Esempio n. 1
0
void WorldView::adjust_render_texture_to_pixel_box_ (Ogre::PixelBox &dst)
{
    size_t width (dst.getWidth()), height (dst.getHeight());

    if ((width != texture_-> getWidth()) || (height != texture_-> getHeight()))
        create_render_texture_ (width, height);
}
/**
 * @inheritDoc.
 */
void BrowserWindow::onPaint(Berkelium::Window *win, const unsigned char *sourceBuffer, const Berkelium::Rect &sourceBufferRect, size_t numCopyRects, const Berkelium::Rect *copyRects, int dx, int dy, const Berkelium::Rect &scrollRect) {
    const Ogre::HardwarePixelBufferSharedPtr textureBuffer = m_texture->getBuffer();
    const Ogre::PixelBox srcBox = Ogre::PixelBox(rectToBox(sourceBufferRect), Ogre::PF_BYTE_BGRA, const_cast<unsigned char*>(sourceBuffer));

    for(int i = 0; i < numCopyRects; i++) {
        const Ogre::Box destBox = rectToBox(copyRects[i]);
        textureBuffer->blitFromMemory(srcBox.getSubVolume(destBox), destBox);
    }
}
Esempio n. 3
0
void HTML::Paint(Ogre::HardwarePixelBufferSharedPtr pixelBuffer, const unsigned char*srcBuffer, const Berkelium::Rect& srcRect, size_t num_copy_rects, const Berkelium::Rect *copy_rects)
{
  /**/
  const Ogre::PixelBox srcBox = Ogre::PixelBox(ToBox(srcRect), Ogre::PF_BYTE_BGRA, const_cast<unsigned char*>(srcBuffer));

  for(unsigned int i = 0; i < num_copy_rects; i++)
  {
    const Ogre::Box destBox = ToBox(copy_rects[i]);
    pixelBuffer->blitFromMemory(srcBox.getSubVolume(destBox), destBox);
  }

}
Esempio n. 4
0
void WebView::setMask(std::string maskFileName, std::string groupName)
{
	if(usingMask)
	{
		if(maskTexUnit)
		{
			matPass->removeTextureUnitState(1);
			maskTexUnit = 0;
		}

		if(!TextureManager::getSingleton().getByName(viewName + "MaskTexture").isNull())
			TextureManager::getSingleton().remove(viewName + "MaskTexture");
	}

	if(alphaCache)
	{
		delete[] alphaCache;
		alphaCache = 0;
	}

	if(maskFileName == "")
	{
		usingMask = false;
		maskImageParameters.first = "";
		maskImageParameters.second = "";

		if(isWebViewTransparent)
		{
			setTransparent(true);
			update();
		}

		return;
	}

	maskImageParameters.first = maskFileName;
	maskImageParameters.second = groupName;

	if(!maskTexUnit)
	{
		maskTexUnit = matPass->createTextureUnitState();
		maskTexUnit->setIsAlpha(true);
		maskTexUnit->setTextureFiltering(FO_NONE, FO_NONE, FO_NONE);
		maskTexUnit->setColourOperationEx(LBX_SOURCE1, LBS_CURRENT, LBS_CURRENT);
		maskTexUnit->setAlphaOperation(LBX_MODULATE);
	}

	Image srcImage;
	srcImage.load(maskFileName, groupName);

	Ogre::PixelBox srcPixels = srcImage.getPixelBox();
	unsigned char* conversionBuf = 0;

	if(srcImage.getFormat() != Ogre::PF_BYTE_A)
	{
		size_t dstBpp = Ogre::PixelUtil::getNumElemBytes(Ogre::PF_BYTE_A);
		conversionBuf = new unsigned char[srcImage.getWidth() * srcImage.getHeight() * dstBpp];
		Ogre::PixelBox convPixels(Ogre::Box(0, 0, srcImage.getWidth(), srcImage.getHeight()), Ogre::PF_BYTE_A, conversionBuf);
		Ogre::PixelUtil::bulkPixelConversion(srcImage.getPixelBox(), convPixels);
		srcPixels = convPixels;
	}

	TexturePtr maskTexture = TextureManager::getSingleton().createManual(
		viewName + "MaskTexture", ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME,
		TEX_TYPE_2D, texWidth, texHeight, 0, PF_BYTE_A, TU_STATIC_WRITE_ONLY);

