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-----------------------------------------------------------------------------
This source file is part of OGRE
(Object-oriented Graphics Rendering Engine)
For the latest info, see http://www.ogre3d.org/
Copyright (c) 2000-2013 Torus Knot Software Ltd
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
-----------------------------------------------------------------------------
*/
#ifndef __HardwareBufferManager__
#define __HardwareBufferManager__
// Precompiler options
#include "OgrePrerequisites.h"
#include "OgreSingleton.h"
#include "OgreHardwareCounterBuffer.h"
#include "OgreHardwareIndexBuffer.h"
#include "OgreHardwareUniformBuffer.h"
#include "OgreHardwareVertexBuffer.h"
#include "OgreRenderToVertexBuffer.h"
#include "OgreHeaderPrefix.h"
namespace Ogre {
/** \addtogroup Core
* @{
*/
/** \addtogroup RenderSystem
* @{
*/
/** Abstract interface representing a 'licensee' of a hardware buffer copy.
@remarks
Often it's useful to have temporary buffers which are used for working
but are not necessarily needed permanently. However, creating and
destroying buffers is expensive, so we need a way to share these
working areas, especially those based on existing fixed buffers.
This class represents a licensee of one of those temporary buffers,
and must be implemented by any user of a temporary buffer if they
wish to be notified when the license is expired.
*/
class _OgreExport HardwareBufferLicensee
{
public:
virtual ~HardwareBufferLicensee() { }
/** This method is called when the buffer license is expired and is about
to be returned to the shared pool.
*/
virtual void licenseExpired(HardwareBuffer* buffer) = 0;
};
/** Structure for recording the use of temporary blend buffers. */
class _OgreExport TempBlendedBufferInfo : public HardwareBufferLicensee, public BufferAlloc
{
private:
// Pre-blended
HardwareVertexBufferSharedPtr srcPositionBuffer;
HardwareVertexBufferSharedPtr srcNormalBuffer;
// Post-blended
HardwareVertexBufferSharedPtr destPositionBuffer;
HardwareVertexBufferSharedPtr destNormalBuffer;
/// Both positions and normals are contained in the same buffer.
bool posNormalShareBuffer;
unsigned short posBindIndex;
unsigned short normBindIndex;
bool bindPositions;
bool bindNormals;
public:
~TempBlendedBufferInfo(void);
/// Utility method, extract info from the given VertexData.
void extractFrom(const VertexData* sourceData);
/// Utility method, checks out temporary copies of src into dest.
void checkoutTempCopies(bool positions = true, bool normals = true);
/// Utility method, binds dest copies into a given VertexData struct.
void bindTempCopies(VertexData* targetData, bool suppressHardwareUpload);
/** Overridden member from HardwareBufferLicensee. */
void licenseExpired(HardwareBuffer* buffer);
/** Detect currently have buffer copies checked out and touch it. */
bool buffersCheckedOut(bool positions = true, bool normals = true) const;
};
/** Base definition of a hardware buffer manager.
@remarks
This class is deliberately not a Singleton, so that multiple types can
exist at once. The Singleton is wrapped via the Decorator pattern
in HardwareBufferManager, below. Each concrete implementation should
provide a subclass of HardwareBufferManagerBase, which does the actual
work, and also a very simple subclass of HardwareBufferManager which
simply constructs the instance of the HardwareBufferManagerBase subclass
and passes it to the HardwareBufferManager superclass as a delegate.
This subclass must also delete the implementation instance it creates.
*/
class _OgreExport HardwareBufferManagerBase : public BufferAlloc
{
friend class HardwareVertexBufferSharedPtr;
friend class HardwareIndexBufferSharedPtr;
protected:
/** WARNING: The following two members should place before all other members.
Members destruct order is very important here, because destructing other
members will cause notify back to this class, and then will access to this
two members.
