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status.h
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status.h
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. See the AUTHORS file for names of contributors.
//
// A Status encapsulates the result of an operation. It may indicate success,
// or it may indicate an error with an associated error message.
//
// Multiple threads can invoke const methods on a Status without
// external synchronization, but if any of the threads may call a
// non-const method, all threads accessing the same Status must use
// external synchronization.
// Adapted from Apache Kudu, TensorFlow
#pragma once
#include <cstring>
#include <iosfwd>
#include <memory>
#include <string>
#include <utility>
#include "arrow/util/compare.h"
#include "arrow/util/macros.h"
#include "arrow/util/string_builder.h"
#include "arrow/util/visibility.h"
#ifdef ARROW_EXTRA_ERROR_CONTEXT
/// \brief Return with given status if condition is met.
#define ARROW_RETURN_IF_(condition, status, expr) \
do { \
if (ARROW_PREDICT_FALSE(condition)) { \
::arrow::Status _st = (status); \
_st.AddContextLine(__FILE__, __LINE__, expr); \
return _st; \
} \
} while (0)
#else
#define ARROW_RETURN_IF_(condition, status, _) \
do { \
if (ARROW_PREDICT_FALSE(condition)) { \
return (status); \
} \
} while (0)
#endif // ARROW_EXTRA_ERROR_CONTEXT
#define ARROW_RETURN_IF(condition, status) \
ARROW_RETURN_IF_(condition, status, ARROW_STRINGIFY(status))
/// \brief Propagate any non-successful Status to the caller
#define ARROW_RETURN_NOT_OK(status) \
do { \
::arrow::Status __s = ::arrow::internal::GenericToStatus(status); \
ARROW_RETURN_IF_(!__s.ok(), __s, ARROW_STRINGIFY(status)); \
} while (false)
#define RETURN_NOT_OK_ELSE(s, else_) \
do { \
::arrow::Status _s = ::arrow::internal::GenericToStatus(s); \
if (!_s.ok()) { \
else_; \
return _s; \
} \
} while (false)
// This is an internal-use macro and should not be used in public headers.
#ifndef RETURN_NOT_OK
#define RETURN_NOT_OK(s) ARROW_RETURN_NOT_OK(s)
#endif
namespace arrow {
enum class StatusCode : char {
OK = 0,
OutOfMemory = 1,
KeyError = 2,
TypeError = 3,
Invalid = 4,
IOError = 5,
CapacityError = 6,
IndexError = 7,
UnknownError = 9,
NotImplemented = 10,
SerializationError = 11,
RError = 13,
// Gandiva range of errors
CodeGenError = 40,
ExpressionValidationError = 41,
ExecutionError = 42,
// Continue generic codes.
AlreadyExists = 45
};
#if defined(__clang__)
// Only clang supports warn_unused_result as a type annotation.
class ARROW_MUST_USE_RESULT ARROW_EXPORT Status;
#endif
/// \brief An opaque class that allows subsystems to retain
/// additional information inside the Status.
class ARROW_EXPORT StatusDetail {
public:
virtual ~StatusDetail() = default;
/// \brief Return a unique id for the type of the StatusDetail
/// (effectively a poor man's substitude for RTTI).
virtual const char* type_id() const = 0;
/// \brief Produce a human-readable description of this status.
virtual std::string ToString() const = 0;
bool operator==(const StatusDetail& other) const noexcept {
return std::string(type_id()) == other.type_id() && ToString() == other.ToString();
}
};
/// \brief Status outcome object (success or error)
///
/// The Status object is an object holding the outcome of an operation.
/// The outcome is represented as a StatusCode, either success
/// (StatusCode::OK) or an error (any other of the StatusCode enumeration values).
///
/// Additionally, if an error occurred, a specific error message is generally
/// attached.
class ARROW_EXPORT Status : public util::EqualityComparable<Status>,
public util::ToStringOstreamable<Status> {
public:
// Create a success status.
Status() noexcept : state_(NULLPTR) {}
~Status() noexcept {
// ARROW-2400: On certain compilers, splitting off the slow path improves
// performance significantly.
if (ARROW_PREDICT_FALSE(state_ != NULL)) {
DeleteState();
}
}
Status(StatusCode code, const std::string& msg);
/// \brief Pluggable constructor for use by sub-systems. detail cannot be null.
