GridFire/tests/graphnet_sandbox/main.cpp

#include <iostream>
#include <fstream>

#include "gridfire/engine/engine_graph.h"
#include "gridfire/engine/engine_approx8.h"
#include "gridfire/engine/views/engine_adaptive.h"
#include "gridfire/partition/partition_types.h"
#include "gridfire/engine/views/engine_defined.h"
#include "gridfire/engine/views/engine_multiscale.h"
#include "gridfire/engine/procedures/priming.h"
#include "gridfire/io/network_file.h"

#include "gridfire/solver/solver.h"

#include "gridfire/network.h"

#include "fourdst/composition/composition.h"

#include "fourdst/logging/logging.h"
#include "quill/Logger.h"
#include "quill/LogMacros.h"
#include "quill/Backend.h"
#include "quill/Frontend.h"

#include <chrono>
#include <functional>

#include "gridfire/partition/composite/partition_composite.h"

static std::terminate_handler g_previousHandler = nullptr;

void measure_execution_time(const std::function<void()>& callback, const std::string& name)
{
    const auto startTime   = std::chrono::steady_clock::now();
    callback();
    const auto endTime     = std::chrono::steady_clock::now();
    const auto duration    = std::chrono::duration_cast<std::chrono::nanoseconds>(endTime - startTime);
    std::cout << "Execution time for " << name << ": "
              << duration.count()/1e9 << " s\n";
}

void quill_terminate_handler()
{
    quill::Backend::stop();
    if (g_previousHandler)
        g_previousHandler();
    else
        std::abort();
}

int main() {
    g_previousHandler = std::set_terminate(quill_terminate_handler);
    quill::Logger* logger = fourdst::logging::LogManager::getInstance().getLogger("log");
    logger->set_log_level(quill::LogLevel::TraceL1);
    LOG_DEBUG(logger, "Starting Adaptive Engine View Example...");

    using namespace gridfire;
    const std::vector<double> comp = {0.708, 2.94e-5, 0.276, 0.003, 0.0011, 9.62e-3, 1.62e-3, 5.16e-4};
    const std::vector<std::string> symbols = {"H-1", "He-3", "He-4", "C-12", "N-14", "O-16", "Ne-20", "Mg-24"};


    fourdst::composition::Composition composition;
    composition.registerSymbol(symbols, true);
    composition.setMassFraction(symbols, comp);
    composition.finalize(true);
    using partition::BasePartitionType;
    const auto partitionFunction = partition::CompositePartitionFunction({
        BasePartitionType::RauscherThielemann,
        BasePartitionType::GroundState
    });

    NetIn netIn;
    netIn.composition = composition;
    netIn.temperature = 1.5e7;
    netIn.density = 1.5e3;
    netIn.energy = 0;
    netIn.tMax = 3e17;
    netIn.dt0 = 1e-12;

    GraphEngine ReaclibEngine(composition, partitionFunction, NetworkBuildDepth::SecondOrder);
    ReaclibEngine.exportToDot("GraphEngine.dot");
    auto primedReport = ReaclibEngine.primeEngine(netIn);
    if (!primedReport.success) {
        LOG_CRITICAL(logger, "Failed to prime the network!");
        return 1;
    }

    NetIn primedNetIn = netIn;
    primedNetIn.composition = primedReport.primedComposition;

    std::cout << primedReport.primedComposition << std::endl;

    MultiscalePartitioningEngineView partitioningView(ReaclibEngine);
    fourdst::composition::Composition qseComp = partitioningView.equilibrateNetwork(primedNetIn);
    std::cout << qseComp.getMolarAbundance("H-2") / qseComp.getMolarAbundance("H-1") << std::endl;

}