bool operator==(const type& other) const noexcept;
bool operator!=(const type& other) const noexcept;
+
virtual ~type();
+ type(const type&) = delete;
+ type(type&&) = delete;
+ type& operator=(type&&) = delete;
+ type& operator=(const type&) = delete;
/* Obtain an independent copy of `type`. */
virtual type::cuptr copy() const = 0;
using roles = std::vector<role>;
integer_type(unsigned int alignment,
- byte_order byte_order,
- unsigned int size,
- signedness signedness,
- base base,
- roles roles = {});
+ byte_order byte_order,
+ unsigned int size,
+ signedness signedness,
+ base base,
+ roles roles = {});
type::cuptr copy() const override;
class floating_point_type : public type {
public:
floating_point_type(unsigned int alignment,
- byte_order byte_order,
- unsigned int exponent_digits,
- unsigned int mantissa_digits);
+ byte_order byte_order,
+ unsigned int exponent_digits,
+ unsigned int mantissa_digits);
type::cuptr copy() const final;
};
class enumeration_type : public integer_type {
+public:
+ ~enumeration_type() override = default;
+ enumeration_type(const enumeration_type&) = delete;
+ enumeration_type(enumeration_type&&) = delete;
+ enumeration_type& operator=(enumeration_type&&) = delete;
+ enumeration_type& operator=(const enumeration_type&) = delete;
+
protected:
enumeration_type(unsigned int alignment,
- enum byte_order byte_order,
- unsigned int size,
- enum signedness signedness,
- enum base base,
- integer_type::roles roles = {});
+ enum byte_order byte_order,
+ unsigned int size,
+ enum signedness signedness,
+ enum base base,
+ integer_type::roles roles = {});
void accept(type_visitor& visitor) const override = 0;
};
using range_integer_t = MappingIntegerType;
enumeration_mapping_range(MappingIntegerType in_begin, MappingIntegerType in_end) :
- begin{in_begin}, end{in_end}
+ begin{ in_begin }, end{ in_end }
{
}
public:
using range_t = enumeration_mapping_range<MappingIntegerType>;
- enumeration_mapping(const enumeration_mapping<MappingIntegerType>& other) = default;
- enumeration_mapping(const enumeration_mapping<MappingIntegerType>&& other) noexcept :
- name{ std::move(other.name) }, range{ other.range }
+ enumeration_mapping(std::string in_name, MappingIntegerType value) :
+ name{ std::move(in_name) }, range{ value, value }
{
}
- enumeration_mapping(std::string in_name, MappingIntegerType value) : name{std::move(in_name)}, range{value, value}
+ enumeration_mapping(std::string in_name, range_t in_range) :
+ name{ std::move(in_name) }, range{ in_range }
{
}
- enumeration_mapping(std::string in_name, range_t in_range) : name{std::move(in_name)}, range{in_range}
+ enumeration_mapping(const enumeration_mapping<MappingIntegerType>& other) = default;
+ enumeration_mapping(enumeration_mapping<MappingIntegerType>&& other) noexcept :
+ name{ std::move(other.name) }, range{ other.range }
{
}
+ enumeration_mapping& operator=(enumeration_mapping&&) = delete;
+ enumeration_mapping& operator=(const enumeration_mapping&) = delete;
+ ~enumeration_mapping() = default;
+
const std::string name;
/*
* Only one range per mapping is supported for the moment as
using mappings = std::vector<mapping>;
static_assert(std::is_integral<MappingIntegerType>::value &&
- sizeof(MappingIntegerType) == 8,
- "MappingIntegerType must be either int64_t or uint64_t");
+ sizeof(MappingIntegerType) == 8,
+ "MappingIntegerType must be either int64_t or uint64_t");
typed_enumeration_type(unsigned int in_alignment,
- enum byte_order in_byte_order,
- unsigned int in_size,
- enum base in_base,
- const std::shared_ptr<const mappings>& in_mappings,
- integer_type::roles in_roles = {}) :
+ enum byte_order in_byte_order,
+ unsigned int in_size,
+ enum base in_base,
+ const std::shared_ptr<const mappings>& in_mappings,
+ integer_type::roles in_roles = {}) :
enumeration_type(in_alignment,
- in_byte_order,
- in_size,
- std::is_signed<MappingIntegerType>::value ?
