#ifndef BABELTRACE_CPP_COMMON_BT2_VALUE_HPP
#define BABELTRACE_CPP_COMMON_BT2_VALUE_HPP
-#include <type_traits>
#include <cstdint>
#include <functional>
+#include <type_traits>
+
#include <babeltrace2/babeltrace.h>
#include "common/assert.h"
#include "common/common.h"
-#include "internal/borrowed-obj.hpp"
-#include "internal/shared-obj.hpp"
-#include "internal/utils.hpp"
#include "cpp-common/optional.hpp"
#include "cpp-common/string_view.hpp"
-#include "lib-error.hpp"
-namespace bt2 {
+#include "borrowed-object-iterator.hpp"
+#include "borrowed-object.hpp"
+#include "exc.hpp"
+#include "internal/utils.hpp"
+#include "raw-value-proxy.hpp"
+#include "shared-object.hpp"
+namespace bt2 {
namespace internal {
struct ValueRefFuncs final
{
- static void get(const bt_value * const libObjPtr)
+ static void get(const bt_value * const libObjPtr) noexcept
{
bt_value_get_ref(libObjPtr);
}
- static void put(const bt_value * const libObjPtr)
+ static void put(const bt_value * const libObjPtr) noexcept
{
bt_value_put_ref(libObjPtr);
}
};
-template <typename ObjT, typename LibObjT>
-using SharedValue = internal::SharedObj<ObjT, LibObjT, internal::ValueRefFuncs>;
+} /* namespace internal */
-} // namespace internal
+template <typename ObjT, typename LibObjT>
+using SharedValue = SharedObject<ObjT, LibObjT, internal::ValueRefFuncs>;
template <typename LibObjT>
class CommonNullValue;
MAP = BT_VALUE_TYPE_MAP,
};
-template <typename LibObjT>
-class CommonValue : public internal::BorrowedObj<LibObjT>
+template <typename ValueObjT>
+class CommonValueRawValueProxy final
{
- // Allow append() to call `val._libObjPtr()`
- friend class CommonArrayValue<bt_value>;
+public:
+ explicit CommonValueRawValueProxy(const ValueObjT obj) : _mObj {obj}
+ {
+ }
- // Allow insert() to call `val._libObjPtr()`
- friend class CommonMapValue<bt_value>;
+ CommonValueRawValueProxy& operator=(bool rawVal) noexcept;
+ CommonValueRawValueProxy& operator=(std::int64_t rawVal) noexcept;
+ CommonValueRawValueProxy& operator=(std::uint64_t rawVal) noexcept;
+ CommonValueRawValueProxy& operator=(double rawVal) noexcept;
+ CommonValueRawValueProxy& operator=(const char *rawVal);
+ CommonValueRawValueProxy& operator=(const std::string& rawVal);
+ operator bool() const noexcept;
+ operator std::int64_t() const noexcept;
+ operator std::uint64_t() const noexcept;
+ operator double() const noexcept;
+ operator const char *() const noexcept;
- // Allow operator==() to call `other._libObjPtr()`
- friend class CommonValue<bt_value>;
- friend class CommonValue<const bt_value>;
+private:
+ ValueObjT _mObj;
+};
+template <typename LibObjT>
+class CommonValue : public BorrowedObject<LibObjT>
+{
private:
- using typename internal::BorrowedObj<LibObjT>::_ThisBorrowedObj;
+ using typename BorrowedObject<LibObjT>::_ThisBorrowedObject;
protected:
- using typename internal::BorrowedObj<LibObjT>::_LibObjPtr;
+ using typename BorrowedObject<LibObjT>::_LibObjPtr;
using _ThisCommonValue = CommonValue<LibObjT>;
public:
- using Shared = internal::SharedValue<CommonValue<LibObjT>, LibObjT>;
+ using Shared = SharedValue<CommonValue<LibObjT>, LibObjT>;
- explicit CommonValue(const _LibObjPtr libObjPtr) noexcept : _ThisBorrowedObj {libObjPtr}
+ explicit CommonValue(const _LibObjPtr libObjPtr) noexcept : _ThisBorrowedObject {libObjPtr}
{
}
template <typename OtherLibObjT>
- CommonValue(const CommonValue<OtherLibObjT>& val) noexcept : _ThisBorrowedObj {val}
+ CommonValue(const CommonValue<OtherLibObjT> val) noexcept : _ThisBorrowedObject {val}
{
}
template <typename OtherLibObjT>
- _ThisCommonValue& operator=(const CommonValue<OtherLibObjT>& val) noexcept
+ _ThisCommonValue operator=(const CommonValue<OtherLibObjT> val) noexcept
{
- _ThisBorrowedObj::operator=(val);
+ _ThisBorrowedObject::operator=(val);
return *this;
}
+ CommonValue<const bt_value> asConst() const noexcept
+ {
+ return CommonValue<const bt_value> {*this};
+ }
+
ValueType type() const noexcept
{
- return static_cast<ValueType>(bt_value_get_type(this->_libObjPtr()));
+ return static_cast<ValueType>(bt_value_get_type(this->libObjPtr()));
}
bool isNull() const noexcept
}
template <typename OtherLibObjT>
- bool operator==(const CommonValue<OtherLibObjT>& other) const noexcept
+ bool operator==(const CommonValue<OtherLibObjT> other) const noexcept
{
- return static_cast<bool>(bt_value_is_equal(this->_libObjPtr(), other._libObjPtr()));
+ return static_cast<bool>(bt_value_is_equal(this->libObjPtr(), other.libObjPtr()));
}
template <typename OtherLibObjT>
- bool operator!=(const CommonValue<OtherLibObjT>& other) const noexcept
+ bool operator!=(const CommonValue<OtherLibObjT> other) const noexcept
{
return !(*this == other);
}
+ CommonValueRawValueProxy<CommonValue> operator*() const noexcept
+ {
+ return CommonValueRawValueProxy<CommonValue> {*this};
+ }
+
+ std::uint64_t arrayLength() const noexcept
+ {
+ return this->asArray().length();
+ }
+
+ bool arrayIsEmpty() const noexcept
+ {
+ return this->asArray().isEmpty();
+ }
+
+ CommonValue<LibObjT> operator[](const std::uint64_t index) const noexcept
+ {
+ return this->asArray()[index];
+ }
+
+ template <typename T>
+ void append(T&& elem) const
+ {
+ this->asArray().append(std::forward<T>(elem));
+ }
+
+ CommonArrayValue<bt_value> appendEmptyArray() const;
+ CommonMapValue<bt_value> appendEmptyMap() const;
+
+ std::uint64_t mapLength() const noexcept
+ {
+ return this->asMap().length();
+ }
+
+ bool mapIsEmpty() const noexcept
+ {
+ return this->asMap().isEmpty();
+ }
+
+ template <typename KeyT>
+ nonstd::optional<CommonValue<LibObjT>> operator[](KeyT&& key) const noexcept
+ {
+ return this->asMap()[std::forward<KeyT>(key)];
+ }
+
+ template <typename KeyT>
