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mp3player.C File Reference
Tutorials » Geometry tutorials

Detailed Description

Drawing a mp3 type music player, using ROOT geometry class.

Reviewed by Sunman Kim (sunma.nosp@m.n98@.nosp@m.hanma.nosp@m.il.n.nosp@m.et) Supervisor: Prof. Inkyu Park (icpar.nosp@m.k@ph.nosp@m.ysics.nosp@m..uos.nosp@m..ac.k.nosp@m.r)

How to run: .x mp3player.C in ROOT terminal, then use OpenGL

This macro was created for the evaluation of Computational Physics course in 2006. We thank to Prof. Inkyu Park for his special lecture on ROOT and to all of ROOT team

#include "TCanvas.h"
#include "TPaveText.h"
#include "TImage.h"
#include "TLine.h"
#include "TLatex.h"
#include "TButton.h"
#include "TGeoManager.h"
void mp3player()
{
TGeoManager *geom=new TGeoManager("geom","My first 3D geometry");
//materials
TGeoMaterial *vacuum=new TGeoMaterial("vacuum",0,0,0);
TGeoMaterial *Fe=new TGeoMaterial("Fe",55.845,26,7.87);
//create media
TGeoMedium *Iron=new TGeoMedium("Iron",1,Fe);
TGeoMedium *Air=new TGeoMedium("Vacuum",0,vacuum);
//create volume
TGeoVolume *top=geom->MakeBox("top",Air,800,800,800);
geom->SetTopVolume(top);
geom->SetTopVisible(0);
// If you want to see the boundary, please input the number, 1 instead of 0.
// Like this, geom->SetTopVisible(1);
TGeoVolume *b1=geom->MakeBox("b1",Iron,100,200,600);
b1->SetLineColor(2);
TGeoVolume *b2=geom->MakeTubs("b2",Iron,0,50,200,0,90);
b2->SetLineColor(10);
TGeoVolume *b3=geom->MakeTubs("b3",Iron,0,50,200,90,180);
b3->SetLineColor(10);
TGeoVolume *b4=geom->MakeTubs("b4",Iron,0,50,200,180,270);
b4->SetLineColor(10);
TGeoVolume *b5=geom->MakeTubs("b5",Iron,0,50,200,270,360);
b5->SetLineColor(10);
TGeoVolume *b6=geom->MakeTubs("b6",Iron,0,50,600,0,90);
b6->SetLineColor(10);
TGeoVolume *b7=geom->MakeTubs("b7",Iron,0,50,600,90,180);
b7->SetLineColor(10);
TGeoVolume *b8=geom->MakeTubs("b8",Iron,0,50,600,180,270);
b8->SetLineColor(10);
TGeoVolume *b9=geom->MakeTubs("b9",Iron,0,50,600,270,360);
b9->SetLineColor(10);
TGeoVolume *b10=geom->MakeTubs("b10",Iron,0,50,100,0,90);
b10->SetLineColor(10);
TGeoVolume *b11=geom->MakeTubs("b11",Iron,0,50,100,90,180);
b11->SetLineColor(10);
TGeoVolume *b12=geom->MakeTubs("b12",Iron,0,50,100,180,270);
b12->SetLineColor(10);
TGeoVolume *b13=geom->MakeTubs("b13",Iron,0,50,100,270,360);
b13->SetLineColor(10);
TGeoVolume *b14=geom->MakeBox("b14",Iron,100,50,450);
b14->SetLineColor(10);
TGeoVolume *b15=geom->MakeBox("b15",Iron,50,200,600);
b15->SetLineColor(10);
TGeoVolume *b16=geom->MakeSphere("b16",Iron,0,50,0,90,0,90);
b16->SetLineColor(10);
TGeoVolume *b17=geom->MakeSphere("b17",Iron,0,50,0,90,270,360);
b17->SetLineColor(10);
TGeoVolume *b18=geom->MakeSphere("b18",Iron,0,50,0,90,180,270);
b18->SetLineColor(10);
TGeoVolume *b19=geom->MakeSphere("b19",Iron,0,50,0,90,90,180);
b19->SetLineColor(10);
TGeoVolume *b20=geom->MakeTube("b20",Iron,50,150,150);
b20->SetLineColor(17);
TGeoVolume *b21=geom->MakeSphere("b21",Iron,0,50,90,180,0,90);
b21->SetLineColor(10);
TGeoVolume *b22=geom->MakeSphere("b22",Iron,0,50,90,180,270,360);
b22->SetLineColor(10);
TGeoVolume *b23=geom->MakeSphere("b23",Iron,0,50,90,180,180,270);
b23->SetLineColor(10);
