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760 lines
26 KiB
760 lines
26 KiB
// Copyright 2020 The Abseil Authors. |
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// |
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// Licensed under the Apache License, Version 2.0 (the "License"); |
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// you may not use this file except in compliance with the License. |
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// You may obtain a copy of the License at |
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// |
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// https://www.apache.org/licenses/LICENSE-2.0 |
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// |
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// Unless required by applicable law or agreed to in writing, software |
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// distributed under the License is distributed on an "AS IS" BASIS, |
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
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// See the License for the specific language governing permissions and |
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// limitations under the License. |
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// |
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// ----------------------------------------------------------------------------- |
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// File: statusor.h |
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// ----------------------------------------------------------------------------- |
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// |
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// An `absl::StatusOr<T>` represents a union of an `absl::Status` object |
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// and an object of type `T`. The `absl::StatusOr<T>` will either contain an |
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// object of type `T` (indicating a successful operation), or an error (of type |
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// `absl::Status`) explaining why such a value is not present. |
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// |
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// In general, check the success of an operation returning an |
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// `absl::StatusOr<T>` like you would an `absl::Status` by using the `ok()` |
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// member function. |
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// |
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// Example: |
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// |
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// StatusOr<Foo> result = Calculation(); |
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// if (result.ok()) { |
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// result->DoSomethingCool(); |
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// } else { |
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// LOG(ERROR) << result.status(); |
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// } |
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#ifndef ABSL_STATUS_STATUSOR_H_ |
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#define ABSL_STATUS_STATUSOR_H_ |
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#include <exception> |
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#include <initializer_list> |
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#include <new> |
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#include <string> |
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#include <type_traits> |
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#include <utility> |
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#include "absl/base/attributes.h" |
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#include "absl/meta/type_traits.h" |
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#include "absl/status/internal/statusor_internal.h" |
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#include "absl/status/status.h" |
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#include "absl/types/variant.h" |
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#include "absl/utility/utility.h" |
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namespace absl { |
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ABSL_NAMESPACE_BEGIN |
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// BadStatusOrAccess |
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// |
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// This class defines the type of object to throw (if exceptions are enabled), |
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// when accessing the value of an `absl::StatusOr<T>` object that does not |
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// contain a value. This behavior is analogous to that of |
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// `std::bad_optional_access` in the case of accessing an invalid |
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// `std::optional` value. |
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// |
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// Example: |
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// |
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// try { |
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// absl::StatusOr<int> v = FetchInt(); |
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// DoWork(v.value()); // Accessing value() when not "OK" may throw |
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// } catch (absl::BadStatusOrAccess& ex) { |
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// LOG(ERROR) << ex.status(); |
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// } |
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class BadStatusOrAccess : public std::exception { |
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public: |
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explicit BadStatusOrAccess(absl::Status status); |
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~BadStatusOrAccess() override; |
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// BadStatusOrAccess::what() |
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// |
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// Returns the associated explanatory string of the `absl::StatusOr<T>` |
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// object's error code. This function only returns the string literal "Bad |
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// StatusOr Access" for cases when evaluating general exceptions. |
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// |
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// The pointer of this string is guaranteed to be valid until any non-const |
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// function is invoked on the exception object. |
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const char* what() const noexcept override; |