*/
typedef set<HardwareVertexBuffer*>::type VertexBufferList;
typedef set<HardwareIndexBuffer*>::type IndexBufferList;
typedef set<HardwareUniformBuffer*>::type UniformBufferList;
typedef set<HardwareCounterBuffer*>::type CounterBufferList;
VertexBufferList mVertexBuffers;
IndexBufferList mIndexBuffers;
UniformBufferList mUniformBuffers;
CounterBufferList mCounterBuffers;
typedef set<VertexDeclaration*>::type VertexDeclarationList;
typedef set<VertexBufferBinding*>::type VertexBufferBindingList;
VertexDeclarationList mVertexDeclarations;
VertexBufferBindingList mVertexBufferBindings;
// Mutexes
OGRE_MUTEX(mVertexBuffersMutex);
OGRE_MUTEX(mIndexBuffersMutex);
OGRE_MUTEX(mUniformBuffersMutex);
OGRE_MUTEX(mCounterBuffersMutex);
OGRE_MUTEX(mVertexDeclarationsMutex);
OGRE_MUTEX(mVertexBufferBindingsMutex);
/// Internal method for destroys all vertex declarations.
virtual void destroyAllDeclarations(void);
/// Internal method for destroys all vertex buffer bindings.
virtual void destroyAllBindings(void);
/// Internal method for creates a new vertex declaration, may be overridden by certain rendering APIs.
virtual VertexDeclaration* createVertexDeclarationImpl(void);
/// Internal method for destroys a vertex declaration, may be overridden by certain rendering APIs.
virtual void destroyVertexDeclarationImpl(VertexDeclaration* decl);
/// Internal method for creates a new VertexBufferBinding, may be overridden by certain rendering APIs.
virtual VertexBufferBinding* createVertexBufferBindingImpl(void);
/// Internal method for destroys a VertexBufferBinding, may be overridden by certain rendering APIs.
virtual void destroyVertexBufferBindingImpl(VertexBufferBinding* binding);
public:
enum BufferLicenseType
{
/// Licensee will only release buffer when it says so.
BLT_MANUAL_RELEASE,
/// Licensee can have license revoked.
BLT_AUTOMATIC_RELEASE
};
protected:
/** Struct holding details of a license to use a temporary shared buffer. */
class _OgrePrivate VertexBufferLicense
{
public:
HardwareVertexBuffer* originalBufferPtr;
BufferLicenseType licenseType;
size_t expiredDelay;
HardwareVertexBufferSharedPtr buffer;
HardwareBufferLicensee* licensee;
VertexBufferLicense(
HardwareVertexBuffer* orig,
BufferLicenseType ltype,
size_t delay,
HardwareVertexBufferSharedPtr buf,
HardwareBufferLicensee* lic)
: originalBufferPtr(orig)
, licenseType(ltype)
, expiredDelay(delay)
, buffer(buf)
, licensee(lic)
{}
};
/// Map from original buffer to temporary buffers.
typedef multimap<HardwareVertexBuffer*, HardwareVertexBufferSharedPtr>::type FreeTemporaryVertexBufferMap;
/// Map of current available temp buffers.
FreeTemporaryVertexBufferMap mFreeTempVertexBufferMap;
/// Map from temporary buffer to details of a license.
typedef map<HardwareVertexBuffer*, VertexBufferLicense>::type TemporaryVertexBufferLicenseMap;
/// Map of currently licensed temporary buffers.
TemporaryVertexBufferLicenseMap mTempVertexBufferLicenses;
/// Number of frames elapsed since temporary buffers utilization was above half the available.
size_t mUnderUsedFrameCount;
/// Number of frames to wait before free unused temporary buffers.
static const size_t UNDER_USED_FRAME_THRESHOLD;
/// Frame delay for BLT_AUTOMATIC_RELEASE temporary buffers.
static const size_t EXPIRED_DELAY_FRAME_THRESHOLD;
// Mutexes
OGRE_MUTEX(mTempBuffersMutex);
/// Creates a new buffer as a copy of the source, does not copy data.
virtual HardwareVertexBufferSharedPtr makeBufferCopy(
const HardwareVertexBufferSharedPtr& source,
HardwareBuffer::Usage usage, bool useShadowBuffer);
public:
HardwareBufferManagerBase();
virtual ~HardwareBufferManagerBase();
/** Create a hardware vertex buffer.
