//-----------------------------------------------------------------------
    HardwareVertexBufferSharedPtr 
    HardwareBufferManagerBase::allocateVertexBufferCopy(
        const HardwareVertexBufferSharedPtr& sourceBuffer, 
        BufferLicenseType licenseType, HardwareBufferLicensee* licensee,
        bool copyData)
    {
		// pre-lock the mVertexBuffers mutex, which would usually get locked in
		//  makeBufferCopy / createVertexBuffer
		// this prevents a deadlock in _notifyVertexBufferDestroyed
		// which locks the same mutexes (via other methods) but in reverse order
        OGRE_LOCK_MUTEX(mVertexBuffersMutex);
		{
                    OGRE_LOCK_MUTEX(mTempBuffersMutex);
			HardwareVertexBufferSharedPtr vbuf;

			// Locate existing buffer copy in temporary vertex buffers
			FreeTemporaryVertexBufferMap::iterator i = 
				mFreeTempVertexBufferMap.find(sourceBuffer.get());
			if (i == mFreeTempVertexBufferMap.end())
			{
				// copy buffer, use shadow buffer and make dynamic
				vbuf = makeBufferCopy(
					sourceBuffer, 
					HardwareBuffer::HBU_DYNAMIC_WRITE_ONLY_DISCARDABLE, 
					true);
			}
			else
			{
				// Allocate existing copy
				vbuf = i->second;
				mFreeTempVertexBufferMap.erase(i);
			}

			// Copy data?
			if (copyData)
			{
				vbuf->copyData(*(sourceBuffer.get()), 0, 0, sourceBuffer->getSizeInBytes(), true);
			}

			// Insert copy into licensee list
			mTempVertexBufferLicenses.insert(
				TemporaryVertexBufferLicenseMap::value_type(
					vbuf.get(),
					VertexBufferLicense(sourceBuffer.get(), licenseType, EXPIRED_DELAY_FRAME_THRESHOLD, vbuf, licensee)));
			return vbuf;
		}

    }
	//-----------------------------------------------------------------------
    void HardwareBufferManagerBase::registerVertexBufferSourceAndCopy(
			const HardwareVertexBufferSharedPtr& sourceBuffer,
			const HardwareVertexBufferSharedPtr& copy)
	{
		OGRE_LOCK_MUTEX(mTempBuffersMutex)
		// Add copy to free temporary vertex buffers
        mFreeTempVertexBufferMap.insert(
            FreeTemporaryVertexBufferMap::value_type(sourceBuffer.get(), copy));
	}
	void HardwareBufferManagerBase::touchVertexBufferCopy(const HardwareVertexBufferSharedPtr& bufferCopy)
	{
		TemporayVertexBufferLicenseMap::iterator i = mTempVertexBufferLicenses.find(bufferCopy.get());
		if (i != mTempVertexBufferLicenses.end())
		{
			VertexBufferLicense& vbl = i->second;
			assert(vbl.licenseType == BLT_AUTOMATIC_RELEASE);
			vbl.expiredDelay = EXPIRED_DELAY_FRAME_THRESHOLD;
		}
	}
	void HardwareBufferManagerBase::releaseVertexBufferCopy(const HardwareVertexBufferSharedPtr& bufferCopy)
	{
		TemporayVertexBufferLicenseMap::iterator i = mTempVertexBufferLicenses.find(bufferCopy.get());
		if (i != mTempVertexBufferLicenses.end())
		{
			const VertexBufferLicense& vbl = i->second;
			vbl.licensee->licenseExpired(vbl.buffer.get());
			mFreeTempVertexBufferMap.insert(
				FreeTemporaryVertexBufferMap::value_type(vbl.originalBufferPtr, vbl.buffer));
			mTempVertexBufferLicenses.erase(i);

		}
	}
	//---------------------------------------------------------------------
	void TangentSpaceCalc::extendBuffers(VertexSplits& vertexSplits)
	{
		if (!vertexSplits.empty())
		{
			// ok, need to increase the vertex buffer size, and alter some indexes

			// vertex buffers first
			VertexBufferBinding* newBindings = HardwareBufferManager::getSingleton().createVertexBufferBinding();
			const VertexBufferBinding::VertexBufferBindingMap& bindmap = 
				mVData->vertexBufferBinding->getBindings();
			for (VertexBufferBinding::VertexBufferBindingMap::const_iterator i = 
				bindmap.begin(); i != bindmap.end(); ++i)
			{
				HardwareVertexBufferSharedPtr srcbuf = i->second;
				// Derive vertex count from buffer not vertex data, in case using
				// the vertexStart option in vertex data
				size_t newVertexCount = srcbuf->getNumVertices() + vertexSplits.size();
				// Create new buffer & bind
				HardwareVertexBufferSharedPtr newBuf = 
					HardwareBufferManager::getSingleton().createVertexBuffer(
					srcbuf->getVertexSize(), newVertexCount, srcbuf->getUsage(), 
					srcbuf->hasShadowBuffer());
				newBindings->setBinding(i->first, newBuf);

