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gnu / binutils-gdb / 36170420e329a8d6229eb89b38d8680cf39f1d53 / . / gdb / testsuite / gdb.base / macscp.exp
blob: 03ee5330872e8ad69bed4678cd485c260b8f5bc6 [file] [log] [blame]
# Test macro scoping.
# Copyright 2002-2021 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 macscp1.c
set objfile [standard_output_file ${testfile}.o]
set options { debug additional_flags=-DFROM_COMMANDLINE=ARG}
get_compiler_info
if { [test_compiler_info "gcc-*"] } {
lappend options additional_flags=-g3
} elseif { [test_compiler_info "clang-*"] } {
lappend options additional_flags=-fdebug-macro
}
# Generate the intermediate object file. This is required by Darwin to
# have access to the .debug_macinfo section.
if {[gdb_compile "${srcdir}/${subdir}/macscp1.c" "${objfile}" \
object $options] != ""
|| [gdb_compile "${objfile}" "${binfile}" executable $options] != "" } {
untested "failed to compile"
return -1
}
clean_restart ${binfile}
# Ask GDB to show the current definition of MACRO, and return a list
# describing the result.
#
# The return value has the form {FILE1 FILE2 ... DEF}, which means
# that MACRO has the definition `DEF', and was defined in `FILE1',
# which was included from `FILE2', included from ... .
#
# If GDB says that MACRO has no definition, return the string `undefined'.
#
# If GDB complains that it doesn't have any information about
# preprocessor macro definitions, return the string `no-macro-info'.
#
# If expect times out waiting for GDB, we return the string `timeout'.
#
# If GDB's output doesn't otherwise match what we're expecting, we
# return the empty string.
proc info_macro {macro} {
global gdb_prompt
set filepat {macscp[0-9]+\.[ch]}
set definition {}
set location {}
# Line number zero is set for macros defined from the compiler command-line.
# Such macros are not being tested by this function.
set nonzero {[1-9][0-9]*}
send_gdb "info macro ${macro}\n"
set debug_me 0
if {$debug_me} {exp_internal 1}
gdb_expect {
-re "Defined at \[^\r\n\]*(${filepat}):${nonzero}\[\r\n\]" {
# `location' and `definition' should be empty when we see
# this message.
if {[llength $location] == 0 && [llength $definition] == 0} {
set location $expect_out(1,string)
exp_continue
} else {
# Exit this expect loop, with a result indicating failure.
set definition {}
}
}
-re "The symbol `${macro}' has no definition as a C/C\\+\\+ preprocessor macro\[^\r\n\]*\[\r\n\]" {
# `location' and `definition' should be empty when we see
# this message.
if {[llength $location] == 0 && [llength $definition] == 0} {
set definition undefined
exp_continue
} else {
# Exit this expect loop, with a result indicating failure.
set definition {}
}
}
-re "^\[\r\n\]* included at \[^\r\n\]*(${filepat}):${nonzero}\[\r\n\]" {
# `location' should *not* be empty when we see this
# message. It should have recorded at least the initial
# `Defined at ' message (for definitions) or ` at' message
# (for undefined symbols).
if {[llength $location] != 0} {
lappend location $expect_out(1,string)
exp_continue
} else {
# Exit this expect loop, with a result indicating failure.
set definition {}
}
}
-re "^\[\r\n\]*at \[^\r\n\]*(${filepat}):${nonzero}\[\r\n\]" {
# This appears after a `has no definition' message.
# `location' should be empty when we see it.
if {[string compare $definition undefined] == 0 \
&& [llength $location] == 0} {
set location $expect_out(1,string)
exp_continue
} else {
# Exit this expect loop, with a result indicating failure.
set definition {}
}
}
-re "#define ${macro} (\[^\r\n\]*)\[\r\n\]" {
# `definition' should be empty when we see this message.
if {[string compare $definition ""] == 0} {
set definition $expect_out(1,string)