@remarks
This method creates a new vertex buffer; this will act as a source of geometry
data for rendering objects. Note that because the meaning of the contents of
the vertex buffer depends on the usage, this method does not specify a
vertex format; the user of this buffer can actually insert whatever data
they wish, in any format. However, in order to use this with a RenderOperation,
the data in this vertex buffer will have to be associated with a semantic element
of the rendering pipeline, e.g. a position, or texture coordinates. This is done
using the VertexDeclaration class, which itself contains VertexElement structures
referring to the source data.
@remarks Note that because vertex buffers can be shared, they are reference
counted so you do not need to worry about destroying themm this will be done
automatically.
@param vertexSize
The size in bytes of each vertex in this buffer; you must calculate
this based on the kind of data you expect to populate this buffer with.
@param numVerts
The number of vertices in this buffer.
@param usage
One or more members of the HardwareBuffer::Usage enumeration; you are
strongly advised to use HBU_STATIC_WRITE_ONLY wherever possible, if you need to
update regularly, consider HBU_DYNAMIC_WRITE_ONLY and useShadowBuffer=true.
@param useShadowBuffer
If set to @c true, this buffer will be 'shadowed' by one stored in
system memory rather than GPU or AGP memory. You should set this flag if you intend
to read data back from the vertex buffer, because reading data from a buffer
in the GPU or AGP memory is very expensive, and is in fact impossible if you
specify HBU_WRITE_ONLY for the main buffer. If you use this option, all
reads and writes will be done to the shadow buffer, and the shadow buffer will
be synchronised with the real buffer at an appropriate time.
*/
virtual HardwareVertexBufferSharedPtr
createVertexBuffer(size_t vertexSize, size_t numVerts, HardwareBuffer::Usage usage,
bool useShadowBuffer = false) = 0;
/** Create a hardware index buffer.
@remarks Note that because buffers can be shared, they are reference
counted so you do not need to worry about destroying them this will be done
automatically.
@param itype
The type in index, either 16- or 32-bit, depending on how many vertices
you need to be able to address
@param numIndexes
The number of indexes in the buffer
@param usage
One or more members of the HardwareBuffer::Usage enumeration.
@param useShadowBuffer
If set to @c true, this buffer will be 'shadowed' by one stored in
system memory rather than GPU or AGP memory. You should set this flag if you intend
to read data back from the index buffer, because reading data from a buffer
in the GPU or AGP memory is very expensive, and is in fact impossible if you
specify HBU_WRITE_ONLY for the main buffer. If you use this option, all
reads and writes will be done to the shadow buffer, and the shadow buffer will
be synchronised with the real buffer at an appropriate time.
*/
virtual HardwareIndexBufferSharedPtr
createIndexBuffer(HardwareIndexBuffer::IndexType itype, size_t numIndexes,
HardwareBuffer::Usage usage, bool useShadowBuffer = false) = 0;
/** Create a render to vertex buffer.
@remarks The parameters (such as vertex size etc) are determined later
and are allocated when needed.
*/
virtual RenderToVertexBufferSharedPtr createRenderToVertexBuffer() = 0;
/**
* Create uniform buffer. This type of buffer allows the upload of shader constants once,
* and sharing between shader stages or even shaders from another materials.
* The update shall be triggered by GpuProgramParameters, if is dirty
*/
virtual HardwareUniformBufferSharedPtr createUniformBuffer(size_t sizeBytes,
HardwareBuffer::Usage usage = HardwareBuffer::HBU_DYNAMIC_WRITE_ONLY_DISCARDABLE,
bool useShadowBuffer = false, const String& name = "") = 0;
/**
* Create counter buffer.
* The update shall be triggered by GpuProgramParameters, if is dirty
*/
virtual HardwareCounterBufferSharedPtr createCounterBuffer(size_t sizeBytes,
HardwareBuffer::Usage usage = HardwareBuffer::HBU_DYNAMIC_WRITE_ONLY_DISCARDABLE,
bool useShadowBuffer = false, const String& name = "") = 0;
/** Creates a new vertex declaration. */
virtual VertexDeclaration* createVertexDeclaration(void);
/** Destroys a vertex declaration. */
virtual void destroyVertexDeclaration(VertexDeclaration* decl);
/** Creates a new VertexBufferBinding. */
virtual VertexBufferBinding* createVertexBufferBinding(void);
/** Destroys a VertexBufferBinding. */
virtual void destroyVertexBufferBinding(VertexBufferBinding* binding);
/** Registers a vertex buffer as a copy of another.
