GOSTcoin support for ccminer CUDA miner project, compatible with most nvidia cards
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 

521 lines
18 KiB

/*
* Copyright 2008-2012 NVIDIA Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*! \file error_code.h
* \brief An object used to hold error values, such as those originating from the
* operating system or other low-level application program interfaces.
*/
#pragma once
#include <thrust/detail/config.h>
#include <thrust/detail/type_traits.h>
#include <thrust/system/detail/errno.h>
#include <iostream>
namespace thrust
{
namespace system
{
/*! \addtogroup system_diagnostics
* \{
*/
class error_condition;
class error_code;
/*! A metafunction returning whether or not the parameter is an \p error_code enum.
*/
template<typename T> struct is_error_code_enum : public thrust::detail::false_type {};
/*! A metafunction returning whether or not the parameter is an \p error_condition enum.
*/
template<typename T> struct is_error_condition_enum : public thrust::detail::false_type {};
// XXX N3092 prefers enum class errc { ... }
namespace errc
{
enum errc_t
{
address_family_not_supported = detail::eafnosupport,
address_in_use = detail::eaddrinuse,
address_not_available = detail::eaddrnotavail,
already_connected = detail::eisconn,
argument_list_too_long = detail::e2big,
argument_out_of_domain = detail::edom,
bad_address = detail::efault,
bad_file_descriptor = detail::ebadf,
bad_message = detail::ebadmsg,
broken_pipe = detail::epipe,
connection_aborted = detail::econnaborted,
connection_already_in_progress = detail::ealready,
connection_refused = detail::econnrefused,
connection_reset = detail::econnreset,
cross_device_link = detail::exdev,
destination_address_required = detail::edestaddrreq,
device_or_resource_busy = detail::ebusy,
directory_not_empty = detail::enotempty,
executable_format_error = detail::enoexec,
file_exists = detail::eexist,
file_too_large = detail::efbig,
filename_too_long = detail::enametoolong,
function_not_supported = detail::enosys,
host_unreachable = detail::ehostunreach,
identifier_removed = detail::eidrm,
illegal_byte_sequence = detail::eilseq,
inappropriate_io_control_operation = detail::enotty,
interrupted = detail::eintr,
invalid_argument = detail::einval,
invalid_seek = detail::espipe,
io_error = detail::eio,
is_a_directory = detail::eisdir,
message_size = detail::emsgsize,
network_down = detail::enetdown,
network_reset = detail::enetreset,
network_unreachable = detail::enetunreach,
no_buffer_space = detail::enobufs,
no_child_process = detail::echild,
no_link = detail::enolink,
no_lock_available = detail::enolck,
no_message_available = detail::enodata,
no_message = detail::enomsg,
no_protocol_option = detail::enoprotoopt,
no_space_on_device = detail::enospc,
no_stream_resources = detail::enosr,
no_such_device_or_address = detail::enxio,
no_such_device = detail::enodev,
no_such_file_or_directory = detail::enoent,
no_such_process = detail::esrch,
not_a_directory = detail::enotdir,
not_a_socket = detail::enotsock,
not_a_stream = detail::enostr,
not_connected = detail::enotconn,
not_enough_memory = detail::enomem,
not_supported = detail::enotsup,
operation_canceled = detail::ecanceled,
operation_in_progress = detail::einprogress,
operation_not_permitted = detail::eperm,
operation_not_supported = detail::eopnotsupp,
operation_would_block = detail::ewouldblock,
owner_dead = detail::eownerdead,
permission_denied = detail::eacces,
protocol_error = detail::eproto,
protocol_not_supported = detail::eprotonosupport,
read_only_file_system = detail::erofs,
resource_deadlock_would_occur = detail::edeadlk,
resource_unavailable_try_again = detail::eagain,
result_out_of_range = detail::erange,
state_not_recoverable = detail::enotrecoverable,
stream_timeout = detail::etime,
text_file_busy = detail::etxtbsy,
timed_out = detail::etimedout,
too_many_files_open_in_system = detail::enfile,
too_many_files_open = detail::emfile,
too_many_links = detail::emlink,
too_many_symbolic_link_levels = detail::eloop,
value_too_large = detail::eoverflow,
wrong_protocol_type = detail::eprototype
}; // end errc_t
} // end namespace errc
/*! Specialization of \p is_error_condition_enum for \p errc::errc_t
*/
template<> struct is_error_condition_enum<errc::errc_t> : public thrust::detail::true_type {};
// [19.5.1.1] class error_category
/*! \brief The class \p error_category serves as a base class for types used to identify the
* source and encoding of a particular category of error code. Classes may be derived
* from \p error_category to support categories of errors in addition to those defined
* in the C++ International Standard.
