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benchmark.cpp
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benchmark.cpp
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#include <iostream>
#include <chrono>
#include <stxxl/cmdline>
#include <stack>
#include <stxxl/vector>
#include <Utils/MonotonicPowerlawRandomStream.h>
#include <DistributionCount.h>
#include <HavelHakimi/HavelHakimiGeneratorRLE.h>
#include <DegreeDistributionCheck.h>
#include "SwapGenerator.h"
#include <EdgeSwaps/EdgeSwapInternalSwaps.h>
#include <EdgeSwaps/EdgeSwapTFP.h>
#include <Utils/AsyncStream.h>
struct RunConfig {
stxxl::uint64 numNodes;
stxxl::uint64 numEdges;
stxxl::uint64 minDeg;
stxxl::uint64 maxDeg;
double gamma;
bool swapInternal;
bool swapTFP;
stxxl::uint64 swapsPerIteration;
stxxl::uint64 swapsPerTFPIteration;
unsigned int randomSeed;
stxxl::uint64 sweep_min;
stxxl::uint64 sweep_max;
stxxl::uint64 sweep_steps_per_dec;
RunConfig()
: numNodes(10 * IntScale::M)
, numEdges(50 * IntScale::M)
, minDeg(2)
, maxDeg(100000)
, gamma(-2.0)
, swapInternal(false)
, swapsPerIteration(1024*1024)
, swapsPerTFPIteration(0)
, sweep_min(IntScale::K)
, sweep_max(IntScale::G)
, sweep_steps_per_dec(4)
{
using myclock = std::chrono::high_resolution_clock;
myclock::duration d = myclock::now() - myclock::time_point::min();
randomSeed = d.count();
}
#if STXXL_VERSION_INTEGER > 10401
#define CMDLINE_COMP(chr, str, dest, args...) \
chr, str, dest, args
#else
#define CMDLINE_COMP(chr, str, dest, args...) \
chr, str, args, dest
#endif
bool parse_cmdline(int argc, char* argv[]) {
stxxl::cmdline_parser cp;
cp.add_bytes (CMDLINE_COMP('n', "num-nodes", numNodes, "Generate # nodes, Default: 10 Mi"));
cp.add_bytes (CMDLINE_COMP('m', "num-edges", numEdges, "If >0 generated sorted edge list is gets truncated"));
cp.add_bytes (CMDLINE_COMP('a', "min-deg", minDeg, "Min. Deg of Powerlaw Deg. Distr."));
cp.add_bytes (CMDLINE_COMP('b', "max-deg", maxDeg, "Max. Deg of Powerlaw Deg. Distr."));
cp.add_uint (CMDLINE_COMP('s', "seed", randomSeed, "Initial seed for PRNG"));
cp.add_flag (CMDLINE_COMP('i', "swap-internal", swapInternal, "Perform edge swaps in internal memory"));
cp.add_flag (CMDLINE_COMP('t', "swap-tfp", swapTFP, "Perform edge swaps using TFP"));
cp.add_bytes (CMDLINE_COMP('p', "swaps-per-iteration", swapsPerIteration, "Number of swaps per iteration"));
cp.add_bytes (CMDLINE_COMP('q', "swaps-per-tfp-iteration", swapsPerTFPIteration, "Number of swaps per TFP iteration"));
cp.add_bytes (CMDLINE_COMP('x', "sweep-min", sweep_min, "Min. Number of swaps"));
cp.add_bytes (CMDLINE_COMP('y', "sweep-max", sweep_max, "Max. Number of swaps"));
cp.add_bytes (CMDLINE_COMP('z', "sweep-steps", sweep_steps_per_dec, "Number of steps in sweep per decade"));
if (!cp.process(argc, argv)) {
cp.print_usage();
return false;
}
cp.print_result();
return true;
}
};
template <typename Generator, typename Vector>
void materialize(Generator& gen, Vector & edges, stxxl::stats * stats, stxxl::stats_data& stats_begin) {
