-/* Copyright (c) 2009-2017. The SimGrid Team. All rights reserved. */
+/* Copyright (c) 2009-2018. The SimGrid Team. All rights reserved. */
/* This program is free software; you can redistribute it and/or modify it
* under the terms of the license (GNU LGPL) which comes with this package. */
XBT_LOG_NEW_DEFAULT_SUBCATEGORY(smpi_replay,smpi,"Trace Replay with SMPI");
-static int communicator_size = 0;
static int active_processes = 0;
static std::unordered_map<int, std::vector<MPI_Request>*> reqq;
{ \
if (action.size() < static_cast<unsigned long>(mandatory + 2)) \
THROWF(arg_error, 0, "%s replay failed.\n" \
- "%lu items were given on the line. First two should be process_id and action. " \
+ "%zu items were given on the line. First two should be process_id and action. " \
"This action needs after them %lu mandatory arguments, and accepts %lu optional ones. \n" \
"Please contact the Simgrid team if support is needed", \
- __FUNCTION__, action.size(), static_cast<unsigned long>(mandatory), \
- static_cast<unsigned long>(optional)); \
+ __func__, action.size(), static_cast<unsigned long>(mandatory), static_cast<unsigned long>(optional)); \
}
static void log_timed_action(simgrid::xbt::ReplayAction& action, double clock)
static std::vector<MPI_Request>* get_reqq_self()
{
- return reqq.at(Actor::self()->getPid());
+ return reqq.at(simgrid::s4u::this_actor::getPid());
}
static void set_reqq_self(std::vector<MPI_Request> *mpi_request)
{
- reqq.insert({Actor::self()->getPid(), mpi_request});
+ reqq.insert({simgrid::s4u::this_actor::getPid(), mpi_request});
}
/* Helper function */
namespace Replay {
class ActionArgParser {
public:
- virtual void parse(simgrid::xbt::ReplayAction& action){};
+ virtual void parse(simgrid::xbt::ReplayAction& action, std::string name) { CHECK_ACTION_PARAMS(action, 0, 0) }
};
class SendRecvParser : public ActionArgParser {
double size;
MPI_Datatype datatype1 = MPI_DEFAULT_TYPE;
- void parse(simgrid::xbt::ReplayAction& action) override
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
{
CHECK_ACTION_PARAMS(action, 2, 1)
partner = std::stoi(action[2]);
/* communication partner; if we send, this is the receiver and vice versa */
double flops;
- void parse(simgrid::xbt::ReplayAction& action) override
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
{
CHECK_ACTION_PARAMS(action, 1, 0)
flops = parse_double(action[2]);
}
};
+class CollCommParser : public ActionArgParser {
+public:
+ double size;
+ double comm_size;
+ double comp_size;
+ int send_size;
+ int recv_size;
+ int root = 0;
+ MPI_Datatype datatype1 = MPI_DEFAULT_TYPE;
+ MPI_Datatype datatype2 = MPI_DEFAULT_TYPE;
+};
+
+class BcastArgParser : public CollCommParser {
+public:
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
+ {
+ CHECK_ACTION_PARAMS(action, 1, 2)
+ size = parse_double(action[2]);
+ root = (action.size() > 3) ? std::stoi(action[3]) : 0;
+ if (action.size() > 4)
+ datatype1 = simgrid::smpi::Datatype::decode(action[4]);
+ }
+};
+
+class ReduceArgParser : public CollCommParser {
+public:
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
+ {
+ CHECK_ACTION_PARAMS(action, 2, 2)
+ comm_size = parse_double(action[2]);
+ comp_size = parse_double(action[3]);
+ root = (action.size() > 4) ? std::stoi(action[4]) : 0;
+ if (action.size() > 5)
+ datatype1 = simgrid::smpi::Datatype::decode(action[5]);
+ }
+};
+
+class AllReduceArgParser : public CollCommParser {
+public:
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
+ {
+ CHECK_ACTION_PARAMS(action, 2, 1)
+ comm_size = parse_double(action[2]);
+ comp_size = parse_double(action[3]);
+ if (action.size() > 4)
+ datatype1 = simgrid::smpi::Datatype::decode(action[4]);
+ }
+};
+
+class AllToAllArgParser : public CollCommParser {
+public:
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
+ {
+ CHECK_ACTION_PARAMS(action, 2, 1)
+ comm_size = MPI_COMM_WORLD->size();
+ send_size = parse_double(action[2]);
+ recv_size = parse_double(action[3]);
+
+ if (action.size() > 4)
+ datatype1 = simgrid::smpi::Datatype::decode(action[4]);
+ if (action.size() > 5)
+ datatype2 = simgrid::smpi::Datatype::decode(action[5]);
+ }
+};
+
+class GatherArgParser : public CollCommParser {
+public:
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
+ {
+ /* The structure of the gather action for the rank 0 (total 4 processes) is the following:
+ 0 gather 68 68 0 0 0
+ where:
+ 1) 68 is the sendcounts
+ 2) 68 is the recvcounts
+ 3) 0 is the root node
+ 4) 0 is the send datatype id, see simgrid::smpi::Datatype::decode()
+ 5) 0 is the recv datatype id, see simgrid::smpi::Datatype::decode()
+ */
+ CHECK_ACTION_PARAMS(action, 2, 3)
+ comm_size = MPI_COMM_WORLD->size();
+ send_size = parse_double(action[2]);
+ recv_size = parse_double(action[3]);
+
+ if (name == "gather") {
+ root = (action.size() > 4) ? std::stoi(action[4]) : 0;
+ if (action.size() > 5)
+ datatype1 = simgrid::smpi::Datatype::decode(action[5]);
+ if (action.size() > 6)
+ datatype2 = simgrid::smpi::Datatype::decode(action[6]);
+ }
+ else {
+ if (action.size() > 4)
+ datatype1 = simgrid::smpi::Datatype::decode(action[4]);
+ if (action.size() > 5)
+ datatype2 = simgrid::smpi::Datatype::decode(action[5]);
+ }
+ }
+};
+
+class GatherVArgParser : public CollCommParser {
+public:
+ int recv_size_sum;
+ std::shared_ptr<std::vector<int>> recvcounts;
+ std::vector<int> disps;
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
+ {
+ /* The structure of the gatherv action for the rank 0 (total 4 processes) is the following:
+ 0 gather 68 68 10 10 10 0 0 0
+ where:
+ 1) 68 is the sendcount
+ 2) 68 10 10 10 is the recvcounts
+ 3) 0 is the root node
+ 4) 0 is the send datatype id, see simgrid::smpi::Datatype::decode()
+ 5) 0 is the recv datatype id, see simgrid::smpi::Datatype::decode()
+ */
+ comm_size = MPI_COMM_WORLD->size();
+ CHECK_ACTION_PARAMS(action, comm_size+1, 2)
+ send_size = parse_double(action[2]);
+ disps = std::vector<int>(comm_size, 0);
+ recvcounts = std::shared_ptr<std::vector<int>>(new std::vector<int>(comm_size));
+
+ if (name == "gatherV") {
+ root = (action.size() > 3 + comm_size) ? std::stoi(action[3 + comm_size]) : 0;
+ if (action.size() > 4 + comm_size)
+ datatype1 = simgrid::smpi::Datatype::decode(action[4 + comm_size]);
+ if (action.size() > 5 + comm_size)
+ datatype2 = simgrid::smpi::Datatype::decode(action[5 + comm_size]);
+ }
+ else {
+ int datatype_index = 0, disp_index = 0;
+ /* The 3 comes from "0 gather <sendcount>", which must always be present.
