| timeonaxis2.C: Define the time offset as 2003, January 1st | TGraph, TGraphErrors, etc | waves.C: Hint: Spherical waves |
timeonaxis3.C: This example compare what the system time function gmtime and localtime give
// This example compare what the system time function gmtime and localtime give // with what gives TGaxis. It can be used as referenced test to check if TGaxis // is working properly. // The original code was developped by Philippe Gras (CEA Saclay. IRFU/SEDI) //Author: Philippe Gras, Bertrand Bellenot, Olivier Couet #if defined(G__WIN32) && defined(__CINT__) && !defined(__MAKECINT__) { // timeonaxis3.C has to be run in compiled mode on Windows. // the following code does it. TString dir = gSystem->DirName(gInterpreter->GetCurrentMacroName()); gSystem->CompileMacro(dir+"/timeonaxis3.C"); timeonaxis3(); } #else #include "TAxis.h" #include "TGaxis.h" #include "TCanvas.h" #include "TString.h" #include "TLine.h" #include "TLatex.h" #include <time.h> #include <stdio.h> TString stime(time_t* t, bool utc = false, bool display_time_zone = true) { struct tm* tt; if (utc) tt = gmtime(t); else tt = localtime(t); char buf[256]; if (display_time_zone) strftime(buf, sizeof(buf), "%H:%M:%S %Z", tt); else strftime(buf, sizeof(buf), "%Y-%m-%d %H:%M:%S", tt); return TString(buf); } void timeonaxis3() { double f = 1.8; TCanvas* c = new TCanvas; TLatex* tex1 = new TLatex; tex1->SetNDC(); tex1->SetTextFont(102); tex1->SetTextSize(0.07*f); TLatex* tex3 = new TLatex; tex3->SetNDC(); tex3->SetTextFont(102); tex3->SetTextSize(0.07*f); tex3->SetTextColor(kBlue+2); TLatex* tex2 = new TLatex; tex2->SetNDC(); tex2->SetTextFont(102); tex2->SetTextSize(0.07*f); tex2->SetTextColor(kOrange+3); time_t offset[] = {0, 0, 1325376000, 1341100800}; time_t t[] = {1331150400, 1336417200, 0, 36000}; c->SetTopMargin(0); c->SetBottomMargin(0); c->SetLeftMargin(0); c->SetRightMargin(0); c->Divide(2, 4, -1, -1); TLine l; l.DrawLine(0.5, 0, 0.5, 1.); for(int i = 0; i < 4; ++i){ for(int gmt = 0; gmt < 2; ++gmt){ const char* opt = (gmt ? "gmt" : "local"); TVirtualPad* p = c->cd(2*i + gmt + 1); p->SetTopMargin(0); p->SetBottomMargin(0); p->SetLeftMargin(0); p->SetRightMargin(0); p->SetFillStyle(4000); TGaxis* ga = new TGaxis (.4, .25, 5., .25, t[i], t[i] + 1, 1, "t"); ga->SetTimeFormat("TGaxis label: #color[2]{%Y-%m-%d %H:%M:%S}"); ga->SetLabelFont(102); ga->SetLabelColor(kBlue+2); ga->SetTimeOffset(offset[i], opt); ga->SetLabelOffset(0.04*f); ga->SetLabelSize(0.07*f); ga->SetLineColor(0); ga->Draw(); // Get offset string of axis time format: there is not acccessor // to time format in TGaxis. // Assumes TAxis use the same format. TAxis a(10, 0, 1600000000); a.SetTimeOffset(offset[i], opt); const char* offsettimeformat = a.GetTimeFormat(); char buf[256]; if (offset[i] < t[i]) { sprintf(buf, "#splitline{%s, %s}{offset: %ld, option %s}", stime(t+i).Data(), stime(t+i, true).Data(), offset[i], opt); } else { int h = t[i] / 3600; int m = (t[i] - 3600 * h) / 60 ; int s = (t[i] - h * 3600 - m * 60); sprintf(buf, "#splitline{%d h %d m %d s}{offset: %s, option %s}", h, m, s, stime(offset + i, gmt).Data(), opt); } tex1->DrawLatex(.01, .75, buf); tex2->DrawLatex(.01, .50, offsettimeformat); time_t t_ = t[i] + offset[i]; sprintf(buf, "Expecting: #color[2]{%s}", stime(&t_, gmt, false).Data()); tex3->DrawLatex(.01, .24, buf); if(i > 0) l.DrawLine(0, 0.95, 1, 0.95); } } } #endif
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