netgen/libsrc/core/paje_trace.cpp
2020-11-21 22:32:41 +01:00

1277 lines
40 KiB
C++

#include <algorithm>
#include <atomic>
#include <iostream>
#include <map>
#include <set>
#include <thread>
#include "archive.hpp" // for Demangle
#include "paje_trace.hpp"
#include "profiler.hpp"
#include "mpi_wrapper.hpp"
extern const char *header;
constexpr int MPI_PAJE_WRITER = 1;
namespace ngcore
{
static std::string GetTimerName( int id )
{
#ifndef PARALLEL
return NgProfiler::GetName(id);
#else // PARALLEL
if(id<NgProfiler::SIZE)
return NgProfiler::GetName(id);
NgMPI_Comm comm(MPI_COMM_WORLD);
return NgProfiler::GetName(id-NgProfiler::SIZE*comm.Rank());
#endif // PARALLEL
}
// Produce no traces by default
size_t PajeTrace::max_tracefile_size = 0;
// If true, produce variable counting active threads
// increases trace by a factor of two
bool PajeTrace::trace_thread_counter = false;
bool PajeTrace::trace_threads = true;
bool PajeTrace::mem_tracing_enabled = true;
PajeTrace :: PajeTrace(int anthreads, std::string aname)
{
nthreads = anthreads;
tracefile_name = std::move(aname);
int bytes_per_event=33;
max_num_events_per_thread = std::min( static_cast<size_t>(std::numeric_limits<int>::max()), max_tracefile_size/bytes_per_event/(nthreads+1+trace_thread_counter*nthreads)*10/7);
if(max_num_events_per_thread>0)
{
logger->info( "Tracefile size = {}MB", max_tracefile_size/1024/1024);
logger->info( "Tracing {} events per thread", max_num_events_per_thread);
}
tasks.resize(nthreads);
int reserve_size = std::min(1000000U, max_num_events_per_thread);
for(auto & t : tasks)
t.reserve(reserve_size);
links.resize(nthreads);
for(auto & l : links)
l.reserve(reserve_size);
jobs.reserve(reserve_size);
timer_events.reserve(reserve_size);
memory_events.reserve(1024*1024);
// sync start time when running in parallel
#ifdef PARALLEL
NgMPI_Comm comm(MPI_COMM_WORLD);
for(auto i : Range(5))
comm.Barrier();
#endif // PARALLEL
start_time = GetTimeCounter();
tracing_enabled = true;
mem_tracing_enabled = true;
}
PajeTrace :: ~PajeTrace()
{
for(auto & ltask : tasks)
for(auto & task : ltask)
{
task.start_time -= start_time;
task.stop_time -= start_time;
}
for(auto & job : jobs)
{
job.start_time -= start_time;
job.stop_time -= start_time;
}
for(auto & event : timer_events)
event.time -= start_time;
for(auto & llink : links)
for(auto & link : llink)
link.time -= start_time;
for(auto & m : memory_events)
m.time -= start_time;
NgMPI_Comm comm(MPI_COMM_WORLD);
if(comm.Size()==1)
{
Write(tracefile_name);
}
else
{
// make sure the timer id is unique across all ranks
for(auto & event : timer_events)
event.timer_id += NgProfiler::SIZE*comm.Rank();
if(comm.Rank() == MPI_PAJE_WRITER)
Write(tracefile_name);
else
SendData();
}
}
void PajeTrace::StopTracing()
{
if(tracing_enabled && max_num_events_per_thread>0)
{
logger->warn("Maximum number of traces reached, tracing is stopped now.");
}
tracing_enabled = false;
}
class PajeFile
{
public:
static void Hue2RGB ( double x, double &r, double &g, double &b )
{
double d = 1.0/6.0;
if(x<d)
r=1, g=6*x,b=0;
else if (x<2*d)
r=1.0-6*(x-d),g=1,b=0;
else if (x<3*d)
r=0, g=1,b=6*(x-2*d);
else if (x<4*d)
r=0, g=1-6*(x-3*d),b=1;
else if (x<5*d)
r=6*(x-4*d), g=0,b=1;
else
r=1, g=0,b=1-5*(x-d);
};
int alias_counter;
FILE * ctrace_stream;
std::shared_ptr<Logger> logger = GetLogger("PajeTrace");
double ConvertTime(TTimePoint t) {
// return time in milliseconds as double
// return std::chrono::duration<double>(t-start_time).count()*1000.0;
// return std::chrono::duration<double>(t-start_time).count() / 2.7e3;
return 1000.0*static_cast<double>(t) * seconds_per_tick;
}
enum PType
{
SET_VARIABLE=1,
ADD_VARIABLE,
SUB_VARIABLE,
PUSH_STATE,
POP_STATE,
START_LINK,
STOP_LINK
};
struct PajeEvent
{
PajeEvent( int aevent_type, double atime, int atype, int acontainer, double avar_value )
: time(atime), var_value(avar_value), event_type(aevent_type), type(atype), container(acontainer)
{ }