+ * The + comm_size is the recvcounts array, which must also be present
+ */
+ if (action.size() > 3 + comm_size + comm_size) { /* datatype + disp are specified */
+ datatype_index = 3 + comm_size;
+ disp_index = datatype_index + 1;
+ datatype1 = simgrid::smpi::Datatype::decode(action[datatype_index]);
+ datatype2 = simgrid::smpi::Datatype::decode(action[datatype_index]);
+ } else if (action.size() > 3 + comm_size + 2) { /* disps specified; datatype is not specified; use the default one */
+ disp_index = 3 + comm_size;
+ } else if (action.size() > 3 + comm_size) { /* only datatype, no disp specified */
+ datatype_index = 3 + comm_size;
+ datatype1 = simgrid::smpi::Datatype::decode(action[datatype_index]);
+ datatype2 = simgrid::smpi::Datatype::decode(action[datatype_index]);
+ }
+
+ if (disp_index != 0) {
+ for (unsigned int i = 0; i < comm_size; i++)
+ disps[i] = std::stoi(action[disp_index + i]);
+ }
+ }
+
+ for (unsigned int i = 0; i < comm_size; i++) {
+ (*recvcounts)[i] = std::stoi(action[i + 3]);
+ }
+ recv_size_sum = std::accumulate(recvcounts->begin(), recvcounts->end(), 0);
+ }
+};
+
+class ScatterArgParser : public CollCommParser {
+public:
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
+ {
+ /* The structure of the scatter action for the rank 0 (total 4 processes) is the following:
+ 0 gather 68 68 0 0 0
+ where:
+ 1) 68 is the sendcounts
+ 2) 68 is the recvcounts
+ 3) 0 is the root node
+ 4) 0 is the send datatype id, see simgrid::smpi::Datatype::decode()
+ 5) 0 is the recv datatype id, see simgrid::smpi::Datatype::decode()
+ */
+ CHECK_ACTION_PARAMS(action, 2, 3)
+ comm_size = MPI_COMM_WORLD->size();
+ send_size = parse_double(action[2]);
+ recv_size = parse_double(action[3]);
+ root = (action.size() > 4) ? std::stoi(action[4]) : 0;
+ if (action.size() > 5)
+ datatype1 = simgrid::smpi::Datatype::decode(action[5]);
+ if (action.size() > 6)
+ datatype2 = simgrid::smpi::Datatype::decode(action[6]);
+ }
+};
+
+class ScatterVArgParser : public CollCommParser {
+public:
+ int recv_size_sum;
+ int send_size_sum;
+ std::shared_ptr<std::vector<int>> sendcounts;
+ std::vector<int> disps;
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
+ {
+ /* The structure of the scatterv action for the rank 0 (total 4 processes) is the following:
+ 0 gather 68 10 10 10 68 0 0 0
+ where:
+ 1) 68 10 10 10 is the sendcounts
+ 2) 68 is the recvcount
+ 3) 0 is the root node
+ 4) 0 is the send datatype id, see simgrid::smpi::Datatype::decode()
+ 5) 0 is the recv datatype id, see simgrid::smpi::Datatype::decode()
+ */
+ CHECK_ACTION_PARAMS(action, comm_size + 1, 2)
+ recv_size = parse_double(action[2 + comm_size]);
+ disps = std::vector<int>(comm_size, 0);
+ sendcounts = std::shared_ptr<std::vector<int>>(new std::vector<int>(comm_size));
+
+ if (action.size() > 5 + comm_size)
+ datatype1 = simgrid::smpi::Datatype::decode(action[4 + comm_size]);
+ if (action.size() > 5 + comm_size)
+ datatype2 = simgrid::smpi::Datatype::decode(action[5]);
+
+ for (unsigned int i = 0; i < comm_size; i++) {
+ (*sendcounts)[i] = std::stoi(action[i + 2]);
+ }
+ send_size_sum = std::accumulate(sendcounts->begin(), sendcounts->end(), 0);
+ root = (action.size() > 3 + comm_size) ? std::stoi(action[3 + comm_size]) : 0;
+ }
+};
+
+class ReduceScatterArgParser : public CollCommParser {
+public:
+ int recv_size_sum;
+ std::shared_ptr<std::vector<int>> recvcounts;
+ std::vector<int> disps;
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
+ {
+ /* The structure of the reducescatter action for the rank 0 (total 4 processes) is the following:
+ 0 reduceScatter 275427 275427 275427 204020 11346849 0
+ where:
+ 1) The first four values after the name of the action declare the recvcounts array
+ 2) The value 11346849 is the amount of instructions
+ 3) The last value corresponds to the datatype, see simgrid::smpi::Datatype::decode().
+ */
+ comm_size = MPI_COMM_WORLD->size();
+ CHECK_ACTION_PARAMS(action, comm_size+1, 1)
+ comp_size = parse_double(action[2+comm_size]);
+ recvcounts = std::shared_ptr<std::vector<int>>(new std::vector<int>(comm_size));
+ if (action.size() > 3 + comm_size)
+ datatype1 = simgrid::smpi::Datatype::decode(action[3 + comm_size]);
+
+ for (unsigned int i = 0; i < comm_size; i++) {
+ recvcounts->push_back(std::stoi(action[i + 2]));
+ }
+ recv_size_sum = std::accumulate(recvcounts->begin(), recvcounts->end(), 0);
+ }
+};
+
+class AllToAllVArgParser : public CollCommParser {
+public:
+ int recv_size_sum;
+ int send_size_sum;
+ std::shared_ptr<std::vector<int>> recvcounts;
+ std::shared_ptr<std::vector<int>> sendcounts;
+ std::vector<int> senddisps;
+ std::vector<int> recvdisps;
+ int send_buf_size;
+ int recv_buf_size;
+ void parse(simgrid::xbt::ReplayAction& action, std::string name) override
+ {
+ /* The structure of the allToAllV action for the rank 0 (total 4 processes) is the following:
+ 0 allToAllV 100 1 7 10 12 100 1 70 10 5
+ where:
+ 1) 100 is the size of the send buffer *sizeof(int),
+ 2) 1 7 10 12 is the sendcounts array
+ 3) 100*sizeof(int) is the size of the receiver buffer
+ 4) 1 70 10 5 is the recvcounts array
+ */
+ comm_size = MPI_COMM_WORLD->size();
+ CHECK_ACTION_PARAMS(action, 2*comm_size+2, 2)
+ sendcounts = std::shared_ptr<std::vector<int>>(new std::vector<int>(comm_size));
+ recvcounts = std::shared_ptr<std::vector<int>>(new std::vector<int>(comm_size));
+ senddisps = std::vector<int>(comm_size, 0);
+ recvdisps = std::vector<int>(comm_size, 0);
+
+ if (action.size() > 5 + 2 * comm_size)
+ datatype1 = simgrid::smpi::Datatype::decode(action[4 + 2 * comm_size]);
+ if (action.size() > 5 + 2 * comm_size)
+ datatype2 = simgrid::smpi::Datatype::decode(action[5 + 2 * comm_size]);
+
+ send_buf_size=parse_double(action[2]);
+ recv_buf_size=parse_double(action[3+comm_size]);
+ for (unsigned int i = 0; i < comm_size; i++) {
+ (*sendcounts)[i] = std::stoi(action[3 + i]);
+ (*recvcounts)[i] = std::stoi(action[4 + comm_size + i]);
+ }
+ send_size_sum = std::accumulate(sendcounts->begin(), sendcounts->end(), 0);
+ recv_size_sum = std::accumulate(recvcounts->begin(), recvcounts->end(), 0);
+ }
+};
+
template <class T> class ReplayAction {
protected:
const std::string name;
int my_proc_id;
public:
- explicit ReplayAction(std::string name) : name(name), my_proc_id(simgrid::s4u::Actor::self()->getPid())
- {
- }
+ explicit ReplayAction(std::string name) : name(name), my_proc_id(simgrid::s4u::this_actor::getPid()) {}
virtual void execute(simgrid::xbt::ReplayAction& action)
{
// Needs to be re-initialized for every action, hence here
double start_time = smpi_process()->simulated_elapsed();
- args.parse(action);
+ args.parse(action, name);
kernel(action);
- log_timed_action(action, start_time);
+ if (name != "Init")
+ log_timed_action(action, start_time);
}
virtual void kernel(simgrid::xbt::ReplayAction& action) = 0;
+
+ void* send_buffer(int size)
+ {
+ return smpi_get_tmp_sendbuffer(size);
+ }
+
+ void* recv_buffer(int size)
+ {
+ return smpi_get_tmp_recvbuffer(size);
+ }
};
class WaitAction : public ReplayAction<ActionArgParser> {
WaitAction() : ReplayAction("Wait") {}
void kernel(simgrid::xbt::ReplayAction& action) override
{
- CHECK_ACTION_PARAMS(action, 0, 0)
- MPI_Status status;
-
std::string s = boost::algorithm::join(action, " ");
xbt_assert(get_reqq_self()->size(), "action wait not preceded by any irecv or isend: %s", s.c_str());
MPI_Request request = get_reqq_self()->back();
int rank = request->comm() != MPI_COMM_NULL ? request->comm()->rank() : -1;
- MPI_Group group = request->comm()->group();
- int src_traced = group->rank(request->src());
- int dst_traced = group->rank(request->dst());
+ // Must be taken before Request::wait() since the request may be set to
+ // MPI_REQUEST_NULL by Request::wait!
