This commit is contained in:
Mars 2024-06-08 15:53:06 -04:00
parent bd402f57f5
commit 3ea546fe08
Signed by: pupbrained
GPG key ID: 874E22DF2F9DFCB5
166 changed files with 18360 additions and 18199 deletions

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@ -1,5 +1,8 @@
---
AlignAfterOpenBracket: BlockIndent
AlignArrayOfStructures: Right
AlignConsecutiveAssignments: true
AlignConsecutiveDeclarations: true
AllowShortBlocksOnASingleLine: Always
AllowShortCompoundRequirementOnASingleLine: true
AllowShortEnumsOnASingleLine: true

File diff suppressed because it is too large Load diff

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@ -21,8 +21,9 @@ namespace rfl {
internal::remove_namespaces<internal::get_type_name<StructType>()>()>;
using FieldType = Field<field_name_, LiteralType>;
const auto add_new_field = [](auto&&... _fields) {
return make_named_tuple(FieldType(LiteralType()),
std::move(_fields)...);
return make_named_tuple(
FieldType(LiteralType()), std::move(_fields)...
);
};
return std::apply(add_new_field, std::move(_view.fields()));
}

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@ -20,7 +20,8 @@ namespace rfl {
static parsing::schema::ValidationType to_schema() {
using ValidationType = parsing::schema::ValidationType;
const auto types = std::vector<ValidationType>(
{C::template to_schema<T>(), Cs::template to_schema<T>()...});
{C::template to_schema<T>(), Cs::template to_schema<T>()...}
);
return ValidationType {ValidationType::AllOf {.types_ = types}};
}

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@ -22,7 +22,8 @@ namespace rfl {
static parsing::schema::ValidationType to_schema() {
using ValidationType = parsing::schema::ValidationType;
const auto types = std::vector<ValidationType>(
{C::template to_schema<T>(), Cs::template to_schema<T>()...});
{C::template to_schema<T>(), Cs::template to_schema<T>()...}
);
return ValidationType {ValidationType::AnyOf {.types_ = types}};
}
@ -39,15 +40,16 @@ namespace rfl {
}
template <class T, class Head, class... Tail>
static rfl::Result<T> validate_impl(const T& _value,
std::vector<Error> _errors) {
static rfl::Result<T>
validate_impl(const T& _value, std::vector<Error> _errors) {
const auto handle_err = [&](Error&& _err) {
_errors.push_back(std::forward<Error>(_err));
if constexpr (sizeof...(Tail) == 0) {
return make_error_message(_errors);
} else {
return validate_impl<T, Tail...>(
_value, std::forward<std::vector<Error>>(_errors));
_value, std::forward<std::vector<Error>>(_errors)
);
}
};
return Head::validate(_value).or_else(handle_err);

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@ -33,25 +33,29 @@ namespace rfl {
template <class U>
Attribute(Attribute<U>&& _attr) : value_(_attr.get()) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Attribute(const U& _value) : value_(_value) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Attribute(U&& _value) noexcept : value_(std::forward<U>(_value)) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Attribute(const Attribute<U>& _attr) : value_(_attr.value()) {}
/// Assigns the underlying object to its default value.
template <class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>,
bool>::type = true>
template <
class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>, bool>::
type = true>
Attribute(const Default& _default) : value_(Type()) {}
~Attribute() = default;
@ -78,18 +82,20 @@ namespace rfl {
}
/// Assigns the underlying object.
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
auto& operator=(const U& _value) {
value_ = _value;
return *this;
}
/// Assigns the underlying object to its default value.
template <class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>,
bool>::type = true>
template <
class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>, bool>::
type = true>
auto& operator=(const Default& _default) {
value_ = Type();
return *this;

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@ -96,9 +96,8 @@ namespace rfl {
}
template <class CharT, class Traits, class T>
inline std::basic_ostream<CharT, Traits>& operator<<(
std::basic_ostream<CharT, Traits>& _os,
const Box<T>& _b) {
inline std::basic_ostream<CharT, Traits>&
operator<<(std::basic_ostream<CharT, Traits>& _os, const Box<T>& _b) {
_os << _b.get();
return _os;
}

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@ -42,26 +42,30 @@ namespace rfl {
template <class U>
Description(Description<_description, U>&& _field) : value_(_field.get()) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Description(const U& _value) : value_(_value) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Description(U&& _value) noexcept : value_(std::forward<U>(_value)) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Description(const Description<_description, U>& _field)
: value_(_field.value()) {}
/// Assigns the underlying object to its default value.
template <class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>,
bool>::type = true>
template <
class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>, bool>::
type = true>
Description(const Default& _default) : value_(Type()) {}
~Description() = default;
@ -91,18 +95,20 @@ namespace rfl {
}
/// Assigns the underlying object.
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
auto& operator=(const U& _value) {
value_ = _value;
return *this;
}
/// Assigns the underlying object to its default value.
template <class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>,
bool>::type = true>
template <
class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>, bool>::
type = true>
auto& operator=(const Default& _default) {
value_ = Type();
return *this;
@ -110,11 +116,13 @@ namespace rfl {
/// Assigns the underlying object.
Description<_description, T>& operator=(
const Description<_description, T>& _field) = default;
const Description<_description, T>& _field
) = default;
/// Assigns the underlying object.
Description<_description, T>& operator=(
Description<_description, T>&& _field) = default;
Description<_description, T>&& _field
) = default;
/// Assigns the underlying object.
template <class U>

View file

@ -39,25 +39,29 @@ namespace rfl {
template <class U>
Field(Field<_name, U>&& _field) : value_(_field.get()) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Field(const U& _value) : value_(_value) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Field(U&& _value) noexcept : value_(std::forward<U>(_value)) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Field(const Field<_name, U>& _field) : value_(_field.value()) {}
/// Assigns the underlying object to its default value.
template <class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>,
bool>::type = true>
template <
class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>, bool>::
type = true>
Field(const Default& _default) : value_(Type()) {}
~Field() = default;
@ -90,18 +94,20 @@ namespace rfl {
}
/// Assigns the underlying object.
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
auto& operator=(const U& _value) {
value_ = _value;
return *this;
}
/// Assigns the underlying object to its default value.
template <class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>,
bool>::type = true>
template <
class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>, bool>::
type = true>
auto& operator=(const Default& _default) {
value_ = Type();
return *this;

View file

@ -29,14 +29,16 @@ namespace rfl {
template <class U>
Flatten(Flatten<U>&& _f) : value_(_f.get()) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Flatten(const U& _value) : value_(_value) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Flatten(U&& _value) : value_(_value) {}
~Flatten() = default;
@ -66,9 +68,10 @@ namespace rfl {
}
/// Assigns the underlying object.
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Flatten<T>& operator=(const U& _value) {
value_ = _value;
return *this;

View file

@ -25,9 +25,8 @@ namespace rfl {
using FieldsType = std::tuple<LiteralHelper<fields_>...>;
public:
using ValueType =
std::conditional_t<sizeof...(fields_) <=
std::numeric_limits<std::uint8_t>::max(),
using ValueType = std::conditional_t<
sizeof...(fields_) <= std::numeric_limits<std::uint8_t>::max(),
std::uint8_t,
std::uint16_t>;
@ -47,7 +46,8 @@ namespace rfl {
/// A single-field literal is special because it
/// can also have a default constructor.
template <ValueType num_fields = num_fields_,
template <
ValueType num_fields = num_fields_,
typename = std::enable_if_t<num_fields <= 1>>
Literal() : value_(0) {}
@ -69,8 +69,9 @@ namespace rfl {
/// Constructs a new Literal.
template <ValueType _value>
static Literal<fields_...> from_value() {
static_assert(_value < num_fields_,
"Value cannot exceed number of fields.");
static_assert(
_value < num_fields_, "Value cannot exceed number of fields."
);
return Literal<fields_...>(_value);
}
@ -155,8 +156,8 @@ namespace rfl {
Literal<fields_...>& operator=(const Literal<fields_...>& _other) = default;
/// Assigns from another literal.
Literal<fields_...>& operator=(Literal<fields_...>&& _other) noexcept =
default;
Literal<fields_...>& operator=(Literal<fields_...>&& _other
) noexcept = default;
/// Assigns the literal from a string
Literal<fields_...>& operator=(const std::string& _str) {
@ -233,7 +234,8 @@ namespace rfl {
/// Returns all of the allowed fields.
template <int _i = 0>
static std::vector<std::string> allowed_strings_vec(
std::vector<std::string> _values = {}) {
std::vector<std::string> _values = {}
) {
using FieldType = typename std::tuple_element<_i, FieldsType>::type;
const auto head = FieldType::field_.str();
_values.push_back(head);
@ -297,9 +299,10 @@ namespace rfl {
using FieldType = typename std::tuple_element<_i, FieldsType>::type;
if (FieldType::field_.str() == _str) { return _i; }
if constexpr (_i + 1 == num_fields_) {
return Error("Literal does not support string '" + _str +
"'. The following strings are supported: " +
allowed_strings() + ".");
return Error(
"Literal does not support string '" + _str +
"'. The following strings are supported: " + allowed_strings() + "."
);
} else {
return find_value<_i + 1>(_str);
}
@ -336,11 +339,15 @@ namespace rfl {
}
}
static_assert(sizeof...(fields_) <= std::numeric_limits<ValueType>::max(),
"Too many fields.");
static_assert(
sizeof...(fields_) <= std::numeric_limits<ValueType>::max(),
"Too many fields."
);
static_assert(sizeof...(fields_) <= 1 || !has_duplicates(),
"Duplicate strings are not allowed in a Literal.");
static_assert(
sizeof...(fields_) <= 1 || !has_duplicates(),
"Duplicate strings are not allowed in a Literal."
);
private:
/// The underlying value.

View file

@ -39,46 +39,56 @@ namespace rfl {
NamedTuple(typename std::remove_cvref<FieldTypes>::type::Type&&... _values)
: values_(
std::forward<typename std::remove_cvref<FieldTypes>::type::Type>(
_values)...) {
static_assert(no_duplicate_field_names(),
"Duplicate field names are not allowed");
_values
)...
) {
static_assert(
no_duplicate_field_names(), "Duplicate field names are not allowed"
);
}
/// Construct from the values.
NamedTuple(
const typename std::remove_cvref<FieldTypes>::type::Type&... _values)
const typename std::remove_cvref<FieldTypes>::type::Type&... _values
)
: values_(std::make_tuple(_values...)) {
static_assert(no_duplicate_field_names(),
"Duplicate field names are not allowed");
static_assert(
no_duplicate_field_names(), "Duplicate field names are not allowed"
);
}
/// Construct from the fields.
NamedTuple(FieldTypes&&... _fields)
: values_(std::make_tuple(std::move(_fields.value_)...)) {
static_assert(no_duplicate_field_names(),
"Duplicate field names are not allowed");
static_assert(
no_duplicate_field_names(), "Duplicate field names are not allowed"
);
}
/// Construct from the fields.
NamedTuple(const FieldTypes&... _fields)
: values_(std::make_tuple(_fields.value_...)) {
static_assert(no_duplicate_field_names(),
"Duplicate field names are not allowed");
static_assert(
no_duplicate_field_names(), "Duplicate field names are not allowed"
);
}
/// Construct from a tuple containing fields.
NamedTuple(std::tuple<FieldTypes...>&& _tup)
: NamedTuple(std::make_from_tuple<NamedTuple<FieldTypes...>>(
std::forward<std::tuple<FieldTypes...>>(_tup))) {
static_assert(no_duplicate_field_names(),
"Duplicate field names are not allowed");
std::forward<std::tuple<FieldTypes...>>(_tup)
)) {
static_assert(
no_duplicate_field_names(), "Duplicate field names are not allowed"
);
}
/// Construct from a tuple containing fields.
NamedTuple(const std::tuple<FieldTypes...>& _tup)
: NamedTuple(std::make_from_tuple<NamedTuple<FieldTypes...>>(_tup)) {
static_assert(no_duplicate_field_names(),
"Duplicate field names are not allowed");
static_assert(
no_duplicate_field_names(), "Duplicate field names are not allowed"
);
}
/// Copy constructor.
@ -91,16 +101,18 @@ namespace rfl {
template <class... OtherFieldTypes>
NamedTuple(const NamedTuple<OtherFieldTypes...>& _other)
: NamedTuple(retrieve_fields(_other.fields())) {
static_assert(no_duplicate_field_names(),
"Duplicate field names are not allowed");
static_assert(
no_duplicate_field_names(), "Duplicate field names are not allowed"
);
}
/// Move constructor.
template <class... OtherFieldTypes>
NamedTuple(NamedTuple<OtherFieldTypes...>&& _other)
: NamedTuple(retrieve_fields(_other.fields())) {
static_assert(no_duplicate_field_names(),
"Duplicate field names are not allowed");
static_assert(
no_duplicate_field_names(), "Duplicate field names are not allowed"
);
}
~NamedTuple() = default;
@ -111,11 +123,13 @@ namespace rfl {
using Head = Field<_name, FType>;
if constexpr (sizeof...(Tail) > 0) {
return NamedTuple<FieldTypes..., std::remove_cvref_t<Head>>(
make_fields<1, Head>(std::forward<Head>(_head)))
make_fields<1, Head>(std::forward<Head>(_head))
)
.add(std::forward<Tail>(_tail)...);
} else {
return NamedTuple<FieldTypes..., std::remove_cvref_t<Head>>(
make_fields<1, Head>(std::forward<Head>(_head)));
make_fields<1, Head>(std::forward<Head>(_head))
);
}
}
@ -125,11 +139,13 @@ namespace rfl {
using Head = Field<_name, FType>;
if constexpr (sizeof...(Tail) > 0) {
return NamedTuple<FieldTypes..., std::remove_cvref_t<Head>>(
make_fields<1, Head>(_head))
make_fields<1, Head>(_head)
)
.add(_tail...);
} else {
return NamedTuple<FieldTypes..., std::remove_cvref_t<Head>>(
make_fields<1, Head>(_head));
make_fields<1, Head>(_head)
);
}
}
@ -160,15 +176,17 @@ namespace rfl {
/// named tuples.
template <class... TupContent, class... Tail>
auto add(NamedTuple<TupContent...>&& _named_tuple, Tail&&... _tail) {
return add(std::forward<std::tuple<TupContent...>>(_named_tuple.fields()),
std::forward<Tail>(_tail)...);
return add(
std::forward<std::tuple<TupContent...>>(_named_tuple.fields()),
std::forward<Tail>(_tail)...
);
}
/// Template specialization for NamedTuple, so we can pass fields from other
/// named tuples.
template <class... TupContent, class... Tail>
auto add(NamedTuple<TupContent...> _named_tuple,
const Tail&... _tail) const {
auto add(NamedTuple<TupContent...> _named_tuple, const Tail&... _tail)
const {
return add(_named_tuple.fields(), _tail...);
}
@ -179,10 +197,8 @@ namespace rfl {
const auto transform_field = [&_f](auto... _fields) {
return std::tuple_cat(_f(std::move(_fields)).fields()...);
};
const auto to_nt =
[]<class... NewFields>(std::tuple<NewFields...>&& _tup) {
return NamedTuple<NewFields...>(_tup);
};
const auto to_nt = []<class... NewFields>(std::tuple<NewFields...>&& _tup
) { return NamedTuple<NewFields...>(_tup); };
auto new_fields = std::apply(transform_field, std::move(fields()));
return to_nt(std::move(new_fields));
}
@ -194,10 +210,8 @@ namespace rfl {
const auto transform_field = [&_f](auto... _fields) {
return std::tuple_cat(_f(std::move(_fields)).fields()...);
};
const auto to_nt =
[]<class... NewFields>(std::tuple<NewFields...>&& _tup) {
return NamedTuple<NewFields...>(_tup);
};
const auto to_nt = []<class... NewFields>(std::tuple<NewFields...>&& _tup
) { return NamedTuple<NewFields...>(_tup); };
auto new_fields = std::apply(transform_field, std::move(fields()));
return to_nt(std::move(new_fields));
}
@ -205,8 +219,8 @@ namespace rfl {
/// Invokes a callable object once for each field in order.
template <typename F>
void apply(F&& _f) {
const auto apply_to_field =
[&_f]<typename... AFields>(AFields&&... fields) {
const auto apply_to_field = [&_f]<typename... AFields>(AFields&&... fields
) {
((_f(std::forward<AFields>(fields))), ...);
};
std::apply(apply_to_field, fields());
@ -270,12 +284,12 @@ namespace rfl {
}
/// Copy assignment operator.
NamedTuple<FieldTypes...>& operator=(
const NamedTuple<FieldTypes...>& _other) = default;
NamedTuple<FieldTypes...>& operator=(const NamedTuple<FieldTypes...>& _other
) = default;
/// Move assignment operator.
NamedTuple<FieldTypes...>& operator=(
NamedTuple<FieldTypes...>&& _other) noexcept = default;
NamedTuple<FieldTypes...>& operator=(NamedTuple<FieldTypes...>&& _other
) noexcept = default;
/// Equality operator
inline auto operator==(const rfl::NamedTuple<FieldTypes...>& _other) const {
@ -289,8 +303,8 @@ namespace rfl {
/// Replaces one or several fields, returning a new version
/// with the non-replaced fields left unchanged.
template <internal::StringLiteral _name, class FType, class... OtherRFields>
auto replace(Field<_name, FType>&& _field,
OtherRFields&&... _other_fields) {
auto
replace(Field<_name, FType>&& _field, OtherRFields&&... _other_fields) {
using RField = Field<_name, FType>;
constexpr auto num_other_fields = sizeof...(OtherRFields);
if constexpr (num_other_fields == 0) {
@ -304,8 +318,10 @@ namespace rfl {
/// Replaces one or several fields, returning a new version
/// with the non-replaced fields left unchanged.
template <internal::StringLiteral _name, class FType, class... OtherRFields>
auto replace(Field<_name, FType> _field,
const OtherRFields&... _other_fields) const {
auto replace(
Field<_name, FType> _field,
const OtherRFields&... _other_fields
) const {
using RField = Field<_name, FType>;
constexpr auto num_other_fields = sizeof...(OtherRFields);
if constexpr (num_other_fields == 0) {
@ -345,14 +361,15 @@ namespace rfl {
auto replace(NamedTuple<TupContent...>&& _named_tuple, Tail&&... _tail) {
return replace(
std::forward<NamedTuple<TupContent...>>(_named_tuple).fields(),
std::forward<Tail>(_tail)...);
std::forward<Tail>(_tail)...
);
}
/// Template specialization for NamedTuple, so we can pass fields from other
/// named tuples.
template <class... TupContent, class... Tail>
auto replace(NamedTuple<TupContent...> _named_tuple,
const Tail&... _tail) const {
auto replace(NamedTuple<TupContent...> _named_tuple, const Tail&... _tail)
const {
return replace(_named_tuple.fields(), _tail...);
}
@ -366,10 +383,8 @@ namespace rfl {
const auto transform_field = [&_f](auto... fields) {
return std::make_tuple(_f(std::move(fields))...);
};
const auto to_nt =
[]<class... NewFields>(std::tuple<NewFields...>&& _tup) {
return NamedTuple<NewFields...>(_tup);
};
const auto to_nt = []<class... NewFields>(std::tuple<NewFields...>&& _tup
) { return NamedTuple<NewFields...>(_tup); };
auto new_fields = std::apply(transform_field, std::move(fields()));
return to_nt(std::move(new_fields));
}
@ -381,10 +396,8 @@ namespace rfl {
const auto transform_field = [&_f](auto... fields) {
return std::make_tuple(_f(std::move(fields))...);
};
const auto to_nt =
[]<class... NewFields>(std::tuple<NewFields...>&& _tup) {
return NamedTuple<NewFields...>(_tup);
};
const auto to_nt = []<class... NewFields>(std::tuple<NewFields...>&& _tup
) { return NamedTuple<NewFields...>(_tup); };
auto new_fields = std::apply(transform_field, std::move(fields()));
return to_nt(std::move(new_fields));
}
@ -434,7 +447,8 @@ namespace rfl {
using T = std::remove_cvref_t<typename FieldType::Type>;
return make_fields<num_additional_fields>(
FieldType(std::forward<T>(std::get<i>(values_))),
std::forward<Args>(_args)...);
std::forward<Args>(_args)...
);
}
}
@ -454,7 +468,8 @@ namespace rfl {
// them to the end, that is why we do it like this.
using FieldType = typename std::tuple_element<i, Fields>::type;
return make_fields<num_additional_fields>(
FieldType(std::get<i>(values_)), std::move(_args)...);
FieldType(std::get<i>(values_)), std::move(_args)...
);
}
}
@ -473,13 +488,15 @@ namespace rfl {
if constexpr (size == _index) {
return make_replaced<_index, V, T>(
std::forward<V>(_values), std::forward<T>(_val),
std::forward<Args>(_args)..., FieldType(std::forward<T>(_val)));
std::forward<Args>(_args)..., FieldType(std::forward<T>(_val))
);
} else {
using U = typename FieldType::Type;
return make_replaced<_index, V, T>(
std::forward<V>(_values), std::forward<T>(_val),
std::forward<Args>(_args)...,
FieldType(std::forward<U>(std::get<size>(_values))));
FieldType(std::forward<U>(std::get<size>(_values)))
);
}
}
}
@ -494,8 +511,9 @@ namespace rfl {
NamedTuple<FieldTypes...> replace_value(T&& _val) {
using FieldType = std::remove_cvref_t<Field>;
constexpr auto index = internal::find_index<FieldType::name_, Fields>();
return make_replaced<index, Values, T>(std::forward<Values>(values_),
std::forward<T>(_val));
return make_replaced<index, Values, T>(
std::forward<Values>(values_), std::forward<T>(_val)
);
}
/// Replaced the field signified by the field type.
@ -504,8 +522,9 @@ namespace rfl {
using FieldType = std::remove_cvref_t<Field>;
constexpr auto index = internal::find_index<FieldType::name_, Fields>();
auto values = values_;
return make_replaced<index, Values, T>(std::move(values),
std::forward<T>(_val));
return make_replaced<index, Values, T>(
std::move(values), std::forward<T>(_val)
);
}
/// Adds the elements of a tuple to a newly created named tuple,
@ -532,7 +551,8 @@ namespace rfl {
template <class... OtherFieldTypes, class... Args>
constexpr static Fields retrieve_fields(
std::tuple<OtherFieldTypes...>&& _other_fields,
Args&&... _args) {
Args&&... _args
) {
constexpr auto size = sizeof...(Args);
constexpr bool retrieved_all_fields = size == std::tuple_size_v<Fields>;
@ -553,7 +573,8 @@ namespace rfl {
return retrieve_fields(
std::forward<std::tuple<OtherFieldTypes...>>(_other_fields),
std::forward<Args>(_args)...,
FieldType(std::forward<T>(std::get<index>(_other_fields).value_)));
FieldType(std::forward<T>(std::get<index>(_other_fields).value_))
);
}
}
@ -603,8 +624,8 @@ namespace rfl {
/// Template specialization for NamedTuple, so we can pass fields from other
/// named tuples.
template <class... TupContent, class... Tail>
auto add(NamedTuple<TupContent...> _named_tuple,
const Tail&... _tail) const {
auto add(NamedTuple<TupContent...> _named_tuple, const Tail&... _tail)
const {
return add(_named_tuple.fields(), _tail...);
}
@ -636,59 +657,73 @@ namespace rfl {
// ----------------------------------------------------------------------------
template <internal::StringLiteral _name1,
template <
internal::StringLiteral _name1,
class Type1,
internal::StringLiteral _name2,
class Type2>
inline auto operator*(const rfl::Field<_name1, Type1>& _f1,
const rfl::Field<_name2, Type2>& _f2) {
inline auto operator*(
const rfl::Field<_name1, Type1>& _f1,
const rfl::Field<_name2, Type2>& _f2
) {
return NamedTuple(_f1, _f2);
}
template <internal::StringLiteral _name, class Type, class... FieldTypes>
inline auto operator*(const NamedTuple<FieldTypes...>& _tup,
const rfl::Field<_name, Type>& _f) {
inline auto operator*(
const NamedTuple<FieldTypes...>& _tup,
const rfl::Field<_name, Type>& _f
) {
return _tup.add(_f);
}
template <internal::StringLiteral _name, class Type, class... FieldTypes>
inline auto operator*(const rfl::Field<_name, Type>& _f,
const NamedTuple<FieldTypes...>& _tup) {
inline auto operator*(
const rfl::Field<_name, Type>& _f,
const NamedTuple<FieldTypes...>& _tup
) {
return NamedTuple(_f).add(_tup);
}
template <class... FieldTypes1, class... FieldTypes2>
inline auto operator*(const NamedTuple<FieldTypes1...>& _tup1,
const NamedTuple<FieldTypes2...>& _tup2) {
inline auto operator*(
const NamedTuple<FieldTypes1...>& _tup1,
const NamedTuple<FieldTypes2...>& _tup2
) {
return _tup1.add(_tup2);
}
template <internal::StringLiteral _name1,
template <
internal::StringLiteral _name1,
class Type1,
internal::StringLiteral _name2,
class Type2>
inline auto operator*(rfl::Field<_name1, Type1>&& _f1,
rfl::Field<_name2, Type2>&& _f2) {
return NamedTuple(std::forward<Field<_name1, Type1>>(_f1),
std::forward<Field<_name2, Type2>>(_f2));
inline auto
operator*(rfl::Field<_name1, Type1>&& _f1, rfl::Field<_name2, Type2>&& _f2) {
return NamedTuple(
std::forward<Field<_name1, Type1>>(_f1),
std::forward<Field<_name2, Type2>>(_f2)
);
}
template <internal::StringLiteral _name, class Type, class... FieldTypes>
inline auto operator*(NamedTuple<FieldTypes...>&& _tup,
rfl::Field<_name, Type>&& _f) {
inline auto
operator*(NamedTuple<FieldTypes...>&& _tup, rfl::Field<_name, Type>&& _f) {
return _tup.add(std::forward<Field<_name, Type>>(_f));
}
template <internal::StringLiteral _name, class Type, class... FieldTypes>
inline auto operator*(rfl::Field<_name, Type>&& _f,
NamedTuple<FieldTypes...>&& _tup) {
inline auto
operator*(rfl::Field<_name, Type>&& _f, NamedTuple<FieldTypes...>&& _tup) {
return NamedTuple(std::forward<Field<_name, Type>>(_f))
.add(std::forward<NamedTuple<FieldTypes...>>(_tup));
}
template <class... FieldTypes1, class... FieldTypes2>
inline auto operator*(NamedTuple<FieldTypes1...>&& _tup1,
NamedTuple<FieldTypes2...>&& _tup2) {
inline auto operator*(
NamedTuple<FieldTypes1...>&& _tup1,
NamedTuple<FieldTypes2...>&& _tup2
) {
return _tup1.add(std::forward<NamedTuple<FieldTypes2...>>(_tup2));
}

