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/* -*- C++ -*-

 *

 * This file is a part of LEMON, a generic C++ optimization library

 *

 * Copyright (C) 2003-2008

 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport

 * (Egervary Research Group on Combinatorial Optimization, EGRES).

 *

 * Permission to use, modify and distribute this software is granted

 * provided that this copyright notice appears in all copies. For

 * precise terms see the accompanying LICENSE file.

 *

 * This software is provided "AS IS" with no warranty of any kind,

 * express or implied, and with no claim as to its suitability for any

 * purpose.

 *

 */

#ifndef LEMON_ERROR_H

#define LEMON_ERROR_H

/// \ingroup exceptions

/// \file

/// \brief Basic exception classes and error handling.

#include <exception>

#include <string>

#include <sstream>

#include <iostream>

#include <cstdlib>

#include <memory>

namespace lemon {

  /// \addtogroup exceptions

  /// @{

  /// \brief Exception safe wrapper class.

  ///

  /// Exception safe wrapper class to implement the members of exceptions.

  template <typename _Type>

  class ExceptionMember {

  public:

    typedef _Type Type;

    ExceptionMember() throw() {

      try {

	ptr.reset(new Type());

      } catch (...) {}

    }

    ExceptionMember(const Type& type) throw() {

      try {

	ptr.reset(new Type());

	if (ptr.get() == 0) return;

	*ptr = type;

      } catch (...) {}

    }

    ExceptionMember(const ExceptionMember& copy) throw() {

      try {

	if (!copy.valid()) return;

	ptr.reset(new Type());

	if (ptr.get() == 0) return;

	*ptr = copy.get();

      } catch (...) {}

    }

    ExceptionMember& operator=(const ExceptionMember& copy) throw() {

      if (ptr.get() == 0) return;

      try {

	if (!copy.valid()) return;

 	*ptr = copy.get();

      } catch (...) {}

    }

    void set(const Type& type) throw() {

      if (ptr.get() == 0) return;

      try {

	*ptr = type;

      } catch (...) {}

    }

    const Type& get() const {

      return *ptr;

    }

    bool valid() const throw() {

      return ptr.get() != 0;

    }

  private:

    std::auto_ptr<_Type> ptr;

  };

  /// Exception-safe convenient "error message" class.

  /// Helper class which provides a convenient ostream-like (operator <<

  /// based) interface to create a string message. Mostly useful in

  /// exception classes (therefore the name).

  class ErrorMessage {

  protected:

    ///\e

    ///\todo The good solution is boost::shared_ptr...

    ///

    mutable std::auto_ptr<std::ostringstream> buf;

    ///\e

    bool init() throw() {

      try {

	buf.reset(new std::ostringstream);

      }

      catch(...) {

	buf.reset();

      }

      return buf.get();

    }

  public:

    ///\e

    ErrorMessage() throw() { init(); }

    ErrorMessage(const ErrorMessage& em) throw() : buf(em.buf) { }

    ///\e

    ErrorMessage(const char *msg) throw() {

      init();

      *this << msg;

    }

    ///\e

    ErrorMessage(const std::string &msg) throw() {

      init();

      *this << msg;

    }

    ///\e

    template <typename T>

    ErrorMessage& operator<<(const T &t) throw() {

      if( ! buf.get() ) return *this;

      try {

	*buf << t;

      }

      catch(...) {

	buf.reset();

      }

      return *this;

    }

    ///\e

    const char* message() throw() {

      if( ! buf.get() ) return 0;

      const char* mes = 0;

      try {

	mes = buf->str().c_str();

      }

      catch(...) {}

      return mes;

    }

  };

  /// Generic exception class.

  /// Base class for exceptions used in LEMON.

  ///

  class Exception : public std::exception {

  public:

    ///\e

    Exception() {}

    ///\e

    virtual ~Exception() throw() {}

    ///\e

    virtual const char* what() const throw() {

      return "lemon::Exception";

    }

  };

  /// One of the two main subclasses of \ref Exception.

