* There is really no limit on the hosts involved. In particular, the actor does not have to be on one of the involved
* hosts.
*/
- static CommPtr sendto_async(Host* from, Host* to, double simulated_size_in_bytes);
+ static CommPtr sendto_async(Host* from, Host* to, uint64_t simulated_size_in_bytes);
/** Do a blocking communication between two arbitrary hosts.
*
* This starts a blocking communication right away, bypassing the mailbox and actors mechanism.
* The calling actor is blocked until the end of the communication; there is really no limit on the hosts involved.
* In particular, the actor does not have to be on one of the involved hosts. Enjoy the comfort of the simulator :)
*/
- static void sendto(Host* from, Host* to, double simulated_size_in_bytes);
+ static void sendto(Host* from, Host* to, uint64_t simulated_size_in_bytes);
static xbt::signal<void(Comm const&, bool is_sender)> on_start;
static xbt::signal<void(Comm const&)> on_completion;
/*! take a vector s4u::CommPtr and return when one of them is finished.
* The return value is the rank of the first finished CommPtr. */
- static int wait_any(const std::vector<CommPtr>& comms) { return wait_any_for(comms, -1); }
+ static ssize_t wait_any(const std::vector<CommPtr>& comms) { return wait_any_for(comms, -1); }
/*! Same as wait_any, but with a timeout. Return -1 if the timeout occurs.*/
- static int wait_any_for(const std::vector<CommPtr>& comms, double timeout);
+ static ssize_t wait_any_for(const std::vector<CommPtr>& comms, double timeout);
/*! take a vector s4u::CommPtr and return when all of them is finished. */
static void wait_all(const std::vector<CommPtr>& comms);
* occurs). */
static size_t wait_all_for(const std::vector<CommPtr>& comms, double timeout);
/*! take a vector s4u::CommPtr and return the rank of the first finished one (or -1 if none is done). */
- static int test_any(const std::vector<CommPtr>& comms);
+ static ssize_t test_any(const std::vector<CommPtr>& comms);
+#ifndef DOXYGEN
XBT_ATTRIB_DEPRECATED_v332("Please use a plain vector for parameter")
- static int wait_any(const std::vector<CommPtr>* comms) { return wait_any_for(*comms, -1); }
+ static int wait_any(const std::vector<CommPtr>* comms) { return static_cast<int>(wait_any_for(*comms, -1)); }
XBT_ATTRIB_DEPRECATED_v332("Please use a plain vector for first parameter")
- static int wait_any_for(const std::vector<CommPtr>* comms, double timeout) { return wait_any_for(*comms, timeout); }
+ static int wait_any_for(const std::vector<CommPtr>* comms, double timeout) { return static_cast<int>(wait_any_for(*comms, timeout)); }
XBT_ATTRIB_DEPRECATED_v332("Please use a plain vector for parameter")
static void wait_all(const std::vector<CommPtr>* comms) { wait_all(*comms); }
XBT_ATTRIB_DEPRECATED_v332("Please use a plain vector for parameter")
- static int test_any(const std::vector<CommPtr>* comms) { return test_any(*comms); }
+ static int test_any(const std::vector<CommPtr>* comms) { return static_cast<int>(test_any(*comms)); }
+#endif
Comm* start() override;
Comm* wait_for(double timeout) override;
* :cpp:func:`simgrid::s4u::Comm::set_src_data_size`).
* @endrst
*/
- CommPtr set_payload_size(double bytes);
+ CommPtr set_payload_size(uint64_t bytes);
/** Specify the data to send and its size (not to be mixed with set_payload_size())
*
Actor* get_sender() const;
bool is_assigned() const override { return (to_ != nullptr && from_ != nullptr) || (mailbox_ != nullptr); }
+
+ CommPtr set_copy_data_callback(void (*callback)(kernel::activity::CommImpl*, void*, size_t));
};
} // namespace s4u
} // namespace simgrid
