src/third_party/mozjs-45/build/docs/defining-binaries.rst - cobalt - Git at Google

 .. _defining_binaries:

 ======================================
 Defining Binaries for the Build System
 ======================================

 One part of what the build system does is compile C/C++ and link the resulting
 objects to produce executables and/or libraries. This document describes the
 basics of defining what is going to be built and how. All the following
 describes constructs to use in moz.build files.


 Source files
 ============

 Source files to be used in a given directory are registered in the ``SOURCES``
 and ``UNIFIED_SOURCES`` variables. ``UNIFIED_SOURCES`` have a special behavior
 in that they are aggregated by batches of 16, requiring, for example, that there
 are no conflicting variables in those source files.

 ``SOURCES`` and ``UNIFIED_SOURCES`` are lists which must be appended to, and
 each append requires the given list to be alphanumerically ordered.

 .. code-block:: python

    UNIFIED_SOURCES += [
        'FirstSource.cpp',
        'SecondSource.cpp',
        'ThirdSource.cpp',
    ]

    SOURCES += [
        'OtherSource.cpp',
    ]

 ``SOURCES`` and ``UNIFIED_SOURCES`` can contain a mix of different file types,
 for C, C++, and Objective C.


 Static Libraries
 ================

 To build a static library, other than defining the source files (see above), one
 just needs to define a library name with the ``Library`` template.

 .. code-block:: python

    Library('foo')

 The library file name will be ``libfoo.a`` on UNIX systems and ``foo.lib`` on
 Windows.

 If the static library needs to aggregate other static libraries, a list of
 ``Library`` names can be added to the ``USE_LIBS`` variable. Like ``SOURCES``, it
 requires the appended list to be alphanumerically ordered.

 .. code-block:: python

    USE_LIBS += ['bar', 'baz']

 If there are multiple directories containing the same ``Library`` name, it is
 possible to disambiguate by prefixing with the path to the wanted one (relative
 or absolute):

 .. code-block:: python

    USE_LIBS += [
        '/path/from/topsrcdir/to/bar',
        '../relative/baz',
    ]

 Note that the leaf name in those paths is the ``Library`` name, not an actual
 file name.

 Note that currently, the build system may not create an actual library for
 static libraries. It is an implementation detail that shouldn't need to be
 worried about.

 As a special rule, ``USE_LIBS`` is allowed to contain references to shared
 libraries. In such cases, programs and shared libraries linking this static
 library will inherit those shared library dependencies.


 Intermediate (Static) Libraries
 ===============================

 In many cases in the tree, static libraries are built with the only purpose
 of being linked into another, bigger one (like libxul). Instead of adding all
 required libraries to ``USE_LIBS`` for the bigger one, it is possible to tell
 the build system that the library built in the current directory is meant to
 be linked to that bigger library, with the ``FINAL_LIBRARY`` variable.

 .. code-block:: python

    FINAL_LIBRARY = 'xul'

 The ``FINAL_LIBRARY`` value must match a unique ``Library`` name somewhere
 in the tree.

 As a special rule, those intermediate libraries don't need a ``Library`` name
 for themselves.


 Shared Libraries
 ================

 Sometimes, we want shared libraries, a.k.a. dynamic libraries. Such libraries
 are defined similarly to static libraries, using the ``SharedLibrary`` template
 instead of ``Library``.

 .. code-block:: python

    SharedLibrary('foo')

 When this template is used, no static library is built. See further below to
 build both types of libraries.

 With a ``SharedLibrary`` name of ``foo``, the library file name will be
 ``libfoo.dylib`` on OSX, ``libfoo.so`` on ELF systems (Linux, etc.), and
 ``foo.dll`` on Windows. On Windows, there is also an import library named
 ``foo.lib``, used on the linker command line. ``libfoo.dylib`` and
 ``libfoo.so`` are considered the import library name for, resp. OSX and ELF
 systems.

 On OSX, one may want to create a special kind of dynamic library: frameworks.
 This is done with the ``Framework`` template.

 .. code-block:: python

    Framework('foo')

 With a ``Framework`` name of ``foo``, the framework file name will be ``foo``.
 This template however affects the behavior on all platforms, so it needs to
 be set only on OSX.


 Executables
 ===========

 Executables, a.k.a. programs, are, in the simplest form, defined with the
 ``Program`` template.

 .. code-block:: python

    Program('foobar')

 On UNIX systems, the executable file name will be ``foobar``, while on Windows,
 it will be ``foobar.exe``.

