fish-shell/src/maybe.h
Fabian Homborg c2970f9618 Reformat all files
This runs build_tools/style.fish, which runs clang-format on C++, fish_indent on fish and (new) black on python.

If anything is wrong with the formatting, we should fix the tools, but automated formatting is worth it.
2019-05-05 12:09:25 +02:00

214 lines
6.1 KiB
C++

#ifndef FISH_MAYBE_H
#define FISH_MAYBE_H
#include <cassert>
#include <type_traits>
namespace maybe_detail {
// Template magic to make maybe_t<T> copyable iff T is copyable.
// maybe_impl_t is the "too aggressive" implementation: it is always copyable.
template <typename T>
struct maybe_impl_t {
alignas(T) char storage[sizeof(T)];
bool filled = false;
T &value() {
assert(filled && "maybe_t does not have a value");
return *reinterpret_cast<T *>(storage);
}
const T &value() const {
assert(filled && "maybe_t does not have a value");
return *reinterpret_cast<const T *>(storage);
}
void reset() {
if (this->filled) {
value().~T();
this->filled = false;
}
}
T acquire() {
assert(filled && "maybe_t does not have a value");
T res = std::move(value());
reset();
return res;
}
maybe_impl_t() = default;
// Move construction/assignment from a T.
explicit maybe_impl_t(T &&v) : filled(true) { new (storage) T(std::forward<T>(v)); }
maybe_impl_t &operator=(T &&v) {
if (filled) {
value() = std::move(v);
} else {
new (storage) T(std::move(v));
filled = true;
}
return *this;
}
// Copy construction/assignment from a T.
explicit maybe_impl_t(const T &v) : filled(true) { new (storage) T(v); }
maybe_impl_t &operator=(const T &v) {
if (filled) {
value() = v;
} else {
new (storage) T(v);
filled = true;
}
return *this;
}
// Move construction/assignment from a maybe_impl.
maybe_impl_t(maybe_impl_t &&v) : filled(v.filled) {
if (filled) {
new (storage) T(std::move(v.value()));
}
}
maybe_impl_t &operator=(maybe_impl_t &&v) {
if (!v.filled) {
reset();
} else {
*this = std::move(v.value());
}
return *this;
}
// Copy construction/assignment from a maybe_impl.
maybe_impl_t(const maybe_impl_t &v) : filled(v.filled) {
if (v.filled) {
new (storage) T(v.value());
}
}
maybe_impl_t &operator=(const maybe_impl_t &v) {
if (&v == this) return *this;
if (!v.filled) {
reset();
} else {
*this = v.value();
}
return *this;
}
~maybe_impl_t() { reset(); }
};
struct copyable_t {};
struct noncopyable_t {
noncopyable_t() = default;
noncopyable_t(noncopyable_t &&) = default;
noncopyable_t &operator=(noncopyable_t &&) = default;
noncopyable_t(const noncopyable_t &) = delete;
noncopyable_t &operator=(const noncopyable_t &) = delete;
};
// conditionally_copyable_t is copyable iff T is copyable.
// This enables conditionally copyable wrapper types by inheriting from it.
template <typename T>
using conditionally_copyable_t = typename std::conditional<std::is_copy_constructible<T>::value,
copyable_t, noncopyable_t>::type;
}; // namespace maybe_detail
// A none_t is a helper type used to implicitly initialize maybe_t.
// Example usage:
// maybe_t<int> sqrt(int x) {
// if (x < 0) return none();
// return (int)sqrt(x);
// }
enum class none_t { none = 1 };
inline constexpr none_t none() { return none_t::none; }
// Support for a maybe, also known as Optional.
// This is a value-type class that stores a value of T in aligned storage.
template <typename T>
class maybe_t : private maybe_detail::conditionally_copyable_t<T> {
maybe_detail::maybe_impl_t<T> impl_;
public:
// return whether the receiver contains a value.
bool has_value() const { return impl_.filled; }
// bool conversion indicates whether the receiver contains a value.
explicit operator bool() const { return impl_.filled; }
// The default constructor constructs a maybe with no value.
maybe_t() = default;
// Construct a maybe_t from a none_t
/* implicit */ maybe_t(none_t n) { (void)n; }
// Construct a maybe_t from a value T.
/* implicit */ maybe_t(T &&v) : impl_(std::move(v)) {}
// Construct a maybe_t from a value T.
/* implicit */ maybe_t(const T &v) : impl_(v) {}
// Copy constructor.
maybe_t(const maybe_t &v) = default;
// Move constructor.
/* implicit */ maybe_t(maybe_t &&v) = default;
// Construct a value in-place.
template <class... Args>
void emplace(Args &&... args) {
reset();
impl_.filled = true;
new (impl_.storage) T(std::forward<Args>(args)...);
}
// Access the value.
T &value() { return impl_.value(); }
const T &value() const { return impl_.value(); }
// Transfer the value to the caller.
T acquire() { return impl_.acquire(); }
// Clear the value.
void reset() { impl_.reset(); }
// Assign a new value.
maybe_t &operator=(T &&v) {
impl_ = std::move(v);
return *this;
}
// Note that defaulting these allows these to be conditionally deleted via
// conditionally_copyable_t().
maybe_t &operator=(const maybe_t &v) = default;
maybe_t &operator=(maybe_t &&v) = default;
// Dereference support.
const T *operator->() const { return &value(); }
T *operator->() { return &value(); }
const T &operator*() const { return value(); }
T &operator*() { return value(); }
// Helper to replace missing_or_empty() on env_var_t.
// Uses SFINAE to only introduce this function if T has an empty() type.
template <typename S = T>
decltype(S().empty(), bool()) missing_or_empty() const {
return !has_value() || value().empty();
}
// Compare values for equality.
bool operator==(const maybe_t &rhs) const {
if (this->has_value() && rhs.has_value()) return this->value() == rhs.value();
return this->has_value() == rhs.has_value();
}
bool operator!=(const maybe_t &rhs) const { return !(*this == rhs); }
bool operator==(const T &rhs) const { return this->has_value() && this->value() == rhs; }
bool operator!=(const T &rhs) const { return !(*this == rhs); }
~maybe_t() { reset(); }
};
#endif