View file

@ -22,7 +22,8 @@ namespace rfl {
static parsing::schema::ValidationType to_schema() {
using ValidationType = parsing::schema::ValidationType;
const auto types = std::vector<ValidationType>(
{C::template to_schema<T>(), Cs::template to_schema<T>()...});
{C::template to_schema<T>(), Cs::template to_schema<T>()...}
);
return ValidationType {ValidationType::OneOf {.types_ = types}};
}
@ -40,8 +41,8 @@ namespace rfl {
}
template <class T, class Head, class... Tail>
static rfl::Result<T> validate_impl(const T& _value,
std::vector<Error> _errors) {
static rfl::Result<T>
validate_impl(const T& _value, std::vector<Error> _errors) {
const auto push_back = [&](Error&& _err) -> rfl::Result<T> {
_errors.emplace_back(std::forward<Error>(_err));
return _err;
@ -55,7 +56,8 @@ namespace rfl {
return make_error_message(_errors);
} else {
return validate_impl<T, Tail...>(
_value, std::forward<std::vector<Error>>(_errors));
_value, std::forward<std::vector<Error>>(_errors)
);
}
};

View file

@ -20,8 +20,10 @@ namespace rfl {
if (ctre::match<_regex.arr_>(_str)) {
return _str;
} else {
return rfl::Error("String '" + _str + "' did not match format '" +
_name.str() + "': '" + _regex.str() + "'.");
return rfl::Error(
"String '" + _str + "' did not match format '" + _name.str() +
"': '" + _regex.str() + "'."
);
}
}

View file

@ -22,14 +22,15 @@ namespace rfl {
template <class Head, class... Tail>
struct Processors<Head, Tail...> {
static constexpr bool all_required_ =
std::disjunction_v<internal::is_no_optionals<Head>,
static constexpr bool all_required_ = std::disjunction_v<
internal::is_no_optionals<Head>,
internal::is_no_optionals<Tail>...>;
template <class T, class NamedTupleType>
static auto process(NamedTupleType&& _named_tuple) {
return Processors<Tail...>::template process<T>(
Head::template process<T>(std::move(_named_tuple)));
Head::template process<T>(std::move(_named_tuple))
);
}
};

View file

@ -116,9 +116,8 @@ namespace rfl {
}
template <class CharT, class Traits, class T>
inline std::basic_ostream<CharT, Traits>& operator<<(
std::basic_ostream<CharT, Traits>& _os,
const Ref<T>& _b) {
inline std::basic_ostream<CharT, Traits>&
operator<<(std::basic_ostream<CharT, Traits>& _os, const Ref<T>& _b) {
_os << _b.get();
return _os;
}

View file

@ -39,25 +39,29 @@ namespace rfl {
template <class U>
Rename(Rename<_name, U>&& _field) : value_(_field.get()) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Rename(const U& _value) : value_(_value) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Rename(U&& _value) noexcept : value_(std::forward<U>(_value)) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Rename(const Rename<_name, U>& _field) : value_(_field.value()) {}
/// Assigns the underlying object to its default value.
template <class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>,
bool>::type = true>
template <
class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>, bool>::
type = true>
Rename(const Default& _default) : value_(Type()) {}
~Rename() = default;
@ -87,18 +91,20 @@ namespace rfl {
}
/// Assigns the underlying object.
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
auto& operator=(const U& _value) {
value_ = _value;
return *this;
}
/// Assigns the underlying object to its default value.
template <class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>,
bool>::type = true>
template <
class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>, bool>::
type = true>
auto& operator=(const Default& _default) {
value_ = Type();
return *this;

View file

@ -40,8 +40,10 @@ namespace rfl {
/// The Result class is used for monadic error handling.
template <class T>
class Result {
static_assert(!std::is_same<T, Error>(),
"The result type cannot be Error.");
static_assert(
!std::is_same<T, Error>(),
"The result type cannot be Error."
);
using TOrErr =
std::array<unsigned char, std::max(sizeof(T), sizeof(Error))>;
@ -75,8 +77,9 @@ namespace rfl {
class U,
typename std::enable_if<std::is_convertible_v<U, T>, bool>::type = true>
Result(Result<U>&& _other) : success_(_other && true) {
auto temp = std::forward<Result<U>>(_other).transform(
[](U&& _u) { return T(std::forward<U>(_u)); });
auto temp = std::forward<Result<U>>(_other).transform([](U&& _u) {
return T(std::forward<U>(_u));
});
move_from_other(temp);
}

View file

@ -25,8 +25,9 @@ namespace rfl {
/// Applies the logic to a single field.
template <class FieldType>
static auto handle_one_field(FieldType&& _f) {
using NewFieldType =
Field<internal::transform_snake_case<FieldType::name_,
using NewFieldType = Field<
internal::transform_snake_case<
FieldType::name_,
/*capitalize=*/false>(),
typename FieldType::Type>;
return NewFieldType(_f.value());

View file

@ -25,8 +25,9 @@ namespace rfl {
/// Applies the logic to a single field.
template <class FieldType>
static auto handle_one_field(FieldType&& _f) {
using NewFieldType =
Field<internal::transform_snake_case<FieldType::name_,
using NewFieldType = Field<
internal::transform_snake_case<
FieldType::name_,
/*capitalize=*/true>(),
typename FieldType::Type>;
return NewFieldType(_f.value());

View file

@ -27,20 +27,22 @@ namespace rfl {
TaggedUnion(VariantType&& _variant) noexcept
: variant_(std::move(_variant)) {}
TaggedUnion(const TaggedUnion<_discriminator, Ts...>& _tagged_union) =
default;
TaggedUnion(const TaggedUnion<_discriminator, Ts...>& _tagged_union
) = default;
TaggedUnion(TaggedUnion<_discriminator, Ts...>&& _tagged_union) noexcept =
default;
TaggedUnion(TaggedUnion<_discriminator, Ts...>&& _tagged_union
) noexcept = default;
template <class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>,
bool>::type = true>
template <
class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>, bool>::
type = true>
TaggedUnion(const T& _t) : variant_(_t) {}
template <class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>,
bool>::type = true>
template <
class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>, bool>::
type = true>
TaggedUnion(T&& _t) noexcept : variant_(std::forward<T>(_t)) {}
~TaggedUnion() = default;
@ -58,18 +60,20 @@ namespace rfl {
}
/// Assigns the underlying object.
template <class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>,
bool>::type = true>
template <
class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>, bool>::
type = true>
TaggedUnion<_discriminator, Ts...>& operator=(T&& _variant) {
variant_ = std::forward<T>(_variant);
return *this;
}
/// Assigns the underlying object.
template <class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>,
bool>::type = true>
template <
class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>, bool>::
type = true>
TaggedUnion<_discriminator, Ts...>& operator=(const T& _variant) {
variant_ = _variant;
return *this;
@ -77,11 +81,13 @@ namespace rfl {
/// Assigns the underlying object.
TaggedUnion<_discriminator, Ts...>& operator=(
const TaggedUnion<_discriminator, Ts...>& _other) = default;
const TaggedUnion<_discriminator, Ts...>& _other
) = default;
/// Assigns the underlying object.
TaggedUnion<_discriminator, Ts...>& operator=(
TaggedUnion<_discriminator, Ts...>&& _other) = default;
TaggedUnion<_discriminator, Ts...>&& _other
) = default;
/// Returns the underlying variant.
VariantType& variant() { return variant_; }
@ -89,8 +95,10 @@ namespace rfl {
/// Returns the underlying variant.
const VariantType& variant() const { return variant_; }
static_assert(!PossibleTags::has_duplicates(),
"Duplicate tags are not allowed inside tagged unions.");
static_assert(
!PossibleTags::has_duplicates(),
"Duplicate tags are not allowed inside tagged unions."
);
/// The underlying variant - a TaggedUnion is a thin wrapper
/// around a variant that is mainly used for parsing.
@ -105,15 +113,18 @@ namespace rfl {
/// Retrieves the indicated value from the tuple.
template <int _index>
static inline auto& get(
TaggedUnion<_discriminator, NamedTupleTypes...>& _tu) {
TaggedUnion<_discriminator, NamedTupleTypes...>& _tu
) {
return Getter<std::variant<NamedTupleTypes...>>::template get<_index>(
_tu.variant_);
_tu.variant_
);
}
/// Gets a field by name.
template <StringLiteral _field_name>
static inline auto& get(
TaggedUnion<_discriminator, NamedTupleTypes...>& _tu) {
TaggedUnion<_discriminator, NamedTupleTypes...>& _tu
) {
return Getter<std::variant<NamedTupleTypes...>>::template get<
_field_name>(_tu.variant_);
}
@ -121,15 +132,18 @@ namespace rfl {
/// Gets a field by the field type.
template <class Field>
static inline auto& get(
TaggedUnion<_discriminator, NamedTupleTypes...>& _tu) {
TaggedUnion<_discriminator, NamedTupleTypes...>& _tu
) {
return Getter<std::variant<NamedTupleTypes...>>::template get<Field>(
_tu.variant_);
_tu.variant_
);
}
/// Retrieves the indicated value from the tuple.
template <int _index>
static inline const auto& get_const(
const TaggedUnion<_discriminator, NamedTupleTypes...>& _tu) {
const TaggedUnion<_discriminator, NamedTupleTypes...>& _tu
) {
return Getter<std::variant<NamedTupleTypes...>>::template get_const<
_index>(_tu.variant_);
}
@ -137,7 +151,8 @@ namespace rfl {
/// Gets a field by name.
template <StringLiteral _field_name>
static inline const auto& get_const(
const TaggedUnion<_discriminator, NamedTupleTypes...>& _tu) {
const TaggedUnion<_discriminator, NamedTupleTypes...>& _tu
) {
return Getter<std::variant<NamedTupleTypes...>>::template get_const<
_field_name>(_tu.variant_);
}
@ -145,7 +160,8 @@ namespace rfl {
/// Gets a field by the field type.
template <class Field>
static inline const auto& get_const(
const TaggedUnion<_discriminator, NamedTupleTypes...>& _tu) {
const TaggedUnion<_discriminator, NamedTupleTypes...>& _tu
) {
return Getter<std::variant<NamedTupleTypes...>>::template get_const<
Field>(_tu.variant_);
}

