void test() { MyList<Hero> myList; ifstream file("heros.txt"); copy(istream_iterator<Hero>(file), istream_iterator<Hero>(), back_inserter(myList)); myList.sort([](const Hero &a, const Hero &b) { return a.power > b.power; }); cout << "Sorted by power:" << endl; for (auto i: myList) cout << i << endl; myList.sort([](const Hero &a, const Hero &b) { int scorea = a.strength + a.intelligence + a.power + a.charisma + a.luck; int scoreb = b.strength + b.intelligence + b.power + b.charisma + b.luck; return scorea > scoreb; }); cout << "Sorted by total score:" << endl; for (auto i: myList) cout << i << endl; }
/* * The method takes a string of characters and for each character calculates the char frequency. * Than creates a list of nodes for binary tree * * @param charStr The character string * @return The list of nodes sorted by char frequency */ MyList<Node> createListNode(string *charStr){ MyUnordered_map<char, int> symbols; for (size_t i = 0; i < charStr->size(); i++){ symbols[charStr->at(i)] = 0; } for (size_t i = 0; i < charStr->size(); i++){ symbols[charStr->at(i)]++; } MyList<Node> listNode; for (auto it = symbols.begin(); it != symbols.end(); ++it){ Node node(it -> value, it -> key); listNode.push_back(node); } listNode.sort(); return listNode; }
int main() { MyList list; list.push_back(3); list.push_back(2); list.push_back(10); list.push_back(5); list.push_back(4); cout << "Note: The program did not specify means of input. As such, the program makes a list of 5 integers" << " as seen above this line in the code and sorts them.\n" << endl; cout << "Before sort: " << list.toString(); cout << endl; list.sort(); cout << "After Sort: "<< list.toString() << endl; return 0; }
int main(int argc, char *argv[]) { QString classes = "ALL"; unsigned int minsize = 0; int minth = 0; if(argc == 8) { classes = argv[7]; argc = 7; } if(argc == 7) { minth = atoi(argv[6]); argc = 6; } if(argc == 6) { minsize = atoi(argv[5]); argc = 5; } if (argc != 5 ) usage(argv[0]); //cout <<argv[0]<<" "<<argv[1]<<" "<<argv[2]<<" "<<argv[3]<<" "<<argv[4]<<" "<<argv[5]<<endl; float gN=0.0, gS=0.0, gW=0.0, gE=0.0, xRes=0.0, yRes=0.0; int newX=0, newY=0; BottomUp bu(argv[1]); // read infile 'XML' description file //NodeList *nl = bu.selectClass(classes); //select given classes NodeList *nl_i = bu.selectClass(classes); //select given classes //NodeList *nl_i = bu.selectClass("Gebaeude"); //select given classes //NodeList *nl_s = bu.selectClass("settlement"); //select given classes //NodeList *nl_g = bu.selectClass("greenland"); //select given classes //nl_i->info(); //INFO RegionSensor *rs = new RegionSensor(); //nl_i->calcForSelect ("M11", rs); nl_i->calcForSelect ("Gebaeude","orthogonallity", rs); nl_i->calcForSelect ("Haus","orthogonallity", rs); nl_i->calcForSelect ("Gebaeude","thickness", rs); nl_i->calcForSelect ("Gebaeude","compactness", rs); nl_i->calcForSelect ("Gebaeude","squareness", rs); nl_i->calcForSelect ("Haus","squareness", rs); nl_i->calcForSelect ("size", rs); QDictIterator<Node> it( *nl_i ); //iterator for nodelist Node* n; for (it.toFirst();it.current();++it) { //Gebaeude bewerten n = nl_i->find(it.currentKey()); if ((n->classname()).compare("Gebaeude") == 0){ QString *val = new QString("0.0"); float tmp=0.0; float orthogonallity=((*n)["orthogonallity"])->toFloat(); float compactness=((*n)["compactness"])->toFloat(); float squareness=((*n)["squareness"])->toFloat(); int thickness=((*n)["thickness"])->toInt(); unsigned int size=((*n)["size"])->toUInt(); if(thickness>=minth && size>=minsize){ if(compactness>squareness) tmp=compactness; else tmp=squareness; if(orthogonallity>tmp) tmp=orthogonallity; tmp+=0.25; if(tmp>1.0)tmp=1.0; val->setNum(tmp); } //if (size>=minsize) val->setNum(0,87654); //cout << "##### " <<": "<< n->name() << " - " << n->classname()<< " - "<<(n->getValue("p"))->toFloat()<<endl; n->replace("p", val); } } for (it.toFirst();it.current();++it) { //Haeuser n = nl_i->find(it.currentKey()); if ((n->classname()).compare("Haus") == 0){ QString *val = new QString("0.0"); float tmp=0.0; // WIN32: warning C4553: '==' : Operator hat keine Auswirkungen; ist '=' beabsichtigt? // tmp==((*n)["orthogonallity"])->toFloat(); tmp=((*n)["orthogonallity"])->toFloat(); float squareness=((*n)["squareness"])->toFloat(); if (squareness>tmp) tmp=squareness; tmp+=0.25; if(tmp>1.0)tmp=1.0; val->setNum(tmp); n->replace("p", val); } } for (it.toFirst();it.current();++it) { //Parkplaetze bewerten n = nl_i->find(it.currentKey()); if ((n->classname()).compare("agriculture") == 0){ QString *val = new QString("0.0"); unsigned int size=((*n)["size"])->toUInt(); if(size>4700){ n->replace("p", val); } } } nl_i->calcNewGEOValues(gN,gS,gW,gE,newX,newY,xRes,yRes); MyList hl; it.toFirst(); while(it.current()) { float p; //<<<<<<< ga_bu_industrie.cpp // if (!(*it)["p"]) p=0.5; // else p=(*it)["p"]->toFloat(); // if(p>0.0000001) { // Help* h = new Help(p,it.currentKey()); // hl.append(h); // } //======= if (!(**it)["p"]) p=(float)0.987; else p=(**it)["p"]->toFloat(); Help* h = new Help(p,it.currentKey()); hl.append(h); //>>>>>>> 1.6 ++it; } hl.sort(); newX = int((gE-gW) / xRes);//calculate new image size newY = int((gN-gS) / yRes);//calculate new image size qDebug("$$$newX: %d, newY: %d, xRes: %f, yRes: %f, gN: %f, gS: %f, gE: %f, gW: %f", newX, newY, xRes, yRes, gN, gS, gE, gW); QFile fp(argv[2]); // 'XML' - description if (!fp.open(IO_WriteOnly)) qDebug("write: file not accesable to %s\n",argv[2]); QTextStream str(&fp); QDict<int> dict( 17, FALSE ); //dictionary for the class nr. QArray<NodeInfo*> infolist(nl_i->size()+1); // array of pointers to NodeInfo Help *pl; int i = 1; int helplabel = 0;//, label = 0; Image out_img(typeid(signed int),newX,newY,1); //generate out image #ifdef WIN32 QArray <int> vec(nl_i->size()+1); #else int vec[nl_i->size()+1]; #endif for (int ix=0; ix<nl_i->size()+1; ix++) vec[ix]=0; //info for labeling out_img.setGeoCoordinates(gW,gN,gE,gS); for ( pl=hl.first(); pl != 0; pl=hl.next() ) { Node *node=nl_i->find(pl->cl_name()); //label = node->id(); NodeInfo* ni = new NodeInfo(newX, newY); ni->id(i); ni->cl_name(node->classname()); ni->name(node->name()); //cout << "##### " << i <<": "<< node->name() << " - " << node->classname()<<endl;//<<"; p:"<< (node->getValue("p"))->toFloat()<<endl; ni->p((node->getValue("p"))->toFloat()); // qDebug("$$§§§§ node->p: %f",node->getValue("p"))->toFloat()); ni->addr(node->addr()); if(dict.find(node->classname())) //class with nr. ni->classNr(*(dict.find(node->classname()))); else { int *l = new int(helplabel); dict.insert(node->classname(),l); ni->classNr(helplabel); helplabel++; } infolist[i] = ni; vec[i]=helplabel; //cout <<"$$$ label:"<<i<<") oldlabel:"<<node->id()<<", helplabel: "<<ni->classNr()<<" - "<<node->filename()<<endl; Image img(typeid(int)); img.read(node->filename().latin1()); img.setGeoCoordinates(node->geoWest(), node->geoNorth(), node->geoEast(), node->geoSouth()); float np=((*n)["p"])->toFloat(); if (np>0.00001) out_img.geoMerge(img, node->id(), i);//XX i++; } out_img.write(argv[3]); int x, y, val; //calculate the new position of the label ConstIterator pix = out_img.constBegin(); //for (ConstIterator pix = out_img.constBegin(); pix != out_img.end(); out_img.nextCol(pix)) { for (y=0;y<newY;y++)//calculate the new values of the label for (x=0;x<newX;x++) { val = out_img.getInt(pix); if(val>0) { (infolist[val])->add(x,y); } out_img.nextCol(pix); } float p = 0.0; float industrie = 0.0; float rest = 0.0; int