# 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. (mec.gnu@mindspring.com) set ws "\[\r\n\t \]+" set nl "\[\r\n\]+" set vhn "\\$\[0-9\]+" if { [skip_cplus_tests] } { continue } load_lib "cp-support.exp" standard_testfile misc.cc if {[prepare_for_testing "failed to prepare" $testfile $srcfile {debug c++}]} { return -1 } # Single inheritance, print type definitions. proc test_ptype_si { } { global gdb_prompt global ws global nl # A simple class. cp_test_ptype_class \ "A" "ptype A (FIXME)" "class" "A" \ { { field public "int a;" } { field public "int x;" } } cp_test_ptype_class "class A" "ptype class A (FIXME)" "class" "A" ibid cp_test_ptype_class "g_A" "ptype g_A (FIXME)" "class" "A" ibid # A derived class. cp_test_ptype_class \ "B" "" "class" "B" \ { { base "public A" } { field public "int b;" } { field public "int x;" } } cp_test_ptype_class "class B" "" "class" "B" ibid cp_test_ptype_class "g_B" "" "class" "B" ibid # Another derived class. cp_test_ptype_class \ "C" "" "class" "C" \ { { base "public A" } { field public "int c;" } { field public "int x;" } } cp_test_ptype_class "class C" "" "class" "C" ibid cp_test_ptype_class "g_C" "" "class" "C" ibid # A structure with no tag. # TODO: move this mess into a separate file, and re-specify # which results are PASS, KFAIL, XFAIL, and FAIL. set re_tag "tagless_struct" set XX_tag "\\._1" set re_class "(class $re_tag \{${ws}public:|class \{${ws}public:|struct $re_tag \{|struct \{)" set XX_class "(class $XX_tag \{${ws}public:|struct $XX_tag \{)" set re_fields "int one;${ws}int two;" set re_synth_gcc_23 "$re_tag & operator=\\($re_tag const ?&\\);${ws}$re_tag\\($re_tag const ?&\\);${ws}$re_tag\\((void|)\\);" set XX_synth_gcc_23 "($re_tag|$XX_tag) & operator=\\($XX_tag const ?&\\);${ws}$XX_tag\\($XX_tag const ?&\\);${ws}$XX_tag\\((void|)\\);" set name "ptype tagless struct" gdb_test_multiple "ptype tagless_struct" $name { -re "type = $XX_class${ws}$re_fields$nl\}$nl$gdb_prompt $" { # gcc 2.95.3 -gdwarf-2 pass "$name" } -re "type = $re_class${ws}$re_fields${ws}$XX_synth_gcc_23$nl\}$nl$gdb_prompt $" { # gcc 2.95.3 -gstabs+ pass "$name" } -re "type = $re_class${ws}$re_fields$nl\}$nl$gdb_prompt $" { # gcc 3.3.4 -gdwarf-2 # gcc 3.4.1 -gdwarf-2 # gcc HEAD 2004-07-31 -gdwarf-2 # gcc HEAD 2004-07-31 -gstabs+ pass "$name" } -re "type = $re_class${ws}$re_fields${ws}$re_synth_gcc_23$nl\}$nl$gdb_prompt $" { # gcc 3.3.4 -gstabs+ # gcc 3.4.1 -gstabs+ pass "$name" } -re "No symbol \"tagless_struct\" in current context.