exp_continue
} else {
# Exit this expect loop, with a result indicating failure.
set definition {}
}
}
-re "has no preprocessor macro information.*$gdb_prompt $" {
set definition no-macro-info
}
-re "$gdb_prompt $" {
# Exit the expect loop; let the existing value of `definition'
# indicate failure or success.
}
timeout {
set definition timeout
}
}
if {$debug_me} {exp_internal 0}
switch -exact -- $definition {
no-macro-info { return no-macro-info }
timeout { return timeout }
undefined { return undefined }
default {
if {[llength $location] >= 1} {
return [concat $location [list $definition]]
} else {
return {}
}
}
}
}
# Call info_macro to show the definition of MACRO. Expect a result of
# EXPECTED. Use WHERE in pass/fail messages to identify the context.
# Return non-zero if we should abort the entire test file, or zero if
# we can continue.
proc check_macro {macro expected where} {
set func_def [info_macro $macro]
if {[string compare $func_def $expected] == 0} {
pass "info macro $macro $where"
} else {
switch -exact -- $func_def {
no-macro-info {
xfail "executable includes no macro debugging information"
return 1
}
undefined {
fail "info macro $macro $where (undefined)"
return 1
}
timeout {
fail "info macro $macro $where (timeout)"
}
default {
fail "info macro $macro $where"
}
}
}
return 0
}
# List the function FUNC, and then show the definition of MACRO,
# expecting the result EXPECTED.
proc list_and_check_macro {func macro expected} {
gdb_test "list $func" ".*${func}.*" "list $func for $macro"
return [check_macro $macro $expected "after `list $func'"]
}
gdb_test "list -q main" ".*main.*" "list main for support check"
set macro_support "unknown"
gdb_test_multiple "info source" "test macro information" {
-re "Includes preprocessor macro info\..*$gdb_prompt $" {
set macro_support 1
verbose "Source has macro information"
}
-re "Does not include preprocessor macro info\..*$gdb_prompt $" {
set macro_support 0
verbose "Source has no macro information"
}
default {
warning "couldn't check macro support (no valid response)."
}
}
if {$macro_support == 0} {
unsupported "skipping test because debug information does not include macro information."
return 0
}
list_and_check_macro main WHERE {macscp1.c {before macscp1_3}}
list_and_check_macro macscp2_2 WHERE {macscp2.h macscp1.c {before macscp2_2}}
list_and_check_macro macscp3_2 WHERE {macscp3.h macscp1.c {before macscp3_2}}
# Assuming the current position inside program by `list' from above.
gdb_test "info macro FROM_COMMANDLINE" \
"Defined at \[^\r\n\]*:0\r\n-DFROM_COMMANDLINE=ARG"
gdb_test "info macro __FILE__" "#define __FILE__ \".*macscp3.h\"" \
"info macro __FILE__ before running"
gdb_test "info macro __LINE__" "#define __LINE__ 26" \
"info macro __LINE__ before running"
# Although GDB's macro table structures distinguish between multiple
# #inclusions of the same file, GDB's other structures don't. So the
# `list' command here doesn't reliably select one #inclusion or the
# other, even though it could. It would be nice to eventually change
# GDB's structures to handle this correctly.
gdb_test "list macscp4_2_from_macscp2" ".*macscp4_2_, MACSCP4_INCLUSION.*"
switch -exact -- [info_macro WHERE] {
{macscp4.h macscp2.h macscp1.c {before macscp4_2_..., from macscp2.h}} {
pass "info macro WHERE after `list macscp_4_2_from_macscp2'"
}
{macscp4.h macscp3.h macscp1.c {before macscp4_2_..., from macscp3.h}} {
setup_kfail "gdb/555" *-*-*
fail "info macro WHERE after `list macscp_4_2_from_macscp2' (gdb/555)"
}
timeout {
fail "info macro WHERE after `list macscp_4_2_from_macscp2' (timeout)"
}
default { fail "info macro WHERE after `list macscp_4_2_from_macscp2'" }
}
gdb_test "list macscp4_2_from_macscp3" ".*macscp4_2_, MACSCP4_INCLUSION.*"
switch -exact -- [info_macro WHERE] {
{macscp4.h macscp3.h macscp1.c {before macscp4_2_..., from macscp3.h}} {
pass "info macro WHERE after `list macscp_4_2_from_macscp3'"
}
{macscp4.h macscp2.h macscp1.c {before macscp4_2_..., from macscp2.h}} {
setup_kfail "gdb/555" *-*-*
fail "info macro WHERE after `list macscp_4_2_from_macscp3' (gdb/555)"
}
timeout {
fail "info macro WHERE after `list macscp_4_2_from_macscp3' (timeout)"
