Crash Course: configuration
Table of Contents
EnTT doesn't offer many hooks for customization but it certainly offers
In the vast majority of cases, users will have no interest in changing the default parameters. For all other cases, the list of possible configurations with which it's possible to adjust the behavior of the library at runtime can be found below.
All options are intended as parameters to the compiler (or user-defined macros
within the compilation units, if preferred).
Each parameter can result in internal library definitions. It's not recommended to try to also modify these definitions, since there is no guarantee that they will remain stable over time unlike the options below.
The purpose of this parameter is to suppress the use of
noexcept by this
To do this, simply define the variable without assigning any value to it.
EnTT doesn't offer primitives to support multi-threading. Many of
the features can be split over multiple threads without any explicit control and
the user is the only one who knows if and when a synchronization point is
However, some features aren't easily accessible to users and can be made thread-safe by means of this definition.
entt::id_type is directly controlled by this definition and widely used within
By default, its type is
std::uint32_t. However, users can define a different
default type if necessary.
It's known that the ECS module of
EnTT is based on sparse sets. What is less
known perhaps is that the sparse arrays are paged to reduce memory usage.
Default size of pages (that is, the number of elements they contain) is 4096 but users can adjust it if appropriate. In all case, the chosen value must be a power of 2.
Similar to sparse arrays, packed arrays of components are paginated as well. In
However, int this case the aim isn't to reduce memory usage but to have pointer
stability upon component creation.
Default size of pages (that is, the number of elements they contain) is 1024 but users can adjust it if appropriate. In all case, the chosen value must be a power of 2.
For performance reasons,
EnTT doesn't use exceptions or any other control
structures. In fact, it offers many features that result in undefined behavior
if not used correctly.
To get around this, the library relies on a lot of asserts for the purpose of detecting errors in debug builds. By default, it uses
assert internally, but
users are allowed to overwrite its behavior by setting this variable.
Assertions may in turn affect performance to an extent when enabled. Whether
ENTT_ASSERT is redefined or not, all asserts can be disabled at once by means
of this definition.
ENTT_DISABLE_ASSERT takes precedence over the redefinition of
ENTT_ASSERT and is therefore meant to disable all controls no matter what.
In order to reduce memory consumption and increase performance, empty types are
never stored by the ECS module of
Use this variable to treat these types like all others and therefore to create a dedicated storage for them.
EnTT mixes non-standard language features with others that are perfectly
compliant to offer some of its functionalities.
This definition will prevent the library from using non-standard techniques, that is, functionalities that aren't fully compliant with the standard C++.
While there are no known portability issues at the time of this writing, this should make the library fully portable anyway if needed.