ladybird/AK/DistinctNumeric.h

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/*
* Copyright (c) 2020, Ben Wiederhake <BenWiederhake.GitHub@gmx.de>
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* Copyright (c) 2021, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2022, Sam Atkins <atkinssj@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
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#include <AK/Format.h>
#include <AK/Traits.h>
#include <AK/Types.h>
namespace AK {
/**
* This implements a "distinct" numeric type that is intentionally incompatible
* to other incantations. The intention is that each "distinct" type that you
* want simply gets different values for `fn_length` and `line`. The macros
* `TYPEDEF_DISTINCT_NUMERIC_*()` at the bottom of `DistinctNumeric.h`.
*
* The tags in `DistinctNumericFeature` simply split up the space of operators into 6 simple categories:
* - No matter the values of these, `DistinctNumeric` always implements `==` and `!=`.
* - If `Arithmetic` is present, then `a+b`, `a-b`, `+a`, `-a`, `a*b`, `a/b`, `a%b`, and the respective `a_=b` versions are implemented.
* - If `CastToBool` is present, then `!a`, `a&&b`, and `a||b` are implemented (but not `operator bool()`, because of overzealous integer promotion rules).
* - If `Comparison` is present, then `a>b`, `a<b`, `a>=b`, and `a<=b` are implemented.
* - If `Flags` is present, then `~a`, `a&b`, `a|b`, `a^b`, `a&=b`, `a|=b`, and `a^=b` are implemented.
* - If `Increment` is present, then `++a`, `a++`, `--a`, and `a--` are implemented.
* - If `Shift` is present, then `a<<b`, `a>>b`, `a<<=b`, `a>>=b` are implemented.
* The semantics are always those of the underlying basic type `T`.
*
* These can be combined arbitrarily. Want a numeric type that supports `++a`
* and `a >> b` but not `a > b`? Sure thing, just set
* `Increment, Comparison, Shift` and you're done!
* Furthermore, some of these overloads make more sense with specific types, like `a&&b` which should be able to operate
*
* I intentionally decided against overloading `&a` because these shall remain
* numeric types.
*
* The C++20 `operator<=>` would require, among other things `std::weak_equality`.
* Since we do not have that, it cannot be implemented.
*
* The are many operators that do not work on `int`, so I left them out:
* `a[b]`, `*a`, `a->b`, `a.b`, `a->*b`, `a.*b`.
*
* There are many more operators that do not make sense for numerical types,
* or cannot be overloaded in the first place. Naturally, they are not implemented.
*/
namespace DistinctNumericFeature {
enum Arithmetic {};
enum CastToBool {};
enum CastToUnderlying {};
enum Comparison {};
enum Flags {};
enum Increment {};
enum Shift {};
};
template<typename T, typename X, typename... Opts>
class DistinctNumeric {
using Self = DistinctNumeric<T, X, Opts...>;
struct Option {
template<typename K, typename... Os>
consteval Option(K option, Os... other_options)
: Option(other_options...)
{
set(option);
}
consteval Option() { }
constexpr void set(DistinctNumericFeature::Arithmetic const&) { arithmetic = true; }
constexpr void set(DistinctNumericFeature::CastToBool const&) { cast_to_bool = true; }
constexpr void set(DistinctNumericFeature::CastToUnderlying const&) { cast_to_underlying = true; }
constexpr void set(DistinctNumericFeature::Comparison const&) { comparisons = true; }
constexpr void set(DistinctNumericFeature::Flags const&) { flags = true; }
constexpr void set(DistinctNumericFeature::Increment const&) { increment = true; }
constexpr void set(DistinctNumericFeature::Shift const&) { shift = true; }
bool arithmetic { false };
bool cast_to_bool { false };
bool cast_to_underlying { false };
bool comparisons { false };
bool flags { false };
bool increment { false };
bool shift { false };
};
constexpr static Option options { Opts()... };
public:
constexpr DistinctNumeric() = default;
constexpr DistinctNumeric(T value)
: m_value { value }
{
}
constexpr T const& value() const { return m_value; }
constexpr T& value() { return m_value; }
// Always implemented: identity.
