Exemplo n.º 1
0
int IGIPDraw::GetSecondParam (IGImageProcMessage& message, CxImage& image) const
{	
	IGIPDrawMessage *pIGThreadMessage = dynamic_cast <IGLibrary::IGIPDrawMessage *> (&message);
	if (!pIGThreadMessage)
		return false;
	RECT *prcSubLayer = (RECT*)IGIPFilter::GetSecondParam (message, image);
	if (!prcSubLayer)
		return false;
	int nLayerWidth = image.GetWorkingLayer()->GetWidth();
	int nLayerHeight = image.GetWorkingLayer()->GetHeight();
	RECT rcDraw = IGConvertible::FromListPtsToRECT (pIGThreadMessage->m_lPts, nLayerWidth, nLayerHeight);
	int nTop = rcDraw.top;
	rcDraw.top = nLayerHeight - 1 - rcDraw.bottom;	// convert to Cx Coords
	rcDraw.bottom = nLayerHeight - 1 - nTop;
	// enlarge the region with the brush size + 1 in every direction
	int nOffsetSize = (int)pIGThreadMessage->m_pBrush->GetSize() + 1;
	rcDraw.left = max (0, rcDraw.left - nOffsetSize);
	rcDraw.right = min (nLayerWidth - 1, rcDraw.right + nOffsetSize);
	rcDraw.top = max (0, rcDraw.top - nOffsetSize);
	rcDraw.bottom = min (nLayerHeight - 1, rcDraw.bottom + nOffsetSize);
	if ((prcSubLayer->bottom != -1) && (prcSubLayer->right != -1))
	{
		prcSubLayer->left = max (prcSubLayer->left, rcDraw.left);
		prcSubLayer->right = min (prcSubLayer->right, rcDraw.right);
		prcSubLayer->top = max (prcSubLayer->top, rcDraw.top);
		prcSubLayer->bottom = min (prcSubLayer->bottom, rcDraw.bottom);
	}
	else
	{
		*prcSubLayer = rcDraw;
	}
	return (int)prcSubLayer;
}
Exemplo n.º 2
0
int IGIPFilter::GetSecondParam (IGImageProcMessage& message, CxImage& image) const
{
	IGIPFilterMessage *pIGThreadMessage = dynamic_cast <IGLibrary::IGIPFilterMessage *> (&message);
	if (!pIGThreadMessage)
		return false;	
	ZeroMemory (&pIGThreadMessage->m_rcSubLayer, sizeof (RECT));
	if (image.GetWorkingLayer())
		image.GetWorkingLayer()->SelectionGetBox (pIGThreadMessage->m_rcSubLayer);
	if ((pIGThreadMessage->m_rcSubLayer.right == 0) || (pIGThreadMessage->m_rcSubLayer.bottom == 0))
	{
		pIGThreadMessage->m_rcSubLayer.right = -1;
		pIGThreadMessage->m_rcSubLayer.bottom = -1;
	}
	return (int)&pIGThreadMessage->m_rcSubLayer;
}
Exemplo n.º 3
0
bool IGIPIndex::OnImageProcessing (CxImage& image, IGImageProcMessage& message)
{
	IGIPIndexMessage *pIGThreadMessage = dynamic_cast <IGIPIndexMessage *> (&message);
	_ASSERTE (pIGThreadMessage && L"Wrong IGThread message, image processing aborted");
	if (!pIGThreadMessage || !m_pFrame)
		return false;
	IGLayer *pLayer = m_pFrame->GetLayer (m_pFrame->GetLayerPos (image.GetWorkingLayer()));
	if (!pLayer)
		return false;

	switch (pIGThreadMessage->m_eFilterType)
	{
	case IGIPINDEX_LPE:
		{
			int nNbMarkers = 0;
			if (pIGThreadMessage->m_pMarkerBackground && pIGThreadMessage->m_pMarkerObject) {
				IGMarker* tM [2];
				tM[0] = pIGThreadMessage->m_pMarkerBackground;
				tM[1] = pIGThreadMessage->m_pMarkerObject;
				nNbMarkers = 2;
				return pLayer->IndexLPE (tM, nNbMarkers);
			}
			else
				return pLayer->IndexLPE (NULL, nNbMarkers);
		}
	case IGIPINDEX_FACE:
		return pLayer->IndexFaces();
	case IGIPINDEX_IRIS:
		return pLayer->IndexIris();
	}