				// Copy existing contents (again, entire buffer, not just elements referenced)
				newBuf->copyData(*(srcbuf.get()), 0, 0, srcbuf->getNumVertices() * srcbuf->getVertexSize(), true);

				// Split vertices, read / write from new buffer
				char* pBase = static_cast<char*>(newBuf->lock(HardwareBuffer::HBL_NORMAL));
				for (VertexSplits::iterator spliti = vertexSplits.begin(); 
					spliti != vertexSplits.end(); ++spliti)
				{
					const char* pSrcBase = pBase + spliti->first * newBuf->getVertexSize();
					char* pDstBase = pBase + spliti->second * newBuf->getVertexSize();
					memcpy(pDstBase, pSrcBase, newBuf->getVertexSize());
				}
				newBuf->unlock();

			}

			// Update vertex data
			// Increase vertex count according to num splits
			mVData->vertexCount += vertexSplits.size();
			// Flip bindings over to new buffers (old buffers released)
			HardwareBufferManager::getSingleton().destroyVertexBufferBinding(mVData->vertexBufferBinding);
			mVData->vertexBufferBinding = newBindings;
			
		}

	}
	HardwareVertexBufferSharedPtr HardwareBufferManagerBase::allocateVertexBufferCopy(const HardwareVertexBufferSharedPtr& sourceBuffer, BufferLicenseType licenseType, HardwareBufferLicensee* licensee, BOOL copyData /* = FALSE */)
	{
		HardwareVertexBufferSharedPtr vbuf;
		FreeTemporaryVertexBufferMap::iterator i = mFreeTempVertexBufferMap.find(sourceBuffer.get());
		if (i == mFreeTempVertexBufferMap.end())
		{
			vbuf = makeBufferCopy(sourceBuffer, HardwareBuffer::HBU_DYNAMIC_WRITE_ONLY_DISCARDABLE,
				TRUE);
		}
		else
		{
			vbuf = i->second;
			mFreeTempVertexBufferMap.erase(i);
		}
		if (copyData)
		{
			vbuf->copyData(*(sourceBuffer.get()), 0, 0, sourceBuffer->getSizeInBytes(), TRUE);
		}
		mTempVertexBufferLicenses.insert(
			TemporayVertexBufferLicenseMap::value_type(
			vbuf.get(),
			VertexBufferLicense(sourceBuffer.get(), licenseType, EXPIRED_DELAY_FRAME_THRESHOLD, vbuf, licensee)));
		return vbuf;
	}
Example #7
0
	//---------------------------------------------------------------------
	void Animation::apply(Entity* entity, Real timePos, Real weight, 
		bool software, bool hardware)
	{
        // Calculate time index for fast keyframe search
        TimeIndex timeIndex = _getTimeIndex(timePos);

		VertexTrackList::iterator i;
		for (i = mVertexTrackList.begin(); i != mVertexTrackList.end(); ++i)
		{
			unsigned short handle = i->first;
			VertexAnimationTrack* track = i->second;

			VertexData* swVertexData;
			VertexData* hwVertexData;
			VertexData* origVertexData;
			bool firstAnim = false;
			if (handle == 0)
			{
				// shared vertex data
				firstAnim = !entity->_getBuffersMarkedForAnimation();
				swVertexData = entity->_getSoftwareVertexAnimVertexData();
				hwVertexData = entity->_getHardwareVertexAnimVertexData();
				origVertexData = entity->getMesh()->sharedVertexData;
				entity->_markBuffersUsedForAnimation();
			}
			else
			{
				// sub entity vertex data (-1)
				SubEntity* s = entity->getSubEntity(handle - 1);
				// Skip this track if subentity is not visible
				if (!s->isVisible())
					continue;
				firstAnim = !s->_getBuffersMarkedForAnimation();
				swVertexData = s->_getSoftwareVertexAnimVertexData();
				hwVertexData = s->_getHardwareVertexAnimVertexData();
				origVertexData = s->getSubMesh()->vertexData;
				s->_markBuffersUsedForAnimation();
			}
			// Apply to both hardware and software, if requested
			if (software)
			{
				if (firstAnim && track->getAnimationType() == VAT_POSE)
				{
					// First time through for a piece of pose animated vertex data
					// We need to copy the original position values to the temp accumulator
					const VertexElement* origelem = 
						origVertexData->vertexDeclaration->findElementBySemantic(VES_POSITION);
					const VertexElement* destelem = 
						swVertexData->vertexDeclaration->findElementBySemantic(VES_POSITION);
					HardwareVertexBufferSharedPtr origBuffer = 
						origVertexData->vertexBufferBinding->getBuffer(origelem->getSource());
					HardwareVertexBufferSharedPtr destBuffer = 
						swVertexData->vertexBufferBinding->getBuffer(destelem->getSource());
					destBuffer->copyData(*origBuffer.get(), 0, 0, destBuffer->getSizeInBytes(), true);
				}
				track->setTargetMode(VertexAnimationTrack::TM_SOFTWARE);
				track->applyToVertexData(swVertexData, timeIndex, weight, 
					&(entity->getMesh()->getPoseList()));
			}
			if (hardware)
			{
				track->setTargetMode(VertexAnimationTrack::TM_HARDWARE);
				track->applyToVertexData(hwVertexData, timeIndex, weight, 
					&(entity->getMesh()->getPoseList()));
			}
		}