+ int src = request->comm()->group()->rank(request->src());
+ int dst = request->comm()->group()->rank(request->dst());
bool is_wait_for_receive = (request->flags() & RECV);
// TODO: Here we take the rank while we normally take the process id (look for my_proc_id)
- TRACE_smpi_comm_in(rank, __FUNCTION__, new simgrid::instr::NoOpTIData("wait"));
+ TRACE_smpi_comm_in(rank, __func__, new simgrid::instr::NoOpTIData("wait"));
+ MPI_Status status;
Request::wait(&request, &status);
TRACE_smpi_comm_out(rank);
if (is_wait_for_receive)
- TRACE_smpi_recv(src_traced, dst_traced, 0);
+ TRACE_smpi_recv(src, dst, 0);
}
};
{
int dst_traced = MPI_COMM_WORLD->group()->actor(args.partner)->getPid();
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__, new simgrid::instr::Pt2PtTIData(name, args.partner, args.size,
- Datatype::encode(args.datatype1)));
+ TRACE_smpi_comm_in(my_proc_id, __func__, new simgrid::instr::Pt2PtTIData(name, args.partner, args.size,
+ Datatype::encode(args.datatype1)));
if (not TRACE_smpi_view_internals())
TRACE_smpi_send(my_proc_id, my_proc_id, dst_traced, 0, args.size * args.datatype1->size());
{
int src_traced = MPI_COMM_WORLD->group()->actor(args.partner)->getPid();
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__, new simgrid::instr::Pt2PtTIData(name, args.partner, args.size,
- Datatype::encode(args.datatype1)));
+ TRACE_smpi_comm_in(my_proc_id, __func__, new simgrid::instr::Pt2PtTIData(name, args.partner, args.size,
+ Datatype::encode(args.datatype1)));
MPI_Status status;
// unknown size from the receiver point of view
}
};
-} // Replay Namespace
-
-static void action_init(simgrid::xbt::ReplayAction& action)
-{
- XBT_DEBUG("Initialize the counters");
- CHECK_ACTION_PARAMS(action, 0, 1)
- if (action.size() > 2)
- MPI_DEFAULT_TYPE = MPI_DOUBLE; // default MPE datatype
- else
- MPI_DEFAULT_TYPE = MPI_BYTE; // default TAU datatype
-
- /* start a simulated timer */
- smpi_process()->simulated_start();
- /*initialize the number of active processes */
- active_processes = smpi_process_count();
-
- set_reqq_self(new std::vector<MPI_Request>);
-}
-
-static void action_finalize(simgrid::xbt::ReplayAction& action)
-{
- /* Nothing to do */
-}
-
-static void action_comm_size(simgrid::xbt::ReplayAction& action)
-{
- communicator_size = parse_double(action[2]);
- log_timed_action (action, smpi_process()->simulated_elapsed());
-}
-
-static void action_comm_split(simgrid::xbt::ReplayAction& action)
-{
- log_timed_action (action, smpi_process()->simulated_elapsed());
-}
-
-static void action_comm_dup(simgrid::xbt::ReplayAction& action)
-{
- log_timed_action (action, smpi_process()->simulated_elapsed());
-}
-
-static void action_compute(simgrid::xbt::ReplayAction& action)
-{
- Replay::ComputeAction().execute(action);
-}
-
-static void action_test(simgrid::xbt::ReplayAction& action)
-{
- CHECK_ACTION_PARAMS(action, 0, 0)
- double clock = smpi_process()->simulated_elapsed();
- MPI_Status status;
-
- MPI_Request request = get_reqq_self()->back();
- get_reqq_self()->pop_back();
- //if request is null here, this may mean that a previous test has succeeded
- //Different times in traced application and replayed version may lead to this
- //In this case, ignore the extra calls.
- if(request!=nullptr){
- int my_proc_id = Actor::self()->getPid();
- TRACE_smpi_testing_in(my_proc_id);
-
- int flag = Request::test(&request, &status);
-
- XBT_DEBUG("MPI_Test result: %d", flag);
- /* push back request in vector to be caught by a subsequent wait. if the test did succeed, the request is now nullptr.*/
- get_reqq_self()->push_back(request);
+class TestAction : public ReplayAction<ActionArgParser> {
+public:
+ TestAction() : ReplayAction("Test") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ MPI_Request request = get_reqq_self()->back();
+ get_reqq_self()->pop_back();
+ // if request is null here, this may mean that a previous test has succeeded
+ // Different times in traced application and replayed version may lead to this
+ // In this case, ignore the extra calls.
+ if (request != nullptr) {
+ TRACE_smpi_testing_in(my_proc_id);
+
+ MPI_Status status;
+ int flag = Request::test(&request, &status);
+
+ XBT_DEBUG("MPI_Test result: %d", flag);
+ /* push back request in vector to be caught by a subsequent wait. if the test did succeed, the request is now
+ * nullptr.*/
+ get_reqq_self()->push_back(request);
- TRACE_smpi_testing_out(my_proc_id);
+ TRACE_smpi_testing_out(my_proc_id);
+ }
}
- log_timed_action (action, clock);
-}
-
-static void action_waitall(simgrid::xbt::ReplayAction& action)
-{
- CHECK_ACTION_PARAMS(action, 0, 0)
- double clock = smpi_process()->simulated_elapsed();
- const unsigned int count_requests = get_reqq_self()->size();
-
- if (count_requests>0) {
- MPI_Status status[count_requests];
-
- int my_proc_id_traced = Actor::self()->getPid();
- TRACE_smpi_comm_in(my_proc_id_traced, __FUNCTION__,
- new simgrid::instr::Pt2PtTIData("waitAll", -1, count_requests, ""));
- int recvs_snd[count_requests];
- int recvs_rcv[count_requests];
- for (unsigned int i = 0; i < count_requests; i++) {
- const auto& req = (*get_reqq_self())[i];
- if (req && (req->flags() & RECV)) {
- recvs_snd[i] = req->src();
- recvs_rcv[i] = req->dst();
- } else
- recvs_snd[i] = -100;
- }
- Request::waitall(count_requests, &(*get_reqq_self())[0], status);
-
- for (unsigned i = 0; i < count_requests; i++) {
- if (recvs_snd[i]!=-100)
- TRACE_smpi_recv(recvs_snd[i], recvs_rcv[i],0);
- }
- TRACE_smpi_comm_out(my_proc_id_traced);
- }
- log_timed_action (action, clock);
-}
-
-static void action_barrier(simgrid::xbt::ReplayAction& action)
-{
- double clock = smpi_process()->simulated_elapsed();
- int my_proc_id = Actor::self()->getPid();
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__, new simgrid::instr::NoOpTIData("barrier"));
-
- Colls::barrier(MPI_COMM_WORLD);
-
- TRACE_smpi_comm_out(my_proc_id);
- log_timed_action (action, clock);
-}
-
-static void action_bcast(simgrid::xbt::ReplayAction& action)
-{
- CHECK_ACTION_PARAMS(action, 1, 2)
- double size = parse_double(action[2]);
- double clock = smpi_process()->simulated_elapsed();
- int root = (action.size() > 3) ? std::stoi(action[3]) : 0;
- /* Initialize MPI_CURRENT_TYPE in order to decrease the number of the checks */
- MPI_Datatype MPI_CURRENT_TYPE = (action.size() > 4) ? simgrid::smpi::Datatype::decode(action[4]) : MPI_DEFAULT_TYPE;
+};
- int my_proc_id = Actor::self()->getPid();
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__,