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constexpr bool operator==(Self const& other) const
{
return this->m_value == other.m_value;
}
// Only implemented when `CastToUnderlying` is true:
constexpr explicit operator T() const
{
static_assert(options.cast_to_underlying, "Cast to underlying type is only available for DistinctNumeric types with 'CastToUnderlying'.");
return value();
}
// Only implemented when `Increment` is true:
constexpr Self& operator++()
{
static_assert(options.increment, "'++a' is only available for DistinctNumeric types with 'Increment'.");
this->m_value += 1;
return *this;
}
constexpr Self operator++(int)
{
static_assert(options.increment, "'a++' is only available for DistinctNumeric types with 'Increment'.");
Self ret = this->m_value;
this->m_value += 1;
return ret;
}
constexpr Self& operator--()
{
static_assert(options.increment, "'--a' is only available for DistinctNumeric types with 'Increment'.");
this->m_value -= 1;
return *this;
}
constexpr Self operator--(int)
{
static_assert(options.increment, "'a--' is only available for DistinctNumeric types with 'Increment'.");
Self ret = this->m_value;
this->m_value -= 1;
return ret;
}
// Only implemented when `Comparison` is true:
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constexpr bool operator>(Self const& other) const
{
static_assert(options.comparisons, "'a>b' is only available for DistinctNumeric types with 'Comparison'.");
return this->m_value > other.m_value;
}
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constexpr bool operator<(Self const& other) const
{
static_assert(options.comparisons, "'a<b' is only available for DistinctNumeric types with 'Comparison'.");
return this->m_value < other.m_value;
}
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constexpr bool operator>=(Self const& other) const
{
static_assert(options.comparisons, "'a>=b' is only available for DistinctNumeric types with 'Comparison'.");
return this->m_value >= other.m_value;
}
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constexpr bool operator<=(Self const& other) const
{
static_assert(options.comparisons, "'a<=b' is only available for DistinctNumeric types with 'Comparison'.");
return this->m_value <= other.m_value;
}
// 'operator<=>' cannot be implemented. See class comment.
// Only implemented when `CastToBool` is true:
constexpr bool operator!() const
{
static_assert(options.cast_to_bool, "'!a' is only available for DistinctNumeric types with 'CastToBool'.");
return !this->m_value;
}
// Intentionally don't define `operator bool() const` here. C++ is a bit
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// overzealous, and whenever there would be a type error, C++ instead tries
// to convert to a common int-ish type first. `bool` is int-ish, so
// `operator bool() const` would defy the entire point of this class.
// Only implemented when `Flags` is true:
constexpr Self operator~() const
{
static_assert(options.flags, "'~a' is only available for DistinctNumeric types with 'Flags'.");
return ~this->m_value;
}
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constexpr Self operator&(Self const& other) const
{
static_assert(options.flags, "'a&b' is only available for DistinctNumeric types with 'Flags'.");
return this->m_value & other.m_value;
}
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constexpr Self operator|(Self const& other) const
{
static_assert(options.flags, "'a|b' is only available for DistinctNumeric types with 'Flags'.");
return this->m_value | other.m_value;
}
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constexpr Self operator^(Self const& other) const
{
static_assert(options.flags, "'a^b' is only available for DistinctNumeric types with 'Flags'.");
return this->m_value ^ other.m_value;
}
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constexpr Self& operator&=(Self const& other)
{
static_assert(options.flags, "'a&=b' is only available for DistinctNumeric types with 'Flags'.");
this->m_value &= other.m_value;
return *this;
}
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constexpr Self& operator|=(Self const& other)
{
static_assert(options.flags, "'a|=b' is only available for DistinctNumeric types with 'Flags'.");
this->m_value |= other.m_value;
return *this;
}
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constexpr Self& operator^=(Self const& other)
{
static_assert(options.flags, "'a^=b' is only available for DistinctNumeric types with 'Flags'.");
this->m_value ^= other.m_value;
return *this;
}
// Only implemented when `Shift` is true:
// TODO: Should this take `int` instead?
