_target_charset "ASCII" {
gdb_test "p &ctable1\[0\]" \
" = \\(unsigned char \\*\\) <ctable1> \"\""
gdb_test "p &ctable1\[1\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\001\\\\002\\\\003\\\\004\\\\005\\\\006\\\\a\\\\b\"..."
gdb_test "p &ctable1\[1*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\b\\\\t\\\\n\\\\v\\\\f\\\\r\\\\016\\\\017\"..."
gdb_test "p &ctable1\[2*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\020\\\\021\\\\022\\\\023\\\\024\\\\025\\\\026\\\\027\"..."
gdb_test "p &ctable1\[3*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\030\\\\031\\\\032\\\\033\\\\034\\\\035\\\\036\\\\037\"..."
gdb_test "p &ctable1\[4*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \" !\\\\\"#\\\$%&'\"..."
gdb_test "p &ctable1\[5*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\(\\)\\*\\+,-./\"..."
gdb_test "p &ctable1\[6*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"01234567\"..."
gdb_test "p &ctable1\[7*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"89:;<=>\\?\"..."
gdb_test "p &ctable1\[8*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"@ABCDEFG\"..."
gdb_test "p &ctable1\[9*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"HIJKLMNO\"..."
gdb_test "p &ctable1\[10*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"PQRSTUVW\"..."
gdb_test "p &ctable1\[11*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"XYZ\\\[\\\\\\\\\\\]\\^_\"..."
gdb_test "p &ctable1\[12*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"`abcdefg\"..."
gdb_test "p &ctable1\[13*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"hijklmno\"..."
gdb_test "p &ctable1\[14*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"pqrstuvw\"..."
gdb_test "p &ctable1\[15*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"xyz\[{|}\]+\\~\\\\177\"..."
gdb_test "p &ctable1\[16*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\200\\\\201\\\\202\\\\203\\\\204\\\\205\\\\206\\\\207\"..."
gdb_test "p &ctable1\[17*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\210\\\\211\\\\212\\\\213\\\\214\\\\215\\\\216\\\\217\"..."
gdb_test "p &ctable1\[18*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\220\\\\221\\\\222\\\\223\\\\224\\\\225\\\\226\\\\227\"..."
gdb_test "p &ctable1\[19*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\230\\\\231\\\\232\\\\233\\\\234\\\\235\\\\236\\\\237\"..."
gdb_test "p &ctable1\[20*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\240\\\\241\\\\242\\\\243\\\\244\\\\245\\\\246\\\\247\"..."
gdb_test "p &ctable1\[21*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\250\\\\251\\\\252\\\\253\\\\254\\\\255\\\\256\\\\257\"..."
gdb_test "p &ctable1\[22*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\260\\\\261\\\\262\\\\263\\\\264\\\\265\\\\266\\\\267\"..."
gdb_test "p &ctable1\[23*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\270\\\\271\\\\272\\\\273\\\\274\\\\275\\\\276\\\\277\"..."
gdb_test "p &ctable1\[24*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\300\\\\301\\\\302\\\\303\\\\304\\\\305\\\\306\\\\307\"..."
gdb_test "p &ctable1\[25*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\310\\\\311\\\\312\\\\313\\\\314\\\\315\\\\316\\\\317\"..."
gdb_test "p &ctable1\[26*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\320\\\\321\\\\322\\\\323\\\\324\\\\325\\\\326\\\\327\"..."
gdb_test "p &ctable1\[27*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\330\\\\331\\\\332\\\\333\\\\334\\\\335\\\\336\\\\337\"..."
gdb_test "p &ctable1\[28*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\340\\\\341\\\\342\\\\343\\\\344\\\\345\\\\346\\\\347\"..."
gdb_test "p &ctable1\[29*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\350\\\\351\\\\352\\\\353\\\\354\\\\355\\\\356\\\\357\"..."
gdb_test "p &ctable1\[30*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\360\\\\361\\\\362\\\\363\\\\364\\\\365\\\\366\\\\367\"..."
gdb_test "p &ctable1\[31*8\]" \
" = \\(unsigned char \\*\\) <ctable1\\+$decimal> \"\\\\370\\\\371\\\\372\\\\373\\\\374\\\\375\\\\376\\\\377\"..."