PajeEvent( int aevent_type, double atime, int atype, int acontainer, int avalue = 0, int aid = 0, bool avalue_is_alias = true )
: time(atime), event_type(aevent_type), type(atype), container(acontainer), value(avalue), id(aid), value_is_alias(avalue_is_alias)
{ }
PajeEvent( int aevent_type, double atime, int atype, int acontainer, int avalue, int astart_container, int akey )
: time(atime), event_type(aevent_type), type(atype), container(acontainer), value(avalue), start_container(astart_container), id(akey)
{ }
double time;
double var_value = 0.0;
int event_type;
int type;
int container;
int value = 0;
int start_container = 0;
int id = 0;
bool value_is_alias = true;
bool operator < (const PajeEvent & other) const {
// Same start and stop times can occur for very small tasks -> take "starting" events first (eg. PajePushState before PajePopState)
if(time == other.time)
return event_type < other.event_type;
return (time < other.time);
}
int write(FILE *stream)
{
const int &key = id;
const int &end_container = start_container;
switch(event_type)
{
case PajeSetVariable:
return fprintf( stream, "%d\t%.15g\ta%d\ta%d\t%.15g\n", PajeSetVariable, time, type, container, var_value ); // NOLINT
case PajeAddVariable:
return fprintf( stream, "%d\t%.15g\ta%d\ta%d\t%.15g\n", PajeAddVariable, time, type, container, var_value ); // NOLINT
case PajeSubVariable:
return fprintf( stream, "%d\t%.15g\ta%d\ta%d\t%.15g\n", PajeSubVariable, time, type, container, var_value ); // NOLINT
case PajePushState:
if(value_is_alias)
return fprintf( stream, "%d\t%.15g\ta%d\ta%d\ta%d\t%d\n", PajePushState, time, type, container, value, id); // NOLINT
else
return fprintf( stream, "%d\t%.15g\ta%d\ta%d\t%d\t%d\n", PajePushState, time, type, container, value, id); // NOLINT
case PajePopState:
return fprintf( stream, "%d\t%.15g\ta%d\ta%d\n", PajePopState, time, type, container ); // NOLINT
case PajeStartLink:
return fprintf( stream, "%d\t%.15g\ta%d\ta%d\t%d\ta%d\t%d\n", PajeStartLink, time, type, container, value, start_container, key ); // NOLINT
case PajeEndLink:
return fprintf( stream, "%d\t%.15g\ta%d\ta%d\t%d\ta%d\t%d\n", PajeEndLink, time, type, container, value, end_container, key ); // NOLINT
}
return 0;
}
};
std::vector<PajeEvent> events;
public:
PajeFile() = delete;
PajeFile(const PajeFile &) = delete;
PajeFile(PajeFile &&) = delete;
void operator=(const PajeFile &) = delete;
void operator=(PajeFile &&) = delete;
PajeFile( const std::string & filename)
{
std::string fname = filename + ".trace";
ctrace_stream = fopen (fname.c_str(),"w"); // NOLINT
fprintf(ctrace_stream, "%s", header ); // NOLINT
alias_counter = 0;
}
~PajeFile()
{
fclose (ctrace_stream); // NOLINT
}
int DefineContainerType ( int parent_type, const std::string & name )
{
int alias = ++alias_counter;
if(parent_type!=0)
fprintf( ctrace_stream, "%d\ta%d\ta%d\t\"%s\"\n", PajeDefineContainerType, alias, parent_type, name.c_str() ); // NOLINT
else
fprintf( ctrace_stream, "%d\ta%d\t%d\t\"%s\"\n", PajeDefineContainerType, alias, parent_type, name.c_str() ); // NOLINT
return alias;
}
int DefineVariableType ( int container_type, const std::string & name )
{
int alias = ++alias_counter;
fprintf( ctrace_stream, "%d\ta%d\ta%d\t\"%s\"\t\"1.0 1.0 1.0\"\n", PajeDefineVariableType, alias, container_type, name.c_str() ); // NOLINT
return alias;
}
int DefineStateType ( int type, const std::string & name )
{
int alias = ++alias_counter;
fprintf( ctrace_stream, "%d\ta%d\ta%d\t\"%s\"\n", PajeDefineStateType, alias, type, name.c_str() ); // NOLINT
return alias;
}
// int DefineEventType ()
// {
// Write("event not implemented");
// }
int DefineLinkType (int parent_container_type, int start_container_type, int stop_container_type, const std::string & name)
{
int alias = ++alias_counter;
fprintf( ctrace_stream, "%d\ta%d\ta%d\ta%d\ta%d\t\"%s\"\n", PajeDefineLinkType, alias, parent_container_type, start_container_type, stop_container_type, name.c_str() ); // NOLINT
