/* Copyright 2006, 2007, 2008, 2009, 2010 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 . */ void reference_update_tests () { /*: BEGIN: reference_update :*/ int x = 167; /*: mi_create_varobj "RX" "rx" "create varobj for rx" :*/ int& rx = x; /*: mi_varobj_update RX {RX} "update RX (1)" mi_check_varobj_value RX 167 "check RX: expect 167" :*/ x = 567; /*: mi_varobj_update RX {RX} "update RX (2)" mi_check_varobj_value RX 567 "check RX: expect 567" :*/ x = 567; /*: mi_varobj_update RX {} "update RX (3)" mi_delete_varobj RX "delete RX" :*/ /* Dummy assignment to keep 'x' in scope. */ x = 444; /*: END: reference_update :*/ } struct S { int i; int j; }; struct S2 : S {}; int base_in_reference_test (S2& s2) { /*: BEGIN: base_in_reference :*/ return s2.i; /*: mi_create_varobj "S2" "s2" "create varobj for s2" mi_list_varobj_children "S2" { {"S2.S" "S" "1" "S"} } "list children of s2" mi_list_varobj_children "S2.S" { {"S2.S.public" "public" "2"} } "list children of s2.s" mi_list_varobj_children "S2.S.public" { {"S2.S.public.i" "i" "0" "int"} {"S2.S.public.j" "j" "0" "int"} } "list children of s2.s.public" mi_check_varobj_value "S2.S.public.i" "67" "check S2.S.public.i" mi_check_varobj_value "S2.S.public.j" "89" "check S2.S.public.j" mi_delete_varobj S2 "delete S2" :*/ /*: END: base_in_reference :*/ } void base_in_reference_test_main () { S2 s; s.i = 67; s.j = 89; base_in_reference_test (s); } int reference_to_pointer () { /*: BEGIN: reference_to_pointer :*/ S s, *ptr_s, *& rptr_s = ptr_s; s.i = 67; s.j = 89; ptr_s = &s; /*: mi_create_varobj RPTR rptr_s "create varobj for rptr_s" mi_list_varobj_children RPTR {{RPTR.public public 2}} \ "list public child of RPTR" mi_list_varobj_children RPTR.public \ {{RPTR.public.i i 0 int} {RPTR.public.j j 0 int}} "list children of reference to pointer" mi_check_varobj_value RPTR.public.i 67 "check i member" mi_check_varobj_value RPTR.public.j 89 "check j member" mi_delete_varobj RPTR "delete RPTR" :*/ return 99; /*: END: reference_to_pointer :*/ } int reference_to_struct () { /*: BEGIN: reference_to_struct :*/ S s = {7, 8}; S& r = s; /*: mi_create_varobj S s "create varobj for s" mi_create_varobj R r "create varobj for s" mi_gdb_test "-var-show-attributes S" \ "\\^done,attr=\"noneditable\"" \ "check attributes of S" mi_gdb_test "-var-show-attributes R" \ "\\^done,attr=\"noneditable\"" \ "check attributes of R" :*/ s.i = 56; /*: mi_varobj_update * [] "-var-update should not list structure varobjs" :*/ return 99; /*: END: reference_to_struct :*/ } struct Base1 { int i; }; struct Base2 { int i; }; struct Derived : public Base1, public Base2 { int i; }; /* Test for the -var-info-path-expression command. Although said command is not specific to C++, it's of more importance to C++ than to C, so we test it in mi-var-cp test. */ int path_expression () { /*: BEGIN: path_expression :*/ int i = 10; int *ip = &i; /*: mi_create_varobj IP ip "create varobj for ip" mi_list_varobj_children IP {{IP.\\*ip \\*ip 0 int}} "list children of IP" mi_gdb_test "-var-info-path-expression IP.*ip" \ "\\^done,path_expr=\"\\*\\(ip\\)\"" \ "-var-info-path-expression IP.*ip" :*/ Derived d; Derived *dp = &d; /*: mi_create_varobj DP dp "create varobj for dp" mi_list_varobj_children DP \ {{DP.Base1 Base1 1 Base1} \ {DP.Base2 Base2 1 Base2} \ {DP.public public 1}} "list children of DP" mi_gdb_test "-var-info-path-expression DP.Base1" \ "\\^done,path_expr=\"\\(\\*\\(Base1\\*\\) dp\\)\"" \ "-var-info-path-expression DP.Base1" mi_list_varobj_children DP.public { \ {DP.public.i i 0 int} \ } "list children of DP.public" mi_gdb_test "-var-info-path-expression DP.public.i" \ "\\^done,path_expr=\"\\(\\(dp\\)->i\\)\"" \ "-var-info-path-expression DP.public.i" mi_list_varobj_children DP.Base1 { \ {DP.Base1.public public 1} \ } "list children of DP.Base1" mi_list_varobj_children DP.Base1.public { \ {DP.Base1.public.i i 0 int} \ } "list children of DP.Base1.public" mi_gdb_test "-var-info-path-expression DP.Base1.public.i" \ "\\^done,path_expr=\"\\(\\(\\(\\*\\(Base1\\*\\) dp\\)\\).i\\)\"" \ "-var-info-path-expression DP.Base1.public.i" mi_gdb_test "-var-info-path-expression DP.public" \ "\\^done,path_expr=\"\"" \ "-var-info-path-expression DP.public" mi_create_varobj D d "create varobj for d" mi_list_varobj_children D \ {{D.Base1 Base1 1 Base1} \ {D.Base2 Base2 1 Base2} \ {D.public public 1}} "list children of D" mi_gdb_test "-var-info-path-expression D.Base1" \ "\\^done,path_expr=\"\\(\\(Base1\\) d\\)\"" \ "-var-info-path-expression D.Base1" :*/ int array[4] = {1,2,3}; array[3] = 10; /*: mi_create_varobj A array "create varobj for array" mi_list_varobj_children A { \ {A.0 0 0 int} {A.1 1 0 int} {A.2 2 0 int} {A.3 3 0 int}} "list children of A" mi_gdb_test "-var-info-path-expression A.2" \ "\\^done,path_expr=\"\\(array\\)\\\[2\\\]\"" \ "-var-info-path-expression A.2" :*/ return 99; /*: END: path_expression :*/ } int main () { reference_update_tests (); base_in_reference_test_main (); reference_to_pointer (); reference_to_struct (); path_expression (); return 0; }