mirror of
https://github.com/paboyle/Grid.git
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738 lines
23 KiB
C++
738 lines
23 KiB
C++
/*************************************************************************************
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Grid physics library, www.github.com/paboyle/Grid
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Source file: Hadrons/VirtualMachine.cc
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Copyright (C) 2015-2018
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Author: Antonin Portelli <antonin.portelli@me.com>
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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See the full license in the file "LICENSE" in the top level distribution directory
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*************************************************************************************/
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/* END LEGAL */
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#include <Hadrons/VirtualMachine.hpp>
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#include <Hadrons/GeneticScheduler.hpp>
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#include <Hadrons/ModuleFactory.hpp>
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using namespace Grid;
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using namespace QCD;
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using namespace Hadrons;
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/******************************************************************************
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* VirtualMachine implementation *
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******************************************************************************/
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// trajectory counter //////////////////////////////////////////////////////////
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void VirtualMachine::setTrajectory(const unsigned int traj)
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{
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traj_ = traj;
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}
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unsigned int VirtualMachine::getTrajectory(void) const
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{
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return traj_;
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}
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// run tag /////////////////////////////////////////////////////////////////////
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void VirtualMachine::setRunId(const std::string id)
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{
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runId_ = id;
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}
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std::string VirtualMachine::getRunId(void) const
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{
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return runId_;
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}
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// module management ///////////////////////////////////////////////////////////
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void VirtualMachine::pushModule(VirtualMachine::ModPt &pt)
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{
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std::string name = pt->getName();
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if (!hasModule(name))
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{
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std::vector<unsigned int> inputAddress;
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unsigned int address;
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ModuleInfo m;
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// module registration -------------------------------------------------
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m.data = std::move(pt);
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m.type = typeIdPt(*m.data.get());
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m.name = name;
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// input dependencies
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for (auto &in: m.data->getInput())
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{
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if (!env().hasObject(in))
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{
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// if object does not exist, add it with no creator module
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env().addObject(in , -1);
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}
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m.input.push_back(env().getObjectAddress(in));
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}
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// reference dependencies
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for (auto &ref: m.data->getReference())
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{
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if (!env().hasObject(ref))
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{
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// if object does not exist, add it with no creator module
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env().addObject(ref , -1);
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}
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m.input.push_back(env().getObjectAddress(ref));
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}
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auto inCopy = m.input;
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// if module has inputs with references, they need to be added as
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// an input
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for (auto &in: inCopy)
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{
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int inm = env().getObjectModule(in);
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if (inm > 0)
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{
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if (getModule(inm)->getReference().size() > 0)
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{
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for (auto &rin: getModule(inm)->getReference())
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{
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m.input.push_back(env().getObjectAddress(rin));
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}
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}
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}
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}
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module_.push_back(std::move(m));
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address = static_cast<unsigned int>(module_.size() - 1);
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moduleAddress_[name] = address;
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// connecting outputs to potential inputs ------------------------------
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for (auto &out: getModule(address)->getOutput())
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{
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if (!env().hasObject(out))
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{
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// output does not exists, add it
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env().addObject(out, address);
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module_[address].output.push_back(env().getObjectAddress(out));
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}
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else
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{
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if (env().getObjectModule(env().getObjectAddress(out)) < 0)
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{
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// output exists but without creator, correct it
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env().setObjectModule(env().getObjectAddress(out), address);
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}
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else
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{
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// output already fully registered, error
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HADRONS_ERROR_REF(ObjectDefinition, "object '" + out
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+ "' is already produced by module '"
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+ module_[env().getObjectModule(out)].name
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+ "' (while pushing module '" + name + "')",
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env().getObjectAddress(out));
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}
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if (getModule(address)->getReference().size() > 0)
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{
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// module has references, dependency should be propagated
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// to children modules; find module with `out` as an input
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// and add references to their input
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auto pred = [this, out](const ModuleInfo &n)
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{
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auto &in = n.input;
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auto it = std::find(in.begin(), in.end(),
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env().getObjectAddress(out));
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return (it != in.end());
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};
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auto it = std::find_if(module_.begin(), module_.end(), pred);
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while (it != module_.end())
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{
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for (auto &ref: getModule(address)->getReference())
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{
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it->input.push_back(env().getObjectAddress(ref));
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}