return alias;
}
int DefineEntityValue (int type, const std::string & name, double hue = -1)
{
if(hue==-1)
{
std::hash<std::string> shash;
size_t h = shash(name);
h ^= h>>32U;
h = static_cast<uint32_t>(h);
hue = h*1.0/std::numeric_limits<uint32_t>::max();
}
int alias = ++alias_counter;
double r;
double g;
double b;
Hue2RGB( hue, r, g, b );
fprintf( ctrace_stream, "%d\ta%d\ta%d\t\"%s\"\t\"%.15g %.15g %.15g\"\n", PajeDefineEntityValue, alias, type, name.c_str(), r,g,b ); // NOLINT
return alias;
}
int CreateContainer ( int type, int parent, const std::string & name )
{
int alias = ++alias_counter;
if(parent!=0)
fprintf( ctrace_stream, "%d\t0\ta%d\ta%d\ta%d\t\"%s\"\n", PajeCreateContainer, alias, type, parent, name.c_str() ); // NOLINT
else
fprintf( ctrace_stream, "%d\t0\ta%d\ta%d\t%d\t\"%s\"\n", PajeCreateContainer, alias, type, parent, name.c_str() ); // NOLINT
return alias;
}
void DestroyContainer ()
{}
void SetVariable (TTimePoint time, int type, int container, double value )
{
events.emplace_back( PajeEvent( PajeSetVariable, ConvertTime(time), type, container, value ) );
}
void AddVariable (TTimePoint time, int type, int container, double value )
{
events.emplace_back( PajeEvent( PajeAddVariable, ConvertTime(time), type, container, value ) );
}
void SubVariable (TTimePoint time, int type, int container, double value )
{
events.emplace_back( PajeEvent( PajeSubVariable, ConvertTime(time), type, container, value ) );
}
void SetState ()
{}
void PushState ( TTimePoint time, int type, int container, int value, int id = 0, bool value_is_alias = true )
{
events.emplace_back( PajeEvent( PajePushState, ConvertTime(time), type, container, value, id, value_is_alias) );
}
void PopState ( TTimePoint time, int type, int container )
{
events.emplace_back( PajeEvent( PajePopState, ConvertTime(time), type, container ) );
}
void ResetState ()
{}
void StartLink ( TTimePoint time, int type, int container, int value, int start_container, int key )
{
events.emplace_back( PajeEvent( PajeStartLink, ConvertTime(time), type, container, value, start_container, key ) );
}
void EndLink ( TTimePoint time, int type, int container, int value, int end_container, int key )
{
events.emplace_back( PajeEvent( PajeEndLink, ConvertTime(time), type, container, value, end_container, key ) );
}
void NewEvent ()
{}
void WriteEvents()
{
logger->info("Sorting traces...");
std::sort (events.begin(), events.end());
logger->info("Writing traces... ");
for (auto & event : events)
{
event.write( ctrace_stream );
// fprintf( ctrace_stream, "%s", buf ); // NOLINT
}
logger->info("Done");
}
private:
enum
{
PajeDefineContainerType = 0,
PajeDefineVariableType = 1,
PajeDefineStateType = 2,
PajeDefineEventType = 3,
PajeDefineLinkType = 4,
PajeDefineEntityValue = 5,
PajeCreateContainer = 6,
PajeDestroyContainer = 7,
PajeSetVariable = 8,
PajeAddVariable = 9,
PajeSubVariable = 10,
PajeSetState = 11,
PajePushState = 12,
PajePopState = 13,
PajeResetState = 14,
PajeStartLink = 15,
PajeEndLink = 16,
PajeNewEvent = 17
};
};
NGCORE_API PajeTrace *trace;
void PajeTrace::Write( const std::string & filename )
{
auto n_events = jobs.size() + timer_events.size();
for(auto & vtasks : tasks)
n_events += vtasks.size();
logger->info("{} events traced", n_events);
if(n_events==0)
{
logger->info("No data traced, skip writing trace file");
return;
}
if(!tracing_enabled)
{
logger->warn("Tracing stopped during computation due to tracefile size limit of {} megabytes.", max_tracefile_size/1024/1024);
}
PajeFile paje(filename);
const int container_type_task_manager = paje.DefineContainerType( 0, "Task Manager" );
const int container_type_node = paje.DefineContainerType( container_type_task_manager, "Node");
const int container_type_thread = paje.DefineContainerType( container_type_task_manager, "Thread");
const int container_type_timer = container_type_thread; //paje.DefineContainerType( container_type_task_manager, "Timers");
