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《coredump问题原理探究》Linux x86版7.7节 set对象

时间:2017-06-03 09:54:38      阅读:189      评论:0      收藏:0      [点我收藏+]

标签:glib   sam   push   and   pos   bsp   cti   parent   成员   

看一下bits/stl_map和bits/stl_set能够看到map和set的定义例如以下:


84   template <typename _Key, typename _Tp, typename _Compare = std::less<_Key>,
 85             typename _Alloc = std::allocator<std::pair<const _Key, _Tp> > >
 86     class map
 87     {
 88     public:
 89       typedef _Key                                          key_type;
 90       typedef _Tp                                           mapped_type;
 91       typedef std::pair<const _Key, _Tp>                    value_type;
 92       typedef _Compare                                      key_compare;
 93       typedef _Alloc                                        allocator_type;
 94 
 95     private:
 96       // concept requirements
 97       typedef typename _Alloc::value_type                   _Alloc_value_type;
 98       __glibcxx_class_requires(_Tp, _SGIAssignableConcept)
 99       __glibcxx_class_requires4(_Compare, bool, _Key, _Key,
100                 _BinaryFunctionConcept)
101       __glibcxx_class_requires2(value_type, _Alloc_value_type, _SameTypeConcept)
102 
103     public:
104       class value_compare
105       : public std::binary_function<value_type, value_type, bool>
106       {
107     friend class map<_Key, _Tp, _Compare, _Alloc>;
108       protected:
109     _Compare comp;
110 
111     value_compare(_Compare __c)
112     : comp(__c) { }
113 
114       public:
115     bool operator()(const value_type& __x, const value_type& __y) const
116     { return comp(__x.first, __y.first); }
117       };
118 
119     private:
120       /// This turns a red-black tree into a [multi]map. 
121       typedef typename _Alloc::template rebind<value_type>::other
122         _Pair_alloc_type;
123 
124       typedef _Rb_tree<key_type, value_type, _Select1st<value_type>,
125                key_compare, _Pair_alloc_type> _Rep_type;
126 
127       /// The actual tree structure.
128       _Rep_type _M_t;

85   template<typename _Key, typename _Compare = std::less<_Key>,
 86        typename _Alloc = std::allocator<_Key> >
 87     class set
 88     {
 89       // concept requirements
 90       typedef typename _Alloc::value_type                   _Alloc_value_type;
 91       __glibcxx_class_requires(_Key, _SGIAssignableConcept)
 92       __glibcxx_class_requires4(_Compare, bool, _Key, _Key,
 93                 _BinaryFunctionConcept)
 94       __glibcxx_class_requires2(_Key, _Alloc_value_type, _SameTypeConcept)
 95 
 96     public:
 97       // typedefs:
 98       //@{
 99       /// Public typedefs.
100       typedef _Key     key_type;
101       typedef _Key     value_type;
102       typedef _Compare key_compare;
103       typedef _Compare value_compare;
104       typedef _Alloc   allocator_type;
105       //@}
106 
107     private:
108       typedef typename _Alloc::template rebind<_Key>::other _Key_alloc_type;
109 
110       typedef _Rb_tree<key_type, value_type, _Identity<value_type>,
111                key_compare, _Key_alloc_type> _Rep_type;
112       _Rep_type _M_t;  // Red-black tree representing set.
113

因为map,set的本身定义都是声明不论什么成员变量,全部成员变量都是从_Rb_tree继承过来的,唯一的区别仅仅是_Rb_tree最后參数的定义不一样.

set的特征例如以下:

1.     set对象有五个成员_M_node_count标明map有多少个元素,三个指针分别指向树中最左的节点,树的根节点,树的最右节点,_M_color表明是红树还是黑树。_M_key_compare指向比較函数

2.     树的根节点的_M_parent指向头节点

3.     每个节点的值都紧跟着_M_right

 

看一下样例:

  1 #include <set>
  2 
  3 int main()
  4 {
  5     std::set<int> iSet;
  6     iSet.insert( 0x523 );
  7     iSet.insert( 0x352 );
  8     iSet.insert( 0x808 );
  9 
 10     return 0;
 11 }

看一下main函数的汇编:

