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SqMod/source/Base/Buffer.hpp

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#ifndef _BASE_BUFFER_HPP_
#define _BASE_BUFFER_HPP_
// ------------------------------------------------------------------------------------------------
#include <assert.h>
// ------------------------------------------------------------------------------------------------
namespace SqMod {
// ------------------------------------------------------------------------------------------------
class Memory;
class Buffer;
/* ------------------------------------------------------------------------------------------------
* A counted reference to a memory manager instance.
*/
class MemRef
{
private:
// --------------------------------------------------------------------------------------------
static MemRef s_Mem;
// --------------------------------------------------------------------------------------------
typedef unsigned int Counter;
// --------------------------------------------------------------------------------------------
Memory* m_Ptr; /* The memory manager instance. */
Counter* m_Ref; /* Reference count to the managed instance. */
/* --------------------------------------------------------------------------------------------
* Grab a strong reference to a memory manager.
*/
void Grab();
/* --------------------------------------------------------------------------------------------
* Drop a strong reference to a memory manager.
*/
void Drop();
public:
/* --------------------------------------------------------------------------------------------
* Get a reference to the global memory manager instance.
*/
static const MemRef & Get();
/* --------------------------------------------------------------------------------------------
* Default constructor (null).
*/
MemRef()
: m_Ptr(s_Mem.m_Ptr), m_Ref(s_Mem.m_Ref)
{
Grab();
}
/* --------------------------------------------------------------------------------------------
* Copy constructor.
*/
MemRef(const MemRef & o)
: m_Ptr(o.m_Ptr), m_Ref(o.m_Ref)
{
Grab();
}
/* --------------------------------------------------------------------------------------------
* Destructor.
*/
~MemRef()
{
Drop();
}
/* --------------------------------------------------------------------------------------------
* Copy assignment operator.
*/
MemRef & operator = (const MemRef & o)
{
if (m_Ptr != o.m_Ptr)
{
Drop();
m_Ptr = o.m_Ptr;
m_Ref = o.m_Ref;
Grab();
}
return *this;
}
/* --------------------------------------------------------------------------------------------
* Perform an equality comparison between two memory managers.
*/
bool operator == (const MemRef & o) const
{
return (m_Ptr == o.m_Ptr);
}
/* --------------------------------------------------------------------------------------------
* Perform an inequality comparison between two memory managers.
*/
bool operator != (const MemRef & o) const
{
return (m_Ptr != o.m_Ptr);
}
/* --------------------------------------------------------------------------------------------
* Implicit conversion to boolean for use in boolean operations.
*/
operator bool () const
{
return m_Ptr;
}
/* --------------------------------------------------------------------------------------------
* Member operator for dereferencing the managed pointer.
*/
Memory * operator -> () const
{
assert(m_Ptr != NULL);
return m_Ptr;
}
/* --------------------------------------------------------------------------------------------
* Indirection operator for obtaining a reference of the managed pointer.
*/
Memory & operator * () const
{
assert(m_Ptr != NULL);
return *m_Ptr;
}
};
// ------------------------------------------------------------------------------------------------
void ThrowMemExcept(const char * msg, ...);
/* ------------------------------------------------------------------------------------------------
* Reusable buffer memory for quick allocations.
*/
class Buffer
{
public:
// --------------------------------------------------------------------------------------------
typedef char Value; /* The type of value used to represent a byte. */
// --------------------------------------------------------------------------------------------
typedef Value & Reference; /* A reference to the stored value type. */
typedef const Value & ConstRef; /* A const reference to the stored value type. */
// --------------------------------------------------------------------------------------------
typedef Value * Pointer; /* A pointer to the stored value type. */
typedef const Value * ConstPtr; /* A const pointer to the stored value type. */
// --------------------------------------------------------------------------------------------
typedef unsigned int SzType; /* The type used to represent size in general. */
/* --------------------------------------------------------------------------------------------
* Default constructor (null). Not null of a previous buffer was marked as movable.
*/
Buffer()
: m_Ptr(s_Ptr)
, m_Cap(s_Cap)
, m_Mem(MemRef::Get())
{
s_Ptr = NULL;
s_Cap = 0;
}
/* --------------------------------------------------------------------------------------------
* Explicit size constructor.
*/
Buffer(SzType n)
: m_Ptr(NULL)
, m_Cap(0)
, m_Mem(MemRef::Get())
{
Request(n < 8 ? 8 : n);
}
/* --------------------------------------------------------------------------------------------
* Copy constructor.
*/
Buffer(const Buffer & o);
/* --------------------------------------------------------------------------------------------
* Destructor.
*/
~Buffer();
/* --------------------------------------------------------------------------------------------
* Copy assignment operator.
*/
Buffer & operator = (const Buffer & o);
/* --------------------------------------------------------------------------------------------
* Equality comparison operator.
*/
bool operator == (const Buffer & o) const
{
return (m_Cap == o.m_Cap);
}
/* --------------------------------------------------------------------------------------------
* Inequality comparison operator.
*/
bool operator != (const Buffer & o) const
{
return (m_Cap != o.m_Cap);
}
/* --------------------------------------------------------------------------------------------
* Less than comparison operator.
*/
bool operator < (const Buffer & o) const
{
return (m_Cap < o.m_Cap);
}
/* --------------------------------------------------------------------------------------------
* Greater than comparison operator.
*/
bool operator > (const Buffer & o) const
{
return (m_Cap > o.m_Cap);
}
/* --------------------------------------------------------------------------------------------
* Less than or equal comparison operator.
*/
bool operator <= (const Buffer & o) const
{
return (m_Cap <= o.m_Cap);
}
/* --------------------------------------------------------------------------------------------
* Greater than or equal comparison operator.
