gdb/testsuite/gdb.c++/cplusfuncs.exp - binutils-gdb - Git at Google

 # Copyright (C) 1992, 1997 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 2 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, 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)

 if $tracelevel then {
 	strace $tracelevel
 }

 # Check to see if we have an executable to test.  If not, then either we
 # haven't tried to compile one, or the compilation failed for some reason.
 # In either case, just notify the user and skip the tests in this file.

 set testfile "cplusfuncs"
 set srcfile ${testfile}.cc
 set binfile ${objdir}/${subdir}/${testfile}
 if  { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable {debug c++}] != "" } {
      gdb_suppress_entire_file "Testcase compile failed, so all tests in this file will automatically fail."
 }

 if {[get_compiler_info $binfile "c++"] == -1} {
     return -1
 }

 #
 #  Cause gdb to lookup a specific C++ function and print the demangled
 #  form.
 #

 proc info_func { regex demangled } {
     global gdb_prompt

     send_gdb "info function $regex\n"
     gdb_expect {
 	-re "File .*:\r\n$demangled\r\n.*$gdb_prompt $" {
 	    pass "info function for \"$regex\""
 	}
 	-re "File .*:\r\nclass $demangled\r\n.*$gdb_prompt $" {
 	    pass "info function for \"$regex\""
 	}
 	-re ".*$gdb_prompt $" {
 	    fail "info function for \"$regex\""
 	}
 	timeout {
 	    fail "info function for \"$regex\" (timeout)"
 	}
     }
 }

 #
 #  Run print &'$arg' on the input arg and verify that we can correctly
 #  lookup the fully qualified C++ function.
 #  We ignore the return type of the function since we are only interested
 #  in the rootname and arguments part.
 #

 proc print_addr_of { arg } {
     global gdb_prompt
     global hex

     set pattern [string_to_regexp $arg]
     send_gdb "print &'$arg'\n"
     gdb_expect {
 	-re ".* = .* $hex <$pattern>\r\n$gdb_prompt $" { pass "print &'$arg'" }
 	-re ".*$gdb_prompt $" {
 	    fail "print &'$arg'"
 	}
 	timeout {
 	    fail "print &'$arg' (timeout)"
 	}
     }
 }

 #
 # Test name demangling for operators.
 #
 # The '(' at the end of each regex input pattern is so that we match only
 # the one we are looking for.  I.E. "operator&" would match both
 # "operator&(foo &)" and "operator&&(foo &)".
 #

 proc test_lookup_operator_functions {} {

     # These tests don't work for COFF targets; don't even try them
     if [istarget "a29k-*-udi"] then {
 	setup_xfail "a29k-*-udi"
 	fail "skipping operator tests"
 	return
     }

     info_func "operator&&("  "void foo::operator&&\\(foo &\\);"
     info_func "operator&=("  "void foo::operator&=\\(foo &\\);"
     info_func "operator&("  "void foo::operator&\\(foo &\\);"
     info_func "operator/=("  "void foo::operator/=\\(foo &\\);"
     info_func "operator^=("  "void foo::operator.=\\(foo &\\);"
     info_func "operator<<=("  "void foo::operator<<=\\(foo &\\);"
     info_func "operator%=("  "void foo::operator%=\\(foo &\\);"
     info_func "operator-=("  "void foo::operator-=\\(foo &\\);"

     # There doesn't appear to be any way to get GDB to treat '*' as a
     # character to match, rather than as a regex special character.
     setup_xfail "*-*-*"
     info_func "operator\*=("  "void foo::operator\\*=\\(foo &\\);"

     info_func "operator|=("  "void foo::operator\\|=\\(foo &\\);"
     info_func "operator+=("  "void foo::operator.=\\(foo &\\);"
     info_func "operator>>=("  "void foo::operator\>\>=\\(foo &\\);"
     info_func "operator=("  "void foo::operator=\\(foo &\\);"
     info_func "operator()("  "void foo::operator\\(\\)\\(foo &\\);"

