libtrilinos-anasazi-dev 12.10.1-3 / usr / include / trilinos / AnasaziStatusTestCombo.hpp

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//                 Anasazi: Block Eigensolvers Package
//                 Copyright (2004) Sandia Corporation
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#ifndef ANASAZI_STATUS_TEST_COMBO_HPP
#define ANASAZI_STATUS_TEST_COMBO_HPP

/*!
  \file AnasaziStatusTestCombo.hpp
  \brief Status test for forming logical combinations of other status tests.
*/


#include "AnasaziTypes.hpp"
#include "AnasaziStatusTest.hpp"
#include "Teuchos_Array.hpp"
namespace Anasazi {


  /*! 
    \class StatusTestCombo
    \brief Status test for forming logical combinations of other status tests.
    
    Test types include StatusTestCombo::OR, StatusTestCombo::AND, StatusTestCombo::SEQOR and StatusTestCombo::SEQAND.  The StatusTestCombo::OR and StatusTestCombo::AND tests
    evaluate all of the tests, in the order they were passed to the
    StatusTestCombo.  The StatusTestCombo::SEQOR and StatusTestCombo::SEQAND run only the tests necessary to
    determine the final outcome, short-circuiting on the first test that
    conclusively decides the outcome. More formally, StatusTestCombo::SEQAND runs the tests in
    the order they were given to the StatusTestCombo class and stops after the
    first test that evaluates ::Failed. StatusTestCombo::SEQOR run the tests in the order they
    were given to the StatusTestCombo class and stops after the first test that
    evaluates ::Passed.
  */


template <class ScalarType, class MV, class OP>
class StatusTestCombo : public StatusTest<ScalarType,MV,OP> {

 private:
   typedef Teuchos::Array< Teuchos::RCP< StatusTest<ScalarType,MV,OP> > > STPArray;

 public:

 //!  \brief Enumerated type to list the types of StatusTestCombo combo types.
 enum ComboType
   {
     OR,           /*!< Logical OR which evaluates all tests */
     AND,          /*!< Logical AND which evaluates all tests */
     SEQOR,        /*!< Short-circuited logical OR */
     SEQAND        /*!< Short-circuited logical AND */
   };


#ifndef DOXYGEN_SHOULD_SKIP_THIS

  typedef Teuchos::Array< Teuchos::RCP< StatusTest<ScalarType,MV,OP> > > t_arr;
  typedef std::vector< Teuchos::RCP< StatusTest<ScalarType,MV,OP> > > st_vector;
  typedef typename st_vector::iterator                 iterator;
  typedef typename st_vector::const_iterator     const_iterator;

#endif // DOXYGEN_SHOULD_SKIP_THIS

  //! @name Constructors/destructors
  //@{ 

  //! Constructor
  //! \brief Default constructor has no tests and initializes to StatusTestCombo::ComboType StatusTestCombo::OR.
  StatusTestCombo() : state_(Undefined) {}

  //! Constructor
  //! \brief Constructor specifying the StatusTestCombo::ComboType and the tests.
  StatusTestCombo(ComboType type, Teuchos::Array< Teuchos::RCP< StatusTest<ScalarType,MV,OP> > > tests) :
    state_(Undefined), 
    type_(type)
  {
    setTests(tests);
  };

  //! Destructor
  virtual ~StatusTestCombo() {};
  //@}

  //! @name Status methods
  //@{ 
  /*! Check status as defined by test.
    