const int container_type_jobs = paje.DefineContainerType( container_type_task_manager, "Jobs");
const int container_type_memory = paje.DefineContainerType( container_type_task_manager, "Memory usage");
const int state_type_job = paje.DefineStateType( container_type_jobs, "Job" );
const int state_type_task = paje.DefineStateType( container_type_thread, "Task" );
const int state_type_timer = paje.DefineStateType( container_type_timer, "Timer state" );
int variable_type_active_threads = 0;
if(trace_thread_counter)
variable_type_active_threads = paje.DefineVariableType( container_type_jobs, "Active threads" );
const int container_task_manager = paje.CreateContainer( container_type_task_manager, 0, "The task manager" );
const int container_jobs = paje.CreateContainer( container_type_jobs, container_task_manager, "Jobs" );
int variable_type_memory = 0;
const int container_memory = paje.CreateContainer( container_type_memory, container_task_manager, "Memory" );
if(mem_tracing_enabled)
{
variable_type_memory = paje.DefineVariableType( container_type_task_manager, "Memory [MB]" );
paje.SetVariable( 0, variable_type_memory, container_memory, 0.0 );
}
int num_nodes = 1; //task_manager ? task_manager->GetNumNodes() : 1;
std::vector <int> thread_aliases;
std::vector<int> container_nodes;
#ifdef PARALLEL
// Hostnames
NgMPI_Comm comm(MPI_COMM_WORLD);
auto rank = comm.Rank();
auto nranks = comm.Size();
if(nranks>1)
{
nthreads = nranks;
thread_aliases.reserve(nthreads);
std::array<char, MPI_MAX_PROCESSOR_NAME+1> ahostname;
int len;
MPI_Get_processor_name(ahostname.data(), &len);
std::string hostname = ahostname.data();
std::map<std::string, int> host_map;
std::string name;
for(auto i : IntRange(0, nranks))
{
if(i!=MPI_PAJE_WRITER)
comm.Recv(name, i, 0);
else
name = hostname;
if(host_map.count(name)==0)
{
host_map[name] = container_nodes.size();
container_nodes.emplace_back( paje.CreateContainer( container_type_node, container_task_manager, name) );
}
thread_aliases.emplace_back( paje.CreateContainer( container_type_thread, container_nodes[host_map[name]], "Rank " + ToString(i) ) );
}
}
else
#endif // PARALLEL
{
container_nodes.reserve(num_nodes);
for(int i=0; i<num_nodes; i++)
container_nodes.emplace_back( paje.CreateContainer( container_type_node, container_task_manager, "Node " + ToString(i)) );
thread_aliases.reserve(nthreads);
if(trace_threads)
for (int i=0; i<nthreads; i++)
{
auto name = "Thread " + ToString(i);
thread_aliases.emplace_back( paje.CreateContainer( container_type_thread, container_nodes[i*num_nodes/nthreads], name ) );
}
}
std::map<const std::type_info *, int> job_map;
std::map<const std::type_info *, int> job_task_map;
for(Job & j : jobs)
if(job_map.find(j.type) == job_map.end())
{
std::string name = Demangle(j.type->name());
job_map[j.type] = paje.DefineEntityValue( state_type_job, name, -1 );
job_task_map[j.type] = paje.DefineEntityValue( state_type_task, name, -1 );
}
for(Job & j : jobs)
{
paje.PushState( j.start_time, state_type_job, container_jobs, job_map[j.type] );
paje.PopState( j.stop_time, state_type_job, container_jobs );
}
for(const auto & m : memory_events)
{
double size = 1.0*m.size/(1024*1024);
if(m.is_alloc)
paje.AddVariable( m.time, variable_type_memory, container_memory, size);
else
paje.SubVariable( m.time, variable_type_memory, container_memory, size);
}
std::set<int> timer_ids;
std::map<int,int> timer_aliases;
std::map<int,std::string> timer_names;
for(auto & event : timer_events)
timer_ids.insert(event.timer_id);
// Timer names
for(auto & vtasks : tasks)
for (Task & t : vtasks)
if(t.id_type==Task::ID_TIMER)
timer_ids.insert(t.id);
for(auto id : timer_ids)
timer_names[id] = GetTimerName(id);
#ifdef PARALLEL
if(nranks>1)
{
for(auto src : IntRange(0, nranks))
{
if(src==MPI_PAJE_WRITER)
continue;
size_t n_timers;
comm.Recv (n_timers, src, 0);
int id;
std::string name;
for(auto i : IntRange(n_timers))
{
comm.Recv (id, src, 0);
comm.Recv (name, src, 0);