     # The function should be "operator," not "operator, ".  (note space)
     # This test will work; I've commented it out because it should not
     # count as a pass, since it is incorrect.  Ian Taylor.
     # info_func "operator, ("  "void foo::operator, \\(foo &\\);"
     setup_xfail "*-*-*"
     info_func "operator,("  "void foo::operator,\\(foo &\\);"

     info_func "operator~("  "void foo::operator~\\(void\\);"
     info_func "operator delete("  "void foo::operator delete\\(void \\*\\)(| static);"
     info_func "operator/("  "void foo::operator/\\(foo &\\);"
     info_func "operator==("  "void foo::operator==\\(foo &\\);"
     info_func "operator^("  "void foo::operator\\^\\(foo &\\);"

     info_func "operator>=("  "void foo::operator>=\\(foo &\\);"
     info_func "operator>("  "void foo::operator>\\(foo &\\);"
     info_func "operator<=("  "void foo::operator<=\\(foo &\\);"
     info_func "operator<<("  "void foo::operator<<\\(foo &\\);"
     info_func "operator<("  "void foo::operator<\\(foo &\\);"
     info_func "operator%("  "void foo::operator%\\(foo &\\);"
     info_func "operator-("  "void foo::operator-\\(foo &\\);"

     # There doesn't appear to be anyway to get '*' treated as a character
     # to match, rather than as a regex special character.
     setup_xfail "*-*-*"
     info_func "operator\*("  "void foo::operator\\*\\(foo &\\);"

     info_func "operator--("  "void foo::operator--\\(int\\);"
     info_func "operator!=("  "void foo::operator!=\\(foo &\\);"
     info_func "operator!("  "void foo::operator!\\(void\\);"
     info_func "operator new("  "void \\*foo::operator new\\(.*\\)(| static);"
     info_func "operator||("  "void foo::operator\\|\\|\\(foo &\\);"
     info_func "operator char \\*("  "char \\*foo::operator char \\*\\(void\\);"
     info_func "operator int("  "int foo::operator int\\(void\\);"
     info_func "operator|("  "void foo::operator\\|\\(foo &\\);"
     info_func "operator+("  "void foo::operator\\+\\(foo &\\);"
     info_func "operator++("  "void foo::operator\\+\\+\\(int\\);"
     info_func "operator->("  "foo \\*foo::operator->\\(void\\);"
     info_func "operator->\\*("  "void foo::operator->\\*\\(foo &\\);"
     info_func "operator>>("  "void foo::operator\>\>\\(foo &\\);"

     # GDB says "`operator \[\](' not supported".  I don't know why.
     setup_xfail "*-*-*"
     info_func "operator\\\[\\\](" "void foo::operator\\\[\\\]\\(foo &\\);"
     # But this works, for some reason.
     info_func ".perator\\\[\\\](" "void foo::operator\\\[\\\]\\(foo &\\);"
 }


 proc test_paddr_operator_functions {} {
     global hex
     global hp_aCC_compiler

     print_addr_of "foo::operator&&(foo &)"
     print_addr_of "foo::operator&=(foo &)"
     print_addr_of "foo::operator&(foo &)"
     print_addr_of "foo::operator/=(foo &)"
     print_addr_of "foo::operator^=(foo &)"
     print_addr_of "foo::operator<<=(foo &)"
     print_addr_of "foo::operator%=(foo &)"
     print_addr_of "foo::operator-=(foo &)"
     print_addr_of "foo::operator*=(foo &)"
     print_addr_of "foo::operator|=(foo &)"
     print_addr_of "foo::operator+=(foo &)"
     print_addr_of "foo::operator>>=(foo &)"
     print_addr_of "foo::operator=(foo &)"
     print_addr_of "foo::operator()(foo &)"
     print_addr_of "foo::operator, (foo &)"
     print_addr_of "foo::operator~(void)"
     if { !$hp_aCC_compiler } {
 	print_addr_of "foo::operator delete(void *)"
     } else {
 	gdb_test "print &'foo::operator delete(void *) static'" \
 	    " = .*(0x\[0-9a-f\]+|) <foo::operator delete.*>"
     }
     print_addr_of "foo::operator/(foo &)"
     print_addr_of "foo::operator==(foo &)"
     print_addr_of "foo::operator^(foo &)"
     print_addr_of "foo::operator>=(foo &)"
     print_addr_of "foo::operator>(foo &)"
     print_addr_of "foo::operator<=(foo &)"
     print_addr_of "foo::operator<<(foo &)"
     print_addr_of "foo::operator<(foo &)"
     print_addr_of "foo::operator%(foo &)"
     print_addr_of "foo::operator-(foo &)"
     print_addr_of "foo::operator*(foo &)"
     print_addr_of "foo::operator--(int)"
     print_addr_of "foo::operator!=(foo &)"
     print_addr_of "foo::operator!(void)"
     gdb_test "print &'foo::operator new'" \
 	" = .* $hex <foo::operator new\\(.*\\)(| static)>"
     print_addr_of "foo::operator||(foo &)"
     print_addr_of "foo::operator char *(void)"
     print_addr_of "foo::operator int(void)"
     print_addr_of "foo::operator|(foo &)"
     print_addr_of "foo::operator+(foo &)"
     print_addr_of "foo::operator++(int)"
     print_addr_of "foo::operator->(void)"
     print_addr_of "foo::operator->*(foo &)"
     print_addr_of "foo::operator>>(foo &)"
     gdb_test "print &'foo::operator\[\](foo &)'" \
 	" = .*0x\[0-9a-f\]+ <foo::operator\\\[\\\]\\(foo &\\)>"
 }