  /// Logic errors represent problems in the internal logic of a program;

  /// in theory, these are preventable, and even detectable before the

  /// program runs (e.g. violations of class invariants).

  ///

  /// A typical example for this is \ref UninitializedParameter.

  class LogicError : public Exception {

  public:

    virtual const char* what() const throw() {

      return "lemon::LogicError";

    }

  };

  /// \ref Exception for uninitialized parameters.

  /// This error represents problems in the initialization

  /// of the parameters of the algorithms.

  class UninitializedParameter : public LogicError {

  public:

    virtual const char* what() const throw() {

      return "lemon::UninitializedParameter";

    }

  };

  /// One of the two main subclasses of \ref Exception.

  /// Runtime errors represent problems outside the scope of a program;

  /// they cannot be easily predicted and can generally only be caught

  /// as the program executes.

  class RuntimeError : public Exception {

  public:

    virtual const char* what() const throw() {

      return "lemon::RuntimeError";

    }

  };

  ///\e

  class RangeError : public RuntimeError {

  public:

    virtual const char* what() const throw() {

      return "lemon::RangeError";

    }

  };

  ///\e

  class IoError : public RuntimeError {

  public:

    virtual const char* what() const throw() {

      return "lemon::IoError";

    }

  };

  ///\e

  class DataFormatError : public IoError {

  protected:

    ExceptionMember<std::string> _message;

    ExceptionMember<std::string> _file;

    int _line;

    mutable ExceptionMember<std::string> _message_holder;

  public:

    DataFormatError(const DataFormatError &dfe) :

      IoError(dfe), _message(dfe._message), _file(dfe._file),

      _line(dfe._line) {}

    ///\e

    explicit DataFormatError(const char *the_message)

      : _message(the_message), _line(0) {}

    ///\e

    DataFormatError(const std::string &file_name, int line_num,

		    const char *the_message)

      : _message(the_message), _line(line_num) { file(file_name); }

    ///\e

    void line(int ln) { _line = ln; }

    ///\e

    void message(const std::string& msg) { _message.set(msg); }

    ///\e

    void file(const std::string &fl) { _file.set(fl); }

    ///\e

    int line() const { return _line; }

    ///\e

    const char* message() const {

      if (_message.valid() && !_message.get().empty()) {

	return _message.get().c_str();

      } else {

	return 0;

      }

    }

    /// \brief Returns the filename.

    ///

    /// Returns \e null if the filename was not specified.

    const char* file() const {

      if (_file.valid() && !_file.get().empty()) {

	return _file.get().c_str();

      } else {

	return 0;

      }

    }

    ///\e

    virtual const char* what() const throw() {

      try {

	std::ostringstream ostr;

	ostr << "lemon:DataFormatError" << ": ";

	if (message()) ostr << message();

	if( file() || line() != 0 ) {

	  ostr << " (";

	  if( file() ) ostr << "in file '" << file() << "'";

	  if( file() && line() != 0 ) ostr << " ";

	  if( line() != 0 ) ostr << "at line " << line();

	  ostr << ")";

	}

	_message_holder.set(ostr.str());

      }

      catch (...) {}

      if( _message_holder.valid()) return _message_holder.get().c_str();

      return "lemon:DataFormatError";

    }

    virtual ~DataFormatError() throw() {}

  };

  ///\e

  class FileOpenError : public IoError {

  protected:

    ExceptionMember<std::string> _file;

    mutable ExceptionMember<std::string> _message_holder;

  public:

    FileOpenError(const FileOpenError &foe) :

      IoError(foe), _file(foe._file) {}

    ///\e

    explicit FileOpenError(const std::string& fl)

      : _file(fl) {}

    ///\e

    void file(const std::string &fl) { _file.set(fl); }

    /// \brief Returns the filename.