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// BadStatusOrAccess::status() |
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// |
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// Returns the associated `absl::Status` of the `absl::StatusOr<T>` object's |
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// error. |
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const absl::Status& status() const; |
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private: |
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absl::Status status_; |
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}; |
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// Returned StatusOr objects may not be ignored. |
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template <typename T> |
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class ABSL_MUST_USE_RESULT StatusOr; |
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// absl::StatusOr<T> |
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// |
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// The `absl::StatusOr<T>` class template is a union of an `absl::Status` object |
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// and an object of type `T`. The `absl::StatusOr<T>` models an object that is |
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// either a usable object, or an error (of type `absl::Status`) explaining why |
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// such an object is not present. An `absl::StatusOr<T>` is typically the return |
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// value of a function which may fail. |
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// |
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// An `absl::StatusOr<T>` can never hold an "OK" status (an |
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// `absl::StatusCode::kOk` value); instead, the presence of an object of type |
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// `T` indicates success. Instead of checking for a `kOk` value, use the |
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// `absl::StatusOr<T>::ok()` member function. (It is for this reason, and code |
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// readability, that using the `ok()` function is preferred for `absl::Status` |
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// as well.) |
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// |
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// Example: |
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// |
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// StatusOr<Foo> result = DoBigCalculationThatCouldFail(); |
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// if (result.ok()) { |
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// result->DoSomethingCool(); |
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// } else { |
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// LOG(ERROR) << result.status(); |
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// } |
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// |
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// Accessing the object held by an `absl::StatusOr<T>` should be performed via |
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// `operator*` or `operator->`, after a call to `ok()` confirms that the |
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// `absl::StatusOr<T>` holds an object of type `T`: |
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// |
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// Example: |
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// |
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// absl::StatusOr<int> i = GetCount(); |
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// if (i.ok()) { |
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// updated_total += *i |
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// } |
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// |
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// NOTE: using `absl::StatusOr<T>::value()` when no valid value is present will |
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// throw an exception if exceptions are enabled or terminate the process when |
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// execeptions are not enabled. |
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// |
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// Example: |
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// |
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// StatusOr<Foo> result = DoBigCalculationThatCouldFail(); |
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// const Foo& foo = result.value(); // Crash/exception if no value present |
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// foo.DoSomethingCool(); |
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// |
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// A `absl::StatusOr<T*>` can be constructed from a null pointer like any other |
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// pointer value, and the result will be that `ok()` returns `true` and |
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// `value()` returns `nullptr`. Checking the value of pointer in an |
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// `absl::StatusOr<T>` generally requires a bit more care, to ensure both that a |
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// value is present and that value is not null: |
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// |
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// StatusOr<std::unique_ptr<Foo>> result = FooFactory::MakeNewFoo(arg); |
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// if (!result.ok()) { |
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// LOG(ERROR) << result.status(); |
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// } else if (*result == nullptr) { |
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// LOG(ERROR) << "Unexpected null pointer"; |
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// } else { |
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// (*result)->DoSomethingCool(); |
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// } |
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// |
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// Example factory implementation returning StatusOr<T>: |
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// |
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// StatusOr<Foo> FooFactory::MakeFoo(int arg) { |
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// if (arg <= 0) { |
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// return absl::Status(absl::StatusCode::kInvalidArgument, |
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// "Arg must be positive"); |
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// } |
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// return Foo(arg); |
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// } |
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template <typename T> |
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class StatusOr : private internal_statusor::StatusOrData<T>, |