	}
	//---------------------------------------------------------------------
	void TangentSpaceCalc::extendBuffers(VertexSplits& vertexSplits)
	{
		if (!vertexSplits.empty())
		{
			// ok, need to increase the vertex buffer size, and alter some indexes

			// vertex buffers first
			VertexBufferBinding* newBindings = HardwareBufferManager::getSingleton().createVertexBufferBinding();
			const VertexBufferBinding::VertexBufferBindingMap& bindmap = 
				mVData->vertexBufferBinding->getBindings();
			for (VertexBufferBinding::VertexBufferBindingMap::const_iterator i = 
				bindmap.begin(); i != bindmap.end(); ++i)
			{
				HardwareVertexBufferSharedPtr srcbuf = i->second;
				// Derive vertex count from buffer not vertex data, in case using
				// the vertexStart option in vertex data
				size_t newVertexCount = srcbuf->getNumVertices() + vertexSplits.size();
				// Create new buffer & bind
				HardwareVertexBufferSharedPtr newBuf = 
					HardwareBufferManager::getSingleton().createVertexBuffer(
					srcbuf->getVertexSize(), newVertexCount, srcbuf->getUsage(), 
					srcbuf->hasShadowBuffer());
				newBindings->setBinding(i->first, newBuf);

				// Copy existing contents (again, entire buffer, not just elements referenced)
				newBuf->copyData(*(srcbuf.get()), 0, 0, srcbuf->getNumVertices() * srcbuf->getVertexSize(), true);

				// Split vertices, read / write from new buffer
				char* pBase = static_cast<char*>(newBuf->lock(HardwareBuffer::HBL_NORMAL));
				for (VertexSplits::iterator spliti = vertexSplits.begin(); 
					spliti != vertexSplits.end(); ++spliti)
				{
					const char* pSrcBase = pBase + spliti->first * newBuf->getVertexSize();
					char* pDstBase = pBase + spliti->second * newBuf->getVertexSize();
					memcpy(pDstBase, pSrcBase, newBuf->getVertexSize());
				}
				newBuf->unlock();

			}

			// Update vertex data
			// Increase vertex count according to num splits
			mVData->vertexCount += vertexSplits.size();
			// Flip bindings over to new buffers (old buffers released)
			HardwareBufferManager::getSingleton().destroyVertexBufferBinding(mVData->vertexBufferBinding);
			mVData->vertexBufferBinding = newBindings;

			// If vertex size requires 32bit index buffer
			if (mVData->vertexCount > 65536)
			{
				for (size_t i = 0; i < mIDataList.size(); ++i)
				{
					// check index size
					IndexData* idata = mIDataList[i];
					HardwareIndexBufferSharedPtr srcbuf = idata->indexBuffer;
					if (srcbuf->getType() == HardwareIndexBuffer::IT_16BIT)
					{
						size_t indexCount = srcbuf->getNumIndexes();

						// convert index buffer to 32bit.
						HardwareIndexBufferSharedPtr newBuf =
							HardwareBufferManager::getSingleton().createIndexBuffer(
							HardwareIndexBuffer::IT_32BIT, indexCount,
							srcbuf->getUsage(), srcbuf->hasShadowBuffer());

						uint16* pSrcBase = static_cast<uint16*>(srcbuf->lock(HardwareBuffer::HBL_NORMAL));
						uint32* pBase = static_cast<uint32*>(newBuf->lock(HardwareBuffer::HBL_NORMAL));

						size_t j = 0;
						while (j < indexCount)
						{
							*pBase++ = *pSrcBase++;
							++j;
						}

						srcbuf->unlock();
						newBuf->unlock();

						// assign new index buffer.
						idata->indexBuffer = newBuf;
					}
				}
			}
		}

	}
 //-----------------------------------------------------------------------
 void HardwareBufferManagerBase::_forceReleaseBufferCopies(
     const HardwareVertexBufferSharedPtr& sourceBuffer)
 {
     _forceReleaseBufferCopies(sourceBuffer.get());
 }
	void HardwareBufferManagerBase::registerVertexBufferSourceAndCopy(const HardwareVertexBufferSharedPtr& sourceBuffer, const HardwareVertexBufferSharedPtr& copy)
	{
		mFreeTempVertexBufferMap.insert(FreeTemporaryVertexBufferMap::value_type(sourceBuffer.get(), copy));
	}