}
default { fail "info macro WHERE after `list macscp_4_2_from_macscp3'" }
}
#### Test the selection of the macro scope by the current frame.
### A table of functions, in the order they will be reached, which is
### also the order they appear in the preprocessed output. Each entry
### has the form {FUNCNAME WHERE KFAILWHERE}, where:
### - FUNCNAME is the name of the function,
### - WHERE is the definition we expect to see for the macro `WHERE', as
### returned by `info_macro', and
### - KFAILWHERE is an alternate definition which should be reported
### as a `known failure', due to GDB's inability to distinguish multiple
### #inclusions of the same file.
### KFAILWHERE may be omitted.
set funcs {
{
macscp1_1
{macscp1.c {before macscp1_1}}
}
{
macscp2_1
{macscp2.h macscp1.c {before macscp2_1}}
}
{
macscp4_1_from_macscp2
{macscp4.h macscp2.h macscp1.c {before macscp4_1_..., from macscp2.h}}
{macscp4.h macscp3.h macscp1.c {before macscp4_1_..., from macscp3.h}}
}
{
macscp4_2_from_macscp2
{macscp4.h macscp2.h macscp1.c {before macscp4_2_..., from macscp2.h}}
{macscp4.h macscp3.h macscp1.c {before macscp4_2_..., from macscp3.h}}
}
{
macscp2_2
{macscp2.h macscp1.c {before macscp2_2}}
}
{
macscp1_2
{macscp1.c {before macscp1_2}}
}
{
macscp3_1
{macscp3.h macscp1.c {before macscp3_1}}
}
{
macscp4_1_from_macscp3
{macscp4.h macscp3.h macscp1.c {before macscp4_1_..., from macscp3.h}}
{macscp4.h macscp2.h macscp1.c {before macscp4_1_..., from macscp2.h}}
}
{
macscp4_2_from_macscp3
{macscp4.h macscp3.h macscp1.c {before macscp4_2_..., from macscp3.h}}
{macscp4.h macscp2.h macscp1.c {before macscp4_2_..., from macscp2.h}}
}
{
macscp3_2
{macscp3.h macscp1.c {before macscp3_2}}
}
{
macscp1_3
{macscp1.c {before macscp1_3}}
}
}
proc maybe_kfail { func test_name } {
# We can't get the right scope info when we're stopped in
# the macro4_ functions.
if {[string match macscp4_* $func]} {
kfail gdb/555 "$test_name"
} else {
fail "$test_name"
}
}
# Start the program running.
if {! [runto_main]} {
return 0
}
# Set a breakpoint on each of the functions.
foreach func_entry $funcs {
set func [lindex $func_entry 0]
gdb_test "break $func" "Breakpoint.*"
}
# Run to each of the breakpoints and check the definition (or lack
# thereof) of each macro.
for {set i 0} {$i < [llength $funcs]} {incr i} {
set func_entry [lindex $funcs $i]
set func [lindex $func_entry 0]
set expected [lindex $func_entry 1]
set kfail_expected [lindex $func_entry 2]
# Run to the breakpoint for $func.
gdb_test "continue" "Breakpoint $decimal, $func .*" "continue to $func"
# Check the macro WHERE.
set result [info_macro WHERE]
if {[string compare $result $expected] == 0} {
pass "info macro WHERE stopped in $func"
} elseif {[string compare $result $kfail_expected] == 0} {
setup_kfail "gdb/555" *-*-*
fail "info macro WHERE stopped in $func (gdb/555)"
} elseif {[string compare $result timeout] == 0} {
fail "info macro WHERE stopped in $func (timeout)"
} else {
fail "info macro WHERE stopped in $func"