}
}
proc test_print_int_arrays {} {
global gdb_prompt
gdb_test_no_output "set print elements 24" "elements 24 int arrays"
gdb_test_escape_braces "p int1dim" \
" = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11}"
gdb_test_escape_braces "p int2dim" \
" = {{0, 1, 2, 3}, {4, 5, 6, 7}, {8, 9, 10, 11}}"
gdb_test_escape_braces "p int3dim" \
" = {{{0, 1}, {2, 3}, {4, 5}}, {{6, 7}, {8, 9}, {10, 11}}}"
gdb_test_escape_braces "p int4dim" \
" = {{{{0, 1}, {2, 3}, {4, 5}}, {{6, 7}, {8, 9}, {10, 11}}}}"
# Some checks for various output formats.
gdb_test_escape_braces "p/x int4dim" \
" = {{{{0x0, 0x1}, {0x2, 0x3}, {0x4, 0x5}}, {{0x6, 0x7}, {0x8, 0x9}, {0xa, 0xb}}}}"
gdb_test_escape_braces "p/z int4dim" \
" = {{{{0x0+0, 0x0+1}, {0x0+2, 0x0+3}, {0x0+4, 0x0+5}}, {{0x0+6, 0x0+7}, {0x0+8, 0x0+9}, {0x0+a, 0x0+b}}}}"
gdb_test_escape_braces "p/o int4dim" \
" = {{{{0, 01}, {02, 03}, {04, 05}}, {{06, 07}, {010, 011}, {012, 013}}}}"
gdb_test_escape_braces "p/t int4dim" \
" = {{{{0, 1}, {10, 11}, {100, 101}}, {{110, 111}, {1000, 1001}, {1010, 1011}}}}"
}
proc test_print_typedef_arrays {} {
global gdb_prompt
gdb_test_no_output "set print elements 24" "elements 24 typedef_arrays"
gdb_test_escape_braces "p a1" \
" = {2, 4, 6, 8, 10, 12, 14, 16, 18, 20}"
gdb_test "p a1\[0\]" " = 2"
gdb_test "p a1\[9\]" " = 20"
gdb_test "p a2" \
" = \"abcd\""
gdb_test "p a2\[0\]" " = 97 'a'"
gdb_test "p a2\[3\]" " = 100 'd'"
# Regression test of null-stop; PR 11049.
gdb_test_no_output "set print null-stop on"
gdb_test "p a2" " = \"abcd\"" "print a2 with null-stop on"
gdb_test_no_output "set print null-stop off"
