# Supported Macros

Some aspects of the library can be configured by defining preprocessor macros before including the `json.hpp` header.
See also the [API documentation for macros](../api/macros/index.md) for examples and more information.

## `JSON_ASSERT(x)`

This macro controls which code is executed for [runtime assertions](assertions.md) of the library.

See [full documentation of `JSON_ASSERT(x)`](../api/macros/json_assert.md).

## `JSON_CATCH_USER(exception)`

This macro overrides [`#!cpp catch`](https://en.cppreference.com/w/cpp/language/try_catch) calls inside the library.

See [full documentation of `JSON_CATCH_USER(exception)`](../api/macros/json_throw_user.md).

## `JSON_DIAGNOSTICS`

This macro enables extended diagnostics for exception messages. Possible values are `1` to enable or `0` to disable
(default).

When enabled, exception messages contain a [JSON Pointer](json_pointer.md) to the JSON value that triggered the
exception, see [Extended diagnostic messages](../home/exceptions.md#extended-diagnostic-messages) for an example. Note
that enabling this macro increases the size of every JSON value by one pointer and adds some runtime overhead.

The diagnostics messages can also be controlled with the CMake option `JSON_Diagnostics` (`OFF` by default) which sets
`JSON_DIAGNOSTICS` accordingly.

See [full documentation of `JSON_DIAGNOSTICS`](../api/macros/json_diagnostics.md).

## `JSON_HAS_CPP_11`, `JSON_HAS_CPP_14`, `JSON_HAS_CPP_17`, `JSON_HAS_CPP_20`

The library targets C++11, but also supports some features introduced in later C++ versions (e.g., `std::string_view`
support for C++17). For these new features, the library implements some preprocessor checks to determine the C++
standard. By defining any of these symbols, the internal check is overridden and the provided C++ version is
unconditionally assumed. This can be helpful for compilers that only implement parts of the standard and would be
detected incorrectly.

See [full documentation of `JSON_HAS_CPP_11`, `JSON_HAS_CPP_14`, `JSON_HAS_CPP_17`, and `JSON_HAS_CPP_20`](../api/macros/json_has_cpp_11.md).

## `JSON_HAS_FILESYSTEM`, `JSON_HAS_EXPERIMENTAL_FILESYSTEM`

When compiling with C++17, the library provides conversions from and to `std::filesystem::path`. As compiler support
for filesystem is limited, the library tries to detect whether `<filesystem>`/`std::filesystem` (`JSON_HAS_FILESYSTEM`)
or `<experimental/filesystem>`/`std::experimental::filesystem` (`JSON_HAS_EXPERIMENTAL_FILESYSTEM`) should be used.
To override the built-in check, define `JSON_HAS_FILESYSTEM` or `JSON_HAS_EXPERIMENTAL_FILESYSTEM` to `1`.

See [full documentation of `JSON_HAS_FILESYSTEM` and `JSON_HAS_EXPERIMENTAL_FILESYSTEM`](../api/macros/json_has_filesystem.md).

## `JSON_NOEXCEPTION`

Exceptions can be switched off by defining the symbol `JSON_NOEXCEPTION`.

See [full documentation of `JSON_NOEXCEPTION`](../api/macros/json_noexception.md).

## `JSON_NO_IO`

When defined, headers `<cstdio>`, `<ios>`, `<iosfwd>`, `<istream>`, and `<ostream>` are not included and parse functions
relying on these headers are excluded. This is relevant for environment where these I/O functions are disallowed for
security reasons (e.g., Intel Software Guard Extensions (SGX)).

See [full documentation of `JSON_NO_IO`](../api/macros/json_no_io.md).

## `JSON_SKIP_LIBRARY_VERSION_CHECK`

When defined, the library will not create a compiler warning when a different version of the library was already
included.

See [full documentation of `JSON_SKIP_LIBRARY_VERSION_CHECK`](../api/macros/json_skip_library_version_check.md).

## `JSON_SKIP_UNSUPPORTED_COMPILER_CHECK`

When defined, the library will not create a compile error when a known unsupported compiler is detected. This allows to
use the library with compilers that do not fully support C++11 and may only work if unsupported features are not used.

