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ladybird/Userland/Libraries/LibSQL/Value.h
Timothy Flynn 9b483625e6 LibIPC+Everywhere: Change IPC decoders to construct values in-place 
Currently, the generated IPC decoders will default-construct the type to
be decoded, then pass that value by reference to the concrete decoder.
This, of course, requires that the type is default-constructible. This
was an issue for decoding Variants, which had to require the first type
in the Variant list is Empty, to ensure it is default constructible.

Further, this made it possible for values to become uninitialized in
user-defined decoders.

This patch makes the decoder interface such that the concrete decoders
themselves contruct the decoded type upon return from the decoder. To do
so, the default decoders in IPC::Decoder had to be moved to the IPC
namespace scope, as these decoders are now specializations instead of
overloaded methods (C++ requires specializations to be in a namespace
scope).
2022-12-26 09:36:16 +01:00

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/*
* Copyright (c) 2021, Jan de Visser <jan@de-visser.net>
* Copyright (c) 2022, Tim Flynn <trflynn89@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/Checked.h>
#include <AK/DeprecatedString.h>
#include <AK/Format.h>
#include <AK/Optional.h>
#include <AK/StringView.h>
#include <AK/Variant.h>
#include <AK/Vector.h>
#include <LibIPC/Forward.h>
#include <LibSQL/Forward.h>
#include <LibSQL/Result.h>
#include <LibSQL/Type.h>
#include <math.h>
namespace SQL {
template<typename T>
concept Boolean = SameAs<RemoveCVReference<T>, bool>;
template<typename T>
concept Integer = (Integral<T> && !Boolean<T>);
/**
* A `Value` is an atomic piece of SQL data`. A `Value` has a basic type
* (Text/String, Integer, Float, etc). Richer types are implemented in higher
* level layers, but the resulting data is stored in these `Value` objects.
*/
class Value {
template<Integer T>
using IntegerType = Conditional<IsSigned<T>, i64, u64>;
public:
explicit Value(SQLType sql_type = SQLType::Null);
explicit Value(DeprecatedString);
explicit Value(double);
Value(Value const&);
Value(Value&&);
~Value();
explicit Value(Integer auto value)
: m_type(SQLType::Integer)
, m_value(static_cast<IntegerType<decltype(value)>>(value))
{
}
explicit Value(Boolean auto value)
: m_type(SQLType::Boolean)
, m_value(value)
{
}
static ResultOr<Value> create_tuple(NonnullRefPtr<TupleDescriptor>);
static ResultOr<Value> create_tuple(Vector<Value>);
[[nodiscard]] SQLType type() const;
[[nodiscard]] StringView type_name() const;
[[nodiscard]] bool is_type_compatible_with(SQLType) const;
[[nodiscard]] bool is_null() const;
[[nodiscard]] bool is_int() const;
[[nodiscard]] auto const& value() const
{
VERIFY(m_value.has_value());
return *m_value;
}
[[nodiscard]] DeprecatedString to_deprecated_string() const;
[[nodiscard]] Optional<double> to_double() const;
[[nodiscard]] Optional<bool> to_bool() const;
[[nodiscard]] Optional<Vector<Value>> to_vector() const;
template<Integer T>
[[nodiscard]] Optional<T> to_int() const
{
if (is_null())
return {};
return m_value->visit(
[](DeprecatedString const& value) -> Optional<T> {
if constexpr (IsSigned<T>)
return value.to_int<T>();
else
return value.to_uint<T>();
},
[](Integer auto value) -> Optional<T> {
if (!AK::is_within_range<T>(value))
return {};
return static_cast<T>(value);
},
[](double value) -> Optional<T> {
if (!AK::is_within_range<T>(value))
return {};
return static_cast<T>(round(value));
},
[](bool value) -> Optional<T> { return static_cast<T>(value); },
[](TupleValue const&) -> Optional<T> { return {}; });
}
Value& operator=(Value);
Value& operator=(DeprecatedString);
Value& operator=(double);
Value& operator=(Integer auto value)
{
m_type = SQLType::Integer;
m_value = static_cast<IntegerType<decltype(value)>>(value);
return *this;
}
ResultOr<void> assign_tuple(NonnullRefPtr<TupleDescriptor>);
ResultOr<void> assign_tuple(Vector<Value>);
Value& operator=(Boolean auto value)
{
m_type = SQLType::Boolean;
m_value = value;
return *this;
}
[[nodiscard]] size_t length() const;
[[nodiscard]] u32 hash() const;
void serialize(Serializer&) const;
void deserialize(Serializer&);
[[nodiscard]] int compare(Value const&) const;
bool operator==(Value const&) const;
bool operator==(StringView) const;
bool operator==(double) const;
template<Integer T>
bool operator==(T value)
{
return to_int<T>() == value;
}
bool operator!=(Value const&) const;
bool operator<(Value const&) const;
bool operator<=(Value const&) const;
bool operator>(Value const&) const;
bool operator>=(Value const&) const;
ResultOr<Value> add(Value const&) const;
ResultOr<Value> subtract(Value const&) const;
ResultOr<Value> multiply(Value const&) const;
ResultOr<Value> divide(Value const&) const;
ResultOr<Value> modulo(Value const&) const;
ResultOr<Value> negate() const;
ResultOr<Value> shift_left(Value const&) const;
ResultOr<Value> shift_right(Value const&) const;
ResultOr<Value> bitwise_or(Value const&) const;
ResultOr<Value> bitwise_and(Value const&) const;
ResultOr<Value> bitwise_not() const;
[[nodiscard]] TupleElementDescriptor descriptor() const;
private:
friend Serializer;
struct TupleValue {
NonnullRefPtr<TupleDescriptor> descriptor;
Vector<Value> values;
};
using ValueType = Variant<DeprecatedString, i64, u64, double, bool, TupleValue>;
static ResultOr<NonnullRefPtr<TupleDescriptor>> infer_tuple_descriptor(Vector<Value> const& values);
Value(NonnullRefPtr<TupleDescriptor> descriptor, Vector<Value> values);
SQLType m_type { SQLType::Null };
Optional<ValueType> m_value;
};
}
template<>
struct AK::Formatter<SQL::Value> : Formatter<StringView> {
ErrorOr<void> format(FormatBuilder& builder, SQL::Value const& value)
{
return Formatter<StringView>::format(builder, value.to_deprecated_string());
}
};
namespace IPC {
template<>
bool encode(Encoder&, SQL::Value const&);
template<>
ErrorOr<SQL::Value> decode(Decoder&);
}
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