View file

@ -28,9 +28,10 @@ namespace rfl {
Timestamp(const char* _str) : tm_(std::tm {}) {
const auto r = strptime(_str, _format.str().c_str(), &tm_);
if (r == NULL) {
throw std::runtime_error("String '" + std::string(_str) +
"' did not match format '" + Format().str() +
"'.");
throw std::runtime_error(
"String '" + std::string(_str) + "' did not match format '" +
Format().str() + "'."
);
}
}

View file

@ -70,12 +70,12 @@ namespace rfl {
}
/// Assigns the underlying object.
Validator<T, V, Vs...>& operator=(const Validator<T, V, Vs...>& _other) =
default;
Validator<T, V, Vs...>& operator=(const Validator<T, V, Vs...>& _other
) = default;
/// Assigns the underlying object.
Validator<T, V, Vs...>& operator=(
Validator<T, V, Vs...>&& _other) noexcept = default;
Validator<T, V, Vs...>& operator=(Validator<T, V, Vs...>&& _other
) noexcept = default;
/// Assigns the underlying object.
template <
@ -115,8 +115,10 @@ namespace rfl {
};
template <class T, class V, class... Vs>
inline auto operator<=>(const Validator<T, V, Vs...>& _v1,
const Validator<T, V, Vs...>& _v2) {
inline auto operator<=>(
const Validator<T, V, Vs...>& _v1,
const Validator<T, V, Vs...>& _v2
) {
return _v1.value() <=> _v2.value();
}

View file

@ -18,14 +18,16 @@ namespace rfl {
Variant(Variant<AlternativeTypes...>&& _variant) noexcept = default;
template <class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>,
bool>::type = true>
template <
class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>, bool>::
type = true>
Variant(const T& _t) : variant_(_t) {}
template <class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>,
bool>::type = true>
template <
class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>, bool>::
type = true>
Variant(T&& _t) noexcept : variant_(std::forward<T>(_t)) {}
~Variant() = default;
@ -43,18 +45,20 @@ namespace rfl {
}
/// Assigns the underlying object.
template <class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>,
bool>::type = true>
template <
class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>, bool>::
type = true>
Variant<AlternativeTypes...>& operator=(T&& _variant) {
variant_ = std::forward<T>(_variant);
return *this;
}
/// Assigns the underlying object.
template <class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>,
bool>::type = true>
template <
class T,
typename std::enable_if<std::is_convertible_v<T, VariantType>, bool>::
type = true>
Variant<AlternativeTypes...>& operator=(const T& _variant) {
variant_ = _variant;
return *this;
@ -62,11 +66,13 @@ namespace rfl {
/// Assigns the underlying object.
Variant<AlternativeTypes...>& operator=(
const Variant<AlternativeTypes...>& _other) = default;
const Variant<AlternativeTypes...>& _other
) = default;
/// Assigns the underlying object.
Variant<AlternativeTypes...>& operator=(
Variant<AlternativeTypes...>&& _other) = default;
Variant<AlternativeTypes...>&& _other
) = default;
/// Returns the underlying variant.
VariantType& variant() { return variant_; }

View file

@ -15,7 +15,8 @@ namespace rfl {
} else {
return from_named_tuple<T>(
to_named_tuple(std::forward<Head>(_head))
.add(to_named_tuple(std::forward<Tail>(_tail))...));
.add(to_named_tuple(std::forward<Tail>(_tail))...)
);
}
}
@ -25,8 +26,8 @@ namespace rfl {
if constexpr (sizeof...(_tail) == 0) {
return from_named_tuple<T>(to_named_tuple(_head));
} else {
return from_named_tuple<T>(
to_named_tuple(_head).add(to_named_tuple(_tail)...));
return from_named_tuple<T>(to_named_tuple(_head).add(to_named_tuple(_tail
)...));
}
}

View file

@ -19,22 +19,24 @@ namespace rfl::parsing {
using ParentType = Parent<W>;
static Result<bson_oid_t> read(const R& _r,
const InputVarType& _var) noexcept {
static Result<bson_oid_t>
read(const R& _r, const InputVarType& _var) noexcept {
return _r.template to_basic_type<bson_oid_t>(_var);
}
template <class P>
static void write(const W& _w,
const bson_oid_t& _oid,
const P& _parent) noexcept {
static void
write(const W& _w, const bson_oid_t& _oid, const P& _parent) noexcept {
ParentType::add_value(_w, _oid, _parent);
}
static schema::Type to_schema(
std::map<std::string, schema::Type>* _definitions) {
static_assert(rfl::always_false_v<R>,
"bson_oid_t cannot be expressed inside a JSON schema.");
std::map<std::string, schema::Type>* _definitions
) {
static_assert(
rfl::always_false_v<R>,
"bson_oid_t cannot be expressed inside a JSON schema."
);
return schema::Type {schema::Type::String {}};
}
};

View file

@ -51,7 +51,8 @@ namespace rfl {
rfl::Result<InputVarType> get_field(
const std::string& _name,
const InputObjectType& _obj) const noexcept {
const InputObjectType& _obj
) const noexcept {
bson_t b;
bson_iter_t iter;
const auto doc = _obj.val_->val_.value.v_doc;
@ -84,7 +85,8 @@ namespace rfl {
default:
return rfl::Error(
"Could not cast to string. The type must be UTF8 or symbol.");
"Could not cast to string. The type must be UTF8 or symbol."
);
}
} else if constexpr (std::is_same<std::remove_cvref_t<T>, bool>()) {
if (btype != BSON_TYPE_BOOL) {
@ -109,10 +111,11 @@ namespace rfl {
default:
return rfl::Error(
"Could not cast to numeric value. The type must be double, "
"int32, int64 or date_time.");
"int32, int64 or date_time."
);
}
} else if constexpr (std::is_same<std::remove_cvref_t<T>,
bson_oid_t>()) {
} else if constexpr (std::is_same<std::remove_cvref_t<T>, bson_oid_t>(
)) {
if (btype != BSON_TYPE_OID) {
return rfl::Error("Could not cast to OID.");
}
@ -122,8 +125,8 @@ namespace rfl {
}
}
rfl::Result<InputArrayType> to_array(
const InputVarType& _var) const noexcept {
rfl::Result<InputArrayType> to_array(const InputVarType& _var
) const noexcept {
const auto btype = _var.val_->val_.value_type;
if (btype != BSON_TYPE_ARRAY && btype != BSON_TYPE_DOCUMENT) {
return Error("Could not cast to an array.");
@ -134,7 +137,8 @@ namespace rfl {
template <class ArrayReader>
std::optional<Error> read_array(
const ArrayReader& _array_reader,
const InputArrayType& _arr) const noexcept {
const InputArrayType& _arr
) const noexcept {
bson_t b;
bson_iter_t iter;
const auto doc = _arr.val_->val_.value.v_doc;
@ -152,7 +156,8 @@ namespace rfl {
template <class ObjectReader>
std::optional<Error> read_object(
const ObjectReader& _object_reader,
const InputObjectType& _obj) const noexcept {
const InputObjectType& _obj
) const noexcept {
bson_t b;
bson_iter_t iter;
const auto doc = _obj.val_->val_.value.v_doc;
@ -167,8 +172,8 @@ namespace rfl {
return std::nullopt;
}
rfl::Result<InputObjectType> to_object(
const InputVarType& _var) const noexcept {
rfl::Result<InputObjectType> to_object(const InputVarType& _var
) const noexcept {
const auto btype = _var.val_->val_.value_type;
if (btype != BSON_TYPE_DOCUMENT) {
return Error("Could not cast to a document.");
@ -177,8 +182,8 @@ namespace rfl {
}
template <class T>
rfl::Result<T> use_custom_constructor(
const InputVarType& _var) const noexcept {
rfl::Result<T> use_custom_constructor(const InputVarType& _var
) const noexcept {
try {
return T::from_bson_obj(_var);
} catch (std::exception& e) { return rfl::Error(e.what()); }

View file

@ -79,14 +79,17 @@ namespace rfl {
template <class T>
OutputVarType value_as_root(const T& _var) const noexcept {
static_assert(rfl::always_false_v<T>,
"BSON only allows arrays or objects as its root.");
static_assert(
rfl::always_false_v<T>,
"BSON only allows arrays or objects as its root."
);
return OutputVarType {};
}
OutputArrayType add_array_to_array(
const size_t _size,
OutputArrayType* _parent) const noexcept {
OutputArrayType* _parent
) const noexcept {
bson_array_builder_t* val;
bson_array_builder_append_array_builder_begin(_parent->val_, &val);
return OutputArrayType(val, IsArray {_parent->val_});
@ -95,51 +98,62 @@ namespace rfl {
OutputArrayType add_array_to_object(
const std::string_view& _name,
const size_t _size,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
bson_array_builder_t* val;
bson_append_array_builder_begin(_parent->val_, _name.data(),
static_cast<int>(_name.size()), &val);
bson_append_array_builder_begin(
_parent->val_, _name.data(), static_cast<int>(_name.size()), &val
);
return OutputArrayType(val, IsObject {_parent->val_});
}
OutputObjectType add_object_to_array(
const size_t _size,
OutputArrayType* _parent) const noexcept {
OutputArrayType* _parent
) const noexcept {
subdocs_->emplace_back(rfl::Box<BSONType>());
bson_array_builder_append_document_begin(_parent->val_,
&(subdocs_->back()->val_));
return OutputObjectType(&subdocs_->back()->val_,
IsArray {_parent->val_});
bson_array_builder_append_document_begin(
_parent->val_, &(subdocs_->back()->val_)
);
return OutputObjectType(
&subdocs_->back()->val_, IsArray {_parent->val_}
);
}
OutputObjectType add_object_to_object(
const std::string_view& _name,
const size_t _size,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
subdocs_->emplace_back(rfl::Box<BSONType>());
bson_append_document_begin(_parent->val_, _name.data(),
static_cast<int>(_name.size()),
&(subdocs_->back()->val_));
return OutputObjectType(&subdocs_->back()->val_,
IsObject {_parent->val_});
bson_append_document_begin(
_parent->val_, _name.data(), static_cast<int>(_name.size()),
&(subdocs_->back()->val_)
);
return OutputObjectType(
&subdocs_->back()->val_, IsObject {_parent->val_}
);
}
template <class T>
OutputVarType add_value_to_array(const T& _var, OutputArrayType* _parent)
const noexcept {
if constexpr (std::is_same<std::remove_cvref_t<T>, std::string>()) {
bson_array_builder_append_utf8(_parent->val_, _var.c_str(),
static_cast<int>(_var.size()));
bson_array_builder_append_utf8(
_parent->val_, _var.c_str(), static_cast<int>(_var.size())
);
} else if constexpr (std::is_same<std::remove_cvref_t<T>, bool>()) {
bson_array_builder_append_bool(_parent->val_, _var);
} else if constexpr (std::is_floating_point<std::remove_cvref_t<T>>()) {
bson_array_builder_append_double(_parent->val_,
static_cast<double>(_var));
bson_array_builder_append_double(
_parent->val_, static_cast<double>(_var)
);
} else if constexpr (std::is_integral<std::remove_cvref_t<T>>()) {
bson_array_builder_append_int64(_parent->val_,
static_cast<std::int64_t>(_var));
} else if constexpr (std::is_same<std::remove_cvref_t<T>,
bson_oid_t>()) {
bson_array_builder_append_int64(
_parent->val_, static_cast<std::int64_t>(_var)
);
} else if constexpr (std::is_same<std::remove_cvref_t<T>, bson_oid_t>(
)) {
bson_array_builder_append_oid(_parent->val_, &_var);
} else {
static_assert(rfl::always_false_v<T>, "Unsupported type.");
@ -151,26 +165,32 @@ namespace rfl {
OutputVarType add_value_to_object(
const std::string_view& _name,
const T& _var,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
if constexpr (std::is_same<std::remove_cvref_t<T>, std::string>()) {
bson_append_utf8(_parent->val_, _name.data(),
static_cast<int>(_name.size()), _var.c_str(),
static_cast<int>(_var.size()));
bson_append_utf8(
_parent->val_, _name.data(), static_cast<int>(_name.size()),
_var.c_str(), static_cast<int>(_var.size())
);
} else if constexpr (std::is_same<std::remove_cvref_t<T>, bool>()) {
bson_append_bool(_parent->val_, _name.data(),
static_cast<int>(_name.size()), _var);
bson_append_bool(
_parent->val_, _name.data(), static_cast<int>(_name.size()), _var
);
} else if constexpr (std::is_floating_point<std::remove_cvref_t<T>>()) {
bson_append_double(_parent->val_, _name.data(),
static_cast<int>(_name.size()),
static_cast<double>(_var));
bson_append_double(
_parent->val_, _name.data(), static_cast<int>(_name.size()),
static_cast<double>(_var)
);
} else if constexpr (std::is_integral<std::remove_cvref_t<T>>()) {
bson_append_int64(_parent->val_, _name.data(),
static_cast<int>(_name.size()),
static_cast<std::int64_t>(_var));
} else if constexpr (std::is_same<std::remove_cvref_t<T>,
bson_oid_t>()) {
bson_append_oid(_parent->val_, _name.data(),
static_cast<int>(_name.size()), &_var);
bson_append_int64(
_parent->val_, _name.data(), static_cast<int>(_name.size()),
static_cast<std::int64_t>(_var)
);
} else if constexpr (std::is_same<std::remove_cvref_t<T>, bson_oid_t>(
)) {
bson_append_oid(
_parent->val_, _name.data(), static_cast<int>(_name.size()), &_var
);
} else {
static_assert(rfl::always_false_v<T>, "Unsupported type.");
}
@ -184,9 +204,11 @@ namespace rfl {
OutputVarType add_null_to_object(
const std::string_view& _name,
OutputObjectType* _parent) const noexcept {
bson_append_null(_parent->val_, _name.data(),
static_cast<int>(_name.size()));
OutputObjectType* _parent
) const noexcept {
bson_append_null(
_parent->val_, _name.data(), static_cast<int>(_name.size())
);
return OutputVarType {};
}
@ -194,8 +216,9 @@ namespace rfl {
const auto handle = [&](const auto _parent) {
using Type = std::remove_cvref_t<decltype(_parent)>;
if constexpr (std::is_same<Type, IsArray>()) {
bson_array_builder_append_array_builder_end(_parent.ptr_,
_arr->val_);
bson_array_builder_append_array_builder_end(
_parent.ptr_, _arr->val_
);
} else if constexpr (std::is_same<Type, IsObject>()) {
bson_append_array_builder_end(_parent.ptr_, _arr->val_);
} else if constexpr (std::is_same<Type, IsRoot>()) {

View file

@ -27,8 +27,9 @@ namespace rfl {
bson_writer_new(&buf, &buflen, 0, bson_realloc_ctx, NULL);
bson_writer_begin(bson_writer, &doc);
const auto rfl_writer = Writer(doc);
Parser<T, Processors<Ps...>>::write(rfl_writer, _obj,
typename ParentType::Root {});
Parser<T, Processors<Ps...>>::write(
rfl_writer, _obj, typename ParentType::Root {}
);
bson_writer_end(bson_writer);
const auto len = bson_writer_get_length(bson_writer);
bson_writer_destroy(bson_writer);
@ -39,8 +40,9 @@ namespace rfl {
template <class... Ps>
std::vector<char> write(const auto& _obj) noexcept {
auto [buf, len] = to_buffer<Ps...>(_obj);
const auto result = std::vector<char>(reinterpret_cast<char*>(buf),
reinterpret_cast<char*>(buf) + len);
const auto result = std::vector<char>(
reinterpret_cast<char*>(buf), reinterpret_cast<char*>(buf) + len
);
bson_free(buf);
return result;
}

View file

@ -12,14 +12,17 @@ namespace rfl {
/// Because of that, we require all of the fields and then set them to
/// nullptr, if necessary.
template <class ProcessorsType, class... FieldTypes>
requires AreReaderAndWriter<cbor::Reader,
requires AreReaderAndWriter<
cbor::Reader,
cbor::Writer,
NamedTuple<FieldTypes...>>
struct Parser<cbor::Reader,
struct Parser<
cbor::Reader,
cbor::Writer,
NamedTuple<FieldTypes...>,
ProcessorsType>
: public NamedTupleParser<cbor::Reader,
: public NamedTupleParser<
cbor::Reader,
cbor::Writer,
/*_ignore_empty_containers=*/false,
/*_all_required=*/true,
@ -29,7 +32,8 @@ namespace rfl {
template <class ProcessorsType, class... Ts>
requires AreReaderAndWriter<cbor::Reader, cbor::Writer, std::tuple<Ts...>>
struct Parser<cbor::Reader, cbor::Writer, std::tuple<Ts...>, ProcessorsType>
: public TupleParser<cbor::Reader,
: public TupleParser<
cbor::Reader,
cbor::Writer,
/*_ignore_empty_containers=*/false,
/*_all_required=*/true,

