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# Wrap best practices and tips
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There are several things you need to take into consideration when
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writing a Meson build definition for a project. This is especially
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true when the project will be used as a subproject. This page lists a
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few things to consider when writing your definitions.
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## Do not put config.h in external search path
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Many projects use a `config.h` header file that they use for
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configuring their project internally. These files are never installed
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to the system header files so there are no inclusion collisions. This
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is not the case with subprojects, your project tree may have an
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arbitrary number of configuration files, so we need to ensure they
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don't clash.
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The basic problem is that the users of the subproject must be able to
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include subproject headers without seeing its `config.h` file. The
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most correct solution is to rename the `config.h` file into something
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unique, such as `foobar-config.h`. This is usually not feasible unless
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you are the maintainer of the subproject in question.
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The pragmatic solution is to put the config header in a directory that
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has no other header files and then hide that from everyone else. One
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way is to create a top level subdirectory called `internal` and use
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that to build your own sources, like this:
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```meson
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subdir('internal') # create config.h in this subdir
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internal_inc = include_directories('internal')
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shared_library('foo', 'foo.c', include_directories : internal_inc)
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```
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Many projects keep their `config.h` in the top level directory that
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has no other source files in it. In that case you don't need to move
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it but can just do this instead:
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```meson
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internal_inc = include_directories('.') # At top level meson.build
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```
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## Make libraries buildable both as static and shared
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Some platforms (e.g. iOS) requires linking everything in your main app
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statically. In other cases you might want shared libraries. They are
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also faster during development due to Meson's relinking
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optimization. However building both library types on all builds is
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slow and wasteful.
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Your project should use the `library` method that can be toggled
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between shared and static with the `default_library` builtin option.
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```meson
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mylib = library('foo', 'foo.c')
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```
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## Declare generated headers explicitly
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Meson's Ninja backend works differently from Make and other
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systems. Rather than processing things directory per directory, it
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looks at the entire build definition at once and runs the individual
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compile jobs in what might look to the outside as a random order.
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The reason for this is that this is much more efficient so your builds
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finish faster. The downside is that you have to be careful with your
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dependencies. The most common problem here is headers that are
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generated at compile time with e.g. code generators. If these headers
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are needed when building code that uses these libraries, the compile
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job might be run before the code generation step. The fix is to make
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the dependency explicit like this:
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```meson
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myheader = custom_target(...)
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mylibrary = shared_library(...)
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mydep = declare_dependency(link_with : mylibrary,
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include_directories : include_directories(...),
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sources : myheader)
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```
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And then you can use the dependency in the usual way:
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```meson
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executable('dep_using_exe', 'main.c',
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dependencies : mydep)
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```
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Meson will ensure that the header file has been built before compiling `main.c`.
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## Avoid exposing compilable source files in declare_dependency
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The main use for the `sources` argument in `declare_dependency` is to
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construct the correct dependency graph for the backends, as
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demonstrated in the previous section. It is extremely important to
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note that it should *not* be used to directly expose compilable
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sources (`.c`, `.cpp`, etc.) of dependencies, and should rather only
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be used for header/config files. The following example will illustrate
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what can go wrong if you accidentally expose compilable source files.
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So you've read about unity builds and how Meson natively supports
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them. You decide to expose the sources of dependencies in order to
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have unity builds that include their dependencies. For your support
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library you do
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```meson
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my_support_sources = files(...)
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mysupportlib = shared_library(
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...
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sources : my_support_sources,
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...)
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mysupportlib_dep = declare_dependency(
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...
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link_with : mylibrary,
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sources : my_support_sources,
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...)
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```
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And for your main project you do:
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```meson
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mylibrary = shared_library(
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...
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dependencies : mysupportlib_dep,
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...)
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myexe = executable(
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...
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link_with : mylibrary,
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dependencies : mysupportlib_dep,
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...)
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```
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This is extremely dangerous. When building, `mylibrary` will build and
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link the support sources `my_support_sources` into the resulting
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shared library. Then, for `myexe`, these same support sources will be
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compiled again, will be linked into the resulting executable, in
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addition to them being already present in `mylibrary`. This can
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quickly run afoul of the [One Definition Rule
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(ODR)](https://en.wikipedia.org/wiki/One_Definition_Rule) in C++, as
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you have more than one definition of a symbol, yielding undefined
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behavior. While C does not have a strict ODR rule, there is no
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language in the standard which guarantees such behavior to
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work. Violations of the ODR can lead to weird idiosyncratic failures
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such as segfaults. In the overwhelming number of cases, exposing
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library sources via the `sources` argument in `declare_dependency` is
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thus incorrect. If you wish to get full cross-library performance,
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consider building `mysupportlib` as a static library instead and
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employing LTO.
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There are exceptions to this rule. If there are some natural
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constraints on how your library is to be used, you can expose
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sources. For instance, the WrapDB module for GoogleTest directly
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exposes the sources of GTest and GMock. This is valid, as GTest and
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GMock will only ever be used in *terminal* link targets. A terminal
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target is the final target in a dependency link chain, for instance
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`myexe` in the last example, whereas `mylibrary` is an intermediate
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link target. For most libraries this rule is not applicable though, as
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you cannot in general control how others consume your library, and as
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such should not expose sources.
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