- new simgrid::instr::CollTIData("bcast", MPI_COMM_WORLD->group()->actor(root)->getPid(), -1.0, size,
- -1, Datatype::encode(MPI_CURRENT_TYPE), ""));
+class InitAction : public ReplayAction<ActionArgParser> {
+public:
+ InitAction() : ReplayAction("Init") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ CHECK_ACTION_PARAMS(action, 0, 1)
+ MPI_DEFAULT_TYPE = (action.size() > 2) ? MPI_DOUBLE // default MPE datatype
+ : MPI_BYTE; // default TAU datatype
- void *sendbuf = smpi_get_tmp_sendbuffer(size* MPI_CURRENT_TYPE->size());
+ /* start a simulated timer */
+ smpi_process()->simulated_start();
+ /*initialize the number of active processes */
+ active_processes = smpi_process_count();
- Colls::bcast(sendbuf, size, MPI_CURRENT_TYPE, root, MPI_COMM_WORLD);
+ set_reqq_self(new std::vector<MPI_Request>);
+ }
+};
- TRACE_smpi_comm_out(my_proc_id);
- log_timed_action (action, clock);
-}
+class CommunicatorAction : public ReplayAction<ActionArgParser> {
+public:
+ CommunicatorAction() : ReplayAction("Comm") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override { /* nothing to do */}
+};
-static void action_reduce(simgrid::xbt::ReplayAction& action)
-{
- CHECK_ACTION_PARAMS(action, 2, 2)
- double comm_size = parse_double(action[2]);
- double comp_size = parse_double(action[3]);
- double clock = smpi_process()->simulated_elapsed();
- int root = (action.size() > 4) ? std::stoi(action[4]) : 0;
+class WaitAllAction : public ReplayAction<ActionArgParser> {
+public:
+ WaitAllAction() : ReplayAction("waitAll") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ const unsigned int count_requests = get_reqq_self()->size();
+
+ if (count_requests > 0) {
+ TRACE_smpi_comm_in(my_proc_id, __func__, new simgrid::instr::Pt2PtTIData("waitAll", -1, count_requests, ""));
+ std::vector<std::pair</*sender*/int,/*recv*/int>> sender_receiver;
+ for (const auto& req : (*get_reqq_self())) {
+ if (req && (req->flags() & RECV)) {
+ sender_receiver.push_back({req->src(), req->dst()});
+ }
+ }
+ MPI_Status status[count_requests];
+ Request::waitall(count_requests, &(*get_reqq_self())[0], status);
+
+ for (auto& pair : sender_receiver) {
+ TRACE_smpi_recv(pair.first, pair.second, 0);
+ }
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+ }
+};
- MPI_Datatype MPI_CURRENT_TYPE = (action.size() > 5) ? simgrid::smpi::Datatype::decode(action[5]) : MPI_DEFAULT_TYPE;
+class BarrierAction : public ReplayAction<ActionArgParser> {
+public:
+ BarrierAction() : ReplayAction("barrier") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ TRACE_smpi_comm_in(my_proc_id, __func__, new simgrid::instr::NoOpTIData("barrier"));
+ Colls::barrier(MPI_COMM_WORLD);
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
- int my_proc_id = Actor::self()->getPid();
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__,
- new simgrid::instr::CollTIData("reduce", MPI_COMM_WORLD->group()->actor(root)->getPid(), comp_size,
- comm_size, -1, Datatype::encode(MPI_CURRENT_TYPE), ""));
+class BcastAction : public ReplayAction<BcastArgParser> {
+public:
+ BcastAction() : ReplayAction("bcast") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ TRACE_smpi_comm_in(my_proc_id, "action_bcast",
+ new simgrid::instr::CollTIData("bcast", MPI_COMM_WORLD->group()->actor(args.root)->getPid(),
+ -1.0, args.size, -1, Datatype::encode(args.datatype1), ""));
- void *recvbuf = smpi_get_tmp_sendbuffer(comm_size* MPI_CURRENT_TYPE->size());
- void *sendbuf = smpi_get_tmp_sendbuffer(comm_size* MPI_CURRENT_TYPE->size());
- Colls::reduce(sendbuf, recvbuf, comm_size, MPI_CURRENT_TYPE, MPI_OP_NULL, root, MPI_COMM_WORLD);
- smpi_execute_flops(comp_size);
+ Colls::bcast(send_buffer(args.size * args.datatype1->size()), args.size, args.datatype1, args.root, MPI_COMM_WORLD);
- TRACE_smpi_comm_out(my_proc_id);
- log_timed_action (action, clock);
-}
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
-static void action_allReduce(simgrid::xbt::ReplayAction& action)
-{
- CHECK_ACTION_PARAMS(action, 2, 1)
- double comm_size = parse_double(action[2]);
- double comp_size = parse_double(action[3]);
+class ReduceAction : public ReplayAction<ReduceArgParser> {
+public:
+ ReduceAction() : ReplayAction("reduce") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ TRACE_smpi_comm_in(my_proc_id, "action_reduce",
+ new simgrid::instr::CollTIData("reduce", MPI_COMM_WORLD->group()->actor(args.root)->getPid(), args.comp_size,
+ args.comm_size, -1, Datatype::encode(args.datatype1), ""));
- MPI_Datatype MPI_CURRENT_TYPE = (action.size() > 4) ? simgrid::smpi::Datatype::decode(action[4]) : MPI_DEFAULT_TYPE;
+ Colls::reduce(send_buffer(args.comm_size * args.datatype1->size()),
+ recv_buffer(args.comm_size * args.datatype1->size()), args.comm_size, args.datatype1, MPI_OP_NULL, args.root, MPI_COMM_WORLD);
+ smpi_execute_flops(args.comp_size);
- double clock = smpi_process()->simulated_elapsed();
- int my_proc_id = Actor::self()->getPid();
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__, new simgrid::instr::CollTIData("allReduce", -1, comp_size, comm_size, -1,
- Datatype::encode(MPI_CURRENT_TYPE), ""));
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
- void *recvbuf = smpi_get_tmp_recvbuffer(comm_size* MPI_CURRENT_TYPE->size());
- void *sendbuf = smpi_get_tmp_sendbuffer(comm_size* MPI_CURRENT_TYPE->size());
- Colls::allreduce(sendbuf, recvbuf, comm_size, MPI_CURRENT_TYPE, MPI_OP_NULL, MPI_COMM_WORLD);
- smpi_execute_flops(comp_size);
+class AllReduceAction : public ReplayAction<AllReduceArgParser> {
+public:
+ AllReduceAction() : ReplayAction("allReduce") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ TRACE_smpi_comm_in(my_proc_id, "action_allReduce", new simgrid::instr::CollTIData("allReduce", -1, args.comp_size, args.comm_size, -1,
+ Datatype::encode(args.datatype1), ""));
- TRACE_smpi_comm_out(my_proc_id);
- log_timed_action (action, clock);
-}
+ Colls::allreduce(send_buffer(args.comm_size * args.datatype1->size()),
+ recv_buffer(args.comm_size * args.datatype1->size()), args.comm_size, args.datatype1, MPI_OP_NULL, MPI_COMM_WORLD);
+ smpi_execute_flops(args.comp_size);
-static void action_allToAll(simgrid::xbt::ReplayAction& action)
-{
- CHECK_ACTION_PARAMS(action, 2, 2) //two mandatory (send and recv volumes) and two optional (corresponding datatypes)
- double clock = smpi_process()->simulated_elapsed();
- unsigned long comm_size = MPI_COMM_WORLD->size();
- int send_size = parse_double(action[2]);
- int recv_size = parse_double(action[3]);
