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Code Issues Releases Wiki Activity

make it easier to see the diff

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Signed-off-by: Liao <dezhliao@amd.com>
This commit is contained in:
Liao 2025-01-23 10:18:12 -08:00
parent e19a823c37
commit 4662be3aac
1 changed files with 131 additions and 132 deletions
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263
csvexport/src/csvexport.cpp
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@ -253,138 +253,7 @@ int main(int argc, char** argv)
std::this_thread::sleep_for(std::chrono::milliseconds(10));
}
if (!args.show_gpu)
{
auto& slz = worker.GetSourceLocationZones();
tracy::Vector<decltype(slz.begin())> slz_selected;
slz_selected.reserve(slz.size());
uint32_t total_cnt = 0;
for(auto it = slz.begin(); it != slz.end(); ++it)
{
if(it->second.total != 0)
{
++total_cnt;
if(args.filter[0] == '\0')
{
slz_selected.push_back_no_space_check(it);
}
else
{
auto name = get_name(it->first, worker);
if(is_substring(args.filter, name, args.case_sensitive))
{
slz_selected.push_back_no_space_check(it);
}
}
}
}
std::vector<const char*> columns;
if (args.unwrap)
{
columns = {
"name", "src_file", "src_line", "ns_since_start", "exec_time_ns", "thread", "value"
};
}
else
{
columns = {
"name", "src_file", "src_line", "total_ns", "total_perc",
"counts", "mean_ns", "min_ns", "max_ns", "std_ns"
};
}
std::string header = join(columns, args.separator);
printf("%s\n", header.data());
const auto last_time = worker.GetLastTime();
for(auto& it : slz_selected)
{
std::vector<std::string> values(columns.size());
values[0] = get_name(it->first, worker);
const auto& srcloc = worker.GetSourceLocation(it->first);
values[1] = worker.GetString(srcloc.file);
values[2] = std::to_string(srcloc.line);
const auto& zone_data = it->second;
if (args.unwrap)
{
int i = 0;
for (const auto& zone_thread_data : zone_data.zones) {
const auto zone_event = zone_thread_data.Zone();
const auto tId = zone_thread_data.Thread();
const auto start = zone_event->Start();
const auto end = zone_event->End();
values[3] = std::to_string(start);
auto timespan = end - start;
if (args.self_time) {
timespan -= GetZoneChildTimeFast(worker, *zone_event);
}
values[4] = std::to_string(timespan);
values[5] = std::to_string(tId);
std::string row = join(values, args.separator);
printf("%s\n", row.data());
}
}
else
{
const auto time = args.self_time ? zone_data.selfTotal : zone_data.total;
values[3] = std::to_string(time);
values[4] = std::to_string(100. * time / last_time);
values[5] = std::to_string(zone_data.zones.size());
const auto avg = (args.self_time ? zone_data.selfTotal : zone_data.total)
/ zone_data.zones.size();
values[6] = std::to_string(avg);
const auto tmin = args.self_time ? zone_data.selfMin : zone_data.min;
const auto tmax = args.self_time ? zone_data.selfMax : zone_data.max;
values[7] = std::to_string(tmin);
values[8] = std::to_string(tmax);
const auto sz = zone_data.zones.size();
const auto ss = zone_data.sumSq
- 2. * zone_data.total * avg
+ avg * avg * sz;
double std = 0;
if( sz > 1 )
std = sqrt(ss / (sz - 1));
values[9] = std::to_string(std);
std::string row = join(values, args.separator);
printf("%s\n", row.data());
}
}
if(args.plot && args.unwrap)
{
auto& plots = worker.GetPlots();
for(const auto& plot : plots)
{
std::vector<std::string> values(columns.size());
values[0] = worker.GetString(plot->name);
for(const auto& val : plot->data)
{