View file

@ -47,7 +47,8 @@ namespace rfl {
rfl::Result<InputVarType> get_field(
const std::string& _name,
const InputObjectType& _obj) const noexcept {
const InputObjectType& _obj
) const noexcept {
CborValue val;
auto buffer = std::vector<char>();
auto err = cbor_value_enter_container(_obj.val_, &val);
@ -113,23 +114,24 @@ namespace rfl {
return rfl::Error(
"Could not cast to numeric value. The type must be integral, "
"float "
"or double.");
"or double."
);
} else {
static_assert(rfl::always_false_v<T>, "Unsupported type.");
}
}
rfl::Result<InputArrayType> to_array(
const InputVarType& _var) const noexcept {
rfl::Result<InputArrayType> to_array(const InputVarType& _var
) const noexcept {
if (!cbor_value_is_array(_var.val_)) {
return Error("Could not cast to an array.");
}
return InputArrayType {_var.val_};
}
rfl::Result<InputObjectType> to_object(
const InputVarType& _var) const noexcept {
rfl::Result<InputObjectType> to_object(const InputVarType& _var
) const noexcept {
if (!cbor_value_is_map(_var.val_)) {
return Error("Could not cast to an object.");
}
@ -139,7 +141,8 @@ namespace rfl {
template <class ArrayReader>
std::optional<Error> read_array(
const ArrayReader& _array_reader,
const InputArrayType& _arr) const noexcept {
const InputArrayType& _arr
) const noexcept {
CborValue val;
auto buffer = std::vector<char>();
auto err = cbor_value_enter_container(_arr.val_, &val);
@ -165,7 +168,8 @@ namespace rfl {
template <class ObjectReader>
std::optional<Error> read_object(
const ObjectReader& _object_reader,
const InputObjectType& _obj) const noexcept {
const InputObjectType& _obj
) const noexcept {
size_t length = 0;
auto err = cbor_value_get_map_length(_obj.val_, &length);
if (err != CborNoError) { return Error(cbor_error_string(err)); }
@ -190,23 +194,24 @@ namespace rfl {
}
template <class T>
rfl::Result<T> use_custom_constructor(
const InputVarType& _var) const noexcept {
rfl::Result<T> use_custom_constructor(const InputVarType& _var
) const noexcept {
try {
return T::from_cbor_obj(_var);
} catch (std::exception& e) { return rfl::Error(e.what()); }
}
private:
CborError get_string(const CborValue* _ptr,
std::vector<char>* _buffer) const noexcept {
CborError get_string(const CborValue* _ptr, std::vector<char>* _buffer)
const noexcept {
size_t length = 0;
auto err = cbor_value_get_string_length(_ptr, &length);
if (err != CborNoError && err != CborErrorOutOfMemory) { return err; }
_buffer->resize(length + 1);
(*_buffer)[length] = '\0';
return cbor_value_copy_text_string(_ptr, _buffer->data(), &length,
NULL);
return cbor_value_copy_text_string(
_ptr, _buffer->data(), &length, NULL
);
}
InputVarType to_input_var(CborValue* _ptr) const noexcept {

View file

@ -62,28 +62,32 @@ namespace rfl {
OutputArrayType add_array_to_array(
const size_t _size,
OutputArrayType* _parent) const noexcept {
OutputArrayType* _parent
) const noexcept {
return new_array(_size, _parent->encoder_);
}
OutputArrayType add_array_to_object(
const std::string_view& _name,
const size_t _size,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
cbor_encode_text_string(_parent->encoder_, _name.data(), _name.size());
return new_array(_size, _parent->encoder_);
}
OutputObjectType add_object_to_array(
const size_t _size,
OutputArrayType* _parent) const noexcept {
OutputArrayType* _parent
) const noexcept {
return new_object(_size, _parent->encoder_);
}
OutputObjectType add_object_to_object(
const std::string_view& _name,
const size_t _size,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
cbor_encode_text_string(_parent->encoder_, _name.data(), _name.size());
return new_object(_size, _parent->encoder_);
}
@ -98,7 +102,8 @@ namespace rfl {
OutputVarType add_value_to_object(
const std::string_view& _name,
const T& _var,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
cbor_encode_text_string(_parent->encoder_, _name.data(), _name.size());
return new_value(_var, _parent->encoder_);
}
@ -110,7 +115,8 @@ namespace rfl {
OutputVarType add_null_to_object(
const std::string_view& _name,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
cbor_encode_text_string(_parent->encoder_, _name.data(), _name.size());
cbor_encode_null(_parent->encoder_);
return OutputVarType {};
@ -125,23 +131,23 @@ namespace rfl {
}
private:
OutputArrayType new_array(const size_t _size,
CborEncoder* _parent) const noexcept {
OutputArrayType new_array(const size_t _size, CborEncoder* _parent)
const noexcept {
subencoders_->emplace_back(rfl::Box<CborEncoder>::make());
cbor_encoder_create_array(_parent, subencoders_->back().get(), _size);
return OutputArrayType {subencoders_->back().get(), _parent};
}
OutputObjectType new_object(const size_t _size,
CborEncoder* _parent) const noexcept {
OutputObjectType new_object(const size_t _size, CborEncoder* _parent)
const noexcept {
subencoders_->emplace_back(rfl::Box<CborEncoder>::make());
cbor_encoder_create_map(_parent, subencoders_->back().get(), _size);
return OutputObjectType {subencoders_->back().get(), _parent};
}
template <class T>
OutputVarType new_value(const T& _var,
CborEncoder* _parent) const noexcept {
OutputVarType new_value(const T& _var, CborEncoder* _parent)
const noexcept {
if constexpr (std::is_same<std::remove_cvref_t<T>, std::string>()) {
cbor_encode_text_string(_parent, _var.c_str(), _var.size());
} else if constexpr (std::is_same<std::remove_cvref_t<T>, bool>()) {

View file

@ -25,12 +25,13 @@ namespace rfl {
/// Parses an object from CBOR using reflection.
template <class T, class... Ps>
Result<internal::wrap_in_rfl_array_t<T>> read(const char* _bytes,
const size_t _size) {
Result<internal::wrap_in_rfl_array_t<T>>
read(const char* _bytes, const size_t _size) {
CborParser parser;
CborValue value;
cbor_parser_init(reinterpret_cast<const uint8_t*>(_bytes), _size, 0,
&parser, &value);
cbor_parser_init(
reinterpret_cast<const uint8_t*>(_bytes), _size, 0, &parser, &value
);
auto doc = InputVarType {&value};
auto result = read<T, Ps...>(doc);
return result;

View file

@ -15,16 +15,21 @@ namespace rfl {
namespace cbor {
template <class... Ps>
void write_into_buffer(const auto& _obj,
void write_into_buffer(
const auto& _obj,
CborEncoder* _encoder,
std::vector<char>* _buffer) noexcept {
std::vector<char>* _buffer
) noexcept {
using T = std::remove_cvref_t<decltype(_obj)>;
using ParentType = parsing::Parent<Writer>;
cbor_encoder_init(_encoder, reinterpret_cast<uint8_t*>(_buffer->data()),
_buffer->size(), 0);
cbor_encoder_init(
_encoder, reinterpret_cast<uint8_t*>(_buffer->data()),
_buffer->size(), 0
);
const auto writer = Writer(_encoder);
Parser<T, Processors<Ps...>>::write(writer, _obj,
typename ParentType::Root {});
Parser<T, Processors<Ps...>>::write(
writer, _obj, typename ParentType::Root {}
);
}
/// Returns CBOR bytes.
@ -40,7 +45,8 @@ namespace rfl {
write_into_buffer<Ps...>(_obj, &encoder, &buffer);
}
const auto length = cbor_encoder_get_buffer_size(
&encoder, reinterpret_cast<uint8_t*>(buffer.data()));
&encoder, reinterpret_cast<uint8_t*>(buffer.data())
);
buffer.resize(length);
return buffer;
}

View file

@ -14,9 +14,10 @@ namespace rfl {
static Result<T> validate(T _value) noexcept {
constexpr auto threshold = static_cast<T>(_threshold);
if (_value != threshold) {
return Error("Value expected to be equal to " +
std::to_string(threshold) + ", but got " +
std::to_string(_value) + ".");
return Error(
"Value expected to be equal to " + std::to_string(threshold) +
", but got " + std::to_string(_value) + "."
);
}
return _value;
}
@ -38,9 +39,11 @@ namespace rfl {
static Result<T> validate(T _value) noexcept {
constexpr auto threshold = static_cast<T>(_threshold);
if (_value < threshold) {
return Error("Value expected to be greater than or equal to " +
std::to_string(threshold) + ", but got " +
std::to_string(_value) + ".");
return Error(
"Value expected to be greater than or equal to " +
std::to_string(threshold) + ", but got " + std::to_string(_value) +
"."
);
}
return _value;
}
@ -62,9 +65,10 @@ namespace rfl {
static Result<T> validate(T _value) noexcept {
constexpr auto threshold = static_cast<T>(_threshold);
if (_value <= threshold) {
return Error("Value expected to be greater than " +
std::to_string(threshold) + ", but got " +
std::to_string(_value) + ".");
return Error(
"Value expected to be greater than " + std::to_string(threshold) +
", but got " + std::to_string(_value) + "."
);
}
return _value;
}
@ -76,8 +80,8 @@ namespace rfl {
std::is_floating_point_v<T>
? std::variant<double, int>(static_cast<double>(_threshold))
: std::variant<double, int>(static_cast<int>(_threshold));
return ValidationType {
ValidationType::ExclusiveMinimum {.value_ = value}};
return ValidationType {ValidationType::ExclusiveMinimum {.value_ = value}
};
}
};
@ -87,9 +91,11 @@ namespace rfl {
static Result<T> validate(T _value) noexcept {
constexpr auto threshold = static_cast<T>(_threshold);
if (_value > threshold) {
return Error("Value expected to be less than or equal to " +
std::to_string(threshold) + ", but got " +
std::to_string(_value) + ".");
return Error(
"Value expected to be less than or equal to " +
std::to_string(threshold) + ", but got " + std::to_string(_value) +
"."
);
}
return _value;
}
@ -111,9 +117,10 @@ namespace rfl {
static Result<T> validate(T _value) noexcept {
constexpr auto threshold = static_cast<T>(_threshold);
if (_value >= threshold) {
return Error("Value expected to be less than " +
std::to_string(threshold) + ", but got " +
std::to_string(_value) + ".");
return Error(
"Value expected to be less than " + std::to_string(threshold) +
", but got " + std::to_string(_value) + "."
);
}
return _value;
}
@ -125,8 +132,8 @@ namespace rfl {
std::is_floating_point_v<T>
? std::variant<double, int>(static_cast<double>(_threshold))
: std::variant<double, int>(static_cast<int>(_threshold));
return ValidationType {
ValidationType::ExclusiveMaximum {.value_ = value}};
return ValidationType {ValidationType::ExclusiveMaximum {.value_ = value}
};
}
};
@ -136,9 +143,10 @@ namespace rfl {
static Result<T> validate(T _value) noexcept {
constexpr auto threshold = static_cast<T>(_threshold);
if (_value == threshold) {
return Error("Value expected to not be equal to " +
std::to_string(threshold) + ", but got " +
std::to_string(_value) + ".");
return Error(
"Value expected to not be equal to " + std::to_string(threshold) +
", but got " + std::to_string(_value) + "."
);
}
return _value;
}

View file

@ -8,9 +8,8 @@
namespace rfl {
template <internal::StringLiteral _discriminator, class... TaggedUnionTypes>
using define_tagged_union_t =
typename internal::define_tagged_union<_discriminator,
TaggedUnionTypes...>::type;
using define_tagged_union_t = typename internal::
define_tagged_union<_discriminator, TaggedUnionTypes...>::type;
} // namespace rfl

View file

@ -14,15 +14,15 @@ namespace rfl {
// Converts an enum value to a string.
template <internal::enums::is_scoped_enum EnumType>
std::string enum_to_string(EnumType _enum) {
return rfl::internal::enums::StringConverter<EnumType>::enum_to_string(
_enum);
return rfl::internal::enums::StringConverter<EnumType>::enum_to_string(_enum
);
}
// Converts a string to a value of the given enum type.
template <internal::enums::is_scoped_enum EnumType>
rfl::Result<EnumType> string_to_enum(const std::string& _str) {
return rfl::internal::enums::StringConverter<EnumType>::string_to_enum(
_str);
return rfl::internal::enums::StringConverter<EnumType>::string_to_enum(_str
);
}
// Returns a named tuple mapping names of enumerators of the given enum type

View file

@ -28,31 +28,32 @@ namespace rfl {
template <class T>
struct has_from_flexbuf<
T,
std::enable_if_t<std::is_invocable_r<T,
decltype(T::from_flexbuf),
InputVarType>::value>>
: std::true_type {};
std::enable_if_t<
std::is_invocable_r<T, decltype(T::from_flexbuf), InputVarType>::
value>> : std::true_type {};
template <class T>
struct has_from_flexbuf<
T,
std::enable_if_t<std::is_invocable_r<rfl::Result<T>,
std::enable_if_t<std::is_invocable_r<
rfl::Result<T>,
decltype(T::from_flexbuf),
InputVarType>::value>>
: std::true_type {};
InputVarType>::value>> : std::true_type {};
template <class T>
static constexpr bool has_custom_constructor = has_from_flexbuf<T>::value;
rfl::Result<InputVarType> get_field(
const std::string& _name,
const InputObjectType& _obj) const noexcept {
const InputObjectType& _obj
) const noexcept {
const auto keys = _obj.Keys();
for (size_t i = 0; i < keys.size(); ++i) {
if (_name == keys[i].AsString().c_str()) { return _obj.Values()[i]; }
}
return rfl::Error("Map does not contain any element called '" + _name +
"'.");
return rfl::Error(
"Map does not contain any element called '" + _name + "'."
);
}
bool is_empty(const InputVarType& _var) const noexcept {
@ -89,7 +90,8 @@ namespace rfl {
template <class ArrayReader>
std::optional<Error> read_array(
const ArrayReader& _array_reader,
const InputArrayType& _arr) const noexcept {
const InputArrayType& _arr
) const noexcept {
const auto size = _arr.size();
for (size_t i = 0; i < size; ++i) {
const auto err = _array_reader.read(InputVarType(_arr[i]));
@ -101,36 +103,38 @@ namespace rfl {
template <class ObjectReader>
std::optional<Error> read_object(
const ObjectReader& _object_reader,
const InputObjectType& _obj) const noexcept {
const InputObjectType& _obj
) const noexcept {
const auto keys = _obj.Keys();
const auto values = _obj.Values();
const auto num_values = std::min(keys.size(), values.size());
for (size_t i = 0; i < num_values; ++i) {
_object_reader.read(std::string_view(keys[i].AsString().c_str()),
values[i]);
_object_reader.read(
std::string_view(keys[i].AsString().c_str()), values[i]
);
}
return std::nullopt;
}
rfl::Result<InputArrayType> to_array(
const InputVarType& _var) const noexcept {
rfl::Result<InputArrayType> to_array(const InputVarType& _var
) const noexcept {
if (!_var.IsVector()) {
return rfl::Error("Could not cast to Vector.");
}
return _var.AsVector();
}
rfl::Result<InputObjectType> to_object(
const InputVarType& _var) const noexcept {
rfl::Result<InputObjectType> to_object(const InputVarType& _var
) const noexcept {
if (!_var.IsMap()) { return rfl::Error("Could not cast to Map!"); }
return _var.AsMap();
}
template <class T>
rfl::Result<T> use_custom_constructor(
const InputVarType& _var) const noexcept {
rfl::Result<T> use_custom_constructor(const InputVarType& _var
) const noexcept {
try {
return T::from_flexbuf(_var);
} catch (std::exception& e) { return rfl::Error(e.what()); }

View file

@ -59,27 +59,31 @@ namespace rfl {
OutputArrayType add_array_to_array(
const size_t _size,
OutputArrayType* _parent) const noexcept {
OutputArrayType* _parent
) const noexcept {
return new_array();
}
OutputArrayType add_array_to_object(
const std::string_view& _name,
const size_t _size,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
return new_array(_name);
}
OutputObjectType add_object_to_array(
const size_t _size,
OutputArrayType* _parent) const noexcept {
OutputArrayType* _parent
) const noexcept {
return new_object();
}
OutputObjectType add_object_to_object(
const std::string_view& _name,
const size_t _size,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
return new_object(_name);
}
@ -93,7 +97,8 @@ namespace rfl {
OutputVarType add_value_to_object(
const std::string_view& _name,
const T& _var,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
return insert_value(_name, _var);
}
@ -104,7 +109,8 @@ namespace rfl {
OutputVarType add_null_to_object(
const std::string_view& _name,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
fbb_->Null(_name.data());
return OutputVarType {};
}
@ -119,8 +125,8 @@ namespace rfl {
private:
template <class T>
OutputVarType insert_value(const std::string_view& _name,
const T& _var) const noexcept {
OutputVarType insert_value(const std::string_view& _name, const T& _var)
const noexcept {
if constexpr (std::is_same<std::remove_cvref_t<T>, std::string>()) {
fbb_->String(_name.data(), _var);
} else if constexpr (std::is_same<std::remove_cvref_t<T>, bool>()) {
@ -161,8 +167,8 @@ namespace rfl {
return OutputArrayType {start};
}
OutputObjectType new_object(
const std::string_view& _name) const noexcept {
OutputObjectType new_object(const std::string_view& _name
) const noexcept {
const auto start = fbb_->StartMap(_name.data());
return OutputObjectType {start};
}

View file

@ -21,8 +21,9 @@ namespace rfl {
using ParentType = parsing::Parent<Writer>;
const auto fbb = Ref<flexbuffers::Builder>::make();
auto w = Writer(fbb);
Parser<T, Processors<Ps...>>::write(w, _obj,
typename ParentType::Root {});
Parser<T, Processors<Ps...>>::write(
w, _obj, typename ParentType::Root {}
);
fbb->Finish();
return fbb->GetBuffer();
}

View file

@ -16,10 +16,10 @@ namespace rfl {
template <class T, class NamedTupleType>
auto from_named_tuple(NamedTupleType&& _n) {
using RequiredType = std::remove_cvref_t<rfl::named_tuple_t<T>>;
if constexpr (!std::is_same<std::remove_cvref_t<NamedTupleType>,
RequiredType>()) {
return from_named_tuple<T>(
RequiredType(std::forward<NamedTupleType>(_n)));
if constexpr (!std::is_same<
std::remove_cvref_t<NamedTupleType>, RequiredType>()) {
return from_named_tuple<T>(RequiredType(std::forward<NamedTupleType>(_n))
);
} else if constexpr (internal::has_fields<T>()) {
if constexpr (std::is_lvalue_reference<NamedTupleType> {}) {
return internal::copy_from_named_tuple<T>(_n);
@ -39,8 +39,8 @@ namespace rfl {
template <class T, class NamedTupleType>
auto from_named_tuple(const NamedTupleType& _n) {
using RequiredType = std::remove_cvref_t<rfl::named_tuple_t<T>>;
if constexpr (!std::is_same<std::remove_cvref_t<NamedTupleType>,
RequiredType>()) {
if constexpr (!std::is_same<
std::remove_cvref_t<NamedTupleType>, RequiredType>()) {
return from_named_tuple<T>(RequiredType(_n));
} else if constexpr (internal::has_fields<T>()) {
return internal::copy_from_named_tuple<T>(_n);

View file

@ -34,7 +34,8 @@ namespace rfl {
template <internal::StringLiteral _field_name, class NamedTupleType>
inline const auto& get(const NamedTupleType& _tup) {
return internal::Getter<NamedTupleType>::template get_const<_field_name>(
_tup);
_tup
);
}
/// Gets a field by the field type.

