serenity/AK/Optional.h

#pragma once

#include <AK/Assertions.h>
#include <AK/Platform.h>

template<typename T>
class CONSUMABLE(unknown) alignas(T) Optional {
public:
    RETURN_TYPESTATE(unknown)
    Optional() {}

    RETURN_TYPESTATE(unknown)
    Optional(const T& value)
        : m_has_value(true)
    {
        new (&m_storage) T(value);
    }

    template<typename U>
    RETURN_TYPESTATE(unknown)
    Optional(const U& value)
        : m_has_value(true)
    {
        new (&m_storage) T(value);
    }

    RETURN_TYPESTATE(unknown)
    Optional(T&& value)
        : m_has_value(true)
    {
        new (&m_storage) T(move(value));
    }

    RETURN_TYPESTATE(unknown)
    Optional(Optional&& other)
        : m_has_value(other.m_has_value)
    {
        if (other.has_value()) {
            new (&m_storage) T(other.release_value());
            other.m_has_value = false;
        }
    }

    RETURN_TYPESTATE(unknown)
    Optional(const Optional& other)
        : m_has_value(other.m_has_value)
    {
        if (m_has_value) {
            new (&m_storage) T(other.value_without_consume_state());
        }
    }

    RETURN_TYPESTATE(unknown)
    Optional& operator=(const Optional& other)
    {
        if (this != &other) {
            clear();
            m_has_value = other.m_has_value;
            if (m_has_value) {
                new (&m_storage) T(other.value());
            }
        }
        return *this;
    }

    RETURN_TYPESTATE(unknown)
    Optional& operator=(Optional&& other)
    {
        if (this != &other) {
            clear();
            m_has_value = other.m_has_value;
            if (other.has_value())
                new (&m_storage) T(other.release_value());
        }
        return *this;
    }

    ~Optional()
    {
        clear();
    }

    void clear()
    {
        if (m_has_value) {
            value().~T();
            m_has_value = false;
        }
    }

    SET_TYPESTATE(consumed)
    bool has_value() const { return m_has_value; }

    CALLABLE_WHEN(consumed)
    T& value()
    {
        ASSERT(m_has_value);
        return *reinterpret_cast<T*>(&m_storage);
    }

    CALLABLE_WHEN(consumed)
    const T& value() const
    {
        return value_without_consume_state();
    }

    CALLABLE_WHEN(consumed)
    T release_value()
    {
        ASSERT(m_has_value);
        T released_value = move(value());
        value().~T();
        m_has_value = false;
        return released_value;
    }

    T value_or(const T& fallback) const
    {
        if (m_has_value)
            return value();
        return fallback;
    }

    SET_TYPESTATE(consumed)
    operator bool() const { return m_has_value; }

private:
    // Call when we don't want to alter the consume state
    const T& value_without_consume_state() const
    {
        ASSERT(m_has_value);
        return *reinterpret_cast<const T*>(&m_storage);
    }
    char m_storage[sizeof(T)];
    bool m_has_value { false };
};
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`#pragma once`

			`#include <AK/Assertions.h>`
Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`#include <AK/Platform.h>`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00
			`template<typename T>`
Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`class CONSUMABLE(unknown) alignas(T) Optional {`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`public:`
Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`RETURN_TYPESTATE(unknown)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`Optional() {}`

Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`RETURN_TYPESTATE(unknown)`
AK: Add Optional<T>(const U&) This replaces Optional<T>(U&&) which clang-tidy complained may hide the regular copy and move constructors. That's a good point, clang-tidy, and I appreciate you pointing that out! 2019-08-08 16:34:59 +00:00			`Optional(const T& value)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`: m_has_value(true)`
			`{`
AK: Add Optional<T>(const U&) This replaces Optional<T>(U&&) which clang-tidy complained may hide the regular copy and move constructors. That's a good point, clang-tidy, and I appreciate you pointing that out! 2019-08-08 16:34:59 +00:00			`new (&m_storage) T(value);`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`}`

			`template<typename U>`
Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`RETURN_TYPESTATE(unknown)`
AK: Add Optional<T>(const U&) This replaces Optional<T>(U&&) which clang-tidy complained may hide the regular copy and move constructors. That's a good point, clang-tidy, and I appreciate you pointing that out! 2019-08-08 16:34:59 +00:00			`Optional(const U& value)`
			`: m_has_value(true)`
			`{`
			`new (&m_storage) T(value);`
			`}`

			`RETURN_TYPESTATE(unknown)`
			`Optional(T&& value)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`: m_has_value(true)`
			`{`
			`new (&m_storage) T(move(value));`
			`}`

Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`RETURN_TYPESTATE(unknown)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`Optional(Optional&& other)`
			`: m_has_value(other.m_has_value)`
			`{`
AK: Fix -Wconsumed warnings in Optional move-ctor and move-assign Our protocol says we have to call has_value() before release_value(). The code was already safe, but the compiler had no way of knowing that. 2019-08-07 05:17:52 +00:00			`if (other.has_value()) {`
AK: Fix leak in Optional(Optional&&) We were copying the other Optional's value and then marking it as not having a value. This prevented us from ever destroying the original. 2019-08-05 20:27:47 +00:00			`new (&m_storage) T(other.release_value());`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`other.m_has_value = false;`
			`}`
			`}`

Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`RETURN_TYPESTATE(unknown)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`Optional(const Optional& other)`
			`: m_has_value(other.m_has_value)`
			`{`
			`if (m_has_value) {`
Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`new (&m_storage) T(other.value_without_consume_state());`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`}`
			`}`

Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`RETURN_TYPESTATE(unknown)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`Optional& operator=(const Optional& other)`
			`{`
			`if (this != &other) {`
			`clear();`
			`m_has_value = other.m_has_value;`
			`if (m_has_value) {`
			`new (&m_storage) T(other.value());`
			`}`
			`}`
			`return *this;`
			`}`

Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`RETURN_TYPESTATE(unknown)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`Optional& operator=(Optional&& other)`
			`{`
			`if (this != &other) {`
			`clear();`
			`m_has_value = other.m_has_value;`
AK: Fix -Wconsumed warnings in Optional move-ctor and move-assign Our protocol says we have to call has_value() before release_value(). The code was already safe, but the compiler had no way of knowing that. 2019-08-07 05:17:52 +00:00			`if (other.has_value())`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`new (&m_storage) T(other.release_value());`
			`}`
			`return *this;`
			`}`

			`~Optional()`
			`{`
			`clear();`
			`}`

			`void clear()`
			`{`
			`if (m_has_value) {`
			`value().~T();`
			`m_has_value = false;`
			`}`
			`}`

Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`SET_TYPESTATE(consumed)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`bool has_value() const { return m_has_value; }`

Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`CALLABLE_WHEN(consumed)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`T& value()`
			`{`
			`ASSERT(m_has_value);`
			`return reinterpret_cast<T>(&m_storage);`
			`}`

Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`CALLABLE_WHEN(consumed)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`const T& value() const`
			`{`
Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`return value_without_consume_state();`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`}`

Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`CALLABLE_WHEN(consumed)`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`T release_value()`
			`{`
			`ASSERT(m_has_value);`
			`T released_value = move(value());`
			`value().~T();`
AK: Optional::operator=(Optional&&) should clear movee's has_value bit We were forgetting to clear m_has_value in the Optional being moved from when using operator=(Optional&&). 2019-08-05 19:47:36 +00:00			`m_has_value = false;`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`return released_value;`
			`}`

AK: Add Optional::value_or(T). This is like value() but with a fallback in case there's no value set. 2019-07-24 05:26:02 +00:00			`T value_or(const T& fallback) const`
			`{`
Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`if (m_has_value)`
AK: Add Optional::value_or(T). This is like value() but with a fallback in case there's no value set. 2019-07-24 05:26:02 +00:00			`return value();`
			`return fallback;`
			`}`

AK: Optional::operator bool() should consume the Optional We use consumable annotations to catch bugs where you get the .value() of an Optional before verifying that it's okay. The bug here was that only has_value() would set the consumed state, even though operator bool() does the same job. 2019-08-24 19:45:32 +00:00			`SET_TYPESTATE(consumed)`
Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`operator bool() const { return m_has_value; }`
AK: Make HashMap::get(Key) return an Optional<Value>. This allows HashMap::get() to be used for value types that cannot be default constructed (e.g NonnullOwnPtr.) 2019-07-24 08:25:43 +00:00
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`private:`
Optional: Add consumable checks These will, when building with clang, prevent using Optional::value without first checking Optional::has_value() - at compile time. 2019-07-30 17:45:40 +00:00			`// Call when we don't want to alter the consume state`
			`const T& value_without_consume_state() const`
			`{`
			`ASSERT(m_has_value);`
			`return reinterpret_cast<const T>(&m_storage);`
			`}`
AK: Make HashMap::get(Key) return an Optional<Value>. This allows HashMap::get() to be used for value types that cannot be default constructed (e.g NonnullOwnPtr.) 2019-07-24 08:25:43 +00:00			`char m_storage[sizeof(T)];`
AK: Add a simple Optional<T> template. This can be used to store any type, with a flag that says if any value is present or not. 2019-07-08 09:29:38 +00:00			`bool m_has_value { false };`
			`};`