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it = std::find_if(++it, module_.end(), pred);
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}
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}
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}
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}
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graphOutdated_ = true;
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memoryProfileOutdated_ = true;
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}
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else
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{
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HADRONS_ERROR(Definition, "module '" + name + "' already exists");
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}
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}
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unsigned int VirtualMachine::getNModule(void) const
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{
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return module_.size();
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}
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void VirtualMachine::createModule(const std::string name, const std::string type,
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XmlReader &reader)
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{
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auto &factory = ModuleFactory::getInstance();
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auto pt = factory.create(type, name);
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pt->parseParameters(reader, "options");
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pushModule(pt);
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}
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ModuleBase * VirtualMachine::getModule(const unsigned int address) const
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{
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if (hasModule(address))
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{
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return module_[address].data.get();
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}
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else
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{
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HADRONS_ERROR(Definition, "no module with address " + std::to_string(address));
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}
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}
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ModuleBase * VirtualMachine::getModule(const std::string name) const
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{
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return getModule(getModuleAddress(name));
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}
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unsigned int VirtualMachine::getModuleAddress(const std::string name) const
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{
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if (hasModule(name))
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{
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return moduleAddress_.at(name);
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}
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else
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{
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HADRONS_ERROR(Definition, "no module with name '" + name + "'");
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}
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}
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std::string VirtualMachine::getModuleName(const unsigned int address) const
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{
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if (hasModule(address))
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{
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return module_[address].name;
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}
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else
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{
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HADRONS_ERROR(Definition, "no module with address " + std::to_string(address));
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}
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}
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std::string VirtualMachine::getModuleType(const unsigned int address) const
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{
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if (hasModule(address))
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{
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return typeName(module_[address].type);
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}
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else
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{
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HADRONS_ERROR(Definition, "no module with address " + std::to_string(address));
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}
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}
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std::string VirtualMachine::getModuleType(const std::string name) const
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{
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return getModuleType(getModuleAddress(name));
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}
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std::string VirtualMachine::getModuleNamespace(const unsigned int address) const
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{
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std::string type = getModuleType(address), ns;
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auto pos2 = type.rfind("::");
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auto pos1 = type.rfind("::", pos2 - 2);
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return type.substr(pos1 + 2, pos2 - pos1 - 2);
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}
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std::string VirtualMachine::getModuleNamespace(const std::string name) const
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{
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return getModuleNamespace(getModuleAddress(name));
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}
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int VirtualMachine::getCurrentModule(void) const
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{
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return currentModule_;
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}
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bool VirtualMachine::hasModule(const unsigned int address) const
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{
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return (address < module_.size());
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}
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bool VirtualMachine::hasModule(const std::string name) const
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{
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return (moduleAddress_.find(name) != moduleAddress_.end());
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}
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// print VM content ////////////////////////////////////////////////////////////
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void VirtualMachine::printContent(void) const
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{
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LOG(Debug) << "Modules: " << std::endl;
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for (unsigned int i = 0; i < module_.size(); ++i)
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{
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LOG(Debug) << std::setw(4) << i << ": "
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<< getModuleName(i) << std::endl;
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}
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}
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// module graph ////////////////////////////////////////////////////////////////
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Graph<unsigned int> VirtualMachine::getModuleGraph(void)
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{
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if (graphOutdated_)
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{
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makeModuleGraph();
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graphOutdated_ = false;
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}
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return graph_;
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}
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void VirtualMachine::makeModuleGraph(void)
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{
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Graph<unsigned int> graph;
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// create vertices
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for (unsigned int m = 0; m < module_.size(); ++m)
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{
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graph.addVertex(m);
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}
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// create edges
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for (unsigned int m = 0; m < module_.size(); ++m)
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{
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for (auto &in: module_[m].input)
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{
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int min = env().getObjectModule(in);
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if (min < 0)
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{
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HADRONS_ERROR_REF(ObjectDefinition, "dependency '"
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+ env().getObjectName(in) + "' (address "
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+ std::to_string(in)
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+ ") is not produced by any module", in);
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}
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else
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{
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graph.addEdge(min, m);