- MPI_Datatype MPI_CURRENT_TYPE{(action.size() > 5) ? simgrid::smpi::Datatype::decode(action[4]) : MPI_DEFAULT_TYPE};
- MPI_Datatype MPI_CURRENT_TYPE2{(action.size() > 5) ? simgrid::smpi::Datatype::decode(action[5]) : MPI_DEFAULT_TYPE};
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
- void *send = smpi_get_tmp_sendbuffer(send_size*comm_size* MPI_CURRENT_TYPE->size());
- void *recv = smpi_get_tmp_recvbuffer(recv_size*comm_size* MPI_CURRENT_TYPE2->size());
+class AllToAllAction : public ReplayAction<AllToAllArgParser> {
+public:
+ AllToAllAction() : ReplayAction("allToAll") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ TRACE_smpi_comm_in(my_proc_id, "action_allToAll",
+ new simgrid::instr::CollTIData("allToAll", -1, -1.0, args.send_size, args.recv_size,
+ Datatype::encode(args.datatype1),
+ Datatype::encode(args.datatype2)));
- int my_proc_id = Actor::self()->getPid();
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__,
- new simgrid::instr::CollTIData("allToAll", -1, -1.0, send_size, recv_size,
- Datatype::encode(MPI_CURRENT_TYPE),
- Datatype::encode(MPI_CURRENT_TYPE2)));
+ Colls::alltoall(send_buffer(args.send_size*args.comm_size* args.datatype1->size()),
+ args.send_size, args.datatype1, recv_buffer(args.recv_size * args.comm_size * args.datatype2->size()),
+ args.recv_size, args.datatype2, MPI_COMM_WORLD);
- Colls::alltoall(send, send_size, MPI_CURRENT_TYPE, recv, recv_size, MPI_CURRENT_TYPE2, MPI_COMM_WORLD);
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
- TRACE_smpi_comm_out(my_proc_id);
- log_timed_action (action, clock);
-}
+class GatherAction : public ReplayAction<GatherArgParser> {
+public:
+ GatherAction(std::string name) : ReplayAction(name) {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ TRACE_smpi_comm_in(my_proc_id, name.c_str(), new simgrid::instr::CollTIData(name, (name == "gather") ? args.root : -1, -1.0, args.send_size, args.recv_size,
+ Datatype::encode(args.datatype1), Datatype::encode(args.datatype2)));
-static void action_gather(simgrid::xbt::ReplayAction& action)
-{
- /* The structure of the gather action for the rank 0 (total 4 processes) is the following:
- 0 gather 68 68 0 0 0
- where:
- 1) 68 is the sendcounts
- 2) 68 is the recvcounts
- 3) 0 is the root node
- 4) 0 is the send datatype id, see simgrid::smpi::Datatype::decode()
- 5) 0 is the recv datatype id, see simgrid::smpi::Datatype::decode()
- */
- CHECK_ACTION_PARAMS(action, 2, 3)
- double clock = smpi_process()->simulated_elapsed();
- unsigned long comm_size = MPI_COMM_WORLD->size();
- int send_size = parse_double(action[2]);
- int recv_size = parse_double(action[3]);
- MPI_Datatype MPI_CURRENT_TYPE{(action.size() > 6) ? simgrid::smpi::Datatype::decode(action[5]) : MPI_DEFAULT_TYPE};
- MPI_Datatype MPI_CURRENT_TYPE2{(action.size() > 6) ? simgrid::smpi::Datatype::decode(action[6]) : MPI_DEFAULT_TYPE};
-
- void *send = smpi_get_tmp_sendbuffer(send_size* MPI_CURRENT_TYPE->size());
- void *recv = nullptr;
- int root = (action.size() > 4) ? std::stoi(action[4]) : 0;
- int rank = MPI_COMM_WORLD->rank();
-
- if(rank==root)
- recv = smpi_get_tmp_recvbuffer(recv_size*comm_size* MPI_CURRENT_TYPE2->size());
-
- TRACE_smpi_comm_in(rank, __FUNCTION__, new simgrid::instr::CollTIData("gather", root, -1.0, send_size, recv_size,
- Datatype::encode(MPI_CURRENT_TYPE),
- Datatype::encode(MPI_CURRENT_TYPE2)));
-
- Colls::gather(send, send_size, MPI_CURRENT_TYPE, recv, recv_size, MPI_CURRENT_TYPE2, root, MPI_COMM_WORLD);
-
- TRACE_smpi_comm_out(Actor::self()->getPid());
- log_timed_action (action, clock);
-}
+ if (name == "gather") {
+ int rank = MPI_COMM_WORLD->rank();
+ Colls::gather(send_buffer(args.send_size * args.datatype1->size()), args.send_size, args.datatype1,
+ (rank == args.root) ? recv_buffer(args.recv_size * args.comm_size * args.datatype2->size()) : nullptr, args.recv_size, args.datatype2, args.root, MPI_COMM_WORLD);
+ }
+ else
+ Colls::allgather(send_buffer(args.send_size * args.datatype1->size()), args.send_size, args.datatype1,
+ recv_buffer(args.recv_size * args.datatype2->size()), args.recv_size, args.datatype2, MPI_COMM_WORLD);
-static void action_scatter(simgrid::xbt::ReplayAction& action)
-{
- /* The structure of the scatter action for the rank 0 (total 4 processes) is the following:
- 0 gather 68 68 0 0 0
- where:
- 1) 68 is the sendcounts
- 2) 68 is the recvcounts
- 3) 0 is the root node
- 4) 0 is the send datatype id, see simgrid::smpi::Datatype::decode()
- 5) 0 is the recv datatype id, see simgrid::smpi::Datatype::decode()
- */
- CHECK_ACTION_PARAMS(action, 2, 3)
- double clock = smpi_process()->simulated_elapsed();
- unsigned long comm_size = MPI_COMM_WORLD->size();
- int send_size = parse_double(action[2]);
- int recv_size = parse_double(action[3]);
- MPI_Datatype MPI_CURRENT_TYPE{(action.size() > 6) ? simgrid::smpi::Datatype::decode(action[5]) : MPI_DEFAULT_TYPE};
- MPI_Datatype MPI_CURRENT_TYPE2{(action.size() > 6) ? simgrid::smpi::Datatype::decode(action[6]) : MPI_DEFAULT_TYPE};
-
- void* send = smpi_get_tmp_sendbuffer(send_size * MPI_CURRENT_TYPE->size());
- void* recv = nullptr;
- int root = (action.size() > 4) ? std::stoi(action[4]) : 0;
- int rank = MPI_COMM_WORLD->rank();
-
- if (rank == root)
- recv = smpi_get_tmp_recvbuffer(recv_size * comm_size * MPI_CURRENT_TYPE2->size());
-
- TRACE_smpi_comm_in(rank, __FUNCTION__, new simgrid::instr::CollTIData("gather", root, -1.0, send_size, recv_size,
- Datatype::encode(MPI_CURRENT_TYPE),
- Datatype::encode(MPI_CURRENT_TYPE2)));
-
- Colls::scatter(send, send_size, MPI_CURRENT_TYPE, recv, recv_size, MPI_CURRENT_TYPE2, root, MPI_COMM_WORLD);
-
- TRACE_smpi_comm_out(Actor::self()->getPid());
- log_timed_action(action, clock);
-}
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
-static void action_gatherv(simgrid::xbt::ReplayAction& action)
-{
- /* The structure of the gatherv action for the rank 0 (total 4 processes) is the following:
- 0 gather 68 68 10 10 10 0 0 0
- where:
- 1) 68 is the sendcount
- 2) 68 10 10 10 is the recvcounts
- 3) 0 is the root node
- 4) 0 is the send datatype id, see simgrid::smpi::Datatype::decode()
- 5) 0 is the recv datatype id, see simgrid::smpi::Datatype::decode()
- */
- double clock = smpi_process()->simulated_elapsed();
- unsigned long comm_size = MPI_COMM_WORLD->size();
- CHECK_ACTION_PARAMS(action, comm_size+1, 2)
- int send_size = parse_double(action[2]);
- std::vector<int> disps(comm_size, 0);
