# Copyright 1992-2020 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 . # This file was written by Fred Fish. (fnf@cygnus.com) # And rewritten by Michael Chastain . set nl "\[\r\n\]+" if { [skip_cplus_tests] } { continue } load_lib "cp-support.exp" standard_testfile .cc if {[prepare_for_testing "failed to prepare" $testfile $srcfile {debug c++}]} { return -1 } # Test ptype of class objects. proc test_ptype_class_objects {} { # Simple type. cp_test_ptype_class \ "struct default_public_struct" "" "struct" "default_public_struct" \ { { field public "int a;" } { field public "int b;" } } # Another simple type. cp_test_ptype_class \ "struct explicit_public_struct" "" "struct" "explicit_public_struct" \ { { field public "int a;" } { field public "int b;" } } # Another simple type. cp_test_ptype_class \ "struct protected_struct" "" "struct" "protected_struct" \ { { field protected "int a;" } { field protected "int b;" } } # Another simple type. cp_test_ptype_class \ "struct private_struct" "" "struct" "private_struct" \ { { field private "int a;" } { field private "int b;" } } # A bigger type. cp_test_ptype_class \ "struct mixed_protection_struct" "" "struct" "mixed_protection_struct" \ { { field public "int a;" } { field public "int b;" } { field private "int c;" } { field private "int d;" } { field protected "int e;" } { field protected "int f;" } { field public "int g;" } { field private "int h;" } { field protected "int i;" } } # All that again with "class" instead of "struct". # gdb does not care about the difference anyways. cp_test_ptype_class \ "class public_class" "" "class" "public_class" \ { { field public "int a;" } { field public "int b;" } } # Another simple type. cp_test_ptype_class \ "class protected_class" "" "class" "protected_class" \ { { field protected "int a;" } { field protected "int b;" } } # Another simple type. cp_test_ptype_class \ "class default_private_class" "" "class" "default_private_class" \ { { field private "int a;" } { field private "int b;" } } # Another simple type. cp_test_ptype_class \ "class explicit_private_class" "" "class" "explicit_private_class" \ { { field private "int a;" } { field private "int b;" } } # A bigger type. cp_test_ptype_class \ "class mixed_protection_class" "" "class" "mixed_protection_class" \ { { field public "int a;" } { field public "int b;" } { field private "int c;" } { field private "int d;" } { field protected "int e;" } { field protected "int f;" } { field public "int g;" } { field private "int h;" } { field protected "int i;" } } # Here are some classes with inheritance. # Base class. cp_test_ptype_class \ "class A" "" "class" "A" \ { { field public "int a;" } { field public "int x;" } } # Derived class. cp_test_ptype_class \ "class B" "" "class" "B" \ { { base "public A" } { field public "int b;" } { field public "int x;" } } # Derived class. cp_test_ptype_class \ "class C" "" "class" "C" \ { { base "public A" } { field public "int c;" } { field public "int x;" } } # Derived class, multiple inheritance. cp_test_ptype_class \ "class D" "" "class" "D" \ { { base "public B" } { base "public C" } { field public "int d;" } { field public "int x;" } } # Derived class. cp_test_ptype_class \ "class E" "" "class" "E" \ { { base "public D" } { field public "int e;" } { field public "int x;" } } # This is a break from inheritance tests. # # gcc 2.X with stabs (stabs or stabs+?) used to have a problem with # static methods whose name is the same as their argument mangling. cp_test_ptype_class \ "class Static" "" "class" "Static" \ { { method public "static void ii(int, int);" } } # Here