+ bool hasEntry(KeyT&& key) const noexcept
+ {
+ return this->asMap().hasEntry(std::forward<KeyT>(key));
+ }
+
+ template <typename KeyT, typename ValT>
+ void insert(KeyT&& key, ValT&& val) const
+ {
+ this->asMap().insert(std::forward<KeyT>(key), std::forward<ValT>(val));
+ }
+
+ CommonArrayValue<bt_value> insertEmptyArray(const char *key) const;
+ CommonArrayValue<bt_value> insertEmptyArray(const std::string& key) const;
+ CommonMapValue<bt_value> insertEmptyMap(const char *key) const;
+ CommonMapValue<bt_value> insertEmptyMap(const std::string& key) const;
+
Shared shared() const noexcept
{
- return Shared {*this};
+ return Shared::createWithRef(*this);
+ }
+
+ template <typename ValueT>
+ ValueT as() const noexcept
+ {
+ return ValueT {this->libObjPtr()};
}
CommonNullValue<LibObjT> asNull() const noexcept;
protected:
bool _libTypeIs(const bt_value_type type) const noexcept
{
- return bt_value_type_is(bt_value_get_type(this->_libObjPtr()), type);
+ return bt_value_type_is(bt_value_get_type(this->libObjPtr()), type);
}
};
using Value = CommonValue<bt_value>;
using ConstValue = CommonValue<const bt_value>;
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>&
+CommonValueRawValueProxy<ValueObjT>::operator=(const bool rawVal) noexcept
+{
+ _mObj.asBool().value(rawVal);
+ return *this;
+}
+
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>&
+CommonValueRawValueProxy<ValueObjT>::operator=(const std::int64_t rawVal) noexcept
+{
+ _mObj.asSignedInteger().value(rawVal);
+ return *this;
+}
+
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>&
+CommonValueRawValueProxy<ValueObjT>::operator=(const std::uint64_t rawVal) noexcept
+{
+ _mObj.asUnsignedInteger().value(rawVal);
+ return *this;
+}
+
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>&
+CommonValueRawValueProxy<ValueObjT>::operator=(const double rawVal) noexcept
+{
+ _mObj.asReal().value(rawVal);
+ return *this;
+}
+
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>&
+CommonValueRawValueProxy<ValueObjT>::operator=(const char * const rawVal)
+{
+ _mObj.asString().value(rawVal);
+ return *this;
+}
+
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>&
+CommonValueRawValueProxy<ValueObjT>::operator=(const std::string& rawVal)
+{
+ return *this = rawVal.data();
+}
+
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>::operator bool() const noexcept
+{
+ return _mObj.asBool().value();
+}
+
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>::operator std::int64_t() const noexcept
+{
+ return _mObj.asSignedInteger().value();
+}
+
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>::operator std::uint64_t() const noexcept
+{
+ return _mObj.asUnsignedInteger().value();
+}
+
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>::operator double() const noexcept
+{
+ return _mObj.asReal().value();
+}
+
+template <typename ValueObjT>
+CommonValueRawValueProxy<ValueObjT>::operator const char *() const noexcept
+{
+ return _mObj.asString().value();
+}
+
+namespace internal {
+
+struct ValueTypeDescr
+{
+ using Const = ConstValue;
+ using NonConst = Value;
+};
+
+template <>
+struct TypeDescr<Value> : public ValueTypeDescr
+{
+};
+
+template <>
+struct TypeDescr<ConstValue> : public ValueTypeDescr
+{
+};
+
+} /* namespace internal */
+
template <typename LibObjT>
class CommonNullValue final : public CommonValue<LibObjT>
{
using typename CommonValue<LibObjT>::_ThisCommonValue;
public:
- using Shared = internal::SharedValue<CommonNullValue<LibObjT>, LibObjT>;
+ using Shared = SharedValue<CommonNullValue<LibObjT>, LibObjT>;
CommonNullValue() noexcept : _ThisCommonValue {bt_value_null}
{
}
template <typename OtherLibObjT>
- CommonNullValue(const CommonNullValue<OtherLibObjT>& val) noexcept : _ThisCommonValue {val}
+ CommonNullValue(const CommonNullValue<OtherLibObjT> val) noexcept : _ThisCommonValue {val}
{
}
template <typename OtherLibObjT>
- CommonNullValue<LibObjT>& operator=(const CommonNullValue<OtherLibObjT>& val) noexcept
+ CommonNullValue<LibObjT> operator=(const CommonNullValue<OtherLibObjT> val) noexcept
{
_ThisCommonValue::operator=(val);
return *this;
}
+ CommonNullValue<const bt_value> asConst() const noexcept
+ {
+ return CommonNullValue<const bt_value> {*this};
+ }
+
Shared shared() const noexcept
{
- return Shared {*this};
+ return Shared::createWithRef(*this);
}
};
using NullValue = CommonNullValue<bt_value>;
using ConstNullValue = CommonNullValue<const bt_value>;
+namespace internal {
+
+struct NullValueTypeDescr
+{
+ using Const = ConstNullValue;
+ using NonConst = NullValue;
+};
+
+template <>
+struct TypeDescr<NullValue> : public NullValueTypeDescr
+{
+};
+
+template <>
+struct TypeDescr<ConstNullValue> : public NullValueTypeDescr
+{
+};
+
+} /* namespace internal */
+
template <typename LibObjT>
class CommonBoolValue final : public CommonValue<LibObjT>
{
using typename CommonValue<LibObjT>::_ThisCommonValue;
public:
- using Shared = internal::SharedValue<CommonBoolValue<LibObjT>, LibObjT>;
+ using Shared = SharedValue<CommonBoolValue<LibObjT>, LibObjT>;
using Value = bool;
explicit CommonBoolValue(const _LibObjPtr libObjPtr) noexcept : _ThisCommonValue {libObjPtr}
}
template <typename OtherLibObjT>
- CommonBoolValue(const CommonBoolValue<OtherLibObjT>& val) noexcept : _ThisCommonValue {val}
+ CommonBoolValue(const CommonBoolValue<OtherLibObjT> val) noexcept : _ThisCommonValue {val}
{
}
const auto libObjPtr = bt_value_bool_create_init(static_cast<bt_bool>(rawVal));
internal::validateCreatedObjPtr(libObjPtr);
- return Shared {CommonBoolValue<LibObjT> {libObjPtr}};
+ return CommonBoolValue::Shared::createWithoutRef(libObjPtr);
}
template <typename OtherLibObjT>
