transformcounterc.nc

tinyos-2.x.rar

//$Id: TransformCounterC.nc,v 1.5 2008/06/24 04:07:29 regehr Exp $

/* "Copyright (c) 2000-2003 The Regents of the University of California.  
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 * IN NO EVENT SHALL THE UNIVERSITY OF CALIFORNIA BE LIABLE TO ANY PARTY FOR
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/**
 * TransformCounterC decreases precision and/or widens an Counter.
 *
 * <p>See TEP102 for more details.
 *
 * @param to_precision_tag A type indicating the precision of the transformed
 *   Counter.
 * @param to_size_type The type for the width of the transformed Counter.
 * @param from_precision_tag A type indicating the precision of the original
 *   Counter.
 * @param from_size_type The type for the width of the original Counter.
 * @param bit_shift_right Original time units will be 2 to the power 
 *   <code>bit_shift_right</code> larger than transformed time units.
 * @param upper_count_type A type large enough to store the upper bits --
 *   those needed above from_size_type after its shift right to fill
 *   to_size_type.
 *
 * @author Cory Sharp <cssharp@eecs.berkeley.edu>
 */

generic module TransformCounterC(
  typedef to_precision_tag,
  typedef to_size_type @integer(),
  typedef from_precision_tag,
  typedef from_size_type @integer(),
  uint8_t bit_shift_right,
  typedef upper_count_type @integer()) @safe()
{
  provides interface Counter<to_precision_tag,to_size_type> as Counter;
  uses interface Counter<from_precision_tag,from_size_type> as CounterFrom;
}
implementation
{
  upper_count_type m_upper;

  enum
  {
    LOW_SHIFT_RIGHT = bit_shift_right,
    HIGH_SHIFT_LEFT = 8*sizeof(from_size_type) - LOW_SHIFT_RIGHT,
    NUM_UPPER_BITS = 8*sizeof(to_size_type) - 8*sizeof(from_size_type) + bit_shift_right,
    // 1. hack to remove warning when NUM_UPPER_BITS == 8*sizeof(upper_count_type)
    // 2. still provide warning if NUM_UPPER_BITS > 8*sizeof(upper_count_type)
    // 3. and allow for the strange case of NUM_UPPER_BITS == 0
    OVERFLOW_MASK = NUM_UPPER_BITS ? ((((upper_count_type)2) << (NUM_UPPER_BITS-1)) - 1) : 0,
  };

  async command to_size_type Counter.get()
  {
    to_size_type rv = 0;
    atomic
    {
      upper_count_type high = m_upper;
      from_size_type low = call CounterFrom.get();
      if (call CounterFrom.isOverflowPending())
      {
	// If we signalled CounterFrom.overflow, that might trigger a
	// Counter.overflow, which breaks atomicity.  The right thing to do
	// increment a cached version of high without overflow signals.
	// m_upper will be handled normally as soon as the out-most atomic
	// block is left unless Clear.clearOverflow is called in the interim.
	// This is all together the expected behavior.
	high++;
	low = call CounterFrom.get();
      }
      {
	to_size_type high_to = high;
	to_size_type low_to = low >> LOW_SHIFT_RIGHT;
	rv = (high_to << HIGH_SHIFT_LEFT) | low_to;
      }
    }
    return rv;
  }

  // isOverflowPending only makes sense when it's already part of a larger
  // async block, so there's no async inside the command itself, where it
  // wouldn't do anything useful.

  async command bool Counter.isOverflowPending()
  {
    return ((m_upper & OVERFLOW_MASK) == OVERFLOW_MASK)
	   && call CounterFrom.isOverflowPending();
  }

  // clearOverflow also only makes sense inside a larger atomic block, but we
  // include the inner atomic block to ensure consistent internal state just in
  // case someone calls it non-atomically.

  async command void Counter.clearOverflow()
  {
    atomic
    {
      if (call Counter.isOverflowPending())
      {
	m_upper++;
	call CounterFrom.clearOverflow();
      }
    }
  }

  async event void CounterFrom.overflow()
  {
    atomic
    {
      m_upper++;
      if ((m_upper & OVERFLOW_MASK) == 0)
	signal Counter.overflow();
    }
  }
}