#define _CRT_SECURE_NO_WARNINGS 1
#include<iostream>
#include<algorithm>
#include<assert.h>
#include<Windows.h>
#include<string>
using namespace std;
namespace myvector
{
template<class T>
class Vector
{
public:
//vector的迭代器是一个原生指针
typedef T* Iterator;
typedef const T* ConstIterator;
Iterator Begin() { return this->_start; }
Iterator End() { return this->_finish; }
ConstIterator CBegin() const{ return this->_start; }
ConstIterator CEnd() const { return this->_finish; }
size_t Size() const{ return this->_finish - this->_start; }
size_t Capacity() const { return this->_endOfStorage - this->_start; }
Vector()
:_start(nullptr),
_finish(nullptr),
_endOfStorage(nullptr)
{}
Vector(int n, const T& value = T())
:_start(nullptr),
_finish(nullptr),
_endOfStorage(nullptr)
{
Reserve(n);
while (n--){
PushBack(value);
}
}
// 这里如果使用Iterator做迭代器,就会导致初始化的迭代器区间[first,last]只能是Vector的迭代器
// 这里重新声明迭代器,迭代器区间[first,last]可以是任意容器的迭代器区间。
template<class InputIterator>
Vector(InputIterator first, InputIterator last)
{
Reserve(last - first);
while (first != last){
PushBack(*first);
first++;
}
}
Vector(const T& v)
:_start(nullptr),
_finish(nullptr),
_endOfStorage(nullptr)
{
Reserve(v.Capacity());
Iterator it = Begin();
Iterator cit = CBegin();
while (it != v.CEnd()){
*it++ = *vit++;
}
_finish = _start + v.Size();
_endOfStorage = _start + v.Capacity();
}
Vector<T>& operator=(Vector<T> v)
{
Swap(v);
return *this;
}
~Vector()
{
delete[] _start;
_start = _finish = _endOfStorage = nullptr;
}
void Reserve(size_t n)
{
if (n > Capacity()){
size_t size = Size();
T* tmp = new T[n];
if (_start){
for (int i = 0; i < size; i++){
tmp[i] = _start[i];
}
}
_start = tmp;
_finish = _start + size;
_endOfStorage = _start + n;
}
}
void Resize(size_t n, const T& value = T())
{
//1.n小于当前size
if (n <= Size()){
_finish = _start + n;
return;
}
//2.空间不够则扩容
if (n > Size()){
Reserve(n);
}
//3.将size扩大到n
Iterator it = _finish;
Iterator _finish = _start + n;
while (it != _finish){
*it = value;
++it;
}
}
void Swap(Vector<T>& v)
{
swap(_start, v._start);
swap(_finish, v._finish);
swap(_endOfStorage, v._endOfStorage);
}
void PushBack(const T& x)
{
Insert(End(), x);
}
void PopBack()
{
Erase(--End());
}
Iterator Insert(Iterator pos, const T& x)
{
assert(pos <= _finish);
//空间不够先增容
if (_finish == _endOfStorage){
size_t size = Size();
size_t newcapacity = Capacity() == 0 ? 1 : Capacity() * 2;
Reserve(newcapacity);
//增容之后,pos位置改变
pos = _start + size;
}
//插入位置之后的元素后移一位
Iterator end = _finish - 1;
while (end >= pos){
*(end + 1) = *end;
--end;
}
//插入元素
*pos = x;
++_finish;
return pos;
}
//erase返回删除数据的下一个位置
//方便解决:一边遍历一边删除的迭代器失效的问题
Iterator Erase(Iterator pos)
{
//挪动数据进行删除
Iterator begin = pos + 1;
while (begin != _finish){
*(begin - 1) = *begin;
++begin;
}
--_finish;
return pos;
}
T& operator[](size_t pos)
{
return _start[pos];
}
private:
Iterator _start; //指向数据块的开始
Iterator _finish; //指向数据块的末尾
Iterator _endOfStorage; //指向存储容量的尾
};
}
// constructing vectors
void TestVector1()
{
// constructors used in the same order as described above:
myvector::Vector<int> first; // empty vector of ints
myvector::Vector<int> second(4, 100); // four ints with value 100
myvector::Vector<int> third(second.Begin(), second.End()); // iterating through second
myvector::Vector<int> fourth(third); // a copy of third
// the iterator constructor can also be used to construct from arrays:
int myints[] = { 16, 2, 77, 29 };
myvector::Vector<int> fifth(myints, myints + sizeof(myints) / sizeof(int));
std::cout << "The contents of fifth are:";
for (myvector::Vector<int>::Iterator it = fifth.Begin(); it != fifth.End(); ++it)
std::cout << ' ' << *it;
std::cout << '\n';
// 测试T是string时,拷贝问题
myvector::Vector<string> strV;