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}
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}
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}
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graph_ = graph;
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}
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// dump GraphViz graph /////////////////////////////////////////////////////////
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void VirtualMachine::dumpModuleGraph(std::ostream &out)
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{
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makeModuleGraph();
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out << "digraph hadrons {" << std::endl;
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out << "node [shape=record, fontname=\"Courier\", fontsize=\"11\"];" << std::endl;
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out << "graph [fontname = \"Courier\", fontsize=\"11\"];" << std::endl;
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out << "edge [fontname = \"Courier\", fontsize=\"11\"];"<< std::endl;
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for (unsigned int m = 0; m < module_.size(); ++m)
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{
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}
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for (unsigned int m = 0; m < module_.size(); ++m)
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{
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for (auto &in: module_[m].input)
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{
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int min = env().getObjectModule(in);
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out << min << " -> " << m << " [ label = \""
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<< env().getObjectName(in) << "\" ];" << std::endl;
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}
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}
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for (unsigned int m = 0; m < module_.size(); ++m)
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{
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out << m << " [ label = \"{<f0> " << getModule(m)->getRegisteredName()
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<< " |<f1> " << getModuleName(m) << "}\" ];" << std::endl;
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}
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out << "}\n" << std::endl;
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}
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void VirtualMachine::dumpModuleGraph(void)
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{
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dumpModuleGraph(std::cout);
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}
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void VirtualMachine::dumpModuleGraph(const std::string filename)
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{
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std::ofstream f(filename);
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dumpModuleGraph(f);
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}
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// memory profile //////////////////////////////////////////////////////////////
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const VirtualMachine::MemoryProfile & VirtualMachine::getMemoryProfile(void)
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{
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if (memoryProfileOutdated_)
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{
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makeMemoryProfile();
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memoryProfileOutdated_ = false;
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}
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return profile_;
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}
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void VirtualMachine::makeMemoryProfile(void)
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{
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bool protect = env().objectsProtected();
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bool hmsg = HadronsLogMessage.isActive();
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bool gmsg = GridLogMessage.isActive();
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bool err = HadronsLogError.isActive();
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auto program = getModuleGraph().topoSort();
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resetProfile();
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profile_.module.resize(getNModule());
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env().protectObjects(false);
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GridLogMessage.Active(false);
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HadronsLogMessage.Active(false);
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for (auto it = program.rbegin(); it != program.rend(); ++it)
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{
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auto a = *it;
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if (profile_.module[a].empty())
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{
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LOG(Debug) << "Profiling memory for module '" << module_[a].name
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<< "' (" << a << ")" << std::endl;
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memoryProfile(a);
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env().freeAll();
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}
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}
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env().protectObjects(protect);
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GridLogMessage.Active(gmsg);
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HadronsLogMessage.Active(hmsg);
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LOG(Debug) << "Memory profile:" << std::endl;
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LOG(Debug) << "----------------" << std::endl;
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for (unsigned int a = 0; a < profile_.module.size(); ++a)
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{
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LOG(Debug) << getModuleName(a) << " (" << a << ")" << std::endl;
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for (auto &o: profile_.module[a])
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{
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LOG(Debug) << "|__ " << env().getObjectName(o.first) << " ("
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<< sizeString(o.second) << ")" << std::endl;
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}
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LOG(Debug) << std::endl;
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}
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LOG(Debug) << "----------------" << std::endl;
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}
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void VirtualMachine::resetProfile(void)
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{
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profile_.module.clear();
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profile_.object.clear();
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}
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void VirtualMachine::resizeProfile(void)
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{
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if (env().getMaxAddress() > profile_.object.size())
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{
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MemoryPrint empty;
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empty.size = 0;
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empty.module = -1;
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profile_.object.resize(env().getMaxAddress(), empty);
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}
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}
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void VirtualMachine::updateProfile(const unsigned int address)
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{
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resizeProfile();
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for (unsigned int a = 0; a < env().getMaxAddress(); ++a)
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{
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if (env().hasCreatedObject(a) and (profile_.object[a].module == -1))
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{
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profile_.object[a].size = env().getObjectSize(a);
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profile_.object[a].storage = env().getObjectStorage(a);
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profile_.object[a].module = address;
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profile_.module[address][a] = profile_.object[a].size;
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if (env().getObjectModule(a) < 0)
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{
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env().setObjectModule(a, address);
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}
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}
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}
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}
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void VirtualMachine::cleanEnvironment(void)
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{
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resizeProfile();
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for (unsigned int a = 0; a < env().getMaxAddress(); ++a)
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{
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if (env().hasCreatedObject(a) and (profile_.object[a].module == -1))
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{
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env().freeObject(a);
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}
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}
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}
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void VirtualMachine::memoryProfile(const unsigned int address)
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{
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auto m = getModule(address);
