Describe the differences between a map and a vector.
A map
is a collection of key-value pairs. we can get a value lookup by key efficiently.
A vector
is a collection of objects, and every object has an associated index, which gives access to that object.
Give an example of when each of list, vector, deque, map, and set might be most useful.
- list : a to-do list. always need insert or delete the elements anywhere.
- vector : save some important associated data, always need query elements by index.
- deque : message handle. FIFO.
- map : dictionary.
- set : bad_checks.
Explain the difference between a map and a set. When might you use one or the other?
set
: the element type is the key type.map
: we should use a key-value pair, such as{key, value}
to indicate that the items together from one element in the map.
I use set
when i just need to store the key
, In other hand, I would like use map
when i need to store a key-value pair.
Explain the difference between a set and a list. When might you use one or the other?
set
is unique and order, but list
is neither. using which one depend on whether the elements are unique and order to store.
What are the mapped_type, key_type, and value_type of a map from int to vector?
- mapped_type : vector
- key_type : int
- value_type : std::pair<int, vector>
Using a map iterator write an expression that assigns a value to an element.
std::map<int, std::string> map;
map[25] = "Alan";
std::map<int, std::string>::iterator it = map.begin();
it->second = "Wang";
Assuming c is a multiset of strings and v is a vector of strings, explain the following calls. Indicate whether each call is legal:
copy(v.begin(), v.end(), inserter(c, c.end())); // legal
copy(v.begin(), v.end(), back_inserter(c)); // illegal, no `push_back` in `set`.
copy(c.begin(), c.end(), inserter(v, v.end())); // legal.
copy(c.begin(), c.end(), back_inserter(v)); // legal.
Define a variable that you initialize by calling begin() on the multiset named bookstore from 11.2.2 (p. 425). Write the variable’s type without using auto or decltype.
using compareType = bool (*)(const Sales_data &lhs, const Sales_data &rhs);
std::multiset<Sales_data, compareType> bookstore(compareIsbn);
std::multiset<Sales_data, compareType>::iterator c_it = bookstore.begin();
Assuming word_count is a map from string to size_t and word is a string, explain the following loop:
while (cin >> word)
++word_count.insert({word, 0}).first->second;
++ (word_count.insert({word, 0}).first->second)
Given a map<string, vector>, write the types used as an argument and as the return value for the version of insert that inserts one element.
std::pair<std::string, std::vector<int>> // argument
std::pair<std::map<std::string, std::vector<int>>::iterator, bool> // return
What would happen if we used the subscript operator instead of find in the transform function?
In gcc 4.8.3, will report error:
error: passing ‘const std::map<std::basic_string<char>, std::basic_string<char> >’ as ‘this’ argument of ‘std::map<_Key, _Tp, _Compare, _Alloc>::mapped_type& std::map<_Key, _Tp, _Compare, _Alloc>::operator[](const key_type&) [with _Key = std::basic_string<char>; _Tp = std::basic_string<char>; _Compare = std::less<std::basic_string<char> >; _Alloc = std::allocator<std::pair<const std::basic_string<char>, std::basic_string<char> > >; std::map<_Key, _Tp, _Compare, _Alloc>::mapped_type = std::basic_string<char>; std::map<_Key, _Tp, _Compare, _Alloc>::key_type = std::basic_string<char>]’ discards qualifiers [-fpermissive]
auto key = m[s];
^
Because std::map's operator is not declared as const,but m is declared as a reference to std::map with const.If insert new pair,it will cause error.
In buildMap, what effect, if any, would there be from rewriting
trans_map[key] = value.substr(1);
astrans_map.insert({key, value.substr(1)})
?
- use subscript operator: if a word does appear multiple times, our loops will put the last corresponding phrase into trans_map
- use
insert
: if a word does appear multiple times, our loops will put the first corresponding phrase into trans_map
Our program does no checking on the validity of either input file. In particular, it assumes that the rules in the transformation file are all sensible. What would happen if a line in that file has a key, one space, and then the end of the line? Predict the behavior and then check it against your version of the program.
we added a file that name "word_transformation_bad.txt" to folder data
. the file only has a key, one space.
the program of 11.33 don't influenced by that.
What are the advantages of an unordered container as compared to the ordered version of that container? What are the advantages of the ordered version?
- the advantages of an unordered container:
- useful when we have a key type for which there is no obvious ordering relationship among the elements
- useful for applications in which the cost of maintaining the elements in order is prohibitive
- the advantages of the ordered version:
- Iterators for the ordered containers access elements in order by key
- we can directly define an ordered container that uses a our own class types for its key type.