	HardwarePixelBufferSharedPtr pixelBuffer = maskTexture->getBuffer();
	pixelBuffer->lock(HardwareBuffer::HBL_DISCARD);
	const PixelBox& pixelBox = pixelBuffer->getCurrentLock();
	size_t maskTexDepth = Ogre::PixelUtil::getNumElemBytes(pixelBox.format);
	alphaCachePitch = pixelBox.rowPitch;

	alphaCache = new unsigned char[alphaCachePitch*texHeight];

	uint8* buffer = static_cast<uint8*>(pixelBox.data);

	memset(buffer, 0, alphaCachePitch * texHeight);

	size_t minRowSpan = std::min(alphaCachePitch, srcPixels.rowPitch);
	size_t minHeight = std::min(texHeight, (unsigned short)srcPixels.getHeight());

	if(maskTexDepth == 1)
	{
		for(unsigned int row = 0; row < minHeight; row++)
			memcpy(buffer + row * alphaCachePitch, (unsigned char*)srcPixels.data + row * srcPixels.rowPitch, minRowSpan);

		memcpy(alphaCache, buffer, alphaCachePitch*texHeight);
	}
	else if(maskTexDepth == 4)
	{
		size_t destRowOffset, srcRowOffset, cacheRowOffset;

		for(unsigned int row = 0; row < minHeight; row++)
		{
			destRowOffset = row * alphaCachePitch * maskTexDepth;
			srcRowOffset = row * srcPixels.rowPitch;
			cacheRowOffset = row * alphaCachePitch;

			for(unsigned int col = 0; col < minRowSpan; col++)
				alphaCache[cacheRowOffset + col] = buffer[destRowOffset + col * maskTexDepth + 3] = ((unsigned char*)srcPixels.data)[srcRowOffset + col];
		}
	}
	else
	{
		OGRE_EXCEPT(Ogre::Exception::ERR_RT_ASSERTION_FAILED,
			"Unexpected depth and format were encountered while creating a PF_BYTE_A HardwarePixelBuffer. Pixel format: " +
                    StringConverter::toString((uint32)pixelBox.format) + ", Depth:" + StringConverter::toString(maskTexDepth), "WebView::setMask");
	}

	pixelBuffer->unlock();

	if(conversionBuf)
		delete[] conversionBuf;

	maskTexUnit->setTextureName(viewName + "MaskTexture");
	usingMask = true;
}
Esempio n. 5
0
void
Terrain::_createAtlasPixmap(size_t pixmapId)
{
    const TerrainData::Pixmap& pixmap = mData->mPixmaps[pixmapId];
    size_t textureId = pixmap.textureId;
    assert(textureId < mData->mTextures.size());
    const Ogre::String& textureName = mData->mTextures[textureId];

    // If the atlas texture already exist, use it.

    AtlasArray::const_iterator it;
    for (it = mAtlases.begin(); it != mAtlases.end(); ++it)
    {
        if (it->texture->getName() == textureName)
            break;
    }
    if (it != mAtlases.end())
    {
        // Fill up atlas pixmap info
        size_t atlasId = it - mAtlases.begin() + 1;
        mAtlasPixmaps[pixmapId].atlasId = atlasId;
        mAtlasPixmaps[pixmapId].left = pixmap.left;
        mAtlasPixmaps[pixmapId].top = pixmap.top;
        mAtlasPixmaps[pixmapId].right = pixmap.right;
        mAtlasPixmaps[pixmapId].bottom = pixmap.bottom;
        return;
    }

    // If texture already loaded and is composited, use it without any modify.
    Ogre::TexturePtr texture = Ogre::TextureManager::getSingleton().getByName(textureName);
    if (!texture.isNull() &&
        (texture->getWidth() > mAtlasPixmapSize || texture->getHeight() > mAtlasPixmapSize))
    {
        mAtlases.push_back(Atlas());
        Atlas& atlas = mAtlases.back();

        atlas.texture = texture;

        // Fill up atlas pixmap info
        size_t atlasId = mAtlases.size();
        mAtlasPixmaps[pixmapId].atlasId = atlasId;
        mAtlasPixmaps[pixmapId].left = pixmap.left;
        mAtlasPixmaps[pixmapId].top = pixmap.top;
        mAtlasPixmaps[pixmapId].right = pixmap.right;
        mAtlasPixmaps[pixmapId].bottom = pixmap.bottom;
        return;
    }

