.\" -*- nroff -*- .\" Copyright 2010 Cisco Systems, Inc. All rights reserved. .\" Copyright 2007-2008 Sun Microsystems, Inc. .\" Copyright (c) 1996 Thinking Machines Corporation .\" $COPYRIGHT$ .TH MPI_Recv 3 "Sep 30, 2023" "4.1.6" "Open MPI" .SH NAME \fBMPI_Recv\fP \- Performs a standard-mode blocking receive. .SH SYNTAX .ft R .SH C Syntax .nf #include int MPI_Recv(void *\fIbuf\fP, int\fI count\fP, MPI_Datatype\fI datatype\fP, int\fI source\fP, int\fI tag\fP, MPI_Comm\fI comm\fP, MPI_Status\fI *status\fP) .fi .SH Fortran Syntax .nf USE MPI ! or the older form: INCLUDE 'mpif.h' MPI_RECV(\fIBUF, COUNT, DATATYPE, SOURCE, TAG, COMM, STATUS, IERROR\fP) \fIBUF\fP(*) INTEGER \fICOUNT, DATATYPE, SOURCE, TAG, COMM\fP INTEGER \fISTATUS(MPI_STATUS_SIZE), IERROR\fP .fi .SH Fortran 2008 Syntax .nf USE mpi_f08 MPI_Recv(\fIbuf\fP, \fIcount\fP, \fIdatatype\fP, \fIsource\fP, \fItag\fP, \fIcomm\fP, \fIstatus\fP, \fIierror\fP) TYPE(*), DIMENSION(..) :: \fIbuf\fP INTEGER, INTENT(IN) :: \fIcount\fP, \fIsource\fP, \fItag\fP TYPE(MPI_Datatype), INTENT(IN) :: \fIdatatype\fP TYPE(MPI_Comm), INTENT(IN) :: \fIcomm\fP TYPE(MPI_Status) :: \fIstatus\fP INTEGER, OPTIONAL, INTENT(OUT) :: \fIierror\fP .fi .SH C++ Syntax .nf #include void Comm::Recv(void* \fIbuf\fP, int \fIcount\fP, const Datatype& \fIdatatype\fP, int \fIsource\fP, int \fItag\fP, Status& \fIstatus\fP) const void Comm::Recv(void* \fIbuf\fP, int \fIcount\fP, const Datatype& \fIdatatype\fP, int \fIsource\fP, int \fItag\fP) const .fi .SH INPUT PARAMETERS .ft R .TP 1i count Maximum number of elements to receive (integer). .TP 1i datatype Datatype of each receive buffer entry (handle). .TP 1i source Rank of source (integer). .TP 1i tag Message tag (integer). .TP 1i comm Communicator (handle). .SH OUTPUT PARAMETERS .ft R .TP 1i buf Initial address of receive buffer (choice). .TP 1i status Status object (status). .ft R .TP 1i IERROR Fortran only: Error status (integer). .SH DESCRIPTION .ft R This basic receive operation, MPI_Recv, is blocking: it returns only after the receive buffer contains the newly received message. A receive can complete before the matching send has completed (of course, it can complete only after the matching send has started). .sp The blocking semantics of this call are described in Section 3.4 of the MPI-1 Standard, "Communication Modes." .sp The receive buffer contains a number (defined by the value of \fIcount\fP) of consecutive elements. The first element in the set of elements is located at \fIaddress_buf\fP. The type of each of these elements is specified by \fIdatatype\fP. .sp The length of the received message must be less than or equal to the length of the receive buffer. An MPI_ERR_TRUNCATE is returned upon the overflow condition. .sp If a message that is shorter than the length of the receive buffer arrives, then only those locations corresponding to the (shorter) received message are modified. .SH NOTES The \fIcount\fP argument indicates the maximum number of entries of type \fIdatatype\fP that can be received in a message. Once a message is received, use the MPI_Get_count function to determine the actual number of entries within that message. .sp To receive messages of unknown length, use the MPI_Probe function. (For more information about MPI_Probe and MPI_Cancel, see their respective man pages; also, see Section 3.8 of the MPI-1 Standard, "Probe and Cancel.") .sp A message can be received by a receive operation only if it is addressed to the receiving process, and if its source, tag, and communicator (comm) values match the source, tag, and comm values specified by the receive operation. The receive operation may specify a wildcard value for source and/or tag, indicating that any source and/or tag are acceptable. The wildcard value for source is source = MPI_ANY_SOURCE. The wildcard value for tag is tag = MPI_ANY_TAG. There is no wildcard value for comm. The scope of these wildcards is limited to the proceses in the group of the specified communicator. .sp The message tag is specified by the tag argument of the receive operation. .sp The argument source, if different from MPI_ANY_SOURCE, is specified as a rank within the process group associated with that same communicator (remote process group, for intercommunicators). Thus, the range of valid values for the source argument is {0,...,n-1} {MPI_ANY_SOURCE}, where n is the number of processes in this group. .sp Note the asymmetry between send and receive operations: A receive operation may accept messages from an arbitrary sender; on the other hand, a send operation must specify a unique receiver. This matches a "push" communication mechanism, where data transfer is effected by the sender (rather than a "pull" mechanism, where data transfer is effected by the receiver). .sp Source = destination is allowed, that is, a process can send a message to itself. However, it is not recommended for a process to send messages to itself using the blocking send and receive operations described above, since this may lead to deadlock. See Section 3.5 of the MPI-1 Standard, "Semantics of Point-to-Point Communication." .sp If your application does not need to examine the \fIstatus\fP field, you can save resources by using the predefined constant MPI_STATUS_IGNORE as a special value for the \fIstatus\fP argument. .SH ERRORS Almost all MPI routines return an error value; C routines as the value of the function and Fortran routines in the last argument. C++ functions do not return errors. If the default error handler is set to MPI::ERRORS_THROW_EXCEPTIONS, then on error the C++ exception mechanism will be used to throw an MPI::Exception object. .sp Before the error value is returned, the current MPI error handler is called. By default, this error handler aborts the MPI job, except for I/O function errors. The error handler may be changed with MPI_Comm_set_errhandler; the predefined error handler MPI_ERRORS_RETURN may be used to cause error values to be returned. Note that MPI does not guarantee that an MPI program can continue past an error. .SH SEE ALSO .ft R .nf MPI_Irecv MPI_Probe