TGeoVolume *b24=geom->MakeSphere("b24",Iron,0,50,90,180,90,180);
b24->SetLineColor(10);
TGeoVolume *b25=geom->MakeTube("b25",Iron,51,54,150);
b25->SetLineColor(17);
TGeoVolume *b26=geom->MakeTube("b26",Iron,56,59,150);
b26->SetLineColor(17);
TGeoVolume *b27=geom->MakeTube("b27",Iron,61,64,150);
b27->SetLineColor(17);
TGeoVolume *b28=geom->MakeTube("b28",Iron,66,69,150);
b28->SetLineColor(17);
TGeoVolume *b29=geom->MakeTube("b29",Iron,71,74,150);
b29->SetLineColor(17);
TGeoVolume *b30=geom->MakeTube("b30",Iron,76,79,150);
b30->SetLineColor(17);
TGeoVolume *b31=geom->MakeTube("b31",Iron,81,84,150);
b31->SetLineColor(17);
TGeoVolume *b32=geom->MakeTube("b32",Iron,86,89,150);
b32->SetLineColor(17);
TGeoVolume *b33=geom->MakeTube("b33",Iron,91,94,150);
b33->SetLineColor(17);
TGeoVolume *b34=geom->MakeTube("b34",Iron,96,99,150);
b34->SetLineColor(17);
TGeoVolume *b35=geom->MakeTube("b35",Iron,101,104,150);
b35->SetLineColor(17);
TGeoVolume *b36=geom->MakeTube("b36",Iron,106,109,150);
b36->SetLineColor(17);
TGeoVolume *b37=geom->MakeTube("b37",Iron,111,114,150);
b37->SetLineColor(17);
TGeoVolume *b38=geom->MakeTube("b38",Iron,116,119,150);
b38->SetLineColor(17);
TGeoVolume *b39=geom->MakeTube("b39",Iron,121,124,150);
b39->SetLineColor(17);
TGeoVolume *b40=geom->MakeTube("b40",Iron,126,129,150);
b40->SetLineColor(17);
TGeoVolume *b41=geom->MakeTube("b41",Iron,131,134,150);
b41->SetLineColor(17);
TGeoVolume *b42=geom->MakeTube("b42",Iron,136,139,150);
b42->SetLineColor(17);
TGeoVolume *b43=geom->MakeTube("b43",Iron,141,144,150);
b43->SetLineColor(17);
TGeoVolume *b44=geom->MakeTube("b44",Iron,146,149,150);
b44->SetLineColor(17);
TGeoVolume *b45=geom->MakeTube("b45",Iron,0,25,150);
b45->SetLineColor(10);
TGeoVolume *b46=geom->MakeTube("b46",Iron,25,30,150);
b46->SetLineColor(17);
TGeoVolume *b47=geom->MakeBox("b47",Iron,140,194,504);
b47->SetLineColor(32);
TGeoVolume *b48=geom->MakeBox("b48",Iron,150,176,236);
b48->SetLineColor(37);
TGeoVolume *b49=geom->MakeBox("b49",Iron,150,2,236);
b49->SetLineColor(20);
top->AddNodeOverlap(b49,49,new TGeoTranslation(-2,179,-150));
TGeoVolume *b50=geom->MakeBox("b50",Iron,150,2,236);
b50->SetLineColor(20);
top->AddNodeOverlap(b50,50,new TGeoTranslation(-2,-179,-150));
TGeoVolume *b51=geom->MakeBox("b51",Iron,150,176,2);
b51->SetLineColor(20);
top->AddNodeOverlap(b51,51,new TGeoTranslation(-2,0,89));
TGeoVolume *b52=geom->MakeBox("b52",Iron,150,176,2);
b52->SetLineColor(20);
top->AddNodeOverlap(b52,52,new TGeoTranslation(-2,0,-389));
TGeoVolume *b53=geom->MakeBox("b53",Iron,150,200,90);
b53->SetLineColor(10);
top->AddNodeOverlap(b53,53,new TGeoTranslation(0,0,-510));
TGeoVolume *b54=geom->MakeBox("b54",Iron,15,254,600);
b54->SetLineColor(37);
top->AddNodeOverlap(b54,54,new TGeoTranslation(25,0,0));
TGeoVolume *b55=geom->MakeTubs("b55",Iron,0,54,15,270,360);
b55->SetLineColor(37);
top->AddNodeOverlap(b55,55,new TGeoCombiTrans(25,200,-600,new TGeoRotation("r1",90,90,0)));
TGeoVolume *b56=geom->MakeTubs("b56",Iron,0,54,15,180,270);
b56->SetLineColor(37);
top->AddNodeOverlap(b56,56,new TGeoCombiTrans(25,-200,-600,new TGeoRotation("r1",90,90,0)));
TGeoVolume *b57=geom->MakeTubs("b57",Iron,0,54,15,0,90);
b57->SetLineColor(37);