$nl$gdb_prompt $" { # Several GCC 4.x versions provide neither a DW_TAG_typedef DIE # nor use the typedef name as struct tag name. xfail "$name" } } set name "ptype variable of type tagless struct" gdb_test_multiple "ptype v_tagless" $name { -re "type = $XX_class${ws}$re_fields$nl\}$nl$gdb_prompt $" { # gcc 2.95.3 -gdwarf-2 pass "$name" } -re "type = $re_class${ws}$re_fields${ws}$XX_synth_gcc_23$nl\}$nl$gdb_prompt $" { # gcc 2.95.3 -gstabs+ pass "$name" } -re "type = $re_class${ws}$re_fields$nl\}$nl$gdb_prompt $" { # gcc 3.3.4 -gdwarf-2 # gcc 3.4.1 -gdwarf-2 # gcc HEAD 2004-07-31 -gdwarf-2 # gcc HEAD 2004-07-31 -gstabs+ pass "$name" } -re "type = $re_class${ws}$re_fields${ws}$re_synth_gcc_23$nl\}$nl$gdb_prompt $" { # gcc 3.3.4 -gstabs+ # gcc 3.4.1 -gstabs+ pass "$name" } } } # Multiple inheritance, print type definitions. proc test_ptype_mi { } { # A class with two bases. cp_test_ptype_class \ "D" "" "class" "D" \ { { base "public B" } { base "public C" } { field public "int d;" } { field public "int x;" } } cp_test_ptype_class "class D" "" "class" "D" ibid cp_test_ptype_class "g_D" "" "class" "D" ibid # A class derived from the previous class. cp_test_ptype_class \ "E" "" "class" "E" \ { { base "public D" } { field public "int e;" } { field public "int x;" } } cp_test_ptype_class "class E" "" "class" "E" ibid cp_test_ptype_class "g_E" "" "class" "E" ibid } # Single virtual inheritance, print type definitions. proc test_ptype_vi { } { # class vA cp_test_ptype_class \ "vA" "" "class" "vA" \ { { field public "int va;" } { field public "int vx;" } } cp_test_ptype_class "class vA" "" "class" "vA" ibid cp_test_ptype_class "g_vA" "" "class" "vA" ibid # class vB cp_test_ptype_class \ "vB" "" "class" "vB" \ { { base "public virtual vA" } { vbase "vA" } { field public "int vb;" } { field public "int vx;" } } cp_test_ptype_class "class vB" "" "class" "vB" ibid cp_test_ptype_class "g_vB" "" "class" "vB" ibid # class vC cp_test_ptype_class \ "vC" "" "class" "vC" \ { { base "public virtual vA" } { vbase "vA" } { field public "int vc;" } { field public "int vx;" } } cp_test_ptype_class "class vC" "" "class" "vC" ibid cp_test_ptype_class "g_vC" "" "class" "vC" ibid } # Multiple virtual inheritance, print type definitions. proc test_ptype_mvi { } { # class vD cp_test_ptype_class \ "vD" "" "class" "vD" \ { { base "public virtual vB" } { base "public virtual vC" } { vbase "vC" } { vbase "vB" } { field public "int vd;" } { field public "int vx;" } } cp_test_ptype_class "class vD" "" "class" "vD" ibid cp_test_ptype_class "g_vD" "" "class" "vD" ibid # class vE cp_test_ptype_class \ "vE" "" "class" "vE" \ { { base "public virtual vD" } { vbase "vD" } { field public "int ve;" } { field public "int vx;" } } cp_test_ptype_class "class vE" "" "class" "vE" ibid cp_test_ptype_class "g_vE" "" "class" "vE" ibid } # Single inheritance, print individual members. proc test_print_si_members { } { global vhn # Print all members of g_A using fully qualified form. gdb_test "print g_A.A::a" "$vhn = 1" gdb_test "print g_A.A::x" "$vhn = 2" # Print members of g_A using nonambiguous compact form. gdb_test "print g_A.a" "$vhn = 1" gdb_test "print g_A.x" "$vhn = 2" # Print all members of g_B using fully qualified form. gdb_test "print g_B.A::a" "$vhn = 3" gdb_test "print