- CommonBoolValue<LibObjT>& operator=(const CommonBoolValue<OtherLibObjT>& val) noexcept
+ CommonBoolValue<LibObjT> operator=(const CommonBoolValue<OtherLibObjT> val) noexcept
{
_ThisCommonValue::operator=(val);
return *this;
}
- CommonBoolValue<LibObjT>& operator=(const Value rawVal) noexcept
+ CommonBoolValue<const bt_value> asConst() const noexcept
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ return CommonBoolValue<const bt_value> {*this};
+ }
- bt_value_bool_set(this->_libObjPtr(), static_cast<bt_bool>(rawVal));
- return *this;
+ RawValueProxy<CommonBoolValue> operator*() const noexcept
+ {
+ return RawValueProxy<CommonBoolValue> {*this};
}
Value value() const noexcept
{
- return static_cast<Value>(bt_value_bool_get(this->_libObjPtr()));
+ return static_cast<Value>(bt_value_bool_get(this->libObjPtr()));
}
- operator Value() const noexcept
+ void value(const Value val) const noexcept
{
- return this->value();
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstBoolValue`.");
+
+ bt_value_bool_set(this->libObjPtr(), static_cast<bt_bool>(val));
}
Shared shared() const noexcept
{
- return Shared {*this};
+ return Shared::createWithRef(*this);
}
};
using BoolValue = CommonBoolValue<bt_value>;
using ConstBoolValue = CommonBoolValue<const bt_value>;
+namespace internal {
+
+struct BoolValueTypeDescr
+{
+ using Const = ConstBoolValue;
+ using NonConst = BoolValue;
+};
+
+template <>
+struct TypeDescr<BoolValue> : public BoolValueTypeDescr
+{
+};
+
+template <>
+struct TypeDescr<ConstBoolValue> : public BoolValueTypeDescr
+{
+};
+
+} /* namespace internal */
+
template <typename LibObjT>
class CommonUnsignedIntegerValue final : public CommonValue<LibObjT>
{
using typename CommonValue<LibObjT>::_ThisCommonValue;
public:
- using Shared = internal::SharedValue<CommonUnsignedIntegerValue<LibObjT>, LibObjT>;
+ using Shared = SharedValue<CommonUnsignedIntegerValue<LibObjT>, LibObjT>;
using Value = std::uint64_t;
explicit CommonUnsignedIntegerValue(const _LibObjPtr libObjPtr) noexcept :
const auto libObjPtr = bt_value_integer_unsigned_create_init(rawVal);
internal::validateCreatedObjPtr(libObjPtr);
- return Shared {CommonUnsignedIntegerValue<LibObjT> {libObjPtr}};
+ return CommonUnsignedIntegerValue::Shared::createWithoutRef(libObjPtr);
}
template <typename OtherLibObjT>
- CommonUnsignedIntegerValue(const CommonUnsignedIntegerValue<OtherLibObjT>& val) noexcept :
+ CommonUnsignedIntegerValue(const CommonUnsignedIntegerValue<OtherLibObjT> val) noexcept :
_ThisCommonValue {val}
{
}
template <typename OtherLibObjT>
- CommonUnsignedIntegerValue<LibObjT>&
- operator=(const CommonUnsignedIntegerValue<OtherLibObjT>& val) noexcept
+ CommonUnsignedIntegerValue<LibObjT>
+ operator=(const CommonUnsignedIntegerValue<OtherLibObjT> val) noexcept
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
-
_ThisCommonValue::operator=(val);
return *this;
}
- CommonUnsignedIntegerValue<LibObjT>& operator=(const Value rawVal) noexcept
+ CommonUnsignedIntegerValue<const bt_value> asConst() const noexcept
{
- bt_value_integer_unsigned_set(this->_libObjPtr(), rawVal);
- return *this;
+ return CommonUnsignedIntegerValue<const bt_value> {*this};
}
- Value value() const noexcept
+ RawValueProxy<CommonUnsignedIntegerValue> operator*() const noexcept
{
- return bt_value_integer_unsigned_get(this->_libObjPtr());
+ return RawValueProxy<CommonUnsignedIntegerValue> {*this};
}
- operator Value() const noexcept
+ void value(const Value val) const noexcept
{
- return this->value();
+ static_assert(!std::is_const<LibObjT>::value,
+ "Not available with `bt2::ConstUnsignedIntegerValue`.");
+
+ bt_value_integer_unsigned_set(this->libObjPtr(), val);
+ }
+
+ Value value() const noexcept
+ {
+ return bt_value_integer_unsigned_get(this->libObjPtr());
}
Shared shared() const noexcept
{
- return Shared {*this};
+ return Shared::createWithRef(*this);
}
};
using UnsignedIntegerValue = CommonUnsignedIntegerValue<bt_value>;
using ConstUnsignedIntegerValue = CommonUnsignedIntegerValue<const bt_value>;
+namespace internal {
+
+struct UnsignedIntegerValueTypeDescr
+{
+ using Const = ConstUnsignedIntegerValue;
+ using NonConst = UnsignedIntegerValue;
+};
+
+template <>
+struct TypeDescr<UnsignedIntegerValue> : public UnsignedIntegerValueTypeDescr
+{
+};
+
+template <>
+struct TypeDescr<ConstUnsignedIntegerValue> : public UnsignedIntegerValueTypeDescr
+{
+};
+
+} /* namespace internal */
+
template <typename LibObjT>
class CommonSignedIntegerValue final : public CommonValue<LibObjT>
{
using typename CommonValue<LibObjT>::_ThisCommonValue;
public:
- using Shared = internal::SharedValue<CommonSignedIntegerValue<LibObjT>, LibObjT>;
+ using Shared = SharedValue<CommonSignedIntegerValue<LibObjT>, LibObjT>;
using Value = std::int64_t;
explicit CommonSignedIntegerValue(const _LibObjPtr libObjPtr) noexcept :
const auto libObjPtr = bt_value_integer_signed_create_init(rawVal);
internal::validateCreatedObjPtr(libObjPtr);
- return Shared {CommonSignedIntegerValue<LibObjT> {libObjPtr}};
+ return CommonSignedIntegerValue::Shared::createWithoutRef(libObjPtr);
}
template <typename OtherLibObjT>
- CommonSignedIntegerValue(const CommonSignedIntegerValue<OtherLibObjT>& val) noexcept :
+ CommonSignedIntegerValue(const CommonSignedIntegerValue<OtherLibObjT> val) noexcept :
_ThisCommonValue {val}
{
}
template <typename OtherLibObjT>
- CommonSignedIntegerValue<LibObjT>&
- operator=(const CommonSignedIntegerValue<OtherLibObjT>& val) noexcept
+ CommonSignedIntegerValue<LibObjT>
+ operator=(const CommonSignedIntegerValue<OtherLibObjT> val) noexcept
{
_ThisCommonValue::operator=(val);
return *this;
}
- CommonSignedIntegerValue<LibObjT>& operator=(const Value rawVal) noexcept
+ CommonSignedIntegerValue<const bt_value> asConst() const noexcept
