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concurrentqueue/benchmarks/dlib/error.h

450 lines
14 KiB
C++

// Copyright (C) 2003 Davis E. King (davis@dlib.net)
// License: Boost Software License See LICENSE.txt for the full license.
#ifndef DLIB_ERROr_
#define DLIB_ERROr_
#include <string>
#include <new> // for std::bad_alloc
#include <iostream>
#include <cassert>
#include <cstdlib>
#include <exception>
// -------------------------------
// ------ exception classes ------
// -------------------------------
namespace dlib
{
// ----------------------------------------------------------------------------------------
enum error_type
{
EPORT_IN_USE,
ETIMEOUT,
ECONNECTION,
ELISTENER,
ERESOLVE,
EMONITOR,
ECREATE_THREAD,
ECREATE_MUTEX,
ECREATE_SIGNALER,
EUNSPECIFIED,
EGENERAL_TYPE1,
EGENERAL_TYPE2,
EGENERAL_TYPE3,
EINVALID_OPTION,
ETOO_FEW_ARGS,
ETOO_MANY_ARGS,
ESOCKET,
ETHREAD,
EGUI,
EFATAL,
EBROKEN_ASSERT,
EIMAGE_LOAD,
EDIR_CREATE,
EINCOMPATIBLE_OPTIONS,
EMISSING_REQUIRED_OPTION,
EINVALID_OPTION_ARG,
EMULTIPLE_OCCURANCES,
ECONFIG_READER,
EIMAGE_SAVE,
ECAST_TO_STRING,
ESTRING_CAST,
EUTF8_TO_UTF32,
EOPTION_PARSE
};
// ----------------------------------------------------------------------------------------
// the base exception class
class error : public std::exception
{
/*!
WHAT THIS OBJECT REPRESENTS
This is the base exception class for the dlib library. i.e. all
exceptions in this library inherit from this class.
!*/
public:
error(
error_type t,
const std::string& a
): info(a), type(t) {}
/*!
ensures
- #type == t
- #info == a
!*/
error(
error_type t
): type(t) {}
/*!
ensures
- #type == t
- #info == ""
!*/
error(
const std::string& a
): info(a), type(EUNSPECIFIED) {}
/*!
ensures
- #type == EUNSPECIFIED
- #info == a
!*/
error(
): type(EUNSPECIFIED) {}
/*!
ensures
- #type == EUNSPECIFIED
- #info == ""
!*/
virtual ~error(
) throw() {}
/*!
ensures
- does nothing
!*/
const char* what(
) const throw()
/*!
ensures
- if (info.size() != 0) then
- returns info.c_str()
- else
- returns type_to_string(type)
!*/
{
if (info.size() > 0)
return info.c_str();
else
return type_to_string();
}
const char* type_to_string (
) const throw()
/*!
ensures
- returns a string that names the contents of the type member.
!*/
{
if ( type == EPORT_IN_USE) return "EPORT_IN_USE";
else if ( type == ETIMEOUT) return "ETIMEOUT";
else if ( type == ECONNECTION) return "ECONNECTION";
else if ( type == ELISTENER) return "ELISTENER";
else if ( type == ERESOLVE) return "ERESOLVE";
else if ( type == EMONITOR) return "EMONITOR";
else if ( type == ECREATE_THREAD) return "ECREATE_THREAD";
else if ( type == ECREATE_MUTEX) return "ECREATE_MUTEX";
else if ( type == ECREATE_SIGNALER) return "ECREATE_SIGNALER";
else if ( type == EUNSPECIFIED) return "EUNSPECIFIED";
else if ( type == EGENERAL_TYPE1) return "EGENERAL_TYPE1";
else if ( type == EGENERAL_TYPE2) return "EGENERAL_TYPE2";
else if ( type == EGENERAL_TYPE3) return "EGENERAL_TYPE3";
else if ( type == EINVALID_OPTION) return "EINVALID_OPTION";
else if ( type == ETOO_FEW_ARGS) return "ETOO_FEW_ARGS";
else if ( type == ETOO_MANY_ARGS) return "ETOO_MANY_ARGS";
else if ( type == ESOCKET) return "ESOCKET";
else if ( type == ETHREAD) return "ETHREAD";
else if ( type == EGUI) return "EGUI";
else if ( type == EFATAL) return "EFATAL";
else if ( type == EBROKEN_ASSERT) return "EBROKEN_ASSERT";
else if ( type == EIMAGE_LOAD) return "EIMAGE_LOAD";
else if ( type == EDIR_CREATE) return "EDIR_CREATE";
else if ( type == EINCOMPATIBLE_OPTIONS) return "EINCOMPATIBLE_OPTIONS";
else if ( type == EMISSING_REQUIRED_OPTION) return "EMISSING_REQUIRED_OPTION";
else if ( type == EINVALID_OPTION_ARG) return "EINVALID_OPTION_ARG";
else if ( type == EMULTIPLE_OCCURANCES) return "EMULTIPLE_OCCURANCES";
else if ( type == ECONFIG_READER) return "ECONFIG_READER";
else if ( type == EIMAGE_SAVE) return "EIMAGE_SAVE";
else if ( type == ECAST_TO_STRING) return "ECAST_TO_STRING";
else if ( type == ESTRING_CAST) return "ESTRING_CAST";
else if ( type == EUTF8_TO_UTF32) return "EUTF8_TO_UTF32";
else if ( type == EOPTION_PARSE) return "EOPTION_PARSE";
else return "undefined error type";
}
const std::string info; // info about the error
const error_type type; // the type of the error
private:
const error& operator=(const error&);
};
// ----------------------------------------------------------------------------------------
class fatal_error : public error
{
/*!
WHAT THIS OBJECT REPRESENTS
As the name says, this object represents some kind of fatal error.
