TL/include/tl/detail/path_base.h

#pragma once

#include "tl/detail/prologue.h"
#include "tl/vector.h"
#include "tl/string.h"
#include "tl/hash_and_combine.h"

namespace tl
{
namespace detail
{
namespace path_system
{

template <typename PathSystems> struct path_key_less;

//////////////////////////////////////////////////////////////////////////

// inner path_base definition
template<typename PathSystems>
class path_base
{
public:
	virtual ~path_base() noexcept = default;
	using iterator = tl::vector<string>::iterator;
	using const_iterator = tl::vector<string>::const_iterator;
	using const_reverse_iterator = tl::vector<string>::const_reverse_iterator;
	using key_less = path_key_less<PathSystems>;
	using value_type = std::string;

	//both have checked indexing
	const string&			operator[](size_t index) const noexcept;
	string&					operator[](size_t index) noexcept;
	const string&			at(size_t index) const noexcept;
	string&					at(size_t index) noexcept;

	void					shrink(size_t size) noexcept;

	bool					empty() const noexcept;
	size_t					size() const noexcept;
	void					reserve(size_t capacity) noexcept;

	// if the path is empty, these operations have no effect. They return the removed element as a string.
	string					pop_back() noexcept;
	virtual bool			push_back(string element) noexcept;

	virtual void			take_elements(tl::vector<string>&& elements) noexcept;

	iterator				begin() noexcept;
	iterator				end() noexcept;
	const_iterator			begin() const noexcept;
	const_iterator			end() const noexcept;
	const_reverse_iterator	rbegin() const noexcept;
	const_reverse_iterator	rend() const noexcept;

	uint32_t				hash() const noexcept;

protected:
	void					push_element(string element) noexcept;

    tl::vector<string>		m_elements;
	mutable uint32_t		m_hash = 0;

	friend bool path_key_less<PathSystems>::operator()(const path_base<PathSystems>& a1, const path_base<PathSystems>& a2) const noexcept;
};

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
struct path_key_less
{
	bool operator()(const path_base<PathSystems>& a1, const path_base<PathSystems>& a2) const noexcept;
};

}
}
}

//////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////

namespace tl
{
namespace detail
{
namespace path_system
{

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
const string& path_base<PathSystems>::operator[](size_t index) const noexcept
{
	if (index >= m_elements.size())
		TL_PLAIN_CRASH("Illegal access");
	return m_elements[index];
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
string& path_base<PathSystems>::operator[](size_t index) noexcept
{
	if (index >= m_elements.size())
		TL_PLAIN_CRASH("Illegal access");
	m_hash = 0;
	return m_elements[index];
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
const string& path_base<PathSystems>::at(size_t index) const noexcept
{
	if (index >= m_elements.size())
		TL_PLAIN_CRASH("Illegal access");
	return m_elements[index];
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
string& path_base<PathSystems>::at(size_t index) noexcept
{
	if (index >= m_elements.size())
		TL_PLAIN_CRASH("Illegal access");
	m_hash = 0;
	return m_elements[index];
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
void path_base<PathSystems>::shrink(size_t size) noexcept
{
	if (size < this->size())
	{
		m_elements.resize(size);
		m_hash = 0;
	}
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
uint32_t path_base<PathSystems>::hash() const noexcept
{
	if (m_hash == 0)
	{
		for (const string& e : m_elements)
			hash_and_combine(m_hash, e);
	}
	return m_hash;
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
size_t path_base<PathSystems>::size() const noexcept
{
	return m_elements.size();
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
bool path_base<PathSystems>::empty() const noexcept
{
	return m_elements.empty();
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
void path_base<PathSystems>::reserve(size_t capacity) noexcept
{
	m_elements.reserve(capacity);
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
string path_base<PathSystems>::pop_back() noexcept
{
	if (empty())
	{
		TL_PLAIN_FAIL();
		return string();
	}

	m_hash = 0;
	auto res = m_elements.back();
	m_elements.pop_back();
	return res;
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
bool path_base<PathSystems>::push_back(string element) noexcept
{
	push_element(std::move(element));
	return true;
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
void path_base<PathSystems>::push_element(string element) noexcept
{
	m_hash = 0;
	m_elements.push_back(std::move(element));
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
void path_base<PathSystems>::take_elements(tl::vector<string>&& elements) noexcept
{
	m_hash = 0;
	m_elements = std::move(elements);
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
typename path_base<PathSystems>::iterator path_base<PathSystems>::begin() noexcept
{
	return m_elements.begin();
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
typename path_base<PathSystems>::iterator path_base<PathSystems>::end() noexcept
{
	return m_elements.end();
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
typename path_base<PathSystems>::const_iterator path_base<PathSystems>::begin() const noexcept
{
	return m_elements.cbegin();
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
typename path_base<PathSystems>::const_iterator path_base<PathSystems>::end() const noexcept
{
	return m_elements.cend();
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
typename path_base<PathSystems>::const_reverse_iterator path_base<PathSystems>::rbegin() const noexcept
{
	return m_elements.crbegin();
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
typename path_base<PathSystems>::const_reverse_iterator path_base<PathSystems>::rend() const noexcept
{
	return m_elements.crend();
}

//////////////////////////////////////////////////////////////////////////

template <typename PathSystems>
bool path_key_less<PathSystems>::operator()(const path_base<PathSystems>& a1, const path_base<PathSystems>& a2) const noexcept
{
	const size_t sz1 = a1.m_elements.size();
	const size_t sz2 = a2.m_elements.size();
	for (size_t i = 0; i < sz1 && i < sz2; ++i)
	{
		if (a1.m_elements[i] != a2.m_elements[i])
			return a1.m_elements[i].unique_key() < a2.m_elements[i].unique_key();
	}
	return sz1 < sz2;
}

}
}
}