@remarks
This is useful for registering an existing buffer as a temporary buffer
which can be allocated just like a copy.
*/
virtual void registerVertexBufferSourceAndCopy(
const HardwareVertexBufferSharedPtr& sourceBuffer,
const HardwareVertexBufferSharedPtr& copy);
/** Allocates a copy of a given vertex buffer.
@remarks
This method allocates a temporary copy of an existing vertex buffer.
This buffer is subsequently stored and can be made available for
other purposes later without incurring the cost of construction /
destruction.
@param sourceBuffer
The source buffer to use as a copy.
@param licenseType
The type of license required on this buffer - automatic
release causes this class to release licenses every frame so that
they can be reallocated anew.
@param licensee
Pointer back to the class requesting the copy, which must
implement HardwareBufferLicense in order to be notified when the license
expires.
@param copyData
If @c true, the current data is copied as well as the
structure of the buffer/
*/
virtual HardwareVertexBufferSharedPtr allocateVertexBufferCopy(
const HardwareVertexBufferSharedPtr& sourceBuffer,
BufferLicenseType licenseType,
HardwareBufferLicensee* licensee,
bool copyData = false);
/** Manually release a vertex buffer copy for others to subsequently use.
@remarks
Only required if the original call to allocateVertexBufferCopy
included a licenseType of BLT_MANUAL_RELEASE.
@param bufferCopy
The buffer copy. The caller is expected to delete
or at least no longer use this reference, since another user may
well begin to modify the contents of the buffer.
*/
virtual void releaseVertexBufferCopy(
const HardwareVertexBufferSharedPtr& bufferCopy);
/** Tell engine that the vertex buffer copy intent to reuse.
@remarks
Ogre internal keep an expired delay counter of BLT_AUTOMATIC_RELEASE
buffers, when the counter count down to zero, it'll release for other
purposes later. But you can use this function to reset the counter to
the internal configured value, keep the buffer not get released for
some frames.
@param bufferCopy
The buffer copy. The caller is expected to keep this
buffer copy for use.
*/
virtual void touchVertexBufferCopy(const HardwareVertexBufferSharedPtr& bufferCopy);
/** Free all unused vertex buffer copies.
@remarks
This method free all temporary vertex buffers that not in used.
In normally, temporary vertex buffers are subsequently stored and can
be made available for other purposes later without incurring the cost
of construction / destruction. But in some cases you want to free them
to save hardware memory (e.g. application was runs in a long time, you
might free temporary buffers periodically to avoid memory overload).
*/
virtual void _freeUnusedBufferCopies(void);
/** Internal method for releasing all temporary buffers which have been
allocated using BLT_AUTOMATIC_RELEASE; is called by OGRE.
@param forceFreeUnused
If @c true, free all unused temporary buffers.
If @c false, auto detect and free all unused temporary buffers based on
temporary buffers utilization.
*/
virtual void _releaseBufferCopies(bool forceFreeUnused = false);
/** Internal method that forces the release of copies of a given buffer.
@remarks
This usually means that the buffer which the copies are based on has
been changed in some fundamental way, and the owner of the original
wishes to make that known so that new copies will reflect the
changes.
@param sourceBuffer
The source buffer as a shared pointer. Any buffer copies created
from the source buffer are deleted.
*/
virtual void _forceReleaseBufferCopies(const HardwareVertexBufferSharedPtr& sourceBuffer);
/** Internal method that forces the release of copies of a given buffer.
@remarks
This usually means that the buffer which the copies are based on has
been changed in some fundamental way, and the owner of the original
wishes to make that known so that new copies will reflect the
changes.
@param sourceBuffer
The source buffer as a pointer. Any buffer copies created from
the source buffer are deleted.