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LOG(Debug) << "Setting up module '" << m->getName()
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<< "' (" << address << ")" << std::endl;
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try
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{
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currentModule_ = address;
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m->setup();
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currentModule_ = -1;
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updateProfile(address);
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}
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catch (Exceptions::ObjectDefinition &exc)
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{
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cleanEnvironment();
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if (!env().hasCreatedObject(exc.getAddress()))
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{
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LOG(Debug) << "Object '" << env().getObjectName(exc.getAddress())
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<< "' missing for setup of '" << m->getName()
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<< "' (" << address << ")" << std::endl;
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memoryProfile(env().getObjectModule(exc.getAddress()));
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}
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memoryProfile(address);
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}
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}
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void VirtualMachine::memoryProfile(const std::string name)
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{
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memoryProfile(getModuleAddress(name));
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}
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// garbage collector ///////////////////////////////////////////////////////////
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VirtualMachine::GarbageSchedule
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VirtualMachine::makeGarbageSchedule(const Program &p) const
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{
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GarbageSchedule freeProg;
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freeProg.resize(p.size());
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for (unsigned int a = 0; a < env().getMaxAddress(); ++a)
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{
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if (env().getObjectStorage(a) == Environment::Storage::temporary)
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{
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auto it = std::find(p.begin(), p.end(), env().getObjectModule(a));
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if (it != p.end())
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{
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freeProg[std::distance(p.begin(), it)].insert(a);
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}
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}
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else if (env().getObjectStorage(a) == Environment::Storage::object)
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{
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auto pred = [a, this](const unsigned int b)
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{
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auto &in = module_[b].input;
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auto it = std::find(in.begin(), in.end(), a);
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return (it != in.end()) or (b == env().getObjectModule(a));
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};
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auto it = std::find_if(p.rbegin(), p.rend(), pred);
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if (it != p.rend())
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{
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freeProg[std::distance(it, p.rend()) - 1].insert(a);
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}
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}
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}
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return freeProg;
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}
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// high-water memory function //////////////////////////////////////////////////
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VirtualMachine::Size VirtualMachine::memoryNeeded(const Program &p)
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{
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const MemoryProfile &profile = getMemoryProfile();
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GarbageSchedule freep = makeGarbageSchedule(p);
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Size current = 0, max = 0;
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for (unsigned int i = 0; i < p.size(); ++i)
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{
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for (auto &o: profile.module[p[i]])
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{
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current += o.second;
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}
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max = std::max(current, max);
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for (auto &o: freep[i])
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{
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current -= profile.object[o].size;
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}
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}
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return max;
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}
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// genetic scheduler ///////////////////////////////////////////////////////////
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VirtualMachine::Program VirtualMachine::schedule(const GeneticPar &par)
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{
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typedef GeneticScheduler<Size, unsigned int> Scheduler;
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auto graph = getModuleGraph();
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//constrained topological sort using a genetic algorithm
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LOG(Message) << "Scheduling computation..." << std::endl;
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LOG(Message) << " #module= " << graph.size() << std::endl;
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LOG(Message) << " population size= " << par.popSize << std::endl;
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LOG(Message) << " max. generation= " << par.maxGen << std::endl;
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LOG(Message) << " max. cst. generation= " << par.maxCstGen << std::endl;
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LOG(Message) << " mutation rate= " << par.mutationRate << std::endl;
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unsigned int k = 0, gen, prevPeak, nCstPeak = 0;
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std::random_device rd;
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Scheduler::Parameters gpar;
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gpar.popSize = par.popSize;
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gpar.mutationRate = par.mutationRate;
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gpar.seed = rd();
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CartesianCommunicator::BroadcastWorld(0, &(gpar.seed), sizeof(gpar.seed));
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Scheduler::ObjFunc memPeak = [this](const Program &p)->Size
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{
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return memoryNeeded(p);
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};
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Scheduler scheduler(graph, memPeak, gpar);
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gen = 0;
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scheduler.initPopulation();
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LOG(Iterative) << "Start: " << sizeString(scheduler.getMinValue())
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<< std::endl;
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do
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{
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//LOG(Debug) << "Generation " << gen << ":" << std::endl;
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scheduler.nextGeneration();
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if (gen != 0)
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{
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if (prevPeak == scheduler.getMinValue())
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{
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nCstPeak++;
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}
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else
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{
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nCstPeak = 0;
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}
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}
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prevPeak = scheduler.getMinValue();
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if (gen % 10 == 0)
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{
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LOG(Iterative) << "Generation " << gen << ": "
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<< sizeString(scheduler.getMinValue()) << std::endl;
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}
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gen++;
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} while ((gen < par.maxGen) and (nCstPeak < par.maxCstGen));
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return scheduler.getMinSchedule();
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}
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// general execution ///////////////////////////////////////////////////////////
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#define BIG_SEP "================"
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#define SEP "----------------"
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#define SMALL_SEP "................"
