int main() { f(1234); }
/* * Basic test: two 4-bit input */ static void base_test4var(void (*f)(uint32_t, literal_t *, literal_t *)) { literal_t a[4]; literal_t b[4]; uint32_t i; for (i=0; i<4; i++) { a[i] = false_literal; b[i] = fresh_lit(); } f(4, a, b); for (i=0; i<4; i++) { a[i] = fresh_lit(); b[i] = false_literal; } f(4, a, b); for (i=0; i<4; i++) { a[i] = true_literal; b[i] = fresh_lit(); } f(4, a, b); for (i=0; i<4; i++) { a[i] = fresh_lit(); b[i] = true_literal; } f(4, a, b); for (i=0; i<4; i++) { a[i] = fresh_lit(); b[i] = a[i]; } f(4, a, b); for (i=0; i<4; i++) { a[i] = false_literal; b[i] = fresh_lit(); } a[0] = true_literal; f(4, a, b); for (i=0; i<4; i++) { a[i] = fresh_lit(); b[i] = false_literal; } b[0] = true_literal; f(4, a, b); for (i=0; i<4; i++) { a[i] = false_literal; b[i] = fresh_lit(); } a[1] = true_literal; f(4, a, b); for (i=0; i<4; i++) { a[i] = fresh_lit(); b[i] = false_literal; } b[1] = true_literal; f(4, a, b); for (i=0; i<4; i++) { a[i] = false_literal; b[i] = fresh_lit(); } a[2] = true_literal; f(4, a, b); for (i=0; i<4; i++) { a[i] = fresh_lit(); b[i] = false_literal; } b[2] = true_literal; f(4, a, b); for (i=0; i<4; i++) { a[i] = false_literal; b[i] = fresh_lit(); } a[3] = true_literal; f(4, a, b); for (i=0; i<4; i++) { a[i] = fresh_lit(); b[i] = false_literal; } b[3] = true_literal; f(4, a, b); }
void loop(auto begin, auto end, auto f) { for(auto i = begin ; i != end ; ++i) f(i); }
bool MainWindow::autoMount() { QFile f( QDir::homePath() + QString( zuluMOUNT_AUTOPATH ) ) ; return f.exists() ; }
void Base::g() { f(); }
void HelpPlugin::LaunchHelp(const wxString &c_helpfile, bool isExecutable, bool openEmbeddedViewer, HelpCommon::StringCase keyCase, const wxString &defkeyword, const wxString &c_keyword) { const static wxString http_prefix(_T("http://")); const static wxString man_prefix(_T("man:")); wxString helpfile(c_helpfile); // Patch by Yorgos Pagles: Use the new attributes to calculate the keyword wxString keyword = c_keyword.IsEmpty() ? defkeyword : c_keyword; if (keyCase == HelpCommon::UpperCase) keyword.MakeUpper(); else if (keyCase == HelpCommon::LowerCase) keyword.MakeLower(); helpfile.Replace(_T("$(keyword)"), keyword); Manager::Get()->GetMacrosManager()->ReplaceMacros(helpfile); if (isExecutable) { Manager::Get()->GetLogManager()->DebugLog(_T("Executing ") + helpfile); wxExecute(helpfile); return; } // Support C::B scripts if (wxFileName(helpfile).GetExt() == _T("script")) { if (Manager::Get()->GetScriptingManager()->LoadScript(helpfile)) { // help scripts must contain a function with the following signature: // function SearchHelp(keyword) try { SqPlus::SquirrelFunction<void> f("SearchHelp"); f(keyword); } catch (SquirrelError& e) { Manager::Get()->GetScriptingManager()->DisplayErrors(&e); } } else Manager::Get()->GetLogManager()->DebugLog(_T("Couldn't run script")); return; } // Operate on help html file links inside embedded viewer if (openEmbeddedViewer && wxFileName(helpfile).GetExt().Mid(0, 3).CmpNoCase(_T("htm")) == 0) { Manager::Get()->GetLogManager()->DebugLog(_T("Launching ") + helpfile); cbMimePlugin* p = Manager::Get()->GetPluginManager()->GetMIMEHandlerForFile(helpfile); if (p) p->OpenFile(helpfile); else { reinterpret_cast<MANFrame *>(m_manFrame)->LoadPage(helpfile); ShowMANViewer(); } return; } // Operate on help http (web) links if (helpfile.Mid(0, http_prefix.size()).CmpNoCase(http_prefix) == 0) { Manager::Get()->GetLogManager()->DebugLog(_T("Launching ") + helpfile); wxLaunchDefaultBrowser(helpfile); return; } // Operate on man pages if (helpfile.Mid(0, man_prefix.size()).CmpNoCase(man_prefix) == 0) { if (reinterpret_cast<MANFrame *>(m_manFrame)->SearchManPage(keyword)) Manager::Get()->GetLogManager()->DebugLog(_T("Couldn't find man page")); else Manager::Get()->GetLogManager()->DebugLog(_T("Launching man page")); ShowMANViewer(); return; } #ifdef __WXMSW__ if (helpfile.StartsWith(_T("ms-xhelp:///"))) { Manager::Get()->GetLogManager()->DebugLog(_T("Launching ") + helpfile); ShellExecute(0, 0, helpfile.c_str(), 0, 0, SW_SHOWDEFAULT); return; } #endif // __WXMSW__ wxFileName the_helpfile = wxFileName(helpfile); Manager::Get()->GetLogManager()->DebugLog(_T("Help File is ") + helpfile); if (!(the_helpfile.FileExists())) { wxString msg; msg << _("Couldn't find the help file:\n") << the_helpfile.GetFullPath() << _("\n") << _("Do you want to run the associated program anyway?"); if (!(cbMessageBox(msg, _("Warning"), wxICON_WARNING | wxYES_NO | wxNO_DEFAULT) == wxID_YES)) return; } wxString ext = the_helpfile.GetExt(); #ifdef __WXMSW__ // Operate on help files with keyword search (windows only) if (!keyword.IsEmpty()) { if (ext.CmpNoCase(_T("hlp")) == 0) { wxWinHelpController HelpCtl; HelpCtl.Initialize(helpfile); HelpCtl.KeywordSearch(keyword); return; } if ((ext.CmpNoCase(_T("chm")) == 0) || (ext.CmpNoCase(_T("col")) == 0)) { LaunchCHMThread *p_thread = new LaunchCHMThread(helpfile, keyword); p_thread->Create(); p_thread->Run(); return; } } #endif // Just call it with the associated program wxFileType *filetype = wxTheMimeTypesManager->GetFileTypeFromExtension(ext); if (!filetype) { cbMessageBox(_("Couldn't find an associated program to open:\n") + the_helpfile.GetFullPath(), _("Warning"), wxOK | wxICON_EXCLAMATION); return; } wxExecute(filetype->GetOpenCommand(helpfile)); delete filetype; }
BOOST_FUSION_GPU_ENABLED static bool call(It const& it, F f) { return f(*it); }
X void* ho(int(*f)(int), int x) { g2 = f(x); return ho_return; }
/* int hoho(int x, int_to_int2int f) { */ X int hoho(int x, int(*(*f)(int))(int)) { return (f(x+1))(x-1); }
X float callback3_float_float_float(float(*f)(float)) { return f(3.0); }
X double callback3_double_double_double(double(*f)(double)) { return f(3.0); }
int main(int argc, char** argv) { bool error = false; if(argc != 4) { std::cerr << "USAGE: " << argv[0] << " PARTICLE_FILE NX1 NY1" << std::endl; exit(0); } boost::filesystem::path path(argv[1]); if(!boost::filesystem::exists(path)) { std::cerr << "ERROR: " << argv[1] << " does not exist!" << std::endl; exit(1); } std::ifstream f(path.string().c_str(), std::ios::binary); const float NX1 = static_cast<float>(atoi(argv[2])); const float NY1 = static_cast<float>(atoi(argv[3])); std::cout << "NX1 = " << NX1 << std::endl; std::cout << "NY1 = " << NY1 << std::endl; int numParticles; int numHot; int