*/
virtual void _forceReleaseBufferCopies(HardwareVertexBuffer* sourceBuffer);
/// Notification that a hardware vertex buffer has been destroyed.
void _notifyVertexBufferDestroyed(HardwareVertexBuffer* buf);
/// Notification that a hardware index buffer has been destroyed.
void _notifyIndexBufferDestroyed(HardwareIndexBuffer* buf);
/// Notification that at hardware uniform buffer has been destroyed
void _notifyUniformBufferDestroyed(HardwareUniformBuffer* buf);
/// Notification that at hardware counter buffer has been destroyed
void _notifyCounterBufferDestroyed(HardwareCounterBuffer* buf);
};
/** Singleton wrapper for hardware buffer manager. */
class _OgreExport HardwareBufferManager : public HardwareBufferManagerBase, public Singleton<HardwareBufferManager>
{
friend class HardwareVertexBufferSharedPtr;
friend class HardwareIndexBufferSharedPtr;
protected:
HardwareBufferManagerBase* mImpl;
public:
HardwareBufferManager(HardwareBufferManagerBase* imp);
~HardwareBufferManager();
/** @copydoc HardwareBufferManagerBase::createVertexBuffer */
HardwareVertexBufferSharedPtr
createVertexBuffer(size_t vertexSize, size_t numVerts, HardwareBuffer::Usage usage,
bool useShadowBuffer = false)
{
return mImpl->createVertexBuffer(vertexSize, numVerts, usage, useShadowBuffer);
}
/** @copydoc HardwareBufferManagerBase::createIndexBuffer */
HardwareIndexBufferSharedPtr
createIndexBuffer(HardwareIndexBuffer::IndexType itype, size_t numIndexes,
HardwareBuffer::Usage usage, bool useShadowBuffer = false)
{
return mImpl->createIndexBuffer(itype, numIndexes, usage, useShadowBuffer);
}
/** @copydoc HardwareBufferManagerBase::createRenderToVertexBuffer */
RenderToVertexBufferSharedPtr createRenderToVertexBuffer()
{
return mImpl->createRenderToVertexBuffer();
}
/** @copydoc HardwareBufferManagerBase::createUniformBuffer */
HardwareUniformBufferSharedPtr
createUniformBuffer(size_t sizeBytes, HardwareBuffer::Usage usage, bool useShadowBuffer, const String& name = "")
{
return mImpl->createUniformBuffer(sizeBytes, usage, useShadowBuffer, name);
}
/** @copydoc HardwareBufferManagerBase::createCounterBuffer */
HardwareCounterBufferSharedPtr
createCounterBuffer(size_t sizeBytes, HardwareBuffer::Usage usage, bool useShadowBuffer, const String& name = "")
{
return mImpl->createCounterBuffer(sizeBytes, usage, useShadowBuffer, name);
}
/** @copydoc HardwareBufferManagerInterface::createVertexDeclaration */
virtual VertexDeclaration* createVertexDeclaration(void)
{
return mImpl->createVertexDeclaration();
}
/** @copydoc HardwareBufferManagerBase::destroyVertexDeclaration */
virtual void destroyVertexDeclaration(VertexDeclaration* decl)
{
mImpl->destroyVertexDeclaration(decl);
}
/** @copydoc HardwareBufferManagerBase::createVertexBufferBinding */
virtual VertexBufferBinding* createVertexBufferBinding(void)
{
return mImpl->createVertexBufferBinding();
}
/** @copydoc HardwareBufferManagerBase::destroyVertexBufferBinding */
virtual void destroyVertexBufferBinding(VertexBufferBinding* binding)
{
mImpl->destroyVertexBufferBinding(binding);
}
/** @copydoc HardwareBufferManagerBase::registerVertexBufferSourceAndCopy */
virtual void registerVertexBufferSourceAndCopy(
const HardwareVertexBufferSharedPtr& sourceBuffer,
const HardwareVertexBufferSharedPtr& copy)
{
mImpl->registerVertexBufferSourceAndCopy(sourceBuffer, copy);
}
/** @copydoc HardwareBufferManagerBase::allocateVertexBufferCopy */
virtual HardwareVertexBufferSharedPtr allocateVertexBufferCopy(
const HardwareVertexBufferSharedPtr& sourceBuffer,