}
# Check that the BEFORE_<func> macros for all prior functions are
# #defined, and that those for all subsequent functions are not.
for {set j 0} {$j < [llength $funcs]} {incr j} {
if {$j != $i} {
set func_j_entry [lindex $funcs $j]
set func_j [lindex $func_j_entry 0]
set before_macro "BEFORE_[string toupper $func_j]"
set test_name \
"$before_macro defined/undefined when stopped at $func"
set result [info_macro $before_macro]
if {$j < $i} {
if {[llength $result] >= 2 && \
[string compare [lindex $result end] {}] == 0} {
pass $test_name
} elseif {[string compare $result timeout] == 0} {
fail "$test_name (timeout)"
} else {
maybe_kfail $func "$test_name"
}
} elseif {$j > $i} {
switch -- [lindex $result end] {
undefined { pass $test_name }
timeout { fail "$test_name (timeout)" }
default {
maybe_kfail $func "$test_name"
}
}
}
set until_macro "UNTIL_[string toupper $func_j]"
set test_name \
"$until_macro defined/undefined when stopped at $func"
set result [info_macro $until_macro]
if {$j <= $i} {
switch -- [lindex $result end] {
undefined { pass $test_name }
timeout { fail "$test_name (timeout)" }
default {
maybe_kfail $func "$test_name"
}
}
} elseif {$j > $i} {
if {[llength $result] >= 2 && \
[string compare [lindex $result end] {}] == 0} {
pass $test_name
} elseif {[string compare $result timeout] == 0} {
fail "$test_name (timeout)"
} else {
maybe_kfail $func "$test_name"
}
}
}
}
}
gdb_test "break [gdb_get_line_number "set breakpoint here"]" \
"Breakpoint.*at.* file .*, line.*" \
"breakpoint macscp_expr"
gdb_test "cond \$bpnum foo == MACRO_TO_EXPAND" \
"No symbol \"MACRO_TO_EXPAND\" in current context\." \
"macro MACRO_TO_EXPAND not in scope at breakpoint"
# Note that we choose the condition so that this breakpoint never
# stops.
set l2 [gdb_get_line_number "set second breakpoint here"]
gdb_test "break $l2 if foo != MACRO_TO_EXPAND" \
"Breakpoint.*at.*" \
"breakpoint macscp_expr using MACRO_TO_EXPAND"
gdb_test "continue" "foo = 0;.*" "continue to macsp_expr"
gdb_test "print address.addr" \
" = 0"
gdb_test "print MACRO_TO_EXPAND" \
"No symbol \"MACRO_TO_EXPAND\" in current context\." \
"print expression with macro before define."
gdb_test "next" "foo = 1;.*here.*/" "next to definition 1"
gdb_test "print MACRO_TO_EXPAND" \
" = 0" \
"print expression with macro in scope."
gdb_test_no_output "macro define MACRO_TO_EXPAND 72" \
"user macro override"
gdb_test "print MACRO_TO_EXPAND" \
" = 72" \
"choose user macro"
gdb_test_no_output "macro undef MACRO_TO_EXPAND" \
"remove user override"
gdb_test "print MACRO_TO_EXPAND" \
" = 0" \
"print expression with macro after removing override"
gdb_test "next" "foo = 2;.*" "next to definition 2"
gdb_test "print MACRO_TO_EXPAND" \
"No symbol \"MACRO_TO_EXPAND\" in current context\." \
"print expression with macro after undef."
gdb_test_no_output "macro define MACRO_TO_EXPAND 5" \
"basic macro define"
gdb_test "print MACRO_TO_EXPAND" \
" = 5" \
"expansion of defined macro"
gdb_test "macro list" \
"macro define MACRO_TO_EXPAND 5" \
"basic macro list"
gdb_test_no_output "macro define MACRO_TO_EXPAND(x) x" \
"basic redefine, macro with args"
gdb_test "print MACRO_TO_EXPAND (7)" \
" = 7" \
"expansion of macro with arguments"
gdb_test_no_output "macro undef MACRO_TO_EXPAND" \
"basic macro undef"
gdb_test "print MACRO_TO_EXPAND" \
"No symbol \"MACRO_TO_EXPAND\" in current context\." \
"print expression with macro after user undef."
# Regression test; this used to crash.
gdb_test "macro define" \
"usage: macro define.*" \
"macro define with no arguments"
# Regression test; this used to crash.
gdb_test "macro undef" \
"usage: macro undef.*" \
"macro undef with no arguments"
# Do completion tests if readline is used.
if { [readline_is_used] } {
# The macro FIFTY_SEVEN is in scope at this point.
send_gdb "p FIFTY_\t"
gdb_expect {
-re "^p FIFTY_SEVEN $" {
send_gdb "\n"
gdb_expect {
-re "^.* = 57.*$gdb_prompt $" {
pass "complete 'p FIFTY_SEVEN'"