ii = 0; for (int j=1; j<i; j++) { qDebug("$$$%s %d industrie p:%f",((infolist[j])->name()).latin1(),(infolist[j])->classNr(),(infolist[j])->p()); p += (infolist[j])->p(); n = nl_i->find(infolist[j]->addr()); if ((n->classname()).compare("Gebaeude") == 0 && (infolist[j])->p()>0.0){ industrie+=float(((*n)["size"])->toInt()); ii++; } else rest+=float(((*n)["size"])->toInt()); } if(industrie==0.0) p=0.0; //no house|| all house => shit else { float faktor=10*industrie/(industrie+rest); if (faktor>1.0)faktor=1.0; p=p/(ii); //qDebug("$$$ p:%f, faktor:%f => p:%f",p,faktor,p*faktor); //p*=faktor; qDebug("$$$industrie:%f; rest:%f; 3*industrie/(industrie+rest):%f",industrie,rest,industrie/(industrie+rest)); } if (p>1.0) p=1.0; //cout <<", i:"<< i<<", helplabel:"<<helplabel <<", nl_i->size():"<<nl_i->size() <<endl; str << "<group id=\""<<1<<"\" file=\"" << argv[4] << "\" p=\"" << QString().sprintf("%f",p) << "\" " << "file_geoWest=\"" << QString().sprintf("%f",gW) << "\" " << "file_geoNorth=\"" << QString().sprintf("%f",gN) << "\" " << "file_geoEast=\"" << QString().sprintf("%f",gE) << "\" " << "file_geoSouth=\"" << QString().sprintf("%f",gS) << "\" " << ">\n"; //str << "<group id=\""<<1<<"\" file=\"" << argv[4]<<"\" p=\"" << QString().sprintf("%f",p) << "\">\n"; if (p>0.0) for (int k=0; k<helplabel; k++) { for (int j=1; j<i; j++) { NodeInfo* ni = infolist[j]; cout <<j<<" j - i "<<i<<"; nl_i-size "<<nl_i->size()<<endl; //if ((ni) && (k==ni->classNr()) && (ni->llx()<=ni->urx())) cout <<j<<" j - i "<<i<<", k:"<<k<<" ?==? classNr:"<<ni->classNr()<<"..." << ", size:"<<minsize<<" < ni->area:"<<ni->area()<<" "<<ni->cl_name()<<" "<<ni->name()<<endl; if ((ni) && (k==ni->classNr()) && (ni->p()>0.0000001))// node exist && correct group && label not overwritten if(ni->area()>minsize || (ni->cl_name()=="Haus" && ni->area()>25)){ Node *node=nl_i->find(ni->addr()); node->replace("file", new QString(argv[3])); #ifdef WIN32 //error C2664: 'replace' : Konvertierung des Parameters 2 von 'class QString' in 'const class QString *' nicht moeglich //Kein benutzerdefinierter Konvertierungsoperator verfuegbar, der diese Konvertierung durchfuehren kann, oder der Operator kann nicht aufgerufen werden node->replace("llx", &(new QString)->setNum(ni->llx())); node->replace("lly", &(new QString)->setNum(ni->lly())); node->replace("urx", &(new QString)->setNum(ni->urx())); node->replace("ury", &(new QString)->setNum(ni->ury())); node->replace("file_geoNorth",&(new QString)->sprintf("%f",gN)); node->replace("file_geoSouth",&(new QString)->sprintf("%f",gS)); node->replace("file_geoEast", &(new QString)->sprintf("%f",gE)); node->replace("file_geoWest", &(new QString)->sprintf("%f",gW)); //node->replace("p", &(new QString)->setNum(ni->p())); node->replace("id", &(new QString)->setNum(ni->id())); #else node->replace("llx", (new QString)->setNum(ni->llx())); node->replace("lly", (new QString)->setNum(ni->lly())); node->replace("urx", (new QString)->setNum(ni->urx())); node->replace("ury", (new QString)->setNum(ni->ury())); node->replace("file_geoNorth",(new QString)->sprintf("%f",gN)); node->replace("file_geoSouth",(new QString)->sprintf("%f",gS)); node->replace("file_geoEast", (new QString)->sprintf("%f",gE)); node->replace("file_geoWest", (new QString)->sprintf("%f",gW)); //node->replace("p", (new QString)->setNum(ni->p())); node->replace("id", (new QString)->setNum(ni->id())); #endif node->write(str); } } } str<<"</group>\n"; fp.close(); { for (Iterator pix = out_img.begin(); pix != out_img.end(); out_img.nextCol(pix)) { if (out_img.getInt(pix)) out_img.set(pix,vec[1]); //out_img.set(pix,vec[out_img.getInt(pix)]); } out_img.write(argv[4]); } cout << "FIN ... "<<endl; #ifdef WIN32 vec.~QArray(); return (0); #endif }