void DsnConfigurationWindow::RetrieveSslParameters(config::Configuration& cfg) const
{
std::string sslModeStr;
std::string sslKeyStr;
std::string sslCertStr;
std::string sslCaStr;
sslModeComboBox->GetText(sslModeStr);
sslKeyFileEdit->GetText(sslKeyStr);
sslCertFileEdit->GetText(sslCertStr);
sslCaFileEdit->GetText(sslCaStr);
LOG_MSG("Retrieving arguments:");
LOG_MSG("SSL Mode: " << sslModeStr);
LOG_MSG("SSL Key: " << sslKeyStr);
LOG_MSG("SSL Certificate: " << sslCertStr);
LOG_MSG("SSL CA: " << sslCaStr);
ssl::SslMode::Type sslMode = ssl::SslMode::FromString(sslModeStr, ssl::SslMode::DISABLE);
cfg.SetSslMode(sslMode);
cfg.SetSslKeyFile(sslKeyStr);
cfg.SetSslCertFile(sslCertStr);
cfg.SetSslCaFile(sslCaStr);
}
void DsnConfigurationWindow::RetrieveAuthParameters(config::Configuration& cfg) const
{
std::string user;
std::string password;
userEdit->GetText(user);
passwordEdit->GetText(password);
cfg.SetUser(user);
cfg.SetPassword(password);
}
void DsnConfigurationWindow::RetrieveConnectionParameters(config::Configuration& cfg) const
{
std::string dsnStr;
std::string addressStr;
std::string schemaStr;
std::string versionStr;
nameEdit->GetText(dsnStr);
addressEdit->GetText(addressStr);
schemaEdit->GetText(schemaStr);
protocolVersionComboBox->GetText(versionStr);
common::StripSurroundingWhitespaces(addressStr);
common::StripSurroundingWhitespaces(dsnStr);
// Stripping of whitespaces off the schema skipped intentionally
LOG_MSG("Retrieving arguments:");
LOG_MSG("DSN: " << dsnStr);
LOG_MSG("Address: " << addressStr);
LOG_MSG("Schema: " << schemaStr);
LOG_MSG("Protocol version: " << versionStr);
if (dsnStr.empty())
throw IgniteError(IgniteError::IGNITE_ERR_GENERIC, "DSN name can not be empty.");
diagnostic::DiagnosticRecordStorage diag;
std::vector<EndPoint> addresses;
config::ParseAddress(addressStr, addresses, &diag);
if (diag.GetStatusRecordsNumber() > 0)
{
throw IgniteError(IgniteError::IGNITE_ERR_GENERIC,
diag.GetStatusRecord(1).GetMessageText().c_str());
}
ProtocolVersion version = ProtocolVersion::FromString(versionStr);
if (!version.IsSupported())
throw IgniteError(IgniteError::IGNITE_ERR_GENERIC, "Protocol version is not supported.");
cfg.SetDsn(dsnStr);
cfg.SetAddresses(addresses);
cfg.SetSchema(schemaStr);
cfg.SetProtocolVersion(version);
}
void configure(simulator::Simulation& simulation, const config::Configuration& config) override
{
const float px = 0.3;
const auto filepath = config.buildFilePath(config.get("filename"));
// SVG image
NSVGimage* image = nsvgParseFromFile(filepath.string().c_str(), "px", 96);
if (!image)
throw RuntimeException("Cannot parse SVG");
auto obstacle = simulation.buildObject("obstacle.Polygon");
auto& shapes = obstacle->getMutableShapes();
const auto size = Vector<float>(image->width, image->height);
// Coordinate scale
const auto scale = simulation.getWorldSize() / size;
const auto offset = size * 0.5;
// Foreach shapes
for (NSVGshape* shape = image->shapes; shape != nullptr; shape = shape->next)
{
ShapeEdges oShape;
// Foreach paths
for (NSVGpath* path = shape->paths; path != nullptr; path = path->next)
{
storePath([&oShape, &offset, &scale] (Vector<float> vec) {
const auto v = (vec - offset) * scale * Vector<float>(1, -1);
if (oShape.edges.empty() ||
oShape.edges.back().distanceSquared(v).value() > 0.05)
{
oShape.edges.push_back(v);
Log::debug(v.getX(), "; ", v.getY());
}
}, path, px * 1.5);
}
shapes.push_back(std::move(oShape));
}
obstacle->initShapes();
}
void DMFT::configure(config::Configuration& configuration) {
m_configuration = &configuration;
try {
m_U = configuration.getDouble("DMFT.U");
} catch( libconfig::SettingNotFoundException& e ) {}
try {
m_mu = configuration.getDouble("DMFT.mu");
} catch( libconfig::SettingNotFoundException& e ) {}
try {
m_T = configuration.getDouble("DMFT.temperature");
} catch( libconfig::SettingNotFoundException& e ) {}
try {
m_delta = configuration.getDouble("DMFT.delta");
} catch( libconfig::SettingNotFoundException& e ) {}
try {
m_scaling = configuration.getDouble("DMFT.scaling");
} catch( libconfig::SettingNotFoundException& e ) {}