numCold; f.read(reinterpret_cast<char*>(&numParticles), sizeof(numParticles)); f.read(reinterpret_cast<char*>(&numHot), sizeof(numHot)); f.read(reinterpret_cast<char*>(&numCold), sizeof(numCold)); if(numParticles != numHot + numCold) { error = true; std::cout << "ERROR: " << argv[0] << std::endl; std::cout << " numParticles != numHot + numCold" << std::endl; std::cout << " " << numParticles << " != " << numHot << " + " << numCold << std::endl; } const double percentSize = static_cast<double>(numParticles) / 100.0; int lastPercent = 0; std::size_t numOobPartX = 0; std::size_t numOobPartY = 0; const std::size_t sampleSize = 5; typedef std::vector<std::pair<float, float> > PartVector_t; PartVector_t sampleOobX; PartVector_t sampleOobY; for(std::size_t i = 0; i < numParticles; i++) { float x; float y; f.read(reinterpret_cast<char*>(&x), sizeof(x)); f.read(reinterpret_cast<char*>(&y), sizeof(y)); // Skip the velocity f.seekg(sizeof(float)*3, std::ios_base::cur); if(NX1 <= x) { error = true; ++numOobPartX; if(sampleOobX.size() < sampleSize) { sampleOobX.push_back(std::make_pair(x, y)); } } if(NY1 <= y) { error = true; ++numOobPartY; if(sampleOobY.size() < sampleSize) { sampleOobY.push_back(std::make_pair(x, y)); } } if(lastPercent < static_cast<int>(i / percentSize)) { ++lastPercent; std::cout << lastPercent << "% complete" << std::endl; } } if(!sampleOobX.empty()) { std::cout << numOobPartX << " particles of " << numParticles << " had X values >= " << NX1 << ". A sample has been printed below." << std::endl; for(PartVector_t::iterator i = sampleOobX.begin(); i != sampleOobX.end(); i++) { std::cout << "x=" << (*i).first << " y=" << (*i).second << std::endl; } std::cout << std::endl; } if(!sampleOobY.empty()) { std::cout << numOobPartY << " particles of " << numParticles << " had Y values >= " << NY1 << ". A sample has been printed below." << std::endl; for(PartVector_t::iterator i = sampleOobY.begin(); i != sampleOobY.end(); i++) { std::cout << "x=" << (*i).first << " y=" << (*i).second << std::endl; } } if(!error) { std::cout << argv[0] << " has been successfully verified!" << std::endl; } return 0; }
void FileWatcher::saveFile(QString file) { Note newNote; NoteTable ntable(global.db); QFile f(file); f.open(QIODevice::ReadOnly); QByteArray data = f.readAll(); f.close(); if (f.size() == 0) return; QLOG_DEBUG() << data; ConfigStore cs(global.db); qint32 lid = cs.incrementLidCounter(); QCryptographicHash md5hash(QCryptographicHash::Md5); QByteArray hash = md5hash.hash(data, QCryptographicHash::Md5); // * Start setting up the new note newNote.guid = QString::number(lid); newNote.title = file; NotebookTable bookTable(global.db); QString notebook; bookTable.getGuid(notebook, notebookLid); newNote.notebookGuid = notebook; QString newNoteBody = QString("<?xml version=\"1.0\" encoding=\"UTF-8\"?