boost_1_45_0/libs/mpi/src/computation_tree.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 // Copyright (C) 2005 Douglas Gregor.

 // Use, modification and distribution is subject to the Boost Software
 // License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
 // http://www.boost.org/LICENSE_1_0.txt)

 // Compute parents, children, levels, etc. to effect a parallel
 // computation tree.

 #include <boost/mpi/detail/computation_tree.hpp>

 namespace boost { namespace mpi { namespace detail {

 int computation_tree::default_branching_factor = 3;

 computation_tree
 ::computation_tree(int rank, int size, int root, int branching_factor)
   : rank(rank), size(size), root(root),
     branching_factor_(branching_factor > 1? branching_factor
                       /* default */: default_branching_factor),
     level_(0)
 {
   // The position in the tree, once we've adjusted for non-zero
   // roots.
   int n = (rank + size - root) % size;
   int sum = 0;
   int term = 1;

   /* The level is the smallest value of k such that

   f^0 + f^1 + ... + f^k > n

   for branching factor f and index n in the tree. */
   while (sum <= n) {
     ++level_;
     term *= branching_factor_;
     sum += term;
   }
 }

 int computation_tree::level_index(int n) const
 {
   int sum = 0;
   int term = 1;
   while (n--) {
     sum += term;
     term *= branching_factor_;
   }
   return sum;
 }

 int computation_tree::parent() const
 {
   if (rank == root) return rank;
   int n = rank + size - 1 - root;
   return ((n % size / branching_factor_) + root) % size ;
 }

 int computation_tree::child_begin() const
 {
   // Zero-based index of this node
   int n = (rank + size - root) % size;

   // Compute the index of the child (in a zero-based tree)
   int child_index = level_index(level_ + 1)
     + branching_factor_ * (n - level_index(level_));

   if (child_index >= size) return root;
   else return (child_index + root) % size;
 }

 } } } // end namespace boost::mpi::detail
	// Copyright (C) 2005 Douglas Gregor.

	// Use, modification and distribution is subject to the Boost Software
	// License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
	// http://www.boost.org/LICENSE_1_0.txt)

	// Compute parents, children, levels, etc. to effect a parallel
	// computation tree.

	#include <boost/mpi/detail/computation_tree.hpp>

	namespace boost { namespace mpi { namespace detail {

	int computation_tree::default_branching_factor = 3;

	computation_tree
	::computation_tree(int rank, int size, int root, int branching_factor)
	: rank(rank), size(size), root(root),
	branching_factor_(branching_factor > 1? branching_factor
	/* default */: default_branching_factor),
	level_(0)
	{
	// The position in the tree, once we've adjusted for non-zero
	// roots.
	int n = (rank + size - root) % size;
	int sum = 0;
	int term = 1;

	/* The level is the smallest value of k such that

	f^0 + f^1 + ... + f^k > n

	for branching factor f and index n in the tree. */
	while (sum <= n) {
	++level_;
	term *= branching_factor_;
	sum += term;
	}
	}

	int computation_tree::level_index(int n) const
	{
	int sum = 0;
	int term = 1;
	while (n--) {
	sum += term;
	term *= branching_factor_;
	}
	return sum;
	}

	int computation_tree::parent() const
	{
	if (rank == root) return rank;
	int n = rank + size - 1 - root;
	return ((n % size / branching_factor_) + root) % size ;
	}

	int computation_tree::child_begin() const
	{
	// Zero-based index of this node
	int n = (rank + size - root) % size;

	// Compute the index of the child (in a zero-based tree)
	int child_index = level_index(level_ + 1)
	+ branching_factor_ * (n - level_index(level_));

	if (child_index >= size) return root;
	else return (child_index + root) % size;
	}

	} } } // end namespace boost::mpi::detail