- std::shared_ptr<std::vector<int>> recvcounts(new std::vector<int>(comm_size));
-
- MPI_Datatype MPI_CURRENT_TYPE =
- (action.size() > 5 + comm_size) ? simgrid::smpi::Datatype::decode(action[4 + comm_size]) : MPI_DEFAULT_TYPE;
- MPI_Datatype MPI_CURRENT_TYPE2{
- (action.size() > 5 + comm_size) ? simgrid::smpi::Datatype::decode(action[5 + comm_size]) : MPI_DEFAULT_TYPE};
-
- void *send = smpi_get_tmp_sendbuffer(send_size* MPI_CURRENT_TYPE->size());
- void *recv = nullptr;
- for (unsigned int i = 0; i < comm_size; i++) {
- (*recvcounts)[i] = std::stoi(action[i + 3]);
- }
- int recv_sum = std::accumulate(recvcounts->begin(), recvcounts->end(), 0);
-
- int root = (action.size() > 3 + comm_size) ? std::stoi(action[3 + comm_size]) : 0;
- int rank = MPI_COMM_WORLD->rank();
-
- if(rank==root)
- recv = smpi_get_tmp_recvbuffer(recv_sum* MPI_CURRENT_TYPE2->size());
-
- TRACE_smpi_comm_in(rank, __FUNCTION__, new simgrid::instr::VarCollTIData(
- "gatherV", root, send_size, nullptr, -1, recvcounts,
- Datatype::encode(MPI_CURRENT_TYPE), Datatype::encode(MPI_CURRENT_TYPE2)));
-
- Colls::gatherv(send, send_size, MPI_CURRENT_TYPE, recv, recvcounts->data(), disps.data(), MPI_CURRENT_TYPE2, root,
- MPI_COMM_WORLD);
-
- TRACE_smpi_comm_out(Actor::self()->getPid());
- log_timed_action (action, clock);
-}
+class GatherVAction : public ReplayAction<GatherVArgParser> {
+public:
+ GatherVAction(std::string name) : ReplayAction(name) {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ int rank = MPI_COMM_WORLD->rank();
-static void action_scatterv(simgrid::xbt::ReplayAction& action)
-{
- /* The structure of the scatterv action for the rank 0 (total 4 processes) is the following:
- 0 gather 68 10 10 10 68 0 0 0
- where:
- 1) 68 10 10 10 is the sendcounts
- 2) 68 is the recvcount
- 3) 0 is the root node
- 4) 0 is the send datatype id, see simgrid::smpi::Datatype::decode()
- 5) 0 is the recv datatype id, see simgrid::smpi::Datatype::decode()
- */
- double clock = smpi_process()->simulated_elapsed();
- unsigned long comm_size = MPI_COMM_WORLD->size();
- CHECK_ACTION_PARAMS(action, comm_size + 1, 2)
- int recv_size = parse_double(action[2 + comm_size]);
- std::vector<int> disps(comm_size, 0);
- std::shared_ptr<std::vector<int>> sendcounts(new std::vector<int>(comm_size));
-
- MPI_Datatype MPI_CURRENT_TYPE =
- (action.size() > 5 + comm_size) ? simgrid::smpi::Datatype::decode(action[4 + comm_size]) : MPI_DEFAULT_TYPE;
- MPI_Datatype MPI_CURRENT_TYPE2{
- (action.size() > 5 + comm_size) ? simgrid::smpi::Datatype::decode(action[5 + comm_size]) : MPI_DEFAULT_TYPE};
-
- void* send = nullptr;
- void* recv = smpi_get_tmp_recvbuffer(recv_size * MPI_CURRENT_TYPE->size());
- for (unsigned int i = 0; i < comm_size; i++) {
- (*sendcounts)[i] = std::stoi(action[i + 2]);
- }
- int send_sum = std::accumulate(sendcounts->begin(), sendcounts->end(), 0);
-
- int root = (action.size() > 3 + comm_size) ? std::stoi(action[3 + comm_size]) : 0;
- int rank = MPI_COMM_WORLD->rank();
-
- if (rank == root)
- send = smpi_get_tmp_sendbuffer(send_sum * MPI_CURRENT_TYPE2->size());
-
- TRACE_smpi_comm_in(rank, __FUNCTION__, new simgrid::instr::VarCollTIData("gatherV", root, -1, sendcounts, recv_size,
- nullptr, Datatype::encode(MPI_CURRENT_TYPE),
- Datatype::encode(MPI_CURRENT_TYPE2)));
-
- Colls::scatterv(send, sendcounts->data(), disps.data(), MPI_CURRENT_TYPE, recv, recv_size, MPI_CURRENT_TYPE2, root,
- MPI_COMM_WORLD);
-
- TRACE_smpi_comm_out(Actor::self()->getPid());
- log_timed_action(action, clock);
-}
+ TRACE_smpi_comm_in(my_proc_id, name.c_str(), new simgrid::instr::VarCollTIData(
+ name, (name == "gatherV") ? args.root : -1, args.send_size, nullptr, -1, args.recvcounts,
+ Datatype::encode(args.datatype1), Datatype::encode(args.datatype2)));
-static void action_reducescatter(simgrid::xbt::ReplayAction& action)
-{
- /* The structure of the reducescatter action for the rank 0 (total 4 processes) is the following:
- 0 reduceScatter 275427 275427 275427 204020 11346849 0
- where:
- 1) The first four values after the name of the action declare the recvcounts array
- 2) The value 11346849 is the amount of instructions
- 3) The last value corresponds to the datatype, see simgrid::smpi::Datatype::decode().
- */
- double clock = smpi_process()->simulated_elapsed();
- unsigned long comm_size = MPI_COMM_WORLD->size();
- CHECK_ACTION_PARAMS(action, comm_size+1, 1)
- int comp_size = parse_double(action[2+comm_size]);
- int my_proc_id = Actor::self()->getPid();
- std::shared_ptr<std::vector<int>> recvcounts(new std::vector<int>);
- MPI_Datatype MPI_CURRENT_TYPE =
- (action.size() > 3 + comm_size) ? simgrid::smpi::Datatype::decode(action[3 + comm_size]) : MPI_DEFAULT_TYPE;
-
- for (unsigned int i = 0; i < comm_size; i++) {
- recvcounts->push_back(std::stoi(action[i + 2]));
- }
- int size{std::accumulate(recvcounts->begin(), recvcounts->end(), 0)};
-
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__,
- new simgrid::instr::VarCollTIData("reduceScatter", -1, 0, nullptr, -1, recvcounts,
- std::to_string(comp_size), /* ugly hack to print comp_size */
- Datatype::encode(MPI_CURRENT_TYPE)));
-
- void *sendbuf = smpi_get_tmp_sendbuffer(size* MPI_CURRENT_TYPE->size());
- void *recvbuf = smpi_get_tmp_recvbuffer(size* MPI_CURRENT_TYPE->size());
-
- Colls::reduce_scatter(sendbuf, recvbuf, recvcounts->data(), MPI_CURRENT_TYPE, MPI_OP_NULL, MPI_COMM_WORLD);
- smpi_execute_flops(comp_size);
+ if (name == "gatherV") {
+ Colls::gatherv(send_buffer(args.send_size * args.datatype1->size()), args.send_size, args.datatype1,
+ (rank == args.root) ? recv_buffer(args.recv_size_sum * args.datatype2->size()) : nullptr, args.recvcounts->data(), args.disps.data(), args.datatype2, args.root,
+ MPI_COMM_WORLD);
+ }
+ else {
+ Colls::allgatherv(send_buffer(args.send_size * args.datatype1->size()), args.send_size, args.datatype1,
+ recv_buffer(args.recv_size_sum * args.datatype2->size()), args.recvcounts->data(), args.disps.data(), args.datatype2,
+ MPI_COMM_WORLD);
+ }
- TRACE_smpi_comm_out(my_proc_id);
- log_timed_action (action, clock);
-}
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
-static void action_allgather(simgrid::xbt::ReplayAction& action)
-{
- /* The structure of the allgather action for the rank 0 (total 4 processes) is the following:
- 0 allGather 275427 275427
- where:
- 1) 275427 is the sendcount
- 2) 275427 is the recvcount
- 3) No more values mean that the datatype for sent and receive buffer is the default one, see
- simgrid::smpi::Datatype::decode().