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ return CommonSignedIntegerValue<const bt_value> {*this};
+ }
- bt_value_integer_signed_set(this->_libObjPtr(), rawVal);
- return *this;
+ RawValueProxy<CommonSignedIntegerValue> operator*() const noexcept
+ {
+ return RawValueProxy<CommonSignedIntegerValue> {*this};
}
- Value value() const noexcept
+ void value(const Value val) const noexcept
{
- return bt_value_integer_signed_get(this->_libObjPtr());
+ static_assert(!std::is_const<LibObjT>::value,
+ "Not available with `bt2::ConstSignedIntegerValue`.");
+
+ bt_value_integer_signed_set(this->libObjPtr(), val);
}
- operator Value() const noexcept
+ Value value() const noexcept
{
- return this->value();
+ return bt_value_integer_signed_get(this->libObjPtr());
}
Shared shared() const noexcept
{
- return Shared {*this};
+ return Shared::createWithRef(*this);
}
};
using SignedIntegerValue = CommonSignedIntegerValue<bt_value>;
using ConstSignedIntegerValue = CommonSignedIntegerValue<const bt_value>;
+namespace internal {
+
+struct SignedIntegerValueTypeDescr
+{
+ using Const = ConstSignedIntegerValue;
+ using NonConst = SignedIntegerValue;
+};
+
+template <>
+struct TypeDescr<SignedIntegerValue> : public SignedIntegerValueTypeDescr
+{
+};
+
+template <>
+struct TypeDescr<ConstSignedIntegerValue> : public SignedIntegerValueTypeDescr
+{
+};
+
+} /* namespace internal */
+
template <typename LibObjT>
class CommonRealValue final : public CommonValue<LibObjT>
{
using typename CommonValue<LibObjT>::_ThisCommonValue;
public:
- using Shared = internal::SharedValue<CommonRealValue<LibObjT>, LibObjT>;
+ using Shared = SharedValue<CommonRealValue<LibObjT>, LibObjT>;
using Value = double;
explicit CommonRealValue(const _LibObjPtr libObjPtr) noexcept : _ThisCommonValue {libObjPtr}
const auto libObjPtr = bt_value_real_create_init(rawVal);
internal::validateCreatedObjPtr(libObjPtr);
- return Shared {CommonRealValue<LibObjT> {libObjPtr}};
+ return CommonRealValue::Shared::createWithoutRef(libObjPtr);
}
template <typename OtherLibObjT>
- CommonRealValue(const CommonRealValue<OtherLibObjT>& val) noexcept : _ThisCommonValue {val}
+ CommonRealValue(const CommonRealValue<OtherLibObjT> val) noexcept : _ThisCommonValue {val}
{
}
template <typename OtherLibObjT>
- CommonRealValue<LibObjT>& operator=(const CommonRealValue<OtherLibObjT>& val) noexcept
+ CommonRealValue<LibObjT> operator=(const CommonRealValue<OtherLibObjT> val) noexcept
{
_ThisCommonValue::operator=(val);
return *this;
}
- CommonRealValue<LibObjT>& operator=(const Value rawVal) noexcept
+ CommonRealValue<const bt_value> asConst() const noexcept
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ return CommonRealValue<const bt_value> {*this};
+ }
- bt_value_real_set(this->_libObjPtr(), rawVal);
- return *this;
+ RawValueProxy<CommonRealValue> operator*() const noexcept
+ {
+ return RawValueProxy<CommonRealValue> {*this};
}
- Value value() const noexcept
+ void value(const Value val) const noexcept
{
- return bt_value_real_get(this->_libObjPtr());
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstRealValue`.");
+
+ bt_value_real_set(this->libObjPtr(), val);
}
- operator Value() const noexcept
+ Value value() const noexcept
{
- return this->value();
+ return bt_value_real_get(this->libObjPtr());
}
Shared shared() const noexcept
{
- return Shared {*this};
+ return Shared::createWithRef(*this);
}
};
using RealValue = CommonRealValue<bt_value>;
using ConstRealValue = CommonRealValue<const bt_value>;
+namespace internal {
+
+struct RealValueTypeDescr
+{
+ using Const = ConstRealValue;
+ using NonConst = RealValue;
+};
+
+template <>
+struct TypeDescr<RealValue> : public RealValueTypeDescr
+{
+};
+
+template <>
+struct TypeDescr<ConstRealValue> : public RealValueTypeDescr
+{
+};
+
+} /* namespace internal */
+
template <typename LibObjT>
class CommonStringValue final : public CommonValue<LibObjT>
{
using typename CommonValue<LibObjT>::_ThisCommonValue;
public:
- using Shared = internal::SharedValue<CommonStringValue<LibObjT>, LibObjT>;
+ using Shared = SharedValue<CommonStringValue<LibObjT>, LibObjT>;
+ using Value = const char *;
explicit CommonStringValue(const _LibObjPtr libObjPtr) noexcept : _ThisCommonValue {libObjPtr}
{
const auto libObjPtr = bt_value_string_create_init(rawVal);
internal::validateCreatedObjPtr(libObjPtr);
- return Shared {CommonStringValue<LibObjT> {libObjPtr}};
+ return CommonStringValue::Shared::createWithoutRef(libObjPtr);
}
static Shared create(const std::string& rawVal)
{
- return CommonStringValue<LibObjT>::create(rawVal.data());
+ return CommonStringValue::create(rawVal.data());
}
template <typename OtherLibObjT>
- CommonStringValue(const CommonStringValue<OtherLibObjT>& val) noexcept : _ThisCommonValue {val}
+ CommonStringValue(const CommonStringValue<OtherLibObjT> val) noexcept : _ThisCommonValue {val}
{
}
template <typename OtherLibObjT>
- CommonStringValue<LibObjT>& operator=(const CommonStringValue<OtherLibObjT>& val) noexcept
+ CommonStringValue<LibObjT> operator=(const CommonStringValue<OtherLibObjT> val) noexcept
{
_ThisCommonValue::operator=(val);
return *this;
}
- CommonStringValue<LibObjT>& operator=(const char * const rawVal)
+ CommonStringValue<const bt_value> asConst() const noexcept
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ return CommonStringValue<const bt_value> {*this};
+ }
- const auto status = bt_value_string_set(this->_libObjPtr(), rawVal);
+ RawStringValueProxy<CommonStringValue> operator*() const noexcept
+ {
+ return RawStringValueProxy<CommonStringValue> {*this};
+ }
+
+ void value(const Value val) const
+ {
+ static_assert(!std::is_const<LibObjT>::value,