	return false;
}
Exemplo n.º 4
0
int IGIPFilter::GetFirstParam (IGImageProcMessage& message, CxImage& image) const
{
	IGIPFilterMessage *pIGThreadMessage = dynamic_cast <IGLibrary::IGIPFilterMessage *> (&message);
	if (!pIGThreadMessage)
		return false;
	return (int)image.GetLayerPos (image.GetWorkingLayer());
}
Exemplo n.º 5
0
bool IGIPFilter::OnImageProcessing (CxImage& image, IGImageProcMessage& message)
{
	IGIPFilterMessage *pIGThreadMessage = dynamic_cast <IGIPFilterMessage *> (&message);
	_ASSERTE (pIGThreadMessage && L"Wrong IGThread message, image processing aborted");
	if (!pIGThreadMessage || !m_pFrame)
		return false;
	IGLayer *pLayer = m_pFrame->GetLayer (m_pFrame->GetLayerPos (image.GetWorkingLayer()));
	if (!pLayer)
		return false;

	switch (pIGThreadMessage->m_eFilterType)
	{
	case IGIPFILTER_BLUR:
		return pLayer->GaussianBlur (5.0f);
	case IGIPFILTER_GRADIENT:
		{
			long tKernel [9];
			pLayer->GrayScale();
			CxImage g1(*pLayer), g2(*pLayer), g3(*pLayer), g4(*pLayer);
			tKernel[0] = 0;tKernel[1] = 1;tKernel[2] = -1;
			tKernel[3] = 0;tKernel[4] = 1;tKernel[5] = -1;
			tKernel[6] = 0;tKernel[7] = 1;tKernel[8] = -1;
			g1.Filter (tKernel, 3, 4, 0);
			tKernel[0] = -1;tKernel[1] = 1;tKernel[2] = 0;
			tKernel[3] = -1;tKernel[4] = 1;tKernel[5] = 0;
			tKernel[6] = -1;tKernel[7] = 1;tKernel[8] = 0;
			g2.Filter (tKernel, 3, 4, 0);
			tKernel[0] = -1;tKernel[1] = -1;tKernel[2] = -1;
			tKernel[3] = 1;tKernel[4] = 1;tKernel[5] = 1;
			tKernel[6] = 0;tKernel[7] = 0;tKernel[8] = 0;
			g3.Filter (tKernel, 3, 4, 0);
			tKernel[0] = 0;tKernel[1] = 0;tKernel[2] = 0;
			tKernel[3] = 1;tKernel[4] = 1;tKernel[5] = 1;
			tKernel[6] = -1;tKernel[7] = -1;tKernel[8] = -1;
			g4.Filter (tKernel, 3, 4, 0);
			pLayer->Copy (g1, true, false, false, false);
			*pLayer += g2;
			*pLayer += g3;
			*pLayer += g4;
			return true;
		}
	case IGIPFILTER_GRADIENT_MORPHO:
		return pLayer->ComputeGradient (true);
	case IGIPFILTER_GRAY:
		return pLayer->GrayScale();
	case IGIPFILTER_SKIN:
		return pLayer->FilterSkin();
	case IGIPFILTER_SKIN_UNNOISED:
		return pLayer->FilterSkinUnnoised();
	case IGIPFILTER_EYES:
		{
			RECT rcNo = {-1,-1,-1,-1};
			return pLayer->RedEyeRemove (rcNo, rcNo, 0.5f);
		}
	case IGIPFILTER_EYES_COLOR:
		{
			RECT rcNo = {-1,-1,-1,-1};
			RGBQUAD rgbq;
			IGTexture texture;
			if (!m_pFrame->GetProperty (IGProperties::IGPROPERTY_CURTEXTURE, texture))
				return false;
			COLORREF col = (COLORREF)texture;
			rgbq.rgbRed = GetRValue (col);
			rgbq.rgbBlue = GetBValue (col);
			rgbq.rgbGreen = GetGValue (col);
			rgbq.rgbReserved = 0x00;
			rgbq = pLayer->RGBtoHSL (rgbq);
			return pLayer->ChangeEyeColor (rcNo, rcNo, rgbq.rgbRed, rgbq.rgbGreen, 50.0f);
		}
	case IGIPFILTER_FFT:
		{
			CxImage copy (*pLayer);
			copy.GrayScale();
			CxImage res;
			if (!pLayer->FFT2 (&copy, NULL, &res, NULL))
				return false;
			pLayer->Copy (res);
			return true;
		}
	case IGIPFILTER_FACE_EFFECT:
		{
			IGIPFaceEffectMessage *pIGIPFaceEffectMessage = dynamic_cast <IGIPFaceEffectMessage *> (pIGThreadMessage);