 #
 # Test overloaded functions (1 arg).
 #

 proc test_paddr_overloaded_functions {} {
     print_addr_of "overload1arg(signed char)"
     print_addr_of "overload1arg(unsigned char)"
     print_addr_of "overload1arg(unsigned int)"
     print_addr_of "overload1arg(unsigned long)"
     print_addr_of "overload1arg(unsigned short)"
     print_addr_of "overload1arg(char)"
     print_addr_of "overload1arg(double)"
     print_addr_of "overload1arg(float)"
     print_addr_of "overload1arg(int)"
     print_addr_of "overload1arg(long)"
     print_addr_of "overload1arg(short)"
     print_addr_of "overload1arg(void)"
     print_addr_of "overloadargs(int)"
     print_addr_of "overloadargs(int, int)"
     print_addr_of "overloadargs(int, int, int)"
     print_addr_of "overloadargs(int, int, int, int)"
     print_addr_of "overloadargs(int, int, int, int, int)"
     print_addr_of "overloadargs(int, int, int, int, int, int)"
     print_addr_of "overloadargs(int, int, int, int, int, int, int)"
     print_addr_of "overloadargs(int, int, int, int, int, int, int, int)"
     print_addr_of "overloadargs(int, int, int, int, int, int, int, int, int)"
     print_addr_of "overloadargs(int, int, int, int, int, int, int, int, int, int)"
     print_addr_of "overloadargs(int, int, int, int, int, int, int, int, int, int, int)"
 }

 proc test_paddr_hairy_functions {} {
     print_addr_of "hairyfunc1(int)"
     print_addr_of "hairyfunc2(int (*)(char *))"
     print_addr_of "hairyfunc3(int (*)(short (*)(long *)))"
     print_addr_of "hairyfunc4(int (*)(short (*)(char *)))"
     print_addr_of "hairyfunc5(int (*(*)(char *))(long))"
     print_addr_of "hairyfunc6(int (*(*)(int *))(long))"
     print_addr_of "hairyfunc7(int (*(*)(int (*)(char *)))(long))"
 }

 proc do_tests {} {
     global prms_id
     global bug_id
     global subdir
     global objdir
     global srcdir
     global binfile
     global gdb_prompt

     set prms_id 0
     set bug_id 0

     # Start with a fresh gdb.

     gdb_exit
     gdb_start
     gdb_reinitialize_dir $srcdir/$subdir
     gdb_load $binfile

     send_gdb "set language c++\n"
     gdb_expect -re "$gdb_prompt $"
     send_gdb "set width 0\n"
     gdb_expect -re "$gdb_prompt $"

     # Get the debug format for the compiled test case.  If that
     # format is DWARF 1 then just skip all the tests since none of
     # them will pass.