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private internal_statusor::CopyCtorBase<T>, |
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private internal_statusor::MoveCtorBase<T>, |
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private internal_statusor::CopyAssignBase<T>, |
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private internal_statusor::MoveAssignBase<T> { |
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template <typename U> |
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friend class StatusOr; |
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typedef internal_statusor::StatusOrData<T> Base; |
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public: |
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// StatusOr<T>::value_type |
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// |
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// This instance data provides a generic `value_type` member for use within |
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// generic programming. This usage is analogous to that of |
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// `optional::value_type` in the case of `std::optional`. |
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typedef T value_type; |
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// Constructors |
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// Constructs a new `absl::StatusOr` with an `absl::StatusCode::kUnknown` |
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// status. This constructor is marked 'explicit' to prevent usages in return |
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// values such as 'return {};', under the misconception that |
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// `absl::StatusOr<std::vector<int>>` will be initialized with an empty |
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// vector, instead of an `absl::StatusCode::kUnknown` error code. |
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explicit StatusOr(); |
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// `StatusOr<T>` is copy constructible if `T` is copy constructible. |
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StatusOr(const StatusOr&) = default; |
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// `StatusOr<T>` is copy assignable if `T` is copy constructible and copy |
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// assignable. |
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StatusOr& operator=(const StatusOr&) = default; |
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// `StatusOr<T>` is move constructible if `T` is move constructible. |
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StatusOr(StatusOr&&) = default; |
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// `StatusOr<T>` is moveAssignable if `T` is move constructible and move |
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// assignable. |
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StatusOr& operator=(StatusOr&&) = default; |
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// Converting Constructors |
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// Constructs a new `absl::StatusOr<T>` from an `absl::StatusOr<U>`, when `T` |
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// is constructible from `U`. To avoid ambiguity, these constructors are |
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// disabled if `T` is also constructible from `StatusOr<U>.`. This constructor |
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// is explicit if and only if the corresponding construction of `T` from `U` |
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// is explicit. (This constructor inherits its explicitness from the |
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// underlying constructor.) |
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template < |
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typename U, |
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absl::enable_if_t< |
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absl::conjunction< |
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absl::negation<std::is_same<T, U>>, |
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std::is_constructible<T, const U&>, |
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std::is_convertible<const U&, T>, |
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absl::negation< |
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internal_statusor::IsConstructibleOrConvertibleFromStatusOr< |
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T, U>>>::value, |
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int> = 0> |
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StatusOr(const StatusOr<U>& other) // NOLINT |
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: Base(static_cast<const typename StatusOr<U>::Base&>(other)) {} |
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template < |
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typename U, |
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absl::enable_if_t< |
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absl::conjunction< |
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absl::negation<std::is_same<T, U>>, |
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std::is_constructible<T, const U&>, |
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absl::negation<std::is_convertible<const U&, T>>, |
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absl::negation< |
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internal_statusor::IsConstructibleOrConvertibleFromStatusOr< |
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T, U>>>::value, |
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int> = 0> |
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explicit StatusOr(const StatusOr<U>& other) |
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: Base(static_cast<const typename StatusOr<U>::Base&>(other)) {} |
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template < |
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typename U, |
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absl::enable_if_t< |
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absl::conjunction< |
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absl::negation<std::is_same<T, U>>, std::is_constructible<T, U&&>, |
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std::is_convertible<U&&, T>, |
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absl::negation< |
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internal_statusor::IsConstructibleOrConvertibleFromStatusOr< |
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T, U>>>::value, |
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int> = 0> |
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StatusOr(StatusOr<U>&& other) // NOLINT |
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: Base(static_cast<typename StatusOr<U>::Base&&>(other)) {} |
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template < |
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typename U, |