*/
class error_category
{
public:
/*! Destructor does nothing.
*/
inline virtual ~error_category(void);
// XXX enable upon c++0x
// error_category(const error_category &) = delete;
// error_category &operator=(const error_category &) = delete;
/*! \return A string naming the error category.
*/
inline virtual const char *name(void) const = 0;
/*! \return \p error_condition(ev, *this).
*/
inline virtual error_condition default_error_condition(int ev) const;
/*! \return <tt>default_error_condition(code) == condition</tt>
*/
inline virtual bool equivalent(int code, const error_condition &condition) const;
/*! \return <tt>*this == code.category() && code.value() == condition</tt>
*/
inline virtual bool equivalent(const error_code &code, int condition) const;
/*! \return A string that describes the error condition denoted by \p ev.
*/
virtual std::string message(int ev) const = 0;
/*! \return <tt>*this == &rhs</tt>
*/
inline bool operator==(const error_category &rhs) const;
/*! \return <tt>!(*this == rhs)</tt>
*/
inline bool operator!=(const error_category &rhs) const;
/*! \return <tt>less<const error_category*>()(this, &rhs)</tt>
* \note \c less provides a total ordering for pointers.
*/
inline bool operator<(const error_category &rhs) const;
}; // end error_category
// [19.5.1.5] error_category objects
/*! \return A reference to an object of a type derived from class \p error_category.
* \note The object's \p default_error_condition and \p equivalent virtual functions
* shall behave as specified for the class \p error_category. The object's
* \p name virtual function shall return a pointer to the string <tt>"generic"</tt>.
*/
inline const error_category &generic_category(void);
/*! \return A reference to an object of a type derived from class \p error_category.
* \note The object's \p equivalent virtual functions shall behave as specified for
* class \p error_category. The object's \p name virtual function shall return
* a pointer to the string <tt>"system"</tt>. The object's \p default_error_condition
* virtual function shall behave as follows:
*
* If the argument <tt>ev</tt> corresponds to a POSIX <tt>errno</tt> value
* \c posv, the function shall return <tt>error_condition(ev,generic_category())</tt>.
* Otherwise, the function shall return <tt>error_condition(ev,system_category())</tt>.
* What constitutes correspondence for any given operating system is unspecified.
*/
inline const error_category &system_category(void);
// [19.5.2] Class error_code
/*! \brief The class \p error_code describes an object used to hold error code values, such as
* those originating from the operating system or other low-level application program
* interfaces.
*/
class error_code
{
public:
// [19.5.2.2] constructors:
/*! Effects: Constructs an object of type \p error_code.
* \post <tt>value() == 0</tt> and <tt>category() == &system_category()</tt>.
*/
inline error_code(void);
/*! Effects: Constructs an object of type \p error_code.
* \post <tt>value() == val</tt> and <tt>category() == &cat</tt>.
*/
inline error_code(int val, const error_category &cat);
/*! Effects: Constructs an object of type \p error_code.
* \post <tt>*this == make_error_code(e)</tt>.
*/
template <typename ErrorCodeEnum>
error_code(ErrorCodeEnum e
// XXX WAR msvc's problem with enable_if
#if THRUST_HOST_COMPILER != THRUST_HOST_COMPILER_MSVC
, typename thrust::detail::enable_if<is_error_code_enum<ErrorCodeEnum>::value>::type * = 0
#endif // THRUST_HOST_COMPILER_MSVC
);
// [19.5.2.3] modifiers:
/*! \post <tt>value() == val</tt> and <tt>category() == &cat</tt>.