    // Load the image
    Ogre::Image image;
    image.load(textureName, BRUSH_RESOURCE_GROUP_NAME);

    // If the image is composited, use it without any modify.
    if (image.getWidth() > mAtlasPixmapSize || image.getHeight() > mAtlasPixmapSize)
    {
        mAtlases.push_back(Atlas());
        Atlas& atlas = mAtlases.back();

        // re-use the loaded image avoid load it again
        atlas.texture =
            Ogre::TextureManager::getSingleton()
            .loadImage(textureName, BRUSH_RESOURCE_GROUP_NAME, image);

        // Fill up atlas pixmap info
        size_t atlasId = mAtlases.size();
        mAtlasPixmaps[pixmapId].atlasId = atlasId;
        mAtlasPixmaps[pixmapId].left = pixmap.left;
        mAtlasPixmaps[pixmapId].top = pixmap.top;
        mAtlasPixmaps[pixmapId].right = pixmap.right;
        mAtlasPixmaps[pixmapId].bottom = pixmap.bottom;
        return;
    }

    // Composite into the atlas texture.

    bool isTransparent = image.getHasAlpha();
    AtlasAllocInfo& allocInfo = isTransparent ? mTransparentAtlasAllocInfo : mSolidAtlasAllocInfo;
    if (allocInfo.blockId >= mMaxAtlasBlockId)
    {
        // Use special name to avoid confuse with other reference with this texture
       Ogre::String atlasName = "<Terrain/Atlas>:" + Ogre::StringConverter::toString(mAtlases.size());

        mAtlases.push_back(Atlas());
        Atlas& atlas = mAtlases.back();

        Ogre::PixelFormat pixelFormat = isTransparent ? Ogre::PF_A8R8G8B8 : Ogre::PF_X8R8G8B8;
        atlas.image.bind(new Ogre::Image);
        atlas.image->loadDynamicImage(0, mAtlasTextureSize, mAtlasTextureSize, 1, pixelFormat, true, 1, mAtlasNumMipMaps);
        memset(atlas.image->getData(), 0, atlas.image->getSize());

        atlas.texture =
            Ogre::TextureManager::getSingleton().createManual(atlasName,
                BRUSH_RESOURCE_GROUP_NAME, Ogre::TEX_TYPE_2D,
                atlas.image->getWidth(), atlas.image->getHeight(),
                mAtlasNumMipMaps, atlas.image->getFormat(),
                Ogre::TU_DYNAMIC_WRITE_ONLY_DISCARDABLE,
                this);

        allocInfo.atlasId = mAtlases.size();
        allocInfo.blockId = 0;
    }

    // Copy origin pixmap to atlas image
    Atlas& atlas = mAtlases[allocInfo.atlasId - 1];
    int blockX = allocInfo.blockId % mAtlasBlockSize;
    int blockY = allocInfo.blockId / mAtlasBlockSize;
    Ogre::PixelBox dst = atlas.image->getPixelBox().getSubVolume(Ogre::Box(
        blockX * mAtlasPixmapSize,
        blockY * mAtlasPixmapSize,
        blockX * mAtlasPixmapSize + mAtlasPixmapSize,
        blockY * mAtlasPixmapSize + mAtlasPixmapSize));
    Ogre::PixelBox src = image.getPixelBox().getSubVolume(Ogre::Box(
        fast_ifloor(pixmap.left * image.getWidth() + 0.5f),
        fast_ifloor(pixmap.top * image.getHeight() + 0.5f),
        fast_ifloor(pixmap.right * image.getWidth() + 0.5f),
        fast_ifloor(pixmap.bottom * image.getHeight() + 0.5f)));
    if (src.getWidth() == mAtlasPixmapSize && src.getHeight() == mAtlasPixmapSize)
        Ogre::PixelUtil::bulkPixelConversion(src, dst);
    else
        Ogre::Image::scale(src, dst);

    // Generate mipmaps manual
    for (size_t mipmap = 1; mipmap <= mAtlasNumMipMaps; ++mipmap)
    {
        src = dst;
        size_t pixmapSize = mAtlasPixmapSize >> mipmap;
        dst = atlas.image->getPixelBox(0, mipmap).getSubVolume(Ogre::Box(
            blockX * pixmapSize,
            blockY * pixmapSize,
            blockX * pixmapSize + pixmapSize,
            blockY * pixmapSize + pixmapSize));
        Ogre::Image::scale(src, dst);
    }

