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/* IBM_PROLOG_BEGIN_TAG
* This is an automatically generated prolog.
*
* $Source: src/usr/targeting/common/utilFilter.C $
*
* IBM CONFIDENTIAL
*
* COPYRIGHT International Business Machines Corp. 2012
*
* p1
*
* Object Code Only (OCO) source materials
* Licensed Internal Code Source Materials
* IBM HostBoot Licensed Internal Code
*
* The source code for this program is not published or other-
* wise divested of its trade secrets, irrespective of what has
* been deposited with the U.S. Copyright Office.
*
* Origin: 30
*
* IBM_PROLOG_END_TAG
*/
//******************************************************************************
// Includes
//******************************************************************************
#include <targeting/common/commontargeting.H>
#include <targeting/common/entitypath.H>
#include <attributeenums.H>
#include <targeting/common/iterators/rangefilter.H>
#include <targeting/common/predicates/predicateisfunctional.H>
#include <targeting/common/predicates/predicatepostfixexpr.H>
/**
* Miscellaneous Filter Utility Functions
*/
namespace TARGETING
{
/**
* @brief Populate the o_vector with target object pointers based on the
* requested class, type, and functional state.
*
* @parm[out] o_vector, reference of vector of target pointers.
* @parm[in] i_class, the class of the targets to be obtained
* @parm[in] i_type, the type of the targets to be obtained
* @parm[in] i_functional, set to true to return only functional targets
*
* @return N/A
*/
void _getAllChipsOrChiplets( TARGETING::TargetHandleList & o_vector,
CLASS i_class, TYPE i_type, bool i_functional = true )
{
// Get all chip/chiplet targets
// Use PredicateIsFunctional to filter only functional chips/chiplets
TARGETING::PredicateIsFunctional l_isFunctional;
// filter for functional Chips/Chiplets
TARGETING::PredicateCTM l_Filter(i_class, i_type);
// declare a postfix expression widget
TARGETING::PredicatePostfixExpr l_goodFilter;
// is-a--chip is-functional AND
l_goodFilter.push(&l_Filter).push(&l_isFunctional).And();
// apply the filter through all targets.
TARGETING::TargetRangeFilter l_filter( TARGETING::targetService().begin(),
TARGETING::targetService().end(), &l_goodFilter );
if (!i_functional)
{
l_filter.setPredicate(&l_Filter);
}
o_vector.clear();
for ( ; l_filter; ++l_filter)
{
o_vector.push_back( *l_filter );
}
}
void getAllChips( TARGETING::TargetHandleList & o_vector,
TYPE i_chipType, bool i_functional = true )
{
_getAllChipsOrChiplets(o_vector, CLASS_CHIP, i_chipType, i_functional);
}
void getAllChiplets( TARGETING::TargetHandleList & o_vector,
TYPE i_chipletType, bool i_functional = true )
{
_getAllChipsOrChiplets(o_vector, CLASS_UNIT, i_chipletType, i_functional);
}
void getChildChiplets( TARGETING::TargetHandleList& o_vector,
const Target * i_chip, TYPE i_type, bool i_functional )
{
// get the chiplets associated with this cpu
TARGETING::PredicateCTM l_chipletFilter(CLASS_UNIT, i_type);
o_vector.clear();
if (i_functional)
{
// Use PredicateIsFunctional to filter only functional chiplets
TARGETING::PredicateIsFunctional l_functional;
TARGETING::PredicatePostfixExpr l_functionalChiplets;
l_functionalChiplets.push(&l_chipletFilter).push(&l_functional).And();
TARGETING::targetService().getAssociated(
o_vector,
i_chip,
TARGETING::TargetService::CHILD,
TARGETING::TargetService::ALL,
&l_functionalChiplets );
}
else
{
TARGETING::targetService().getAssociated(
o_vector,
i_chip,
TARGETING::TargetService::CHILD,
TARGETING::TargetService::ALL,
&l_chipletFilter );
}
}
void getAffinityChips( TARGETING::TargetHandleList& o_vector,
const Target * i_chiplet, TYPE i_type, bool i_functional )
{
// find all the chip that are affinity-associated with i_chiplet
TARGETING::PredicateCTM l_chipFilter(CLASS_CHIP, i_type);
o_vector.clear();
if (i_functional)
{
// Use PredicateIsFunctional to filter only functional chips
TARGETING::PredicateIsFunctional l_functional;
TARGETING::PredicatePostfixExpr l_functionalChips;
l_functionalChips.push(&l_chipFilter).push(&l_functional).And();
TARGETING::targetService().getAssociated(
o_vector,
i_chiplet,
TARGETING::TargetService::CHILD_BY_AFFINITY,
TARGETING::TargetService::ALL,
&l_functionalChips );
}
else
{
TARGETING::targetService().getAssociated(
o_vector,
i_chiplet,
TARGETING::TargetService::CHILD_BY_AFFINITY,
TARGETING::TargetService::ALL,
&l_chipFilter );
}
}
};
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