Пример #1
0
def scatter(s, nums, source, vanilla=0):
    """Wrapper for easy MPI Scatter receive.
     Receive data from source with tag.
     
     Create appropriate buffer and receive data.
  """

    control_info = get_control_info(s)

    protocol = control_info[0]
    typecode = control_info[1]
    size = nums

    if protocol == 'array':
        import Numeric
        x = Numeric.zeros(size, typecode)
        scatter_array(s, size, x, source)
    elif protocol == 'string':
        x = ' ' * size
        scatter_string(s, size, x, source)
    elif protocol == 'vanilla':
        raise "Protocol: %s unsupported for scatter" % protocol
    else:
        raise "Unknown values for protocol: %s" % protocol

    return x
Пример #2
0
def raw_scatter(s, nums, d, source, vanilla=0):
    """Wrapper for MPI scatter.
     Scatter the first nums elements in s to processor d
     (of the same nums size) from source.
     
     Automatically determine appropriate protocol
     and call corresponding send function.
     
     The variable s can be any (picklable) type, but
     Numeric variables and text strings will most efficient.
     Setting vanilla = 1 forces vanilla mode for any type.

  """

    protocol = get_control_info(s, vanilla)[0]
    if protocol == 'array':
        scatter_array(s, nums, d, source)
    elif protocol == 'string':
        scatter_string(s, nums, d, source)
    elif protocol == 'vanilla':
        raise "Protocol: %s unsupported for scatter" % protocol
    else:
        raise "Unknown values for protocol: %s" % protocol

    return d
Пример #3
0
def scatter(s, nums, source, vanilla=0):
  """Wrapper for easy MPI Scatter receive.
     Receive data from source with tag.
     
     Create appropriate buffer and receive data.
  """

  control_info = get_control_info(s)
  
  protocol = control_info[0]
  typecode = control_info[1]
  size =  nums   
  
  if protocol == 'array':
    import Numeric
    x = Numeric.zeros(size,typecode)
    scatter_array(s, size, x, source)    
  elif protocol == 'string':
    x = ' '*size
    scatter_string(s, size, x, source)          
  elif protocol == 'vanilla':
    raise "Protocol: %s unsupported for scatter" %protocol
  else:
    raise "Unknown values for protocol: %s" %protocol
      
  return x  
Пример #4
0
def raw_scatter(s, nums, d, source, vanilla=0):
  """Wrapper for MPI scatter.
     Scatter the first nums elements in s to processor d
     (of the same nums size) from source.
     
     Automatically determine appropriate protocol
     and call corresponding send function.
     
     The variable s can be any (picklable) type, but
     Numeric variables and text strings will most efficient.
     Setting vanilla = 1 forces vanilla mode for any type.

  """

  protocol = get_control_info(s, vanilla)[0]
  if protocol == 'array':
    scatter_array(s, nums, d, source)    
  elif protocol == 'string':
    scatter_string(s, nums, d, source)          
  elif protocol == 'vanilla':
    raise "Protocol: %s unsupported for scatter" %protocol
  else:
    raise "Unknown values for protocol: %s" %protocol  
    
  return d         
Пример #5
0
def scatter(x, root, buffer=None, vanilla=False):
    """Sends data x from process with rank root to all other processes.
    
       Create appropriate buffer and receive data.
       Return scattered result (same type as x)

       Scatter makes only sense for arrays or strings
    """

    import types
    from mpiext import size
    numproc = size()         #Needed to determine buffer size    
    
    #Input check
    errmsg = 'Root id (%s) must be an integer.' %root
    assert type(root) == types.IntType, errmsg

    
    #Create metadata about object to be sent
    protocol, typecode, size, shape = create_control_info(x)

    #Scatter
    if protocol == 'array':
        if buffer is None:
            import Numeric
            
            # Modify shape along axis=0 to match size
            shape = list(shape)
            shape[0] /= numproc
            count = Numeric.product(shape)            
            
            buffer = Numeric.zeros(count, typecode)
            buffer = Numeric.reshape(buffer, shape)
      
        scatter_array(x, buffer, root)
    elif protocol == 'string':
        if buffer is None:
            buffer = ' '*(size/numproc)
            
        scatter_string(x, buffer, root)
    elif protocol == 'vanilla':
        errmsg = 'Scatter is only supported for Numeric arrays and strings.\n'
        errmsg += 'If you wish to distribute a general sequence, '
        errmsg += 'please use send and receive commands or broadcast.'
        raise errmsg
    else:
        raise 'Unknown protocol: %s' %protocol
        
    return buffer  
Пример #6
0
def scatter(x, root, buffer=None, vanilla=False):
    """Sends data x from process with rank root to all other processes.
    
       Create appropriate buffer and receive data.
       Return scattered result (same type as x)

       Scatter makes only sense for arrays or strings
    """

    import types
    from mpiext import size
    numproc = size()  #Needed to determine buffer size

    #Input check
    errmsg = 'Root id (%s) must be an integer.' % root
    assert type(root) == types.IntType, errmsg

    #Create metadata about object to be sent
    protocol, typecode, size, shape = create_control_info(x)

    #Scatter
    if protocol == 'array':
        if buffer is None:
            import Numeric

            # Modify shape along axis=0 to match size
            shape = list(shape)
            shape[0] /= numproc
            count = Numeric.product(shape)

            buffer = Numeric.zeros(count, typecode)
            buffer = Numeric.reshape(buffer, shape)

        scatter_array(x, buffer, root)
    elif protocol == 'string':
        if buffer is None:
            buffer = ' ' * (size / numproc)

        scatter_string(x, buffer, root)
    elif protocol == 'vanilla':
        errmsg = 'Scatter is only supported for Numeric arrays and strings.\n'
        errmsg += 'If you wish to distribute a general sequence, '
        errmsg += 'please use send and receive commands or broadcast.'
        raise errmsg
    else:
        raise 'Unknown protocol: %s' % protocol

    return buffer