top->AddNodeOverlap(b57,57,new TGeoCombiTrans(25,200,600,new TGeoRotation("r1",90,90,0)));
TGeoVolume *b58=geom->MakeTubs("b58",Iron,0,54,15,90,180);
b58->SetLineColor(37);
top->AddNodeOverlap(b58,58,new TGeoCombiTrans(25,-200,600,new TGeoRotation("r1",90,90,0)));
//TGeoVolume *b59=geom->MakePgon("b59",Iron,100,100,100,100);
//b59->SetLineColor(37);
//top->AddNodeOverlap(b59,59,new TGeoCombiTrans(200,200,100,new TGeoRotation("r1",90,90,0)));
//IAudid
TGeoVolume *b61=geom->MakeBox("b61",Iron,5,19,150);
b61->SetLineColor(38);
top->AddNodeOverlap(b61,61,new TGeoCombiTrans(-4,-87,-495,new TGeoRotation("r1",90,90,30)));
TGeoVolume *b62=geom->MakeBox("b62",Iron,5,19,150);
b62->SetLineColor(38);
top->AddNodeOverlap(b62,62,new TGeoCombiTrans(-4,-65,-495,new TGeoRotation("r1",90,90,330)));
//u
TGeoVolume *b63=geom->MakeBox("b63",Iron,5,15,150);
b63->SetLineColor(38);
top->AddNodeOverlap(b63,63,new TGeoCombiTrans(-4,-40,-497,new TGeoRotation("r1",90,90,0)));
TGeoVolume *b64=geom->MakeBox("b64",Iron,5,15,150);
b64->SetLineColor(38);
top->AddNodeOverlap(b64,64,new TGeoCombiTrans(-4,-10,-497,new TGeoRotation("r1",90,90,0)));
TGeoVolume *b65=geom->MakeTubs("b65",Iron,7,17,150,0,180);
b65->SetLineColor(38);
top->AddNodeOverlap(b65,65,new TGeoCombiTrans(-4,-25,-490,new TGeoRotation("r1",90,90,0)));
//D
TGeoVolume *b66=geom->MakeBox("b66",Iron,5,19,150);
b66->SetLineColor(38);
top->AddNodeOverlap(b66,66,new TGeoCombiTrans(-4,10,-495,new TGeoRotation("r1",90,90,0)));
TGeoVolume *b67=geom->MakeTubs("b67",Iron,10,20,150,230,480);
b67->SetLineColor(38);
top->AddNodeOverlap(b67,67,new TGeoCombiTrans(-4,23,-495,new TGeoRotation("r1",90,90,0)));
//I
TGeoVolume *b68=geom->MakeBox("b68",Iron,5,20,150);
b68->SetLineColor(38);
top->AddNodeOverlap(b68,68,new TGeoCombiTrans(-4,53,-495,new TGeoRotation("r1",90,90,0)));
//O
TGeoVolume *b69=geom->MakeTubs("b69",Iron,10,22,150,0,360);
b69->SetLineColor(38);
top->AddNodeOverlap(b69,69,new TGeoCombiTrans(-4,85,-495,new TGeoRotation("r1",90,90,0)));
// I
TGeoVolume *b60=geom->MakeTube("b60",Iron,0,10,150);
b60->SetLineColor(38);
top->AddNodeOverlap(b60,60,new TGeoCombiTrans(-4,-120,-550,new TGeoRotation("r1",90,90,0)));
TGeoVolume *b70=geom->MakeBox("b70",Iron,2,19,150);
b70->SetLineColor(38);
top->AddNodeOverlap(b70,70,new TGeoCombiTrans(-4,-114,-495,new TGeoRotation("r1",90,90,0)));
TGeoVolume *b71=geom->MakeBox("b71",Iron,2,19,150);
b71->SetLineColor(38);
top->AddNodeOverlap(b71,71,new TGeoCombiTrans(-4,-126,-495,new TGeoRotation("r1",90,90,0)));
TGeoVolume *b72=geom->MakeBox("b72",Iron,8,2,150);
b72->SetLineColor(38);
top->AddNodeOverlap(b72,72,new TGeoCombiTrans(-4,-120,-515,new TGeoRotation("r1",90,90,0)));
TGeoVolume *b73=geom->MakeBox("b73",Iron,8,2,150);
b73->SetLineColor(38);
top->AddNodeOverlap(b73,73,new TGeoCombiTrans(-4,-120,-475,new TGeoRotation("r1",90,90,0)));
// button
TGeoVolume *b74=geom->MakeBox("b74",Iron,35,250,70);
b74->SetLineColor(38);
top->AddNodeOverlap(b74,74,new TGeoCombiTrans(-25,10,-60,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b75=geom->MakeBox("b75",Iron,35,250,35);
b75->SetLineColor(38);
top->AddNodeOverlap(b75,75,new TGeoCombiTrans(-25,10,-175,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b76=geom->MakeBox("b76",Iron,35,250,35);