- */
- double clock = smpi_process()->simulated_elapsed();
+class ScatterAction : public ReplayAction<ScatterArgParser> {
+public:
+ ScatterAction() : ReplayAction("scatter") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ int rank = MPI_COMM_WORLD->rank();
+ TRACE_smpi_comm_in(my_proc_id, "action_scatter", new simgrid::instr::CollTIData(name, args.root, -1.0, args.send_size, args.recv_size,
+ Datatype::encode(args.datatype1),
+ Datatype::encode(args.datatype2)));
- CHECK_ACTION_PARAMS(action, 2, 2)
- int sendcount = std::stoi(action[2]);
- int recvcount = std::stoi(action[3]);
+ Colls::scatter(send_buffer(args.send_size * args.datatype1->size()), args.send_size, args.datatype1,
+ (rank == args.root) ? recv_buffer(args.recv_size * args.datatype2->size()) : nullptr, args.recv_size, args.datatype2, args.root, MPI_COMM_WORLD);
- MPI_Datatype MPI_CURRENT_TYPE{(action.size() > 5) ? simgrid::smpi::Datatype::decode(action[4]) : MPI_DEFAULT_TYPE};
- MPI_Datatype MPI_CURRENT_TYPE2{(action.size() > 5) ? simgrid::smpi::Datatype::decode(action[5]) : MPI_DEFAULT_TYPE};
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
- void *sendbuf = smpi_get_tmp_sendbuffer(sendcount* MPI_CURRENT_TYPE->size());
- void *recvbuf = smpi_get_tmp_recvbuffer(recvcount* MPI_CURRENT_TYPE2->size());
- int my_proc_id = Actor::self()->getPid();
+class ScatterVAction : public ReplayAction<ScatterVArgParser> {
+public:
+ ScatterVAction() : ReplayAction("scatterV") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ int rank = MPI_COMM_WORLD->rank();
+ TRACE_smpi_comm_in(my_proc_id, "action_scatterv", new simgrid::instr::VarCollTIData(name, args.root, -1, args.sendcounts, args.recv_size,
+ nullptr, Datatype::encode(args.datatype1),
+ Datatype::encode(args.datatype2)));
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__,
- new simgrid::instr::CollTIData("allGather", -1, -1.0, sendcount, recvcount,
- Datatype::encode(MPI_CURRENT_TYPE),
- Datatype::encode(MPI_CURRENT_TYPE2)));
+ Colls::scatterv((rank == args.root) ? send_buffer(args.send_size_sum * args.datatype1->size()) : nullptr, args.sendcounts->data(), args.disps.data(),
+ args.datatype1, recv_buffer(args.recv_size * args.datatype2->size()), args.recv_size, args.datatype2, args.root,
+ MPI_COMM_WORLD);
- Colls::allgather(sendbuf, sendcount, MPI_CURRENT_TYPE, recvbuf, recvcount, MPI_CURRENT_TYPE2, MPI_COMM_WORLD);
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
- TRACE_smpi_comm_out(my_proc_id);
- log_timed_action (action, clock);
-}
+class ReduceScatterAction : public ReplayAction<ReduceScatterArgParser> {
+public:
+ ReduceScatterAction() : ReplayAction("reduceScatter") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ TRACE_smpi_comm_in(my_proc_id, "action_reducescatter",
+ new simgrid::instr::VarCollTIData("reduceScatter", -1, 0, nullptr, -1, args.recvcounts,
+ std::to_string(args.comp_size), /* ugly hack to print comp_size */
+ Datatype::encode(args.datatype1)));
-static void action_allgatherv(simgrid::xbt::ReplayAction& action)
-{
- /* The structure of the allgatherv action for the rank 0 (total 4 processes) is the following:
- 0 allGatherV 275427 275427 275427 275427 204020
- where:
- 1) 275427 is the sendcount
- 2) The next four elements declare the recvcounts array
- 3) No more values mean that the datatype for sent and receive buffer is the default one, see
- simgrid::smpi::Datatype::decode().
- */
- double clock = smpi_process()->simulated_elapsed();
-
- unsigned long comm_size = MPI_COMM_WORLD->size();
- CHECK_ACTION_PARAMS(action, comm_size+1, 2)
- int sendcount = std::stoi(action[2]);
- std::shared_ptr<std::vector<int>> recvcounts(new std::vector<int>(comm_size));
- std::vector<int> disps(comm_size, 0);
-
- int datatype_index = 0, disp_index = 0;
- if (action.size() > 3 + 2 * comm_size) { /* datatype + disp are specified */
- datatype_index = 3 + comm_size;
- disp_index = datatype_index + 1;
- } else if (action.size() > 3 + 2 * comm_size) { /* disps specified; datatype is not specified; use the default one */
- datatype_index = -1;
- disp_index = 3 + comm_size;
- } else if (action.size() > 3 + comm_size) { /* only datatype, no disp specified */
- datatype_index = 3 + comm_size;
- }
-
- if (disp_index != 0) {
- for (unsigned int i = 0; i < comm_size; i++)
- disps[i] = std::stoi(action[disp_index + i]);
- }
-
- MPI_Datatype MPI_CURRENT_TYPE{(datatype_index > 0) ? simgrid::smpi::Datatype::decode(action[datatype_index])
- : MPI_DEFAULT_TYPE};
- MPI_Datatype MPI_CURRENT_TYPE2{(datatype_index > 0) ? simgrid::smpi::Datatype::decode(action[datatype_index])
- : MPI_DEFAULT_TYPE};
-
- void *sendbuf = smpi_get_tmp_sendbuffer(sendcount* MPI_CURRENT_TYPE->size());
-
- for (unsigned int i = 0; i < comm_size; i++) {
- (*recvcounts)[i] = std::stoi(action[i + 3]);
- }
- int recv_sum = std::accumulate(recvcounts->begin(), recvcounts->end(), 0);
- void *recvbuf = smpi_get_tmp_recvbuffer(recv_sum* MPI_CURRENT_TYPE2->size());
-
- int my_proc_id = Actor::self()->getPid();
-
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__,
- new simgrid::instr::VarCollTIData("allGatherV", -1, sendcount, nullptr, -1, recvcounts,
- Datatype::encode(MPI_CURRENT_TYPE),
- Datatype::encode(MPI_CURRENT_TYPE2)));
-
- Colls::allgatherv(sendbuf, sendcount, MPI_CURRENT_TYPE, recvbuf, recvcounts->data(), disps.data(), MPI_CURRENT_TYPE2,
- MPI_COMM_WORLD);
+ Colls::reduce_scatter(send_buffer(args.recv_size_sum * args.datatype1->size()), recv_buffer(args.recv_size_sum * args.datatype1->size()),
+ args.recvcounts->data(), args.datatype1, MPI_OP_NULL, MPI_COMM_WORLD);
- TRACE_smpi_comm_out(my_proc_id);
- log_timed_action (action, clock);
-}
+ smpi_execute_flops(args.comp_size);
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
-static void action_allToAllv(simgrid::xbt::ReplayAction& action)
-{
- /* The structure of the allToAllV action for the rank 0 (total 4 processes) is the following:
- 0 allToAllV 100 1 7 10 12 100 1 70 10 5
- where:
- 1) 100 is the size of the send buffer *sizeof(int),
- 2) 1 7 10 12 is the sendcounts array
- 3) 100*sizeof(int) is the size of the receiver buffer
- 4) 1 70 10 5 is the recvcounts array
- */
- double clock = smpi_process()->simulated_elapsed();
-
- unsigned long comm_size = MPI_COMM_WORLD->size();
- CHECK_ACTION_PARAMS(action, 2*comm_size+2, 2)
- std::shared_ptr<std::vector<int>> sendcounts(new std::vector<int>(comm_size));
- std::shared_ptr<std::vector<int>> recvcounts(new std::vector<int>(comm_size));
- std::vector<int> senddisps(comm_size, 0);
- std::vector<int> recvdisps(comm_size, 0);
-
- MPI_Datatype MPI_CURRENT_TYPE = (action.size() > 5 + 2 * comm_size)
- ? simgrid::smpi::Datatype::decode(action[4 + 2 * comm_size])
- : MPI_DEFAULT_TYPE;
- MPI_Datatype MPI_CURRENT_TYPE2{(action.size() > 5 + 2 * comm_size)
- ? simgrid::smpi::Datatype::decode(action[5 + 2 * comm_size])
- : MPI_DEFAULT_TYPE};
-
- int send_buf_size=parse_double(action[2]);
- int recv_buf_size=parse_double(action[3+comm_size]);
- int my_proc_id = Actor::self()->getPid();
- void *sendbuf = smpi_get_tmp_sendbuffer(send_buf_size* MPI_CURRENT_TYPE->size());
- void *recvbuf = smpi_get_tmp_recvbuffer(recv_buf_size* MPI_CURRENT_TYPE2->size());
-
- for (unsigned int i = 0; i < comm_size; i++) {
- (*sendcounts)[i] = std::stoi(action[3 + i]);
- (*recvcounts)[i] = std::stoi(action[4 + comm_size + i]);
- }
- int send_size = std::accumulate(sendcounts->begin(), sendcounts->end(), 0);
- int recv_size = std::accumulate(recvcounts->begin(), recvcounts->end(), 0);
-
- TRACE_smpi_comm_in(my_proc_id, __FUNCTION__,
- new simgrid::instr::VarCollTIData("allToAllV", -1, send_size, sendcounts, recv_size, recvcounts,
- Datatype::encode(MPI_CURRENT_TYPE),
- Datatype::encode(MPI_CURRENT_TYPE2)));
-
- Colls::alltoallv(sendbuf, sendcounts->data(), senddisps.data(), MPI_CURRENT_TYPE, recvbuf, recvcounts->data(),
- recvdisps.data(), MPI_CURRENT_TYPE, MPI_COMM_WORLD);
+class AllToAllVAction : public ReplayAction<AllToAllVArgParser> {
+public:
+ AllToAllVAction() : ReplayAction("allToAllV") {}