     if [ runto_main] then {
 	get_debug_format
 	if [ setup_xfail_format "DWARF 1" ] then {
 	    fail "C++ tests skipped due to limited C++ support in DWARF 1 debug format"
 	    return
 	}
 	clear_xfail "*-*-*"
     }

     test_paddr_overloaded_functions
     test_paddr_operator_functions
     test_paddr_hairy_functions
     test_lookup_operator_functions
 }

 do_tests
	# Copyright (C) 1992, 1997 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 2 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, 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)

	if $tracelevel then {
	strace $tracelevel
	}

	# Check to see if we have an executable to test. If not, then either we
	# haven't tried to compile one, or the compilation failed for some reason.
	# In either case, just notify the user and skip the tests in this file.

	set testfile "cplusfuncs"
	set srcfile ${testfile}.cc
	set binfile ${objdir}/${subdir}/${testfile}
	if { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable {debug c++}] != "" } {
	gdb_suppress_entire_file "Testcase compile failed, so all tests in this file will automatically fail."
	}

	if {[get_compiler_info $binfile "c++"] == -1} {
	return -1
	}

	#
	# Cause gdb to lookup a specific C++ function and print the demangled
	# form.
	#

	proc info_func { regex demangled } {
	global gdb_prompt

	send_gdb "info function $regex\n"
	gdb_expect {
	-re "File .:\r\n$demangled\r\n.$gdb_prompt $" {
	pass "info function for \"$regex\""
	}
	-re "File .:\r\nclass $demangled\r\n.$gdb_prompt $" {
	pass "info function for \"$regex\""
	}
	-re ".*$gdb_prompt $" {
	fail "info function for \"$regex\""
	}
	timeout {
	fail "info function for \"$regex\" (timeout)"
	}
	}
	}

	#
	# Run print &'$arg' on the input arg and verify that we can correctly
	# lookup the fully qualified C++ function.
	# We ignore the return type of the function since we are only interested
	# in the rootname and arguments part.
	#

	proc print_addr_of { arg } {
	global gdb_prompt
	global hex

	set pattern [string_to_regexp $arg]
	send_gdb "print &'$arg'\n"
	gdb_expect {
	-re ".* = .* $hex <$pattern>\r\n$gdb_prompt $" { pass "print &'$arg'" }
	-re ".*$gdb_prompt $" {
	fail "print &'$arg'"
	}
	timeout {
	fail "print &'$arg' (timeout)"
	}
	}
	}

	#
	# Test name demangling for operators.
	#
	# The '(' at the end of each regex input pattern is so that we match only
	# the one we are looking for. I.E. "operator&" would match both
	# "operator&(foo &)" and "operator&&(foo &)".
	#

	proc test_lookup_operator_functions {} {

	# These tests don't work for COFF targets; don't even try them
	if [istarget "a29k-*-udi"] then {
	setup_xfail "a29k-*-udi"
	fail "skipping operator tests"
	return
	}

	info_func "operator&&(" "void foo::operator&&\\(foo &\\);"
	info_func "operator&=(" "void foo::operator&=\\(foo &\\);"
	info_func "operator&(" "void foo::operator&\\(foo &\\);"
	info_func "operator/=(" "void foo::operator/=\\(foo &\\);"
	info_func "operator^=(" "void foo::operator.=\\(foo &\\);"
	info_func "operator<<=(" "void foo::operator<<=\\(foo &\\);"
	info_func "operator%=(" "void foo::operator%=\\(foo &\\);"
	info_func "operator-=(" "void foo::operator-=\\(foo &\\);"

	# There doesn't appear to be any way to get GDB to treat '*' as a
	# character to match, rather than as a regex special character.
	setup_xfail "--*"
	info_func "operator\=(" "void foo::operator\\=\\(foo &\\);"

	info_func "operator\|=(" "void foo::operator\\\|=\\(foo &\\);"
	info_func "operator+=(" "void foo::operator.=\\(foo &\\);"
	info_func "operator>>=(" "void foo::operator\>\>=\\(foo &\\);"
	info_func "operator=(" "void foo::operator=\\(foo &\\);"
	info_func "operator()(" "void foo::operator\\(\\)\\(foo &\\);"