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#define MEM_MSG(size) sizeString(size)
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void VirtualMachine::executeProgram(const Program &p)
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{
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Size memPeak = 0, sizeBefore, sizeAfter;
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GarbageSchedule freeProg;
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// build garbage collection schedule
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LOG(Debug) << "Building garbage collection schedule..." << std::endl;
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freeProg = makeGarbageSchedule(p);
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for (unsigned int i = 0; i < freeProg.size(); ++i)
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{
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std::string msg = "";
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for (auto &a: freeProg[i])
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{
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msg += env().getObjectName(a) + " ";
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}
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msg += "]";
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LOG(Debug) << std::setw(4) << i + 1 << ": [" << msg << std::endl;
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}
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// program execution
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LOG(Debug) << "Executing program..." << std::endl;
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totalTime_ = GridTime::zero();
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for (unsigned int i = 0; i < p.size(); ++i)
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{
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// execute module
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LOG(Message) << SEP << " Measurement step " << i + 1 << "/"
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<< p.size() << " (module '" << module_[p[i]].name
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<< "') " << SEP << std::endl;
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LOG(Message) << SMALL_SEP << " Module execution" << std::endl;
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currentModule_ = p[i];
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(*module_[p[i]].data)();
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currentModule_ = -1;
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sizeBefore = env().getTotalSize();
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// print time profile after execution
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LOG(Message) << SMALL_SEP << " Timings" << std::endl;
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std::map<std::string, GridTime> ctiming, gtiming;
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GridTime total;
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ctiming = module_[p[i]].data->getTimings();
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total = ctiming.at("_total");
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gtiming["total"] = ctiming["_total"]; ctiming.erase("_total");
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gtiming["setup"] = ctiming["_setup"]; ctiming.erase("_setup");
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gtiming["execution"] = ctiming["_execute"]; ctiming.erase("_execute");
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LOG(Message) << "* GLOBAL TIMERS" << std::endl;
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printTimeProfile(gtiming, total);
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if (!ctiming.empty())
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{
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LOG(Message) << "* CUSTOM TIMERS" << std::endl;
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printTimeProfile(ctiming, total);
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}
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timeProfile_[module_[p[i]].name] = total;
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totalTime_ += total;
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// print used memory after execution
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LOG(Message) << SMALL_SEP << " Memory management" << std::endl;
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LOG(Message) << "Allocated objects: " << MEM_MSG(sizeBefore)
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<< std::endl;
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if (sizeBefore > memPeak)
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{
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memPeak = sizeBefore;
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}
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// garbage collection for step i
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LOG(Message) << "Garbage collection..." << std::endl;
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for (auto &j: freeProg[i])
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{
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env().freeObject(j);
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}
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// print used memory after garbage collection if necessary
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sizeAfter = env().getTotalSize();
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if (sizeBefore != sizeAfter)
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{
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LOG(Message) << "Allocated objects: " << MEM_MSG(sizeAfter)
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<< std::endl;
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}
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else
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{
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LOG(Message) << "Nothing to free" << std::endl;
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}
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}
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// print total time profile
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LOG(Message) << SEP << " Measurement time profile" << SEP << std::endl;
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LOG(Message) << "Total measurement time: " << totalTime_ << " us" << std::endl;
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LOG(Message) << SMALL_SEP << " Module breakdown" << std::endl;
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printTimeProfile(timeProfile_, totalTime_);
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}
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void VirtualMachine::executeProgram(const std::vector<std::string> &p)
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{
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Program pAddress;
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for (auto &n: p)
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{
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pAddress.push_back(getModuleAddress(n));
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}
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executeProgram(pAddress);
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}
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