Status(StatusCode code, std::string msg, std::shared_ptr<StatusDetail> detail);
// Copy the specified status.
inline Status(const Status& s);
inline Status& operator=(const Status& s);
// Move the specified status.
inline Status(Status&& s) noexcept;
inline Status& operator=(Status&& s) noexcept;
inline bool Equals(const Status& s) const;
// AND the statuses.
inline Status operator&(const Status& s) const noexcept;
inline Status operator&(Status&& s) const noexcept;
inline Status& operator&=(const Status& s) noexcept;
inline Status& operator&=(Status&& s) noexcept;
/// Return a success status
static Status OK() { return Status(); }
template <typename... Args>
static Status FromArgs(StatusCode code, Args&&... args) {
return Status(code, util::StringBuilder(std::forward<Args>(args)...));
}
template <typename... Args>
static Status FromDetailAndArgs(StatusCode code, std::shared_ptr<StatusDetail> detail,
Args&&... args) {
return Status(code, util::StringBuilder(std::forward<Args>(args)...),
std::move(detail));
}
/// Return an error status for out-of-memory conditions
template <typename... Args>
static Status OutOfMemory(Args&&... args) {
return Status::FromArgs(StatusCode::OutOfMemory, std::forward<Args>(args)...);
}
/// Return an error status for failed key lookups (e.g. column name in a table)
template <typename... Args>
static Status KeyError(Args&&... args) {
return Status::FromArgs(StatusCode::KeyError, std::forward<Args>(args)...);
}
/// Return an error status for type errors (such as mismatching data types)
template <typename... Args>
static Status TypeError(Args&&... args) {
return Status::FromArgs(StatusCode::TypeError, std::forward<Args>(args)...);
}
/// Return an error status for unknown errors
template <typename... Args>
static Status UnknownError(Args&&... args) {
return Status::FromArgs(StatusCode::UnknownError, std::forward<Args>(args)...);
}
/// Return an error status when an operation or a combination of operation and
/// data types is unimplemented
template <typename... Args>
static Status NotImplemented(Args&&... args) {
return Status::FromArgs(StatusCode::NotImplemented, std::forward<Args>(args)...);
}
/// Return an error status for invalid data (for example a string that fails parsing)
template <typename... Args>
static Status Invalid(Args&&... args) {
return Status::FromArgs(StatusCode::Invalid, std::forward<Args>(args)...);
}
/// Return an error status when an index is out of bounds
template <typename... Args>
static Status IndexError(Args&&... args) {
return Status::FromArgs(StatusCode::IndexError, std::forward<Args>(args)...);
}
/// Return an error status when a container's capacity would exceed its limits
template <typename... Args>
static Status CapacityError(Args&&... args) {
return Status::FromArgs(StatusCode::CapacityError, std::forward<Args>(args)...);
}
/// Return an error status when some IO-related operation failed
template <typename... Args>
static Status IOError(Args&&... args) {
return Status::FromArgs(StatusCode::IOError, std::forward<Args>(args)...);
}
/// Return an error status when some (de)serialization operation failed
template <typename... Args>
static Status SerializationError(Args&&... args) {
return Status::FromArgs(StatusCode::SerializationError, std::forward<Args>(args)...);
}
template <typename... Args>
static Status RError(Args&&... args) {
return Status::FromArgs(StatusCode::RError, std::forward<Args>(args)...);
}
template <typename... Args>
static Status CodeGenError(Args&&... args) {
return Status::FromArgs(StatusCode::CodeGenError, std::forward<Args>(args)...);
}
template <typename... Args>
static Status ExpressionValidationError(Args&&... args) {
return Status::FromArgs(StatusCode::ExpressionValidationError,
std::forward<Args>(args)...);
}
template <typename... Args>
static Status ExecutionError(Args&&... args) {
return Status::FromArgs(StatusCode::ExecutionError, std::forward<Args>(args)...);
}
template <typename... Args>
static Status AlreadyExists(Args&&... args) {
return Status::FromArgs(StatusCode::AlreadyExists, std::forward<Args>(args)...);
}
/// Return true iff the status indicates success.
bool ok() const { return (state_ == NULLPTR); }
/// Return true iff the status indicates an out-of-memory error.
bool IsOutOfMemory() const { return code() == StatusCode::OutOfMemory; }
/// Return true iff the status indicates a key lookup error.
bool IsKeyError() const { return code() == StatusCode::KeyError; }
/// Return true iff the status indicates invalid data.
bool IsInvalid() const { return code() == StatusCode::Invalid; }
/// Return true iff the status indicates an IO-related failure.
bool IsIOError() const { return code() == StatusCode::IOError; }
/// Return true iff the status indicates a container reaching capacity limits.
bool IsCapacityError() const { return code() == StatusCode::CapacityError; }
/// Return true iff the status indicates an out of bounds index.
bool IsIndexError() const { return code() == StatusCode::IndexError; }
/// Return true iff the status indicates a type error.