	# The function should be "operator," not "operator, ". (note space)
	# This test will work; I've commented it out because it should not
	# count as a pass, since it is incorrect. Ian Taylor.
	# info_func "operator, (" "void foo::operator, \\(foo &\\);"
	setup_xfail "--*"
	info_func "operator,(" "void foo::operator,\\(foo &\\);"

	info_func "operator~(" "void foo::operator~\\(void\\);"
	info_func "operator delete(" "void foo::operator delete\\(void \\*\\)(\| static);"
	info_func "operator/(" "void foo::operator/\\(foo &\\);"
	info_func "operator==(" "void foo::operator==\\(foo &\\);"
	info_func "operator^(" "void foo::operator\\^\\(foo &\\);"

	info_func "operator>=(" "void foo::operator>=\\(foo &\\);"
	info_func "operator>(" "void foo::operator>\\(foo &\\);"
	info_func "operator<=(" "void foo::operator<=\\(foo &\\);"
	info_func "operator<<(" "void foo::operator<<\\(foo &\\);"
	info_func "operator<(" "void foo::operator<\\(foo &\\);"
	info_func "operator%(" "void foo::operator%\\(foo &\\);"
	info_func "operator-(" "void foo::operator-\\(foo &\\);"

	# There doesn't appear to be anyway to get '*' treated as a character
	# to match, rather than as a regex special character.
	setup_xfail "--*"
	info_func "operator\(" "void foo::operator\\\\(foo &\\);"

	info_func "operator--(" "void foo::operator--\\(int\\);"
	info_func "operator!=(" "void foo::operator!=\\(foo &\\);"
	info_func "operator!(" "void foo::operator!\\(void\\);"
	info_func "operator new(" "void \\foo::operator new\\(.\\)(\| static);"
	info_func "operator\|\|(" "void foo::operator\\\|\\\|\\(foo &\\);"
	info_func "operator char \\(" "char \\foo::operator char \\*\\(void\\);"
	info_func "operator int(" "int foo::operator int\\(void\\);"
	info_func "operator\|(" "void foo::operator\\\|\\(foo &\\);"
	info_func "operator+(" "void foo::operator\\+\\(foo &\\);"
	info_func "operator++(" "void foo::operator\\+\\+\\(int\\);"
	info_func "operator->(" "foo \\*foo::operator->\\(void\\);"
	info_func "operator->\\(" "void foo::operator->\\\\(foo &\\);"
	info_func "operator>>(" "void foo::operator\>\>\\(foo &\\);"

	# GDB says "`operator \[\](' not supported". I don't know why.
	setup_xfail "--*"
	info_func "operator\\\[\\\](" "void foo::operator\\\[\\\]\\(foo &\\);"
	# But this works, for some reason.
	info_func ".perator\\\[\\\](" "void foo::operator\\\[\\\]\\(foo &\\);"
	}


	proc test_paddr_operator_functions {} {
	global hex
	global hp_aCC_compiler

	print_addr_of "foo::operator&&(foo &)"
	print_addr_of "foo::operator&=(foo &)"
	print_addr_of "foo::operator&(foo &)"
	print_addr_of "foo::operator/=(foo &)"
	print_addr_of "foo::operator^=(foo &)"
	print_addr_of "foo::operator<<=(foo &)"
	print_addr_of "foo::operator%=(foo &)"
	print_addr_of "foo::operator-=(foo &)"
	print_addr_of "foo::operator*=(foo &)"
	print_addr_of "foo::operator\|=(foo &)"
	print_addr_of "foo::operator+=(foo &)"
	print_addr_of "foo::operator>>=(foo &)"
	print_addr_of "foo::operator=(foo &)"
	print_addr_of "foo::operator()(foo &)"
	print_addr_of "foo::operator, (foo &)"
	print_addr_of "foo::operator~(void)"
	if { !$hp_aCC_compiler } {
	print_addr_of "foo::operator delete(void *)"
	} else {
	gdb_test "print &'foo::operator delete(void *) static'" \
	" = .(0x\[0-9a-f\]+\|) <foo::operator delete.>"
	}
	print_addr_of "foo::operator/(foo &)"
	print_addr_of "foo::operator==(foo &)"
	print_addr_of "foo::operator^(foo &)"
	print_addr_of "foo::operator>=(foo &)"
	print_addr_of "foo::operator>(foo &)"
	print_addr_of "foo::operator<=(foo &)"
	print_addr_of "foo::operator<<(foo &)"
	print_addr_of "foo::operator<(foo &)"
	print_addr_of "foo::operator%(foo &)"
	print_addr_of "foo::operator-(foo &)"
	print_addr_of "foo::operator*(foo &)"
	print_addr_of "foo::operator--(int)"
	print_addr_of "foo::operator!=(foo &)"
	print_addr_of "foo::operator!(void)"
	gdb_test "print &'foo::operator new'" \
	" = .* $hex <foo::operator new\\(.*\\)(\| static)>"
	print_addr_of "foo::operator\|\|(foo &)"
	print_addr_of "foo::operator char *(void)"
	print_addr_of "foo::operator int(void)"
	print_addr_of "foo::operator\|(foo &)"
	print_addr_of "foo::operator+(foo &)"
	print_addr_of "foo::operator++(int)"
	print_addr_of "foo::operator->(void)"
	print_addr_of "foo::operator->*(foo &)"
	print_addr_of "foo::operator>>(foo &)"
	gdb_test "print &'foo::operator\[\](foo &)'" \
	" = .*0x\[0-9a-f\]+ <foo::operator\\\[\\\]\\(foo &\\)>"
	}