timer_ids.insert(id);
timer_names[id] = name;
}
}
}
#endif // PARALLEL
for(auto id : timer_ids)
timer_aliases[id] = paje.DefineEntityValue( state_type_timer, timer_names[id], -1 );
int timerdepth = 0;
int maxdepth = 0;
for(auto & event : timer_events)
{
if(event.is_start)
{
timerdepth++;
maxdepth = timerdepth>maxdepth ? timerdepth : maxdepth;
}
else
timerdepth--;
}
std::vector<int> timer_container_aliases;
timer_container_aliases.resize(maxdepth);
for(int i=0; i<maxdepth; i++)
{
auto name = "Timer level " + ToString(i);
timer_container_aliases[i] = paje.CreateContainer( container_type_timer, container_task_manager, name );
}
timerdepth = 0;
for(auto & event : timer_events)
{
if(event.is_start)
paje.PushState( event.time, state_type_timer, timer_container_aliases[timerdepth++], timer_aliases[event.timer_id] );
else
paje.PopState( event.time, state_type_timer, timer_container_aliases[--timerdepth] );
}
for(auto & vtasks : tasks)
{
for (Task & t : vtasks) {
int value_id = t.id;
switch(t.id_type)
{
case Task::ID_JOB:
value_id = job_task_map[jobs[t.id-1].type];
if(trace_thread_counter)
{
paje.AddVariable( t.start_time, variable_type_active_threads, container_jobs, 1.0 );
paje.SubVariable( t.stop_time, variable_type_active_threads, container_jobs, 1.0 );
}
if(trace_threads)
{
paje.PushState( t.start_time, state_type_task, thread_aliases[t.thread_id], value_id, t.additional_value, true );
paje.PopState( t.stop_time, state_type_task, thread_aliases[t.thread_id] );
}
break;
case Task::ID_TIMER:
value_id = timer_aliases[t.id];
paje.PushState( t.start_time, state_type_timer, thread_aliases[t.thread_id], value_id, t.additional_value, true );
paje.PopState( t.stop_time, state_type_timer, thread_aliases[t.thread_id] );
break;
default:
paje.PushState( t.start_time, state_type_task, thread_aliases[t.thread_id], value_id, t.additional_value, false );
paje.PopState( t.stop_time, state_type_task, thread_aliases[t.thread_id] );
break;
}
}
}
#ifdef PARALLEL
if(nranks>1)
{
for(auto & event : timer_events)
{
if(event.is_start)
paje.PushState( event.time, state_type_timer, thread_aliases[MPI_PAJE_WRITER], timer_aliases[event.timer_id] );
else
paje.PopState( event.time, state_type_timer, thread_aliases[MPI_PAJE_WRITER] );
}
// Timer events
Array<int> timer_id;
Array<TTimePoint> time;
Array<bool> is_start;
Array<int> thread_id;
for(auto src : IntRange(0, nranks))
{
if(src==MPI_PAJE_WRITER)
continue;
comm.Recv (timer_id, src, 0);
comm.Recv (time, src, 0);
comm.Recv (is_start, src, 0);
comm.Recv (thread_id, src, 0);
for(auto i : Range(timer_id.Size()))
{
TimerEvent event;
event.timer_id = timer_id[i];
event.time = time[i];
event.is_start = is_start[i];
event.thread_id = thread_id[i];
if(event.is_start)
paje.PushState( event.time, state_type_timer, thread_aliases[src], timer_aliases[event.timer_id] );
else
paje.PopState( event.time, state_type_timer, thread_aliases[src] );
}
}
}
#endif // PARALLEL
// Merge link event
int nlinks = 0;
for( auto & l : links)
nlinks += l.size();
std::vector<ThreadLink> links_merged;
links_merged.reserve(nlinks);
std::vector<unsigned int> pos(nthreads);
int nlinks_merged = 0;
while(nlinks_merged < nlinks)
{
int minpos = -1;
TTimePoint mintime = -1;
for (int t = 0; t<nthreads; t++)
{
if(pos[t] < links[t].size() && (minpos==-1 || links[t][pos[t]].time < mintime))
{
minpos = t;
mintime = links[t][pos[t]].time;
}
}
links_merged.push_back( links[minpos][pos[minpos]] );
pos[minpos]++;
nlinks_merged++;
}
std::vector<ThreadLink> started_links;
int link_type = paje.DefineLinkType(container_type_node, container_type_thread, container_type_thread, "links");
// match links
for ( auto & l : links_merged )
{
if(l.is_start)
{
started_links.push_back(l);
}
else
{
unsigned int i = 0;
while(i<started_links.size())
{
while(i<started_links.size() && started_links[i].key == l.key)
{
ThreadLink & sl = started_links[i];
// Avoid links on same thread
if(sl.thread_id != l.thread_id)
