/usr/include/trilinos/Teuchos_Describable.hpp is in libtrilinos-teuchos-dev 12.4.2-2.
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// ***********************************************************************
//
// Teuchos: Common Tools Package
// Copyright (2004) Sandia Corporation
//
// Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive
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// met:
//
// 1. Redistributions of source code must retain the above copyright
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//
// 2. Redistributions in binary form must reproduce the above copyright
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//
// 3. Neither the name of the Corporation nor the names of the
// contributors may be used to endorse or promote products derived from
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//
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// Questions? Contact Michael A. Heroux (maherou@sandia.gov)
//
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// @HEADER
#ifndef TEUCHOS_DESCRIBABLE_HPP
#define TEUCHOS_DESCRIBABLE_HPP
#include "Teuchos_VerbosityLevel.hpp"
#include "Teuchos_FancyOStream.hpp"
#include "Teuchos_LabeledObject.hpp"
namespace Teuchos {
/** \brief Base class for all objects that can describe themselves.
*
* This base class is designed to be a minimally invasive approach for
* letting subclasses provide detailed debug-style information about
* their current state. This interface has just two virtual member
* functions, describe() and description(), which both have default
* implementations. The shorter version description() generates a
* brief one-line description, while the longer version describe() is
* designed for more detailed multiline formatted output.
*
* Since both of these functions have reasonable default
* implementations, when a subclass inherits from this base class, no
* virtual functions need to be overridden to start with. However,
* when debugging time comes, one or both of these functions should be
* overridden to provide more useful information.
*
* This interface derives from the LabeledObject interface.
* Therefore, a user may set an object-specific label on every
* Describable object, and the label may be incorporated into the
* description of the object.
*
* \ingroup teuchos_outputting_grp
*/
class TEUCHOSCORE_LIB_DLL_EXPORT Describable : virtual public LabeledObject {
public:
//! Default value for the \c verbLevel argument of describe().
static const EVerbosityLevel verbLevel_default;
//! @name Public virtual member functions
//@{
/** \brief Return a simple one-line description of this object.
*
* The default implementation just returns <tt>typeName(*this)</tt>,
* along with the object's label if defined. The function
* <tt>typeName(*this)</tt> guarantees that a demangled,
* human-readable name is returned on most platforms. Even if
* subclasses choose to override this function, this default
* implementation can still be called as
* <tt>Teuchos::Describable::description()</tt> in order to print
* the label name along with the class name.
*/
virtual std::string description() const;
/** \brief Print the object with some verbosity level to a FancyOStream.
*
* \param out [in/out] The output stream to which to write.
* \param verbLevel [in] Verbosity level for printing the object.
* If <tt>verbLevel==VERB_DEFAULT</tt> (which is the default
* value), then the verbosity level will be determined by the
* object itself (e.g., through the ObjectWithVerbosity
* interface). It is up to each subclass instance how to
* interpret the input verbosity level.
*
* You may wrap an std::ostream in a Teuchos::FancyOStream by
* including "Teuchos_FancyOStream.hpp" and calling
* Teuchos::getFancyOStream(). For example:
* \code
* using Teuchos::RCP;
* using Teuchos::rcpFromRef;
* using Teuchos::FancyOStream;
*
* // Wrap std::cout in a FancyOStream.
* RCP<FancyOStream> wrappedCout = getFancyOStream (rcpFromRef (std::cout));
*
* // Wrap an output file in a FancyOStream.
* // Use an RCP rather than a reference, to ensure that the file
* // isn't closed until the method is completely done with it.
* RCP<std::ofstream> outFile (new std::ofstream ("myFile.txt"));
* RCP<FancyOStream> wrappedFile = getFancyOStream (outFile);
* \endcode
*
* A subclass' implementation of this method should begin by tabbing
* one increment using the OSTab class. That way, users need not
* include tabs themselves.
*
* This class does not mandate what the different verbosity levels
* mean. It would be a good idea for Trilinos developers to reach a
* consensus on this. For example, if the subclass implements a
* large data structure like a sparse matrix, VERB_NONE should print
* nothing at all, VERB_LOW should print \f$O(1)\f$ data relative to
* the dimensions and number of entries of the matrix, and
* VERB_EXTREME may print all the entries of the matrix. The
* subclass must decide how to interpret verbosity levels in between
* these extremes.