View file

@ -40,12 +40,14 @@ namespace rfl::internal {
constexpr auto index =
find_index<Field::name_, typename NamedTupleType::Fields>();
static_assert(
std::is_same<typename std::tuple_element<
std::is_same<
typename std::tuple_element<
index, typename NamedTupleType::Fields>::type::Type,
typename Field::Type>(),
"If two fields have the same name, "
"their type must be the same as "
"well.");
"well."
);
return Getter<NamedTupleType>::template get<index>(_tup);
}
@ -69,12 +71,14 @@ namespace rfl::internal {
constexpr auto index =
find_index<Field::name_, typename NamedTupleType::Fields>();
static_assert(
std::is_same<typename std::tuple_element<
std::is_same<
typename std::tuple_element<
index, typename NamedTupleType::Fields>::type::Type,
typename Field::Type>(),
"If two fields have the same name, "
"their type must be the same as "
"well.");
"well."
);
return Getter<NamedTupleType>::template get_const<index>(_tup);
}
};
@ -118,7 +122,8 @@ namespace rfl::internal {
/// Retrieves the indicated value from the tuple.
template <int _index>
static inline const auto& get_const(
const std::variant<NamedTupleTypes...>& _tup) {
const std::variant<NamedTupleTypes...>& _tup
) {
const auto apply = [](const auto& _tup) -> const auto& {
using NamedTupleType = std::remove_cvref_t<decltype(_tup)>;
return Getter<NamedTupleType>::template get_const<_index>(_tup);
@ -129,7 +134,8 @@ namespace rfl::internal {
/// Gets a field by name.
template <StringLiteral _field_name>
static inline const auto& get_const(
const std::variant<NamedTupleTypes...>& _tup) {
const std::variant<NamedTupleTypes...>& _tup
) {
const auto apply = [](const auto& _t) -> const auto& {
using NamedTupleType = std::remove_cvref_t<decltype(_t)>;
return Getter<NamedTupleType>::template get_const<_field_name>(_t);
@ -140,7 +146,8 @@ namespace rfl::internal {
/// Gets a field by the field type.
template <class Field>
static inline const auto& get_const(
const std::variant<NamedTupleTypes...>& _tup) {
const std::variant<NamedTupleTypes...>& _tup
) {
const auto apply = [](const auto& _t) -> const auto& {
using NamedTupleType = std::remove_cvref_t<decltype(_t)>;
return Getter<NamedTupleType>::template get_const<Field>(_t);

View file

@ -39,27 +39,31 @@ namespace rfl::internal {
template <class U, bool _skip_s, bool _skip_d>
Skip(Skip<U, _skip_s, _skip_d>&& _other) : value_(_other.get()) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Skip(const U& _value) : value_(_value) {}
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Skip(U&& _value) noexcept : value_(std::forward<U>(_value)) {}
template <class U,
template <
class U,
bool _skip_s,
bool _skip_d,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
Skip(const Skip<U, _skip_s, _skip_d>& _skip) : value_(_skip.value()) {}
/// Assigns the underlying object to its default value.
template <class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>,
bool>::type = true>
template <
class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>, bool>::
type = true>
Skip(const Default& _default) : value_(Type()) {}
~Skip() = default;
@ -89,18 +93,20 @@ namespace rfl::internal {
}
/// Assigns the underlying object.
template <class U,
typename std::enable_if<std::is_convertible_v<U, Type>,
bool>::type = true>
template <
class U,
typename std::enable_if<std::is_convertible_v<U, Type>, bool>::type =
true>
auto& operator=(const U& _value) {
value_ = _value;
return *this;
}
/// Assigns the underlying object to its default value.
template <class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>,
bool>::type = true>
template <
class U = Type,
typename std::enable_if<std::is_default_constructible_v<U>, bool>::
type = true>
auto& operator=(const Default& _default) {
value_ = Type();
return *this;

View file

@ -34,15 +34,19 @@ namespace rfl {
};
template <size_t N1, size_t N2>
constexpr inline bool operator==(const StringLiteral<N1>& _first,
const StringLiteral<N2>& _second) {
constexpr inline bool operator==(
const StringLiteral<N1>& _first,
const StringLiteral<N2>& _second
) {
if constexpr (N1 != N2) { return false; }
return _first.string_view() == _second.string_view();
}
template <size_t N1, size_t N2>
constexpr inline bool operator!=(const StringLiteral<N1>& _first,
const StringLiteral<N2>& _second) {
constexpr inline bool operator!=(
const StringLiteral<N1>& _first,
const StringLiteral<N2>& _second
) {
return !(_first == _second);
}

View file

@ -7,9 +7,8 @@ namespace rfl {
struct VisitTree {
/// Evaluates a visitor pattern using a tree-like structure.
template <int _begin, int _end, class Visitor, class... Args>
static inline auto visit(const auto& _v,
const int _i,
const Args&... _args) {
static inline auto
visit(const auto& _v, const int _i, const Args&... _args) {
static_assert(_end > _begin, "_end needs to be greater than _begin.");
if constexpr (_end - _begin == 1) {
return _v.template visit<_begin>(_args...);

File diff suppressed because it is too large Load diff

File diff suppressed because it is too large Load diff

View file

@ -13,8 +13,10 @@ namespace rfl {
namespace internal {
template <class FieldNames, class... Fields>
auto copy_flattened_tuple_to_named_tuple(const auto& _flattened_tuple,
Fields&&... _fields) {
auto copy_flattened_tuple_to_named_tuple(
const auto& _flattened_tuple,
Fields&&... _fields
) {
constexpr auto size =
std::tuple_size_v<std::remove_cvref_t<decltype(_flattened_tuple)>>;
constexpr auto i = sizeof...(_fields);
@ -24,9 +26,11 @@ namespace rfl {
const auto name_literal = FieldNames::template name_of<i>();
auto new_field = rfl::make_field<
lit_name_v<std::remove_cvref_t<decltype(name_literal)>>>(
std::get<i>(_flattened_tuple));
std::get<i>(_flattened_tuple)
);
return copy_flattened_tuple_to_named_tuple<FieldNames>(
_flattened_tuple, std::move(_fields)..., std::move(new_field));
_flattened_tuple, std::move(_fields)..., std::move(new_field)
);
}
}

View file

@ -11,13 +11,16 @@ namespace rfl {
struct define_literal;
/// General case
template <StringLiteral... _content1,
template <
StringLiteral... _content1,
StringLiteral... _content2,
class... Tail>
struct define_literal<Literal<_content1...>,
struct define_literal<
Literal<_content1...>,
Literal<_content2...>,
Tail...> {
using type = typename define_literal<Literal<_content1..., _content2...>,
using type = typename define_literal<
Literal<_content1..., _content2...>,
Tail...>::type;
};

View file

@ -20,7 +20,8 @@ namespace rfl {
/// Recursive case - first type is NamedTuple, second type is field.
template <class Head, class... TupContent, class... Tail>
struct define_named_tuple<NamedTuple<TupContent...>, Head, Tail...> {
using type = typename define_named_tuple<NamedTuple<TupContent..., Head>,
using type = typename define_named_tuple<
NamedTuple<TupContent..., Head>,
Tail...>::type;
};
@ -28,11 +29,12 @@ namespace rfl {
/// Recursive case - first type is NamedTuple, second type is also
/// NamedTuple.
template <class... TupContent, class... TupContent2, class... Tail>
struct define_named_tuple<NamedTuple<TupContent...>,
struct define_named_tuple<
NamedTuple<TupContent...>,
NamedTuple<TupContent2...>,
Tail...> {
using type =
typename define_named_tuple<NamedTuple<TupContent..., TupContent2...>,
using type = typename define_named_tuple<
NamedTuple<TupContent..., TupContent2...>,
Tail...>::type;
};

View file

@ -12,11 +12,13 @@ namespace rfl {
struct define_tagged_union;
/// Recursive case - both tagged union.
template <StringLiteral _discriminator,
template <
StringLiteral _discriminator,
class... NamedTupleTypes1,
class... NamedTupleTypes2,
class... Tail>
struct define_tagged_union<_discriminator,
struct define_tagged_union<
_discriminator,
TaggedUnion<_discriminator, NamedTupleTypes1...>,
TaggedUnion<_discriminator, NamedTupleTypes2...>,
Tail...> {
@ -27,17 +29,20 @@ namespace rfl {
};
/// Recursive case - tagged union plus named tuple.
template <StringLiteral _discriminator,
template <
StringLiteral _discriminator,
class... NamedTupleTypes,
class... FieldTypes,
class... Tail>
struct define_tagged_union<_discriminator,
struct define_tagged_union<
_discriminator,
TaggedUnion<_discriminator, NamedTupleTypes...>,
NamedTuple<FieldTypes...>,
Tail...> {
using type =
typename define_tagged_union<_discriminator,
TaggedUnion<_discriminator,
using type = typename define_tagged_union<
_discriminator,
TaggedUnion<
_discriminator,
NamedTupleTypes...,
NamedTuple<FieldTypes...>>,
Tail...>::type;
@ -45,7 +50,8 @@ namespace rfl {
/// Recursive case - named tuple.
template <StringLiteral _discriminator, class... FieldTypes, class... Tail>
struct define_tagged_union<_discriminator,
struct define_tagged_union<
_discriminator,
NamedTuple<FieldTypes...>,
Tail...> {
using type = typename define_tagged_union<

View file

@ -12,11 +12,13 @@ namespace rfl {
/// Recursive case - both variants.
template <class... Vars1, class... Vars2, class... Tail>
struct define_variant<std::variant<Vars1...>,
struct define_variant<
std::variant<Vars1...>,
std::variant<Vars2...>,
Tail...> {
using type = typename define_variant<std::variant<Vars1..., Vars2...>,
Tail...>::type;
using type =
typename define_variant<std::variant<Vars1..., Vars2...>, Tail...>::
type;
};
/// Recursive case - variant plus other type.

View file

@ -29,63 +29,86 @@ namespace rfl {
constexpr static std::array<EnumType, N> enums_ =
std::array<EnumType, N> {_enums...};
static_assert(N == 0 || LiteralType::size() == N,
"Size of literal and enum do not match.");
static_assert(
N == 0 || LiteralType::size() == N,
"Size of literal and enum do not match."
);
template <class NewLiteral, auto _new_enum>
using AddOneType =
std::conditional_t<N == 0,
using AddOneType = std::conditional_t<
N == 0,
Names<EnumType, NewLiteral, 1, _new_enum>,
Names<EnumType,
Names<
EnumType,
define_literal_t<LiteralType, NewLiteral>,
N + 1,
_enums...,
_new_enum>>;
};
template <class EnumType,
template <
class EnumType,
size_t N,
StringLiteral... _names,
auto... _enums>
auto names_to_enumerator_named_tuple(
Names<EnumType, Literal<_names...>, N, _enums...>) {
auto names_to_enumerator_named_tuple(Names<
EnumType,
Literal<_names...>,
N,
_enums...>) {
return make_named_tuple(Field<_names, EnumType> {_enums}...);
}
template <class EnumType,
template <
class EnumType,
size_t N,
StringLiteral... _names,
auto... _enums>
auto names_to_underlying_enumerator_named_tuple(
Names<EnumType, Literal<_names...>, N, _enums...>) {
auto names_to_underlying_enumerator_named_tuple(Names<
EnumType,
Literal<_names...>,
N,
_enums...>) {
return make_named_tuple(
Field<_names, std::underlying_type_t<EnumType>> {
static_cast<std::underlying_type_t<EnumType>>(_enums)}...);
static_cast<std::underlying_type_t<EnumType>>(_enums)
}...
);
}
template <class EnumType,
template <
class EnumType,
size_t N,
StringLiteral... _names,
auto... _enums>
constexpr std::array<std::pair<std::string_view, EnumType>, N>
names_to_enumerator_array(
Names<EnumType, Literal<_names...>, N, _enums...>) {
return {std::make_pair(LiteralHelper<_names>::field_.string_view(),
_enums)...};
names_to_enumerator_array(Names<
EnumType,
Literal<_names...>,
N,
_enums...>) {
return {std::make_pair(
LiteralHelper<_names>::field_.string_view(), _enums
)...};
}
template <class EnumType,
template <
class EnumType,
size_t N,
StringLiteral... _names,
auto... _enums>
constexpr std::array<
std::pair<std::string_view, std::underlying_type_t<EnumType>>,
N>
names_to_underlying_enumerator_array(
Names<EnumType, Literal<_names...>, N, _enums...>) {
names_to_underlying_enumerator_array(Names<
EnumType,
Literal<_names...>,
N,
_enums...>) {
return {std::make_pair(
LiteralHelper<_names>::field_.string_view(),
static_cast<std::underlying_type_t<EnumType>>(_enums))...};
static_cast<std::underlying_type_t<EnumType>>(_enums)
)...};
}
} // namespace enums

View file

@ -43,7 +43,8 @@ namespace rfl {
static_assert(
names_.size != 0,
"No enum could be identified. Please choose enum values "
"between 0 to 127 or for flag enums choose 1,2,4,8,16,...");
"between 0 to 127 or for flag enums choose 1,2,4,8,16,..."
);
if constexpr (is_flag_enum_) {
return string_to_flag_enum(_str);
} else {
@ -63,7 +64,8 @@ namespace rfl {
const auto bit = val & static_cast<T>(1);
if (bit == 1) {
auto str = enum_to_single_string(
static_cast<EnumType>(static_cast<T>(1) << i));
static_cast<EnumType>(static_cast<T>(1) << i)
);
flags.emplace_back(std::move(str));
}
++i;
@ -80,14 +82,16 @@ namespace rfl {
for (size_t i = 0; i < names_.size; ++i) {
if (names_.enums_[i] == _enum) {
return NamesLiteral::from_value(
static_cast<typename NamesLiteral::ValueType>(i))
static_cast<typename NamesLiteral::ValueType>(i)
)
.transform(to_str)
.value();
}
}
return std::to_string(
static_cast<std::underlying_type_t<EnumType>>(_enum));
static_cast<std::underlying_type_t<EnumType>>(_enum)
);
}
/// Finds the enum matching the literal.
@ -111,8 +115,8 @@ namespace rfl {
/// Only relevant if this is a flag enum - combines the different
/// matches using |.
static Result<EnumType> string_to_flag_enum(
const std::string& _str) noexcept {
static Result<EnumType> string_to_flag_enum(const std::string& _str
) noexcept {
using T = std::underlying_type_t<EnumType>;
const auto split = strings::split(_str, "|");
auto res = static_cast<T>(0);

View file

@ -63,7 +63,8 @@ namespace rfl {
static_assert(
false,
"You are using an unsupported compiler. Please use GCC, Clang "
"or MSVC or use rfl::Literal.");
"or MSVC or use rfl::Literal."
);
#endif
}
@ -105,7 +106,8 @@ namespace rfl {
}
}
template <class EnumType,
template <
class EnumType,
class NamesType,
auto _max,
bool _is_flag,
@ -121,8 +123,8 @@ namespace rfl {
if constexpr (j == _max) {
return NamesType {};
} else {
return get_enum_names_impl<EnumType, NamesType, _max, _is_flag,
_i + 1>();
return get_enum_names_impl<
EnumType, NamesType, _max, _is_flag, _i + 1>();
}
} else {
using NewNames = typename NamesType::template AddOneType<
@ -131,8 +133,8 @@ namespace rfl {
if constexpr (j == _max) {
return NewNames {};
} else {
return get_enum_names_impl<EnumType, NewNames, _max, _is_flag,
_i + 1>();
return get_enum_names_impl<
EnumType, NewNames, _max, _is_flag, _i + 1>();
}
}
}
@ -142,10 +144,13 @@ namespace rfl {
static_assert(
is_scoped_enum<EnumType>,
"You must use scoped enums (using class or struct) for the "
"parsing to work!");
"parsing to work!"
);
static_assert(std::is_integral_v<std::underlying_type_t<EnumType>>,
"The underlying type of any Enum must be integral!");
static_assert(
std::is_integral_v<std::underlying_type_t<EnumType>>,
"The underlying type of any Enum must be integral!"
);
constexpr auto max =
get_max<std::underlying_type_t<EnumType>, _is_flag>();

View file

@ -35,7 +35,8 @@ namespace rfl {
/// For variants - in this case the FieldType returned by all options must
/// be the same.
template <StringLiteral _field_name,
template <
StringLiteral _field_name,
class FirstAlternativeType,
class... OtherAlternativeTypes>
struct FieldType<
@ -51,15 +52,17 @@ namespace rfl {
};
/// For tagged union - just defers to the variant.
template <StringLiteral _field_name,
template <
StringLiteral _field_name,
StringLiteral _discriminator_name,
class... VarTypes>
struct FieldType<_field_name,
struct FieldType<
_field_name,
TaggedUnion<_discriminator_name, VarTypes...>> {
using Type = typename FieldType<
_field_name,
typename TaggedUnion<_discriminator_name,
VarTypes...>::VariantType>::Type;
typename TaggedUnion<_discriminator_name, VarTypes...>::VariantType>::
Type;
};
} // namespace internal

View file

@ -10,9 +10,8 @@ namespace rfl {
namespace internal {
template <class T>
using flattened_ptr_tuple_t =
typename std::invoke_result<decltype(to_flattened_ptr_tuple<T>),
T>::type;
using flattened_ptr_tuple_t = typename std::
invoke_result<decltype(to_flattened_ptr_tuple<T>), T>::type;
} // namespace internal
} // namespace rfl