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absl::enable_if_t< |
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absl::conjunction< |
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absl::negation<std::is_same<T, U>>, std::is_constructible<T, U&&>, |
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absl::negation<std::is_convertible<U&&, T>>, |
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absl::negation< |
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internal_statusor::IsConstructibleOrConvertibleFromStatusOr< |
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T, U>>>::value, |
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int> = 0> |
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explicit StatusOr(StatusOr<U>&& other) |
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: Base(static_cast<typename StatusOr<U>::Base&&>(other)) {} |
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// Converting Assignment Operators |
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// Creates an `absl::StatusOr<T>` through assignment from an |
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// `absl::StatusOr<U>` when: |
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// |
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// * Both `absl::StatusOr<T>` and `absl::StatusOr<U>` are OK by assigning |
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// `U` to `T` directly. |
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// * `absl::StatusOr<T>` is OK and `absl::StatusOr<U>` contains an error |
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// code by destroying `absl::StatusOr<T>`'s value and assigning from |
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// `absl::StatusOr<U>' |
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// * `absl::StatusOr<T>` contains an error code and `absl::StatusOr<U>` is |
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// OK by directly initializing `T` from `U`. |
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// * Both `absl::StatusOr<T>` and `absl::StatusOr<U>` contain an error |
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// code by assigning the `Status` in `absl::StatusOr<U>` to |
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// `absl::StatusOr<T>` |
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// |
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// These overloads only apply if `absl::StatusOr<T>` is constructible and |
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// assignable from `absl::StatusOr<U>` and `StatusOr<T>` cannot be directly |
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// assigned from `StatusOr<U>`. |
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template < |
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typename U, |
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absl::enable_if_t< |
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absl::conjunction< |
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absl::negation<std::is_same<T, U>>, |
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std::is_constructible<T, const U&>, |
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std::is_assignable<T, const U&>, |
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absl::negation< |
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internal_statusor:: |
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IsConstructibleOrConvertibleOrAssignableFromStatusOr< |
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T, U>>>::value, |
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int> = 0> |
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StatusOr& operator=(const StatusOr<U>& other) { |
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this->Assign(other); |
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return *this; |
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} |
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template < |
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typename U, |
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absl::enable_if_t< |
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absl::conjunction< |
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absl::negation<std::is_same<T, U>>, std::is_constructible<T, U&&>, |
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std::is_assignable<T, U&&>, |
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absl::negation< |
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internal_statusor:: |
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IsConstructibleOrConvertibleOrAssignableFromStatusOr< |
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T, U>>>::value, |
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int> = 0> |
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StatusOr& operator=(StatusOr<U>&& other) { |
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this->Assign(std::move(other)); |
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return *this; |
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} |
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// Constructs a new `absl::StatusOr<T>` with a non-ok status. After calling |
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// this constructor, `this->ok()` will be `false` and calls to `value()` will |
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// crash, or produce an exception if exceptions are enabled. |
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// |
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// The constructor also takes any type `U` that is convertible to |
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// `absl::Status`. This constructor is explicit if an only if `U` is not of |
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// type `absl::Status` and the conversion from `U` to `Status` is explicit. |
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// |
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// REQUIRES: !Status(std::forward<U>(v)).ok(). This requirement is DCHECKed. |
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// In optimized builds, passing absl::OkStatus() here will have the effect |
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// of passing absl::StatusCode::kInternal as a fallback. |
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template < |
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typename U = absl::Status, |
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absl::enable_if_t< |
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absl::conjunction< |
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std::is_convertible<U&&, absl::Status>, |
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std::is_constructible<absl::Status, U&&>, |
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absl::negation<std::is_same<absl::decay_t<U>, absl::StatusOr<T>>>, |
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absl::negation<std::is_same<absl::decay_t<U>, T>>, |
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absl::negation<std::is_same<absl::decay_t<U>, absl::in_place_t>>, |