b76->SetLineColor(38);
top->AddNodeOverlap(b76,76,new TGeoCombiTrans(-25,10,55,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b77=geom->MakeTubs("b77",Iron,0,70,250,180,270);
b77->SetLineColor(38);
top->AddNodeOverlap(b77,77,new TGeoCombiTrans(10,10,-210,new TGeoRotation("r1",0,90,0)));
TGeoVolume *b78=geom->MakeTubs("b78",Iron,0,70,250,90,180);
b78->SetLineColor(38);
top->AddNodeOverlap(b78,78,new TGeoCombiTrans(10,10,90,new TGeoRotation("r1",0,90,0)));
//Hold
TGeoVolume *b79=geom->MakeBox("b79",Iron,40,250,150);
b79->SetLineColor(10);
top->AddNodeOverlap(b79,79,new TGeoCombiTrans(60,0,450,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b80=geom->MakeTubs("b80",Iron,50,100,250,180,270);
b80->SetLineColor(10);
top->AddNodeOverlap(b80,80,new TGeoCombiTrans(10,0,350,new TGeoRotation("r1",0,90,0)));
TGeoVolume *b81=geom->MakeTubs("b81",Iron,50,100,250,90,180);
b81->SetLineColor(10);
top->AddNodeOverlap(b81,81,new TGeoCombiTrans(10,0,400,new TGeoRotation("r1",0,90,0)));
TGeoVolume *b82=geom->MakeBox("b82",Iron,30,250,150);
b82->SetLineColor(10);
top->AddNodeOverlap(b82,82,new TGeoCombiTrans(-70,0,450,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b83=geom->MakeBox("b83",Iron,30,250,60);
b83->SetLineColor(10);
top->AddNodeOverlap(b83,83,new TGeoCombiTrans(-20,0,540,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b85=geom->MakeTubs("b85",Iron,0,40,240,180,270);
b85->SetLineColor(38);
top->AddNodeOverlap(b85,85,new TGeoCombiTrans(10,10,370,new TGeoRotation("r1",0,90,0)));
TGeoVolume *b84=geom->MakeTubs("b84",Iron,0,40,240,90,180);
b84->SetLineColor(38);
top->AddNodeOverlap(b84,84,new TGeoCombiTrans(10,10,400,new TGeoRotation("r1",0,90,0)));
TGeoVolume *b86=geom->MakeBox("b86",Iron,20,240,20);
b86->SetLineColor(38);
top->AddNodeOverlap(b86,86,new TGeoCombiTrans(-10,10,380,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b87=geom->MakeBox("b87",Iron,20,250,10);
b87->SetLineColor(35);
top->AddNodeOverlap(b87,87,new TGeoCombiTrans(-10,20,385,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b88=geom->MakeBox("b88",Iron,100,220,600);
b88->SetLineColor(10);
top->AddNodeOverlap(b88,88,new TGeoCombiTrans(0,-30,0,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b89=geom->MakeTube("b89",Iron,25,95,650);
b89->SetLineColor(10);
top->AddNodeOverlap(b89,89,new TGeoCombiTrans(0,-60,0,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b90=geom->MakeTube("b90",Iron,25,95,650);
b90->SetLineColor(10);
top->AddNodeOverlap(b90,90,new TGeoCombiTrans(0,60,0,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b91=geom->MakeBox("b91",Iron,40,200,650);
b91->SetLineColor(10);
top->AddNodeOverlap(b91,91,new TGeoCombiTrans(70,0,0,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b92=geom->MakeBox("b92",Iron,100,50,650);
b92->SetLineColor(10);
top->AddNodeOverlap(b92,92,new TGeoCombiTrans(0,150,0,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b93=geom->MakeBox("b93",Iron,100,50,650);
b93->SetLineColor(10);
top->AddNodeOverlap(b93,93,new TGeoCombiTrans(0,-150,0,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b94=geom->MakeBox("b94",Iron,40,200,650);
b94->SetLineColor(10);