}
proc test_artificial_arrays {} {
# Send \026@ instead of just @ in case the kill character is @.
# \026 (ctrl-v) is to escape the next character (@), but it is
# not only unnecessary to do so on MingW hosts, but also harmful
# for the test because that character isn't recognized as an
# escape character.
set ctrlv "\026"
if [ishost *-*-mingw*] {
set ctrlv ""
}
gdb_test_escape_braces "p int1dim\[0\]${ctrlv}@2" " = {0, 1}" {p int1dim[0]@2}
gdb_test_escape_braces "p int1dim\[0\]${ctrlv}@2${ctrlv}@3" \
"({{0, 1}, {2, 3}, {4, 5}}|\[Cc\]annot.*)" \
{p int1dim[0]@2@3}
gdb_test_escape_braces "p int1dim\[0\]${ctrlv}@TWO" " = {0, 1}" \
{p int1dim[0]@TWO}
gdb_test_escape_braces "p int1dim\[0\]${ctrlv}@TWO${ctrlv}@three" \
"({{0, 1}, {2, 3}, {4, 5}}|\[Cc\]annot.*)" \
{p int1dim[0]@TWO@three}
gdb_test_escape_braces {p/x (short [])0x12345678} \
" = ({0x1234, 0x5678}|{0x5678, 0x1234})"
}
proc test_print_char_arrays {} {
global gdb_prompt
global hex decimal
gdb_test_no_output "set print elements 24" "elements 24 char_arrays"
gdb_test_no_output "set print address on"
gdb_test "p arrays" \
" = {array1 = \"abc\", array2 = \"d\", array3 = \"e\", array4 = \"fg\", array5 = \"hij\"}"
gdb_test "p parrays" " = \\(struct some_arrays \\*\\) $hex <arrays>"
gdb_test "p parrays->array1" " = \"abc\""
gdb_test "p &parrays->array1" " = \\(unsigned char \\(\\*\\)\\\[4\\\]\\) $hex <arrays>"
gdb_test "p parrays->array2" " = \"d\""
gdb_test "p &parrays->array2" " = \\(unsigned char \\(\\*\\)\\\[1\\\]\\) $hex <arrays\\+$decimal>"
gdb_test "p parrays->array3" " = \"e\""
gdb_test "p &parrays->array3" " = \\(unsigned char \\(\\*\\)\\\[1\\\]\\) $hex <arrays\\+$decimal>"
gdb_test "p parrays->array4" " = \"fg\""
gdb_test "p &parrays->array4" " = \\(unsigned char \\(\\*\\)\\\[2\\\]\\) $hex <arrays\\+$decimal>"
gdb_test "p parrays->array5" " = \"hij\""
gdb_test "p &parrays->array5" " = \\(unsigned char \\(\\*\\)\\\[4\\\]\\) $hex <arrays\\+$decimal>"
gdb_test_no_output "set print address off" "address off char arrays"
}
proc test_print_string_constants {} {
global gdb_prompt
gdb_test_no_output "set print elements 50"
if [target_info exists gdb,cannot_call_functions] {
unsupported "this target can not call functions"
return
}
# We need to up this because this can be really slow on some boards.
# (Test may involve inferior malloc() calls).
set timeout 60
gdb_test "p \"a string\"" " = \"a string\""
gdb_test "p \"embedded \\000 null\"" " = \"embedded \\\\000 null\""
gdb_test "p \"abcd\"\[2\]" " = 99 'c'"
gdb_test "p sizeof (\"abcdef\")" " = 7"
gdb_test "ptype \"foo\"" " = char \\\[4\\\]"
gdb_test "p *\"foo\"" " = 102 'f'"
gdb_test "ptype *\"foo\"" " = char"
gdb_test "p &*\"foo\"" " = \"foo\""
gdb_test "ptype &*\"foo\"" "type = char \\*"
gdb_test "p (char *)\"foo\"" " = \"foo\""
}
proc test_print_array_constants {} {
if [target_info exists gdb,cannot_call_functions] {
unsupported "this target can not call functions"
return
}
# We need to up this because this can be really slow on some boards.
# (Test may involve inferior malloc() calls).
set timeout 60
gdb_test "print {'a','b','c'}" " = \"abc\""
gdb_test_escape_braces "print {0,1,2}" " = {0, 1, 2}"
gdb_test_escape_braces "print {(long)0,(long)1,(long)2}" " = {0, 1, 2}"
gdb_test_escape_braces "print {{0,1,2},{3,4,5}}" " = {{0, 1, 2}, {3, 4, 5}}"
gdb_test "print {4,5,6}\[2\]" " = 6"
gdb_test "print *&{4,5,6}\[1\]" "Attempt to take address of value not located in memory."
}
proc test_print_enums {} {
# Regression test for PR11827.
gdb_test "print some_volatile_enum" "enumvolval1"
gdb_test "print three" " = \\\(ONE \\| TWO\\\)"
}
proc test_printf {} {
gdb_test "printf \"x=%d,y=%d,z=%d\\n\", 5, 6, 7" "x=5,y=6,z=7"
gdb_test "printf \"string=%.4sxx\\n\", teststring" "string=testxx"
gdb_test "printf \"string=%sxx\\n\", teststring" \
"string=teststring contentsxx"
gdb_test "printf \"%f is fun\\n\", 1.0" "1\.0+ is fun"
# Test mixing args of different sizes.
gdb_test "printf \"x=%d,y=%f,z=%d\\n\", 5, 6.0, 7" "x=5,y=6\.0+,z=7"
gdb_test "printf \"%x %f, %c %x, %x, %f\\n\", 0xbad, -99.541, 'z',\
0xfeedface, 0xdeadbeef, 5.0" "bad -99.54\[0-9\]+, z feedface, deadbeef, 5.0+"
# Regression test for C lexer bug.
gdb_test "printf \"%c\\n\", \"x\"\[1,0\]" "x"