g_B.A::x" "$vhn = 4" gdb_test "print g_B.B::b" "$vhn = 5" gdb_test "print g_B.B::x" "$vhn = 6" # Print members of g_B using nonambiguous compact form. gdb_test "print g_B.a" "$vhn = 3" gdb_test "print g_B.b" "$vhn = 5" gdb_test "print g_B.x" "$vhn = 6" # Print all members of g_C using fully qualified form. gdb_test "print g_C.A::a" "$vhn = 7" gdb_test "print g_C.A::x" "$vhn = 8" gdb_test "print g_C.C::c" "$vhn = 9" gdb_test "print g_C.C::x" "$vhn = 10" # Print members of g_C using nonambiguous compact form. gdb_test "print g_C.a" "$vhn = 7" gdb_test "print g_C.c" "$vhn = 9" gdb_test "print g_C.x" "$vhn = 10" } # Single inheritance, print complete classes. proc test_print_si_classes { } { global vhn # Print all members of g_A, g_B, g_C. gdb_test "print g_A" "$vhn = \{a = 1, x = 2\}" gdb_test "print g_B" "$vhn = \{<(class A|A)> = \{a = 3, x = 4\}, b = 5, x = 6\}" gdb_test "print g_C" "$vhn = \{<(class A|A)> = \{a = 7, x = 8\}, c = 9, x = 10\}" } # Multiple inheritance, print individual members. proc test_print_mi_members {} { global gdb_prompt global nl global vhn # Print all members of g_A. gdb_test "print g_A.A::a" "$vhn = 1" gdb_test "print g_A.A::x" "$vhn = 2" # Print all members of g_B. gdb_test "print g_B.A::a" "$vhn = 3" gdb_test "print g_B.A::x" "$vhn = 4" gdb_test "print g_B.B::b" "$vhn = 5" gdb_test "print g_B.B::x" "$vhn = 6" # Print all members of g_C. gdb_test "print g_C.A::a" "$vhn = 7" gdb_test "print g_C.A::x" "$vhn = 8" gdb_test "print g_C.C::c" "$vhn = 9" gdb_test "print g_C.C::x" "$vhn = 10" # Print all members of g_D. # # g_D.A::a and g_D.A::x are ambiguous member accesses. gdb_test "print g_D.A::a" "base class 'A' is ambiguous in type 'D'" gdb_test "print g_D.C::a" "$vhn = 15" gdb_test "print g_D.B::a" "$vhn = 11" gdb_test "print g_D.A::x" "base class 'A' is ambiguous in type 'D'" gdb_test "print g_D.B::b" "$vhn = 13" gdb_test "print g_D.B::x" "$vhn = 14" gdb_test "print g_D.C::c" "$vhn = 17" gdb_test "print g_D.C::x" "$vhn = 18" gdb_test "print g_D.D::d" "$vhn = 19" gdb_test "print g_D.D::x" "$vhn = 20" # Print all members of g_E. # g_E.A::a and g_E.A::x are ambiguous. gdb_test "print g_E.A::a" "base class 'A' is ambiguous in type 'E'" gdb_test "print g_E.A::x" "base class 'A' is ambiguous in type 'E'" gdb_test "print g_E.B::b" "$vhn = 23" gdb_test "print g_E.B::x" "$vhn = 24" gdb_test "print g_E.C::c" "$vhn = 27" gdb_test "print g_E.C::x" "$vhn = 28" gdb_test "print g_E.D::d" "$vhn = 29" gdb_test "print g_E.D::x" "$vhn = 30" gdb_test "print g_E.E::e" "$vhn = 31" gdb_test "print g_E.E::x" "$vhn = 32" } # Multiple inheritance, print individual member types. proc test_print_mi_member_types {} { global gdb_prompt global nl global vhn # Print the types of some members of g_D without qualifying them. gdb_test "ptype g_D.b" "type = int" gdb_test "ptype g_D.c" "type = int" gdb_test "ptype g_D.d" "type = int" # Print the types of