+ "Not available with `bt2::ConstStringValue`.");
+
+ const auto status = bt_value_string_set(this->libObjPtr(), val);
if (status == BT_VALUE_STRING_SET_STATUS_MEMORY_ERROR) {
- throw LibMemoryError {};
+ throw MemoryError {};
}
-
- return *this;
}
- CommonStringValue<LibObjT>& operator=(const std::string& rawVal) noexcept
+ void value(const std::string& val) const
{
- return *this = rawVal.data();
+ this->value(val.data());
}
- bpstd::string_view value() const noexcept
+ const char *value() const noexcept
{
- return bt_value_string_get(this->_libObjPtr());
+ return bt_value_string_get(this->libObjPtr());
}
Shared shared() const noexcept
{
- return Shared {*this};
+ return Shared::createWithRef(*this);
}
};
namespace internal {
+struct StringValueTypeDescr
+{
+ using Const = ConstStringValue;
+ using NonConst = StringValue;
+};
+
+template <>
+struct TypeDescr<StringValue> : public StringValueTypeDescr
+{
+};
+
+template <>
+struct TypeDescr<ConstStringValue> : public StringValueTypeDescr
+{
+};
+
template <typename LibObjT>
struct CommonArrayValueSpec;
-// Functions specific to mutable array values
+/* Functions specific to mutable array values */
template <>
struct CommonArrayValueSpec<bt_value> final
{
}
};
-// Functions specific to constant array values
+/* Functions specific to constant array values */
template <>
struct CommonArrayValueSpec<const bt_value> final
{
}
};
-} // namespace internal
+} /* namespace internal */
template <typename LibObjT>
class CommonArrayValue final : public CommonValue<LibObjT>
using typename CommonValue<LibObjT>::_ThisCommonValue;
public:
- using Shared = internal::SharedValue<CommonArrayValue<LibObjT>, LibObjT>;
+ using Shared = SharedValue<CommonArrayValue<LibObjT>, LibObjT>;
+ using Iterator = BorrowedObjectIterator<CommonArrayValue<LibObjT>>;
explicit CommonArrayValue(const _LibObjPtr libObjPtr) noexcept : _ThisCommonValue {libObjPtr}
{
const auto libObjPtr = bt_value_array_create();
internal::validateCreatedObjPtr(libObjPtr);
- return Shared {CommonArrayValue<LibObjT> {libObjPtr}};
+ return CommonArrayValue::Shared::createWithoutRef(libObjPtr);
}
template <typename OtherLibObjT>
- CommonArrayValue(const CommonArrayValue<OtherLibObjT>& val) noexcept : _ThisCommonValue {val}
+ CommonArrayValue(const CommonArrayValue<OtherLibObjT> val) noexcept : _ThisCommonValue {val}
{
}
template <typename OtherLibObjT>
- CommonArrayValue<LibObjT>& operator=(const CommonArrayValue<OtherLibObjT>& val) noexcept
+ CommonArrayValue<LibObjT> operator=(const CommonArrayValue<OtherLibObjT> val) noexcept
{
_ThisCommonValue::operator=(val);
return *this;
}
+ CommonArrayValue<const bt_value> asConst() const noexcept
+ {
+ return CommonArrayValue<const bt_value> {*this};
+ }
+
std::uint64_t length() const noexcept
{
- return bt_value_array_get_length(this->_libObjPtr());
+ return bt_value_array_get_length(this->libObjPtr());
}
- bool isEmpty() const noexcept
+ Iterator begin() const noexcept
{
- return this->length() == 0;
+ return Iterator {*this, 0};
}
- ConstValue operator[](const std::uint64_t index) const noexcept
+ Iterator end() const noexcept
+ {
+ return Iterator {*this, this->length()};
+ }
+
+ bool isEmpty() const noexcept
{
- return ConstValue {internal::CommonArrayValueSpec<const bt_value>::elementByIndex(
- this->_libObjPtr(), index)};
+ return this->length() == 0;
}
- CommonValue<LibObjT> operator[](const std::uint64_t index) noexcept
+ CommonValue<LibObjT> operator[](const std::uint64_t index) const noexcept
{
return CommonValue<LibObjT> {
- internal::CommonArrayValueSpec<LibObjT>::elementByIndex(this->_libObjPtr(), index)};
+ internal::CommonArrayValueSpec<LibObjT>::elementByIndex(this->libObjPtr(), index)};
}
- void append(const Value& val)
+ void append(const Value val) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstArrayValue`.");
- const auto status = bt_value_array_append_element(this->_libObjPtr(), val._libObjPtr());
+ const auto status = bt_value_array_append_element(this->libObjPtr(), val.libObjPtr());
this->_handleAppendLibStatus(status);
}
- void append(const bool rawVal)
+ void append(const bool rawVal) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstArrayValue`.");
const auto status =
- bt_value_array_append_bool_element(this->_libObjPtr(), static_cast<bt_bool>(rawVal));
+ bt_value_array_append_bool_element(this->libObjPtr(), static_cast<bt_bool>(rawVal));
this->_handleAppendLibStatus(status);
}
- void append(const std::uint64_t rawVal)
+ void append(const std::uint64_t rawVal) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstArrayValue`.");
const auto status =
- bt_value_array_append_unsigned_integer_element(this->_libObjPtr(), rawVal);
+ bt_value_array_append_unsigned_integer_element(this->libObjPtr(), rawVal);
this->_handleAppendLibStatus(status);
}
- void append(const std::int64_t rawVal)
+ void append(const std::int64_t rawVal) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstArrayValue`.");
- const auto status =
- bt_value_array_append_signed_integer_element(this->_libObjPtr(), rawVal);
+ const auto status = bt_value_array_append_signed_integer_element(this->libObjPtr(), rawVal);
this->_handleAppendLibStatus(status);
}
- void append(const double rawVal)
+ void append(const double rawVal) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstArrayValue`.");
- const auto status = bt_value_array_append_real_element(this->_libObjPtr(), rawVal);
+ const auto status = bt_value_array_append_real_element(this->libObjPtr(), rawVal);
this->_handleAppendLibStatus(status);
}
- void append(const char * const rawVal)
+ void append(const char * const rawVal) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstArrayValue`.");