top->AddNodeOverlap(b94,94,new TGeoCombiTrans(-70,0,0,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b95=geom->MakeTube("b95",Iron,25,35,650);
b95->SetLineColor(1);
top->AddNodeOverlap(b95,95,new TGeoCombiTrans(0,-60,-10,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b96=geom->MakeTube("b96",Iron,25,35,650);
b96->SetLineColor(1);
top->AddNodeOverlap(b96,96,new TGeoCombiTrans(0,60,-10,new TGeoRotation("r1",0,0,0)));
//usb
TGeoVolume *b97=geom->MakeBox("b97",Iron,70,70,600);
b97->SetLineColor(17);
top->AddNodeOverlap(b97,97,new TGeoCombiTrans(0,0,57,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b98=geom->MakeTubs("b98",Iron,0,50,600,0,90);
b98->SetLineColor(17);
top->AddNodeOverlap(b98,98,new TGeoCombiTrans(20,60,57,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b99=geom->MakeTubs("b99",Iron,0,50,600,180,270);
b99->SetLineColor(17);
top->AddNodeOverlap(b99,99,new TGeoCombiTrans(-20,-60,57,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b100=geom->MakeTubs("b100",Iron,0,50,600,90,180);
b100->SetLineColor(17);
top->AddNodeOverlap(b100,100,new TGeoCombiTrans(-20,60,57,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b101=geom->MakeTubs("b101",Iron,0,50,600,270,360);
b101->SetLineColor(17);
top->AddNodeOverlap(b101,101,new TGeoCombiTrans(20,-60,57,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b102=geom->MakeBox("b102",Iron,20,110,600);
b102->SetLineColor(17);
top->AddNodeOverlap(b102,102,new TGeoCombiTrans(0,0,57,new TGeoRotation("r1",0,0,0)));
TGeoVolume *b103=geom->MakeBox("b103",Iron,15,200,600);
b103->SetLineColor(37);
top->AddNodeOverlap(b103,103,new TGeoCombiTrans(25,0,57,new TGeoRotation("r1",0,0,0)));
//AddNode
top->AddNodeOverlap(b1,1,new TGeoTranslation(0,0,0));
top->AddNodeOverlap(b2,2,new TGeoCombiTrans(100,0,600,new TGeoRotation("r1",0,90,0)));
top->AddNodeOverlap(b3,3,new TGeoCombiTrans(-100,0,600,new TGeoRotation("r1",0,90,0)));
top->AddNodeOverlap(b4,4,new TGeoCombiTrans(-100,0,-600,new TGeoRotation("r1",0,90,0)));
top->AddNodeOverlap(b5,5,new TGeoCombiTrans(100,0,-600,new TGeoRotation("r1",0,90,0)));
top->AddNodeOverlap(b6,6,new TGeoCombiTrans(100,200,0,new TGeoRotation("r1",0,0,0)));
top->AddNodeOverlap(b7,7,new TGeoCombiTrans(-100,200,0,new TGeoRotation("r1",0,0,0)));
top->AddNodeOverlap(b8,8,new TGeoCombiTrans(-100,-200,0,new TGeoRotation("r1",0,0,0)));
top->AddNodeOverlap(b9,9,new TGeoCombiTrans(100,-200,0,new TGeoRotation("r1",0,0,0)));
top->AddNodeOverlap(b10,10,new TGeoCombiTrans(0,200,600,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b11,11,new TGeoCombiTrans(0,-200,600,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b12,12,new TGeoCombiTrans(0,-200,-600, new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b13,13,new TGeoCombiTrans(0,200,-600,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b14,14,new TGeoTranslation(0,200,-150));
top->AddNodeOverlap(b15,15,new TGeoTranslation(100,0,0));
top->AddNodeOverlap(b16,16,new TGeoCombiTrans(100,200,600,new TGeoRotation("r2",0,0,0)));
top->AddNodeOverlap(b17,17,new TGeoCombiTrans(100,-200,600,new TGeoRotation("r2",0,0,0)));
top->AddNodeOverlap(b18,18,new TGeoCombiTrans(-100,-200,600,new TGeoRotation("r2",0,0,0)));