BufferLicenseType licenseType,
HardwareBufferLicensee* licensee,
bool copyData = false)
{
return mImpl->allocateVertexBufferCopy(sourceBuffer, licenseType, licensee, copyData);
}
/** @copydoc HardwareBufferManagerBase::releaseVertexBufferCopy */
virtual void releaseVertexBufferCopy(
const HardwareVertexBufferSharedPtr& bufferCopy)
{
mImpl->releaseVertexBufferCopy(bufferCopy);
}
/** @copydoc HardwareBufferManagerBase::touchVertexBufferCopy */
virtual void touchVertexBufferCopy(
const HardwareVertexBufferSharedPtr& bufferCopy)
{
mImpl->touchVertexBufferCopy(bufferCopy);
}
/** @copydoc HardwareBufferManagerBase::_freeUnusedBufferCopies */
virtual void _freeUnusedBufferCopies(void)
{
mImpl->_freeUnusedBufferCopies();
}
/** @copydoc HardwareBufferManagerBase::_releaseBufferCopies */
virtual void _releaseBufferCopies(bool forceFreeUnused = false)
{
mImpl->_releaseBufferCopies(forceFreeUnused);
}
/** @copydoc HardwareBufferManagerBase::_forceReleaseBufferCopies */
virtual void _forceReleaseBufferCopies(
const HardwareVertexBufferSharedPtr& sourceBuffer)
{
mImpl->_forceReleaseBufferCopies(sourceBuffer);
}
/** @copydoc HardwareBufferManagerBase::_forceReleaseBufferCopies */
virtual void _forceReleaseBufferCopies(HardwareVertexBuffer* sourceBuffer)
{
mImpl->_forceReleaseBufferCopies(sourceBuffer);
}
/** @copydoc HardwareBufferManagerBase::_notifyVertexBufferDestroyed */
void _notifyVertexBufferDestroyed(HardwareVertexBuffer* buf)
{
mImpl->_notifyVertexBufferDestroyed(buf);
}
/** @copydoc HardwareBufferManagerBase::_notifyIndexBufferDestroyed */
void _notifyIndexBufferDestroyed(HardwareIndexBuffer* buf)
{
mImpl->_notifyIndexBufferDestroyed(buf);
}
/** @copydoc HardwareBufferManagerInterface::_notifyUniformBufferDestroyed */
void _notifyUniformBufferDestroyed(HardwareUniformBuffer* buf)
{
mImpl->_notifyUniformBufferDestroyed(buf);
}
/** @copydoc HardwareBufferManagerInterface::_notifyCounterBufferDestroyed */
void _notifyConterBufferDestroyed(HardwareCounterBuffer* buf)
{
mImpl->_notifyCounterBufferDestroyed(buf);
}
/** Override standard Singleton retrieval.
@remarks
Why do we do this? Well, it's because the Singleton
implementation is in a .h file, which means it gets compiled
into anybody who includes it. This is needed for the
Singleton template to work, but we actually only want it
compiled into the implementation of the class based on the
Singleton, not all of them. If we don't change this, we get
link errors when trying to use the Singleton-based class from
an outside dll.
@par
This method just delegates to the template version anyway,
but the implementation stays in this single compilation unit,
preventing link errors.
*/
static HardwareBufferManager& getSingleton(void);
/** Override standard Singleton retrieval.
@remarks
Why do we do this? Well, it's because the Singleton
implementation is in a .h file, which means it gets compiled
into anybody who includes it. This is needed for the
Singleton template to work, but we actually only want it
compiled into the implementation of the class based on the
Singleton, not all of them. If we don't change this, we get
link errors when trying to use the Singleton-based class from
an outside dll.
@par
This method just delegates to the template version anyway,
but the implementation stays in this single compilation unit,
preventing link errors.
*/
static HardwareBufferManager* getSingletonPtr(void);
};
/** @} */
/** @} */
} // namespace Ogre
#include "OgreHeaderSuffix.h"
#endif // __HardwareBufferManager__
|