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net_async_task.cc
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net_async_task.cc
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#include "caffe2/core/net_async_task.h"
#include "caffe2/core/net_async_task_graph.h"
namespace caffe2 {
AsyncTask::AsyncTask(const std::vector<OperatorBase*>& ops) : ops_(ops) {
CAFFE_ENFORCE(!ops_.empty());
device_option_ = ops_.front()->device_option();
for (auto& op : ops_) {
CAFFE_ENFORCE(IsSameDevice(device_option_, op->device_option()));
}
Reset();
}
void AsyncTask::handleChainError(
OperatorBase* op,
const char* err_str,
bool save_exception) {
std::string err_msg = err_str;
if (op) {
err_msg += ", op " + (op->has_debug_def() ? op->type() : " unknown");
}
LOG(ERROR) << err_msg;
// save error message and exception in chain's Event
auto last_op = ops_.back();
if (save_exception) {
last_op->event().SetFinishedWithException(err_msg.c_str());
} else {
last_op->event().SetFinished(err_msg.c_str());
}
// set future as completed with an error
// TODO: exceptions in future
future_.SetCompleted(err_msg.c_str());
}
bool AsyncTask::Run(const ExecutionOptions& options) {
// TODO: insert CUDA's async stream waits; tracing and counters
OperatorBase* op = nullptr;
try {
for (auto op_idx = 0U; op_idx < ops_.size(); ++op_idx) {
op = ops_[op_idx];
int stream_id = 0; // TODO: thread local stream id
if (!op->RunAsync(stream_id)) {
handleChainError(op, "Failed to execute an op");
return false;
}
}
if (options.finish_chain_) {
op = ops_.back();
op->Finish();
}
// set the future as successfully completed or, in case of async CPU,
// use op's callback
if (IsCPUDeviceType(device_option_.device_type()) &&
ops_.back()->HasAsyncPart()) {
auto& event = ops_.back()->event();
event.SetCallback([this, &event]() {
CAFFE_ENFORCE(event.IsFinished());
if (event.Query() == EventStatus::EVENT_SUCCESS) {
future_.SetCompleted();
} else {
// TODO: support for exceptions
future_.SetCompleted(event.ErrorMessage().c_str());
}
});
} else {
future_.SetCompleted();
}
} catch (const std::exception& e) {
handleChainError(op, e.what(), /* save_exception */ true);
return false;
} catch (...) {
handleChainError(
op,
"Failed to execute task: unknown error",
/* save_exception */ true);
return false;
}
return true;
}
void AsyncTask::Reset() {
for (auto& op : ops_) {
op->ResetEvent();
}
future_.ResetState();
}
DeviceOption AsyncTask::GetDeviceOption() const {
return device_option_;
}
AsyncTaskFuture& AsyncTask::GetFuture() {
return future_;
}
const AsyncTaskFuture& AsyncTask::GetFuture() const {
return future_;
}
}; // namespace caffe2