(gdb) disassemble main
Dump of assembler code for function main:
   0x08048634 <+0>:	lea    0x4(%esp),%ecx
   0x08048638 <+4>:	and    $0xfffffff0,%esp
   0x0804863b <+7>:	pushl  -0x4(%ecx)
   0x0804863e <+10>:	push   %ebp
   0x0804863f <+11>:	mov    %esp,%ebp
   0x08048641 <+13>:	push   %esi
   0x08048642 <+14>:	push   %ebx
   0x08048643 <+15>:	push   %ecx
   0x08048644 <+16>:	sub    $0x5c,%esp
   0x08048647 <+19>:	lea    -0x54(%ebp),%eax
   0x0804864a <+22>:	mov    %eax,(%esp)
   0x0804864d <+25>:	call   0x8048712 <_ZNSt3setIiSt4lessIiESaIiEEC2Ev>
   0x08048652 <+30>:	movl   $0x523,-0x34(%ebp)
   0x08048659 <+37>:	lea    -0x3c(%ebp),%eax
   0x0804865c <+40>:	lea    -0x34(%ebp),%edx
   0x0804865f <+43>:	mov    %edx,0x8(%esp)
   0x08048663 <+47>:	lea    -0x54(%ebp),%edx
   0x08048666 <+50>:	mov    %edx,0x4(%esp)
   0x0804866a <+54>:	mov    %eax,(%esp)
   0x0804866d <+57>:	call   0x804878c <_ZNSt3setIiSt4lessIiESaIiEE6insertERKi>
   0x08048672 <+62>:	sub    $0x4,%esp
   0x08048675 <+65>:	movl   $0x352,-0x28(%ebp)
   0x0804867c <+72>:	lea    -0x30(%ebp),%eax
---Type <return> to continue, or q <return> to quit---
   0x0804867f <+75>:	lea    -0x28(%ebp),%edx
   0x08048682 <+78>:	mov    %edx,0x8(%esp)
   0x08048686 <+82>:	lea    -0x54(%ebp),%edx
   0x08048689 <+85>:	mov    %edx,0x4(%esp)
   0x0804868d <+89>:	mov    %eax,(%esp)
   0x08048690 <+92>:	call   0x804878c <_ZNSt3setIiSt4lessIiESaIiEE6insertERKi>
   0x08048695 <+97>:	sub    $0x4,%esp
   0x08048698 <+100>:	movl   $0x808,-0x1c(%ebp)
   0x0804869f <+107>:	lea    -0x24(%ebp),%eax
   0x080486a2 <+110>:	lea    -0x1c(%ebp),%edx
   0x080486a5 <+113>:	mov    %edx,0x8(%esp)
   0x080486a9 <+117>:	lea    -0x54(%ebp),%edx
   0x080486ac <+120>:	mov    %edx,0x4(%esp)
   0x080486b0 <+124>:	mov    %eax,(%esp)
   0x080486b3 <+127>:	call   0x804878c <_ZNSt3setIiSt4lessIiESaIiEE6insertERKi>
   0x080486b8 <+132>:	sub    $0x4,%esp
   0x080486bb <+135>:	mov    $0x0,%ebx
   0x080486c0 <+140>:	lea    -0x54(%ebp),%eax
   0x080486c3 <+143>:	mov    %eax,(%esp)
   0x080486c6 <+146>:	call   0x80486fe <_ZNSt3setIiSt4lessIiESaIiEED2Ev>
   0x080486cb <+151>:	mov    %ebx,%eax
   0x080486cd <+153>:	lea    -0xc(%ebp),%esp
   0x080486d0 <+156>:	add    $0x0,%esp
---Type <return> to continue, or q <return> to quit---
   0x080486d3 <+159>:	pop    %ecx
   0x080486d4 <+160>:	pop    %ebx
   0x080486d5 <+161>:	pop    %esi
   0x080486d6 <+162>:	pop    %ebp
   0x080486d7 <+163>:	lea    -0x4(%ecx),%esp
   0x080486da <+166>:	ret    
   0x080486db <+167>:	mov    %edx,%ebx
   0x080486dd <+169>:	mov    %eax,%esi
   0x080486df <+171>:	lea    -0x54(%ebp),%eax
   0x080486e2 <+174>:	mov    %eax,(%esp)
   0x080486e5 <+177>:	call   0x80486fe <_ZNSt3setIiSt4lessIiESaIiEED2Ev>
   0x080486ea <+182>:	mov    %esi,%eax
   0x080486ec <+184>:	mov    %ebx,%edx
   0x080486ee <+186>:	mov    %eax,(%esp)
   0x080486f1 <+189>:	call   0x8048564 <_Unwind_Resume@plt>
End of assembler dump.

由上面汇编可知,ebp-0x54是set的this指针.

在0x080486b8指令地址打断点,验证一下set的特征是不是对的.

(gdb) x /8wx $ebp-0x54
0xbffff234:	0xbffff270	0x00000000	0x0804b008	0x0804b020
0xbffff244:	0x0804b038	0x00000003	0x0804b008	0xbffff201
(gdb) x /8wx 0x0804b008
0x804b008:	0x00000001	0xbffff238	0x0804b020	0x0804b038
0x804b018:	0x00000523	0x00000019	0x00000000	0x0804b008
(gdb) x /8x 0x0804b020
0x804b020:	0x00000000	0x0804b008	0x00000000	0x00000000
0x804b030:	0x00000352	0x00000019	0x00000000	0x0804b008
(gdb) x /8wx 0x0804b038
0x804b038:	0x00000000	0x0804b008	0x00000000	0x00000000
0x804b048:	0x00000808	0x00020fb9	0x00000000	0x00000000

可用下图表示:

技术分享

可知,特征是没有问题


《coredump问题原理探究》Linux x86版7.7节 set对象

标签:glib   sam   push   and   pos   bsp   cti   parent   成员   

原文地址:http://www.cnblogs.com/cynchanpin/p/6936192.html

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