View file

@ -64,7 +64,8 @@ namespace rfl::internal {
static_assert(
false,
"You are using an unsupported compiler. Please use GCC, Clang "
"or MSVC or switch to the rfl::Field-syntax.");
"or MSVC or switch to the rfl::Field-syntax."
);
#endif
}
@ -99,8 +100,10 @@ namespace rfl::internal {
}
template <StringLiteral... _names1, StringLiteral... _names2>
auto concat_two_literals(const rfl::Literal<_names1...>& _lit1,
const rfl::Literal<_names2...>& _lit2) {
auto concat_two_literals(
const rfl::Literal<_names1...>& _lit1,
const rfl::Literal<_names2...>& _lit2
) {
return rfl::Literal<_names1..., _names2...>::template from_value<0>();
}
@ -135,14 +138,16 @@ namespace rfl::internal {
#if defined(__clang__)
const auto get = []<std::size_t... Is>(std::index_sequence<Is...>) {
return concat_literals(
get_field_name<Type, wrap(std::get<Is>(
bind_fake_object_to_tuple<T>()))>()...);
get_field_name<
Type, wrap(std::get<Is>(bind_fake_object_to_tuple<T>()))>()...
);
};
#else
const auto get = []<std::size_t... Is>(std::index_sequence<Is...>) {
return concat_literals(
get_field_name<Type,
std::get<Is>(bind_fake_object_to_tuple<T>())>()...);
get_field_name<Type, std::get<Is>(bind_fake_object_to_tuple<T>())>(
)...
);
};
#endif
return get(std::make_index_sequence<num_fields<T>>());

View file

@ -23,7 +23,8 @@ namespace rfl {
auto type = type_name_t<typename FieldType::Type>().str();
return get_meta_fields<NamedTupleType>(
std::move(_already_extracted)...,
MetaField(std::move(name), std::move(type)));
MetaField(std::move(name), std::move(type))
);
}
}

View file

@ -35,14 +35,17 @@ namespace rfl {
static_assert(
false,
"You are using an unsupported compiler. Please use GCC, Clang "
"or MSVC or explicitly tag your structs using 'Tag' or 'Name'.");
"or MSVC or explicitly tag your structs using 'Tag' or 'Name'."
);
#endif
}
template <class T>
consteval auto get_type_name() {
static_assert(get_type_name_str_view<int>() == "int",
"Expected 'int', got something else.");
static_assert(
get_type_name_str_view<int>() == "int",
"Expected 'int', got something else."
);
constexpr auto name = get_type_name_str_view<T>();
const auto to_str_lit = [&]<auto... Ns>(std::index_sequence<Ns...>) {
return StringLiteral<sizeof...(Ns) + 1> {name[Ns]...};

View file

@ -57,7 +57,8 @@ namespace rfl {
"If some of your fields are annotated using rfl::Field<...>, "
"then you must annotate all of your fields. "
"Also, you cannot combine annotated and "
"unannotated fields using rfl::Flatten<...>.");
"unannotated fields using rfl::Flatten<...>."
);
return true;
} else {
return false;

View file

@ -20,11 +20,14 @@ namespace rfl {
return move_and_flatten_field_tuple(
std::move(_t), std::move(_args)...,
move_and_flatten_field_tuple(
move_to_field_tuple(std::move(std::get<i>(_t).value_))));
move_to_field_tuple(std::move(std::get<i>(_t).value_))
)
);
} else {
return move_and_flatten_field_tuple(
std::move(_t), std::move(_args)...,
std::make_tuple(std::move(std::get<i>(_t))));
std::make_tuple(std::move(std::get<i>(_t)))
);
}
}
}

View file

@ -29,23 +29,25 @@ namespace rfl {
std::remove_cvref_t<std::remove_pointer_t<typename Field::Type>>;
if constexpr (is_named_tuple_v<T>) {
using SubPtrNamedTupleType =
typename std::invoke_result<decltype(nt_to_ptr_named_tuple<T>),
T>::type;
using SubPtrNamedTupleType = typename std::invoke_result<
decltype(nt_to_ptr_named_tuple<T>), T>::type;
return make_ptr_fields<PtrFieldTupleType>(
_n, _args..., SubPtrNamedTupleType(_n).fields());
_n, _args..., SubPtrNamedTupleType(_n).fields()
);
} else if constexpr (is_flatten_field<Field>::value) {
using SubPtrFieldTupleType =
std::remove_cvref_t<ptr_field_tuple_t<T>>;
return make_ptr_fields<PtrFieldTupleType>(
_n, _args..., make_ptr_fields<SubPtrFieldTupleType>(_n));
_n, _args..., make_ptr_fields<SubPtrFieldTupleType>(_n)
);
} else {
return make_ptr_fields<PtrFieldTupleType>(
_n, _args..., _n.template get_field<Field::name_>());
_n, _args..., _n.template get_field<Field::name_>()
);
}
}
}
@ -63,7 +65,9 @@ namespace rfl {
return move_from_ptr_fields<T>(
_ptrs, std::move(_args)...,
rfl::make_field<FieldType::name_>(
std::move(*std::get<i>(_ptrs).value())));
std::move(*std::get<i>(_ptrs).value())
)
);
} else {
using PtrFieldTupleType = std::remove_cvref_t<ptr_field_tuple_t<T>>;
@ -73,7 +77,8 @@ namespace rfl {
return move_from_ptr_fields<T>(
_ptrs, std::move(_args)...,
move_from_ptr_fields<U>(std::get<i>(_ptrs)));
move_from_ptr_fields<U>(std::get<i>(_ptrs))
);
}
}
}
@ -87,7 +92,8 @@ namespace rfl {
if constexpr (is_named_tuple_v<std::remove_cvref_t<T>>) {
return std::move(_n);
} else if constexpr (std::is_same<std::remove_cvref_t<NamedTupleType>,
} else if constexpr (std::is_same<
std::remove_cvref_t<NamedTupleType>,
RequiredType>()) {
auto ptr_named_tuple = nt_to_ptr_named_tuple(_n);
@ -98,8 +104,8 @@ namespace rfl {
return move_from_ptr_fields<T>(pointers);
} else {
return move_from_named_tuple<T, RequiredType>(
RequiredType(std::move(_n)));
return move_from_named_tuple<T, RequiredType>(RequiredType(std::move(_n)
));
}
}

View file

@ -29,7 +29,8 @@ namespace rfl {
}
}
template <class TargetTupleType,
template <
class TargetTupleType,
class PtrTupleType,
int _j = 0,
class... Args>
@ -52,14 +53,16 @@ namespace rfl {
constexpr int flattened_size =
calc_flattened_size<SubTargetTupleType>();
return unflatten_ptr_tuple<TargetTupleType, PtrTupleType,
_j + flattened_size>(
return unflatten_ptr_tuple<
TargetTupleType, PtrTupleType, _j + flattened_size>(
_t, _args...,
unflatten_ptr_tuple<SubTargetTupleType, PtrTupleType, _j>(_t));
unflatten_ptr_tuple<SubTargetTupleType, PtrTupleType, _j>(_t)
);
} else {
return unflatten_ptr_tuple<TargetTupleType, PtrTupleType, _j + 1>(
_t, _args..., std::get<_j>(_t));
_t, _args..., std::get<_j>(_t)
);
}
}
}
@ -74,8 +77,9 @@ namespace rfl {
std::tuple_element_t<i, std::remove_cvref_t<Pointers>>;
if constexpr (std::is_pointer_v<FieldType>) {
return move_from_pointers<T>(_ptrs, std::move(_args)...,
std::move(*std::get<i>(_ptrs)));
return move_from_pointers<T>(
_ptrs, std::move(_args)..., std::move(*std::get<i>(_ptrs))
);
} else {
using PtrTupleType = ptr_tuple_t<std::remove_cvref_t<T>>;
@ -85,7 +89,8 @@ namespace rfl {
return move_from_pointers<T>(
_ptrs, std::move(_args)...,
move_from_pointers<U>(std::get<i>(_ptrs)));
move_from_pointers<U>(std::get<i>(_ptrs))
);
}
}
}

View file

@ -24,16 +24,16 @@ namespace rfl {
using FieldType = typename std::tuple_element<i, Fields>::type;
using T = std::remove_cvref_t<typename FieldType::Type>;
return nt_to_ptr_named_tuple(
_nt, _a...,
Field<FieldType::name_, T*>(&std::get<i>(_nt.values())));
_nt, _a..., Field<FieldType::name_, T*>(&std::get<i>(_nt.values()))
);
}
}
/// Generates a named tuple that contains pointers to the original values in
/// the struct from a named tuple.
template <class NamedTupleType, class... AlreadyExtracted>
auto nt_to_ptr_named_tuple(const NamedTupleType& _nt,
AlreadyExtracted... _a) {
auto
nt_to_ptr_named_tuple(const NamedTupleType& _nt, AlreadyExtracted... _a) {
using Fields = typename NamedTupleType::Fields;
constexpr auto i = sizeof...(AlreadyExtracted);
@ -46,7 +46,8 @@ namespace rfl {
using T = std::remove_cvref_t<typename FieldType::Type>;
return nt_to_ptr_named_tuple(
_nt, _a...,
Field<FieldType::name_, const T*>(&std::get<i>(_nt.values())));
Field<FieldType::name_, const T*>(&std::get<i>(_nt.values()))
);
}
}

View file

@ -53,11 +53,7 @@ namespace rfl {
struct any_empty_base {
any_empty_base(std::size_t);
template <class Base>
requires(std::is_empty_v<std::remove_cvref_t<Base>> &&
std::is_base_of_v<std::remove_cvref_t<Base>,
std::remove_cv_t<Derived>> &&
!std::is_same_v<std::remove_cvref_t<Base>,
std::remove_cv_t<Derived>>)
requires(std::is_empty_v<std::remove_cvref_t<Base>> && std::is_base_of_v<std::remove_cvref_t<Base>, std::remove_cv_t<Derived>> && !std::is_same_v<std::remove_cvref_t<Base>, std::remove_cv_t<Derived>>)
constexpr operator Base&() const noexcept;
};
@ -65,10 +61,7 @@ namespace rfl {
struct any_base {
any_base(std::size_t);
template <class Base>
requires(std::is_base_of_v<std::remove_cvref_t<Base>,
std::remove_cv_t<Derived>> &&
!std::is_same_v<std::remove_cvref_t<Base>,
std::remove_cv_t<Derived>>)
requires(std::is_base_of_v<std::remove_cvref_t<Base>, std::remove_cv_t<Derived>> && !std::is_same_v<std::remove_cvref_t<Base>, std::remove_cv_t<Derived>>)
constexpr operator Base&() const noexcept;
};
@ -89,9 +82,10 @@ namespace rfl {
template <std::size_t l, std::size_t nested, std::size_t r>
static consteval bool constructible_with_nested() {
return []<std::size_t... i, std::size_t... j, std::size_t... k>(
std::index_sequence<i...>, std::index_sequence<j...>,
std::index_sequence<k...>) {
return
[]<std::size_t... i, std::size_t... j,
std::
size_t... k>(std::index_sequence<i...>, std::index_sequence<j...>, std::index_sequence<k...>) {
return requires { T {any(i)..., {any(j)...}, any(k)...}; };
}(std::make_index_sequence<l>(), std::make_index_sequence<nested>(),
std::make_index_sequence<r>());
@ -112,8 +106,8 @@ namespace rfl {
if constexpr (size < 1) {
return 1;
} else if constexpr (constructible_with_nested<index, size, rest>() &&
!constructible_with_nested<index, size,
rest + 1>()) {
!constructible_with_nested<index, size, rest + 1>(
)) {
return size;
} else {
return get_nested_array_size<index, size - 1, rest + 1>();
@ -123,17 +117,20 @@ namespace rfl {
template <std::size_t max_args, std::size_t index = 0>
static consteval std::size_t find_the_sole_non_empty_base_index() {
static_assert(index < max_args);
constexpr auto check = []<std::size_t... l, std::size_t... r>(
std::index_sequence<l...>,
std::index_sequence<r...>) {
constexpr auto check =
[]<std::size_t... l,
std::
size_t... r>(std::index_sequence<l...>, std::index_sequence<r...>) {
return requires {
T {any_empty_base<T>(l)..., any_base<T>(0),
any_empty_base<T>(r)...};
};
};
if constexpr (check(std::make_index_sequence<index>(),
std::make_index_sequence<max_args - index - 1>())) {
if constexpr (check(
std::make_index_sequence<index>(),
std::make_index_sequence<max_args - index - 1>()
)) {
return index;
} else {
return find_the_sole_non_empty_base_index<max_args, index + 1>();
@ -154,10 +151,13 @@ namespace rfl {
template <std::size_t n, std::size_t max_arg_num>
static consteval bool has_n_base_param() {
constexpr auto right_len = max_arg_num >= n ? max_arg_num - n : 0;
return []<std::size_t... l, std::size_t... r>(
std::index_sequence<l...>, std::index_sequence<r...>) {
return
[]<std::size_t... l,
std::
size_t... r>(std::index_sequence<l...>, std::index_sequence<r...>) {
return requires { T {any_base<T>(l)..., any(r)...}; };
}(std::make_index_sequence<n>(), std::make_index_sequence<right_len>());
}(std::make_index_sequence<n>(),
std::make_index_sequence<right_len>());
}
template <std::size_t max_arg_num, std::size_t index = 0>

View file

@ -15,8 +15,8 @@ namespace rfl::internal {
struct Processed<StructType, Processors<Ps...>> {
using NamedTupleType = named_tuple_t<StructType>;
using type = typename std::invoke_result<
decltype(Processors<Ps...>::template process<StructType,
NamedTupleType>),
decltype(Processors<
Ps...>::template process<StructType, NamedTupleType>),
NamedTupleType>::type;
};

View file

@ -14,17 +14,20 @@ namespace rfl {
/// Recursively builds a new NamedTuple type from the FieldTypes, leaving
/// out the field signified by _name.
template <class _OldNamedTupleType,
template <
class _OldNamedTupleType,
StringLiteral _name,
class _NewNamedTupleType,
int _i>
struct remove_single_field;
/// Special case - _i == 0
template <class _OldNamedTupleType,
template <
class _OldNamedTupleType,
StringLiteral _name,
class _NewNamedTupleType>
struct remove_single_field<_OldNamedTupleType,
struct remove_single_field<
_OldNamedTupleType,
_name,
_NewNamedTupleType,
0> {
@ -32,7 +35,8 @@ namespace rfl {
};
/// General case.
template <class _OldNamedTupleType,
template <
class _OldNamedTupleType,
StringLiteral _name,
class _NewNamedTupleType,
int _i>
@ -51,7 +55,8 @@ namespace rfl {
_NewNamedTupleType,
define_named_tuple_t<_NewNamedTupleType, FieldType>>;
using type = typename remove_single_field<OldNamedTupleType,
using type = typename remove_single_field<
OldNamedTupleType,
_name,
NewNamedTupleType,
_i - 1>::type;
@ -59,7 +64,8 @@ namespace rfl {
/// Recursively removes all of the fields signified by _head and _tail from
/// the NamedTupleType.
template <class _NamedTupleType,
template <
class _NamedTupleType,
StringLiteral _head,
StringLiteral... _tail>
struct remove_fields;
@ -72,14 +78,16 @@ namespace rfl {
constexpr static int num_fields =
std::tuple_size_v<typename NamedTupleType::Fields>;
using type = typename remove_single_field<NamedTupleType,
using type = typename remove_single_field<
NamedTupleType,
_head,
NamedTuple<>,
num_fields>::type;
};
/// General case.
template <class _NamedTupleType,
template <
class _NamedTupleType,
StringLiteral _head,
StringLiteral... _tail>
struct remove_fields {
@ -88,7 +96,8 @@ namespace rfl {
constexpr static int num_fields =
std::tuple_size_v<typename NamedTupleType::Fields>;
using NewNamedTupleType = typename remove_single_field<NamedTupleType,
using NewNamedTupleType = typename remove_single_field<
NamedTupleType,
_head,
NamedTuple<>,
num_fields>::type;

View file

@ -9,8 +9,10 @@ namespace rfl {
namespace strings {
/// Joins a string using the delimiter
inline std::string join(const std::string& _delimiter,
const std::vector<std::string>& _strings) {
inline std::string join(
const std::string& _delimiter,
const std::vector<std::string>& _strings
) {
if (_strings.size() == 0) { return ""; }
auto res = _strings[0];
for (size_t i = 1; i < _strings.size(); ++i) {

View file

@ -8,9 +8,11 @@ namespace rfl {
namespace internal {
namespace strings {
inline std::string replace_all(const std::string& _str,
inline std::string replace_all(
const std::string& _str,
const std::string& _from,
const std::string& _to) {
const std::string& _to
) {
auto str = _str;
size_t pos = 0;

View file

@ -9,8 +9,8 @@ namespace rfl {
namespace strings {
/// Splits a string alongside the delimiter
inline std::vector<std::string> split(const std::string& _str,
const std::string& _delimiter) {
inline std::vector<std::string>
split(const std::string& _str, const std::string& _delimiter) {
auto str = _str;
size_t pos = 0;
std::vector<std::string> result;

View file

@ -9,9 +9,8 @@
namespace rfl::internal {
template <internal::StringLiteral _discriminator, class T>
using tag_t =
typename std::invoke_result<decltype(make_tag<_discriminator, T>),
T>::type;
using tag_t = typename std::
invoke_result<decltype(make_tag<_discriminator, T>), T>::type;
} // namespace rfl::internal

View file

@ -23,11 +23,13 @@ namespace rfl {
if constexpr (is_flatten_field_v<T>) {
return flatten_ptr_tuple(
std::forward<PtrTuple>(_t), std::forward<Args>(_args)...,
flatten_ptr_tuple(to_ptr_tuple(std::get<i>(_t)->get())));
flatten_ptr_tuple(to_ptr_tuple(std::get<i>(_t)->get()))
);
} else {
return flatten_ptr_tuple(std::forward<PtrTuple>(_t),
std::forward<Args>(_args)...,
std::make_tuple(std::get<i>(_t)));
return flatten_ptr_tuple(
std::forward<PtrTuple>(_t), std::forward<Args>(_args)...,
std::make_tuple(std::get<i>(_t))
);
}
}
}

View file

@ -29,11 +29,14 @@ namespace rfl {
using T = std::tuple_element_t<i, std::remove_cvref_t<PtrFieldTuple>>;
if constexpr (internal::is_flatten_field<T>::value) {
auto subtuple = internal::to_ptr_field_tuple(*std::get<i>(_t).get());
return flatten_ptr_field_tuple(_t, std::forward<Args>(_args)...,
flatten_ptr_field_tuple(subtuple));
return flatten_ptr_field_tuple(
_t, std::forward<Args>(_args)...,
flatten_ptr_field_tuple(subtuple)
);
} else {
return flatten_ptr_field_tuple(_t, std::forward<Args>(_args)...,
std::make_tuple(std::get<i>(_t)));
return flatten_ptr_field_tuple(
_t, std::forward<Args>(_args)..., std::make_tuple(std::get<i>(_t))
);
}
}
}
@ -71,7 +74,8 @@ namespace rfl {
using FieldNames = rfl::field_names_t<T>;
auto flattened_ptr_tuple = to_flattened_ptr_tuple(_t);
return copy_flattened_tuple_to_named_tuple<FieldNames>(
flattened_ptr_tuple);
flattened_ptr_tuple
);
}
}