# Regression test for "%% at end of format string.
# See http://sourceware.org/bugzilla/show_bug.cgi?id=11345
gdb_test "printf \"%%%d%%\\n\", 5" "%5%"
# Some tests for missing format specifier after '%'.
gdb_test "printf \"%\", 0" "Incomplete format specifier at end of format string"
gdb_test "printf \"%.234\", 0" "Incomplete format specifier at end of format string"
gdb_test "printf \"%-\", 0" "Incomplete format specifier at end of format string"
gdb_test "printf \"%-23\", 0" "Incomplete format specifier at end of format string"
# Test for invalid printf flags on pointer types.
gdb_test "printf \"%#p\", 0" "Inappropriate modifiers to format specifier 'p' in printf"
gdb_test "printf \"% p\", 0" "Inappropriate modifiers to format specifier 'p' in printf"
gdb_test "printf \"%0p\", 0" "Inappropriate modifiers to format specifier 'p' in printf"
gdb_test "printf \"%+p\", 0" "Inappropriate modifiers to format specifier 'p' in printf"
gdb_test "define hibob\nprintf \"hi bob \"\nshell echo zzz\nprintf \"y\\n\"\nend" \
"" \
"create hibob command"
gdb_test "hibob" "hi bob zzz.*y" "run hibob command"
# PR cli/19918.
gdb_test "printf \"%-16dq\\n\", 0" "0 q"
gdb_test "printf \"%-16pq\\n\", 0" "\\(nil\\) q"
# PR cli/14977.
gdb_test "printf \"%s\\n\", 0" "\\(null\\)"
}
#Test printing DFP values with printf
proc test_printf_with_dfp {} {
# Test various dfp values, covering 32-bit, 64-bit and 128-bit ones
# _Decimal32 constants, which can support up to 7 digits
gdb_test "printf \"%Hf\\n\",1.2df" "1.2"
gdb_test "printf \"%Hf\\n\",-1.2df" "-1.2"
gdb_test "printf \"%Hf\\n\",1.234567df" "1.234567"
gdb_test "printf \"%Hf\\n\",-1.234567df" "-1.234567"
gdb_test "printf \"%Hf\\n\",1234567.df" "1234567"
gdb_test "printf \"%Hf\\n\",-1234567.df" "-1234567"
gdb_test "printf \"%Hf\\n\",1.2E1df" "12"
gdb_test "printf \"%Hf\\n\",1.2E10df" "1.2E\\+10"
gdb_test "printf \"%Hf\\n\",1.2E-10df" "1.2E-10"
# The largest exponent for 32-bit dfp value is 96.
gdb_test "printf \"%Hf\\n\",1.2E96df" "1.200000E\\+96"
# _Decimal64 constants, which can support up to 16 digits
gdb_test "printf \"%Df\\n\",1.2dd" "1.2"
gdb_test "printf \"%Df\\n\",-1.2dd" "-1.2"
gdb_test "printf \"%Df\\n\",1.234567890123456dd" "1.234567890123456"
gdb_test "printf \"%Df\\n\",-1.234567890123456dd" "-1.234567890123456"
gdb_test "printf \"%Df\\n\",1234567890123456.dd" "1234567890123456"
gdb_test "printf \"%Df\\n\",-1234567890123456.dd" "-1234567890123456"
gdb_test "printf \"%Df\\n\",1.2E1dd" "12"
gdb_test "printf \"%Df\\n\",1.2E10dd" "1.2E\\+10"
gdb_test "printf \"%Df\\n\",1.2E-10dd" "1.2E-10"