    ///

    /// Returns \e null if the filename was not specified.

    const char* file() const {

      if (_file.valid() && !_file.get().empty()) {

	return _file.get().c_str();

      } else {

	return 0;

      }

    }

    ///\e

    virtual const char* what() const throw() {

      try {

	std::ostringstream ostr;

	ostr << "lemon::FileOpenError" << ": ";

	ostr << "Cannot open file - " << file();

	_message_holder.set(ostr.str());

      }

      catch (...) {}

      if( _message_holder.valid()) return _message_holder.get().c_str();

      return "lemon::FileOpenError";

    }

    virtual ~FileOpenError() throw() {}

  };

  class IoParameterError : public IoError {

  protected:

    ExceptionMember<std::string> _message;

    ExceptionMember<std::string> _file;

    mutable ExceptionMember<std::string> _message_holder;

  public:

    IoParameterError(const IoParameterError &ile) :

      IoError(ile), _message(ile._message), _file(ile._file) {}

    ///\e

    explicit IoParameterError(const char *the_message)

      : _message(the_message) {}

    ///\e

    IoParameterError(const char *file_name, const char *the_message)

      : _message(the_message), _file(file_name) {}

     ///\e

    void message(const std::string& msg) { _message.set(msg); }

    ///\e

    void file(const std::string &fl) { _file.set(fl); }

     ///\e

    const char* message() const {

      if (_message.valid()) {

	return _message.get().c_str();

      } else {

	return 0;

      }

    }

    /// \brief Returns the filename.

    ///

    /// Returns \c 0 if the filename was not specified.

    const char* file() const {

      if (_file.valid()) {

	return _file.get().c_str();

      } else {

	return 0;

      }

    }

    ///\e

    virtual const char* what() const throw() {

      try {

	std::ostringstream ostr;

	if (message()) ostr << message();

	if (file()) ostr << "(when reading file '" << file() << "')";

	_message_holder.set(ostr.str());

      }

      catch (...) {}

      if( _message_holder.valid() ) return _message_holder.get().c_str();

      return "lemon:IoParameterError";

    }

    virtual ~IoParameterError() throw() {}

  };

  ///\e

  class AssertionFailedError : public LogicError {

  protected:

    const char *assertion;

    const char *file;

    int line;

    const char *function;

    const char *message;

    mutable ExceptionMember<std::string> _message_holder;

  public:

    ///\e

    AssertionFailedError(const char *_file, int _line, const char *func,

			 const char *msg, const char *_assertion = 0) :

      assertion(_assertion), file(_file), line(_line), function(func),

      message(msg) {}

    ///\e

    const char* get_assertion() const { return assertion; }

    ///\e

    const char* get_message() const { return message; }

    ///\e

    const char* get_file() const { return file; }

    ///\e

    const char* get_function() const { return function; }

    ///\e

    int get_line() const { return line; }

    virtual const char* what() const throw() {

      try {

	std::ostringstream ostr;

	ostr << file << ":" << line << ": ";

	if( function )

	  ostr << function << ": ";

	ostr << message;

	if( assertion )

	   ostr << " (assertion '" << assertion << "' failed)";

	_message_holder.set(ostr.str());

	return ostr.str().c_str();

      }

      catch(...) {}

      if( _message_holder.valid() ) return _message_holder.get().c_str();

      return "lemon::AssertionFailedError";

    }

   virtual ~AssertionFailedError() throw() {}

  };

  /****************  Macros  ****************/

  template <typename Exception>

  inline void assert_fail(const char *file, int line,

                          const char *func,

                          Exception exception,

                          const char *assertion = 0,

                          bool do_abort=true)

  {

    using namespace std;

    cerr << file << ":" << line << ": ";

    if (func)

      cerr << func << ": ";

    cerr << exception.what();

    if (assertion)

      cerr << " (assertion '" << assertion << "' failed)";

    cerr << endl;

    if (do_abort)

      abort();

  }

  template <>

  inline void assert_fail<const char *>(const char *file, int line,

                                        const char *func,

                                        const char *message,

                                        const char *assertion,

                                        bool do_abort)