    \return TestStatus indicating whether the test passed or failed.
  */
  TestStatus checkStatus( Eigensolver<ScalarType,MV,OP>* solver );

  //! Return the result of the most recent checkStatus call.
  TestStatus getStatus() const {
    return state_;
  }

  //! Get the indices for the vectors that passed the test.
  /*!
   * This returns some combination of the passing vectors from the 
   * tests comprising the StatusTestCombo. The nature of the combination depends on the 
   * StatusTestCombo::ComboType:
   *    - StatusTestCombo::SEQOR, StatusTestCombo::OR - whichVecs() returns the union of whichVecs() from all evaluated constituent tests
   *    - StatusTestCombo::SEQAND, StatusTestCombo::AND - whichVecs() returns the intersection of whichVecs() from all evaluated constituent tests
   */
  std::vector<int> whichVecs() const {
    return ind_;
  }

  //! Get the number of vectors that passed the test.
  //
  // See whichVecs()
  int howMany() const {
    return ind_.size();
  }

  //@}

  //! @name Accessor methods
  //@{ 

  /*! \brief Set the maximum number of iterations.
   *  This also resets the test status to ::Undefined.
   */
  void setComboType(ComboType type) {
    type_ = type;
    state_ = Undefined;
  }

  //! Get the maximum number of iterations.
  ComboType getComboType() const {return type_;}

  /*! \brief Set the tests
   *  This also resets the test status to ::Undefined.
   */
  void setTests(Teuchos::Array<Teuchos::RCP<StatusTest<ScalarType,MV,OP> > > tests) {
    tests_ = tests;
    state_ = Undefined;
  }

  //! Get the tests
  Teuchos::Array<Teuchos::RCP<StatusTest<ScalarType,MV,OP> > > getTests() const {return tests_;}

  /*! \brief Add a test to the combination.
   *
   *  This also resets the test status to ::Undefined.
   */
  void addTest(Teuchos::RCP<StatusTest<ScalarType,MV,OP> > test) {
    tests_.push_back(test);
    state_ = Undefined;
  }

  /*! \brief Removes a test from the combination, if it exists in the tester.
   *
   * This also resets the test status to ::Undefined, if a test was removed.
   */
  void removeTest(const Teuchos::RCP<StatusTest<ScalarType,MV,OP> > &test);

  //@}

  //! @name Reset methods
  //@{ 
  //! \brief Informs the status test that it should reset its internal configuration to the uninitialized state.
  /*! The StatusTestCombo class has no internal state, but children classes might, so this method will call
     reset() on all child status tests. It also resets the test status to ::Undefined.
  */
  void reset();

  //! \brief Clears the results of the last status test.
  /*! This should be distinguished from the reset() method, as it only clears the cached result from the last 
   * status test, so that a call to getStatus() will return ::Undefined. This is necessary for the StatusTestCombo::SEQOR and StatusTestCombo::SEQAND
   * tests in the StatusTestCombo class, which may short circuit and not evaluate all of the StatusTests contained
   * in them.
  */
  void clearStatus();

  //@}

  //! @name Print methods
  //@{ 
  
  //! Output formatted description of stopping test to output stream.
  std::ostream& print(std::ostream& os, int indent = 0) const;
 
  //@}
  private:

  TestStatus evalOR(Eigensolver<ScalarType,MV,OP>* solver);
  TestStatus evalAND(Eigensolver<ScalarType,MV,OP>* solver);
  TestStatus evalSEQOR(Eigensolver<ScalarType,MV,OP>* solver);
  TestStatus evalSEQAND(Eigensolver<ScalarType,MV,OP>* solver);

  TestStatus state_;
  ComboType type_;
  STPArray tests_;
  std::vector<int> ind_;

};


template <class ScalarType, class MV, class OP>
void StatusTestCombo<ScalarType,MV,OP>::removeTest(const Teuchos::RCP<StatusTest<ScalarType,MV,OP> > &test) 
{
  typename STPArray::iterator iter1;
  iter1 = std::find(tests_.begin(),tests_.end(),test);
  if (iter1 != tests_.end()) {
    tests_.erase(iter1);
    state_ = Undefined;
  }
}


template <class ScalarType, class MV, class OP>
TestStatus StatusTestCombo<ScalarType,MV,OP>::checkStatus( Eigensolver<ScalarType,MV,OP>* solver ) {
  clearStatus();
  switch (type_) {
    case OR:
      state_ = evalOR(solver);
      break;
    case AND:
      state_ = evalAND(solver);
      break;
    case SEQOR:
      state_ = evalSEQOR(solver);
      break;
    case SEQAND:
      state_ = evalSEQAND(solver);
      break;
  }
  return state_;
}