are some virtual inheritance tests. # A virtual base class. cp_test_ptype_class \ "class vA" "" "class" "vA" \ { { field public "int va;" } { field public "int vx;" } } # A derived class with a virtual base. cp_test_ptype_class \ "class vB" "" "class" "vB" \ { { base "public virtual vA" } { vbase "vA" } { field public "int vb;" } { field public "int vx;" } } # Another derived class with a virtual base. cp_test_ptype_class \ "class vC" "" "class" "vC" \ { { base "public virtual vA" } { vbase "vA" } { field public "int vc;" } { field public "int vx;" } } # A classic diamond class. cp_test_ptype_class \ "class vD" "" "class" "vD" \ { { base "public virtual vB" } { base "public virtual vC" } { vbase "vC" } { vbase "vB" } { field public "int vd;" } { field public "int vx;" } } # A class derived from a diamond class. cp_test_ptype_class \ "class vE" "" "class" "vE" \ { { base "public virtual vD" } { vbase "vD" } { field public "int ve;" } { field public "int vx;" } } # Another inheritance series. # A base class. cp_test_ptype_class \ "class Base1" "" "class" "Base1" \ { { field public "int x;" } { method public "Base1(int);" } } # Another base class. cp_test_ptype_class \ "class Foo" "" "class" "Foo" \ { { field public "int x;" } { field public "int y;" } { field public "static int st;" } { method public "Foo(int, int);" } { method public "int operator!();" } { method public "operator int();" } { method public "int times(int);" } } \ "" \ { { "operator int();" "int operator int();" { setup_kfail "gdb/1497" "*-*-*" } } { "operator int();" "int operator int(void);" { setup_kfail "gdb/1497" "*-*-*" } } } # A multiple inheritance derived class. cp_test_ptype_class \ "class Bar" "" "class" "Bar" \ { { base "public Base1" } { base "public Foo" } { field public "int z;" } { method public "Bar(int, int, int);" } } # Derived class with typedef'd baseclass with virtual methods. cp_test_ptype_class \ "class DynamicBar" "" "class" "DynamicBar" \ { { base "public DynamicBase2" } { field public "int y;" } { method public "DynamicBar(int, int);" } } # Classes with typedefs of different access. cp_test_ptype_class \ "class class_with_typedefs" "" "class" "class_with_typedefs" \ { { field protected \ "class_with_typedefs::public_int public_int_;" } { field protected \ "class_with_typedefs::protected_int protected_int_;" } { field protected \ "class_with_typedefs::private_int private_int_;" } { method public "class_with_typedefs(void);" } { method public "class_with_typedefs::public_int add_public(class_with_typedefs::public_int);" } { method public \ "class_with_typedefs::public_int add_all(int);" } { method protected "class_with_typedefs::protected_int add_protected(class_with_typedefs::protected_int);" } { method private "class_with_typedefs::private_int add_private(class_with_typedefs::private_int);" } { typedef public "typedef int public_int;" } { typedef protected "typedef int protected_int;" } { typedef private "typedef int private_int;" } } cp_test_ptype_class \ "class class_with_public_typedef" "" "class" \ "class_with_public_typedef" { { field private "int a;" } { field public "class_with_public_typedef::INT b;" } { typedef public "typedef int INT;" } } cp_test_ptype_class \ "class class_with_protected_typedef" "" "class" \ "class_with_protected_typedef" { { field private "int a;" } { field protected "class_with_protected_typedef::INT b;" } { typedef protected "typedef int INT;" } } cp_test_ptype_class \ "struct struct_with_protected_typedef" "" "struct" \ "struct_with_protected_typedef" { { field public "int a;" } { field protected "struct_with_protected_typedef::INT b;" } { typedef protected "typedef int INT;" } } cp_test_ptype_class \ "struct struct_with_private_typedef" "" "struct" \ "struct_with_private_typedef" { { field public "int a;" } { field private "struct_with_private_typedef::INT b;" } { typedef private "typedef int INT;" } } # For the following two cases, we cannot use cp_test_ptype_class. # We need to explicitly check whether the access label was suppressed. set ws {[ \t\r\n]*} foreach {tag lbl} {"class" "private" "struct" "public"} { gdb_test "ptype/r ${tag}_with_${lbl}_typedef" "type = $tag ${tag}_with_${lbl}_typedef \{${ws}int a;${ws}${tag}_with_${lbl}_typedef::INT b;${ws}typedef int INT;${ws}\}" } } # Test simple access to class members. proc test_non_inherited_member_access {} { # Print non-inherited members of g_A. gdb_test "print g_A.a" ".* = 1" gdb_test "print g_A.x" ".* = 2" # Print non-inherited members of g_B. gdb_test "print g_B.b" ".* = 5" gdb_test "print g_B.x" ".* = 6" # Print non-inherited members of g_C. gdb_test "print g_C.c" ".* = 9" gdb_test "print g_C.x" ".* = 10" # Print non-inherited members of g_D. gdb_test "print g_D.d" ".* = 19" gdb_test "print g_D.x" ".* = 20" # Print non-inherited members of g_E. gdb_test "print g_E.e" ".* = 31" gdb_test "print g_E.x" ".* = 32" } # Test access to members of other classes. # gdb should refuse to print them. # (I feel old -- I remember when this was legal in C -- chastain). proc test_wrong_class_members {} { gdb_test "print g_A.b" "There is no member( or method|) named b." gdb_test "print g_B.c" "There is no member( or method|) named c." gdb_test "print g_B.d" "There is no member( or method|) named d." gdb_test "print g_C.b" "There is no member( or method|) named b." gdb_test "print g_C.d" "There is no member( or method|) named d." gdb_test "print g_D.e" "There is no member( or method|) named e." } # Test access to names that are not members of any class. proc test_nonexistent_members {} { gdb_test "print g_A.y" "There is no member( or method|) named y." gdb_test "print g_B.z" "There is no member( or method|) named z." gdb_test "print g_C.q" "There is no member( or method|) named q." gdb_test "print g_D.p" "There is no member( or method|) named p." } # Call a method that expects a base class parameter with base, inherited, # and unrelated class arguments. proc test_method_param_class {} { gdb_test "call class_param.Aptr_a (&g_A)" ".* = 1" gdb_test "call class_param.Aptr_x (&g_A)" ".* = 2" gdb_test "call class_param.Aptr_a (&g_B)" ".* = 3" gdb_test "call class_param.Aptr_x (&g_B)" ".* = 4" gdb_test "call class_param.Aref_a (g_A)" ".* = 1" gdb_test "call class_param.Aref_x (g_A)" ".* = 2" gdb_test "call class_param.Aref_a (g_B)" ".* = 3" gdb_test "call class_param.Aref_x (g_B)" ".* = 4" gdb_test "call class_param.Aval_a (g_A)" ".* = 1" gdb_test "call class_param.Aval_x (g_A)" ".* = 2" gdb_test "call class_param.Aval_a (g_B)" ".* = 3" gdb_test "call class_param.Aval_x (g_B)" ".* = 4" gdb_test "call class_param.Aptr_a (&foo)" "Cannot resolve .*" "unrelated class *param" gdb_test "call class_param.Aref_a (foo)" "Cannot resolve .*" "unrelated class ¶m" gdb_test "call class_param.Aval_a (foo)" "Cannot resolve .*" "unrelated class param" } # Examine a class with an enum field. proc test_enums {} { global gdb_prompt global nl # print the object # We match the enum values with and without qualifiers. As of # 2008-08-21 we can output the qualifiers for DWARF-2. gdb_test "print obj_with_enum" \ "\\$\[0-9\]+ = \{priv_enum = (ClassWithEnum::)?red, x = 0\}" \ "print obj_with_enum (1)" # advance one line gdb_test "next" ".