    // Notify that the atlas texture need to reload
    if (atlas.texture->isLoaded())
        atlas.texture->unload();

    ++allocInfo.blockId;

    // Fill up atlas pixmap info

    mAtlasPixmaps[pixmapId].atlasId = allocInfo.atlasId;
    mAtlasPixmaps[pixmapId].left = blockX * mAtlasBlockTexCoordInc + 0.5f / mAtlasTextureSize;
    mAtlasPixmaps[pixmapId].top = blockY * mAtlasBlockTexCoordInc + 0.5f / mAtlasTextureSize;
    mAtlasPixmaps[pixmapId].right = mAtlasPixmaps[pixmapId].left + mAtlasBlockTexCoordInc -  1.0f / mAtlasTextureSize;
    mAtlasPixmaps[pixmapId].bottom = mAtlasPixmaps[pixmapId].top + mAtlasBlockTexCoordInc -  1.0f / mAtlasTextureSize;
}
void GPUSurfFeatureDetector::update(Ogre::PixelBox& frame)
{
	mNbFeatureFound = 0;

	int width = frame.getWidth();
	int height = frame.getHeight();
	if (resize(frame.getWidth(), frame.getHeight()))
	{
		std::cout << "Warning resizing to " << width << "x" <<height << std::endl;
	}

	mWebcamTexture->getBuffer(0, 0)->blitFromMemory(frame);

	for (int i=0; i<mNbOctave; ++i)
	{
		mGPGPURoot->compute(mGrayResults[i], mGrayOperations[i]);
		mGPGPURoot->compute(mGxResults[i],   mGxOperations[i]);
		mGPGPURoot->compute(mGyResults[i],   mGyOperations[i]);
		mGPGPURoot->compute(mHResults[i],    mHOperations[i]);
		mNMSOperations[i]->setParameter("threshold", (float) mThreshold);
		mGPGPURoot->compute(mNMSResults[i],  mNMSOperations[i]);
	}
	/*
	for (int i=0; i<mNbOctave; ++i)
	{
		std::stringstream name;
		name << "gaussian_" << i<< ".png";
		mGrayResults[i]->save(name.str());
	}
	*/
	glFinish();

	mCudaRoot->synchronize();
	//std::cout << "0 Cuda Error : " << mCudaRoot->getLastError() <<std::endl;

	for (int i=0; i<mNbOctave; ++i)
	{
		mCudaNMSTexture->map();
		mCudaRoot->synchronize();

		//std::cout << "1 Cuda Error : " << mCudaRoot->getLastError() <<std::endl;
		
		Ogre::Cuda::TextureDeviceHandle textureHandle = mCudaNMSTexture->getDeviceHandle(0, i);
		mCudaRoot->synchronize();

		//std::cout << "2 Cuda Error : " << mCudaRoot->getLastError() <<std::endl;
		mCudaNMSTexture->updateReading(textureHandle);
		mCudaRoot->synchronize();

		//std::cout << "3 Cuda Error : " << mCudaRoot->getLastError() <<std::endl;
		mNbFeatureFound += extractFeatureLocationCuda(textureHandle.width, textureHandle.height, textureHandle.getPointer(), 		
			mDeviceScanPlan[i],
			i,
			mDeviceFeatureCounterPass1[i], 
			mDeviceFeatureCounterPass2[i], 
			mDeviceFeatureFound,
			mNbFeatureFound);

		mCudaRoot->synchronize();
		mCudaNMSTexture->unmap();

		//std::cout << "6 Cuda Error : " << mCudaRoot->getLastError() <<std::endl;

		//std::cout << "4 Cuda Error : " << mCudaRoot->getLastError() <<std::endl;
		mCudaRoot->synchronize();
		//std::cout << "5 Cuda Error : " << mCudaRoot->getLastError() <<std::endl;
	}	

	mCudaRoot->synchronize();
	if (mNbFeatureFound < mNbFeatureMax)
	{		
		cudaMemcpy(mHostFeatureFound, mDeviceFeatureFound, mNbFeatureFound*sizeof(Feature), cudaMemcpyDeviceToHost);
	}
	else
	{
		mNbFeatureFound = 0;
		//should launch again with a bigger feature buffer...
	}
}