+ void kernel(simgrid::xbt::ReplayAction& action) override
+ {
+ TRACE_smpi_comm_in(my_proc_id, __func__,
+ new simgrid::instr::VarCollTIData(
+ "allToAllV", -1, args.send_size_sum, args.sendcounts, args.recv_size_sum, args.recvcounts,
+ Datatype::encode(args.datatype1), Datatype::encode(args.datatype2)));
- TRACE_smpi_comm_out(my_proc_id);
- log_timed_action (action, clock);
-}
+ Colls::alltoallv(send_buffer(args.send_buf_size * args.datatype1->size()), args.sendcounts->data(), args.senddisps.data(), args.datatype1,
+ recv_buffer(args.recv_buf_size * args.datatype2->size()), args.recvcounts->data(), args.recvdisps.data(), args.datatype2, MPI_COMM_WORLD);
+ TRACE_smpi_comm_out(my_proc_id);
+ }
+};
+} // Replay Namespace
}} // namespace simgrid::smpi
/** @brief Only initialize the replay, don't do it for real */
smpi_process()->mark_as_initialized();
smpi_process()->set_replaying(true);
- int my_proc_id = Actor::self()->getPid();
+ int my_proc_id = simgrid::s4u::this_actor::getPid();
TRACE_smpi_init(my_proc_id);
TRACE_smpi_computing_init(my_proc_id);
TRACE_smpi_comm_in(my_proc_id, "smpi_replay_run_init", new simgrid::instr::NoOpTIData("init"));
TRACE_smpi_comm_out(my_proc_id);
- xbt_replay_action_register("init", simgrid::smpi::action_init);
- xbt_replay_action_register("finalize", simgrid::smpi::action_finalize);
- xbt_replay_action_register("comm_size", simgrid::smpi::action_comm_size);
- xbt_replay_action_register("comm_split", simgrid::smpi::action_comm_split);
- xbt_replay_action_register("comm_dup", simgrid::smpi::action_comm_dup);
-
- std::shared_ptr<simgrid::smpi::Replay::SendAction> isend(new simgrid::smpi::Replay::SendAction("Isend"));
- std::shared_ptr<simgrid::smpi::Replay::SendAction> send(new simgrid::smpi::Replay::SendAction("send"));
- std::shared_ptr<simgrid::smpi::Replay::RecvAction> irecv(new simgrid::smpi::Replay::RecvAction("Irecv"));
- std::shared_ptr<simgrid::smpi::Replay::RecvAction> recv(new simgrid::smpi::Replay::RecvAction("recv"));
- std::shared_ptr<simgrid::smpi::Replay::WaitAction> wait(new simgrid::smpi::Replay::WaitAction());
-
- xbt_replay_action_register("send",
- std::bind(&simgrid::smpi::Replay::SendAction::execute, send, std::placeholders::_1));
- xbt_replay_action_register("Isend",
- std::bind(&simgrid::smpi::Replay::SendAction::execute, isend, std::placeholders::_1));
- xbt_replay_action_register("recv",
- std::bind(&simgrid::smpi::Replay::RecvAction::execute, recv, std::placeholders::_1));
- xbt_replay_action_register("Irecv",
- std::bind(&simgrid::smpi::Replay::RecvAction::execute, irecv, std::placeholders::_1));
- xbt_replay_action_register("test", simgrid::smpi::action_test);
- xbt_replay_action_register("wait",
- std::bind(&simgrid::smpi::Replay::WaitAction::execute, wait, std::placeholders::_1));
- xbt_replay_action_register("waitAll", simgrid::smpi::action_waitall);
- xbt_replay_action_register("barrier", simgrid::smpi::action_barrier);
- xbt_replay_action_register("bcast", simgrid::smpi::action_bcast);
- xbt_replay_action_register("reduce", simgrid::smpi::action_reduce);
- xbt_replay_action_register("allReduce", simgrid::smpi::action_allReduce);
- xbt_replay_action_register("allToAll", simgrid::smpi::action_allToAll);
- xbt_replay_action_register("allToAllV", simgrid::smpi::action_allToAllv);
- xbt_replay_action_register("gather", simgrid::smpi::action_gather);
- xbt_replay_action_register("scatter", simgrid::smpi::action_scatter);
- xbt_replay_action_register("gatherV", simgrid::smpi::action_gatherv);
- xbt_replay_action_register("scatterV", simgrid::smpi::action_scatterv);
- xbt_replay_action_register("allGather", simgrid::smpi::action_allgather);
- xbt_replay_action_register("allGatherV", simgrid::smpi::action_allgatherv);
- xbt_replay_action_register("reduceScatter", simgrid::smpi::action_reducescatter);
- xbt_replay_action_register("compute", simgrid::smpi::action_compute);
+ xbt_replay_action_register("init", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::InitAction().execute(action); });
+ xbt_replay_action_register("finalize", [](simgrid::xbt::ReplayAction& action) { /* nothing to do */ });
+ xbt_replay_action_register("comm_size", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::CommunicatorAction().execute(action); });
+ xbt_replay_action_register("comm_split",[](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::CommunicatorAction().execute(action); });
+ xbt_replay_action_register("comm_dup", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::CommunicatorAction().execute(action); });
+
+ xbt_replay_action_register("send", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::SendAction("send").execute(action); });
+ xbt_replay_action_register("Isend", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::SendAction("Isend").execute(action); });
+ xbt_replay_action_register("recv", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::RecvAction("recv").execute(action); });
+ xbt_replay_action_register("Irecv", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::RecvAction("Irecv").execute(action); });
+ xbt_replay_action_register("test", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::TestAction().execute(action); });
+ xbt_replay_action_register("wait", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::WaitAction().execute(action); });
+ xbt_replay_action_register("waitAll", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::WaitAllAction().execute(action); });
+ xbt_replay_action_register("barrier", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::BarrierAction().execute(action); });
+ xbt_replay_action_register("bcast", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::BcastAction().execute(action); });
+ xbt_replay_action_register("reduce", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::ReduceAction().execute(action); });
+ xbt_replay_action_register("allReduce", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::AllReduceAction().execute(action); });
+ xbt_replay_action_register("allToAll", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::AllToAllAction().execute(action); });
+ xbt_replay_action_register("allToAllV", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::AllToAllVAction().execute(action); });
+ xbt_replay_action_register("gather", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::GatherAction("gather").execute(action); });
+ xbt_replay_action_register("scatter", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::ScatterAction().execute(action); });
+ xbt_replay_action_register("gatherV", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::GatherVAction("gatherV").execute(action); });
+ xbt_replay_action_register("scatterV", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::ScatterVAction().execute(action); });
+ xbt_replay_action_register("allGather", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::GatherAction("allGather").execute(action); });
+ xbt_replay_action_register("allGatherV", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::GatherVAction("allGatherV").execute(action); });
+ xbt_replay_action_register("reduceScatter", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::ReduceScatterAction().execute(action); });
+ xbt_replay_action_register("compute", [](simgrid::xbt::ReplayAction& action) { simgrid::smpi::Replay::ComputeAction().execute(action); });
//if we have a delayed start, sleep here.
if(*argc>2){
smpi_free_replay_tmp_buffers();
}
- TRACE_smpi_comm_in(Actor::self()->getPid(), "smpi_replay_run_finalize", new simgrid::instr::NoOpTIData("finalize"));
+ TRACE_smpi_comm_in(simgrid::s4u::this_actor::getPid(), "smpi_replay_run_finalize",
+ new simgrid::instr::NoOpTIData("finalize"));
smpi_process()->finalize();
- TRACE_smpi_comm_out(Actor::self()->getPid());
- TRACE_smpi_finalize(Actor::self()->getPid());
+ TRACE_smpi_comm_out(simgrid::s4u::this_actor::getPid());
+ TRACE_smpi_finalize(simgrid::s4u::this_actor::getPid());
}
/** @brief chain a replay initialization and a replay start */