void show_graph2(CImgDisplay &disp, CImg<double> &data, const unsigned int plot_type, const unsigned int vertex_type, const char *const labelx, const double xmin, const double xmax, const char *const labely, const double ymin, const double ymax) { if (data.is_empty()) return; if (!disp) disp.assign(cimg_fitscreen(640,480,1),0,0).set_title("CImg<%s>", data.pixel_type()); const unsigned long siz = (unsigned long)data._width*data._height*data._depth, siz1 = cimg::max(1U,siz-1); disp.normalization(); disp.show().flush()._normalization = 0; double y0 = ymin, y1 = ymax, nxmin = xmin, nxmax = xmax; if (nxmin==nxmax) { nxmin = 0; nxmax = siz1; } int x0 = 0, x1 = data.width()*data.height()*data.depth() - 1; x0 = 0; x1 = data.width()*data.height()*data.depth()-1; y0 = ymin; y1 = ymax; CImg<double> zoom(x1-x0+1,1,1,data.spectrum()); cimg_forC(data,c) zoom.get_shared_channel(c) = CImg<double>(data.data(x0,0,0,c),x1-x0+1,1,1,1,true); if (y0==y1) { y0 = zoom.min_max(y1); const double dy = y1 - y0; y0-=dy/20; y1+=dy/20; } if (y0==y1) { --y0; ++y1; } const CImg<int> selection = zoom.get_select_graph(disp,plot_type,vertex_type, labelx, nxmin + x0*(nxmax-nxmin)/siz1, nxmin + x1*(nxmax-nxmin)/siz1, labely,y0,y1); while (!disp.key() && !disp.is_closed()) { disp.wait(); } }
void show_graph(CImgDisplay &disp, CImg<double> &data, const unsigned int plot_type, const unsigned int vertex_type, const char *const labelx, const double xmin, const double xmax, const char *const labely, const double ymin, const double ymax) { if (data.is_empty()) return; if (!disp) disp.assign(cimg_fitscreen(640,480,1),0,0).set_title("CImg<%s>", data.pixel_type()); const unsigned long siz = (unsigned long)data._width*data._height*data._depth, siz1 = cimg::max(1U,siz-1); const unsigned int old_normalization = disp.normalization(); disp.show().flush()._normalization = 0; double y0 = ymin, y1 = ymax, nxmin = xmin, nxmax = xmax; if (nxmin==nxmax) { nxmin = 0; nxmax = siz1; } int x0 = 0, x1 = data.width()*data.height()*data.depth() - 1, key = 0; for (bool reset_view = true, resize_disp = false; !key && !disp.is_closed(); ) { if (reset_view) { x0 = 0; x1 = data.width()*data.height()*data.depth()-1; y0 = ymin; y1 = ymax; reset_view = false; } CImg<double> zoom(x1-x0+1,1,1,data.spectrum()); cimg_forC(data,c) zoom.get_shared_channel(c) = CImg<double>(data.data(x0,0,0,c),x1-x0+1,1,1,1,true); if (y0==y1) { y0 = zoom.min_max(y1); const double dy = y1 - y0; y0-=dy/20; y1+=dy/20; } if (y0==y1) { --y0; ++y1; } const CImg<int> selection = zoom.get_select_graph(disp,plot_type,vertex_type, labelx, nxmin + x0*(nxmax-nxmin)/siz1, nxmin + x1*(nxmax-nxmin)/siz1, labely,y0,y1); const int mouse_x = disp.mouse_x(), mouse_y = disp.mouse_y(); if (selection[0]>=0) { if (selection[2]<0) reset_view = true; else { x1 = x0 + selection[2]; x0+=selection[0]; if (selection[1]>=0 && selection[3]>=0) { y0 = y1 - selection[3]*(y1-y0)/(disp.height()-32); y1-=selection[1]*(y1-y0)/(disp.height()-32); } } } else { bool go_in = false, go_out = false, go_left = false, go_right = false, go_up = false, go_down = false; switch (key = disp.key()) { case cimg::keyHOME : reset_view = resize_disp = true; key = 0; disp.set_key(); break; case cimg::keyPADADD : go_in = true; go_out = false; key = 0; disp.set_key(); break; case cimg::keyPADSUB : go_out = true; go_in = false; key = 0; disp.set_key(); break; case cimg::keyARROWLEFT : case cimg::keyPAD4 : go_left = true; go_right = false; key = 0; disp.set_key(); break; case cimg::keyARROWRIGHT : case cimg::keyPAD6 : go_right = true; go_left = false; key = 0; disp.set_key(); break; case cimg::keyARROWUP : case cimg::keyPAD8 : go_up = true; go_down = false; key = 0; disp.set_key(); break; case cimg::keyARROWDOWN : case cimg::keyPAD2 : go_down = true; go_up = false; key = 0; disp.set_key(); break; case cimg::keyPAD7 : go_left = true; go_up = true; key = 0; disp.set_key(); break; case cimg::keyPAD9 : go_right = true; go_up = true; key = 0; disp.set_key(); break; case cimg::keyPAD1 : go_left = true; go_down = true; key = 0; disp.set_key(); break; case cimg::keyPAD3 : go_right = true; go_down = true; key = 0; disp.set_key(); break; } if (disp.wheel()) { if (disp.is_keyCTRLLEFT() || disp.is_keyCTRLRIGHT()) go_out = !(go_in = disp.wheel()>0); else if (disp.is_keySHIFTLEFT() || disp.is_keySHIFTRIGHT()) go_left = !(go_right = disp.wheel()>0); else go_up = !(go_down = disp.wheel()<0); key = 0; } if (go_in) { const int xsiz = x1 - x0, mx = (mouse_x-16)*xsiz/(disp.width()-32), cx = x0 + (mx<0?0:(mx>=xsiz?xsiz:mx)); if (x1-x0>4) { x0 = cx - 7*(cx-x0)/8; x1 = cx + 7*(x1-cx)/8; if (disp.is_keyCTRLLEFT() || disp.is_keyCTRLRIGHT()) { const double ysiz = y1 - y0, my = (mouse_y-16)*ysiz/(disp.height()-32), cy = y1 - (my<0?0:(my>=ysiz?ysiz:my)); y0 = cy - 7*(cy-y0)/8; y1 = cy + 7*(y1-cy)/8; } else y0 = y1 = 0; } } if (go_out) { if (x0>0 || x1<(int)siz1) { const int delta_x = (x1-x0)/8, ndelta_x = delta_x?delta_x:(siz>1?1:0); const double ndelta_y = (y1-y0)/8; x0-=ndelta_x; x1+=ndelta_x; y0-=ndelta_y; y1+=ndelta_y; if (x0<0) { x1-=x0; x0 = 0; if (x1>=(int)siz) x1 = (int)siz1; } if (x1>=(int)siz) { x0-=(x1-siz1); x1 = (int)siz1; if (x0<0) x0 = 0; } } } if (go_left) { const int delta = (x1-x0)/5, ndelta = delta?delta:1; if (x0-ndelta>=0) { x0-=ndelta; x1-=ndelta; } else { x1-=x0; x0 = 0; } go_left = false; } if (go_right) { const int delta = (x1-x0)/5, ndelta = delta?delta:1; if (x1+ndelta<(int)siz) { x0+=ndelta; x1+=ndelta; } else { x0+=(siz1-x1); x1 = siz1; } go_right = false; } if (go_up) { const double delta = (y1-y0)/10, ndelta = delta?delta:1; y0+=ndelta; y1+=ndelta; go_up = false; } if (go_down) { const double delta = (y1-y0)/10, ndelta = delta?delta:1; y0-=ndelta; y1-=ndelta; go_down = false; } } } disp._normalization = old_normalization; }