View file

@ -30,7 +30,8 @@ namespace rfl::internal {
constexpr size_t n = StdArrayType<Type>::size;
const auto fct = [&]<std::size_t... _i>(std::index_sequence<_i...>) {
return to_std_array_t<Type>({to_std_array(
std::forward<typename StdArrayType<Type>::ValueType>(_t[_i]))...});
std::forward<typename StdArrayType<Type>::ValueType>(_t[_i])
)...});
};
return fct(std::make_index_sequence<n>());
} else {

View file

@ -16,7 +16,8 @@ namespace rfl::internal {
}
/// Transforms the field name from snake case to camel case.
template <internal::StringLiteral _name,
template <
internal::StringLiteral _name,
bool _capitalize,
size_t _i = 0,
char... chars>
@ -28,11 +29,11 @@ namespace rfl::internal {
} else if constexpr (_name.arr_[_i] == '\0') {
return transform_snake_case<_name, false, _name.arr_.size(), chars...>();
} else if constexpr (_capitalize) {
return transform_snake_case<_name, false, _i + 1, chars...,
to_upper<_name.arr_[_i]>()>();
return transform_snake_case<
_name, false, _i + 1, chars..., to_upper<_name.arr_[_i]>()>();
} else {
return transform_snake_case<_name, false, _i + 1, chars...,
_name.arr_[_i]>();
return transform_snake_case<
_name, false, _i + 1, chars..., _name.arr_[_i]>();
}
}
} // namespace rfl::internal

View file

@ -28,14 +28,17 @@ namespace rfl {
constexpr auto n_skip = std::tuple_size_v<
std::remove_cvref_t<flattened_ptr_tuple_t<typename Type::Type>>>;
return wrap_in_fields<FieldNames, j + n_skip>(
std::move(_tuple), std::move(_fields)..., std::move(value));
std::move(_tuple), std::move(_fields)..., std::move(value)
);
} else {
const auto name_literal = FieldNames::template name_of<j>();
auto new_field = rfl::make_field<
lit_name_v<std::remove_cvref_t<decltype(name_literal)>>>(
std::move(value));
std::move(value)
);
return wrap_in_fields<FieldNames, j + 1>(
std::move(_tuple), std::move(_fields)..., std::move(new_field));
std::move(_tuple), std::move(_fields)..., std::move(new_field)
);
}
}
}

View file

@ -13,13 +13,16 @@ namespace rfl {
inline Result<std::string> load_string(const std::string& _fname) {
std::ifstream infile(_fname);
if (infile.is_open()) {
auto r = std::string(std::istreambuf_iterator<char>(infile),
std::istreambuf_iterator<char>());
auto r = std::string(
std::istreambuf_iterator<char>(infile),
std::istreambuf_iterator<char>()
);
infile.close();
return r;
} else {
return Error("Unable to open file '" + _fname +
"' or file could not be found.");
return Error(
"Unable to open file '" + _fname + "' or file could not be found."
);
}
}

View file

@ -12,9 +12,11 @@ namespace rfl {
namespace io {
template <class T, class WriteFunction>
Result<Nothing> save_bytes(const std::string& _fname,
Result<Nothing> save_bytes(
const std::string& _fname,
const T& _obj,
const WriteFunction& _write) {
const WriteFunction& _write
) {
try {
std::ofstream output(_fname, std::ios::out | std::ios::binary);
_write(_obj, output);

View file

@ -11,9 +11,11 @@ namespace rfl {
namespace io {
template <class T, class WriteFunction>
Result<Nothing> save_string(const std::string& _fname,
Result<Nothing> save_string(
const std::string& _fname,
const T& _obj,
const WriteFunction& _write) {
const WriteFunction& _write
) {
try {
std::ofstream outfile;
outfile.open(_fname);

View file

@ -48,7 +48,8 @@ namespace rfl {
rfl::Result<InputVarType> get_field(
const std::string& _name,
const InputObjectType _obj) const noexcept {
const InputObjectType _obj
) const noexcept {
const auto var = InputVarType(yyjson_obj_get(_obj.val_, _name.c_str()));
if (!var.val_) {
return rfl::Error("Object contains no field named '" + _name + "'.");
@ -63,7 +64,8 @@ namespace rfl {
template <class ArrayReader>
std::optional<Error> read_array(
const ArrayReader& _array_reader,
const InputArrayType& _arr) const noexcept {
const InputArrayType& _arr
) const noexcept {
yyjson_val* val;
yyjson_arr_iter iter;
yyjson_arr_iter_init(_arr.val_, &iter);
@ -77,7 +79,8 @@ namespace rfl {
template <class ObjectReader>
std::optional<Error> read_object(
const ObjectReader& _object_reader,
const InputObjectType& _obj) const noexcept {
const InputObjectType& _obj
) const noexcept {
yyjson_obj_iter iter;
yyjson_obj_iter_init(_obj.val_, &iter);
yyjson_val* key;
@ -119,16 +122,16 @@ namespace rfl {
}
}
rfl::Result<InputArrayType> to_array(
const InputVarType _var) const noexcept {
rfl::Result<InputArrayType> to_array(const InputVarType _var
) const noexcept {
if (!yyjson_is_arr(_var.val_)) {
return rfl::Error("Could not cast to array!");
}
return InputArrayType(_var.val_);
}
rfl::Result<InputObjectType> to_object(
const InputVarType _var) const noexcept {
rfl::Result<InputObjectType> to_object(const InputVarType _var
) const noexcept {
if (!yyjson_is_obj(_var.val_)) {
return rfl::Error("Could not cast to object!");
}
@ -136,8 +139,8 @@ namespace rfl {
}
template <class T>
rfl::Result<T> use_custom_constructor(
const InputVarType _var) const noexcept {
rfl::Result<T> use_custom_constructor(const InputVarType _var
) const noexcept {
try {
return T::from_json_obj(_var);
} catch (std::exception& e) { return rfl::Error(e.what()); }

View file

@ -74,7 +74,8 @@ namespace rfl {
OutputArrayType add_array_to_array(
const size_t _size,
OutputArrayType* _parent) const noexcept {
OutputArrayType* _parent
) const noexcept {
const auto arr = yyjson_mut_arr(doc_);
yyjson_mut_arr_add_val(_parent->val_, arr);
return OutputArrayType(arr);
@ -83,16 +84,19 @@ namespace rfl {
OutputArrayType add_array_to_object(
const std::string_view& _name,
const size_t _size,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
const auto arr = yyjson_mut_arr(doc_);
yyjson_mut_obj_add(_parent->val_, yyjson_mut_strcpy(doc_, _name.data()),
arr);
yyjson_mut_obj_add(
_parent->val_, yyjson_mut_strcpy(doc_, _name.data()), arr
);
return OutputArrayType(arr);
}
OutputObjectType add_object_to_array(
const size_t _size,
OutputArrayType* _parent) const noexcept {
OutputArrayType* _parent
) const noexcept {
const auto obj = yyjson_mut_obj(doc_);
yyjson_mut_arr_add_val(_parent->val_, obj);
return OutputObjectType(obj);
@ -101,10 +105,12 @@ namespace rfl {
OutputObjectType add_object_to_object(
const std::string_view& _name,
const size_t _size,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
const auto obj = yyjson_mut_obj(doc_);
yyjson_mut_obj_add(_parent->val_, yyjson_mut_strcpy(doc_, _name.data()),
obj);
yyjson_mut_obj_add(
_parent->val_, yyjson_mut_strcpy(doc_, _name.data()), obj
);
return OutputObjectType(obj);
}
@ -120,10 +126,12 @@ namespace rfl {
OutputVarType add_value_to_object(
const std::string_view& _name,
const T& _var,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
const auto val = from_basic_type(_var);
yyjson_mut_obj_add(_parent->val_, yyjson_mut_strcpy(doc_, _name.data()),
val.val_);
yyjson_mut_obj_add(
_parent->val_, yyjson_mut_strcpy(doc_, _name.data()), val.val_
);
return OutputVarType(val);
}
@ -135,10 +143,12 @@ namespace rfl {
OutputVarType add_null_to_object(
const std::string_view& _name,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
const auto null = yyjson_mut_null(doc_);
yyjson_mut_obj_add(_parent->val_, yyjson_mut_strcpy(doc_, _name.data()),
null);
yyjson_mut_obj_add(
_parent->val_, yyjson_mut_strcpy(doc_, _name.data()), null
);
return OutputVarType(null);
}
@ -154,14 +164,15 @@ namespace rfl {
} else if constexpr (std::is_same<std::remove_cvref_t<T>, bool>()) {
return OutputVarType(yyjson_mut_bool(doc_, _var));
} else if constexpr (std::is_floating_point<std::remove_cvref_t<T>>()) {
return OutputVarType(
yyjson_mut_real(doc_, static_cast<double>(_var)));
return OutputVarType(yyjson_mut_real(doc_, static_cast<double>(_var))
);
} else if constexpr (std::is_unsigned<std::remove_cvref_t<T>>()) {
return OutputVarType(
yyjson_mut_uint(doc_, static_cast<uint64_t>(_var)));
yyjson_mut_uint(doc_, static_cast<uint64_t>(_var))
);
} else if constexpr (std::is_integral<std::remove_cvref_t<T>>()) {
return OutputVarType(
yyjson_mut_int(doc_, static_cast<int64_t>(_var)));
return OutputVarType(yyjson_mut_int(doc_, static_cast<int64_t>(_var))
);
} else {
static_assert(rfl::always_false_v<T>, "Unsupported type.");
}

View file

@ -25,8 +25,8 @@ namespace rfl {
/// Parses an object from JSON using reflection.
template <class T, class... Ps>
Result<internal::wrap_in_rfl_array_t<T>> read(
const std::string& _json_str) {
Result<internal::wrap_in_rfl_array_t<T>> read(const std::string& _json_str
) {
yyjson_doc* doc = yyjson_read(_json_str.c_str(), _json_str.size(), 0);
if (!doc) { return Error("Could not parse document"); }
yyjson_val* root = yyjson_doc_get_root(doc);
@ -39,8 +39,10 @@ namespace rfl {
/// Parses an object from a stringstream.
template <class T, class... Ps>
auto read(std::istream& _stream) {
const auto json_str = std::string(std::istreambuf_iterator<char>(_stream),
std::istreambuf_iterator<char>());
const auto json_str = std::string(
std::istreambuf_iterator<char>(_stream),
std::istreambuf_iterator<char>()
);
return read<T, Ps...>(json_str);
}

View file

@ -14,11 +14,13 @@ namespace rfl {
namespace json {
template <class... Ps>
Result<Nothing> save(const std::string& _fname,
Result<Nothing> save(
const std::string& _fname,
const auto& _obj,
const yyjson_write_flag _flag = 0) {
const auto write_func = [_flag](const auto& _obj,
auto& _stream) -> auto& {
const yyjson_write_flag _flag = 0
) {
const auto write_func =
[_flag](const auto& _obj, auto& _stream) -> auto& {
return write<Ps...>(_obj, _stream, _flag);
};
return rfl::io::save_string(_fname, _obj, write_func);

View file

@ -131,7 +131,8 @@ namespace rfl::json::schema {
rfl::Ref<Type> items;
};
using ReflectionType = std::variant<AllOf,
using ReflectionType = std::variant<
AllOf,
AnyOf,
Boolean,
ExclusiveMaximum,

View file

@ -21,7 +21,8 @@
namespace rfl::json {
inline schema::Type type_to_json_schema_type(
const parsing::schema::Type& _type);
const parsing::schema::Type& _type
);
inline bool is_optional(const parsing::schema::Type& _t) {
const auto handle = [](const auto& _v) -> bool {
@ -31,8 +32,8 @@ namespace rfl::json {
return std::visit(handle, _t.variant_);
}
inline std::string numeric_type_to_string(
const parsing::schema::Type& _type) {
inline std::string numeric_type_to_string(const parsing::schema::Type& _type
) {
const auto handle_variant = [](const auto& _t) -> std::string {
using T = std::remove_cvref_t<decltype(_t)>;
using Type = parsing::schema::Type;
@ -51,7 +52,8 @@ namespace rfl::json {
inline schema::Type handle_validation_type(
const parsing::schema::Type& _type,
const parsing::schema::ValidationType& _validation_type) {
const parsing::schema::ValidationType& _validation_type
) {
const auto handle_variant = [&](const auto& _v) -> schema::Type {
using T = std::remove_cvref_t<decltype(_v)>;
using ValidationType = parsing::schema::ValidationType;
@ -77,55 +79,84 @@ namespace rfl::json {
return schema::Type {.value = schema::Type::OneOf {.oneOf = one_of}};
} else if constexpr (std::is_same<T, ValidationType::Regex>()) {
return schema::Type {.value =
schema::Type::Regex {.pattern = _v.pattern_}};
return schema::Type {
.value = schema::Type::Regex {.pattern = _v.pattern_}
};
} else if constexpr (std::is_same<T, ValidationType::Size>()) {
return type_to_json_schema_type(_type);
} else if constexpr (std::is_same<T,
ValidationType::ExclusiveMaximum>()) {
return schema::Type {.value = schema::Type::ExclusiveMaximum {
} else if constexpr (std::is_same<T, ValidationType::ExclusiveMaximum>(
)) {
return schema::Type {
.value =
schema::Type::ExclusiveMaximum {
.exclusiveMaximum = _v.value_,
.type = numeric_type_to_string(_type)}};
.type = numeric_type_to_string(_type)
}
};
} else if constexpr (std::is_same<T,
ValidationType::ExclusiveMinimum>()) {
return schema::Type {.value = schema::Type::ExclusiveMinimum {
} else if constexpr (std::is_same<T, ValidationType::ExclusiveMinimum>(
)) {
return schema::Type {
.value =
schema::Type::ExclusiveMinimum {
.exclusiveMinimum = _v.value_,
.type = numeric_type_to_string(_type)}};
.type = numeric_type_to_string(_type)
}
};
} else if constexpr (std::is_same<T, ValidationType::Maximum>()) {
return schema::Type {
.value = schema::Type::Maximum {
.maximum = _v.value_, .type = numeric_type_to_string(_type)}};
.value =
schema::Type::Maximum {
.maximum = _v.value_, .type = numeric_type_to_string(_type)
}
};
} else if constexpr (std::is_same<T, ValidationType::Minimum>()) {
return schema::Type {
.value = schema::Type::Minimum {
.minimum = _v.value_, .type = numeric_type_to_string(_type)}};
.value =
schema::Type::Minimum {
.minimum = _v.value_, .type = numeric_type_to_string(_type)
}
};
} else if constexpr (std::is_same<T, ValidationType::EqualTo>()) {
const auto maximum = schema::Type {
.value = schema::Type::Maximum {
.maximum = _v.value_, .type = numeric_type_to_string(_type)}};
.value =
schema::Type::Maximum {
.maximum = _v.value_, .type = numeric_type_to_string(_type)
}
};
const auto minimum = schema::Type {
.value = schema::Type::Minimum {
.minimum = _v.value_, .type = numeric_type_to_string(_type)}};
.value =
schema::Type::Minimum {
.minimum = _v.value_, .type = numeric_type_to_string(_type)
}
};
return schema::Type {
.value = schema::Type::AllOf {.allOf = {maximum, minimum}}};
.value = schema::Type::AllOf {.allOf = {maximum, minimum}}
};
} else if constexpr (std::is_same<T, ValidationType::NotEqualTo>()) {
const auto excl_maximum =
schema::Type {.value = schema::Type::ExclusiveMaximum {
const auto excl_maximum = schema::Type {
.value =
schema::Type::ExclusiveMaximum {
.exclusiveMaximum = _v.value_,
.type = numeric_type_to_string(_type)}};
const auto excl_minimum =
schema::Type {.value = schema::Type::ExclusiveMinimum {
.type = numeric_type_to_string(_type)
}
};
const auto excl_minimum = schema::Type {
.value =
schema::Type::ExclusiveMinimum {
.exclusiveMinimum = _v.value_,
.type = numeric_type_to_string(_type)}};
return schema::Type {.value = schema::Type::AnyOf {
.anyOf = {excl_maximum, excl_minimum}}};
.type = numeric_type_to_string(_type)
}
};
return schema::Type {
.value = schema::Type::AnyOf {.anyOf = {excl_maximum, excl_minimum}}
};
} else {
static_assert(rfl::always_false_v<T>, "Not all cases were covered.");
@ -136,7 +167,8 @@ namespace rfl::json {
}
inline schema::Type type_to_json_schema_type(
const parsing::schema::Type& _type) {
const parsing::schema::Type& _type
) {
const auto handle_variant = [](const auto& _t) -> schema::Type {
using T = std::remove_cvref_t<decltype(_t)>;
using Type = parsing::schema::Type;
@ -173,15 +205,20 @@ namespace rfl::json {
return std::visit(update_prediction, res.value);
} else if constexpr (std::is_same<T, Type::FixedSizeTypedArray>()) {
return schema::Type {.value = schema::Type::FixedSizeTypedArray {
return schema::Type {
.value =
schema::Type::FixedSizeTypedArray {
.items = Ref<schema::Type>::make(
type_to_json_schema_type(*_t.type_)),
.minContains = _t.size_,
.maxContains = _t.size_}};
type_to_json_schema_type(*_t.type_)
), .minContains = _t.size_,
.maxContains = _t.size_
}
};
} else if constexpr (std::is_same<T, Type::Literal>()) {
return schema::Type {
.value = schema::Type::StringEnum {.values = _t.values_}};
.value = schema::Type::StringEnum {.values = _t.values_}
};
} else if constexpr (std::is_same<T, Type::Object>()) {
auto properties = std::map<std::string, schema::Type>();
@ -190,38 +227,57 @@ namespace rfl::json {
properties[k] = type_to_json_schema_type(v);
if (!is_optional(v)) { required.push_back(k); }
}
return schema::Type {.value =
schema::Type::Object {.properties = properties,
.required = required}};
return schema::Type {
.value =
schema::Type::Object {
.properties = properties, .required = required
}
};
} else if constexpr (std::is_same<T, Type::Optional>()) {
return schema::Type {
.value = schema::Type::AnyOf {
.anyOf = {type_to_json_schema_type(*_t.type_),
schema::Type {schema::Type::Null {}}}}};
.value =
schema::Type::AnyOf {
.anyOf =
{type_to_json_schema_type(*_t.type_),
schema::Type {schema::Type::Null {}}}
}
};
} else if constexpr (std::is_same<T, Type::Reference>()) {
return schema::Type {.value = schema::Type::Reference {
.ref = "#/definitions/" + _t.name_}};
return schema::Type {
.value =
schema::Type::Reference {.ref = "#/definitions/" + _t.name_}
};
} else if constexpr (std::is_same<T, Type::StringMap>()) {
return schema::Type {
.value = schema::Type::StringMap {
.value =
schema::Type::StringMap {
.additionalProperties = Ref<schema::Type>::make(
type_to_json_schema_type(*_t.value_type_))}};
type_to_json_schema_type(*_t.value_type_)
)
}
};
} else if constexpr (std::is_same<T, Type::Tuple>()) {
auto items = std::vector<schema::Type>();
for (const auto& t : _t.types_) {
items.emplace_back(type_to_json_schema_type(t));
}
return schema::Type {.value =
schema::Type::Tuple {.prefixItems = items}};
return schema::Type {
.value = schema::Type::Tuple {.prefixItems = items}
};
} else if constexpr (std::is_same<T, Type::TypedArray>()) {
return schema::Type {.value = schema::Type::TypedArray {
return schema::Type {
.value =
schema::Type::TypedArray {
.items = Ref<schema::Type>::make(
type_to_json_schema_type(*_t.type_))}};
type_to_json_schema_type(*_t.type_)
)
}
};
} else if constexpr (std::is_same<T, Type::Validated>()) {
return handle_validation_type(*_t.type_, _t.validation_);
@ -255,8 +311,9 @@ namespace rfl::json {
typename TypeHelper<schema::Type::ReflectionType>::JSONSchemaType;
const auto to_schema = [&](auto&& _root) -> JSONSchemaType {
using U = std::decay_t<decltype(_root)>;
return schema::JSONSchema<U> {.root = std::move(_root),
.definitions = definitions};
return schema::JSONSchema<U> {
.root = std::move(_root), .definitions = definitions
};
};
auto root = type_to_json_schema_type(internal_schema.root_);
const auto json_schema = std::visit(to_schema, std::move(root.value));