if (args.unwrap)
{
values[3] = std::to_string(val.time.Val());
values[6] = std::to_string(val.val);
}
std::string row = join(values, args.separator);
printf("%s\n", row.data());
}
}
}
}
else // only show gpu event statistics
if (args.show_gpu)
{
auto& gpu_slz = worker.GetGpuSourceLocationZones();
tracy::Vector<decltype( gpu_slz.begin() )> gpu_slz_selected;
@ -443,6 +312,136 @@ int main(int argc, char** argv)
printf( "%s\n", row.data() );
}
}
return 0;
}
auto& slz = worker.GetSourceLocationZones();
tracy::Vector<decltype(slz.begin())> slz_selected;
slz_selected.reserve(slz.size());
uint32_t total_cnt = 0;
for(auto it = slz.begin(); it != slz.end(); ++it)
{
if(it->second.total != 0)
{
++total_cnt;
if(args.filter[0] == '\0')
{
slz_selected.push_back_no_space_check(it);
}
else
{
auto name = get_name(it->first, worker);
if(is_substring(args.filter, name, args.case_sensitive))
{
slz_selected.push_back_no_space_check(it);
}
}
}
}
std::vector<const char*> columns;
if (args.unwrap)
{
columns = {
"name", "src_file", "src_line", "ns_since_start", "exec_time_ns", "thread", "value"
};
}
else
{
columns = {
"name", "src_file", "src_line", "total_ns", "total_perc",
"counts", "mean_ns", "min_ns", "max_ns", "std_ns"
};
}
std::string header = join(columns, args.separator);
printf("%s\n", header.data());
const auto last_time = worker.GetLastTime();
for(auto& it : slz_selected)
{
std::vector<std::string> values(columns.size());
values[0] = get_name(it->first, worker);
const auto& srcloc = worker.GetSourceLocation(it->first);
values[1] = worker.GetString(srcloc.file);
values[2] = std::to_string(srcloc.line);
const auto& zone_data = it->second;
if (args.unwrap)
{
int i = 0;
for (const auto& zone_thread_data : zone_data.zones) {
const auto zone_event = zone_thread_data.Zone();
const auto tId = zone_thread_data.Thread();
const auto start = zone_event->Start();
const auto end = zone_event->End();
values[3] = std::to_string(start);
auto timespan = end - start;
if (args.self_time) {
timespan -= GetZoneChildTimeFast(worker, *zone_event);
}
values[4] = std::to_string(timespan);
values[5] = std::to_string(tId);
std::string row = join(values, args.separator);
printf("%s\n", row.data());
}
}
else
{
const auto time = args.self_time ? zone_data.selfTotal : zone_data.total;
values[3] = std::to_string(time);
values[4] = std::to_string(100. * time / last_time);
values[5] = std::to_string(zone_data.zones.size());
const auto avg = (args.self_time ? zone_data.selfTotal : zone_data.total)
/ zone_data.zones.size();
values[6] = std::to_string(avg);
const auto tmin = args.self_time ? zone_data.selfMin : zone_data.min;
const auto tmax = args.self_time ? zone_data.selfMax : zone_data.max;
values[7] = std::to_string(tmin);
values[8] = std::to_string(tmax);
const auto sz = zone_data.zones.size();
const auto ss = zone_data.sumSq
- 2. * zone_data.total * avg
+ avg * avg * sz;
double std = 0;
if( sz > 1 )
std = sqrt(ss / (sz - 1));
values[9] = std::to_string(std);
std::string row = join(values, args.separator);
printf("%s\n", row.data());
}
}
if(args.plot && args.unwrap)
{
auto& plots = worker.GetPlots();
for(const auto& plot : plots)
{
std::vector<std::string> values(columns.size());
values[0] = worker.GetString(plot->name);
for(const auto& val : plot->data)
{
if (args.unwrap)
{
values[3] = std::to_string(val.time.Val());
values[6] = std::to_string(val.val);
}
std::string row = join(values, args.separator);
printf("%s\n", row.data());
}
}
}
return 0;