top->AddNodeOverlap(b19,19,new TGeoCombiTrans(-100,200,600,new TGeoRotation("r2",0,0,0)));
top->AddNodeOverlap(b20,20,new TGeoCombiTrans(-3,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b21,21,new TGeoCombiTrans(100,200,-600,new TGeoRotation("r2",0,0,0)));
top->AddNodeOverlap(b22,22,new TGeoCombiTrans(100,-200,-600,new TGeoRotation("r2",0,0,0)));
top->AddNodeOverlap(b23,23,new TGeoCombiTrans(-100,-200,-600,new TGeoRotation("r2",0,0,0)));
top->AddNodeOverlap(b24,24,new TGeoCombiTrans(-100,200,-600,new TGeoRotation("r2",0,0,0)));
top->AddNodeOverlap(b25,25,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b26,26,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b27,27,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b28,28,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b29,29,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b30,30,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b31,31,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b32,32,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b33,33,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b34,34,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b35,35,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b36,36,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b37,37,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b38,38,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b39,39,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b40,40,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b41,41,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b42,42,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b43,43,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b44,44,new TGeoCombiTrans(-9,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b45,45,new TGeoCombiTrans(-20,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b46,46,new TGeoCombiTrans(-25,0,350,new TGeoRotation("r2",90,90,0)));
top->AddNodeOverlap(b47,47,new TGeoTranslation(5,0,85));
top->AddNodeOverlap(b48,48,new TGeoTranslation(-2,0,-150));
geom->CloseGeometry();
TCanvas *can=new TCanvas("can","My virtual laboratory",800,800);
//Mp3
TPad *pad=new TPad("pad","Pad",0,0.5,0.5,1);
pad->SetFillColor(1);
pad->Draw();
pad->cd();
top->Draw();
//Sound
can->cd();
TPad *pad2=new TPad("pad2","Pad2",0.5,0.5,1,1);
pad2->SetFillColor(10);
pad2->Draw();
pad2->cd();
TPaveText *pt = new TPaveText(0.4,0.90,0.6,0.95,"br");
pt->SetFillColor(30);
pt->AddText(0.5,0.5,"Musics");
pt->Draw();
TLatex Tex;
Tex.SetTextSize(0.04);
Tex.SetTextColor(31);
Tex.DrawLatex(0.3,0.81,"Mariah Carey - Shake it off");
Tex.SetTextSize(0.04);
Tex.SetTextColor(31);
Tex.DrawLatex(0.3,0.71,"Alicia keys - If I ain't got you");
Tex.SetTextSize(0.04);
Tex.SetTextColor(31);
Tex.DrawLatex(0.3,0.61,"Michael Jackson - Billie Jean");
Tex.SetTextSize(0.04);
Tex.SetTextColor(31);
Tex.DrawLatex(0.3,0.51,"Christina Milian - Am to Pm");
Tex.SetTextSize(0.04);
Tex.SetTextColor(31);
Tex.DrawLatex(0.3,0.41,"Zapp&Roger - Slow and Easy");
Tex.SetTextSize(0.04);
Tex.SetTextColor(31);
Tex.DrawLatex(0.3,0.31,"Black Eyes Peas - Let's get retarded");
Tex.SetTextSize(0.04);
Tex.SetTextColor(31);
Tex.DrawLatex(0.3,0.21,"Bosson - One in a Millin");