try {
m_tolerance = configuration.getDouble("DMFT.tolerance");
} catch( libconfig::SettingNotFoundException& e ) {}
try {
m_maxIterations = configuration.getInteger("DMFT.maxIterations");
} catch( libconfig::SettingNotFoundException& e ) {}
try {
m_startWithDelta = configuration.getBool("DMFT.startWithDelta");
} catch( libconfig::SettingNotFoundException& e ) {}
try {
std::string initialD = configuration.getString("DMFT.initialD");
math::CFunction D;
D.readBinary(initialD);
setHybridizationFunction(D);
} catch( libconfig::SettingNotFoundException& e ) {}
try {
std::string initialS = configuration.getString("DMFT.initialS");
math::CFunction S;
S.readBinary(initialS);
setSelfEnergy(S);
double scaling = -S.getArgument(0);
setScaling(scaling);
} catch( libconfig::SettingNotFoundException& e ) {}
}
void Program::loadConfig(simulator::Simulation& simulation, const config::Configuration& config)
{
if (config.has("filename"))
{
m_source.initFile(config.get("filename"));
}
else
{
m_source.initSource(config.getContent());
}
// Store function pointer
m_call = m_source.getFunction("__call__");
// Fallback
if (!m_call)
m_call = m_source.getFunction("call");
if (!m_call)
throw InvalidArgumentException("Python program doesn't have '__call__' or 'call' function");
}
SqlResult Connection::InternalEstablish(const config::Configuration cfg)
{
config = cfg;
if (connected)
{
AddStatusRecord(SQL_STATE_08002_ALREADY_CONNECTED, "Already connected.");
return SQL_RESULT_ERROR;
}
connected = socket.Connect(cfg.GetHost().c_str(), cfg.GetTcpPort());
if (!connected)
{
AddStatusRecord(SQL_STATE_08001_CANNOT_CONNECT, "Failed to establish connection with the host.");
return SQL_RESULT_ERROR;
}
return MakeRequestHandshake();
}
void Module::loadConfig(simulator::Simulation& simulation, const config::Configuration& config)
{
// Configure parent
module::Module::loadConfig(simulation, config);
simulation.getWorld().SetContactListener(this);
for (auto&& c_bond : config.getConfigurations("bond"))
{
m_bonds.push_back(Bond{
c_bond.get<RealType>("association-constant"),
c_bond.get<RealType>("disassociation-constant"),
c_bond.get("ligand"),
c_bond.get("receptor")
});
}
}
void DsnConfigurationWindow::RetrieveAdditionalParameters(config::Configuration& cfg) const
{
std::string pageSizeStr;
pageSizeEdit->GetText(pageSizeStr);
int32_t pageSize = common::LexicalCast<int32_t>(pageSizeStr);
if (pageSize <= 0)
pageSize = config.GetPageSize();
std::string nestedTxModeStr;
nestedTxModeComboBox->GetText(nestedTxModeStr);
NestedTxMode::Type mode = NestedTxMode::FromString(nestedTxModeStr, config.GetNestedTxMode());
bool distributedJoins = distributedJoinsCheckBox->IsChecked();
bool enforceJoinOrder = enforceJoinOrderCheckBox->IsChecked();
bool replicatedOnly = replicatedOnlyCheckBox->IsChecked();
bool collocated = collocatedCheckBox->IsChecked();
bool lazy = lazyCheckBox->IsChecked();
bool skipReducerOnUpdate = skipReducerOnUpdateCheckBox->IsChecked();
LOG_MSG("Retrieving arguments:");
LOG_MSG("Page size: " << pageSize);
LOG_MSG("Nested TX Mode: " << NestedTxMode::ToString(mode));
LOG_MSG("Distributed Joins: " << (distributedJoins ? "true" : "false"));
LOG_MSG("Enforce Join Order: " << (enforceJoinOrder ? "true" : "false"));
LOG_MSG("Replicated only: " << (replicatedOnly ? "true" : "false"));
LOG_MSG("Collocated: " << (collocated ? "true" : "false"));
LOG_MSG("Lazy: " << (lazy ? "true" : "false"));
LOG_MSG("Skip reducer on update: " << (skipReducerOnUpdate ? "true" : "false"));
cfg.SetPageSize(pageSize);
cfg.SetNestedTxMode(mode);
cfg.SetDistributedJoins(distributedJoins);
cfg.SetEnforceJoinOrder(enforceJoinOrder);
cfg.SetReplicatedOnly(replicatedOnly);
cfg.SetCollocated(collocated);
cfg.SetLazy(lazy);
cfg.SetSkipReducerOnUpdate(skipReducerOnUpdate);
}
utils::Parallel::setGlobalCommunicator(utils::Parallel::getCommunicatorWorld());
reset();
}
};
BOOST_AUTO_TEST_SUITE(PreciceTests)
BOOST_FIXTURE_TEST_SUITE(Parallel, ParallelTestFixture)
BOOST_AUTO_TEST_CASE(TestMasterSlaveSetup, * testing::OnSize(4))
{
SolverInterface interface ( "SolverOne", utils::Parallel::getProcessRank(), 4 );