}
-re ".*$gdb_prompt $" { fail "complete 'p FIFTY_SEVEN'" }
timeout { fail "(timeout) complete 'p FIFTY_SEVEN'" }
}
}
-re ".*$gdb_prompt $" { fail "complete 'p FIFTY_SEVEN'" }
timeout { fail "(timeout) complete 'p FIFTY_SEVEN' 2" }
}
# The macro TWENTY_THREE is not in scope.
send_gdb "p TWENTY_\t"
gdb_expect {
-re "^p TWENTY_\\\x07$" {
send_gdb "\n"
gdb_expect {
-re "No symbol \"TWENTY_\" in current context\\..*$gdb_prompt $" {
pass "complete 'p TWENTY_'"
}
-re ".*$gdb_prompt $" { fail "complete 'p TWENTY_'" }
timeout { fail "(timeout) complete 'p TWENTY_'"}
}
}
-re ".*$gdb_prompt $" { fail "complete 'p TWENTY_'" }
timeout { fail "(timeout) complete 'p TWENTY_' 2" }
}
# The macro FORTY_EIGHT was undefined and thus is not in scope.
send_gdb "p FORTY_\t"
gdb_expect {
-re "^p FORTY_\\\x07$" {
send_gdb "\n"
gdb_expect {
-re "No symbol \"FORTY_\" in current context\\..*$gdb_prompt $" {
pass "complete 'p FORTY_'"
}
-re ".*$gdb_prompt $" { fail "complete 'p FORTY_'" }
timeout {fail "(timeout) complete 'p FORTY_'"}
}
}
-re ".*$gdb_prompt $" { fail "complete 'p FORTY_'" }
timeout { fail "(timeout) complete 'p FORTY_' 2" }
}
gdb_test_no_output "macro define TWENTY_THREE 25" \
"defining TWENTY_THREE"
# User-defined macros are always in scope.
send_gdb "p TWENTY_\t"
gdb_expect {
-re "^p TWENTY_THREE $" {
send_gdb "\n"
gdb_expect {
-re "^.* = 25.*$gdb_prompt $" {
pass "complete 'p TWENTY_THREE'"
}
-re ".*$gdb_prompt $" { fail "complete 'p TWENTY_THREE'"}
timeout { fail "(timeout) complete 'p TWENTY_THREE'" }
}
}
-re ".*$gdb_prompt $" { fail "complete 'p TWENTY_THREE'" }
timeout { fail "(timeout) complete 'p TWENTY_THREE' 2" }
}
}
# Splicing tests.
gdb_test "macro expand SPLICE(x, y)" \
"expands to: xy" \
"basic macro splicing"
gdb_test_no_output "macro define robotinvasion 2010" \
"define splice helper"
gdb_test "macro expand SPLICE(robot, invasion)" \
"expands to: *2010" \
"splicing plus expansion"
# Varargs tests.
gdb_test_no_output "macro define va_c99(...) varfunc (fixedarg, __VA_ARGS__)" \
"define first varargs helper"
gdb_test_no_output "macro define va2_c99(x, y, ...) varfunc (fixedarg, x, y, __VA_ARGS__)" \
"define second varargs helper"
gdb_test_no_output "macro define va_gnu(args...) varfunc (fixedarg, args)" \
"define third varargs helper"
gdb_test_no_output "macro define va2_gnu(args...) varfunc (fixedarg, ## args)" \
"define fourth varargs helper"
gdb_test_no_output \
"macro define va3_cxx2a(x, ...) varfunc (x __VA_OPT__(,) __VA_ARGS__)" \
"define fifth varargs helper"
gdb_test_no_output \
"macro define va4_cxx2a(x, ...) varfunc (x __VA_OPT__(, __VA_ARGS__))" \
"define sixth varargs helper"
gdb_test_no_output \
"macro define va5_cxx2a(x, ...) varfunc (x __VA_OPT__(,) __VA_OPT__(__VA_ARGS__))" \
"define seventh varargs helper"
gdb_test "macro expand va_c99(one, two, three)" \
"expands to: *varfunc \\(fixedarg, *one, two, three\\)" \
"c99 varargs expansion"
gdb_test "macro expand va_c99()" \
"expands to: *varfunc \\(fixedarg, *\\)" \
"c99 varargs expansion without an argument"
gdb_test "macro expand va2_c99(one, two, three, four)" \
"expands to: *varfunc \\(fixedarg, *one, two, three, four\\)" \
"c99 varargs expansion, multiple formal arguments"
gdb_test "macro expand va_gnu(one, two, three, four)" \
"expands to: *varfunc \\(fixedarg, *one, two, three, four\\)" \