# The largest exponent for 64-bit dfp value is 384.
gdb_test "printf \"%Df\\n\",1.2E384dd" "1.200000000000000E\\+384"
# _Decimal128 constants, which can support up to 34 digits
gdb_test "printf \"%DDf\\n\",1.2dl" "1.2"
gdb_test "printf \"%DDf\\n\",-1.2dl" "-1.2"
gdb_test "printf \"%DDf\\n\",1.234567890123456789012345678901234dl" "1.234567890123456789012345678901234"
gdb_test "printf \"%DDf\\n\",-1.234567890123456789012345678901234dl" "-1.234567890123456789012345678901234"
gdb_test "printf \"%DDf\\n\",1234567890123456789012345678901234.dl" "1234567890123456789012345678901234"
gdb_test "printf \"%DDf\\n\",-1234567890123456789012345678901234.dl" "-1234567890123456789012345678901234"
gdb_test "printf \"%DDf\\n\",1.2E1dl" "12"
gdb_test "printf \"%DDf\\n\",1.2E10dl" "1.2E\\+10"
gdb_test "printf \"%DDf\\n\",1.2E-10dl" "1.2E-10"
# The largest exponent for 128-bit dfp value is 6144.
gdb_test "printf \"%DDf\\n\",1.2E6144dl" "1.200000000000000000000000000000000E\\+6144"
# GDB used to get this wrong.
gdb_test "printf \"%Hf %Hf\\n\",1.2df,1.3df" "1.2 1.3"
}
proc test_print_symbol {} {
gdb_test_no_output "set print symbol on"
gdb_test "print &three" " = .* <three>"
gdb_test "print parrays" " = .* <arrays>"
# In case somebody adds tests after this.
gdb_test_no_output "set print symbol off"
}
# Escape a left curly brace to prevent it from being interpreted as
# the beginning of a bound
proc gdb_test_escape_braces { args } {
set pattern [lindex $args 1]
regsub -all {\{[0-9]} $pattern {\\&} esc_pattern
gdb_test [lindex $args 0] $esc_pattern [lindex $args 2]
}
proc test_repeat_bytes {} {
set start(E) {}
set start(S) {a}
set start(L) {abaabbaaabbb}
set start(R) {'a' <repeats 20 times>}
set end(E) {}
set end(S) {c}
set end(L) {cdccddcccddd}
set end(R) {'c' <repeats 20 times>}
set invalid(S) {\\240}
set invalid(L) {\\240\\240\\240\\240}
set invalid(R) {'\\240' <repeats 20 times>}
set fmt(SSS) "\"%s%s%s\""
set fmt(SSR) "\"%s%s\", %s"
set fmt(SRS) "\"%s\", %s, \"%s\""
set fmt(RSS) "%s, \"%s%s\""
set fmt(RSR) "%s, \"%s\", %s"
set fmt(SRR) "\"%s\", %s, %s"
set fmt(RRS) "%s, %s, \"%s\""
set fmt(RRR) "%s, %s, %s"
set fmt(RS) "%s, \"%s\""
set fmt(RR) "%s, %s"
set fmt(SR) "\"%s\", %s"
set fmt(SS) "\"%s%s\""
# Set the target-charset to ASCII, because the output varies from
# different charset.
with_target_charset "ASCII" {
# Test the various permutations of invalid characters
foreach i [array names invalid] {
set I $i
if {$i == "L"} {
set i "S"
}
foreach s [array names start] {
set S $s
if {$s == "L"} {
set s "S"
}
foreach e [array names end] {
set E $e
if {$e == "L"} {
set e "S"
}
# Skip E*E.
if {$s == "E" && $e == "E"} { continue }
# Special cases...
if {$s == "E"} {
set result [format $fmt($i$e) $invalid($I) $end($E)]
} elseif {$e == "E"} {
set result [format $fmt($s$i) $start($S) $invalid($I)]
} else {
set result [format $fmt($s$i$e) \
$start($S) $invalid($I) $end($E)]
}
send_log "expecting: = $result\n"
gdb_test "print invalid_$S$I$E" "= $result"