Tex.SetTextSize(0.04);
Tex.SetTextColor(15);
Tex.DrawLatex(0.2,0.11,"Click Button!! You Can Listen to Musics");
TButton *but1=new TButton("","Sound(1)",0.2,0.8,0.25,0.85);
but1->Draw();
but1->SetFillColor(29);
TButton *but2=new TButton("","Sound(2)",0.2,0.7,0.25,.75);
but2->Draw();
but2->SetFillColor(29);
TButton *but3=new TButton("","Sound(3)",0.2,0.6,0.25,0.65);
but3->Draw();
but3->SetFillColor(29);
TButton *but4=new TButton("","Sound(4)",0.2,0.5,0.25,0.55);
but4->Draw();
but4->SetFillColor(29);
TButton *but5=new TButton("","Sound(5)",0.2,0.4,0.25,0.45);
but5->Draw();
but5->SetFillColor(29);
TButton *but6=new TButton("","Sound(6)",0.2,0.3,0.25,0.35);
but6->Draw();
but6->SetFillColor(29);
TButton *but7=new TButton("","Sound(7)",0.2,0.2,0.25,0.25);
but7->Draw();
but7->SetFillColor(29);
pad->cd();
//introduction
can->cd();
TPad *pad3=new TPad("pad3","Pad3",0,0,1,0.5);
pad3->SetFillColor(10);
pad3->Draw();
pad3->cd();
//TImage *image=TImage::Open("mp3.jpg");
//image->Draw();
TPad *pad4=new TPad("pad4","Pad4",0.6,0.1,0.9,0.9);
pad4->SetFillColor(1);
pad4->Draw();
pad4->cd();
TLine L;
Tex.SetTextSize(0.08);
Tex.SetTextColor(10);
Tex.DrawLatex(0.06,0.85,"IAudio U3 Mp3 Player");
L.SetLineColor(10);
L.SetLineWidth(3);
L.DrawLine(0.05, 0.83,0.90, 0.83);
Tex.SetTextSize(0.06);
Tex.SetTextColor(10);
Tex.DrawLatex(0.06,0.75,"+ Color LCD");
Tex.SetTextSize(0.06);
Tex.SetTextColor(10);
Tex.DrawLatex(0.06,0.65,"+ 60mW High Generating Power");
Tex.SetTextSize(0.06);
Tex.SetTextColor(10);
Tex.DrawLatex(0.06,0.55,"+ GUI Theme Skin");
Tex.SetTextSize(0.06);
Tex.SetTextColor(10);
Tex.DrawLatex(0.06,0.45,"+ Noble White&Black");
Tex.SetTextSize(0.06);
Tex.SetTextColor(10);
Tex.DrawLatex(0.06,0.35,"+ Text Viewer+Image Viewer");
Tex.SetTextSize(0.06);
Tex.SetTextColor(10);
Tex.DrawLatex(0.06,0.25,"+ 20 Hours Playing");
Tex.SetTextSize(0.06);
Tex.SetTextColor(10);
Tex.DrawLatex(0.06,0.15,"+ The Best Quality of Sound");
pad->cd();
}
void Sound(int i)
{
char sound[128];
sprintf(sound,"cat sound%d.wav > /dev/audio",i);
gSystem->Exec(sound);
}
gSystem
R__EXTERN TSystem * gSystem
Definition: TSystem.h:556
TAttFill::SetFillColor
virtual void SetFillColor(Color_t fcolor)
Set the fill area color.
Definition: TAttFill.h:37
TAttText::SetTextColor
virtual void SetTextColor(Color_t tcolor=1)
Set the text color.
Definition: TAttText.h:43
TAttText::SetTextSize
virtual void SetTextSize(Float_t tsize=1)
Set the text size.
Definition: TAttText.h:46
TButton
A TButton object is a user interface object.
Definition: TButton.h:19
TButton::Draw
virtual void Draw(Option_t *option="")
Draw this button with its current attributes.
Definition: TButton.cxx:139
TCanvas
The Canvas class.
Definition: TCanvas.h:27
TCanvas::cd
TVirtualPad * cd(Int_t subpadnumber=0)
Set current canvas & pad.
Definition: TCanvas.cxx:701
TGeoCombiTrans
Class describing rotation + translation.
Definition: TGeoMatrix.h:292
TGeoManager
The manager class for any TGeo geometry.
Definition: TGeoManager.h:43
TGeoManager::MakeTube
TGeoVolume * MakeTube(const char *name, TGeoMedium *medium, Double_t rmin, Double_t rmax, Double_t dz)
Make in one step a volume pointing to a tube shape with given medium.