View file

@ -22,8 +22,9 @@ namespace rfl {
using T = std::remove_cvref_t<decltype(_obj)>;
using ParentType = parsing::Parent<Writer>;
auto w = Writer(yyjson_mut_doc_new(NULL));
Parser<T, Processors<Ps...>>::write(w, _obj,
typename ParentType::Root {});
Parser<T, Processors<Ps...>>::write(
w, _obj, typename ParentType::Root {}
);
const char* json_c_str = yyjson_mut_write(w.doc_, _flag, NULL);
const auto json_str = std::string(json_c_str);
free((void*)json_c_str);
@ -33,14 +34,17 @@ namespace rfl {
/// Writes a JSON into an ostream.
template <class... Ps>
std::ostream& write(const auto& _obj,
std::ostream& write(
const auto& _obj,
std::ostream& _stream,
const yyjson_write_flag _flag = 0) {
const yyjson_write_flag _flag = 0
) {
using T = std::remove_cvref_t<decltype(_obj)>;
using ParentType = parsing::Parent<Writer>;
auto w = Writer(yyjson_mut_doc_new(NULL));
Parser<T, Processors<Ps...>>::write(w, _obj,
typename ParentType::Root {});
Parser<T, Processors<Ps...>>::write(
w, _obj, typename ParentType::Root {}
);
const char* json_c_str = yyjson_mut_write(w.doc_, _flag, NULL);
_stream << json_c_str;
free((void*)json_c_str);

View file

@ -12,7 +12,8 @@ namespace rfl {
template <class... FieldTypes>
inline auto make_named_tuple(FieldTypes&&... _args) {
return NamedTuple<std::remove_cvref_t<FieldTypes>...>(
std::forward<FieldTypes>(_args)...);
std::forward<FieldTypes>(_args)...
);
}
/// Convenience constructor that doesn't require you

View file

@ -12,14 +12,17 @@ namespace rfl {
/// Because of that, we require all of the fields and then set them to
/// nullptr, if necessary.
template <class ProcessorsType, class... FieldTypes>
requires AreReaderAndWriter<msgpack::Reader,
requires AreReaderAndWriter<
msgpack::Reader,
msgpack::Writer,
NamedTuple<FieldTypes...>>
struct Parser<msgpack::Reader,
struct Parser<
msgpack::Reader,
msgpack::Writer,
NamedTuple<FieldTypes...>,
ProcessorsType>
: public NamedTupleParser<msgpack::Reader,
: public NamedTupleParser<
msgpack::Reader,
msgpack::Writer,
/*_ignore_empty_containers=*/false,
/*_all_required=*/true,
@ -27,14 +30,17 @@ namespace rfl {
FieldTypes...> {};
template <class ProcessorsType, class... Ts>
requires AreReaderAndWriter<msgpack::Reader,
requires AreReaderAndWriter<
msgpack::Reader,
msgpack::Writer,
std::tuple<Ts...>>
struct Parser<msgpack::Reader,
struct Parser<
msgpack::Reader,
msgpack::Writer,
std::tuple<Ts...>,
ProcessorsType>
: public TupleParser<msgpack::Reader,
: public TupleParser<
msgpack::Reader,
msgpack::Writer,
/*_ignore_empty_containers=*/false,
/*_all_required=*/true,

View file

@ -34,12 +34,14 @@ namespace rfl {
rfl::Result<InputVarType> get_field(
const std::string& _name,
const InputObjectType& _obj) const noexcept {
const InputObjectType& _obj
) const noexcept {
for (uint32_t i = 0; i < _obj.size; ++i) {
const auto& key = _obj.ptr[i].key;
if (key.type != MSGPACK_OBJECT_STR) {
return Error("Key in element " + std::to_string(i) +
" was not a string.");
return Error(
"Key in element " + std::to_string(i) + " was not a string."
);
}
const auto current_name =
std::string_view(key.via.str.ptr, key.via.str.size);
@ -79,22 +81,23 @@ namespace rfl {
return rfl::Error(
"Could not cast to numeric value. The type must be integral, "
"float "
"or double.");
"or double."
);
} else {
static_assert(rfl::always_false_v<T>, "Unsupported type.");
}
}
rfl::Result<InputArrayType> to_array(
const InputVarType& _var) const noexcept {
rfl::Result<InputArrayType> to_array(const InputVarType& _var
) const noexcept {
if (_var.type != MSGPACK_OBJECT_ARRAY) {
return Error("Could not cast to an array.");
}
return _var.via.array;
}
rfl::Result<InputObjectType> to_object(
const InputVarType& _var) const noexcept {
rfl::Result<InputObjectType> to_object(const InputVarType& _var
) const noexcept {
if (_var.type != MSGPACK_OBJECT_MAP) {
return Error("Could not cast to a map.");
}
@ -104,7 +107,8 @@ namespace rfl {
template <class ArrayReader>
std::optional<Error> read_array(
const ArrayReader& _array_reader,
const InputArrayType& _arr) const noexcept {
const InputArrayType& _arr
) const noexcept {
for (uint32_t i = 0; i < _arr.size; ++i) {
const auto err = _array_reader.read(_arr.ptr[i]);
if (err) { return err; }
@ -115,13 +119,15 @@ namespace rfl {
template <class ObjectReader>
std::optional<Error> read_object(
const ObjectReader& _object_reader,
const InputObjectType& _obj) const noexcept {
const InputObjectType& _obj
) const noexcept {
for (uint32_t i = 0; i < _obj.size; ++i) {
const auto& key = _obj.ptr[i].key;
const auto& val = _obj.ptr[i].val;
if (key.type != MSGPACK_OBJECT_STR) {
return Error("Key in element " + std::to_string(i) +
" was not a string.");
return Error(
"Key in element " + std::to_string(i) + " was not a string."
);
}
const auto name = std::string_view(key.via.str.ptr, key.via.str.size);
_object_reader.read(name, val);
@ -130,8 +136,8 @@ namespace rfl {
}
template <class T>
rfl::Result<T> use_custom_constructor(
const InputVarType& _var) const noexcept {
rfl::Result<T> use_custom_constructor(const InputVarType& _var
) const noexcept {
try {
return T::from_msgpack_obj(_var);
} catch (std::exception& e) { return rfl::Error(e.what()); }

View file

@ -55,14 +55,16 @@ namespace rfl::msgpack {
OutputArrayType add_array_to_array(
const size_t _size,
OutputArrayType* _parent) const noexcept {
OutputArrayType* _parent
) const noexcept {
return new_array(_size);
}
OutputArrayType add_array_to_object(
const std::string_view& _name,
const size_t _size,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
msgpack_pack_str(pk_, _name.size());
msgpack_pack_str_body(pk_, _name.data(), _name.size());
return new_array(_size);
@ -70,22 +72,24 @@ namespace rfl::msgpack {
OutputObjectType add_object_to_array(
const size_t _size,
OutputArrayType* _parent) const noexcept {
OutputArrayType* _parent
) const noexcept {
return new_object(_size);
}
OutputObjectType add_object_to_object(
const std::string_view& _name,
const size_t _size,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
msgpack_pack_str(pk_, _name.size());
msgpack_pack_str_body(pk_, _name.data(), _name.size());
return new_object(_size);
}
template <class T>
OutputVarType add_value_to_array(const T& _var,
OutputArrayType* _parent) const noexcept {
OutputVarType add_value_to_array(const T& _var, OutputArrayType* _parent)
const noexcept {
return new_value(_var);
}
@ -93,7 +97,8 @@ namespace rfl::msgpack {
OutputVarType add_value_to_object(
const std::string_view& _name,
const T& _var,
OutputObjectType* _parent) const noexcept {
OutputObjectType* _parent
) const noexcept {
msgpack_pack_str(pk_, _name.size());
msgpack_pack_str_body(pk_, _name.data(), _name.size());
return new_value(_var);
@ -104,8 +109,10 @@ namespace rfl::msgpack {
return OutputVarType {};
}
OutputVarType add_null_to_object(const std::string_view& _name,
OutputObjectType* _parent) const noexcept {
OutputVarType add_null_to_object(
const std::string_view& _name,
OutputObjectType* _parent
) const noexcept {
msgpack_pack_str(pk_, _name.size());
msgpack_pack_str_body(pk_, _name.data(), _name.size());
msgpack_pack_nil(pk_);

View file

@ -25,8 +25,8 @@ namespace rfl {
/// Parses an object from MSGPACK using reflection.
template <class T, class... Ps>
Result<internal::wrap_in_rfl_array_t<T>> read(const char* _bytes,
const size_t _size) {
Result<internal::wrap_in_rfl_array_t<T>>
read(const char* _bytes, const size_t _size) {
msgpack_zone mempool;
msgpack_zone_init(&mempool, 2048);
msgpack_object deserialized;

View file

@ -18,7 +18,8 @@ namespace rfl {
template <internal::StringLiteral _name, class T>
struct remove_ptr<Field<_name, T>> {
using FieldType = Field<_name,
using FieldType = Field<
_name,
internal::wrap_in_rfl_array_t<
std::remove_cvref_t<std::remove_pointer_t<T>>>>;
};

View file

@ -27,8 +27,10 @@ namespace rfl::parsing {
std::optional<Error> check_size() const {
if (i_ != size_) {
return Error("Expected " + std::to_string(size_) + " elements, got " +
std::to_string(i_) + ".");
return Error(
"Expected " + std::to_string(size_) + " elements, got " +
std::to_string(i_) + "."
);
}
return std::nullopt;
}
@ -39,8 +41,10 @@ namespace rfl::parsing {
if (res) {
move_to(&((*array_)[i_]), &(*res));
} else {
return Error("Failed to parse element " + std::to_string(i_) + ": " +
res.error()->what());
return Error(
"Failed to parse element " + std::to_string(i_) + ": " +
res.error()->what()
);
}
++i_;
return std::nullopt;

View file

@ -12,14 +12,15 @@
namespace rfl {
namespace parsing {
template <class R,
template <
class R,
class W,
class ProcessorsType,
class OriginalClass,
class HelperStruct>
struct CustomParser {
static Result<OriginalClass> read(const R& _r,
const auto& _var) noexcept {
static Result<OriginalClass>
read(const R& _r, const auto& _var) noexcept {
const auto to_class = [](auto&& _h) -> Result<OriginalClass> {
try {
if constexpr (internal::has_to_class_method_v<HelperStruct>) {
@ -38,17 +39,18 @@ namespace rfl {
}
template <class P>
static auto write(const W& _w,
const OriginalClass& _p,
const P& _parent) noexcept {
static auto
write(const W& _w, const OriginalClass& _p, const P& _parent) noexcept {
Parser<R, W, HelperStruct, ProcessorsType>::write(
_w, HelperStruct::from_class(_p), _parent);
_w, HelperStruct::from_class(_p), _parent
);
}
static schema::Type to_schema(
std::map<std::string, schema::Type>* _definitions) {
return Parser<R, W, std::remove_cvref_t<HelperStruct>,
ProcessorsType>::to_schema(_definitions);
std::map<std::string, schema::Type>* _definitions
) {
return Parser<R, W, std::remove_cvref_t<HelperStruct>, ProcessorsType>::
to_schema(_definitions);
}
};

View file

@ -35,19 +35,22 @@ namespace rfl {
static_assert(
internal::no_duplicate_field_names<std::tuple<FieldTypes...>>(),
"Externally tagged variants cannot have duplicate field "
"names.");
"names."
);
const auto to_result = [&](const auto _obj) -> ResultType {
auto field_variant = std::optional<Result<FieldVariantType>>();
const auto reader =
FieldVariantReader<R, W, ProcessorsType, FieldTypes...>(
&_r, &field_variant);
&_r, &field_variant
);
auto err = _r.read_object(reader, _obj);
if (err) { return *err; }
if (!field_variant) {
return Error(
"Could not parse: Expected the object to have "
"exactly one field, but found more than one.");
"exactly one field, but found more than one."
);
}
return std::move(*field_variant);
};
@ -56,20 +59,24 @@ namespace rfl {
}
template <class P>
static void write(const W& _w,
static void write(
const W& _w,
const std::variant<FieldTypes...>& _v,
const P& _parent) noexcept {
const P& _parent
) noexcept {
static_assert(
internal::no_duplicate_field_names<std::tuple<FieldTypes...>>(),
"Externally tagged variants cannot have duplicate field "
"names.");
"names."
);
const auto handle = [&](const auto& _field) {
const auto named_tuple =
make_named_tuple(internal::to_ptr_field(_field));
using NamedTupleType = std::remove_cvref_t<decltype(named_tuple)>;
Parser<R, W, NamedTupleType, ProcessorsType>::write(_w, named_tuple,
_parent);
Parser<R, W, NamedTupleType, ProcessorsType>::write(
_w, named_tuple, _parent
);
};
std::visit(handle, _v);
@ -77,10 +84,11 @@ namespace rfl {
static schema::Type to_schema(
std::map<std::string, schema::Type>* _definitions,
std::vector<schema::Type> _types = {}) {
std::vector<schema::Type> _types = {}
) {
using VariantType = std::variant<NamedTuple<FieldTypes>...>;
return Parser<R, W, VariantType, ProcessorsType>::to_schema(
_definitions);
return Parser<R, W, VariantType, ProcessorsType>::to_schema(_definitions
);
}
};
} // namespace parsing

View file

@ -21,21 +21,24 @@ namespace rfl::parsing {
using ResultType = Result<FieldVariantType>;
public:
FieldVariantReader(const R* _r,
std::optional<Result<FieldVariantType>>* _field_variant)
FieldVariantReader(
const R* _r,
std::optional<Result<FieldVariantType>>* _field_variant
)
: r_(_r), field_variant_(_field_variant) {}
~FieldVariantReader() = default;
template <size_t _i = 0>
void read(const std::string_view& _disc_value,
const InputVarType& _var) const noexcept {
void read(const std::string_view& _disc_value, const InputVarType& _var)
const noexcept {
if constexpr (_i < sizeof...(FieldTypes)) {
if constexpr (_i == 0) {
if (*field_variant_) {
*field_variant_ = Error(
"Could not parse: Expected the object to have "
"exactly one field, but found more than one.");
"exactly one field, but found more than one."
);
return;
}
}
@ -52,8 +55,10 @@ namespace rfl::parsing {
return std::variant<FieldTypes...>(FieldType(std::move(_val)));
};
const auto embellish_error = [&](const Error& _e) {
return Error("Could not parse std::variant with field '" +
std::string(_disc_value) + "': " + _e.what());
return Error(
"Could not parse std::variant with field '" +
std::string(_disc_value) + "': " + _e.what()
);
};
*field_variant_ =
Parser<R, W, ValueType, ProcessorsType>::read(*r_, _var)
@ -67,7 +72,8 @@ namespace rfl::parsing {
*field_variant_ = Error(
"Could not parse std::variant, could not match field named "
"'" +
std::string(_disc_value) + "'.");
std::string(_disc_value) + "'."
);
}
}

View file

@ -25,8 +25,8 @@ namespace rfl {
template <class R>
struct MockObjectReader {
void read(const std::string_view& _name,
typename R::InputVarType& _var) const {}
void read(const std::string_view& _name, typename R::InputVarType& _var)
const {}
};
template <class R, class T>
@ -38,7 +38,8 @@ namespace rfl {
MockObjectReader<R> object_reader,
typename R::InputArrayType arr,
typename R::InputObjectType obj,
typename R::InputVarType var) {
typename R::InputVarType var
) {
/// Any Reader needs to define the following:
///
/// 1) An InputArrayType, which must be an array-like data structure.

View file

@ -11,14 +11,16 @@ namespace rfl {
namespace parsing {
template <class W, class T>
concept IsWriter = requires(W w,
concept IsWriter = requires(
W w,
T t,
std::string_view name,
std::string basic_value,
typename W::OutputArrayType arr,
typename W::OutputObjectType obj,
typename W::OutputVarType var,
size_t size) {
size_t size
) {
/// Sets an empty array as the root element of the document.
/// Some serialization formats require you to pass the expected size in
/// advance. If you are not working with such a format, you can ignore the

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