{
paje.StartLink( sl.time, link_type, container_nodes[sl.thread_id*num_nodes/nthreads], l.key, thread_aliases[sl.thread_id], l.key);
paje.EndLink( l.time, link_type, container_nodes[l.thread_id*num_nodes/nthreads], l.key, thread_aliases[l.thread_id], l.key);
}
started_links.erase(started_links.begin()+i);
}
i++;
}
}
}
WriteTimingChart();
#ifdef NETGEN_TRACE_MEMORY
WriteMemoryChart("");
#endif // NETGEN_TRACE_MEMORY
paje.WriteEvents();
}
void PajeTrace::SendData( )
{
#ifdef PARALLEL
// Hostname
NgMPI_Comm comm(MPI_COMM_WORLD);
auto rank = comm.Rank();
auto nranks = comm.Size();
std::string hostname;
{
std::array<char, MPI_MAX_PROCESSOR_NAME+1> ahostname;
int len;
MPI_Get_processor_name(ahostname.data(), &len);
hostname = ahostname.data();
}
comm.Send(hostname, MPI_PAJE_WRITER, 0);
// Timer names
std::set<int> timer_ids;
std::map<int,std::string> timer_names;
for(auto & event : timer_events)
timer_ids.insert(event.timer_id);
for(auto id : timer_ids)
timer_names[id] = GetTimerName(id);
size_t size = timer_ids.size();
comm.Send(size, MPI_PAJE_WRITER, 0);
for(auto id : timer_ids)
{
comm.Send(id, MPI_PAJE_WRITER, 0);
comm.Send(timer_names[id], MPI_PAJE_WRITER, 0);
}
// Timer events
Array<int> timer_id;
Array<TTimePoint> time;
Array<bool> is_start;
Array<int> thread_id;
for(auto & event : timer_events)
{
timer_id.Append(event.timer_id);
time.Append(event.time);
is_start.Append(event.is_start);
thread_id.Append(event.thread_id);
}
comm.Send (timer_id, MPI_PAJE_WRITER, 0);
comm.Send (time, MPI_PAJE_WRITER, 0);
comm.Send (is_start, MPI_PAJE_WRITER, 0);
comm.Send (thread_id, MPI_PAJE_WRITER, 0);
#endif // PARALLEL
}
///////////////////////////////////////////////////////////////////
// Write HTML file drawing a sunburst chart with cumulated timings
struct TreeNode
{
int id = 0;
std::map<int, TreeNode> children;
double chart_size = 0.0; // time without children (the chart lib accumulates children sizes again)
double size = 0.0;
double min_size = 1e99;
double max_size = 0.0;
std::string name;
size_t calls = 0;
TTimePoint start_time = 0;
};
void PrintNode (const TreeNode &n, std::ofstream & f)
{
f << "{ name: \"" + n.name + "\"";
f << ", calls: " << n.calls;
f << ", size: " << n.chart_size;
f << ", value: " << n.size;
f << ", min: " << n.min_size;
f << ", max: " << n.max_size;
if(n.calls)
f << ", avg: " << n.size/n.calls;
int size = n.children.size();
if(size>0)
{
int i = 0;
f << ", children: [";
for(auto & c : n.children)
{
PrintNode(c.second, f);
if(++i<size)
f << " , ";
}
f << ']';
}
f << '}';
}
void WriteSunburstHTML( TreeNode & root, std::string filename, bool time_or_memory )
{
std::ofstream f(filename+".html");
f.precision(4);
f << R"CODE_(
<head>
<script src="https://d3js.org/d3.v5.min.js"></script>
<script src="https://unpkg.com/sunburst-chart"></script>
<style>body { margin: 0 }</style>
)CODE_";
if(!time_or_memory)
f << "<title>Maximum Memory Consumption</title>\n";
f << R"CODE_(
</head>
<body>
<div id="chart"></div>
<script>
const data =
)CODE_";
PrintNode(root, f);
f << ";\n\n";
if(time_or_memory)
f << "const chart_type = 'time';\n";
else
f << "const chart_type = 'memory';\n";
f << R"CODE_(
const color = d3.scaleOrdinal(d3.schemePaired);
let getTime = (t) =>
{
if(t>=1000) return (t/1000).toPrecision(4) + ' s';
if(t>=0.1) return t.toPrecision(4) + ' ms';
if(t>=1e-4) return (t*1e3).toPrecision(4) + ' us';
return (t/1e6).toPrecision(4) + ' ns';
};
const KB_ = 1024;
const MB_ = KB_*1024;
const GB_ = MB_*1024;
let getMemory = (m) =>
{
if(m>=GB_) return (m/GB_).toPrecision(4) + ' GB';
if(m>=MB_) return (m/MB_).toPrecision(4) + ' MB';
if(m>=KB_) return (m/KB_).toPrecision(4) + ' KB';
return m.toPrecision(4) + ' B';
};
Sunburst()
.data(data)
.size('size')
.color(d => color(d.name))
.tooltipTitle((d, node) => { return node.parent ? node.parent.data.name + " &rarr; " + d.name : d.name; })
.tooltipContent((d, node) => {
if(chart_type=="memory")
{
