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# This testcase is part of GDB, the GNU debugger.
# Copyright 2002-2023 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/>.
standard_testfile
set executable $testfile
if { [prepare_for_testing "failed to prepare" $executable $srcfile] } {
return -1
}
#
# set it up at a breakpoint so we can play with the variable values
#
if {![runto_main]} {
return
}
#
proc check_set { t l r new add } {
global gdb_prompt
set prefix "var ${t} l"
gdb_test "tbreak wack_${t}"
set test "continue to wack_${t}"
gdb_test_multiple "continue" $test {
-re "register ${t} l = u, r = v;\r\n$gdb_prompt $" {
# See GCC PR debug/53948.
send_gdb "next\n"
exp_continue
}
-re "l = add_${t} .l, r.;\r\n$gdb_prompt $" {
pass $test
}
}
set supported_l 1
set test "${prefix}; print old l, expecting ${l}"
gdb_test_multiple "print l" "$test" {
-re -wrap " = <optimized out>" {
unsupported $test
set supported_l 0
}
-re -wrap " = ${l}" {
pass $test
}
}
set test "${prefix}; print old r, expecting ${r}"
gdb_test_multiple "print r" "$test" {
-re -wrap " = <optimized out>" {
unsupported $test
}
-re -wrap " = ${r}" {
pass $test
}
}
if { $supported_l } {
gdb_test_no_output "set variable l = 4" \
"${prefix}; setting l to 4"
gdb_test "print l" " = ${new}" \
"${prefix}; print new l, expecting ${new}"
}
gdb_test "next" "return l \\+ r;" \
"${prefix}; next over add call"
if { $supported_l } {
gdb_test "print l" " = ${add}" \
"${prefix}; print incremented l, expecting ${add}"
}
}
check_set "charest" "-1 .*" "-2 .*" "4 ..004." "2 ..002."
check_set "short" "-1" "-2" "4" "2"
check_set "int" "-1" "-2" "4" "2"
check_set "long" "-1" "-2" "4" "2"
check_set "longest" "-1" "-2" "4" "2"
check_set "float" "-1" "-2" "4" "2"
check_set "double" "-1" "-2" "4" "2"
check_set "doublest" "-1" "-2" "4" "2"
#
proc up_set { t l r new } {
global gdb_prompt
set prefix "upvar ${t} l"
gdb_test "tbreak add_${t}"
gdb_test "continue" "return u . v;" \
"continue to add_${t}"
gdb_test "up" "l = add_${t} .l, r.;" \
"${prefix}; up"
set supported_l 1
set test "${prefix}; print old l, expecting ${l}"
gdb_test_multiple "print l" "$test" {
-re -wrap " = <optimized out>" {
unsupported $test
set supported_l 0
}
-re -wrap " = ${l}" {
pass $test
}
}
set test "${prefix}; print old r, expecting ${r}"
gdb_test_multiple "print r" "$test" {
-re -wrap " = <optimized out>" {
unsupported $test
}
-re -wrap " = ${r}" {
pass $test
}
}
if { $supported_l } {
gdb_test_no_output "set variable l = 4" \
"${prefix}; set l to 4"
gdb_test "print l" " = ${new}" \
"${prefix}; print new l, expecting ${new}"
}
}
up_set "charest" "-1 .*" "-2 .*" "4 ..004."
up_set "short" "-1" "-2" "4"
up_set "int" "-1" "-2" "4"
up_set "long" "-1" "-2" "4"
up_set "longest" "-1" "-2" "4"
up_set "float" "-1" "-2" "4"
up_set "double" "-1" "-2" "4"
up_set "doublest" "-1" "-2" "4"
#
proc check_struct { t old new } {
set prefix "var struct ${t} u"
gdb_test "tbreak wack_struct_${t}"
gdb_test "continue" "int i; register struct s_${t} u = z_${t};" \
"continue to wack_struct_${t}"
gdb_test "next 2" "add_struct_${t} .u.;" \
"${prefix}; next to add_struct_${t} call"
gdb_test "print u" " = ${old}" \
"${prefix}; print old u, expecting ${old}"
gdb_test_no_output "set variable u = s_${t}" \
"${prefix}; set u to s_${t}"
gdb_test "print u" " = ${new}" \
"${prefix}; print new u, expecting ${new}"
}
check_struct "1" "{s = \\{0}}" "{s = \\{1}}"
check_struct "2" "{s = \\{0, 0}}" "{s = \\{1, 2}}"
check_struct "3" "{s = \\{0, 0, 0}}" "{s = \\{1, 2, 3}}"
check_struct "4" "{s = \\{0, 0, 0, 0}}" "{s = \\{1, 2, 3, 4}}"
proc up_struct { t old new } {
set prefix "up struct ${t} u"
gdb_test "tbreak add_struct_${t}"
gdb_test "continue" "for .i = 0; i < sizeof .s. / sizeof .s.s.0..; i..." \
"continue to add_struct_${t}"
gdb_test "up" "u = add_struct_${t} .u.;" \
"${prefix}; up"
gdb_test "print u" " = ${old}" \
"${prefix}; print old u, expecting ${old}"
gdb_test_no_output "set variable u = s_${t}" \
"${prefix}; set u to s_${t}"
gdb_test "print u" " = ${new}" \
"${prefix}; print new u, expecting ${new}"
}
up_struct "1" "{s = \\{0}}" "{s = \\{1}}"
up_struct "2" "{s = \\{0, 0}}" "{s = \\{1, 2}}"
up_struct "3" "{s = \\{0, 0, 0}}" "{s = \\{1, 2, 3}}"
up_struct "4" "{s = \\{0, 0, 0, 0}}" "{s = \\{1, 2, 3, 4}}"
#
proc check_field { t } {
global gdb_prompt
gdb_test "tbreak wack_field_${t}"
gdb_test "continue" "register struct f_${t} u = f_${t};" \
"continue field ${t}"
# Match either the return statement, or the line immediatly after
# it. The compiler can end up merging the return statement into
# the return instruction.
gdb_test "next" "(return u;|\})" "next field ${t}"
gdb_test "print u" " = {i = 1, j = 1, k = 1}" "old field ${t}"
gdb_test_no_output "set variable u = F_${t}"
gdb_test "print u" " = {i = 0, j = 0, k = 0}" "new field ${t}"
gdb_test_no_output "set variable u = F_${t}, u.i = f_${t}.i"
gdb_test "print u" " = {i = 1, j = 0, k = 0}" "f_${t}.i"
gdb_test_no_output "set variable u = F_${t}, u.j = f_${t}.j"
gdb_test "print u" " = {i = 0, j = 1, k = 0}" "f_${t}.j"
gdb_test_no_output "set variable u = F_${t}, u.k = f_${t}.k"
gdb_test "print u" " = {i = 0, j = 0, k = 1}" "f_${t}.k"
gdb_test_no_output "set variable u = f_${t}, u.i = F_${t}.i"
gdb_test "print u" " = {i = 0, j = 1, k = 1}" "F_${t}.i"
gdb_test_no_output "set variable u = f_${t}, u.j = F_${t}.j"
gdb_test "print u" " = {i = 1, j = 0, k = 1}" "F_${t}.j"
gdb_test_no_output "set variable u = f_${t}, u.k = F_${t}.k"
gdb_test "print u" " = {i = 1, j = 1, k = 0}" "F_${t}.k"
}
check_field 1
check_field 2
check_field 3
check_field 4
#
# WANTED: A fairly portable way of convincing the compiler to split a
# value across memory and registers.
|