/usr/include/resip/stack/ParserContainer.hxx is in libresiprocate-1.11-dev 1:1.11.0~beta5-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#define RESIP_ParserContainer_hxx
#include <algorithm>
#include <iterator>
#include "resip/stack/HeaderFieldValueList.hxx"
#include "resip/stack/ParserContainerBase.hxx"
namespace resip
{
using std::ptrdiff_t;
/**
@brief Container class for ParserCategory, used by SipMessage to represent
multi-valued headers (Contact, Via, etc).
This has an interface that is similar to stl containers, but not as complete.
@ingroup resip_crit
*/
template<class T>
class ParserContainer : public ParserContainerBase
{
public:
typedef T value_type;
typedef value_type* pointer;
typedef const value_type* const_pointer;
typedef value_type& reference;
typedef const value_type& const_reference;
typedef ptrdiff_t difference_type;
/**
@brief Default c'tor.
*/
ParserContainer()
: ParserContainerBase(Headers::UNKNOWN)
{}
ParserContainer(PoolBase& pool)
: ParserContainerBase(Headers::UNKNOWN,pool)
{}
/**
@internal
@brief Used by SipMessage (using this carries a high risk of blowing
your feet off).
*/
ParserContainer(HeaderFieldValueList* hfvs,
Headers::Type type = Headers::UNKNOWN)
: ParserContainerBase(type)
{
mParsers.reserve(hfvs->size());
for (HeaderFieldValueList::iterator i = hfvs->begin();
i != hfvs->end(); i++)
{
// create, store without copying --
// keeps the HeaderFieldValue from reallocating its buffer
mParsers.push_back(HeaderKit::Empty);
mParsers.back().hfv.init(i->getBuffer(),i->getLength(),false);
}
}
ParserContainer(HeaderFieldValueList* hfvs,
Headers::Type type,
PoolBase& pool)
: ParserContainerBase(type,pool)
{
mParsers.reserve(hfvs->size());
for (HeaderFieldValueList::iterator i = hfvs->begin();
i != hfvs->end(); i++)
{
// create, store without copying --
// keeps the HeaderFieldValue from reallocating its buffer
mParsers.push_back(HeaderKit::Empty);
mParsers.back().hfv.init(i->getBuffer(),i->getLength(),false);
}
}
/**
@brief Copy c'tor.
*/
ParserContainer(const ParserContainer& other)
: ParserContainerBase(other)
{}
/**
@brief Copy c'tor.
*/
ParserContainer(const ParserContainer& other, PoolBase& pool)
: ParserContainerBase(other, pool)
{}
/**
@brief Assignment operator.
*/
ParserContainer& operator=(const ParserContainer& other)
{
return static_cast<ParserContainer&>(ParserContainerBase::operator=(other));
}
/**
@brief Returns the first header field value in this container.
*/
T& front()
{
return ensureInitialized(mParsers.front(),this);
}
/**
@brief Returns the last header field value in this container.
*/
T& back()
{
return ensureInitialized(mParsers.back(),this);
}
/**
@brief Returns the first header field value in this container.
*/
const T& front() const
{
return ensureInitialized(mParsers.front(),this);
}
/**
@brief Returns the last header field value in this container.
*/
const T& back() const
{
return ensureInitialized(mParsers.back(),this);
}
/**
@brief Inserts a header field value at the front of this container.
*/
void push_front(const T & t)
{
mParsers.insert(mParsers.begin(), HeaderKit::Empty);
mParsers.front().pc=makeParser(t);
}
/**
@brief Inserts a header field value at the back of this container.
*/
void push_back(const T & t)
{
mParsers.push_back(HeaderKit::Empty);
mParsers.back().pc=makeParser(t);
}
/**
@brief Returns a copy of this ParserContainer, in reverse order.