That is, it represents an unrecoverable error and any program that
throws this exception is, by definition, buggy and needs to be fixed.
Note that a fatal_error exception can only be thrown once. The second
time an application attempts to construct a fatal_error it will be
immediately aborted and an error message will be printed to std::cerr.
The reason for this is because the first fatal_error was apparently ignored
so the second fatal_error is going to make itself impossible to ignore
by calling abort. The lesson here is that you should not try to ignore
fatal errors.
This is also the exception thrown by the DLIB_ASSERT and DLIB_CASSERT macros.
!*/
public:
fatal_error(
error_type t,
const std::string& a
): error(t,a) {check_for_previous_fatal_errors();}
/*!
ensures
- #type == t
- #info == a
!*/
fatal_error(
error_type t
): error(t) {check_for_previous_fatal_errors();}
/*!
ensures
- #type == t
- #info == ""
!*/
fatal_error(
const std::string& a
): error(EFATAL,a) {check_for_previous_fatal_errors();}
/*!
ensures
- #type == EFATAL
- #info == a
!*/
fatal_error(
): error(EFATAL) {check_for_previous_fatal_errors();}
/*!
ensures
- #type == EFATAL
- #info == ""
!*/
private:
static inline char* message ()
{
static char buf[2000];
buf[1999] = '\0'; // just to be extra safe
return buf;
}
static inline void dlib_fatal_error_terminate (
)
{
std::cerr << "\n**************************** FATAL ERROR DETECTED ****************************";
std::cerr << message() << std::endl;
std::cerr << "******************************************************************************\n" << std::endl;
}
void check_for_previous_fatal_errors()
{
// If dlib is being use to create plugins for some other application, like
// MATLAB, then don't do these checks since it terminates the over arching
// system. Just let the errors go to the plugin handler and it will deal with
// them.
#if defined(MATLAB_MEX_FILE) || defined(DLIB_NO_ABORT_ON_2ND_FATAL_ERROR)
return;
#else
static bool is_first_fatal_error = true;
if (is_first_fatal_error == false)
{
std::cerr << "\n\n ************************** FATAL ERROR DETECTED ************************** " << std::endl;
std::cerr << " ************************** FATAL ERROR DETECTED ************************** " << std::endl;
std::cerr << " ************************** FATAL ERROR DETECTED ************************** \n" << std::endl;
std::cerr << "Two fatal errors have been detected, the first was inappropriately ignored. \n"
<< "To prevent further fatal errors from being ignored this application will be \n"
<< "terminated immediately and you should go fix this buggy program.\n\n"
<< "The error message from this fatal error was:\n" << this->what() << "\n\n" << std::endl;
using namespace std;
assert(false);
abort();
}
else
{
// copy the message into the fixed message buffer so that it can be recalled by dlib_fatal_error_terminate
// if needed.
char* msg = message();
unsigned long i;
for (i = 0; i < 2000-1 && i < this->info.size(); ++i)
msg[i] = info[i];
msg[i] = '\0';
// set this termination handler so that if the user doesn't catch this dlib::fatal_error that is being
// thrown then it will eventually be printed to standard error
std::set_terminate(&dlib_fatal_error_terminate);
}
is_first_fatal_error = false;
#endif
}
};
// ----------------------------------------------------------------------------------------
class gui_error : public error
{
public:
gui_error(
error_type t,
const std::string& a
): error(t,a) {}
/*!
ensures
- #type == t
- #info == a
!*/
gui_error(
error_type t
): error(t) {}
/*!
ensures
- #type == t
- #info == ""
!*/
gui_error(
const std::string& a
): error(EGUI,a) {}
/*!
ensures
- #type == EGUI
- #info == a
!*/
gui_error(
): error(EGUI) {}
/*!
ensures
- #type == EGUI
- #info == ""
!*/
};
// ----------------------------------------------------------------------------------------
class socket_error : public error
{
public:
socket_error(
error_type t,
const std::string& a
): error(t,a) {}
/*!
ensures
- #type == t
- #info == a
!*/
socket_error(
error_type t
): error(t) {}
/*!
ensures
- #type == t
- #info == ""
!*/
socket_error(
const std::string& a
): error(ESOCKET,a) {}
/*!
ensures
- #type == ESOCKET
- #info == a
!*/
socket_error(
): error(ESOCKET) {}
/*!
ensures
- #type == ESOCKET
- #info == ""
!*/
};
// ----------------------------------------------------------------------------------------
class thread_error : public error
{
public:
thread_error(
error_type t,
const std::string& a
): error(t,a) {}
/*!
ensures
- #type == t
- #info == a
!*/
thread_error(
error_type t
): error(t) {}
/*!
ensures
- #type == t
- #info == ""
!*/
thread_error(
const std::string& a
): error(ETHREAD,a) {}
/*!
ensures
- #type == ETHREAD
- #info == a
!*/
thread_error(
): error(ETHREAD) {}
/*!
ensures
- #type == ETHREAD
- #info == ""
!*/
};
// ----------------------------------------------------------------------------------------
class impossible_labeling_error : public dlib::error
{
/*!
WHAT THIS OBJECT REPRESENTS
This is the exception thrown by code that trains object detectors (e.g.
structural_svm_object_detection_problem) when they detect that the set of
truth boxes given to the training algorithm contains some impossible to
obtain outputs.
This kind of problem can happen when the set of image positions scanned by
the underlying object detection method doesn't include the truth rectangle
as a possible output. Another possibility is when two truth boxes are very
close together and hard coded non-max suppression logic would prevent two
boxes in such close proximity from being output.
!*/
public:
impossible_labeling_error(const std::string& msg) : dlib::error(msg) {};
};
// ----------------------------------------------------------------------------------------
}
#endif // DLIB_ERROr_