qualified members; none of these tests pass today. # Print all members of g_A. gdb_test "ptype g_A.A::a" "type = int" gdb_test "ptype g_A.A::x" "type = int" # Print all members of g_B. gdb_test "ptype g_B.A::a" "type = int" gdb_test "ptype g_B.A::x" "type = int" gdb_test "ptype g_B.B::b" "type = int" gdb_test "ptype g_B.B::x" "type = int" # Print all members of g_C. gdb_test "ptype g_C.A::a" "type = int" gdb_test "ptype g_C.A::x" "type = int" gdb_test "ptype g_C.C::c" "type = int" gdb_test "ptype g_C.C::x" "type = int" # Print all members of g_D. # # g_D.A::a and g_D.A::x are ambiguous member accesses. gdb_test "ptype g_D.A::a" "base class 'A' is ambiguous in type 'D'" gdb_test "ptype g_D.A::x" "base class 'A' is ambiguous in type 'D'" gdb_test "ptype g_D.B::b" "type = int" gdb_test "ptype g_D.B::x" "type = int" gdb_test "ptype g_D.C::c" "type = int" gdb_test "ptype g_D.C::x" "type = int" gdb_test "ptype g_D.D::d" "type = int" gdb_test "ptype g_D.D::x" "type = int" # Print all members of g_E. # g_E.A::a and g_E.A::x are ambiguous. gdb_test "ptype g_E.A::a" "base class 'A' is ambiguous in type 'E'" gdb_test "ptype g_E.A::x" "base class 'A' is ambiguous in type 'E'" gdb_test "ptype g_E.B::b" "type = int" gdb_test "ptype g_E.B::x" "type = int" gdb_test "ptype g_E.C::c" "type = int" gdb_test "ptype g_E.C::x" "type = int" gdb_test "ptype g_E.D::d" "type = int" gdb_test "ptype g_E.D::x" "type = int" gdb_test "ptype g_E.E::e" "type = int" gdb_test "ptype g_E.E::x" "type = int" } # Multiple inheritance, print complete classes. proc test_print_mi_classes { } { global vhn # Print all members of g_D. gdb_test "print g_D" "$vhn = \{\<(class |)B\> = \{\<(class |)A\> = \{a = 11, x = 12\}, b = 13, x = 14\}, \<(class |)C\> = \{\<(class |)A\> = \{a = 15, x = 16\}, c = 17, x = 18\}, d = 19, x = 20\}" # Print all members of g_E. gdb_test "print g_E" "$vhn = \{\<(class |)D\> = \{\<(class |)B\> = \{\<(class |)A\> = \{a = 21, x = 22\}, b = 23, x = 24\}, \<(class |)C\> = \{\<(class |)A\> = \{a = 25, x = 26\}, c = 27, x = 28\}, d = 29, x = 30\}, e = 31, x = 32\}" } # Single inheritance, print anonymous unions. # GDB versions prior to 4.14 entered an infinite loop when printing # the type of a class containing an anonymous union, and they were also # incapable of printing the member of an anonymous union. # We test the printing of the member first, and perform the other tests # only if the test succeeds, to avoid the infinite loop. proc test_print_anon_union {} { global gdb_prompt global ws global nl global vhn gdb_test "print g_anon_union.a" "$vhn = 2" "print anonymous union member" set name "print variable of type anonymous union" gdb_test_multiple "print g_anon_union" $name { -re "$vhn = \{one = 1, \{a = 2, b = \[0-9\]+\}\}$nl$gdb_prompt $" { pass $name } } set name "print type of anonymous union" set re_tag "class_with_anon_union" set re_class "(class $re_tag \{${ws}public:|struct $re_tag \{)" set re_fields "int one;${ws}union \{${ws}int a;${ws}long( int)? b;${ws}\};" gdb_test_multiple "ptype g_anon_union" $name { -re "type = $re_class${ws}$re_fields$nl\}$nl$gdb_prompt $" { pass $name } } } # Single virtual inheritance, print individual members. proc test_print_svi_members { } { global vhn # Print all members of g_vA. gdb_test "print g_vA.vA::va" "$vhn = 1" gdb_test "print g_vA.vA::vx" "$vhn = 2" # Print members of g_vA using compact form. gdb_test "print g_vA.va" "$vhn = 1" gdb_test "print g_vA.vx" "$vhn = 2" # Print all members of g_vB. gdb_test "print g_vB.vA::va" "$vhn = 3" gdb_test "print g_vB.vA::vx" "$vhn = 4" gdb_test "print g_vB.vB::vb" "$vhn = 5" gdb_test "print g_vB.vB::vx" "$vhn = 6" # Print members of g_vB using compact form. gdb_test "print g_vB.va" "$vhn = 3" gdb_test "print g_vB.vb" "$vhn = 5" gdb_test "print g_vB.vx" "$vhn = 6" # Print all members of g_vC. gdb_test "print g_vC.vA::va" "$vhn = 7" gdb_test "print g_vC.vA::vx" "$vhn = 8" gdb_test "print g_vC.vC::vc" "$vhn = 9" gdb_test "print g_vC.vC::vx" "$vhn = 10" # Print members of g_vC using compact form. gdb_test "print g_vC.va" "$vhn = 7" gdb_test "print g_vC.vc" "$vhn = 9" gdb_test "print g_vC.vx" "$vhn = 10" } # Single virtual inheritance, print complete classes. proc test_print_svi_classes { } { global gdb_prompt global hex global nl global vhn # Print all members of g_vA. gdb_test "print g_vA" "$vhn = \{va = 1, vx = 2\}" # Print all members of g_vB. set re_vbptr_2 "(_vb.2vA|_vb.vA)" set re_vbptr_3 "_vptr.vB" set name "print g_vB" gdb_test_multiple "print g_vB" $name { -re "$vhn = \{ = \{va = 3, vx = 4\}, $re_vbptr_2 = $hex, vb = 5, vx = 6\}$nl$gdb_prompt $" { # gcc 2.95.3 -gdwarf-2 # gcc 2.95.3 -gstabs+ pass $name } -re "$vhn = \{ = \{va = 3, vx = 4\}, $re_vbptr_3 = $hex, vb = 5, vx = 6\}$nl$gdb_prompt $" { # gcc 3.3.4 -gdwarf-2 # gcc 3.4.1 -gdwarf-2 # gcc 3.4.1 -gstabs+ # gcc HEAD 2004-07-31 -gdwarf-2 pass "$name (FIXME v3 vtbl ptr)" } -re "$vhn = \{ = \{va = 3, vx = 4\}, $re_vbptr_3 = $hex , vb = 5, vx = 6\}$nl$gdb_prompt $" { # gcc 3.3.4 -gstabs+ pass $name } -re "$vhn = \{ = \{va = 3, vx = 4\}, $re_vbptr_3 = $hex , vb = 5, vx = 6\}$nl$gdb_prompt $" { # gcc HEAD 2004-07-31 -gstabs+ pass $name } -re "$vhn = \{ = \{va = 3, vx = 4\}, $re_vbptr_3 = ${hex}( <\[^>]*>)?, vb = 5, vx = 6\}$nl$gdb_prompt $" { # gcc HEAD 2015?+ # the vptr is set to the address *after* the vtable, # so the # symbol shown is unpredictable. pass "$name (symbols ignored)" } } # Print all members of g_vC. set re_vbptr_2 "(_vb.2vA|_vb.vA)" set re_vbptr_3 "_vptr.vC" set name "print g_vC" gdb_test_multiple "print g_vC" $name { -re "$vhn = \{ = \{va = 7, vx = 8\}, $re_vbptr_2 = $hex, vc = 9, vx = 10\}$nl$gdb_prompt $" { # gcc 2.95.3 -gdwarf-2 # gcc 2.95.3 -gstabs+ pass $name } -re "$vhn = \{ = \{va = 7, vx = 8\}, $re_vbptr_3 = $hex, vc = 9, vx = 10\}$nl$gdb_prompt $" { # gcc 3.3.4 -gdwarf-2 # gcc 3.4.1 -gdwarf-2 # gcc 3.4.1 -gstabs+ # gcc HEAD 2004-07-31 -gdwarf-2 pass "$name (FIXME v3 vtbl ptr)" } -re "$vhn = \{ = \{va = 7, vx = 8\}, $re_vbptr_3 = $hex , vc = 9, vx = 10\}$nl$gdb_prompt $" { # gcc 3.3.4 -gstabs+ pass $name } -re "$vhn = \{ = \{va = 7, vx = 8\}, $re_vbptr_3 = $hex , vc = 9, vx = 10\}$nl$gdb_prompt $" { # gcc HEAD 2004-07-31 -gstabs+ pass $name } -re "$vhn = \{ = \{va = 7, vx = 8\}, $re_vbptr_3 = ${hex}( <\[^>]*>)?, vc = 9, vx = 10\}$nl$gdb_prompt $" { # gcc HEAD 2015?+ # the vptr is set to the address *after* the vtable, # so the symbol shown is unpredictable. pass "$name (symbols ignored)" } } } # Multiple virtual inheritance, print individual members. proc test_print_mvi_members { } { global vhn # Print all members of g_vD. gdb_test "print g_vD.vA::va" "$vhn = 19" gdb_test "print g_vD.vA::vx" "$vhn = 20" gdb_test "print g_vD.vB::vb" "$vhn = 21" gdb_test "print g_vD.vB::vx" "$vhn = 22" gdb_test "print g_vD.vC::vc" "$vhn = 23" gdb_test "print g_vD.vC::vx" "$vhn = 24" gdb_test "print g_vD.vD::vd" "$vhn = 25" gdb_test "print g_vD.vD::vx" "$vhn = 26" # Print all members of g_vE. gdb_test "print g_vE.vA::va" "$vhn = 0" gdb_test "print g_vE.vA::vx" "$vhn = 0" gdb_test "print g_vE.vB::vb" "$vhn = 0" gdb_test "print g_vE.vB::vx" "$vhn = 0" gdb_test "print g_vE.vC::vc" "$vhn = 0" gdb_test "print g_vE.vC::vx" "$vhn = 0" gdb_test "print g_vE.vD::vd" "$vhn = 0" gdb_test "print g_vE.vD::vx" "$vhn = 0" gdb_test "print g_vE.vE::ve" "$vhn = 27" gdb_test "print g_vE.vE::vx" "$vhn = 28" } # Multiple virtual inheritance, print complete classes. proc test_print_mvi_classes { } { global gdb_prompt global hex global ws global nl global vhn # Virtual base pointers for everybody. set re_vbptr_2_vA "(_vb.2vA|_vb.vA)" set re_vbptr_2_vB "(_vb.2vB|_vb.vB)" set re_vbptr_2_vC "(_vb.2vC|_vb.vC)" set re_vbptr_2_vD "(_vb.2vD|_vb.vD)" set re_vbptr_3_vA "_vptr.vA" set re_vbptr_3_vB "_vptr.vB" set re_vbptr_3_vC "_vptr.vC" set re_vbptr_3_vD "_vptr.vD" set re_vbptr_3_vE "_vptr.vE" # Print all members of g_vD. set name "print g_vD" gdb_test_multiple "print g_vD" $name { -re "$vhn = \{ = \{ = \{va = 19, vx = 20\}, $re_vbptr_2_vA = $hex, vb = 21, vx = 22\}, = \{$re_vbptr_2_vA = $hex, vc = 23, vx = 24\}, $re_vbptr_2_vC = $hex, $re_vbptr_2_vB = $hex, vd = 25, vx = 26\}$nl$gdb_prompt $" { # gcc 2.95.3 -gdwarf-2 # gcc 2.95.3 -gstabs+ pass $name } -re "$vhn = \{ = \{ = \{va = 19, vx = 20\}, $re_vbptr_3_vB = ${hex}( )?, vb = 21, vx = 22\}, = \{$re_vbptr_3_vC = ${hex}( )?, vc = 23, vx = 24\}, $re_vbptr_3_vD = ${hex}( )?, vd = 25, vx = 26\}$nl$gdb_prompt $" { # gcc 3.3.2 -gdwarf-2 # gcc HEAD 2004-01-21 -gdwarf-2 # gcc HEAD 2004-01-21 -gstabs+ pass "$name (FIXME v3 vtbl ptr)" } -re "$vhn = \{ = \{ = \{va = 19, vx = 20\}, $re_vbptr_3_vB = $hex, vb = 21, vx = 22\}, = \{$re_vbptr_3_vC = $hex , vc = 23, vx = 24\}, $re_vbptr_3_vD = $hex, vd = 25, vx = 26\}$nl$gdb_prompt $" { # gcc 3.3.2 -gstabs+ pass "$name" } -re "$vhn = \{ = \{ = \{va = 19, vx = 20\}, $re_vbptr_3_vB = ${hex}( <\[^>]*>)?, vb = 21, vx = 22\}, = \{$re_vbptr_3_vC = ${hex}( <\[^>]*>)?, vc = 23, vx = 24\}, $re_vbptr_3_vD = ${hex}( <\[^>]*>)?, vd = 25, vx = 26\}$nl$gdb_prompt $" { # gcc HEAD 2015?