- const auto status = bt_value_array_append_string_element(this->_libObjPtr(), rawVal);
+ const auto status = bt_value_array_append_string_element(this->libObjPtr(), rawVal);
this->_handleAppendLibStatus(status);
}
- void append(const std::string& rawVal)
+ void append(const std::string& rawVal) const
{
this->append(rawVal.data());
}
- CommonArrayValue<bt_value> appendEmptyArray();
- CommonMapValue<bt_value> appendEmptyMap();
+ CommonArrayValue<bt_value> appendEmptyArray() const;
+ CommonMapValue<bt_value> appendEmptyMap() const;
- void operator+=(const Value& val)
+ void operator+=(const Value val) const
{
this->append(val);
}
- void operator+=(const bool rawVal)
+ void operator+=(const bool rawVal) const
{
this->append(rawVal);
}
- void operator+=(const std::uint64_t rawVal)
+ void operator+=(const std::uint64_t rawVal) const
{
this->append(rawVal);
}
- void operator+=(const std::int64_t rawVal)
+ void operator+=(const std::int64_t rawVal) const
{
this->append(rawVal);
}
- void operator+=(const double rawVal)
+ void operator+=(const double rawVal) const
{
this->append(rawVal);
}
- void operator+=(const char * const rawVal)
+ void operator+=(const char * const rawVal) const
{
this->append(rawVal);
}
- void operator+=(const std::string& rawVal)
+ void operator+=(const std::string& rawVal) const
{
this->append(rawVal);
}
Shared shared() const noexcept
{
- return Shared {*this};
+ return Shared::createWithRef(*this);
}
private:
void _handleAppendLibStatus(const bt_value_array_append_element_status status) const
{
if (status == BT_VALUE_ARRAY_APPEND_ELEMENT_STATUS_MEMORY_ERROR) {
- throw LibMemoryError {};
+ throw MemoryError {};
}
}
};
namespace internal {
+struct ArrayValueTypeDescr
+{
+ using Const = ConstArrayValue;
+ using NonConst = ArrayValue;
+};
+
+template <>
+struct TypeDescr<ArrayValue> : public ArrayValueTypeDescr
+{
+};
+
+template <>
+struct TypeDescr<ConstArrayValue> : public ArrayValueTypeDescr
+{
+};
+
/*
* Type of a user function passed to `CommonMapValue<ObjT>::forEach()`.
*
template <typename LibObjT>
struct CommonMapValueSpec;
-// Functions specific to mutable map values
+/* Functions specific to mutable map values */
template <>
struct CommonMapValueSpec<bt_value> final
{
return;
case BT_VALUE_MAP_FOREACH_ENTRY_STATUS_USER_ERROR:
case BT_VALUE_MAP_FOREACH_ENTRY_STATUS_ERROR:
- throw LibError {};
+ throw Error {};
default:
bt_common_abort();
}
}
};
-// Functions specific to constant map values
+/* Functions specific to constant map values */
template <>
struct CommonMapValueSpec<const bt_value> final
{
return;
case BT_VALUE_MAP_FOREACH_ENTRY_CONST_STATUS_USER_ERROR:
case BT_VALUE_MAP_FOREACH_ENTRY_CONST_STATUS_ERROR:
- throw LibError {};
+ throw Error {};
default:
bt_common_abort();
}
}
};
-} // namespace internal
+} /* namespace internal */
template <typename LibObjT>
class CommonMapValue final : public CommonValue<LibObjT>
using typename CommonValue<LibObjT>::_ThisCommonValue;
public:
- using Shared = internal::SharedValue<CommonMapValue<LibObjT>, LibObjT>;
+ using Shared = SharedValue<CommonMapValue<LibObjT>, LibObjT>;
explicit CommonMapValue(const _LibObjPtr libObjPtr) noexcept : _ThisCommonValue {libObjPtr}
{
const auto libObjPtr = bt_value_map_create();
internal::validateCreatedObjPtr(libObjPtr);
- return Shared {CommonMapValue<LibObjT> {libObjPtr}};
+ return CommonMapValue::Shared::createWithoutRef(libObjPtr);
}
template <typename OtherLibObjT>
- CommonMapValue(const CommonMapValue<OtherLibObjT>& val) noexcept : _ThisCommonValue {val}
+ CommonMapValue(const CommonMapValue<OtherLibObjT> val) noexcept : _ThisCommonValue {val}
{
}
template <typename OtherLibObjT>
- CommonMapValue<LibObjT>& operator=(const CommonMapValue<OtherLibObjT>& val) noexcept
+ CommonMapValue<LibObjT> operator=(const CommonMapValue<OtherLibObjT> val) noexcept
{
_ThisCommonValue::operator=(val);
return *this;
}
- std::uint64_t size() const noexcept
+ CommonMapValue<const bt_value> asConst() const noexcept
{
- return bt_value_map_get_size(this->_libObjPtr());
+ return CommonMapValue<const bt_value> {*this};
}
- bool isEmpty() const noexcept
- {
- return this->size() == 0;
- }
-
- nonstd::optional<ConstValue> operator[](const char * const key) const noexcept
+ std::uint64_t length() const noexcept
{
- const auto libObjPtr =
- internal::CommonMapValueSpec<const bt_value>::entryByKey(this->_libObjPtr(), key);
-
- if (!libObjPtr) {
- return nonstd::nullopt;
- }
-
- return ConstValue {libObjPtr};
+ return bt_value_map_get_size(this->libObjPtr());
}
- nonstd::optional<ConstValue> operator[](const std::string& key) const noexcept
+ bool isEmpty() const noexcept
{
- return (*this)[key.data()];
+ return this->length() == 0;
}
- nonstd::optional<CommonValue<LibObjT>> operator[](const char * const key) noexcept
+ nonstd::optional<CommonValue<LibObjT>> operator[](const char * const key) const noexcept
{
const auto libObjPtr =
- internal::CommonMapValueSpec<LibObjT>::entryByKey(this->_libObjPtr(), key);
+ internal::CommonMapValueSpec<LibObjT>::entryByKey(this->libObjPtr(), key);
if (!libObjPtr) {
return nonstd::nullopt;
return CommonValue<LibObjT> {libObjPtr};
}
- nonstd::optional<CommonValue<LibObjT>> operator[](const std::string& key) noexcept
+ nonstd::optional<CommonValue<LibObjT>> operator[](const std::string& key) const noexcept
{
return (*this)[key.data()];
}
bool hasEntry(const char * const key) const noexcept
{
- return static_cast<bool>(bt_value_map_has_entry(this->_libObjPtr(), key));
+ return static_cast<bool>(bt_value_map_has_entry(this->libObjPtr(), key));
}
bool hasEntry(const std::string& key) const noexcept
return this->hasEntry(key.data());
}
- void insert(const char * const key, const Value& val)