template <class ScalarType, class MV, class OP>
void StatusTestCombo<ScalarType,MV,OP>::reset() {
  ind_.resize(0);
  state_ = Undefined;
  typedef typename STPArray::iterator iter;
  for (iter i=tests_.begin(); i != tests_.end(); i++) {
    (*i)->reset();
  }
}

template <class ScalarType, class MV, class OP>
void StatusTestCombo<ScalarType,MV,OP>::clearStatus() {
  ind_.resize(0);
  state_ = Undefined;
  typedef typename STPArray::iterator iter;
  for (iter i=tests_.begin(); i != tests_.end(); i++) {
    (*i)->clearStatus();
  }
}

template <class ScalarType, class MV, class OP>
std::ostream& StatusTestCombo<ScalarType,MV,OP>::print(std::ostream& os, int indent) const {
  std::string ind(indent,' ');
  os << ind << "- StatusTestCombo: ";
  switch (state_) {
  case Passed:
    os << "Passed" << std::endl;
    break;
  case Failed:
    os << "Failed" << std::endl;
    break;
  case Undefined:
    os << "Undefined" << std::endl;
    break;
  }
  // print children, with extra indention
  typedef typename STPArray::const_iterator const_iter;
  for (const_iter i=tests_.begin(); i != tests_.end(); i++) {
    (*i)->print(os,indent+2);
  }
  return os;
}

template <class ScalarType, class MV, class OP>
TestStatus StatusTestCombo<ScalarType,MV,OP>::evalOR( Eigensolver<ScalarType,MV,OP>* solver ) {
  state_ = Failed;
  typedef typename STPArray::iterator iter;
  for (iter i=tests_.begin(); i != tests_.end(); i++) {
    TestStatus r = (*i)->checkStatus(solver);
    if (i == tests_.begin()) {
      ind_ = (*i)->whichVecs();
      // sort ind_ for use below
      std::sort(ind_.begin(),ind_.end());
    }
    else {
      // to use set_union, ind_ must have room for the result, which will have size() <= end.size() + iwv.size()
      // also, ind and iwv must be in ascending order; only ind_ is
      // lastly, the return from set_union points to the last element in the union, which tells us how big the union is
      std::vector<int> iwv = (*i)->whichVecs();
      std::sort(iwv.begin(),iwv.end());
      std::vector<int> tmp(ind_.size() + iwv.size());
      std::vector<int>::iterator end;
      end = std::set_union(ind_.begin(),ind_.end(),iwv.begin(),iwv.end(),tmp.begin());
      tmp.resize(end - tmp.begin());
      // ind_ will be sorted coming from set_union
      ind_ = tmp;
    }
    if (r == Passed) {
      state_ = Passed;
    }
    else {
      TEUCHOS_TEST_FOR_EXCEPTION(r != Failed,StatusTestError,
                         "Anasazi::StatusTestCombo::evalOR(): child test gave invalid return");
    }
  }
  return state_;
}

template <class ScalarType, class MV, class OP>
TestStatus StatusTestCombo<ScalarType,MV,OP>::evalSEQOR( Eigensolver<ScalarType,MV,OP>* solver ) {
  state_ = Failed;
  typedef typename STPArray::iterator iter;
  for (iter i=tests_.begin(); i != tests_.end(); i++) {
    TestStatus r = (*i)->checkStatus(solver);
    if (i == tests_.begin()) {
      ind_ = (*i)->whichVecs();
      // sort ind_ for use below
      std::sort(ind_.begin(),ind_.end());
    }
    else {
      // to use set_union, ind_ must have room for the result, which will have size() <= end.size() + iwv.size()
      // also, ind and iwv must be in ascending order; only ind_ is
      // lastly, the return from set_union points to the last element in the union, which tells us how big the union is
      std::vector<int> iwv = (*i)->whichVecs();
      std::sort(iwv.begin(),iwv.end());
      std::vector<int> tmp(ind_.size() + iwv.size());
      std::vector<int>::iterator end;
      end = std::set_union(ind_.begin(),ind_.end(),iwv.begin(),iwv.end(),tmp.begin());
      tmp.resize(end - tmp.begin());
      // ind_ will be sorted coming from set_union
      ind_ = tmp;
    }
    if (r == Passed) {
      state_ = Passed;
      break;
    }
    else {
      TEUCHOS_TEST_FOR_EXCEPTION(r != Failed,StatusTestError,
                         "Anasazi::StatusTestCombo::evalSEQOR(): child test gave invalid return");
    }
  }
  return state_;
}