Definition: TGeoManager.cxx:2958
TGeoManager::CloseGeometry
void CloseGeometry(Option_t *option="d")
Closing geometry implies checking the geometry validity, fixing shapes with negative parameters (run-...
Definition: TGeoManager.cxx:1361
TGeoManager::MakeBox
TGeoVolume * MakeBox(const char *name, TGeoMedium *medium, Double_t dx, Double_t dy, Double_t dz)
Make in one step a volume pointing to a box shape with given medium.
Definition: TGeoManager.cxx:2920
TGeoManager::MakeSphere
TGeoVolume * MakeSphere(const char *name, TGeoMedium *medium, Double_t rmin, Double_t rmax, Double_t themin=0, Double_t themax=180, Double_t phimin=0, Double_t phimax=360)
Make in one step a volume pointing to a sphere shape with given medium.
Definition: TGeoManager.cxx:2939
TGeoManager::SetTopVolume
void SetTopVolume(TGeoVolume *vol)
Set the top volume and corresponding node as starting point of the geometry.
Definition: TGeoManager.cxx:3399
TGeoManager::SetTopVisible
void SetTopVisible(Bool_t vis=kTRUE)
make top volume visible on screen
Definition: TGeoManager.cxx:2195
TGeoManager::MakeTubs
TGeoVolume * MakeTubs(const char *name, TGeoMedium *medium, Double_t rmin, Double_t rmax, Double_t dz, Double_t phi1, Double_t phi2)
Make in one step a volume pointing to a tube segment shape with given medium.
Definition: TGeoManager.cxx:2968
TGeoMaterial
Base class describing materials.
Definition: TGeoMaterial.h:31
TGeoMedium
Media are used to store properties related to tracking and which are useful only when using geometry ...
Definition: TGeoMedium.h:24
TGeoRotation
Class describing rotations.
Definition: TGeoMatrix.h:175
TGeoTranslation
Class describing translations.
Definition: TGeoMatrix.h:122
TGeoVolume
TGeoVolume, TGeoVolumeMulti, TGeoVolumeAssembly are the volume classes.
Definition: TGeoVolume.h:47
TGeoVolume::AddNodeOverlap
virtual void AddNodeOverlap(TGeoVolume *vol, Int_t copy_no, TGeoMatrix *mat=0, Option_t *option="")
Add a TGeoNode to the list of nodes.
Definition: TGeoVolume.cxx:995
TGeoVolume::Draw
virtual void Draw(Option_t *option="")
draw top volume according to option
Definition: TGeoVolume.cxx:1145
TGeoVolume::SetLineColor
virtual void SetLineColor(Color_t lcolor)
Set the line color.
Definition: TGeoVolume.cxx:2035
TLatex
To draw Mathematical Formula.
Definition: TLatex.h:18
TLatex::DrawLatex
TLatex * DrawLatex(Double_t x, Double_t y, const char *text)
Make a copy of this object with the new parameters And copy object attributes.
Definition: TLatex.cxx:1926
TLine
A simple line.
Definition: TLine.h:23
TPad
The most important graphics class in the ROOT system.
Definition: TPad.h:29
TPad::Draw
virtual void Draw(Option_t *option="")
Draw Pad in Current pad (re-parent pad if necessary).
Definition: TPad.cxx:1284
TPad::cd
TVirtualPad * cd(Int_t subpadnumber=0)
Set Current pad.
Definition: TPad.cxx:593
TPaveText
A Pave (see TPave) with text, lines or/and boxes inside.
Definition: TPaveText.h:21
TPaveText::AddText
virtual TText * AddText(Double_t x1, Double_t y1, const char *label)
Add a new Text line to this pavetext at given coordinates.
Definition: TPaveText.cxx:182
TPaveText::Draw
virtual void Draw(Option_t *option="")
Draw this pavetext with its current attributes.
Definition: TPaveText.cxx:233
TSystem::Exec
virtual Int_t Exec(const char *shellcmd)
Execute a command.
Definition: TSystem.cxx:651
pt
TPaveText * pt
Definition: entrylist_figure1.C:7
TGeant4Unit::L
static constexpr double L
Definition: TGeant4SystemOfUnits.h:117
Author
Eun Young Kim, Dept. of Physics, Univ. of Seoul

Definition in file mp3player.C.