- integer_type::signedness::SIGNED :
- integer_type::signedness::UNSIGNED,
- in_base,
- std::move(in_roles)),
- mappings_{std::move(in_mappings)}
+ in_byte_order,
+ in_size,
+ std::is_signed<MappingIntegerType>::value ?
+ integer_type::signedness::SIGNED :
+ integer_type::signedness::UNSIGNED,
+ in_base,
+ std::move(in_roles)),
+ mappings_{ std::move(in_mappings) }
{
}
type::cuptr copy() const override
{
return lttng::make_unique<typed_enumeration_type<MappingIntegerType>>(
- alignment, byte_order, size, base_, mappings_, roles_);
+ alignment, byte_order, size, base_, mappings_, roles_);
}
void accept(type_visitor& visitor) const final;
private:
bool _is_equal(const type& base_other) const noexcept final
{
- const auto& other = static_cast<const typed_enumeration_type<MappingIntegerType>&>(
- base_other);
+ const auto& other =
+ static_cast<const typed_enumeration_type<MappingIntegerType>&>(base_other);
return integer_type::_is_equal(base_other) && *this->mappings_ == *other.mappings_;
}
class static_length_array_type : public array_type {
public:
static_length_array_type(unsigned int alignment,
- type::cuptr element_type,
- uint64_t in_length);
+ type::cuptr element_type,
+ uint64_t in_length);
type::cuptr copy() const final;
class dynamic_length_array_type : public array_type {
public:
dynamic_length_array_type(unsigned int alignment,
- type::cuptr element_type,
- field_location length_field_location);
+ type::cuptr element_type,
+ field_location length_field_location);
type::cuptr copy() const final;
class static_length_string_type : public string_type {
public:
- static_length_string_type(
- unsigned int alignment, enum encoding in_encoding, uint64_t length);
+ static_length_string_type(unsigned int alignment,
+ enum encoding in_encoding,
+ uint64_t length);
type::cuptr copy() const final;
class dynamic_length_string_type : public string_type {
public:
dynamic_length_string_type(unsigned int alignment,
- enum encoding in_encoding,
- field_location length_field_location);
+ enum encoding in_encoding,
+ field_location length_field_location);
type::cuptr copy() const final;
template <typename MappingIntegerType>
class variant_type : public type {
- static_assert(std::is_same<MappingIntegerType,
- unsigned_enumeration_type::mapping::range_t::
- range_integer_t>::value ||
- std::is_same<MappingIntegerType,
- signed_enumeration_type::mapping::range_t::
- range_integer_t>::value,
- "Variant mapping integer type must be one of those allowed by typed_enumeration_type");
+ static_assert(
+ std::is_same<MappingIntegerType,
+ unsigned_enumeration_type::mapping::range_t::range_integer_t>::value ||
+ std::is_same<
+ MappingIntegerType,
+ signed_enumeration_type::mapping::range_t::range_integer_t>::value,
+ "Variant mapping integer type must be one of those allowed by typed_enumeration_type");
public:
- using choice = std::pair<const details::enumeration_mapping<MappingIntegerType>, type::cuptr>;
+ using choice =
+ std::pair<const details::enumeration_mapping<MappingIntegerType>, type::cuptr>;
using choices = std::vector<choice>;
variant_type(unsigned int in_alignment,
- field_location in_selector_field_location,
- choices in_choices) :
+ field_location in_selector_field_location,
+ choices in_choices) :
type(in_alignment),
- selector_field_location{std::move(in_selector_field_location)},
- choices_{std::move(in_choices)}
+ selector_field_location{ std::move(in_selector_field_location) },
+ choices_{ std::move(in_choices) }
{
}
copy_of_choices.reserve(choices_.size());
for (const auto& current_choice : choices_) {
- copy_of_choices.emplace_back(
- current_choice.first, current_choice.second->copy());
+ copy_of_choices.emplace_back(current_choice.first,
+ current_choice.second->copy());
}
return lttng::make_unique<variant_type<MappingIntegerType>>(
return false;
}
- return std::equal(a.cbegin(), a.cend(), b.cbegin(),
- [](const choice& choice_a, const choice& choice_b) {
- return choice_a.first == choice_b.first &&
- *choice_a.second == *choice_b.second;
- });
+ return std::equal(a.cbegin(),
+ a.cend(),
+ b.cbegin(),
+ [](const choice& choice_a, const choice& choice_b) {