*/
inline void assign(int val, const error_category &cat);
/*! \post <tt>*this == make_error_code(e)</tt>.
*/
template <typename ErrorCodeEnum>
// XXX WAR msvc's problem with enable_if
#if THRUST_HOST_COMPILER != THRUST_HOST_COMPILER_MSVC
typename thrust::detail::enable_if<is_error_code_enum<ErrorCodeEnum>::value, error_code>::type &
#else
error_code &
#endif // THRUST_HOST_COMPILER_MSVC
operator=(ErrorCodeEnum e);
/*! \post <tt>value() == 0</tt> and <tt>category() == system_category()</tt>.
*/
inline void clear(void);
// [19.5.2.4] observers:
/*! \return An integral value of this \p error_code object.
*/
inline int value(void) const;
/*! \return An \p error_category describing the category of this \p error_code object.
*/
inline const error_category &category(void) const;
/*! \return <tt>category().default_error_condition()</tt>.
*/
inline error_condition default_error_condition(void) const;
/*! \return <tt>category().message(value())</tt>.
*/
inline std::string message(void) const;
// XXX replace the below upon c++0x
// inline explicit operator bool (void) const;
/*! \return <tt>value() != 0</tt>.
*/
inline operator bool (void) const;
/*! \cond
*/
private:
int m_val;
const error_category *m_cat;
/*! \endcond
*/
}; // end error_code
// [19.5.2.5] Class error_code non-member functions
// XXX replace errc::errc_t with errc upon c++0x
/*! \return <tt>error_code(static_cast<int>(e), generic_category())</tt>
*/
inline error_code make_error_code(errc::errc_t e);
/*! \return <tt>lhs.category() < rhs.category() || lhs.category() == rhs.category() && lhs.value() < rhs.value()</tt>.
*/
inline bool operator<(const error_code &lhs, const error_code &rhs);
/*! Effects: <tt>os << ec.category().name() << ':' << ec.value()</tt>.
*/
template <typename charT, typename traits>
std::basic_ostream<charT,traits>&
operator<<(std::basic_ostream<charT,traits>& os, const error_code &ec);
// [19.5.3] class error_condition
/*! \brief The class \p error_condition describes an object used to hold values identifying
* error conditions.
*
* \note \p error_condition values are portable abstractions, while \p error_code values
* are implementation specific.
*/
class error_condition
{
public:
// [19.5.3.2] constructors
/*! Constructs an object of type \p error_condition.
* \post <tt>value() == 0</tt>.
* \post <tt>category() == generic_category()</tt>.
*/
inline error_condition(void);
/*! Constructs an object of type \p error_condition.
* \post <tt>value() == val</tt>.
* \post <tt>category() == cat</tt>.
*/
inline error_condition(int val, const error_category &cat);
/*! Constructs an object of type \p error_condition.
* \post <tt>*this == make_error_condition(e)</tt>.
* \note This constructor shall not participate in overload resolution unless
* <tt>is_error_condition_enum<ErrorConditionEnum>::value</tt> is <tt>true</tt>.
*/
template<typename ErrorConditionEnum>
error_condition(ErrorConditionEnum e
// XXX WAR msvc's problem with enable_if
#if THRUST_HOST_COMPILER != THRUST_HOST_COMPILER_MSVC
, typename thrust::detail::enable_if<is_error_condition_enum<ErrorConditionEnum>::value>::type * = 0
#endif // THRUST_HOST_COMPILER != THRUST_HOST_COMPILER_MSVC
);
// [19.5.3.3] modifiers
/*! Assigns to this \p error_code object from an error value and an \p error_category.
* \param val The new value to return from <tt>value()</tt>.
* \param cat The new \p error_category to return from <tt>category()</tt>.
* \post <tt>value() == val</tt>.
* \post <tt>category() == cat</tt>.