 Like static and shared libraries, the build system can be instructed to link
 libraries to the executable with ``USE_LIBS``, listing various ``Library``
 names.

 In some cases, we want to create an executable per source file in the current
 directory, in which case we can use the ``SimplePrograms`` template

 .. code-block:: python

    SimplePrograms([
        'FirstProgram',
        'SecondProgram',
    ])

 Contrary to ``Program``, which requires corresponding ``SOURCES``, when using
 ``SimplePrograms``, the corresponding ``SOURCES`` are implied. If the
 corresponding ``sources`` have an extension different from ``.cpp``, it is
 possible to specify the proper extension:

 .. code-block:: python

    SimplePrograms([
        'ThirdProgram',
        'FourthProgram',
    ], ext='.c')

 Please note this construct was added for compatibility with what already lives
 in the mozilla tree ; it is recommended not to add new simple programs with
 sources with a different extension than ``.cpp``.

 Similar to ``SimplePrograms``, is the ``CppUnitTests`` template, which defines,
 with the same rules, C++ unit tests programs. Like ``SimplePrograms``, it takes
 an ``ext`` argument to specify the extension for the corresponding ``SOURCES``,
 if it's different from ``.cpp``.


 Linking with system libraries
 =============================

 Programs and libraries usually need to link with system libraries, such as a
 widget toolkit, etc. Those required dependencies can be given with the
 ``OS_LIBS`` variable.

 .. code-block:: python

    OS_LIBS += [
        'foo',
        'bar',
    ]

 This expands to ``foo.lib bar.lib`` when building with MSVC, and
 ``-lfoo -lbar`` otherwise.

 For convenience with ``pkg-config``, ``OS_LIBS`` can also take linker flags
 such as ``-L/some/path`` and ``-llib``, such that it is possible to directly
 assign ``LIBS`` variables from ``CONFIG``, such as:

 .. code-block:: python

    OS_LIBS += CONFIG['MOZ_PANGO_LIBS']

 (assuming ``CONFIG['MOZ_PANGO_LIBS']`` is a list, not a string)

 Like ``USE_LIBS``, this variable applies to static and shared libraries, as
 well as programs.


 Libraries from third party build system
 =======================================

 Some libraries in the tree are not built by the moz.build-governed build
 system, and there is no ``Library`` corresponding to them.

 However, ``USE_LIBS`` allows to reference such libraries by giving a full
 path (like when disambiguating identical ``Library`` names). The same naming
 rules apply as other uses of ``USE_LIBS``, so only the library name without
 prefix and suffix shall be given.

 .. code-block:: python

    USE_LIBS += [
        '/path/from/topsrcdir/to/third-party/bar',
        '../relative/third-party/baz',
    ]

 Note that ``/path/from/topsrcdir/to/third-party`` and
 ``../relative/third-party/baz`` must lead under a subconfigured directory (a
 directory with an AC_OUTPUT_SUBDIRS in configure.in), or ``security/nss``.


 Building both static and shared libraries
 =========================================

 When both types of libraries are required, one needs to set both
 ``FORCE_SHARED_LIB`` and ``FORCE_STATIC_LIB`` boolean variables.

 .. code-block:: python

    FORCE_SHARED_LIB = True
    FORCE_STATIC_LIB = True

 But because static libraries and Windows import libraries have the same file
 names, either the static or the shared library name needs to be different
 than the name given to the ``Library`` template.

 The ``STATIC_LIBRARY_NAME`` and ``SHARED_LIBRARY_NAME`` variables can be used
 to change either the static or the shared library name.

 .. code-block:: python

   Library('foo')
   STATIC_LIBRARY_NAME = 'foo_s'

 With the above, on Windows, ``foo_s.lib`` will be the static library,
 ``foo.dll`` the shared library, and ``foo.lib`` the import library.

 In some cases, for convenience, it is possible to set both
 ``STATIC_LIBRARY_NAME`` and ``SHARED_LIBRARY_NAME``. For example:

 .. code-block:: python

   Library('mylib')
   STATIC_LIBRARY_NAME = 'mylib_s'
   SHARED_LIBRARY_NAME = CONFIG['SHARED_NAME']

 This allows to use ``mylib`` in the ``USE_LIBS`` of another library or
 executable.