}
}
}
}
}
# Test printf of convenience variables.
# These tests can be done with or without a running inferior.
# PREFIX ensures uniqueness of test names.
# DO_WSTRING 1 tells to test printf of wide strings. Wide strings tests
# must be skipped (DO_WSTRING 0) if the wchar_t type is not yet known by
# GDB, as this type is needed to create wide strings.
proc test_printf_convenience_var {prefix do_wstring} {
with_test_prefix "conv var: $prefix" {
gdb_test_no_output "set var \$cstr = \"abcde\"" "set \$cstr"
gdb_test "printf \"cstr val = %s\\n\", \$cstr" "cstr val = abcde" \
"printf \$cstr"
gdb_test_no_output "set var \$abcde = \"ABCDE\"" "set \$abcde"
gdb_test "eval \"print \$%s\\n\", \$cstr" "= \"ABCDE\"" \
"indirect print abcde"
# Without a target, the below produces no output
# but with a target, it gives a warning.
# So, use gdb_test expecting ".*" instead of gdb_test_no_output.
gdb_test "set language ada" ".*" "set language ada"
gdb_test_no_output "set var \$astr := \"fghij\"" "set \$astr"
gdb_test "printf \"astr val = %s\\n\", \$astr" "astr val = fghij" \
"printf \$astr"
gdb_test_no_output "set language auto" "set language auto"
gdb_test "printf \"astr val = %s\\n\", \$astr" "astr val = fghij" \
"printf \$astr, auto language"
if {$do_wstring} {
gdb_test_no_output "set var \$wstr = L\"facile\"" \
"set \$wstr"
gdb_test "printf \"wstr val = %ls\\n\", \$wstr" \
"wstr val = facile" "printf \$wstr"
}
}
}
# Start with a fresh gdb.
gdb_exit
gdb_start
gdb_reinitialize_dir $srcdir/$subdir
gdb_test "print \$pc" "No registers\\."
# Some simple operations on strings should work even without a target
# (and therefore without calling malloc).
gdb_test "print \"abc\"" " = \"abc\""
gdb_test "print sizeof (\"abc\")" " = 4"
gdb_test "ptype \"abc\"" " = char \\\[4\\\]"
gdb_test "print \$cvar = \"abc\"" " = \"abc\""
gdb_test "print sizeof (\$cvar)" " = 4"
# Similarly, printf of a string convenience var should work without a target.
# At this point, we cannot create a wide string convenience var, as the
# wchar_t type is not yet known, so skip the wide string tests.
test_printf_convenience_var "no target" 0
# GDB used to complete the explicit location options even when
# printing expressions.
gdb_test_no_output "complete p -function"
gdb_test_no_output "complete p -line"
gdb_test_no_output "complete p -source"
gdb_file_cmd ${binfile}
gdb_test "print \$pc" "No registers\\." "print \$pc (with file)"
gdb_test_no_output "set print sevenbit-strings"
gdb_test_no_output "set print address off"
gdb_test_no_output "set width 0"
if { [test_compiler_info "armcc-*"] } {
# ARM RealView compresses large arrays in the data segment.
# Before the program starts, we can not read them. There is
# nothing in the file to indicate that data is compressed.
setup_xfail "arm*-*-eabi"
}
gdb_test "p ctable1\[120\]" "120 'x'" "p ctable1\[120\] #1"
gdb_load ${binfile}
if ![runto_main] then {
fail "can't run to main"
return 0
}
# With a running target, printf convenience vars should of course work.
test_printf_convenience_var "with target" 1
# It should also work when inferior function calls are forbidden.
gdb_test_no_output "set may-call-functions off"
test_printf_convenience_var "with target, may-call-functions off" 1
gdb_test_no_output "set may-call-functions on"
test_integer_literals_accepted
test_integer_literals_rejected
test_float_accepted
test_float_rejected
test_character_literals_accepted
test_print_all_chars
test_print_repeats_10
test_print_repeats_embedded_array
test_print_strings
test_print_int_arrays
test_print_typedef_arrays
test_artificial_arrays
test_print_char_arrays
# We used to do the runto main here.
test_print_string_constants
test_print_array_constants
test_print_enums
test_printf
test_printf_with_dfp
test_print_symbol
test_repeat_bytes
test_radices
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