  {

    using namespace std;

    cerr << file << ":" << line << ": ";

    if (func)

      cerr << func << ": ";

    cerr << message;

    if (assertion)

      cerr << " (assertion '" << assertion << "' failed)";

    cerr << endl;

    if (do_abort)

      abort();

  }

  template <>

  inline void assert_fail<std::string>(const char *file, int line,

                                       const char *func,

                                       std::string message,

                                       const char *assertion,

                                       bool do_abort)

  {

    assert_fail(file, line, func, message.c_str(), assertion, do_abort);

  }

  template <typename Exception>

  inline void assert_fail_failure(const char *file, int line, const char *func,

			   Exception exception,

			   const char *assertion = 0,

			   bool = true)

  {

    throw AssertionFailedError(file, line, func, exception.what(), assertion);

  }

  template <>

  inline void assert_fail_failure<const char *>(const char *file, int line,

                                                const char *func,

                                                const char *message,

                                                const char *assertion,

                                                bool)

  {

    throw AssertionFailedError(file, line, func, message, assertion);

  }

  template <>

  inline void assert_fail_failure<std::string>(const char *file, int line,

                                               const char *func,

                                               std::string message,

                                               const char *assertion,

                                               bool)

  {

    assert_fail_failure(file, line, func, message.c_str(), assertion, true);

  }

  template <typename Exception>

  inline void assert_fail_exception(const char *file, int line, const char *func,

			     Exception exception,

			     const char *assertion = 0, bool = true)

  {

    throw exception;

  }

  template <>

  inline void assert_fail_exception<const char *>(const char *file, int line,

					   const char *func,

					   const char *message,

					   const char *assertion,

					   bool)

  {

    throw AssertionFailedError(file, line, func, message, assertion);

  }

  template <>

  inline void assert_fail_exception<std::string>(const char *file, int line,

                                                 const char *func,

                                                 std::string message,

                                                 const char *assertion,

                                                 bool)

  {

    assert_fail_exception(file, line, func, message.c_str(), assertion, true);

  }

/// @}

}

#endif // LEMON_ERROR_H

#undef LEMON_ASSERT

#undef LEMON_FIXME

#ifdef LEMON_ENABLE_ASSERTS

#  define LEMON_ASSERT_ABORT

#endif

#ifndef LEMON_ASSERT_DO_ABORT

#  define LEMON_ASSERT_DO_ABORT 1

#endif

#ifndef LEMON_ASSERT_HANDLER

#  if defined LEMON_ASSERT_EXCEPTION

#    define LEMON_ASSERT_HANDLER ::lemon::assert_fail_exception

#  elif defined LEMON_ASSERT_FAILURE

#    define LEMON_ASSERT_HANDLER ::lemon::assert_fail_failure

#  elif defined LEMON_ASSERT_ABORT

#    define LEMON_ASSERT_HANDLER ::lemon::assert_fail

#  else

#    define LEMON_DISABLE_ASSERTS

#  endif

#endif

#ifdef DOXYGEN

/// \brief Macro for assertions with customizable message

///

/// Macro for assertions with customizable message.

///

/// The assertions are disabled in the default behaviour. You can

/// enable the assertions with the

/// \code

/// #define LEMON_ENABLE_ASSERTS

/// \endcode

/// Then an assert

/// provides a log on the standard error about the assertion and aborts

/// the program if LEMON_ASSERT_DO_ABORT is also defined (otherwise the

/// program keeps on running).

/// By defining LEMON_ASSERT_FAILURE or

/// LEMON_ASSERT_EXCEPTION, you can set other behaviour to the

/// assertions. In case LEMON_ASSERT_FAILURE is given, LEMON_ASSERT

/// will always throw an \c AssertionFailedError exception with

/// the \c msg error message. By using

/// LEMON_ASSERT_EXCEPTION, one can define an arbitrary exception to be thrown.