 When refering to a ``Library`` name building both types of libraries in
 ``USE_LIBS``, the shared library is chosen to be linked. But sometimes,
 it is wanted to link the static version, in which case the ``Library`` name
 needs to be prefixed with ``static:`` in ``USE_LIBS``

 ::

    a/moz.build:
       Library('mylib')
       FORCE_SHARED_LIB = True
       FORCE_STATIC_LIB = True
       STATIC_LIBRARY_NAME = 'mylib_s'
    b/moz.build:
       Program('myprog')
       USE_LIBS += [
           'static:mylib',
       ]


 Miscellaneous
 =============

 The ``SDK_LIBRARY`` boolean variable defines whether the library in the current
 directory is going to be installed in the SDK.

 The ``SONAME`` variable declares a "shared object name" for the library. It
 defaults to the ``Library`` name or the ``SHARED_LIBRARY_NAME`` if set. When
 linking to a library with a ``SONAME``, the resulting library or program will
 have a dependency on the library with the name corresponding to the ``SONAME``
 instead of the ``Library`` name. This only impacts ELF systems.

 ::

    a/moz.build:
       Library('mylib')
    b/moz.build:
       Library('otherlib')
       SONAME = 'foo'
    c/moz.build:
       Program('myprog')
       USE_LIBS += [
           'mylib',
           'otherlib',
       ]

 On e.g. Linux, the above ``myprog`` will have DT_NEEDED markers for
 ``libmylib.so`` and ``libfoo.so`` instead of ``libmylib.so`` and
 ``libotherlib.so`` if there weren't a ``SONAME``. This means the runtime
 requirement for ``myprog`` is ``libfoo.so`` instead of ``libotherlib.so``.


 Gecko-related binaries
 ======================

 Some programs or libraries are totally independent of Gecko, and can use the
 above mentioned templates. Others are Gecko-related in some way, and may
 need XPCOM linkage, mozglue. These things are tedious. A set of additional
 templates exists to ease defining such programs and libraries. They are
 essentially the same as the above mentioned templates, prefixed with "Gecko":

   - ``GeckoProgram``
   - ``GeckoSimplePrograms``
   - ``GeckoCppUnitTests``
   - ``GeckoSharedLibrary``
   - ``GeckoFramework``

 There is also ``XPCOMBinaryComponent`` for XPCOM components, which is a
 special kind of library.

 All the Gecko-prefixed templates take the same arguments as their
 non-Gecko-prefixed counterparts, and can take a few more arguments
 for non-standard cases. See the definition of ``GeckoBinary`` in
 build/gecko_templates.mozbuild for more details, but most usecases
 should not require these additional arguments.
	.. _defining_binaries:

	======================================
	Defining Binaries for the Build System
	======================================

	One part of what the build system does is compile C/C++ and link the resulting
	objects to produce executables and/or libraries. This document describes the
	basics of defining what is going to be built and how. All the following
	describes constructs to use in moz.build files.


	Source files
	============

	Source files to be used in a given directory are registered in the ``SOURCES``
	and ``UNIFIED_SOURCES`` variables. ``UNIFIED_SOURCES`` have a special behavior
	in that they are aggregated by batches of 16, requiring, for example, that there
	are no conflicting variables in those source files.

	``SOURCES`` and ``UNIFIED_SOURCES`` are lists which must be appended to, and
	each append requires the given list to be alphanumerically ordered.

	.. code-block:: python

	UNIFIED_SOURCES += [
	'FirstSource.cpp',
	'SecondSource.cpp',
	'ThirdSource.cpp',
	]

	SOURCES += [
	'OtherSource.cpp',
	]

	``SOURCES`` and ``UNIFIED_SOURCES`` can contain a mix of different file types,
	for C, C++, and Objective C.


	Static Libraries
	================

	To build a static library, other than defining the source files (see above), one
	just needs to define a library name with the ``Library`` template.

	.. code-block:: python

	Library('foo')

	The library file name will be ``libfoo.a`` on UNIX systems and ``foo.lib`` on
	Windows.

	If the static library needs to aggregate other static libraries, a list of
	``Library`` names can be added to the ``USE_LIBS`` variable. Like ``SOURCES``, it
	requires the appended list to be alphanumerically ordered.

	.. code-block:: python

	USE_LIBS += ['bar', 'baz']

	If there are multiple directories containing the same ``Library`` name, it is
	possible to disambiguate by prefixing with the path to the wanted one (relative
	or absolute):

	.. code-block:: python

	USE_LIBS += [
	'/path/from/topsrcdir/to/bar',
	'../relative/baz',
	]

	Note that the leaf name in those paths is the ``Library`` name, not an actual
	file name.

	Note that currently, the build system may not create an actual library for
	static libraries. It is an implementation detail that shouldn't need to be
	worried about.