			_ASSERTE (pIGIPFaceEffectMessage && L"Wrong IGThread message, face effect image processing aborted");
			if (!pIGIPFaceEffectMessage)
				return false;
			return pLayer->ProcessFaceEffect (pIGIPFaceEffectMessage);
		}
	case IGIPFILTER_COLORIZE:
		{
			RGBQUAD rgbq;
			IGTexture texture;
			if (!m_pFrame->GetProperty (IGProperties::IGPROPERTY_CURTEXTURE, texture))
				return false;
			COLORREF col = (COLORREF)texture;
			rgbq.rgbRed = GetRValue (col);
			rgbq.rgbBlue = GetBValue (col);
			rgbq.rgbGreen = GetGValue (col);
			rgbq.rgbReserved = 0x00;
			rgbq = pLayer->RGBtoHSL (rgbq);
			return pLayer->Colorize (rgbq.rgbRed, rgbq.rgbGreen, rgbq.rgbBlue, (float)texture.GetTransparency() / 255.0f);
		}
	case IGIPFILTER_BRIGHTNESS:
		{
			int nStrength = -1;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_STRENGTH, nStrength) || (nStrength == -1))
				return false;
			return pLayer->Light ((long)((float)nStrength * 2.55f));
		}
	case IGIPFILTER_CONTRAST:
		{
			int nStrength = -1;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_STRENGTH, nStrength) || (nStrength == -1))
				return false;
			return pLayer->Light (0, nStrength);
		}
	case IGIPFILTER_SATURATE:
		{
			int nStrength = -1;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_STRENGTH, nStrength) || (nStrength == -1))
				return false;
			return pLayer->Saturate (nStrength);
		}
	case IGIPFILTER_VIBRANCE:
		{
			int nStrength = -1;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_STRENGTH, nStrength) || (nStrength == -1))
				return false;
			return pLayer->Vibrance ((long)((float)nStrength * 2.55f));
		}
	case IGIPFILTER_MORPHING:
		{
			int nRadius = -1, nType = -1, nPosX = -1, nPosY = -1, nDirectionX = 0, nDirectionY = 0;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_STRENGTH, nRadius) || (nRadius == -1))
				return false;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_TYPE, nType) || (nType == -1))
				return false;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_POSX, nPosX) || (nPosX == -1))
				return false;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_POSY, nPosY) || (nPosY == -1))
				return false;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_DIRECTIONX, nDirectionX))
				return false;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_DIRECTIONY, nDirectionY))
				return false;
			// convert DZ coords to IG
			double dSeadragonToPixelRatioX, dSeadragonToPixelRatioY;
			IGConvertible::FromDZtoIGRatios (image.GetWidth(), image.GetHeight(), dSeadragonToPixelRatioX, dSeadragonToPixelRatioY);
			POINT ptPos; ptPos.x = (int)((double)nPosX * dSeadragonToPixelRatioX); ptPos.y = (int)((double)nPosY * dSeadragonToPixelRatioY);
			POINT ptDir; ptDir.x = (int)((double)nDirectionX * dSeadragonToPixelRatioX); ptDir.y = (int)((double)nDirectionY * dSeadragonToPixelRatioY);
			// convert IG coords to CX
			IGConvertible::FromIGtoCxCoords(ptPos, image.GetHeight());
			ptDir.y *= -1;
			// apply morphing
			return pLayer->Morphing (ptPos.x, ptPos.y, (float)ptDir.x, (float)ptDir.y, (float)nRadius, nType);
		}
	case IGIPFILTER_NEGATIVE:
			return pLayer->Negative();
	case IGIPFILTER_TRANSPARENCY:
		{
			int nAlpha = 0;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_STRENGTH, nAlpha))
				return false;
			pLayer->AlphaDelete();
			return pLayer->AlphaCreate ((BYTE)((float)nAlpha * 2.55f));
		}
	case IGIPFILTER_PAINT:
		{
			int nPosX = -1, nPosY = -1;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_POSX, nPosX) || (nPosX == -1))
				return false;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_POSY, nPosY) || (nPosY == -1))
				return false;
			int nTolerance = 0;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_TOLERANCE, nTolerance))
				return false;
			RGBQUAD rgbq;
			IGTexture texture;
			if (!m_pFrame->GetProperty (IGProperties::IGPROPERTY_CURTEXTURE, texture))
				return false;
			// convert DZ coords to IG
			double dSeadragonToPixelRatioX, dSeadragonToPixelRatioY;
			IGConvertible::FromDZtoIGRatios (image.GetWidth(), image.GetHeight(), dSeadragonToPixelRatioX, dSeadragonToPixelRatioY);
			POINT ptPos; ptPos.x = (int)((double)nPosX * dSeadragonToPixelRatioX); ptPos.y = (int)((double)nPosY * dSeadragonToPixelRatioY);
			// convert IG coords to CX
			IGConvertible::FromIGtoCxCoords(ptPos, image.GetHeight());
			COLORREF col = (COLORREF)texture;
			rgbq.rgbRed = GetRValue (col);
			rgbq.rgbBlue = GetBValue (col);
			rgbq.rgbGreen = GetGValue (col);
			rgbq.rgbReserved = 0x00;			
			return pLayer->FloodFill (ptPos.x, ptPos.y, rgbq, nTolerance);
		}
	case IGIPFILTER_PAINTGRADIENT:
		{
			int nPosX = -1, nPosY = -1, nDirectionX = 0, nDirectionY = 0;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_POSX, nPosX) || (nPosX == -1))
				return false;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_POSY, nPosY) || (nPosY == -1))
				return false;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_DIRECTIONX, nDirectionX))
				return false;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_DIRECTIONY, nDirectionY))
				return false;
			RGBQUAD rgbq, rgbqBkgnd;
			IGTexture texture, bkgndTexture;
			if (!m_pFrame->GetProperty (IGProperties::IGPROPERTY_CURTEXTURE, texture))
				return false;
			COLORREF col = (COLORREF)texture;
			rgbq.rgbRed = GetRValue (col);
			rgbq.rgbBlue = GetBValue (col);
			rgbq.rgbGreen = GetGValue (col);
			rgbq.rgbReserved = 0x00;	
			if (!m_pFrame->GetProperty (IGProperties::IGPROPERTY_BKGNDTEXTURE, bkgndTexture))
				return false;
			// convert DZ coords to IG
			double dSeadragonToPixelRatioX, dSeadragonToPixelRatioY;
			IGConvertible::FromDZtoIGRatios (image.GetWidth(), image.GetHeight(), dSeadragonToPixelRatioX, dSeadragonToPixelRatioY);
			POINT ptPos; ptPos.x = (int)((double)nPosX * dSeadragonToPixelRatioX); ptPos.y = (int)((double)nPosY * dSeadragonToPixelRatioY);
			POINT ptDir; ptDir.x = (int)((double)nDirectionX * dSeadragonToPixelRatioX); ptDir.y = (int)((double)nDirectionY * dSeadragonToPixelRatioY);
			// convert IG coords to CX
			IGConvertible::FromIGtoCxCoords(ptPos, image.GetHeight());
			ptDir.y *= -1;
			COLORREF colBkgnd = (COLORREF)bkgndTexture;
			rgbqBkgnd.rgbRed = GetRValue (colBkgnd);