+ void insert(const char * const key, const Value val) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstMapValue`.");
- const auto status = bt_value_map_insert_entry(this->_libObjPtr(), key, val._libObjPtr());
+ const auto status = bt_value_map_insert_entry(this->libObjPtr(), key, val.libObjPtr());
this->_handleInsertLibStatus(status);
}
- void insert(const std::string& key, const Value& val)
+ void insert(const std::string& key, const Value val) const
{
this->insert(key.data(), val);
}
- void insert(const char * const key, const bool rawVal)
+ void insert(const char * const key, const bool rawVal) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstMapValue`.");
const auto status =
- bt_value_map_insert_bool_entry(this->_libObjPtr(), key, static_cast<bt_bool>(rawVal));
+ bt_value_map_insert_bool_entry(this->libObjPtr(), key, static_cast<bt_bool>(rawVal));
this->_handleInsertLibStatus(status);
}
- void insert(const std::string& key, const bool rawVal)
+ void insert(const std::string& key, const bool rawVal) const
{
this->insert(key.data(), rawVal);
}
- void insert(const char * const key, const std::uint64_t rawVal)
+ void insert(const char * const key, const std::uint64_t rawVal) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstMapValue`.");
const auto status =
- bt_value_map_insert_unsigned_integer_entry(this->_libObjPtr(), key, rawVal);
+ bt_value_map_insert_unsigned_integer_entry(this->libObjPtr(), key, rawVal);
this->_handleInsertLibStatus(status);
}
- void insert(const std::string& key, const std::uint64_t rawVal)
+ void insert(const std::string& key, const std::uint64_t rawVal) const
{
this->insert(key.data(), rawVal);
}
- void insert(const char * const key, const std::int64_t rawVal)
+ void insert(const char * const key, const std::int64_t rawVal) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstMapValue`.");
const auto status =
- bt_value_map_insert_signed_integer_entry(this->_libObjPtr(), key, rawVal);
+ bt_value_map_insert_signed_integer_entry(this->libObjPtr(), key, rawVal);
this->_handleInsertLibStatus(status);
}
- void insert(const std::string& key, const std::int64_t rawVal)
+ void insert(const std::string& key, const std::int64_t rawVal) const
{
this->insert(key.data(), rawVal);
}
- void insert(const char * const key, const double rawVal)
+ void insert(const char * const key, const double rawVal) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstMapValue`.");
- const auto status = bt_value_map_insert_real_entry(this->_libObjPtr(), key, rawVal);
+ const auto status = bt_value_map_insert_real_entry(this->libObjPtr(), key, rawVal);
this->_handleInsertLibStatus(status);
}
- void insert(const std::string& key, const double rawVal)
+ void insert(const std::string& key, const double rawVal) const
{
this->insert(key.data(), rawVal);
}
- void insert(const char * const key, const char * const rawVal)
+ void insert(const char * const key, const char * const rawVal) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstMapValue`.");
- const auto status = bt_value_map_insert_string_entry(this->_libObjPtr(), key, rawVal);
+ const auto status = bt_value_map_insert_string_entry(this->libObjPtr(), key, rawVal);
this->_handleInsertLibStatus(status);
}
- void insert(const char * const key, const std::string& rawVal)
+ void insert(const char * const key, const std::string& rawVal) const
{
this->insert(key, rawVal.data());
}
- void insert(const std::string& key, const char * const rawVal)
+ void insert(const std::string& key, const char * const rawVal) const
{
this->insert(key.data(), rawVal);
}
- void insert(const std::string& key, const std::string& rawVal)
+ void insert(const std::string& key, const std::string& rawVal) const
{
this->insert(key.data(), rawVal.data());
}
- CommonArrayValue<bt_value> insertEmptyArray(const char *key);
- CommonArrayValue<bt_value> insertEmptyArray(const std::string& key);
- CommonMapValue<bt_value> insertEmptyMap(const char *key);
- CommonMapValue<bt_value> insertEmptyMap(const std::string& key);
+ CommonArrayValue<bt_value> insertEmptyArray(const char *key) const;
+ CommonArrayValue<bt_value> insertEmptyArray(const std::string& key) const;
+ CommonMapValue<bt_value> insertEmptyMap(const char *key) const;
+ CommonMapValue<bt_value> insertEmptyMap(const std::string& key) const;
- void forEach(const internal::CommonMapValueForEachUserFunc<ConstValue>& func) const
+ void forEach(const internal::CommonMapValueForEachUserFunc<CommonValue<LibObjT>>& func) const
{
- internal::CommonMapValueSpec<const bt_value>::forEach(this->_libObjPtr(), func);
- }
-
- void forEach(const internal::CommonMapValueForEachUserFunc<CommonValue<LibObjT>>& func)
- {
- internal::CommonMapValueSpec<LibObjT>::forEach(this->_libObjPtr(), func);
+ internal::CommonMapValueSpec<LibObjT>::forEach(this->libObjPtr(), func);
}
Shared shared() const noexcept
{
- return Shared {*this};
+ return Shared::createWithRef(*this);
}
private:
void _handleInsertLibStatus(const bt_value_map_insert_entry_status status) const
{
if (status == BT_VALUE_MAP_INSERT_ENTRY_STATUS_MEMORY_ERROR) {
- throw LibMemoryError {};
+ throw MemoryError {};
}
}
};
using MapValue = CommonMapValue<bt_value>;
using ConstMapValue = CommonMapValue<const bt_value>;
+namespace internal {
+
+struct MapValueTypeDescr
+{
+ using Const = ConstMapValue;
+ using NonConst = MapValue;
+};
+
+template <>
+struct TypeDescr<MapValue> : public MapValueTypeDescr
+{
+};
+
+template <>
+struct TypeDescr<ConstMapValue> : public MapValueTypeDescr
+{
+};
+
+} /* namespace internal */
+
+template <typename LibObjT>
+ArrayValue CommonValue<LibObjT>::appendEmptyArray() const
+{
+ return this->asArray().appendEmptyArray();
+}