std::string configFilename = _pathToTests + "config1.xml";
config::Configuration config;
xml::configure(config.getXMLTag(), configFilename);
interface._impl->configure(config.getSolverInterfaceConfiguration());
BOOST_TEST ( interface.getDimensions() == 3 );
if(utils::Parallel::getProcessRank()==0){
BOOST_TEST(utils::MasterSlave::_masterMode == true);
BOOST_TEST(utils::MasterSlave::_slaveMode == false);
}
else {
BOOST_TEST(utils::MasterSlave::_masterMode == false);
BOOST_TEST(utils::MasterSlave::_slaveMode == true);
}
BOOST_TEST(utils::MasterSlave::_rank == utils::Parallel::getProcessRank());
void Simulation::configure(const config::Configuration& config)
{
// Resize world
{
auto size = config.get<SizeVector>("world-size");
if (size.getWidth() == Zero || size.getHeight() == Zero)
throw config::Exception("Width or height is zero!");
setWorldSize(size);
}
// Time step
setTimeStep(config.get<units::Time>("dt"));
if (config.has("length-coefficient"))
{
m_converter.setLengthCoefficient(config.get<RealType>("length-coefficient"));
}
// Set gravity
setGravity(config.get("gravity", getGravity()));
// Number of iterations
setIterations(config.get("iterations", getIterations()));
// Background color
setBackgroundColor(config.get("background", getBackgroundColor()));
#if CONFIG_RENDER_TEXT_ENABLE
setFontColor(config.get("text-color", getBackgroundColor().inverted()));
#endif
#if CONFIG_RENDER_TEXT_ENABLE
setFontSize(config.get("text-size", getFontSize()));
#endif
#if CONFIG_RENDER_TEXT_ENABLE
setSimulationTimeRender(config.get("show-simulation-time", isSimulationTimeRender()));
#endif
#ifdef CECE_ENABLE_RENDER
setVisualized(config.get("visualized", isVisualized()));
#endif
// Parse plugins
for (auto&& pluginConfig : config.getConfigurations("plugin"))
{
// Returns valid pointer or throws an exception
requirePlugin(pluginConfig.get("name"))->configure(*this, pluginConfig);
}
// Parse parameters
for (auto&& parameterConfig : config.getConfigurations("parameter"))
{
setParameter(parameterConfig.get("name"), units::parse(parameterConfig.get("value")));
}
// Register user types
for (auto&& typeConfig : config.getConfigurations("type"))
{
addObjectType({
typeConfig.get("name"),
typeConfig.get("base"),
typeConfig.toMemory()
});
}
// Parse init
for (auto&& initConfig : config.getConfigurations("init"))
{
const String typeName = initConfig.has("language")
? initConfig.get("language")
: initConfig.get("type");
auto initializer = getPluginContext().createInitializer(typeName);
if (initializer)
{
// Configure initializer
initializer->loadConfig(*this, initConfig);
// Register initializer
addInitializer(std::move(initializer));
}
}
// Parse modules
for (auto&& moduleConfig : config.getConfigurations("module"))
{
// Get name
auto name = moduleConfig.get("name");
if (hasModule(name))
continue;
const String typeName = moduleConfig.has("language")
? moduleConfig.get("language")
: moduleConfig.has("type")
? moduleConfig.get("type")
: name
;
auto module = getPluginContext().createModule(typeName, *this);
if (module)
{
module->loadConfig(*this, moduleConfig);
addModule(std::move(name), std::move(module));
}
}
// Parse programs
for (auto&& programConfig : config.getConfigurations("program"))
{
const String typeName = programConfig.has("language")
? programConfig.get("language")
: programConfig.get("type");
auto program = getPluginContext().createProgram(typeName);
if (program)
{
// Configure program
program->loadConfig(*this, programConfig);
// Register program
addProgram(programConfig.get("name"), std::move(program));
}
}
// Parse objects
for (auto&& objectConfig : config.getConfigurations("object"))
{
// Create object
auto object = buildObject(
objectConfig.get("class"),
objectConfig.get("type", object::Object::Type::Dynamic)
);
if (object)
object->configure(objectConfig, *this);
}
if (config.has("data-out-objects-filename"))
{
m_dataOutObjects = makeUnique<OutFileStream>(config.get("data-out-objects-filename"));
*m_dataOutObjects << "iteration;totalTime;id;typeName;posX;posY;velX;velY\n";
}
}