bool IsTypeError() const { return code() == StatusCode::TypeError; }
/// Return true iff the status indicates an unknown error.
bool IsUnknownError() const { return code() == StatusCode::UnknownError; }
/// Return true iff the status indicates an unimplemented operation.
bool IsNotImplemented() const { return code() == StatusCode::NotImplemented; }
/// Return true iff the status indicates a (de)serialization failure
bool IsSerializationError() const { return code() == StatusCode::SerializationError; }
/// Return true iff the status indicates a R-originated error.
bool IsRError() const { return code() == StatusCode::RError; }
bool IsCodeGenError() const { return code() == StatusCode::CodeGenError; }
bool IsExpressionValidationError() const {
return code() == StatusCode::ExpressionValidationError;
}
bool IsExecutionError() const { return code() == StatusCode::ExecutionError; }
bool IsAlreadyExists() const { return code() == StatusCode::AlreadyExists; }
/// \brief Return a string representation of this status suitable for printing.
///
/// The string "OK" is returned for success.
std::string ToString() const;
/// \brief Return a string representation of the status code, without the message
/// text or POSIX code information.
std::string CodeAsString() const;
static std::string CodeAsString(StatusCode);
/// \brief Return the StatusCode value attached to this status.
StatusCode code() const { return ok() ? StatusCode::OK : state_->code; }
/// \brief Return the specific error message attached to this status.
std::string message() const { return ok() ? "" : state_->msg; }
/// \brief Return the status detail attached to this message.
std::shared_ptr<StatusDetail> detail() const {
return state_ == NULLPTR ? NULLPTR : state_->detail;
}
/// \brief Return a new Status copying the existing status, but
/// updating with the existing detail.
Status WithDetail(std::shared_ptr<StatusDetail> new_detail) const {
return Status(code(), message(), std::move(new_detail));
}
/// \brief Return a new Status with changed message, copying the
/// existing status code and detail.
template <typename... Args>
Status WithMessage(Args&&... args) const {
return FromArgs(code(), std::forward<Args>(args)...).WithDetail(detail());
}
[[noreturn]] void Abort() const;
[[noreturn]] void Abort(const std::string& message) const;
#ifdef ARROW_EXTRA_ERROR_CONTEXT
void AddContextLine(const char* filename, int line, const char* expr);
#endif
private:
struct State {
StatusCode code;
std::string msg;
std::shared_ptr<StatusDetail> detail;
};
// OK status has a `NULL` state_. Otherwise, `state_` points to
// a `State` structure containing the error code and message(s)
State* state_;
void DeleteState() {
delete state_;
state_ = NULLPTR;
}
void CopyFrom(const Status& s);
inline void MoveFrom(Status& s);
};
void Status::MoveFrom(Status& s) {
delete state_;
state_ = s.state_;
s.state_ = NULLPTR;
}
Status::Status(const Status& s)
: state_((s.state_ == NULLPTR) ? NULLPTR : new State(*s.state_)) {}
Status& Status::operator=(const Status& s) {
// The following condition catches both aliasing (when this == &s),
// and the common case where both s and *this are ok.
if (state_ != s.state_) {
CopyFrom(s);
}
return *this;
}
Status::Status(Status&& s) noexcept : state_(s.state_) { s.state_ = NULLPTR; }
Status& Status::operator=(Status&& s) noexcept {
MoveFrom(s);
return *this;
}
bool Status::Equals(const Status& s) const {
if (state_ == s.state_) {
return true;
}
if (ok() || s.ok()) {
return false;
}
if (detail() != s.detail()) {
if ((detail() && !s.detail()) || (!detail() && s.detail())) {
return false;
}
return *detail() == *s.detail();
}
return code() == s.code() && message() == s.message();
}
/// \cond FALSE
// (note: emits warnings on Doxygen < 1.8.15,
// see https://github.com/doxygen/doxygen/issues/6295)
Status Status::operator&(const Status& s) const noexcept {
if (ok()) {
return s;
} else {
return *this;
}
}
Status Status::operator&(Status&& s) const noexcept {
if (ok()) {
return std::move(s);
} else {
return *this;
}
}
Status& Status::operator&=(const Status& s) noexcept {
if (ok() && !s.ok()) {
CopyFrom(s);
}
return *this;
}
Status& Status::operator&=(Status&& s) noexcept {
if (ok() && !s.ok()) {
MoveFrom(s);
}
return *this;
}
/// \endcond
namespace internal {
// Extract Status from Status or Result<T>
// Useful for the status check macros such as RETURN_NOT_OK.
inline Status GenericToStatus(const Status& st) { return st; }
} // namespace internal
} // namespace arrow