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