See [full documentation of `JSON_SKIP_UNSUPPORTED_COMPILER_CHECK`](../api/macros/json_skip_unsupported_compiler_check.md).

## `JSON_THROW_USER(exception)`

This macro overrides `#!cpp throw` calls inside the library. The argument is the exception to be thrown.

See [full documentation of `JSON_THROW_USER(exception)`](../api/macros/json_throw_user.md).

## `JSON_TRY_USER`

This macro overrides `#!cpp try` calls inside the library.

See [full documentation of `JSON_TRY_USER`](../api/macros/json_throw_user.md).

## `JSON_USE_IMPLICIT_CONVERSIONS`

When defined to `0`, implicit conversions are switched off. By default, implicit conversions are switched on.

See [full documentation of `JSON_USE_IMPLICIT_CONVERSIONS`](../api/macros/json_use_implicit_conversions.md).

## `NLOHMANN_DEFINE_TYPE_INTRUSIVE(type, member...)`

This macro can be used to simplify the serialization/deserialization of types if (1) want to use a JSON object as
serialization and (2) want to use the member variable names as object keys in that object.

The macro is to be defined inside the class/struct to create code for. Unlike
[`NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE`](#nlohmann_define_type_non_intrusivetype-member), it can access private members.
The first parameter is the name of the class/struct, and all remaining parameters name the members.

See [full documentation of `NLOHMANN_DEFINE_TYPE_INTRUSIVE`](../api/macros/nlohmann_define_type_intrusive.md).

## `NLOHMANN_DEFINE_TYPE_INTRUSIVE_WITH_DEFAULT(type, member...)`

This macro is similar to `NLOHMANN_DEFINE_TYPE_INTRUSIVE`. It will not throw an exception in `from_json()` due to a
missing value in the JSON object, but can throw due to a mismatched type. The `from_json()` function default constructs
an object and uses its values as the defaults when calling the [`value`](../api/basic_json/value.md) function.

See [full documentation of `NLOHMANN_DEFINE_TYPE_INTRUSIVE_WITH_DEFAULT`](../api/macros/nlohmann_define_type_intrusive.md).

## `NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE(type, member...)`

This macro can be used to simplify the serialization/deserialization of types if (1) want to use a JSON object as
serialization and (2) want to use the member variable names as object keys in that object.

The macro is to be defined inside the namespace of the class/struct to create code for. Private members cannot be
accessed. Use [`NLOHMANN_DEFINE_TYPE_INTRUSIVE`](#nlohmann_define_type_intrusivetype-member) in these scenarios. The
first parameter is the name of the class/struct, and all remaining parameters name the members.

See [full documentation of `NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE`](../api/macros/nlohmann_define_type_non_intrusive.md).

## `NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE_WITH_DEFAULT(type, member...)`

This macro is similar to `NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE`. It will not throw an exception in `from_json()` due to a
missing value in the JSON object, but can throw due to a mismatched type. The `from_json()` function default constructs
an object and uses its values as the defaults when calling the [`value`](../api/basic_json/value.md) function.

See [full documentation of `NLOHMANN_DEFINE_TYPE_NON_INTRUSIVE_WITH_DEFAULT`](../api/macros/nlohmann_define_type_non_intrusive.md).

## `NLOHMANN_JSON_SERIALIZE_ENUM(type, ...)`

This macro simplifies the serialization/deserialization of enum types. See
[Specializing enum conversion](enum_conversion.md) for more information.

See [full documentation of `NLOHMANN_JSON_SERIALIZE_ENUM`](../api/macros/nlohmann_json_serialize_enum.md).

## `NLOHMANN_JSON_VERSION_MAJOR`, `NLOHMANN_JSON_VERSION_MINOR`, `NLOHMANN_JSON_VERSION_PATCH`

These macros are defined by the library and contain the version numbers according to
[Semantic Versioning 2.0.0](https://semver.org/spec/v2.0.0.html).

See [full documentation of `NLOHMANN_JSON_VERSION_MAJOR`, `NLOHMANN_JSON_VERSION_MINOR`, and `NLOHMANN_JSON_VERSION_PATCH`](../api/macros/nlohmann_json_version_major.md).