+
+template <typename LibObjT>
+MapValue CommonValue<LibObjT>::appendEmptyMap() const
+{
+ return this->asArray().appendEmptyMap();
+}
+
+template <typename LibObjT>
+ArrayValue CommonValue<LibObjT>::insertEmptyArray(const char * const key) const
+{
+ return this->asMap().insertEmptyArray(key);
+}
+
+template <typename LibObjT>
+ArrayValue CommonValue<LibObjT>::insertEmptyArray(const std::string& key) const
+{
+ return this->asMap().insertEmptyArray(key);
+}
+
+template <typename LibObjT>
+MapValue CommonValue<LibObjT>::insertEmptyMap(const char * const key) const
+{
+ return this->asMap().insertEmptyMap(key);
+}
+
+template <typename LibObjT>
+MapValue CommonValue<LibObjT>::insertEmptyMap(const std::string& key) const
+{
+ return this->asMap().insertEmptyMap(key);
+}
+
template <typename LibObjT>
CommonNullValue<LibObjT> CommonValue<LibObjT>::asNull() const noexcept
{
BT_ASSERT_DBG(this->isNull());
- return CommonNullValue<LibObjT> {this->_libObjPtr()};
+ return CommonNullValue<LibObjT> {this->libObjPtr()};
}
template <typename LibObjT>
CommonBoolValue<LibObjT> CommonValue<LibObjT>::asBool() const noexcept
{
BT_ASSERT_DBG(this->isBool());
- return CommonBoolValue<LibObjT> {this->_libObjPtr()};
+ return CommonBoolValue<LibObjT> {this->libObjPtr()};
}
template <typename LibObjT>
CommonSignedIntegerValue<LibObjT> CommonValue<LibObjT>::asSignedInteger() const noexcept
{
BT_ASSERT_DBG(this->isSignedInteger());
- return CommonSignedIntegerValue<LibObjT> {this->_libObjPtr()};
+ return CommonSignedIntegerValue<LibObjT> {this->libObjPtr()};
}
template <typename LibObjT>
CommonUnsignedIntegerValue<LibObjT> CommonValue<LibObjT>::asUnsignedInteger() const noexcept
{
BT_ASSERT_DBG(this->isUnsignedInteger());
- return CommonUnsignedIntegerValue<LibObjT> {this->_libObjPtr()};
+ return CommonUnsignedIntegerValue<LibObjT> {this->libObjPtr()};
}
template <typename LibObjT>
CommonRealValue<LibObjT> CommonValue<LibObjT>::asReal() const noexcept
{
BT_ASSERT_DBG(this->isReal());
- return CommonRealValue<LibObjT> {this->_libObjPtr()};
+ return CommonRealValue<LibObjT> {this->libObjPtr()};
}
template <typename LibObjT>
CommonStringValue<LibObjT> CommonValue<LibObjT>::asString() const noexcept
{
BT_ASSERT_DBG(this->isString());
- return CommonStringValue<LibObjT> {this->_libObjPtr()};
+ return CommonStringValue<LibObjT> {this->libObjPtr()};
}
template <typename LibObjT>
CommonArrayValue<LibObjT> CommonValue<LibObjT>::asArray() const noexcept
{
BT_ASSERT_DBG(this->isArray());
- return CommonArrayValue<LibObjT> {this->_libObjPtr()};
+ return CommonArrayValue<LibObjT> {this->libObjPtr()};
}
template <typename LibObjT>
CommonMapValue<LibObjT> CommonValue<LibObjT>::asMap() const noexcept
{
BT_ASSERT_DBG(this->isMap());
- return CommonMapValue<LibObjT> {this->_libObjPtr()};
+ return CommonMapValue<LibObjT> {this->libObjPtr()};
}
template <typename LibObjT>
-ArrayValue CommonArrayValue<LibObjT>::appendEmptyArray()
+ArrayValue CommonArrayValue<LibObjT>::appendEmptyArray() const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstArrayValue`.");
bt_value *libElemPtr;
- const auto status = bt_value_array_append_empty_array_element(this->_libObjPtr(), &libElemPtr);
+ const auto status = bt_value_array_append_empty_array_element(this->libObjPtr(), &libElemPtr);
this->_handleAppendLibStatus(status);
return ArrayValue {libElemPtr};
}
template <typename LibObjT>
-MapValue CommonArrayValue<LibObjT>::appendEmptyMap()
+MapValue CommonArrayValue<LibObjT>::appendEmptyMap() const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstArrayValue`.");
bt_value *libElemPtr;
- const auto status = bt_value_array_append_empty_map_element(this->_libObjPtr(), &libElemPtr);
+ const auto status = bt_value_array_append_empty_map_element(this->libObjPtr(), &libElemPtr);
this->_handleAppendLibStatus(status);
return MapValue {libElemPtr};
}
template <typename LibObjT>
-ArrayValue CommonMapValue<LibObjT>::insertEmptyArray(const char * const key)
+ArrayValue CommonMapValue<LibObjT>::insertEmptyArray(const char * const key) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstMapValue`.");
bt_value *libEntryPtr;
- const auto status =
- bt_value_map_insert_empty_array_entry(this->_libObjPtr(), key, &libEntryPtr);
+ const auto status = bt_value_map_insert_empty_array_entry(this->libObjPtr(), key, &libEntryPtr);
this->_handleInsertLibStatus(status);
return ArrayValue {libEntryPtr};
}
template <typename LibObjT>
-ArrayValue CommonMapValue<LibObjT>::insertEmptyArray(const std::string& key)
+ArrayValue CommonMapValue<LibObjT>::insertEmptyArray(const std::string& key) const
{
return this->insertEmptyArray(key.data());
}
template <typename LibObjT>
-MapValue CommonMapValue<LibObjT>::insertEmptyMap(const char * const key)
+MapValue CommonMapValue<LibObjT>::insertEmptyMap(const char * const key) const
{
- static_assert(!std::is_const<LibObjT>::value, "`LibObjT` must NOT be `const`.");
+ static_assert(!std::is_const<LibObjT>::value, "Not available with `bt2::ConstMapValue`.");
bt_value *libEntryPtr;
- const auto status = bt_value_map_insert_empty_map_entry(this->_libObjPtr(), key, &libEntryPtr);
+ const auto status = bt_value_map_insert_empty_map_entry(this->libObjPtr(), key, &libEntryPtr);
this->_handleInsertLibStatus(status);
return MapValue {libEntryPtr};
}
template <typename LibObjT>
-MapValue CommonMapValue<LibObjT>::insertEmptyMap(const std::string& key)
+MapValue CommonMapValue<LibObjT>::insertEmptyMap(const std::string& key) const
{
return this->insertEmptyMap(key.data());
}
return StringValue::create(rawVal);
}
-} // namespace bt2
+} /* namespace bt2 */
-#endif // BABELTRACE_CPP_COMMON_BT2_VALUE_HPP
+#endif /* BABELTRACE_CPP_COMMON_BT2_VALUE_HPP */