std::cout << "Stats after filling of prio queue:" << (stxxl::stats_data(*stats) - stats_begin);
edges.resize(gen.maxEdges());
auto endIt = stxxl::stream::materialize(gen, edges.begin());
edges.resize(endIt - edges.begin());
std::cout << "Generated " << edges.size() << " edges of possibly " << gen.maxEdges() << " edges" << std::endl;
}
void benchmark(RunConfig & config) {
stxxl::stats * stats = stxxl::stats::get_instance();
stxxl::stats_data stats_begin(*stats);
MonotonicPowerlawRandomStream<> degreeSequence(config.minDeg, config.maxDeg, config.gamma, config.numNodes);
// create edge list
using result_vector_type = stxxl::VECTOR_GENERATOR<edge_t>::result;
result_vector_type edges;
AsyncStream<MonotonicPowerlawRandomStream<>> asyncDegree(degreeSequence, true);
DistributionCount<decltype(asyncDegree)> dcount(asyncDegree);
HavelHakimiGeneratorRLE<decltype(dcount)> hhgenerator(dcount);
materialize(hhgenerator, edges, stats, stats_begin);
STXXL_VERBOSE0("Edge list generated");
// sort edge list
result_vector_type swapEdges(edges.size());
{
result_vector_type::bufreader_type edgeReader(edges);
stxxl::sorter<edge_t, GenericComparator<edge_t>::Ascending> edgeSorter(GenericComparator<edge_t>::Ascending(), SORTER_MEM);
while (!edgeReader.empty()) {
if (edgeReader->first < edgeReader->second) {
edgeSorter.push(edge_t {edgeReader->first, edgeReader->second});
} else {
edgeSorter.push(edge_t {edgeReader->second, edgeReader->first});
}
++edgeReader;
}
edgeSorter.sort();
stxxl::stream::materialize(edgeSorter, swapEdges.begin());
}
STXXL_VERBOSE0("Edge list sorted");
// truncate edge list
if (config.numEdges) {
if (config.numEdges > edges.size()) {
std::cerr << "numEdges > number of edges generated " << edges.size() << std::endl;
abort();
}
edges.resize(config.numEdges);
STXXL_VERBOSE0("Edge list truncated to " << config.numEdges);
}
unsigned int iter = 1;
SwapGenerator swapGen(config.sweep_max, edges.size());
for(uint_t num_swaps = config.sweep_min;
num_swaps <= config.sweep_max;
num_swaps = static_cast<uint_t>(num_swaps * pow(10.0, 1.0 / config.sweep_steps_per_dec))
) {
STXXL_VERBOSE0("Begin iteration " << iter++ << " with |num_swaps|=" << num_swaps);
STXXL_VERBOSE0("Swap vector updated");
if (config.swapInternal) {
result_vector_type medges(swapEdges);
STXXL_VERBOSE0("Start Internal");
auto stat_start = stxxl::stats_data(*stats);
EdgeSwapInternalSwaps internalSwaps(medges, config.swapsPerIteration);
SwapGenerator mySwapGen(swapGen);
AsyncStream<SwapGenerator> astream(mySwapGen, true, config.swapsPerIteration, 2);
for(; !astream.empty(); astream.nextBuffer())
internalSwaps.swap_buffer(astream.readBuffer());
internalSwaps.run();
STXXL_VERBOSE0("Completed Internal Swaps" << (stxxl::stats_data(*stats) - stat_start));
}
}
}
int main(int argc, char* argv[]) {
#ifndef NDEBUG
std::cout << "[build with assertions]" << std::endl;
#endif
std::cout << STXXL_VERSION_INTEGER << std::endl;
RunConfig config;
if (!config.parse_cmdline(argc, argv))
return -1;
stxxl::srandom_number32(config.randomSeed);
stxxl::set_seed(config.randomSeed);
benchmark(config);
return 0;
}