template <class ScalarType, class MV, class OP>
TestStatus StatusTestCombo<ScalarType,MV,OP>::evalAND( Eigensolver<ScalarType,MV,OP>* solver ) {
  state_ = Passed;
  typedef typename STPArray::iterator iter;
  for (iter i=tests_.begin(); i != tests_.end(); i++) {
    TestStatus r = (*i)->checkStatus(solver);
    if (i == tests_.begin()) {
      ind_ = (*i)->whichVecs();
      // sort ind_ for use below
      std::sort(ind_.begin(),ind_.end());
    }
    else {
      // to use set_intersection, ind_ must have room for the result, which will have size() <= end.size() + iwv.size()
      // also, ind and iwv must be in ascending order; only ind_ is
      // lastly, the return from set_intersection points to the last element in the intersection, which tells us how big the intersection is
      std::vector<int> iwv = (*i)->whichVecs();
      std::sort(iwv.begin(),iwv.end());
      std::vector<int> tmp(ind_.size() + iwv.size());
      std::vector<int>::iterator end;
      end = std::set_intersection(ind_.begin(),ind_.end(),iwv.begin(),iwv.end(),tmp.begin());
      tmp.resize(end - tmp.begin());
      // ind_ will be sorted coming from set_intersection
      ind_ = tmp;
    }
    if (r == Failed) {
      state_ = Failed;
    }
    else {
      TEUCHOS_TEST_FOR_EXCEPTION(r != Passed,StatusTestError,
                         "Anasazi::StatusTestCombo::evalAND(): child test gave invalid return");
    }
  }
  return state_;
}

template <class ScalarType, class MV, class OP>
TestStatus StatusTestCombo<ScalarType,MV,OP>::evalSEQAND( Eigensolver<ScalarType,MV,OP>* solver ) {
  state_ = Passed;
  typedef typename STPArray::iterator iter;
  for (iter i=tests_.begin(); i != tests_.end(); i++) {
    TestStatus r = (*i)->checkStatus(solver);
    if (i == tests_.begin()) {
      ind_ = (*i)->whichVecs();
      // sort ind_ for use below
      std::sort(ind_.begin(),ind_.end());
    }
    else {
      // to use set_intersection, ind_ must have room for the result, which will have size() <= end.size() + iwv.size()
      // also, ind and iwv must be in ascending order; only ind_ is
      // lastly, the return from set_intersection points to the last element in the intersection, which tells us how big the intersection is
      std::vector<int> iwv = (*i)->whichVecs();
      std::sort(iwv.begin(),iwv.end());
      std::vector<int> tmp(ind_.size() + iwv.size());
      std::vector<int>::iterator end;
      end = std::set_intersection(ind_.begin(),ind_.end(),iwv.begin(),iwv.end(),tmp.begin());
      tmp.resize(end - tmp.begin());
      // ind_ will be sorted coming from set_intersection
      ind_ = tmp;
    }
    if (r == Failed) {
      state_ = Failed;
      break;
    }
    else {
      TEUCHOS_TEST_FOR_EXCEPTION(r != Passed,StatusTestError,
                         "Anasazi::StatusTestCombo::evalAND(): child test gave invalid return");
    }
  }
  return state_;
}



} // end of Anasazi namespace

#endif /* ANASAZI_STATUS_TEST_COMBO_HPP */