	As a special rule, ``USE_LIBS`` is allowed to contain references to shared
	libraries. In such cases, programs and shared libraries linking this static
	library will inherit those shared library dependencies.


	Intermediate (Static) Libraries
	===============================

	In many cases in the tree, static libraries are built with the only purpose
	of being linked into another, bigger one (like libxul). Instead of adding all
	required libraries to ``USE_LIBS`` for the bigger one, it is possible to tell
	the build system that the library built in the current directory is meant to
	be linked to that bigger library, with the ``FINAL_LIBRARY`` variable.

	.. code-block:: python

	FINAL_LIBRARY = 'xul'

	The ``FINAL_LIBRARY`` value must match a unique ``Library`` name somewhere
	in the tree.

	As a special rule, those intermediate libraries don't need a ``Library`` name
	for themselves.


	Shared Libraries
	================

	Sometimes, we want shared libraries, a.k.a. dynamic libraries. Such libraries
	are defined similarly to static libraries, using the ``SharedLibrary`` template
	instead of ``Library``.

	.. code-block:: python

	SharedLibrary('foo')

	When this template is used, no static library is built. See further below to
	build both types of libraries.

	With a ``SharedLibrary`` name of ``foo``, the library file name will be
	``libfoo.dylib`` on OSX, ``libfoo.so`` on ELF systems (Linux, etc.), and
	``foo.dll`` on Windows. On Windows, there is also an import library named
	``foo.lib``, used on the linker command line. ``libfoo.dylib`` and
	``libfoo.so`` are considered the import library name for, resp. OSX and ELF
	systems.

	On OSX, one may want to create a special kind of dynamic library: frameworks.
	This is done with the ``Framework`` template.

	.. code-block:: python

	Framework('foo')

	With a ``Framework`` name of ``foo``, the framework file name will be ``foo``.
	This template however affects the behavior on all platforms, so it needs to
	be set only on OSX.


	Executables
	===========

	Executables, a.k.a. programs, are, in the simplest form, defined with the
	``Program`` template.

	.. code-block:: python

	Program('foobar')

	On UNIX systems, the executable file name will be ``foobar``, while on Windows,
	it will be ``foobar.exe``.

	Like static and shared libraries, the build system can be instructed to link
	libraries to the executable with ``USE_LIBS``, listing various ``Library``
	names.

	In some cases, we want to create an executable per source file in the current
	directory, in which case we can use the ``SimplePrograms`` template

	.. code-block:: python

	SimplePrograms([
	'FirstProgram',
	'SecondProgram',
	])

	Contrary to ``Program``, which requires corresponding ``SOURCES``, when using
	``SimplePrograms``, the corresponding ``SOURCES`` are implied. If the
	corresponding ``sources`` have an extension different from ``.cpp``, it is
	possible to specify the proper extension:

	.. code-block:: python

	SimplePrograms([
	'ThirdProgram',
	'FourthProgram',
	], ext='.c')

	Please note this construct was added for compatibility with what already lives
	in the mozilla tree ; it is recommended not to add new simple programs with
	sources with a different extension than ``.cpp``.

	Similar to ``SimplePrograms``, is the ``CppUnitTests`` template, which defines,
	with the same rules, C++ unit tests programs. Like ``SimplePrograms``, it takes
	an ``ext`` argument to specify the extension for the corresponding ``SOURCES``,
	if it's different from ``.cpp``.


	Linking with system libraries
	=============================

	Programs and libraries usually need to link with system libraries, such as a
	widget toolkit, etc. Those required dependencies can be given with the
	``OS_LIBS`` variable.

	.. code-block:: python

	OS_LIBS += [
	'foo',
	'bar',
	]

	This expands to ``foo.lib bar.lib`` when building with MSVC, and
	``-lfoo -lbar`` otherwise.

	For convenience with ``pkg-config``, ``OS_LIBS`` can also take linker flags
	such as ``-L/some/path`` and ``-llib``, such that it is possible to directly
	assign ``LIBS`` variables from ``CONFIG``, such as:

	.. code-block:: python

	OS_LIBS += CONFIG['MOZ_PANGO_LIBS']

	(assuming ``CONFIG['MOZ_PANGO_LIBS']`` is a list, not a string)

	Like ``USE_LIBS``, this variable applies to static and shared libraries, as
	well as programs.


	Libraries from third party build system
	=======================================

	Some libraries in the tree are not built by the moz.build-governed build
	system, and there is no ``Library`` corresponding to them.