return `Total Memory: <i>${getMemory(d.value)}</i> <br>`
+ `Memory: <i>${getMemory(d.size)}</i>`
}
else
{
return `Time: <i>${getTime(d.value)}</i> <br>`
+ `calls: <i>${d.calls}</i> <br>`
+ `min: <i>${getTime(d.min)}</i> <br>`
+ `max: <i>${getTime(d.max)}</i> <br>`
+ `avg: <i>${getTime(d.avg)}</i>`
}
})
(document.getElementById('chart'));
// Line breaks in tooltip
var all = document.getElementsByClassName('sunbirst-tooltip');
for (var i = 0; i < all.length; i++) {
all[i].white_space = "";
}
</script>
</body>
)CODE_" << std::endl;
}
#ifdef NETGEN_TRACE_MEMORY
void PajeTrace::WriteMemoryChart( std::string fname )
{
if(fname=="")
fname = tracefile_name + "_memory";
size_t mem_allocated = 0;
size_t max_mem_allocated = 0;
size_t imax_mem_allocated = 0;
const auto & names = MemoryTracer::GetNames();
const auto & tree = MemoryTracer::GetTree();
size_t N = names.size();
Array<size_t> mem_allocated_id;
mem_allocated_id.SetSize(N);
mem_allocated_id = 0;
// Find point with maximum memory allocation, check for missing allocs/frees
for(auto i : IntRange(memory_events.size()))
{
const auto & ev = memory_events[i];
if(ev.is_alloc)
{
mem_allocated += ev.size;
mem_allocated_id[ev.id] += ev.size;
if(mem_allocated > max_mem_allocated)
{
imax_mem_allocated = i;
max_mem_allocated = mem_allocated;
}
}
else
{
if(ev.size > mem_allocated)
{
std::cerr << "Error in memory tracer: have total allocated memory < 0" << std::endl;
mem_allocated = 0;
}
else
mem_allocated -= ev.size;
if(ev.size > mem_allocated_id[ev.id])
{
std::cerr << "Error in memory tracer: have allocated memory < 0 in tracer " << names[ev.id] << std::endl;
mem_allocated_id[ev.id] = 0;
}
else
mem_allocated_id[ev.id] -= ev.size;
}
}
// reconstruct again the memory consumption after event imax_mem_allocated
mem_allocated_id = 0;
for(auto i : IntRange(imax_mem_allocated+1))
{
const auto & ev = memory_events[i];
if(ev.is_alloc)
mem_allocated_id[ev.id] += ev.size;
else
{
if(ev.size > mem_allocated_id[ev.id])
mem_allocated_id[ev.id] = 0;
else
mem_allocated_id[ev.id] -= ev.size;
}
}
TreeNode root;
root.name="all";
Array<TreeNode*> nodes;
nodes.SetSize(N);
nodes = nullptr;
Array<size_t> sorting; // topological sorting (parents before children)
sorting.SetAllocSize(N);
ArrayMem<size_t, 100> stack;
// find root nodes in memory tracer tree, i.e. they have no parents
Array<int> parents;
parents.SetSize(N);
parents = -1;
for( const auto & [iparent, children] : tree )
for (auto child_id : children)
{
if(parents[child_id] != -1)
std::cerr << "Error in memory tracer: multiple parents found for " << names[child_id] << std::endl;
parents[child_id] = iparent;
}
for(auto i : IntRange(1, N))
if(parents[i]==-1)
{
sorting.Append(i);
if(tree.count(i))
stack.Append(i);
}
while(stack.Size())
{
auto current = stack.Last();
stack.DeleteLast();
for(const auto child : tree.at(current))
{
sorting.Append(child);
if(tree.count(child))
stack.Append(child);
}
}
for(auto i : sorting)
{
TreeNode * parent = (parents[i]==-1) ? &root : nodes[parents[i]];
auto & node = parent->children[i];
nodes[i] = &node;
node.id = i;
node.chart_size = mem_allocated_id[i];
node.size = mem_allocated_id[i];
node.name = names[i];
}
for(auto i_ : Range(sorting))
{
// reverse topological order to accumulate total memory usage of all children
auto i = sorting[sorting.Size()-1-i_];
if(parents[i]==-1)
root.size += nodes[i]->size;
else
nodes[parents[i]]->size += nodes[i]->size;
}
WriteSunburstHTML( root, fname, false );
}
#endif // NETGEN_TRACE_MEMORY
void PajeTrace::WriteTimingChart( )
{
std::vector<TimerEvent> events;
TreeNode root;
root.name="all";
TreeNode *current = &root;
std::vector<TreeNode*> node_stack;
node_stack.push_back(&root);
TTimePoint stop_time = 0;
for(auto & event : timer_events)
{
events.push_back(event);
stop_time = std::max(event.time, stop_time);
}
std::map<std::string, int> jobs_map;
std::vector<std::string> job_names;
for(auto & job : jobs)
{
auto name = Demangle(job.type->name());
