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Computer Architecture Homework 7

 Homework 7

Computer Architecture I ShanghaiTech University
HW6 HW7 HW8
Goals
In this assignment, you can finally code in C++ again. Topics covered are:
 
Template Metaprogramming.
Iterator.
Const-correctness.
A better understanding of the STL containers.
Setup
Download the following files: vector.hpp and Makefile.
 
Overview
Your task is to implement a vector in C++ using templates. Its behaviour should be similar to the std::vector. But of course the std::vector is more complicated - we implement a simplified version instead. vector.hpp defines all the classes needed and some of their data structures and methods. Other methods are left for you to declare. For templates, the program that is using them has to always include the implementation as well, because we cannot generate and link to a .o file because the code depends on the template parameter. To keep the code clean it is one convention to still only declare the classes and functions in a .hpp file while its implementation goes into a *-impl.hpp file which is included at the end of the .hpp file.
Implementation Details
Finish the implementation of the class and methods in vector-impl.hpp. And you should obey the following rules:
No standard libraries are allowed to use. Specifically, no #include statements are allowed to appear in vector-impl.hpp.
We assume type _Tp has default constructor and destructor, and it is both copy constructible and assignable.
The number of comments should be at least 25% of the non-blank lines. We will check by hand if those comments are valid and in English - failure to comply may lead to a score of 0 for this HW. You can use this Python script, which is the same as that on Autolab, to check your comments.
Iterator
Finish the implementation of __detail::__iterator<_Tp>. You have to implement the following methods:
Constructor: __iterator ()
Default constructor.
Constructor: __iterator ( const __iterator & other )
Copy constructor.
Constructor: __iterator ( _Tp * ptr )
Initialize the iterator with a pointer.
Destructor: ~__iterator ()
Destructor.
You should also overload the following operators:
=: copy assignment operator.
*: dereference operator.
->: arrow operator.
==, !=: comparison operator.
++, --: self increment and decrement operator.
+, -: arithmetic operator.
+=, -=: compound assignment operator.
These operators should behave similarly to std::vector<_Tp>::iterator.
Const Iterator
It is similar to the iterator except for the dereferenced value should be const type (they cannot be modified). All methods for iterator should also be implemented for const iterator. You should also implement one additional method:
Constructor: __const_iterator ( const __iterator & other )
Convert an iterator into a const iterator. Please notice that the reverse conversion (const iterator -> iterator) is not required and you should consider why.
Vector
Finally, implement the vector. Implement the following methods:
Constructor: vector ()
Default constructor.
Constructor: vector (size_type size, const _Tp &value )
Create a vector with size copies of value.
Constructor: vector (std::initializer_list<_Tp> l)
Create a vector consists of the elements in the initializer_list.
Destructor: ~vector ()
Destructor.
Operator: reference operator[] (size_type n)
Subscript access to the data contains in the vector.
Method: size_type size () const
Returns the size of the vector.
Method: iterator begin ()
Returns an iterator to the first element. If the vector is empty, the returned iterator will be equal to end().
Method: iterator end ()
Returns an iterator to the element following the last element.
Method: const_iterator cbegin () const
Returns a const iterator to the first element. If the vector is empty, the returned iterator will be equal to cend().
Method: const_iterator cend () const
Returns a const iterator to the element following the last element.
Method: iterator insert ( iterator pos, const _Tp &value )
Method: iterator insert ( const_iterator pos, const _Tp &value )
Insert given value into vector before specified iterator, return an iterator that points to the inserted data.
Method: void push_back (const _Tp &value)
Add data to the end of the vector.
Method: iterator erase ( iterator pos )
Method: iterator erase ( const_iterator pos )
Remove the element at given position. Returns an iterator to the next element (or end()).
Method: void pop_back ()
Remove last element.
Method: inline void _grow ()
Grow vector to the size of capacity.
Please note that the copy and move constructors are removed in order to avoid memory issues like double free.
Hints
You can refer to the GNU C++ Library's implementation. In GNU/Linux, the header file for std::vector is placed at /usr/include/c++//.
Because the compiler will not generate any code if the templates are not used, so it won't complain about errors exist in methods you do not use. It is strongly suggested that you test all your methods before submission. One easy approach is to specialize your templates and compile it.
The meaning of _M_size and _M_capacity is identical to HW2. _M_size should not be larger than _M_capacity.
Make use of function _grow() properly. You may choose your own way to grow the vector.
Submission
Submit vector-impl.hpp to Autolab.
Schwertfeger, S?ren
Chundong Wang
Last modified: 2020-04-19
 
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