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absl::negation<internal_statusor::HasConversionOperatorToStatusOr< |
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T, U&&>>>::value, |
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int> = 0> |
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StatusOr(U&& v) : Base(std::forward<U>(v)) {} |
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template < |
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typename U = absl::Status, |
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absl::enable_if_t< |
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absl::conjunction< |
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absl::negation<std::is_convertible<U&&, absl::Status>>, |
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std::is_constructible<absl::Status, U&&>, |
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absl::negation<std::is_same<absl::decay_t<U>, absl::StatusOr<T>>>, |
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absl::negation<std::is_same<absl::decay_t<U>, T>>, |
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absl::negation<std::is_same<absl::decay_t<U>, absl::in_place_t>>, |
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absl::negation<internal_statusor::HasConversionOperatorToStatusOr< |
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T, U&&>>>::value, |
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int> = 0> |
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explicit StatusOr(U&& v) : Base(std::forward<U>(v)) {} |
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template < |
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typename U = absl::Status, |
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absl::enable_if_t< |
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absl::conjunction< |
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std::is_convertible<U&&, absl::Status>, |
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std::is_constructible<absl::Status, U&&>, |
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absl::negation<std::is_same<absl::decay_t<U>, absl::StatusOr<T>>>, |
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absl::negation<std::is_same<absl::decay_t<U>, T>>, |
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absl::negation<std::is_same<absl::decay_t<U>, absl::in_place_t>>, |
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absl::negation<internal_statusor::HasConversionOperatorToStatusOr< |
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T, U&&>>>::value, |
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int> = 0> |
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StatusOr& operator=(U&& v) { |
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this->AssignStatus(std::forward<U>(v)); |
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return *this; |
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} |
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// Perfect-forwarding value assignment operator. |
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// If `*this` contains a `T` value before the call, the contained value is |
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// assigned from `std::forward<U>(v)`; Otherwise, it is directly-initialized |
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// from `std::forward<U>(v)`. |
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// This function does not participate in overload unless: |
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// 1. `std::is_constructible_v<T, U>` is true, |
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// 2. `std::is_assignable_v<T&, U>` is true. |
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// 3. `std::is_same_v<StatusOr<T>, std::remove_cvref_t<U>>` is false. |
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// 4. Assigning `U` to `T` is not ambiguous: |
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// If `U` is `StatusOr<V>` and `T` is constructible and assignable from |
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// both `StatusOr<V>` and `V`, the assignment is considered bug-prone and |
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// ambiguous thus will fail to compile. For example: |
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// StatusOr<bool> s1 = true; // s1.ok() && *s1 == true |
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// StatusOr<bool> s2 = false; // s2.ok() && *s2 == false |
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// s1 = s2; // ambiguous, `s1 = *s2` or `s1 = bool(s2)`? |
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template < |
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typename U = T, |
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typename = typename std::enable_if<absl::conjunction< |
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std::is_constructible<T, U&&>, std::is_assignable<T&, U&&>, |
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absl::disjunction< |
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std::is_same<absl::remove_cv_t<absl::remove_reference_t<U>>, T>, |
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absl::conjunction< |
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absl::negation<std::is_convertible<U&&, absl::Status>>, |
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absl::negation<internal_statusor:: |
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HasConversionOperatorToStatusOr<T, U&&>>>>, |
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internal_statusor::IsForwardingAssignmentValid<T, U&&>>::value>::type> |
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StatusOr& operator=(U&& v) { |
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this->Assign(std::forward<U>(v)); |
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return *this; |
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} |
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// Constructs the inner value `T` in-place using the provided args, using the |
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// `T(args...)` constructor. |
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template <typename... Args> |
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explicit StatusOr(absl::in_place_t, Args&&... args); |
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template <typename U, typename... Args> |
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explicit StatusOr(absl::in_place_t, std::initializer_list<U> ilist, |
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Args&&... args); |
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// Constructs the inner value `T` in-place using the provided args, using the |
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// `T(U)` (direct-initialization) constructor. This constructor is only valid |
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// if `T` can be constructed from a `U`. Can accept move or copy constructors. |
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// |
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// This constructor is explicit if `U` is not convertible to `T`. To avoid |
