/// \file /// \ingroup tutorial_image /// \notebook /// Demonstrates how to access and manipulate ARGB pixel values of an image +... /// - how to make a part of an image to be transparent. /// - how to merge/alphablend an image with transparent colors /// with some background image. /// /// \macro_image /// \macro_output /// \macro_code /// /// \author Valeriy Onuchin #include "TColor.h" #include "TImage.h" #include "TImageDump.h" #include "TVirtualPad.h" #include "TROOT.h" #include "TFrame.h" UInt_t color2rgb(TColor *col) { // returns RGB value of color return ((UInt_t(col->GetRed()*255) << 16) + (UInt_t(col->GetGreen()*255) << 8) + UInt_t(col->GetBlue()*255)); } void trans_graph() { // remember if we are in batch mode Bool_t batch = gROOT->IsBatch(); // switch to batch mode gROOT->SetBatch(kTRUE); // execute graph.C macro gROOT->Macro("$ROOTSYS/tutorials/graphs/graph.C"); // create gVirtualPS object TImageDump dmp("dummy.png"); TImage *fore = dmp.GetImage(); // image associated with image_dump // resize canvas gPad->SetCanvasSize(400, 300); gPad->Paint(); // paint gPad on fore image associated with TImageDump // open background image TImage *back = TImage::Open("$ROOTSYS/tutorials/image/rose512.jpg"); // choose colors to be transparent TColor *bk1 = gROOT->GetColor(gPad->GetFillColor()); TColor *bk2 = gROOT->GetColor(gPad->GetFrame()->GetFillColor()); UInt_t rgb1 = color2rgb(bk1); UInt_t rgb2 = color2rgb(bk2); // get directly accessible ARGB array UInt_t *argb = fore->GetArgbArray(); UInt_t w = fore->GetWidth(); UInt_t h = fore->GetHeight(); // scan all pixels in fore image and // make rgb1, rgb2 colors transparent. for (UInt_t i = 0; i < h; i++) { for (UInt_t j = 0; j < w; j++) { Int_t idx = i*w + j; // RGB part of ARGB color UInt_t col = argb[idx] & 0xffffff; // 24..31 bits define transparency of the color in the range 0 - 0xff // for example, 0x00000000 - black color with 100% transparency // 0xff000000 - non-transparent black color if ((col == rgb1) || (col == rgb2)) { // argb[idx] = 0; // 100% transparent } else { argb[idx] = 0xff000000 + col; // make other pixels non-transparent } } } // alphablend back and fore images back->Merge(fore, "alphablend", 20, 20); // write result image in PNG format back->WriteImage("trans_graph.png"); printf("*************** File trans_graph.png created ***************\n"); delete back; // switch back to GUI mode if (!batch) gROOT->SetBatch(kFALSE); }