"gnu varargs expansion"
gdb_test "macro expand va_gnu()" \
"expands to: *varfunc \\(fixedarg, *\\)" \
"gnu varargs expansion without an argument"
gdb_test "macro expand va2_gnu()" \
"expands to: *varfunc \\(fixedarg\\)" \
"gnu varargs expansion special splicing without an argument"
gdb_test "macro expand va3_cxx2a(23)" \
"expands to: *varfunc \\(23 \\)" \
"C++2a __VA_OPT__ handling without variable argument"
gdb_test "macro expand va3_cxx2a(23, 24, 25)" \
"expands to: *varfunc \\(23, 24, 25\\)" \
"C++2a __VA_OPT__ handling with variable argument"
gdb_test "macro expand va4_cxx2a(23, 24, 25)" \
"expands to: *varfunc \\(23, 24, 25\\)" \
"C++2a __VA_OPT__ conditional __VA_ARGS__ handling with variable argument"
gdb_test "macro expand va4_cxx2a(23)" \
"expands to: *varfunc \\(23\\)" \
"C++2a __VA_OPT__ conditional __VA_ARGS__ handling without variable argument"
gdb_test "macro expand va5_cxx2a(23, 24, 25)" \
"expands to: *varfunc \\(23,24, 25\\)" \
"C++2a double __VA_OPT__ conditional __VA_ARGS__ handling with variable argument"
gdb_test "macro expand va5_cxx2a(23)" \
"expands to: *varfunc \\(23\\)" \
"C++2a double __VA_OPT__ conditional __VA_ARGS__ handling without variable argument"
gdb_test_no_output \
"macro define badopt1(x, ...) __VA_OPT__) x" \
"define first invalid varargs helper"
gdb_test "macro expand badopt1(5)" \
"__VA_OPT__ must be followed by an open parenthesis" \
"__VA_OPT__ without open paren"
gdb_test_no_output \
"macro define badopt2(x, ...) __VA_OPT__(__VA_OPT__(,)) x" \
"define second invalid varargs helper"
gdb_test "macro expand badopt2(5)" \
"__VA_OPT__ cannot appear inside __VA_OPT__" \
"__VA_OPT__ inside __VA_OPT__"
gdb_test_no_output \
"macro define badopt3(x) __VA_OPT__" \
"define third invalid varargs helper"
gdb_test "macro expand badopt3(5)" \
"__VA_OPT__ is only valid in a variadic macro" \
"__VA_OPT__ not in variadic macro"
gdb_test_no_output \
"macro define badopt4(x, ...) __VA_OPT__(x" \
"define fourth invalid varargs helper"
gdb_test "macro expand badopt4(5)" \
"Unterminated __VA_OPT__" \
"__VA_OPT__ without closing paren"
# Stringification tests.
gdb_test_no_output "macro define str(x) #x" \
"define stringification macro"
gdb_test_no_output "macro define maude 5" \
"define first stringification helper"
gdb_test_no_output "macro define xstr(x) str(x)" \
"define second stringification helper"
gdb_test "print str(5)" \
" = \"5\"" \
"simple stringify"
gdb_test "print str(hi bob)" \
" = \"hi bob\"" \
"stringify with one space"
gdb_test "print str( hi bob )" \
" = \"hi bob\"" \
"stringify with many spaces"
gdb_test "print str(hi \"bob\")" \
" = \"hi \\\\\"bob\\\\\"\"" \
"stringify with quotes"
gdb_test "print str(hi \\bob\\)" \
" = \"hi \\\\\\\\bob\\\\\\\\\"" \
"stringify with backslashes"
gdb_test "print str(maude)" \
" = \"maude\"" \
"stringify without substitution"
gdb_test "print xstr(maude)" \
" = \"5\"" \
"stringify with substitution"
# Regression test for pp-number bug.
gdb_test_no_output "macro define si_addr fields.fault.si_addr" \
"define si_addr macro"
gdb_test "macro expand siginfo.si_addr" \
"expands to: siginfo.fields.fault.si_addr"
gdb_test "print __FILE__" " = \".*macscp1.c\""
gdb_test "print __LINE__" \
" = [gdb_get_line_number {stopping point for line test}]"