*" # print the object again gdb_test "print obj_with_enum" \ "\\$\[0-9\]+ = \{priv_enum = (ClassWithEnum::)?green, x = 0\}" \ "print obj_with_enum (2)" # print the enum member gdb_test "print obj_with_enum.priv_enum" "\\$\[0-9\]+ = (ClassWithEnum::)?green" # ptype on the enum member gdb_test_multiple "ptype obj_with_enum.priv_enum" "ptype obj_with_enum.priv_enum" { -re "type = enum ClassWithEnum::PrivEnum (: unsigned (int|short|char) )?\{ ?(ClassWithEnum::)?red, (ClassWithEnum::)?green, (ClassWithEnum::)?blue, (ClassWithEnum::)?yellow = 42 ?\}$nl$gdb_prompt $" { pass "ptype obj_with_enum.priv_enum" } -re "type = enum PrivEnum \{ ?(ClassWithEnum::)?red, (ClassWithEnum::)?green, (ClassWithEnum::)?blue, (ClassWithEnum::)?yellow = 42 ?\}$nl$gdb_prompt $" { # gcc 2.95.3 -gdwarf-2 # gcc 3.3.2 -gdwarf-2 pass "ptype obj_with_enum.priv_enum" } -re "type = enum \{ ?red, green, blue, yellow = 42 ?\}$nl$gdb_prompt $" { # This case case is a little dubious, but it's not clear what # ought to be required of a ptype on a private enum... # -sts 19990324 # # It bugs me that this happens with gcc 3. # -- chastain 2003-12-30 # # gcc 2.95.3 -gstabs+ # gcc 3.3.2 -gstabs+ # gcc HEAD 2003-12-28 21:08:30 UTC -gstabs+ pass "ptype obj_with_enum.priv_enum" } } # ptype on the object # NOTE: carlton/2003-02-28: One could certainly argue that plain # "PrivEnum" # is acceptable: PrivEnum is a member of ClassWithEnum, so # there's no need to explicitly qualify its name with # "ClassWithEnum::". The truth, though, is that GDB is simply # forgetting that PrivEnum is a member of ClassWithEnum, so we do # that output for a bad reason instead of a good reason. Under # stabs, we probably can't get this right; under DWARF-2, we can. cp_test_ptype_class \ "obj_with_enum" "" "class" "ClassWithEnum" \ { { field public "ClassWithEnum::PrivEnum priv_enum;" } { field public "int x;" } } \ "" \ { { "ClassWithEnum::PrivEnum priv_enum;" "PrivEnum priv_enum;" { setup_kfail "gdb/57" "*-*-*" } } } # I'll do this test two different ways, because of a parser bug. # See PR gdb/1588. gdb_test_multiple "print (ClassWithEnum::PrivEnum) 42" "print (ClassWithEnum::PrivEnum) 42" { -re "\\$\[0-9\]+ = (ClassWithEnum::)?yellow$nl$gdb_prompt $" { pass "print (ClassWithEnum::PrivEnum) 42" } -re "A (parse|syntax) error in expression, near `42'.$nl$gdb_prompt $" { # "parse error" is bison 1.35. # "syntax error" is bison 1.875. kfail "gdb/1588" "print (ClassWithEnum::PrivEnum) 42" } } gdb_test_multiple "print ('ClassWithEnum::PrivEnum') 42" "print ('ClassWithEnum::PrivEnum') 42" { -re "\\$\[0-9\]+ = (ClassWithEnum::)?yellow$nl$gdb_prompt $" { # gcc 3.3.2 -gstabs+ # gcc HEAD 2003-12-28 21:08:30 UTC -gstabs+ pass "print ('ClassWithEnum::PrivEnum') 42" } -re "No symbol \"ClassWithEnum::PrivEnum\" in current context.$nl$gdb_prompt $" { # gcc 2.95.3 -gdwarf-2 # gcc 3.3.2 -gdwarf-2 # gcc HEAD 2003-12-28 21:08:30 UTC -gdwarf-2 # gcc 2.95.3 -gstabs+ kfail "gdb/57" "print ('ClassWithEnum::PrivEnum') 42" } } } # Pointers to class members proc test_pointers_to_class_members {} { gdb_test "print Bar::z" "Cannot reference non-static field \"z\"" gdb_test "print &Foo::x" "\\$\[0-9\]+ = &Foo::x" gdb_test "print (int)&Foo::x" "\\$\[0-9\]+ = 0" gdb_test "print (int)&Bar::y == 2*sizeof(int)" "\\$\[0-9\]+ = true" gdb_test "ptype Bar::z" "type = int" gdb_test "ptype &Bar::z" "type = int Bar::\\*" # TODO: this is a bogus test. It's looking at a variable that # has not even been declared yet, so it's accessing random junk # on the stack and comparing that it's NOT equal to a specific # value. It's been like this since gdb 4.10 in 1993! # -- chastain 2004-01-01 gdb_test "print (int)pmi == sizeof(int)" ".