>")+ QString("<!DOCTYPE en-note SYSTEM \"http://xml.evernote.com/pub/enml2.dtd\">")+ QString("<en-note style=\"word-wrap: break-word; -webkit-nbsp-mode: space; -webkit-line-break: after-white-space;\">"); MimeReference mimeRef; QString mime = mimeRef.getMimeFromFileName(file); QString enMedia =QString("<en-media hash=\"") +hash.toHex() +QString("\" border=\"0\"") +QString(" type=\"" +mime +"\" ") +QString("/>"); newNoteBody.append(enMedia + QString("</en-note>")); newNote.content = newNoteBody; newNote.active = true; newNote.created = QDateTime::currentMSecsSinceEpoch();; newNote.updated = newNote.created; newNote.updateSequenceNum = 0; NoteAttributes na; na.sourceURL = "file://" + file; newNote.attributes = na; qint32 noteLid = lid; ntable.add(lid, newNote, true); QString noteGuid = ntable.getGuid(lid); lid = cs.incrementLidCounter(); // Start creating the new resource Resource newRes; Data d; d.body = data; d.bodyHash = hash; d.size = data.size(); newRes.data = d; newRes.mime = mime; ResourceAttributes ra; ra.fileName = file; if (mime.startsWith("image", Qt::CaseInsensitive) || mime.endsWith("pdf", Qt::CaseInsensitive)) ra.attachment = false; else ra.attachment = true; newRes.active = true; newRes.guid = QString::number(lid); newRes.noteGuid = noteGuid; newRes.updateSequenceNum = 0; ResourceTable restable(global.db); restable.add(lid, newRes, true, noteLid); emit(fileImported(noteLid, lid)); if (scanType == FileWatcher::ImportDelete) { QLOG_DEBUG() << f.remove(); } }
else if (op == TIMES) res = a * b; else res = a + b; return res; } T op_h(node_t* p, T v_l, T v_r) { node_t* left = lvalue(&p->left, node_t*); node_t* right = lvalue(&p->right, node_t*); T r_l = lvalue(&left->num, T); T r_r = lvalue(&right->num, T); int op = lvalue(&p->op,int); T res = f(v_l, v_r, op); lvalue(&p->num, T) = f(r_l, r_r, op); printf ("[%p] left: c=%ld (s=%ld [%p]), right: c=%ld (s=%ld [%p]) -- Op %d: c=%ld (s=%ld) %s\n", p, v_l, r_l, left, v_r, r_r, right, op, res, lvalue(&p->num, T), res != lvalue(&p->num, T) ? "- ERROR" : ""); return res; } // leaf constructor node_t* exptrees_leaf (T val) { node_t* p = alloc(sizeof(node_t)); if (p==NULL) exit(printf("rm_malloc error\n")); lvalue(&p->num, T) = val; lvalue(&p->left, node_t*) = lvalue(&p->right, node_t*) = NULL;
X byte callback3_byte_byte_byte (byte(*f)(byte)) { return f(3); }
X int callback3_int_int_int (int(*f)(int)) { if (f) return f(3); else return 79; }
X short callback3_short_short_short(short(*f)(short)) { return f(3); }
X int callback3_short_int_int (int(*f)(short)) { return f(3); }
void aether::task::retrieve_forecast::forecast_received( styx::element e ) { styx::object f(e); for(styx::object point : f.get_list("list")) { forecast f_db; f_db.get_int<attr::forecast_dt>() = point.copy_int("dt"); f_db.save(connection()); if(point.has_key("main")) { const styx::object& main = point.get_object("main"); forecast_main f_main; f_main.get_int<attr::forecast_dt>() = point.copy_int("dt"); f_main.get_double<attr::forecast_main_temp>() = main.copy_double("temp"); f_main.get_double<attr::forecast_main_temp_min>() = main.copy_double("temp_min"); f_main.get_double<attr::forecast_main_temp_max>() = main.copy_double("temp_max"); f_main.get_int<attr::forecast_main_humidity>() = main.copy_int("humidity"); f_main.get_double<attr::forecast_main_pressure>() = main.copy_double("pressure"); f_main.get_double<attr::forecast_main_sea_level>() = main.copy_double("sea_level"); f_main.get_double<attr::forecast_main_grnd_level>() = main.copy_double("grnd_level"); f_main.save(connection()); } if(point.has_key("clouds")) { const styx::object& clouds = point.get_object("clouds"); forecast_clouds