	However, ``USE_LIBS`` allows to reference such libraries by giving a full
	path (like when disambiguating identical ``Library`` names). The same naming
	rules apply as other uses of ``USE_LIBS``, so only the library name without
	prefix and suffix shall be given.

	.. code-block:: python

	USE_LIBS += [
	'/path/from/topsrcdir/to/third-party/bar',
	'../relative/third-party/baz',
	]

	Note that ``/path/from/topsrcdir/to/third-party`` and
	``../relative/third-party/baz`` must lead under a subconfigured directory (a
	directory with an AC_OUTPUT_SUBDIRS in configure.in), or ``security/nss``.


	Building both static and shared libraries
	=========================================

	When both types of libraries are required, one needs to set both
	``FORCE_SHARED_LIB`` and ``FORCE_STATIC_LIB`` boolean variables.

	.. code-block:: python

	FORCE_SHARED_LIB = True
	FORCE_STATIC_LIB = True

	But because static libraries and Windows import libraries have the same file
	names, either the static or the shared library name needs to be different
	than the name given to the ``Library`` template.

	The ``STATIC_LIBRARY_NAME`` and ``SHARED_LIBRARY_NAME`` variables can be used
	to change either the static or the shared library name.

	.. code-block:: python

	Library('foo')
	STATIC_LIBRARY_NAME = 'foo_s'

	With the above, on Windows, ``foo_s.lib`` will be the static library,
	``foo.dll`` the shared library, and ``foo.lib`` the import library.

	In some cases, for convenience, it is possible to set both
	``STATIC_LIBRARY_NAME`` and ``SHARED_LIBRARY_NAME``. For example:

	.. code-block:: python

	Library('mylib')
	STATIC_LIBRARY_NAME = 'mylib_s'
	SHARED_LIBRARY_NAME = CONFIG['SHARED_NAME']

	This allows to use ``mylib`` in the ``USE_LIBS`` of another library or
	executable.

	When refering to a ``Library`` name building both types of libraries in
	``USE_LIBS``, the shared library is chosen to be linked. But sometimes,
	it is wanted to link the static version, in which case the ``Library`` name
	needs to be prefixed with ``static:`` in ``USE_LIBS``

	::

	a/moz.build:
	Library('mylib')
	FORCE_SHARED_LIB = True
	FORCE_STATIC_LIB = True
	STATIC_LIBRARY_NAME = 'mylib_s'
	b/moz.build:
	Program('myprog')
	USE_LIBS += [
	'static:mylib',
	]


	Miscellaneous
	=============

	The ``SDK_LIBRARY`` boolean variable defines whether the library in the current
	directory is going to be installed in the SDK.

	The ``SONAME`` variable declares a "shared object name" for the library. It
	defaults to the ``Library`` name or the ``SHARED_LIBRARY_NAME`` if set. When
	linking to a library with a ``SONAME``, the resulting library or program will
	have a dependency on the library with the name corresponding to the ``SONAME``
	instead of the ``Library`` name. This only impacts ELF systems.

	::

	a/moz.build:
	Library('mylib')
	b/moz.build:
	Library('otherlib')
	SONAME = 'foo'
	c/moz.build:
	Program('myprog')
	USE_LIBS += [
	'mylib',
	'otherlib',
	]

	On e.g. Linux, the above ``myprog`` will have DT_NEEDED markers for
	``libmylib.so`` and ``libfoo.so`` instead of ``libmylib.so`` and
	``libotherlib.so`` if there weren't a ``SONAME``. This means the runtime
	requirement for ``myprog`` is ``libfoo.so`` instead of ``libotherlib.so``.


	Gecko-related binaries
	======================

	Some programs or libraries are totally independent of Gecko, and can use the
	above mentioned templates. Others are Gecko-related in some way, and may
	need XPCOM linkage, mozglue. These things are tedious. A set of additional
	templates exists to ease defining such programs and libraries. They are
	essentially the same as the above mentioned templates, prefixed with "Gecko":

	- ``GeckoProgram``
	- ``GeckoSimplePrograms``
	- ``GeckoCppUnitTests``
	- ``GeckoSharedLibrary``
	- ``GeckoFramework``

	There is also ``XPCOMBinaryComponent`` for XPCOM components, which is a
	special kind of library.

	All the Gecko-prefixed templates take the same arguments as their
	non-Gecko-prefixed counterparts, and can take a few more arguments
	for non-standard cases. See the definition of ``GeckoBinary`` in
	build/gecko_templates.mozbuild for more details, but most usecases
	should not require these additional arguments.