	#
	# Test overloaded functions (1 arg).
	#

	proc test_paddr_overloaded_functions {} {
	print_addr_of "overload1arg(signed char)"
	print_addr_of "overload1arg(unsigned char)"
	print_addr_of "overload1arg(unsigned int)"
	print_addr_of "overload1arg(unsigned long)"
	print_addr_of "overload1arg(unsigned short)"
	print_addr_of "overload1arg(char)"
	print_addr_of "overload1arg(double)"
	print_addr_of "overload1arg(float)"
	print_addr_of "overload1arg(int)"
	print_addr_of "overload1arg(long)"
	print_addr_of "overload1arg(short)"
	print_addr_of "overload1arg(void)"
	print_addr_of "overloadargs(int)"
	print_addr_of "overloadargs(int, int)"
	print_addr_of "overloadargs(int, int, int)"
	print_addr_of "overloadargs(int, int, int, int)"
	print_addr_of "overloadargs(int, int, int, int, int)"
	print_addr_of "overloadargs(int, int, int, int, int, int)"
	print_addr_of "overloadargs(int, int, int, int, int, int, int)"
	print_addr_of "overloadargs(int, int, int, int, int, int, int, int)"
	print_addr_of "overloadargs(int, int, int, int, int, int, int, int, int)"
	print_addr_of "overloadargs(int, int, int, int, int, int, int, int, int, int)"
	print_addr_of "overloadargs(int, int, int, int, int, int, int, int, int, int, int)"
	}

	proc test_paddr_hairy_functions {} {
	print_addr_of "hairyfunc1(int)"
	print_addr_of "hairyfunc2(int ()(char ))"
	print_addr_of "hairyfunc3(int ()(short ()(long *)))"
	print_addr_of "hairyfunc4(int ()(short ()(char *)))"
	print_addr_of "hairyfunc5(int (()(char *))(long))"
	print_addr_of "hairyfunc6(int (()(int *))(long))"
	print_addr_of "hairyfunc7(int (()(int ()(char )))(long))"
	}

	proc do_tests {} {
	global prms_id
	global bug_id
	global subdir
	global objdir
	global srcdir
	global binfile
	global gdb_prompt

	set prms_id 0
	set bug_id 0

	# Start with a fresh gdb.

	gdb_exit
	gdb_start
	gdb_reinitialize_dir $srcdir/$subdir
	gdb_load $binfile

	send_gdb "set language c++\n"
	gdb_expect -re "$gdb_prompt $"
	send_gdb "set width 0\n"
	gdb_expect -re "$gdb_prompt $"

	# Get the debug format for the compiled test case. If that
	# format is DWARF 1 then just skip all the tests since none of
	# them will pass.

	if [ runto_main] then {
	get_debug_format
	if [ setup_xfail_format "DWARF 1" ] then {
	fail "C++ tests skipped due to limited C++ support in DWARF 1 debug format"
	return
	}
	clear_xfail "--*"
	}

	test_paddr_overloaded_functions
	test_paddr_operator_functions
	test_paddr_hairy_functions
	test_lookup_operator_functions
	}

	do_tests