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constexpr Self operator<<(Self const& other) const
{
static_assert(options.shift, "'a<<b' is only available for DistinctNumeric types with 'Shift'.");
return this->m_value << other.m_value;
}
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constexpr Self operator>>(Self const& other) const
{
static_assert(options.shift, "'a>>b' is only available for DistinctNumeric types with 'Shift'.");
return this->m_value >> other.m_value;
}
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constexpr Self& operator<<=(Self const& other)
{
static_assert(options.shift, "'a<<=b' is only available for DistinctNumeric types with 'Shift'.");
this->m_value <<= other.m_value;
return *this;
}
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constexpr Self& operator>>=(Self const& other)
{
static_assert(options.shift, "'a>>=b' is only available for DistinctNumeric types with 'Shift'.");
this->m_value >>= other.m_value;
return *this;
}
// Only implemented when `Arithmetic` is true:
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constexpr Self operator+(Self const& other) const
{
static_assert(options.arithmetic, "'a+b' is only available for DistinctNumeric types with 'Arithmetic'.");
return this->m_value + other.m_value;
}
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constexpr Self operator-(Self const& other) const
{
static_assert(options.arithmetic, "'a-b' is only available for DistinctNumeric types with 'Arithmetic'.");
return this->m_value - other.m_value;
}
constexpr Self operator+() const
{
static_assert(options.arithmetic, "'+a' is only available for DistinctNumeric types with 'Arithmetic'.");
return +this->m_value;
}
constexpr Self operator-() const
{
static_assert(options.arithmetic, "'-a' is only available for DistinctNumeric types with 'Arithmetic'.");
return -this->m_value;
}
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constexpr Self operator*(Self const& other) const
{
static_assert(options.arithmetic, "'a*b' is only available for DistinctNumeric types with 'Arithmetic'.");
return this->m_value * other.m_value;
}
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constexpr Self operator/(Self const& other) const
{
static_assert(options.arithmetic, "'a/b' is only available for DistinctNumeric types with 'Arithmetic'.");
return this->m_value / other.m_value;
}
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constexpr Self operator%(Self const& other) const
{
static_assert(options.arithmetic, "'a%b' is only available for DistinctNumeric types with 'Arithmetic'.");
return this->m_value % other.m_value;
}
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constexpr Self& operator+=(Self const& other)
{
static_assert(options.arithmetic, "'a+=b' is only available for DistinctNumeric types with 'Arithmetic'.");
this->m_value += other.m_value;
return *this;
}
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constexpr Self& operator-=(Self const& other)
{
static_assert(options.arithmetic, "'a-=b' is only available for DistinctNumeric types with 'Arithmetic'.");
this->m_value -= other.m_value;
return *this;
}
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constexpr Self& operator*=(Self const& other)
{
static_assert(options.arithmetic, "'a*=b' is only available for DistinctNumeric types with 'Arithmetic'.");
this->m_value *= other.m_value;
return *this;
}
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constexpr Self& operator/=(Self const& other)
{
static_assert(options.arithmetic, "'a/=b' is only available for DistinctNumeric types with 'Arithmetic'.");
this->m_value /= other.m_value;
return *this;
}
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constexpr Self& operator%=(Self const& other)
{
static_assert(options.arithmetic, "'a%=b' is only available for DistinctNumeric types with 'Arithmetic'.");
this->m_value %= other.m_value;
return *this;
}
private:
T m_value {};
};
template<typename T, typename X, typename... Opts>
struct Formatter<DistinctNumeric<T, X, Opts...>> : Formatter<T> {
ErrorOr<void> format(FormatBuilder& builder, DistinctNumeric<T, X, Opts...> value)
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{
return Formatter<T>::format(builder, value.value());
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}
};
}
#define AK_TYPEDEF_DISTINCT_NUMERIC_GENERAL(T, NAME, ...) \
struct NAME##_decl { \
using Arithmetic [[maybe_unused]] = AK::DistinctNumericFeature::Arithmetic; \
using CastToBool [[maybe_unused]] = AK::DistinctNumericFeature::CastToBool; \
using CastToUnderlying [[maybe_unused]] = AK::DistinctNumericFeature::CastToUnderlying; \
using Comparison [[maybe_unused]] = AK::DistinctNumericFeature::Comparison; \
using Flags [[maybe_unused]] = AK::DistinctNumericFeature::Flags; \
using Increment [[maybe_unused]] = AK::DistinctNumericFeature::Increment; \
using Shift [[maybe_unused]] = AK::DistinctNumericFeature::Shift; \
using NAME [[maybe_unused]] = DistinctNumeric<T, struct __##NAME##_tag, ##__VA_ARGS__>; \
}; \
using NAME = typename NAME##_decl::NAME;
#define AK_TYPEDEF_DISTINCT_ORDERED_ID(T, NAME) AK_TYPEDEF_DISTINCT_NUMERIC_GENERAL(T, NAME, Comparison, CastToBool)
// TODO: Further type aliases?
template<typename T, typename X, typename... Opts>
struct Traits<AK::DistinctNumeric<T, X, Opts...>> : public GenericTraits<AK::DistinctNumeric<T, X, Opts...>> {
static constexpr bool is_trivial() { return true; }
static constexpr auto hash(DistinctNumeric<T, X, Opts...> const& d) { return Traits<T>::hash(d.value()); }
};
#if USING_AK_GLOBALLY
using AK::DistinctNumeric;
#endif