///

/// The LEMON_ASSERT macro should be called with the \c exp parameter

/// which should be an expression convertible to bool. If the given

/// parameter is false the assertion is raised and one of the assertion

/// behaviour will be activated. The \c msg should be either a const

/// char* message or an exception. When the \c msg is an exception the

/// \ref lemon::Exception::what() "what()" function is called to retrieve and

/// display the error message.

///

/// \todo We should provide some way to reset to the default behaviour,

/// shouldn't we?

///

/// \todo This whole 'assert' business should be placed in a separate

/// include file. The boost assert is not guarded by header sentries

/// which may help to change the behaviour of the assertions in

/// the files.

///

/// \todo __PRETTY_FUNCTION__ should be replaced by something

/// compiler-independent, like BOOST_CURRENT_FUNCTION

#  define LEMON_ASSERT(exp, msg)                 \

     (static_cast<void> (!!(exp) ? 0 : (         \

       LEMON_ASSERT_HANDLER(__FILE__, __LINE__,  \

                            __PRETTY_FUNCTION__, \

                            msg, #exp, LEMON_ASSERT_DO_ABORT), 0)))

#else

#  if defined LEMON_DISABLE_ASSERTS

#    define LEMON_ASSERT(exp, msg)  (static_cast<void> (0))

#  else

#    define LEMON_ASSERT(exp, msg)                 \

       (static_cast<void> (!!(exp) ? 0 : (         \

         LEMON_ASSERT_HANDLER(__FILE__, __LINE__,  \

                              __PRETTY_FUNCTION__, \

                              msg, #exp, LEMON_ASSERT_DO_ABORT), 0)))

#  endif

#endif

/**

 * \brief Macro for mark not yet implemented features.

 *

 * \todo Is this the right place for this? It should be used only in

 * modules under development.

 *

 * \todo __PRETTY_FUNCTION__ should be replaced by something

 * compiler-independent, like BOOST_CURRENT_FUNCTION

 */

#define LEMON_FIXME(msg) \

    (LEMON_ASSERT_HANDLER(__FILE__, __LINE__, __PRETTY_FUNCTION__, \

			  "FIXME: " msg))

/* -*- C++ -*-

 *

 * This file is a part of LEMON, a generic C++ optimization library

 *

 * Copyright (C) 2003-2008

 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport

 * (Egervary Research Group on Combinatorial Optimization, EGRES).

 *

 * Permission to use, modify and distribute this software is granted

 * provided that this copyright notice appears in all copies. For

 * precise terms see the accompanying LICENSE file.

 *

 * This software is provided "AS IS" with no warranty of any kind,

 * express or implied, and with no claim as to its suitability for any

 * purpose.

 *

 */

#include <iostream>

#include <lemon/error.h>

#include "test_tools.h"

using namespace lemon;

using std::cout;

using std::endl;

void faulty_fn() {

  fault("This is a fault message");

}

void exception_fn() {

  throw Exception("This is a function throwing exception with some args: ")

    << 5 << ", " << 18;

}

void unfinished_fn() {

  LEMON_FIXME("unfinished_fn() is unfinished!");

}

int main() {

  try {

    faulty_fn();

    check(false, "A faulty function did not fail.");

  }

  catch(const Exception &e) {

    cout << "Exeption = \"" << e.what() << "\" (Right behaviour)" << endl;

  }

  try {

    exception_fn();

    check(false, "The function did not throw Exception.");

  }

  catch(const Exception &e) {

    cout << "Exeption = \"" << e.what() << "\" (Right behaviour)" << endl;

  }

  try {

    unfinished_fn();

    check(false, "FIXME macro does not work.");

  }

  catch(const Exception &e) {

    cout << "Exeption = \"" << e.what() << "\" (Right behaviour)" << endl;

  }

  return 0;

}

AM_INIT_AUTOMAKE([-Wall -Werror foreign subdir-objects nostdinc])

        lemon/concept_check.h \

	lemon/error.h \

	lemon/list_graph.h \