int id = job_names.size();
if(jobs_map.count(name)==0)
{
jobs_map[name] = id;
job_names.push_back(name);
}
else
id = jobs_map[name];
events.push_back(TimerEvent{-1, job.start_time, true, id});
events.push_back(TimerEvent{-1, job.stop_time, false, id});
stop_time = std::max(job.stop_time, stop_time);
}
std::sort (events.begin(), events.end());
root.size = 1000.0*static_cast<double>(stop_time) * seconds_per_tick;
root.calls = 1;
root.min_size = root.size;
root.max_size = root.size;
for(auto & event : events)
{
bool is_timer_event = event.timer_id != -1;
int id = is_timer_event ? event.timer_id : event.thread_id;
if(event.is_start)
{
bool need_init = !current->children.count(id);
node_stack.push_back(current);
current = &current->children[id];
if(need_init)
{
current->name = is_timer_event ? GetTimerName(id) : job_names[id];
current->size = 0.0;
current->id = id;
}
current->start_time = event.time;
}
else
{
if(node_stack.size()==0) {
std::cout << "node stack empty!" << std::endl;
break;
}
double size = 1000.0*static_cast<double>(event.time-current->start_time) * seconds_per_tick;
current->size += size;
current->chart_size += size;
current->min_size = std::min(current->min_size, size);
current->max_size = std::max(current->max_size, size);
current->calls++;
current = node_stack.back();
current->chart_size -= size;
node_stack.pop_back();
}
}
root.chart_size = 0.0;
ngcore::WriteSunburstHTML( root, tracefile_name, true );
}
} // namespace ngcore
const char *header =
"%EventDef PajeDefineContainerType 0 \n"
"% Alias string \n"
"% Type string \n"
"% Name string \n"
"%EndEventDef \n"
"%EventDef PajeDefineVariableType 1 \n"
"% Alias string \n"
"% Type string \n"
"% Name string \n"
"% Color color \n"
"%EndEventDef \n"
"%EventDef PajeDefineStateType 2 \n"
"% Alias string \n"
"% Type string \n"
"% Name string \n"
"%EndEventDef \n"
"%EventDef PajeDefineEventType 3 \n"
"% Alias string \n"
"% Type string \n"
"% Name string \n"
"% Color color \n"
"%EndEventDef \n"
"%EventDef PajeDefineLinkType 4 \n"
"% Alias string \n"
"% Type string \n"
"% StartContainerType string \n"
"% EndContainerType string \n"
"% Name string \n"
"%EndEventDef \n"
"%EventDef PajeDefineEntityValue 5 \n"
"% Alias string \n"
"% Type string \n"
"% Name string \n"
"% Color color \n"
"%EndEventDef \n"
"%EventDef PajeCreateContainer 6 \n"
"% Time date \n"
"% Alias string \n"
"% Type string \n"
"% Container string \n"
"% Name string \n"
"%EndEventDef \n"
"%EventDef PajeDestroyContainer 7 \n"
"% Time date \n"
"% Type string \n"
"% Name string \n"
"%EndEventDef \n"
"%EventDef PajeSetVariable 8 \n"
"% Time date \n"
"% Type string \n"
"% Container string \n"
"% Value double \n"
"%EndEventDef\n"
"%EventDef PajeAddVariable 9 \n"
"% Time date \n"
"% Type string \n"
"% Container string \n"
"% Value double \n"
"%EndEventDef\n"
"%EventDef PajeSubVariable 10 \n"
"% Time date \n"
"% Type string \n"
"% Container string \n"
"% Value double \n"
"%EndEventDef\n"
"%EventDef PajeSetState 11 \n"
"% Time date \n"
"% Type string \n"
"% Container string \n"
"% Value string \n"
"%EndEventDef\n"
"%EventDef PajePushState 12 \n"
"% Time date \n"
"% Type string \n"
"% Container string \n"
"% Value string \n"
"% Id string \n"
"%EndEventDef\n"
"%EventDef PajePopState 13 \n"
"% Time date \n"
"% Type string \n"
"% Container string \n"
"%EndEventDef\n"
"%EventDef PajeResetState 14 \n"
"% Time date \n"
"% Type string \n"
"% Container string \n"
"%EndEventDef\n"
"%EventDef PajeStartLink 15 \n"
"% Time date \n"
"% Type string \n"
"% Container string \n"
"% Value string \n"
"% StartContainer string \n"
"% Key string \n"
"%EndEventDef\n"
"%EventDef PajeEndLink 16 \n"
"% Time date \n"
"% Type string \n"
"% Container string \n"
"% Value string \n"
"% EndContainer string \n"
"% Key string \n"
"%EndEventDef\n"
"%EventDef PajeNewEvent 17 \n"
"% Time date \n"
"% Type string \n"
"% Container string \n"
"% Value string \n"
"%EndEventDef\n";