+ return choice_a.first == choice_b.first &&
+ *choice_a.second == *choice_b.second;
+ });
}
bool _is_equal(const type& base_other) const noexcept final
const auto& other = static_cast<decltype(*this)&>(base_other);
return selector_field_location == other.selector_field_location &&
- _choices_are_equal(choices_, other.choices_);
+ _choices_are_equal(choices_, other.choices_);
}
};
class field_visitor {
public:
virtual ~field_visitor() = default;
+ field_visitor(field_visitor&&) = delete;
+ field_visitor(const field_visitor&) = delete;
+ field_visitor& operator=(const field_visitor&) = delete;
+ field_visitor& operator=(field_visitor&&) = delete;
+
virtual void visit(const field& field) = 0;
protected:
class type_visitor {
public:
virtual ~type_visitor() = default;
+ type_visitor(type_visitor&&) = delete;
+ type_visitor(const type_visitor&) = delete;
+ type_visitor& operator=(const type_visitor&) = delete;
+ type_visitor& operator=(type_visitor&&) = delete;
+
virtual void visit(const integer_type& type) = 0;
virtual void visit(const floating_point_type& type) = 0;
virtual void visit(const signed_enumeration_type& type) = 0;
virtual void visit(const static_length_string_type& type) = 0;
virtual void visit(const dynamic_length_string_type& type) = 0;
virtual void visit(const structure_type& type) = 0;
- virtual void visit(const variant_type<signed_enumeration_type::mapping::range_t::range_integer_t>& type) = 0;
- virtual void visit(const variant_type<unsigned_enumeration_type::mapping::range_t::range_integer_t>& type) = 0;
+ virtual void
+ visit(const variant_type<signed_enumeration_type::mapping::range_t::range_integer_t>&
+ type) = 0;
+ virtual void
+ visit(const variant_type<unsigned_enumeration_type::mapping::range_t::range_integer_t>&
+ type) = 0;
protected:
type_visitor() = default;
template <>
struct formatter<lttng::sessiond::trace::field_location> : formatter<std::string> {
template <typename FormatContextType>
- typename FormatContextType::iterator format(
- const lttng::sessiond::trace::field_location& location, FormatContextType& ctx)
+ typename FormatContextType::iterator
+ format(const lttng::sessiond::trace::field_location& location, FormatContextType& ctx)
{
- std::string location_str{"["};
+ std::string location_str{ "[" };
switch (location.root_) {
case lttng::sessiond::trace::field_location::root::PACKET_HEADER:
break;
}
- for (const auto &name : location.elements_) {
+ for (const auto& name : location.elements_) {
location_str += ", \"" + name + "\"";
}
namespace details {
template <typename MappingIntegerType>
::std::string format_mapping_range(typename lttng::sessiond::trace::typed_enumeration_type<
- MappingIntegerType>::mapping::range_t range)
+ MappingIntegerType>::mapping::range_t range)
{
if (range.begin == range.end) {
- return ::fmt::format("[{}]", range.begin);
+ return ::lttng::format("[{}]", range.begin);
} else {
- return ::fmt::format("[{}, {}]", range.begin, range.end);
+ return ::lttng::format("[{}, {}]", range.begin, range.end);
}
}
} /* namespace details */
template <typename FormatContextType>
typename FormatContextType::iterator
format(typename lttng::sessiond::trace::signed_enumeration_type::mapping::range_t range,
- FormatContextType& ctx)
+ FormatContextType& ctx)
{
return format_to(ctx.out(),
- details::format_mapping_range<
- lttng::sessiond::trace::signed_enumeration_type::
- mapping::range_t::range_integer_t>(
- range));
+ details::format_mapping_range<
+ lttng::sessiond::trace::signed_enumeration_type::mapping::
+ range_t::range_integer_t>(range));
}
};
template <typename FormatContextType>
typename FormatContextType::iterator
format(typename lttng::sessiond::trace::unsigned_enumeration_type::mapping::range_t range,
- FormatContextType& ctx)
+ FormatContextType& ctx)
{
return format_to(ctx.out(),
- details::format_mapping_range<
- lttng::sessiond::trace::unsigned_enumeration_type::
- mapping::range_t::range_integer_t>(
- range));
+ details::format_mapping_range<
+ lttng::sessiond::trace::unsigned_enumeration_type::
+ mapping::range_t::range_integer_t>(range));
}
};