*
* This class provides a default implementation of this method that
* simply performs:
* \code
* OSTab tab (out);
* return out << this->description () << std::endl;
* \endcode
* Subclasses should override this method to provide more useful
* information about the object.
*/
virtual void
describe (FancyOStream &out,
const EVerbosityLevel verbLevel = verbLevel_default) const;
/// \brief Version of describe() that takes an std::ostream instead
/// of a FancyOStream.
///
/// This method just wraps \c out in a FancyOStream and calls the
/// other describe() method. We provide this as a convenience to
/// users who can't remember or don't want to make a FancyOStream
/// out of their std::ostream.
///
/// Subclasses may not override this method. Instead, they must
/// override the version of describe() that takes a FancyOStream.
void
describe (std::ostream &out,
const EVerbosityLevel verbLevel = verbLevel_default) const;
//! Destructor (marked virtual for memory safety of derived classes).
virtual ~Describable ();
};
// Describable stream manipulator state class
//
// This is not a class that a user needs to see and that is why it is not
// being given doxygen documentation!
struct DescribableStreamManipulatorState {
const Describable &describable;
const EVerbosityLevel verbLevel;
DescribableStreamManipulatorState(
const Describable &_describable,
const EVerbosityLevel _verbLevel = VERB_MEDIUM
)
:describable(_describable)
,verbLevel(_verbLevel)
{}
};
/** \brief Describable output stream manipulator.
*
* This simple function allows you to insert output from
* <tt>Describable::describe()</tt> right in the middle of a chain of
* insertion operations. For example, you can write:
\code
void someFunc( const Teuchos::Describable &obj )
{
...
std::cout
<< "The object is described as "
<< describe(obj,Teuchos::VERB_MEDIUM);
...
}
\endcode
* \relates Describable
*/
inline DescribableStreamManipulatorState describe(
const Describable &describable,
const EVerbosityLevel verbLevel = Describable::verbLevel_default
)
{
return DescribableStreamManipulatorState(describable,verbLevel);
}
/** \brief Output stream operator for Describable manipulator.
*
* To call this function use something like:
\code
void someFunc( const Teuchos::Describable &obj )
{
...
std::cout
<< "The object is described as "
<< describe(obj,Teuchos::VERB_MEDIUM);
...
}
\endcode
* Note: The input <tt>std::ostream</tt> is casted to a <tt>FancyOStream</tt>
* object before calling <tt>Describable::describe()</tt> on the underlying
* <tt>Describable</tt> object. There is no way around this since this
* function must be written in terms of <tt>std::ostream</tt> rather than
* <tt>FancyOStream</tt> if one is to write compound output statements
* involving primitive data types.
*
* \relates Describable
*/
inline
std::ostream& operator<<(
std::ostream& os, const DescribableStreamManipulatorState& d
)
{
d.describable.describe(*getFancyOStream(Teuchos::rcp(&os,false)),d.verbLevel);
return os;
}
//
// RAB: Note: The above function works with an std::ostream object even
// through Describable::describe(...) requires a FancyOStream object. We must
// write the stream manipulator in terms of std::ostream, or compound output
// statements like:
//
// void foo( FancyOStream &out, Describable &d, EVerbLevel verbLevel )
// {
// out << "\nThis is the describable object d:" << describe(d,verbLevel);
// }
//
// will not work correctly. The problem is that the first output
//
// out << "\nThis is the describable object d:"
//
// must return a reference to an std::ostream object. This should mean that
// the next statement, which is basically:
//
// static_cast<std::ostream&>(out) << DescribableStreamManipulatorState
//
// should not even compile. However, under gcc 3.4.3, the code did compile
// but did not call the above function. Instead, it set up some type of
// infinite recursion that resulted in a segfault due to the presence of the
// Teuchos::any class!
//
} // namespace Teuchos
#endif // TEUCHOS_DESCRIBABLE_HPP
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