}
}
-void Comm::setRate(double rate) {
+Activity* Comm::setRate(double rate)
+{
xbt_assert(state_==inited);
rate_ = rate;
+ return this;
}
-void Comm::setSrcData(void * buff) {
+Activity* Comm::setSrcData(void* buff)
+{
xbt_assert(state_==inited);
xbt_assert(dstBuff_ == nullptr, "Cannot set the src and dst buffers at the same time");
srcBuff_ = buff;
+ return this;
}
-void Comm::setSrcDataSize(size_t size){
+Activity* Comm::setSrcDataSize(size_t size)
+{
xbt_assert(state_==inited);
srcBuffSize_ = size;
+ return this;
}
-void Comm::setSrcData(void * buff, size_t size) {
+Activity* Comm::setSrcData(void* buff, size_t size)
+{
xbt_assert(state_==inited);
xbt_assert(dstBuff_ == nullptr, "Cannot set the src and dst buffers at the same time");
srcBuff_ = buff;
srcBuffSize_ = size;
+ return this;
}
-void Comm::setDstData(void ** buff) {
+Activity* Comm::setDstData(void** buff)
+{
xbt_assert(state_==inited);
xbt_assert(srcBuff_ == nullptr, "Cannot set the src and dst buffers at the same time");
dstBuff_ = buff;
+ return this;
}
size_t Comm::getDstDataSize(){
xbt_assert(state_==finished);
return dstBuffSize_;
}
-void Comm::setDstData(void ** buff, size_t size) {
+Activity* Comm::setDstData(void** buff, size_t size)
+{
xbt_assert(state_==inited);
xbt_assert(srcBuff_ == nullptr, "Cannot set the src and dst buffers at the same time");
dstBuff_ = buff;
dstBuffSize_ = size;
+ return this;
}
-void Comm::start() {
+Activity* Comm::start()
+{
xbt_assert(state_ == inited);
if (srcBuff_ != nullptr) { // Sender side
xbt_die("Cannot start a communication before specifying whether we are the sender or the receiver");
}
state_ = started;
+ return this;
}
/** @brief Block the calling actor until the communication is finished */
-void Comm::wait() {
- this->wait(-1);
+Activity* Comm::wait()
+{
+ return this->wait(-1);
}
/** @brief Block the calling actor until the communication is finished, or until timeout
*
* @param timeout the amount of seconds to wait for the comm termination.
* Negative values denote infinite wait times. 0 as a timeout returns immediately. */
-void Comm::wait(double timeout) {
+Activity* Comm::wait(double timeout)
+{
switch (state_) {
case finished:
- return;
+ return this;
case inited: // It's not started yet. Do it in one simcall
if (srcBuff_ != nullptr) {
userData_, timeout, rate_);
}
state_ = finished;
- return;
+ return this;
case started:
simcall_comm_wait(pimpl_, timeout);
state_ = finished;
- return;
+ return this;
default:
THROW_IMPOSSIBLE;
}
+ return this;
+}
+int Comm::test_any(std::vector<CommPtr>* comms)
+{
+ smx_activity_t* array = new smx_activity_t[comms->size()];
+ for (unsigned int i = 0; i < comms->size(); i++) {
+ array[i] = comms->at(i)->pimpl_;
+ }
+ int res = simcall_comm_testany(array, comms->size());
+ delete[] array;
+ return res;
}
-void Comm::detach()
+Activity* Comm::detach()
{
xbt_assert(state_ == inited, "You cannot detach communications once they are started.");
xbt_assert(srcBuff_ != nullptr && srcBuffSize_ != 0, "You can only detach sends, not recvs");
detached_ = true;
- start();
+ return start();
}
-void Comm::cancel()
+Activity* Comm::cancel()
{
simgrid::kernel::activity::CommImplPtr commPimpl =
boost::static_pointer_cast<simgrid::kernel::activity::CommImpl>(pimpl_);
commPimpl->cancel();
+ return this;
}
bool Comm::test()