+ # the vptr is set to the address *after* the vtable, # so the symbol shown is unpredictable. pass "$name (symbols ignored)" } } # Print all members of g_vE. set name "print g_vE" gdb_test_multiple "print g_vE" $name { -re "$vhn = \{ = \{ = \{ = \{va = 0, vx = 0\}, $re_vbptr_2_vA = $hex, vb = 0, vx = 0\}, = \{$re_vbptr_2_vA = $hex, vc = 0, vx = 0\}, $re_vbptr_2_vC = $hex, $re_vbptr_2_vB = $hex, vd = 0, vx = 0\}, $re_vbptr_2_vD = $hex, ve = 27, vx = 28\}$nl$gdb_prompt $" { # gcc 2.95.3 -gdwarf-2 # gcc 2.95.3 -gstabs+ pass $name } -re "$vhn = \{ = \{ = \{ = \{va = 0, vx = 0\}, $re_vbptr_3_vB = ${hex}( )?, vb = 0, vx = 0\}, = \{$re_vbptr_3_vC = ${hex}( )?, vc = 0, vx = 0\}, $re_vbptr_3_vD = ${hex}( )?, vd = 0, vx = 0\}, $re_vbptr_3_vE = ${hex}( )?, ve = 27, vx = 28\}$nl$gdb_prompt $" { # gcc 3.3.4 -gdwarf-2 # gcc 3.3.4 -gstabs+ # gcc 3.4.1 -gdwarf-2 # gcc 3.4.1 -gstabs+ # gcc HEAD 2004-07-31 -gdwarf-2 pass "$name (FIXME v3 vtbl ptr)" } -re "$vhn = \{ = \{ = \{ = \{va = 0, vx = 0\}, $re_vbptr_3_vB = $hex, vb = 0, vx = 0\}, = \{$re_vbptr_3_vC = $hex , vc = 0, vx = 0\}, $re_vbptr_3_vD = $hex, vd = 0, vx = 0\}, $re_vbptr_3_vE = $hex, ve = 27, vx = 28\}$nl$gdb_prompt $" { # gcc 3.2.7-rh -gstabs+ pass $name } -re "$vhn = \{ = \{ = \{ = \{va = 0, vx = 0\}, $re_vbptr_3_vB = $hex, vb = 0, vx = 0\}, = \{$re_vbptr_3_vC = $hex , vc = 0, vx = 0\}, $re_vbptr_3_vD = $hex, vd = 0, vx = 0\}, $re_vbptr_3_vE = $hex, ve = 27, vx = 28\}$nl$gdb_prompt $" { # gcc HEAD 2004-07-31 -gstabs+ pass $name } -re "$vhn = \{ = \{ = \{ = \{va = 0, vx = 0\}, $re_vbptr_3_vB = ${hex}( <\[^>]*>)?, vb = 0, vx = 0\}, = \{$re_vbptr_3_vC = ${hex}( <\[^>]*>)?, vc = 0, vx = 0\}, $re_vbptr_3_vD = ${hex}( <\[^>]*>)?, vd = 0, vx = 0\}, $re_vbptr_3_vE = ${hex}( <\[^>]*>)?, ve = 27, vx = 28\}$nl$gdb_prompt $" { # gcc HEAD 2015?+ # the vptr is set to the address *after* the vtable, # so the symbol shown is unpredictable. pass "$name (symbols ignored)" } } } proc do_tests { } { gdb_test_no_output "set width 0" if { ![runto_main] } then { perror "couldn't run to main" return } gdb_test_no_output "set language c++" test_ptype_si test_ptype_mi test_ptype_vi test_ptype_mvi if { ![runto 'inheritance2'] } then { perror "couldn't run to inheritance2" return } test_print_si_members test_print_si_classes test_print_mi_members test_print_mi_member_types test_print_mi_classes test_print_anon_union if { ![runto 'inheritance4'] } { perror "couldn't run to inheritance4" return } test_print_svi_members test_print_svi_classes test_print_mvi_members test_print_mvi_classes } do_tests