*/
inline void assign(int val, const error_category &cat);
/*! Assigns to this \p error_code object from an error condition enumeration.
* \return *this
* \post <tt>*this == make_error_condition(e)</tt>.
* \note This operator shall not participate in overload resolution unless
* <tt>is_error_condition_enum<ErrorConditionEnum>::value</tt> is <tt>true</tt>.
*/
template<typename ErrorConditionEnum>
// XXX WAR msvc's problem with enable_if
#if THRUST_HOST_COMPILER != THRUST_HOST_COMPILER_MSVC
typename thrust::detail::enable_if<is_error_condition_enum<ErrorConditionEnum>::value, error_condition>::type &
#else
error_condition &
#endif // THRUST_HOST_COMPILER != THRUST_HOST_COMPILER_MSVC
operator=(ErrorConditionEnum e);
/*! Clears this \p error_code object.
* \post <tt>value == 0</tt>
* \post <tt>category() == generic_category()</tt>.
*/
inline void clear(void);
// [19.5.3.4] observers
/*! \return The value encoded by this \p error_condition.
*/
inline int value(void) const;
/*! \return A <tt>const</tt> reference to the \p error_category encoded by this \p error_condition.
*/
inline const error_category &category(void) const;
/*! \return <tt>category().message(value())</tt>.
*/
inline std::string message(void) const;
// XXX replace below with this upon c++0x
//explicit operator bool (void) const;
/*! \return <tt>value() != 0</tt>.
*/
inline operator bool (void) const;
/*! \cond
*/
private:
int m_val;
const error_category *m_cat;
/*! \endcond
*/
}; // end error_condition
// [19.5.3.5] Class error_condition non-member functions
// XXX replace errc::errc_t with errc upon c++0x
/*! \return <tt>error_condition(static_cast<int>(e), generic_category())</tt>.
*/
inline error_condition make_error_condition(errc::errc_t e);
/*! \return <tt>lhs.category() < rhs.category() || lhs.category() == rhs.category() && lhs.value() < rhs.value()</tt>.
*/
inline bool operator<(const error_condition &lhs, const error_condition &rhs);
// [19.5.4] Comparison operators
/*! \return <tt>lhs.category() == rhs.category() && lhs.value() == rhs.value()</tt>.
*/
inline bool operator==(const error_code &lhs, const error_code &rhs);
/*! \return <tt>lhs.category().equivalent(lhs.value(), rhs) || rhs.category().equivalent(lhs,rhs.value())</tt>.
*/
inline bool operator==(const error_code &lhs, const error_condition &rhs);
/*! \return <tt>rhs.category().equivalent(lhs.value(), lhs) || lhs.category().equivalent(rhs, lhs.value())</tt>.
*/
inline bool operator==(const error_condition &lhs, const error_code &rhs);
/*! \return <tt>lhs.category() == rhs.category() && lhs.value() == rhs.value()</tt>
*/
inline bool operator==(const error_condition &lhs, const error_condition &rhs);
/*! \return <tt>!(lhs == rhs)</tt>
*/
inline bool operator!=(const error_code &lhs, const error_code &rhs);
/*! \return <tt>!(lhs == rhs)</tt>
*/
inline bool operator!=(const error_code &lhs, const error_condition &rhs);
/*! \return <tt>!(lhs == rhs)</tt>
*/
inline bool operator!=(const error_condition &lhs, const error_code &rhs);
/*! \return <tt>!(lhs == rhs)</tt>
*/
inline bool operator!=(const error_condition &lhs, const error_condition &rhs);
/*! \} // end system_diagnostics
*/
} // end system
// import names into thrust::
using system::error_category;
using system::error_code;
using system::error_condition;
using system::is_error_code_enum;
using system::is_error_condition_enum;
using system::make_error_code;
using system::make_error_condition;
// XXX replace with using system::errc upon c++0x
namespace errc = system::errc;
using system::generic_category;
using system::system_category;
} // end thrust
#include <thrust/system/detail/error_category.inl>
#include <thrust/system/detail/error_code.inl>
#include <thrust/system/detail/error_condition.inl>