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ex14_23.cpp
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ex14_23.cpp
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#include "ex14_23.h"
#include <algorithm> // for_each, equal
void StrVec::push_back(const std::string& s)
{
chk_n_alloc();
alloc.construct(first_free++, s);
}
std::pair<std::string*, std::string*> StrVec::alloc_n_copy(const std::string* b,
const std::string* e)
{
auto data = alloc.allocate(e - b);
return {data, std::uninitialized_copy(b, e, data)};
}
void StrVec::free()
{
if (elements) {
for_each(elements, first_free,
[this](std::string& rhs) { alloc.destroy(&rhs); });
alloc.deallocate(elements, cap - elements);
}
}
void StrVec::range_initialize(const std::string* first, const std::string* last)
{
auto newdata = alloc_n_copy(first, last);
elements = newdata.first;
first_free = cap = newdata.second;
}
StrVec::StrVec(const StrVec& rhs)
{
range_initialize(rhs.begin(), rhs.end());
}
StrVec::StrVec(std::initializer_list<std::string> il)
{
range_initialize(il.begin(), il.end());
}
StrVec::~StrVec()
{
free();
}
StrVec& StrVec::operator=(const StrVec& rhs)
{
auto data = alloc_n_copy(rhs.begin(), rhs.end());
free();
elements = data.first;
first_free = cap = data.second;
return *this;
}
void StrVec::alloc_n_move(size_t new_cap)
{
auto newdata = alloc.allocate(new_cap);
auto dest = newdata;
auto elem = elements;
for (size_t i = 0; i != size(); ++i)
alloc.construct(dest++, std::move(*elem++));
free();
elements = newdata;
first_free = dest;
cap = elements + new_cap;
}
void StrVec::reallocate()
{
auto newcapacity = size() ? 2 * size() : 1;
alloc_n_move(newcapacity);
}
void StrVec::reserve(size_t new_cap)
{
if (new_cap <= capacity()) return;
alloc_n_move(new_cap);
}
void StrVec::resize(size_t count)
{
resize(count, std::string());
}
void StrVec::resize(size_t count, const std::string& s)
{
if (count > size()) {
if (count > capacity()) reserve(count * 2);
for (size_t i = size(); i != count; ++i)
alloc.construct(first_free++, s);
}
else if (count < size()) {
while (first_free != elements + count) alloc.destroy(--first_free);
}
}
StrVec::StrVec(StrVec&& s) NOEXCEPT : elements(s.elements),
first_free(s.first_free),
cap(s.cap)
{
// leave s in a state in which it is safe to run the destructor.
s.elements = s.first_free = s.cap = nullptr;
}
StrVec& StrVec::operator=(StrVec&& rhs) NOEXCEPT
{
if (this != &rhs) {
free();
elements = rhs.elements;
first_free = rhs.first_free;
cap = rhs.cap;
rhs.elements = rhs.first_free = rhs.cap = nullptr;
}
return *this;
}
bool operator==(const StrVec& lhs, const StrVec& rhs)
{
return (lhs.size() == rhs.size() &&
std::equal(lhs.begin(), lhs.end(), rhs.begin()));
}
bool operator!=(const StrVec& lhs, const StrVec& rhs)
{
return !(lhs == rhs);
}
bool operator<(const StrVec& lhs, const StrVec& rhs)
{
return std::lexicographical_compare(lhs.begin(), lhs.end(), rhs.begin(),
rhs.end());
}
bool operator>(const StrVec& lhs, const StrVec& rhs)
{
return rhs < lhs;
}
bool operator<=(const StrVec& lhs, const StrVec& rhs)
{
return !(rhs < lhs);
}
bool operator>=(const StrVec& lhs, const StrVec& rhs)
{
return !(lhs < rhs);
}
StrVec& StrVec::operator=(std::initializer_list<std::string> il)
{
auto data = alloc_n_copy(il.begin(), il.end());
free();
elements = data.first;
first_free = cap = data.second;
return *this;
}