f_clouds; f_clouds.get_int<attr::forecast_dt>() = point.copy_int("dt"); f_clouds.get_int<attr::forecast_clouds_all>() = clouds.copy_int("all"); f_clouds.save(connection()); } if(point.has_key("rain")) { const styx::object& rain = point.get_object("rain"); forecast_rain f_rain; f_rain.get_int<attr::forecast_dt>() = point.copy_int("dt"); f_rain.get_int<attr::forecast_rain>() = rain.copy_int("3h"); f_rain.save(connection()); } if(point.has_key("weather")) { const styx::object weather = styx::cast<styx::object>(point.get_list("weather").at(0)); forecast_weather f_weather; f_weather.get_int<attr::forecast_dt>() = point.copy_int("dt"); f_weather.get_string<attr::forecast_weather_main>() = weather.copy_string("main"); f_weather.get_string<attr::forecast_weather_description>() = weather.copy_string("description"); f_weather.save(connection()); } if(point.has_key("wind")) { const styx::object& wind = point.get_object("wind"); forecast_wind f_wind; f_wind.get_int<attr::forecast_dt>() = point.copy_int("dt"); f_wind.get_double<attr::forecast_wind_speed>() = wind.copy_double("speed"); f_wind.get_double<attr::forecast_wind_deg>() = wind.copy_double("deg"); f_wind.get_double<attr::forecast_wind_gust>() = wind.copy_double("gust"); f_wind.save(connection()); } } atlas::log::information("aether::task::retrieve_forecast") << "saved forecast"; mark_finished(); }
X int callback3_int_byte_int (byte(*f)(int)) { return f(3); }
void geom_gentle_yellow(Bool_t register_as_global=kTRUE) { TEveGeoShape* gsre1; TEveGeoShape* gsre2; TEveGeoShape* gsre3; { TFile f("$ALICE_ROOT/EVE/resources/geometry/gentle_geo.root"); TEveGeoShapeExtract* gse = (TEveGeoShapeExtract*) f.Get("Gentle"); gsre1 = TEveGeoShape::ImportShapeExtract(gse); f.Close(); if (register_as_global) { gEve->AddGlobalElement(gsre1); } // Fix visibility, color and transparency gsre1->SetRnrSelf(kFALSE); TEveElement::List_i i = gsre1->BeginChildren(); //ITS { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); TEveElement::List_i j = lvl1->BeginChildren(); TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kFALSE); TEveElement::List_i k = lvl2->BeginChildren(); TEveGeoShape* its1 = (TEveGeoShape*) *k; its1->SetRnrSelf(kTRUE); its1->SetMainColor(kYellow-4); its1->SetMainTransparency(50); k++; TEveGeoShape* its2 = (TEveGeoShape*) *k; its2->SetRnrSelf(kTRUE); its2->SetMainColor(kYellow-7); its2->SetMainTransparency(50); k++; TEveGeoShape* its3 = (TEveGeoShape*) *k; its3->SetRnrSelf(kTRUE); its3->SetMainColor(kYellow-9); its3->SetMainTransparency(50); } //TPC i++; { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); TEveElement::List_i j = lvl1->BeginChildren(); TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kFALSE); TEveElement::List_i k = lvl2->BeginChildren(); TEveGeoShape* lvl3 = (TEveGeoShape*) *k; lvl3->SetRnrSelf(kTRUE); lvl3->SetMainColor(kGray); lvl3->SetMainTransparency(80); TEveElement::List_i l = lvl3->BeginChildren(); TEveGeoShape* lvl4 = (TEveGeoShape*) *l; lvl4->SetRnrSelf(kFALSE); TEveElement::List_i m = lvl4->BeginChildren(); TEveGeoShape* tpc1 = (TEveGeoShape*) *m; tpc1->SetRnrSelf(kTRUE); tpc1->SetMainColor(kGray+2); tpc1->SetMainTransparency(80); m++; TEveGeoShape* tpc2 = (TEveGeoShape*) *m; tpc2->SetMainColor(kGray); tpc2->SetMainColor(kGray+2); tpc2->SetMainTransparency(80); m++; TEveGeoShape* tpc3 = (TEveGeoShape*) *m; tpc3->SetRnrSelf(kTRUE); tpc3->SetMainColor(kGray+2); tpc3->SetMainTransparency(80); m++; } //TRD+TOF i++; { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); for (TEveElement::List_i j = lvl1->BeginChildren(); j != lvl1->EndChildren(); ++j) { TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kFALSE); lvl2->SetMainColor(0); lvl2->SetMainTransparency(80); } } //PHOS i++; { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); for (TEveElement::List_i j = lvl1->BeginChildren(); j != lvl1->EndChildren(); ++j) { TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kTRUE); lvl2->SetMainTransparency(30); } } //HMPID i++; { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); for (TEveElement::List_i j = lvl1->BeginChildren(); j != lvl1->EndChildren(); ++j) { TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kTRUE); lvl2->SetMainTransparency(30); } } } // The resulting geometry is NOT added into the global scene! { TFile f("$ALICE_ROOT/EVE/resources/geometry/gentle_rphi_geo.root"); TEveGeoShapeExtract* gse = (TEveGeoShapeExtract*) f.Get("Gentle"); gsre2 = TEveGeoShape::ImportShapeExtract(gse); f.Close(); // Fix visibility, color and transparency gsre2->SetRnrSelf(kFALSE); TEveElement::List_i i = gsre2->BeginChildren(); //ITS { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); TEveElement::List_i j = lvl1->BeginChildren(); TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kFALSE); TEveElement::List_i k = lvl2->BeginChildren(); TEveGeoShape* its1 = (TEveGeoShape*) *k; its1->SetRnrSelf(kTRUE); its1->SetMainColor(kYellow-4); its1->SetMainTransparency(50); k++; TEveGeoShape* its2 = (TEveGeoShape*) *k; its2->SetRnrSelf(kTRUE); its2->SetMainColor(kYellow-7); its2->SetMainTransparency(50); k++; TEveGeoShape* its3 = (TEveGeoShape*) *k; its3->SetRnrSelf(kTRUE); its3->SetMainColor(kYellow-9); its3->SetMainTransparency(50); } //TPC i++; { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); for (TEveElement::List_i j = lvl1->BeginChildren(); j != lvl1->EndChildren(); j++) { TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kTRUE); lvl2->SetMainColor(kGray); lvl2->SetMainTransparency(80); } } //PHOS i++; i++; { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); for (TEveElement::List_i j = lvl1->BeginChildren(); j != lvl1->EndChildren(); j++) { TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kTRUE); lvl2->SetMainTransparency(30); } } //HMPID i++; { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); for (TEveElement::List_i j = lvl1->BeginChildren(); j != lvl1->EndChildren(); j++) { TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kTRUE); lvl2->SetMainTransparency(30); } } } // The resulting geometry is NOT added into the global scene! { TFile f("$ALICE_ROOT/EVE/resources/geometry/gentle_rhoz_geo.root"); TEveGeoShapeExtract* gse = (TEveGeoShapeExtract*) f.Get("Gentle"); gsre3 = TEveGeoShape::ImportShapeExtract(gse); f.Close(); // Fix visibility, color and transparency gsre3->SetRnrSelf(kFALSE); TEveElement::List_i i = gsre3->BeginChildren(); //ITS { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); TEveElement::List_i j = lvl1->BeginChildren(); TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kFALSE); TEveElement::List_i k = lvl2->BeginChildren(); TEveGeoShape* its1 = (TEveGeoShape*) *k; its1->SetRnrSelf(kTRUE); its1->SetMainColor(kYellow-4); k++; TEveGeoShape* its2 = (TEveGeoShape*) *k; its2->SetRnrSelf(kTRUE); its2->SetMainColor(kYellow-7); k++; TEveGeoShape* its3 = (TEveGeoShape*) *k; its3->SetRnrSelf(kTRUE); its3->SetMainColor(kYellow-9); } //TPC i++; { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); for (TEveElement::List_i j = lvl1->BeginChildren(); j != lvl1->EndChildren(); j++) { TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kTRUE); lvl2->SetMainColor(kGray); lvl2->SetMainTransparency(80); } } //PHOS i++; i++; { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); for (TEveElement::List_i j = lvl1->BeginChildren(); j != lvl1->EndChildren(); j++) { TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kTRUE); lvl2->SetMainTransparency(30); } } //HMPID i++; { TEveGeoShape* lvl1 = (TEveGeoShape*) *i; lvl1->SetRnrSelf(kFALSE); for (TEveElement::List_i j = lvl1->BeginChildren(); j != lvl1->EndChildren(); j++) { TEveGeoShape* lvl2 = (TEveGeoShape*) *j; lvl2->SetRnrSelf(kTRUE); lvl2->SetMainTransparency(30); } } } TEveElement* top = gEve->GetCurrentEvent(); AliEveMultiView *mv = AliEveMultiView::Instance(); mv->InitGeomGentle(gsre1, gsre2, gsre3, 0); gEve->FullRedraw3D(kTRUE, kTRUE); }
X int callback3_byte_byte_int (byte(*f)(byte)) { return f(3); }
int main() { f(); return 0; }
X byte callback3_byte_int_byte (int(*f)(byte)) { return f(3); }
`给 n 个数,求着 n 个数划分成互不相交的 m 段的最大m 子段和。` `经典的动态规划优化问题。` `设 f(i,j)表示前 i 个数划分成 j 段,且包括第 i 个数的最大 j 段和,那么 dp 方程为:` `f(i,j)=max(f(i-1,j),max {f(k,j-1)})+v[i];``分析:第 i 个数要么和前一个数一起划分到第 j 段里,要么独自划分到第 j 段,也就是我们要找到 i 之前的数划分为 j-1 段的最优值,这个可以只需一个变量标记最大值岂可。` `转移复杂度:O(1),总复杂度 O(n*m)` int g[N]; int max_m_sum(int* str,int n,int m) { memset(g,0,sizeof(g)); int i,j,_max,tmp; for(i=1; i<=m; i++) { _max = g[i-1]; for(j=i; j<=n; j++) { tmp = _max; _max = max(_max,g[j]); g[j] = max(g[j-1],tmp) + str[j]; } } _max = g[m]; for(i=m; i<=n; i++) { _max = max(_max,g[i]); } return _max; }
X byte callback3_int_byte_byte (byte(*f)(int)) { return f(3); }
bool UBFileSystemUtils::deleteFile(const QString &path) { QFile f(path); f.setPermissions(path, QFile::ReadOwner | QFile::WriteOwner); return f.remove(); }
X short callback3_int_short_short (short(*f)(int)) { return f(3); }
void Matrix::save(const QString &fn, const QString &info, bool saveAsTemplate) { QFile f(fn); if (!f.isOpen()){ if (!f.open(QIODevice::Append)) return; } bool notTemplate = !saveAsTemplate; QTextStream t( &f ); t.setEncoding(QTextStream::UnicodeUTF8); t << "<matrix>\n"; if (notTemplate) t << QString(objectName()) + "\t"; t << QString::number(numRows())+"\t"; t << QString::number(numCols())+"\t"; if (notTemplate) t << birthDate() + "\n"; t << info; t << "ColWidth\t" + QString::number(d_column_width)+"\n"; t << "<formula>\n" + formula_str + "\n</formula>\n"; t << "TextFormat\t" + QString(txt_format) + "\t" + QString::number(num_precision) + "\n"; if (notTemplate) t << "WindowLabel\t" + windowLabel() + "\t" + QString::number(captionPolicy()) + "\n"; t << "Coordinates\t" + QString::number(x_start,'g',15) + "\t" +QString::number(x_end,'g',15) + "\t"; t << QString::number(y_start,'g',15) + "\t" + QString::number(y_end,'g',15) + "\n"; t << "ViewType\t" + QString::number((int)d_view_type) + "\n"; t << "HeaderViewType\t" + QString::number((int)d_header_view_type) + "\n"; if (d_color_map_type != Custom) t << "ColorPolicy\t" + QString::number(d_color_map_type) + "\n"; else t << ColorMapEditor::saveToXmlString(d_color_map); if (notTemplate){//save data t << "<data>\n"; double* d_data = d_matrix_model->dataVector(); int d_rows = numRows(); int d_cols = numCols(); int cols = d_cols - 1; for(int i = 0; i < d_rows; i++){ int aux = d_cols*i; bool emptyRow = true; for(int j = 0; j < d_cols; j++){ if (gsl_finite(d_data[aux + j])){ emptyRow = false; break; } } if (emptyRow) continue; t << QString::number(i) + "\t"; for(int j = 0; j < cols; j++){ double val = d_data[aux + j]; if (gsl_finite(val)) t << QString::number(val, 'e', 16); t << "\t"; } double val = d_data[aux + cols]; if (gsl_finite(val)) t << QString::number(val, 'e', 16); t << "\n"; } t << "</data>\n"; } t << "</matrix>\n"; }
void prepare_latex_simple(BYTE *fname_base, INT verbose_level) { char tex_file_name[1000]; char dvi_file_name[1000]; char ps_file_name[1000]; sprintf(tex_file_name, "%s.tex", fname_base); sprintf(dvi_file_name, "%s.dvi", fname_base); sprintf(ps_file_name, "%s.ps", fname_base); { ofstream f(tex_file_name); f << "\\documentclass[]{article}" << endl; f << "\\usepackage{amsmath}" << endl; f << "\\usepackage{amssymb}" << endl; f << "\\usepackage{latexsym}" << endl; f << "\\usepackage{epsfig}" << endl; f << "%%\\usepackage{supertabular}" << endl; f << "\\evensidemargin 0in" << endl; f << "\\oddsidemargin 0in" << endl; f << "\\marginparwidth 0pt" << endl; f << "\\marginparsep 0pt" << endl; f << "\\topmargin -1in" << endl; f << "\\headheight 0.7cm" << endl; f << "\\headsep 1.8cm" << endl; f << "%%\\footheight 0.7cm" << endl; f << "\\footskip 2cm" << endl; f << "\\textheight 22cm" << endl; f << "\\textwidth 6.2in" << endl; f << "\\marginparpush 0pt" << endl; f << "%%\\newcommand{\\dominowidth}{167mm}" << endl; f << "\\newcommand{\\dominowidth}{190mm}" << endl; f << "\\newcommand{\\dominowidthsmall}{90mm}" << endl; //f << "\\title{" << photo_label_tex << "}" << endl; //f << "%%\\author{{\\sc }}" << endl; //f << "\\date{\\today}" << endl; f << "\\pagestyle{empty}" << endl; f << "\\begin{document}" << endl; //f << "\\maketitle" << endl; f << "\\begin{center}" << endl; f << "\\hspace*{-15mm}\\epsfig{file=" << fname_base << ".1,width=\\dominowidth}" << endl; f << "\\end{center}" << endl; f << "\\end{document}" << endl; } char cmd0[1000]; char cmd1[1000]; char cmd2[1000]; char cmd3[1000]; char cmd4[1000]; sprintf(cmd0, "mpost %s.mp", fname_base); sprintf(cmd1, "latex %s", tex_file_name); sprintf(cmd2, "dvips %s -o", dvi_file_name); sprintf(cmd4, "convert -trim -density 300 %s.ps %s.png", fname_base, fname_base); sprintf(cmd3, "open %s &", ps_file_name); system(cmd0); system(cmd1); system(cmd2); system(cmd4); system(cmd3); //system("latex view.tex"); //system("dvips view.dvi -o"); //system("open view.ps &"); }