* = false" } # Test static members. proc test_static_members {} { global hex gdb_test "print Foo::st" "\\$\[0-9\]+ = 100" gdb_test_no_output "set foo.st = 200" "" gdb_test "print bar.st" "\\$\[0-9\]+ = 200" gdb_test "print &foo.st" "\\$\[0-9\]+ = \\(int ?\\*\\) $hex " gdb_test "print &Bar::st" "\\$\[0-9\]+ = \\(int ?\\*\\) $hex " gdb_test "print *\$" "\\$\[0-9\]+ = 200" gdb_test_no_output "set print static-members off" gdb_test "print csi" \ "{x = 10, y = 20}" \ "print csi without static members" gdb_test "print cnsi" \ "{x = 30, y = 40}" \ "print cnsi without static members" gdb_test_no_output "set print static-members on" gdb_test "print csi" \ "{x = 10, y = 20, static null = {x = 0, y = 0, static null = }}" \ "print csi with static members" gdb_test "print cnsi" \ "{x = 30, y = 40, static null = {x = 0, y = 0, static null = , static yy = {z = 5, static xx = {x = 1, y = 2, static null = , static yy = }}}, static yy = }" \ "print cnsi with static members" # Another case of infinite recursion. gdb_test "print Outer::instance" \ "{inner = {static instance = {static instance = }}, static instance = {inner = {static instance = {static instance = }}, static instance = }}" \ "print recursive static member" } proc do_tests {} { global gdb_prompt global nl gdb_test_no_output "set language c++" "" gdb_test_no_output "set width 0" "" if ![runto_main ] then { perror "couldn't run to breakpoint" return } gdb_breakpoint inheritance2 gdb_test "continue" ".*Breakpoint .* inheritance2.*" "" test_ptype_class_objects test_non_inherited_member_access test_wrong_class_members test_nonexistent_members test_method_param_class gdb_breakpoint enums2 gdb_test "continue" ".*Breakpoint .* enums2.*" "continue to enums2(\\(\\)|)" # Leave enums2. Make sure we reach the next line, in case there # are any more instructions to finish the function call. gdb_test_multiple "finish" "" { -re "enums2 \\(\\);.*$gdb_prompt $" { gdb_test "next" ".*" "" } -re "$gdb_prompt $" { } } test_enums gdb_test "finish" ".*" "" test_pointers_to_class_members test_static_members # Now some random tests that were just thrown in here. gdb_breakpoint marker_reg1 gdb_test "continue" ".*Breakpoint .* marker_reg1.*" "" gdb_test "finish" "Run till exit from.*" "finish from marker_reg1" # This class is so small that an instance of it can fit in a register. # When gdb tries to call a method, it gets embarrassed about taking # the address of a register. # # TODO: I think that message should be a PASS, not an XFAIL. # gdb prints an informative message and declines to do something # impossible. # # The method call actually succeeds if the compiler allocates very # small classes in memory instead of registers. So this test does # not tell us anything interesting if the call succeeds. # # -- chastain 2003-12-31 gdb_test_multiple "print v.method ()" "calling method for small class" { -re "\\$\[0-9\]+ = 82$nl$gdb_prompt $" { # gcc 3.3.2 -gdwarf-2 # gcc HEAD 2003-12-28 21:08:30 UTC -gdwarf-2 # gcc 3.3.2 -gstabs+ # gcc HEAD 2003-12-28 21:08:30 UTC -gstabs+ pass "calling method for small class" } -re "Address requested for identifier \"v\" which is in register .*$nl$gdb_prompt $" { # gcc 2.95.3 -gdwarf-2 # gcc 2.95.3 -gstabs+ setup_xfail "*-*-*" 2972 fail "calling method for small class" } } gdb_test "print base1::Base1" "<.*Base1.*>" "print ctor of typedef class" gdb_test "print base1::~Base1" "<.*~Base1(\\(\\))?>" \ "print dtor of typedef class" gdb_test "list ByAnyOtherName::times" ".*int Foo::times.*" } do_tests