*/
bool operator >= (const Buffer & o) const
{
return (m_Cap >= o.m_Cap);
}
/* --------------------------------------------------------------------------------------------
* Implicit conversion to boolean.
*/
operator bool () const
{
return m_Ptr;
}
/* --------------------------------------------------------------------------------------------
* Retrieve the internal buffer casted as a different type.
*/
template < typename T > T * Get()
{
return reinterpret_cast< T * >(m_Ptr);
}
/* --------------------------------------------------------------------------------------------
* Retrieve the internal buffer casted as a different type.
*/
template < typename T > const T * Get() const
{
return reinterpret_cast< const T * >(m_Ptr);
}
/* --------------------------------------------------------------------------------------------
* Retrieve the a certain element.
*/
template < typename T > T & At(SzType n)
{
assert(n < m_Cap);
return reinterpret_cast< T * >(m_Ptr)[n];
}
/* --------------------------------------------------------------------------------------------
* Retrieve the a certain element.
*/
template < typename T > const T & At(SzType n) const
{
assert(n < m_Cap);
return reinterpret_cast< const T * >(m_Ptr)[n];
}
/* --------------------------------------------------------------------------------------------
* Retrieve the internal buffer casted as a different type.
*/
template < typename T > T * Begin()
{
return reinterpret_cast< T * >(m_Ptr);
}
/* --------------------------------------------------------------------------------------------
* Retrieve the internal buffer casted as a different type.
*/
template < typename T > const T * Begin() const
{
return reinterpret_cast< const T * >(m_Ptr);
}
/* --------------------------------------------------------------------------------------------
* Retrieve the internal buffer casted as a different type.
*/
template < typename T > T * End()
{
return reinterpret_cast< T * >(m_Ptr) + (m_Cap / sizeof(T));
}
/* --------------------------------------------------------------------------------------------
* Retrieve the internal buffer casted as a different type.
*/
template < typename T > const T * End() const
{
return reinterpret_cast< const T * >(m_Ptr) + (m_Cap / sizeof(T));
}
/* --------------------------------------------------------------------------------------------
* Retrieve the internal buffer.
*/
Pointer Data()
{
return m_Ptr;
}
/* --------------------------------------------------------------------------------------------
* Retrieve the internal buffer.
*/
ConstPtr Data() const
{
return m_Ptr;
}
/* --------------------------------------------------------------------------------------------
* Retrieve maximum elements it can hold for a certain type.
*/
template < typename T > static SzType Max()
{
return (0xFFFFFFFF / sizeof(T));
}
/* --------------------------------------------------------------------------------------------
* Retrieve the current buffer capacity in element count.
*/
template < typename T > SzType Size() const
{
return (m_Cap / sizeof(T));
}
/* --------------------------------------------------------------------------------------------
* Retrieve the current buffer capacity in byte count.
*/
SzType Capacity() const
{
return m_Cap;
}
/* --------------------------------------------------------------------------------------------
* Makes sure there is enough capacity to hold the specified element count.
*/
template < typename T > Buffer Adjust(SzType n)
{
if (n < 8)
{
n = 8;
}
// See if the requested capacity doesn't exceed the limit
if (n > Max< T >())
{
ThrowMemExcept("Requested buffer of (%u) elements exceeds the (%u) limit", n, Max< T >());
}
// Is there an existing buffer?
else if (n && !m_Cap)
{
// Request the memory
Request(n * sizeof(T));
}
// Should the size be increased?
else if (n > m_Cap)
{
// Backup the current memory
Move();
// Request the memory
Request(n * sizeof(T));
}
// Return an empty buffer or the backup (if any)
return Buffer();
}
/* --------------------------------------------------------------------------------------------
* Release the managed memory.
*/
void Reset()
{
if (m_Ptr)
{
Release();
}
}
/* --------------------------------------------------------------------------------------------
* Swap the contents of two buffers.
*/
void Swap(Buffer & o)
{
Pointer p = m_Ptr;
SzType n = m_Cap;
m_Ptr = o.m_Ptr;
m_Cap = o.m_Cap;
o.m_Ptr = p;
o.m_Cap = n;
}
/* --------------------------------------------------------------------------------------------
* Write a portion of a buffet to the internal buffer.
*/
SzType Write(SzType pos, ConstPtr data, SzType size);
/* --------------------------------------------------------------------------------------------
* Write a formatted string to the internal buffer.
*/
SzType WriteF(SzType pos, const char * fmt, ...);
/* --------------------------------------------------------------------------------------------
* Write a formatted string to the internal buffer.
*/
SzType WriteF(SzType pos, const char * fmt, va_list args);
protected:
/* --------------------------------------------------------------------------------------------
* Request the memory specified in the capacity.
*/
void Request(SzType n);
/* --------------------------------------------------------------------------------------------
* Release the managed memory buffer.
*/
void Release();
/* --------------------------------------------------------------------------------------------
* Moves the internal buffer to the global members to be taken over by the next instance.
*/
void Move()
{
s_Ptr = m_Ptr;
s_Cap = m_Cap;
m_Ptr = NULL;
m_Cap = 0;
}
private:
// --------------------------------------------------------------------------------------------
Pointer m_Ptr; /* Pointer to the memory buffer. */
SzType m_Cap; /* The total size of the buffer. */
// --------------------------------------------------------------------------------------------
MemRef m_Mem;
// --------------------------------------------------------------------------------------------
static Pointer s_Ptr; /* Pointer to a moved memory buffer. */
static SzType s_Cap; /* The total size of the moved buffer. */
};
} // Namespace:: SqMod
#endif // _BASE_BUFFER_HPP_