第2部分到我:https://stackoverflow.com/questions/21780627/c-map-of-maps-typedef-doubts-queries
然后我继续创建InnerMap,MiddlMap的向量(可调整大小)并执行以下操作:
InnerMap inmap;
vector<InnerMap> vec_inmap;
vec_inmap.resize (8);
int vec_inmap_sz = 8;
vec_inmap.insert (vec_inmap.end (), 8, inmap);
vector<InnerMap>::iterator vec_inmap_it = vec_inmap.begin ();
InnerMap::iterator inmap_it;
MiddlMap mdmap, curr_mdmap;
vector<MiddlMap> vec_mdmap;
vec_mdmap.resize (8);
int vec_mdmap_sz = 8;
vec_mdmap.insert (vec_mdmap.end (), 8, mdmap);
vector<MiddlMap>::iterator vec_mdmap_it = vec_mdmap.begin ();
MiddlMap::iterator mdmap_it;
OuterMap otmap;
OuterMap::iterator otmap_it;
即。我在相应的向量中存储(空)副本inmap和mdmap(问:这些副本是否通过引用?),然后通过相应的向量迭代器从向量中获取这些副本,然后相应地填充地图。方法如下:
for (i = 0; i != trainSize; i++) {
...
if (curr_key_otmap != int_key) {
otmap[int_key] = *vec_mdmap_it;
vec_mdmap_it++;
mdmap_count++;
if (mdmap_count == vec_mdmap_sz) {
vec_mdmap_sz += 8;
vec_mdmap.resize (vec_mdmap_sz);
vec_mdmap.insert (vec_mdmap.end(), 8, mdmap);
}
curr_key_otmap = int_key;
curr_mdmap = otmap[curr_key_otmap];
}
mdmap_it = curr_mdmap.find (int_val);
if (mdmap_it == curr_mdmap.end ()) {
curr_mdmap[int_val] = *vec_inmap_it; <--
curr_mdmap[int_val][char_str] = 1;
vec_inmap_it++;
inmap_count++;
if (inmap_count == vec_inmap_sz) {
vec_inmap_sz += 8;
vec_inmap.resize (vec_inmap_sz);
vec_inmap.insert (vec_inmap.end(), 8, inmap);
}
} else {
inmap_it = (*mdmap_it).second.find (char_str);
if (inmap_it == (*mdmap_it).second.end ()) {
(*mdmap_it).second[char_str] = 1;
} else {
(*mdmap_it).second[char_str] += 1;
}
}
...
} //for ends
在运行时间过程中..我在<-- ed行得到以下错误:有人可以详细说明吗?
Program received signal SIGSEGV, Segmentation fault.
0x0804f9d4 in __gnu_cxx::new_allocator<std::pair<char* const, int> >::construct (this=0xbffff06f, __p=0x8057428, __val=...)
at /usr/include/c++/4.6/ext/new_allocator.h:108
108 { ::new((void *)__p) _Tp(__val); }
#0 0x0804fa2a in __gnu_cxx::new_allocator<std::pair<char* const, int> >::construct (this=0xbffff1bf, __p=0x8057428, __val=...)
at /usr/include/c++/4.6/ext/new_allocator.h:108
#1 0x0804f3e4 in std::_Rb_tree<char*, std::pair<char* const, int>, std::_Select1st<std::pair<char* const, int> >, std::less<char*>, std::allocator<std::pair<char* const, int> > >::_M_create_node (this=0x8098d1c, __x=...) at /usr/include/c++/4.6/bits/stl_tree.h:381
#2 0x0804e25f in std::_Rb_tree<char*, std::pair<char* const, int>, std::_Select1st<std::pair<char* const, int> >, std::less<char*>, std::allocator<std::pair<char* const, int> > >::_M_clone_node (this=0x8098d1c, __x=0xfffffffd) at /usr/include/c++/4.6/bits/stl_tree.h:427
#3 0x0804c645 in std::_Rb_tree<char*, std::pair<char* const, int>, std::_Select1st<std::pair<char* const, int> >, std::less<char*>, std::allocator<std::pair<char* const, int> > >::_M_copy (this=0x8098d1c, __x=0xfffffffd, __p=0x8098d20) at /usr/include/c++/4.6/bits/stl_tree.h:1036
#4 0x0804bda5 in std::_Rb_tree<char*, std::pair<char* const, int>, std::_Select1st<std::pair<char* const, int> >, std::less<char*>, std::allocator<std::pair<char* const, int> > >::operator= (this=0x8098d1c, __x=...) at /usr/include/c++/4.6/bits/stl_tree.h:945
#5 0x0804a714 in std::map<char*, int, std::less<char*>, std::allocator<std::pair<char* const, int> > >::operator= (this=0x8098d1c, __x=...)
at /usr/include/c++/4.6/bits/stl_map.h:255
#6 0x080493ff in MyProg::classify (trainData=..., testsData=...) at my_prog.cpp:83 <-- this is the line I marked
#7 0x08049c72 in main () at my_prog.cpp:200
如果有任何问题无法解读,请向我询问编辑/说明。
答案 0 :(得分:2)
你知道吗,你的代码太大了我无法理解,但我认为你应该有这个
vector<InnerMap*>::iterator vec_inmap_it = vec_inmap.begin ();
//instead of
vector<InnerMap>::iterator vec_inmap_it = vec_inmap.begin ();
试试吧
答案 1 :(得分:1)
当您调整向量的大小时,除非在创建迭代器之前已使用vector::reserve分配了该空间,否则该向量的所有迭代器都将变为无效。这是因为如果在当前分配的块之后没有可用内存,则数据将被复制到别处。如果重定位发生,则在下一次迭代时,vec_inmap_it将指向可能已被覆盖的未分配内存。因此未定义的行为。
// inside for loop
if (mdmap_it == curr_mdmap.end ()) {
curr_mdmap[int_val] = *vec_inmap_it; // here you dereference vec_inmap_it
curr_mdmap[int_val][char_str] = 1;
vec_inmap_it++;
inmap_count++;
if (inmap_count == vec_inmap_sz) {
vec_inmap_sz += 8;
vec_inmap.resize (vec_inmap_sz); // here you resize the vector, vec_inmap_it is now invalid
vec_inmap.insert (vec_inmap.end(), 8, inmap);
}
...