@todo !bwc! optimize this (we are copying each ParserContainer twice)
*/
ParserContainer reverse() const
{
ParserContainer tmp(*this);
std::reverse(tmp.mParsers.begin(), tmp.mParsers.end());
return tmp;
}
typedef ParserContainerBase::Parsers Parsers;
// .dlb. these can be partially hoisted as well
class const_iterator;
/**
@brief An iterator class, derived from std::iterator (bidirectional)
*/
class iterator : public std::iterator<std::bidirectional_iterator_tag, T>
{
public:
iterator(typename Parsers::iterator i,ParserContainer* ref) : mIt(i),mRef(ref){}
iterator() : mRef(0) {}
iterator(const iterator& orig) : mIt(orig.mIt), mRef(orig.mRef) {}
iterator operator++() {iterator it(++mIt,mRef); return it;}
iterator operator++(int) {iterator it(mIt++,mRef); return it;}
iterator operator--() {iterator it(--mIt,mRef); return it;}
iterator operator--(int) {iterator it(mIt--,mRef); return it;}
bool operator!=(const iterator& rhs) { return mIt != rhs.mIt; }
bool operator==(const iterator& rhs) { return mIt == rhs.mIt; }
bool operator!=(const const_iterator& rhs) { return mIt != rhs.mIt; }
bool operator==(const const_iterator& rhs) { return mIt == rhs.mIt; }
iterator& operator=(const iterator& rhs)
{
mIt = rhs.mIt;
mRef = rhs.mRef;
return *this;
}
T& operator*() {return ensureInitialized(*mIt,mRef);}
T* operator->() {return &ensureInitialized(*mIt,mRef);}
private:
typename Parsers::iterator mIt;
ParserContainer* mRef;
friend class const_iterator;
friend class ParserContainer;
};
/**
@brief A const_iterator class, derived from std::iterator
(bidirectional)
*/
class const_iterator : public std::iterator<std::bidirectional_iterator_tag, T>
{
public:
const_iterator(Parsers::const_iterator i,const ParserContainer* ref) : mIt(i),mRef(ref){}
const_iterator(const const_iterator& orig) : mIt(orig.mIt), mRef(orig.mRef) {}
const_iterator(const iterator& orig) : mIt(orig.mIt), mRef(orig.mRef) {}
const_iterator() : mRef(0) {}
const_iterator operator++() {const_iterator it(++mIt,mRef); return it;}
const_iterator operator++(int) {const_iterator it(mIt++,mRef); return it;}
const_iterator operator--() {const_iterator it(--mIt,mRef); return it;}
const_iterator operator--(int) {const_iterator it(mIt--,mRef); return it;}
bool operator!=(const const_iterator& rhs) { return mIt != rhs.mIt; }
bool operator==(const const_iterator& rhs) { return mIt == rhs.mIt; }
bool operator!=(const iterator& rhs) { return mIt != rhs.mIt; }
bool operator==(const iterator& rhs) { return mIt == rhs.mIt; }
const_iterator& operator=(const const_iterator& rhs)
{
mIt = rhs.mIt;
mRef = rhs.mRef;
return *this;
}
const_iterator& operator=(const iterator& rhs)
{
mIt = rhs.mIt;
mRef = rhs.mRef;
return *this;
}
const T& operator*() {return ensureInitialized(*mIt,mRef);}
const T* operator->() {return &ensureInitialized(*mIt,mRef);}
private:
friend class iterator;
typename Parsers::const_iterator mIt;
const ParserContainer* mRef;
};
/**
@brief Returns an iterator pointing to the first header field value.
*/
iterator begin() { return iterator(mParsers.begin(),this); }
/**
@brief Returns an iterator pointing to the last header field value.
*/
iterator end() { return iterator(mParsers.end(),this); }
/**
@brief Erases the header field value pointed to by i. Invalidates all
existing iterators.
*/
iterator erase(iterator i)
{
freeParser(*i.mIt);
return iterator(mParsers.erase(i.mIt),this);
}
/**
@brief Finds the first header field value that matches rhs.
*/
bool find(const T& rhs) const
{
for (typename Parsers::const_iterator i = mParsers.begin();
i != mParsers.end(); ++i)
{
// operator== defined by default, but often not usefully
if (rhs.isEqual(ensureInitialized(*i,this)))
{
return true;
}
}
return false;
}
/**
@brief Triggers a parse of all contained header field values.
@throw ParseException if any header field value is malformed.
*/
virtual void parseAll()
{
for (typename Parsers::const_iterator i = mParsers.begin();
i != mParsers.end(); ++i)
{
ensureInitialized(*i,this).checkParsed();
}
}
/**
@brief Returns a const_iterator pointing to the first header field
value.
*/
const_iterator begin() const { return const_iterator(mParsers.begin(),this); }
/**
@brief Returns a const_iterator pointing to the first header field
value.
*/
const_iterator end() const { return const_iterator(mParsers.end(),this); }
/**
@brief Clones this container, and all contained header field values.
*/
virtual ParserContainerBase* clone() const
{
return new ParserContainer(*this);
}
private:
friend class ParserContainer<T>::iterator;
friend class ParserContainer<T>::const_iterator;
/**
@internal
*/
static T& ensureInitialized(HeaderKit& kit, ParserContainer* ref)
{
if(!kit.pc)
{
if(ref)
{
PoolBase* pool(ref->mPool);
kit.pc=new (pool) T(kit.hfv, ref->mType, pool);
}
else
{
kit.pc=new T(kit.hfv, Headers::NONE);
}
}
return *static_cast<T*>(kit.pc);
}
static const T& ensureInitialized(const HeaderKit& kit,
const ParserContainer* ref)
{
if(!kit.pc)
{
HeaderKit& nc_kit(const_cast<HeaderKit&>(kit));
if(ref)
{
ParserContainer* nc_ref(const_cast<ParserContainer*>(ref));
PoolBase* pool(nc_ref->mPool);
nc_kit.pc=new (pool) T(kit.hfv, ref->mType, pool);
}
else
{
nc_kit.pc=new T(kit.hfv, Headers::NONE);
}
}
return *static_cast<T*>(kit.pc);
}
};
template <class T>
EncodeStream&
insert(EncodeStream& s, const resip::ParserContainer<T>& c)
{
s << "[";
for (typename resip::ParserContainer <T>::const_iterator i = c.begin();
i != c.end(); i++)
{
if (i != c.begin())
{
s << ", ";
}
// recurse
insert(s, *i);
}
s << "]";
return s;
}
}
#endif
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