			rgbqBkgnd.rgbBlue = GetBValue (colBkgnd);
			rgbqBkgnd.rgbGreen = GetGValue (colBkgnd);
			rgbqBkgnd.rgbReserved = 0x00;	
			return pLayer->FillGradient (ptPos.x, ptPos.y, ptDir.x, ptDir.y, rgbq, rgbqBkgnd);
		}
	case IGIPFILTER_REPAIR:
		return pLayer->Repair (0.25f, 3, 0);
	case IGIPFILTER_SHARPEN:
		return pLayer->UnsharpMask (5.0f, 0.5f, 0);	
	case IGIPFILTER_MATIFY:
		{
			COLORREF col = IGIPFACE_EFFECT_MATIFY_COLORCODE;
			RGBQUAD rgbq;
			rgbq.rgbRed = GetRValue (col);
			rgbq.rgbBlue = GetBValue (col);
			rgbq.rgbGreen = GetGValue (col);
			rgbq.rgbReserved = 0x00;
			rgbq = pLayer->RGBtoHSL (rgbq);
			return pLayer->Colorize (rgbq.rgbRed, rgbq.rgbGreen, rgbq.rgbBlue, 1.0f);
		}
	case IGIPFILTER_THRESHOLD:
		return pLayer->AdaptiveThreshold(0);
	case IGIPFILTER_AUTOROTATE:
		return pLayer->AutoRotate();
	case IGIPFILTER_SKETCH:
		return pLayer->Sketch();
	case IGIPFILTER_CARTOON:
		return pLayer->Cartoon();
	case IGIPFILTER_OILPAINTING:
		return pLayer->OilPainting();
	case IGIPFILTER_WATERPAINTING:
		return pLayer->WaterPainting();
	case IGIPFILTER_SEPIA:
		{
			RGBQUAD rgbq;
			rgbq.rgbRed = 112;
			rgbq.rgbBlue = 20;
			rgbq.rgbGreen = 66;
			rgbq.rgbReserved = 0x00;
			rgbq = pLayer->RGBtoHSL (rgbq);
			return pLayer->Colorize (rgbq.rgbRed, rgbq.rgbGreen, rgbq.rgbBlue, 1.0f);
		}
	case IGIPFILTER_VINTAGE:
		{
			pLayer->UnsharpMask (5.0f, 0.5f, 0);	
			pLayer->UnsharpMask (5.0f, 0.5f, 0);	
			pLayer->UnsharpMask (5.0f, 0.5f, 0);	
			RGBQUAD rgbq;
			rgbq.rgbRed = 112;
			rgbq.rgbBlue = 20;
			rgbq.rgbGreen = 66;
			rgbq.rgbReserved = 0x00;
			rgbq = pLayer->RGBtoHSL (rgbq);
			return pLayer->Colorize (rgbq.rgbRed, rgbq.rgbGreen, rgbq.rgbBlue, 0.25f);
		}
	case IGIPFILTER_DITHER:
		return pLayer->Dither();
	case IGIPFILTER_CLAY:
		return pLayer->Clay();
	case IGIPFILTER_PYTHON:
		{
			wstring wsPythonScript;
			if (!m_pFrame->GetRequestProperty(IGIPFILTER_PARAM_SCRIPT, wsPythonScript))
				return false;
			return pLayer->ExecutePythonScript (wsPythonScript);
		}
	case IGIPFILTER_FILTER1:
		{
			CxImage *layer1 (*pLayer);
			CxImage *layer2 (*pLayer);
			CxImage *layer3 (*pLayer);
			int nAlpha = 0;

			// Contrast the image using the curve: out 116, in 139
			long contrast_in = 139, contrast_out = 116;
			CxImage *contrast_IN (*pLayer);
			CxImage *contrast_OUT (*pLayer);
			contrast_IN->Mix(*contrast_OUT); 

			contrast_IN->Light(0, contrast_in);
			contrast_OUT->Light(0, contrast_out);

			// Add contrast IN & OUT images
			// Apply layer 2 as screen with opacity 48
			nAlpha = 48;
			layer2->AlphaDelete();
			layer2->AlphaCreate ((BYTE)((float)nAlpha * 2.55f));

			// Apply layer 3 as overlay with opacity 35
			nAlpha = 35;
			layer3->AlphaDelete();
			layer3->AlphaCreate ((BYTE)((float)nAlpha * 2.55f));

			// Adding the three layers 
			layer1->Mix(*layer2);
			layer1->Mix(*layer3);

			return true;
		}

	case IGIPFILTER_PAPER:
		return pLayer->Paper();

	case IGIPFILTER_HALOSEPIA:
		return pLayer->Sepia();		

	case IGIPFILTER_BW:
		return pLayer->BlackAndWhite();
	}

	return false;
}