strV.PushBack("1111");
strV.PushBack("2222");
strV.PushBack("3333");
strV.PushBack("4444");
for (size_t i = 0; i < strV.Size(); ++i)
{
cout << strV[i] << " ";
}
cout << endl;
}
//vector iterator的使用
void PrintVector(const myvector::Vector<int>& v)
{
// 使用const迭代器进行遍历打印
myvector::Vector<int>::ConstIterator it = v.CBegin();
while (it != v.CEnd())
{
cout << *it << " ";
++it;
}
cout << endl;
}
void TestVector2()
{
// 使用push_back插入4个数据
myvector::Vector<int> v;
v.PushBack(1);
v.PushBack(2);
v.PushBack(3);
v.PushBack(4);
// 使用迭代器进行遍历打印
myvector::Vector<int>::Iterator it = v.Begin();
while (it != v.End())
{
cout << *it << " ";
++it;
}
cout << endl;
// 使用迭代器进行修改
it = v.Begin();
while (it != v.End())
{
*it *= 2;
++it;
}
PrintVector(v);
}
// capacity/vector::reserve/resize
void TestVector4()
{
size_t sz;
myvector::Vector<int> foo;
sz = foo.Capacity();
std::cout << "making foo grow:\n";
for (int i = 0; i < 100; ++i) {
foo.PushBack(i);
if (sz != foo.Capacity()) {
sz = foo.Capacity();
std::cout << "capacity changed: " << sz << '\n';
}
}
// resverse
myvector::Vector<int> bar;
sz = bar.Capacity();
bar.Reserve(100); // this is the only difference with foo above
std::cout << "making bar grow:\n";
for (int i = 0; i < 100; ++i) {
bar.PushBack(i);
if (sz != bar.Capacity()) {
sz = bar.Capacity();
std::cout << "capacity changed: " << sz << '\n';
}
}
// resize
myvector::Vector<int> myvector;
// set some initial content:
for (int i = 1; i < 10; i++)
myvector.PushBack(i);
myvector.Resize(5);
myvector.Resize(8, 100);
myvector.Resize(12);
std::cout << "myvector contains:";
for (size_t i = 0; i < myvector.Size(); i++)
std::cout << ' ' << myvector[i];
std::cout << '\n';
}
// find / insert / erase
void TestVector5()
{
int a[] = { 1, 2, 3, 4 };
myvector::Vector<int> v(a, a + sizeof(a) / sizeof(int));
// 使用find查找3所在位置的iterator
myvector::Vector<int>::Iterator pos = find(v.Begin(), v.End(), 3);
// 在pos位置之前插入30
v.Insert(pos, 30);
myvector::Vector<int>::Iterator it = v.Begin();
while (it != v.End()) {
cout << *it << " ";
++it;
}
cout << endl;
pos = find(v.Begin(), v.End(), 3);
// 删除pos位置的数据
v.Erase(pos);
it = v.Begin();
while (it != v.End()) {
cout << *it << " ";
++it;
}
cout << endl;
}
// operator[]
void TestVector6()
{
int a[] = { 1, 2, 3, 4 };
myvector::Vector<int> v(a, a + sizeof(a) / sizeof(int));
// 通过[]读写第0个位置。
v[0] = 10;
cout << v[0] << endl;
// 通过[i]的方式遍历vector
for (size_t i = 0; i < v.Size(); ++i)
{
cout << v[i] << " ";
}
cout << endl;
myvector::Vector<int> swapv;
swapv.Swap(v);
cout << "v data:";
for (size_t i = 0; i < v.Size(); ++i)
{
cout << v[i] << " ";
}
cout << endl;
cout << "swapv data:";
for (size_t i = 0; i < swapv.Size(); ++i)
{
cout << swapv[i] << " ";
}
cout << endl;
}
// iterator失效问题
void TestVector7()
{
int a[] = { 1, 2, 3, 4 };
myvector::Vector<int> v(a, a + sizeof(a) / sizeof(int));
// 使用find查找3所在位置的iterator
myvector::Vector<int>::Iterator pos = find(v.Begin(), v.End(), 3);
// 删除pos位置的数据,导致pos迭代器失效。
v.Erase(pos);
cout << *pos << endl; // 此处会导致非法访问
// 在pos位置插入数据,导致pos迭代器失效。
// insert会导致迭代器失效,是因为insert可
// 能会导致增容,增容后pos还指向原来的空间,而原来的空间已经释放了。
pos = find(v.Begin(), v.End(), 3);
v.Insert(pos, 30);
cout << *pos << endl; // 此处会导致非法访问
// 实现删除v中的所有偶数
// 下面的程序会崩溃掉,如果是偶数,erase导致it失效
// 对失效的迭代器进行++it,会导致程序崩溃
myvector::Vector<int>::Iterator it = v.Begin();
//while (it != v.End())
//{
// if (*it % 2 == 0)
// v.Erase(it);
// ++it;
//}
// 以上程序要改成下面这样,erase会返回删除位置的下一个位置
it = v.Begin();
while (it != v.End())
{
if (*it % 2 == 0)
it = v.Erase(it);
else
++it;
}
}
int main()
{
//TestVector1();
TestVector2();
//TestVector3();
TestVector4();
TestVector5();
TestVector6();
TestVector7();
system("pause");
return 0;
}
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