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// ambiguity, this constuctor is disabled if `U` is a `StatusOr<J>`, where `J` |
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// is convertible to `T`. |
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template < |
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typename U = T, |
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absl::enable_if_t< |
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absl::conjunction< |
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internal_statusor::IsDirectInitializationValid<T, U&&>, |
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std::is_constructible<T, U&&>, std::is_convertible<U&&, T>, |
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absl::disjunction< |
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std::is_same<absl::remove_cv_t<absl::remove_reference_t<U>>, |
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T>, |
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absl::conjunction< |
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absl::negation<std::is_convertible<U&&, absl::Status>>, |
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absl::negation< |
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internal_statusor::HasConversionOperatorToStatusOr< |
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T, U&&>>>>>::value, |
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int> = 0> |
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StatusOr(U&& u) // NOLINT |
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: StatusOr(absl::in_place, std::forward<U>(u)) { |
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} |
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template < |
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typename U = T, |
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absl::enable_if_t< |
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absl::conjunction< |
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internal_statusor::IsDirectInitializationValid<T, U&&>, |
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absl::disjunction< |
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std::is_same<absl::remove_cv_t<absl::remove_reference_t<U>>, |
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T>, |
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absl::conjunction< |
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absl::negation<std::is_constructible<absl::Status, U&&>>, |
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absl::negation< |
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internal_statusor::HasConversionOperatorToStatusOr< |
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T, U&&>>>>, |
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std::is_constructible<T, U&&>, |
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absl::negation<std::is_convertible<U&&, T>>>::value, |
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int> = 0> |
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explicit StatusOr(U&& u) // NOLINT |
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: StatusOr(absl::in_place, std::forward<U>(u)) { |
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} |
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// StatusOr<T>::ok() |
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// |
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// Returns whether or not this `absl::StatusOr<T>` holds a `T` value. This |
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// member function is analagous to `absl::Status::ok()` and should be used |
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// similarly to check the status of return values. |
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// |
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// Example: |
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// |
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// StatusOr<Foo> result = DoBigCalculationThatCouldFail(); |
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// if (result.ok()) { |
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// // Handle result |
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// else { |
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// // Handle error |
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// } |
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ABSL_MUST_USE_RESULT bool ok() const { return this->status_.ok(); } |
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|
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// StatusOr<T>::status() |
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// |
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// Returns a reference to the current `absl::Status` contained within the |
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// `absl::StatusOr<T>`. If `absl::StatusOr<T>` contains a `T`, then this |
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// function returns `absl::OkStatus()`. |
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const Status& status() const &; |
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Status status() &&; |
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|
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// StatusOr<T>::value() |
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// |
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// Returns a reference to the held value if `this->ok()`. Otherwise, throws |
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// `absl::BadStatusOrAccess` if exceptions are enabled, or is guaranteed to |
|
// terminate the process if exceptions are disabled. |
|
// |
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// If you have already checked the status using `this->ok()`, you probably |
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// want to use `operator*()` or `operator->()` to access the value instead of |
|
// `value`. |
|
// |
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// Note: for value types that are cheap to copy, prefer simple code: |
|
// |
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// T value = statusor.value(); |
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// |
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// Otherwise, if the value type is expensive to copy, but can be left |
|
// in the StatusOr, simply assign to a reference: |
|
// |
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// T& value = statusor.value(); // or `const T&` |
|
// |
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// Otherwise, if the value type supports an efficient move, it can be |
|
// used as follows: |
|
// |
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// T value = std::move(statusor).value(); |
|
// |
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// The `std::move` on statusor instead of on the whole expression enables |
|
// warnings about possible uses of the statusor object after the move. |
|
const T& value() const&; |
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T& value() &; |
|
const T&& value() const&&; |
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T&& value() &&; |
|
|
|
// StatusOr<T>:: operator*() |
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// |
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// Returns a reference to the current value. |
|
// |
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// REQUIRES: `this->ok() == true`, otherwise the behavior is undefined. |
|
// |
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// Use `this->ok()` to verify that there is a current value within the |
|
// `absl::StatusOr<T>`. Alternatively, see the `value()` member function for a |
|
// similar API that guarantees crashing or throwing an exception if there is |
|
// no current value. |
|
const T& operator*() const&; |
|
T& operator*() &; |
|
const T&& operator*() const&&; |
|
T&& operator*() &&; |
|
|
|
// StatusOr<T>::operator->() |
|
// |
|
// Returns a pointer to the current value. |
|
// |
|
// REQUIRES: `this->ok() == true`, otherwise the behavior is undefined. |
|
// |
|
// Use `this->ok()` to verify that there is a current value. |
|
const T* operator->() const; |
|
T* operator->(); |
|
|
|
// StatusOr<T>::value_or() |
|
// |
|
// Returns the current value of `this->ok() == true`. Otherwise constructs a |
|
// value using the provided `default_value`. |
|
// |
|
// Unlike `value`, this function returns by value, copying the current value |
|
// if necessary. If the value type supports an efficient move, it can be used |
|
// as follows: |
|
// |
|
// T value = std::move(statusor).value_or(def); |
|
// |
|
// Unlike with `value`, calling `std::move()` on the result of `value_or` will |
|
// still trigger a copy. |
|
template <typename U> |
|
T value_or(U&& default_value) const&; |
|
template <typename U> |
|
T value_or(U&& default_value) &&; |
|
|
|
// StatusOr<T>::IgnoreError() |
|
// |
|
// Ignores any errors. This method does nothing except potentially suppress |
|
// complaints from any tools that are checking that errors are not dropped on |
|
// the floor. |
|
void IgnoreError() const; |
|
|
|
// StatusOr<T>::emplace() |
|
// |
|
// Reconstructs the inner value T in-place using the provided args, using the |
|
// T(args...) constructor. Returns reference to the reconstructed `T`. |
|
template <typename... Args> |
|
T& emplace(Args&&... args) { |
|
if (ok()) { |
|
this->Clear(); |
|
this->MakeValue(std::forward<Args>(args)...); |
|
} else { |
|
this->MakeValue(std::forward<Args>(args)...); |
|
this->status_ = absl::OkStatus(); |
|
} |
|
return this->data_; |
|
} |
|
|
|
template < |
|
typename U, typename... Args, |
|
absl::enable_if_t< |
|
std::is_constructible<T, std::initializer_list<U>&, Args&&...>::value, |
|
int> = 0> |
|
T& emplace(std::initializer_list<U> ilist, Args&&... args) { |
|
if (ok()) { |
|
this->Clear(); |
|
this->MakeValue(ilist, std::forward<Args>(args)...); |
|
} else { |
|
this->MakeValue(ilist, std::forward<Args>(args)...); |
|
this->status_ = absl::OkStatus(); |
|
} |
|
return this->data_; |
|
} |
|
|
|
private: |
|
using internal_statusor::StatusOrData<T>::Assign; |
|
template <typename U> |
|
void Assign(const absl::StatusOr<U>& other); |
|
template <typename U> |
|
void Assign(absl::StatusOr<U>&& other); |
|
}; |
|
|
|
// operator==() |
|
// |
|
// This operator checks the equality of two `absl::StatusOr<T>` objects. |
|
template <typename T> |
|
bool operator==(const StatusOr<T>& lhs, const StatusOr<T>& rhs) { |
|
if (lhs.ok() && rhs.ok()) return *lhs == *rhs; |
|
return lhs.status() == rhs.status(); |
|
} |
|
|
|
// operator!=() |
|
// |
|
// This operator checks the inequality of two `absl::StatusOr<T>` objects. |
|
template <typename T> |
|
bool operator!=(const StatusOr<T>& lhs, const StatusOr<T>& rhs) { |
|
return !(lhs == rhs); |
|
} |
|
|
|
//------------------------------------------------------------------------------ |
|
// Implementation details for StatusOr<T> |
|
//------------------------------------------------------------------------------ |
|
|
|
// TODO(sbenza): avoid the string here completely. |
|
template <typename T> |
|
StatusOr<T>::StatusOr() : Base(Status(absl::StatusCode::kUnknown, "")) {} |
|
|
|
template <typename T> |
|
template <typename U> |
|
inline void StatusOr<T>::Assign(const StatusOr<U>& other) { |
|
if (other.ok()) { |
|
this->Assign(*other); |
|
} else { |
|
this->AssignStatus(other.status()); |
|
} |
|
} |
|
|
|
template <typename T> |
|
template <typename U> |
|
inline void StatusOr<T>::Assign(StatusOr<U>&& other) { |
|
if (other.ok()) { |
|
this->Assign(*std::move(other)); |
|
} else { |
|
this->AssignStatus(std::move(other).status()); |
|
} |
|
} |
|
template <typename T> |
|
template <typename... Args> |
|
StatusOr<T>::StatusOr(absl::in_place_t, Args&&... args) |
|
: Base(absl::in_place, std::forward<Args>(args)...) {} |
|
|
|
template <typename T> |
|
template <typename U, typename... Args> |
|
StatusOr<T>::StatusOr(absl::in_place_t, std::initializer_list<U> ilist, |
|
Args&&... args) |
|
: Base(absl::in_place, ilist, std::forward<Args>(args)...) {} |
|
|
|
template <typename T> |
|
const Status& StatusOr<T>::status() const & { return this->status_; } |
|
template <typename T> |
|
Status StatusOr<T>::status() && { |
|
return ok() ? OkStatus() : std::move(this->status_); |
|
} |
|
|
|
template <typename T> |
|
const T& StatusOr<T>::value() const& { |
|
if (!this->ok()) internal_statusor::ThrowBadStatusOrAccess(this->status_); |
|
return this->data_; |
|
} |
|
|
|
template <typename T> |
|
T& StatusOr<T>::value() & { |
|
if (!this->ok()) internal_statusor::ThrowBadStatusOrAccess(this->status_); |
|
return this->data_; |
|
} |
|
|
|
template <typename T> |
|
const T&& StatusOr<T>::value() const&& { |
|
if (!this->ok()) { |
|
internal_statusor::ThrowBadStatusOrAccess(std::move(this->status_)); |
|
} |
|
return std::move(this->data_); |
|
} |
|
|
|
template <typename T> |
|
T&& StatusOr<T>::value() && { |
|
if (!this->ok()) { |
|
internal_statusor::ThrowBadStatusOrAccess(std::move(this->status_)); |
|
} |
|
return std::move(this->data_); |
|
} |
|
|
|
template <typename T> |
|
const T& StatusOr<T>::operator*() const& { |
|
this->EnsureOk(); |
|
return this->data_; |
|
} |
|
|
|
template <typename T> |
|
T& StatusOr<T>::operator*() & { |
|
this->EnsureOk(); |
|
return this->data_; |
|
} |
|
|
|
template <typename T> |
|
const T&& StatusOr<T>::operator*() const&& { |
|
this->EnsureOk(); |
|
return std::move(this->data_); |
|
} |
|
|
|
template <typename T> |
|
T&& StatusOr<T>::operator*() && { |
|
this->EnsureOk(); |
|
return std::move(this->data_); |
|
} |
|
|
|
template <typename T> |
|
const T* StatusOr<T>::operator->() const { |
|
this->EnsureOk(); |
|
return &this->data_; |
|
} |
|
|
|
template <typename T> |
|
T* StatusOr<T>::operator->() { |
|
this->EnsureOk(); |
|
return &this->data_; |
|
} |
|
|
|
template <typename T> |
|
template <typename U> |
|
T StatusOr<T>::value_or(U&& default_value) const& { |
|
if (ok()) { |
|
return this->data_; |
|
} |
|
return std::forward<U>(default_value); |
|
} |
|
|
|
template <typename T> |
|
template <typename U> |
|
T StatusOr<T>::value_or(U&& default_value) && { |
|
if (ok()) { |
|
return std::move(this->data_); |
|
} |
|
return std::forward<U>(default_value); |
|
} |
|
|
|
template <typename T> |
|
void StatusOr<T>::IgnoreError() const { |
|
// no-op |
|
} |
|
|
|
ABSL_NAMESPACE_END |
|
} // namespace absl |
|
|
|
#endif // ABSL_STATUS_STATUSOR_H_
|
|
|