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- Packages and Layout
- ###################
-
- The units of distribution in ``dds`` are *packages*. A single package consists
- of one or more *libraries*. In the simplest case, a package will contain a
- single library.
-
- It may be easiest to work from the bottom-up when trying to understand how
- ``dds`` understands code.
-
- The layout expected by ``dds`` is based on the `Pitchfork layout`_ (PFL).
- ``dds`` does not make use of every provision of the layout document, but the
- features it does have are based on PFL.
-
- .. _Pitchfork layout: https://api.csswg.org/bikeshed/?force=1&url=https://raw.githubusercontent.com/vector-of-bool/pitchfork/develop/data/spec.bs
-
- In particular, the following directories are used:
-
- - ``src/``
- - ``include/``
- - ``libs/``
- - ``_build/`` (the default build output directory used by ``dds``).
-
- Note that the ``libs/*/`` directories can contain their own ``src/`` and
- ``include/`` directories, the purposes and behaviors of which match those of
- their top-level counterparts.
-
-
- Source Files
- ************
-
- The smallest subdivision of code that ``dds`` recognizes is the *source file*,
- which is exactly as it sounds: A single file containing some amount of code.
-
- Source files can be grouped on a few axes, the most fundamental of which is
- "Is this compiled?"
-
- ``dds`` uses source file extensions to determine whether a source file should
- be fed to the compiler. All of the common C and C++ file extensions are
- supported:
-
- .. list-table::
-
- - * Compiled as C
- * ``.c`` and ``.C``
-
- - * Compiled as C++
- * ``.cpp``, ``.c++``, ``.cc``, and ``.cxx``
-
- - * Not compiled
- * ``.H``, ``.H++``, ``.h``, ``.h++``, ``.hh``, ``.hpp``, ``.hxx``, and ``.inl``
-
- If a file's extension is not listed in the table above, ``dds`` will ignore it.
-
- .. note::
- Although headers are not compiled, this does not mean they are ignored.
- ``dds`` still understands and respects headers, and they are collected
- together as part of *source distribution*.
-
-
- .. _pkgs.apps-tests:
-
- Applications and Tests
- **********************
-
- ``dds`` will recognize certain compilable source files as belonging to
- applications and tests. If a compilable source file stem ends with ``.main`` or
- ``.test``, that source file is assumed to correspond to an executable to
- generate. The filename stem before the ``.main`` or ``.test`` will be used as
- the name of the generated executable. For example:
-
- - ``foo.main.cpp`` will generate an executable named ``foo``.
- - ``bar.test.cpp`` will generate an executable named ``bar``.
- - ``cat-meow.main.cpp`` will generate an executable named ``cat-meow``.
- - ``cats.musical.test.cpp`` will generate an executable named ``cats.musical``.
-
- .. note::
- ``dds`` will automatically append the appropriate filename extension to the
- generated executables based on the host and toolchain.
-
- An *application* source file is a source file whose file stem ends with
- ``.main``. ``dds`` will assume this source file to contain a program entry
- point function and not include it as part of the main library build. Instead,
- when ``dds`` is generating applications, the source file will be compiled, and
- the resulting object will be linked together with the enclosing library into an
- executable.
-
- A *test* source file is a source file whose file stem ends with ``.test``. Like
- application sources, a *test* source file is omitted from the main library, and
- it will be used to generate tests. The exact behavior of tests is determined by
- the ``Test-Driver`` setting for the package, but the default is that each test
- source file will generate a single test executable that is executed by ``dds``
- when running unit tests.
-
- The building of tests and applications can be controlled when running
- ``dds build``. If tests are built, ``dds`` will automatically execute those
- tests in parallel once the executables have been generated.
-
- In any case, the executables are associated with a *library*, and, when those
- executables are linked, the associated library (and its dependencies) will be
- linked into the final executable. There is no need to manually specify this
- linking behavior.
-
-
- .. _pkg.source-root:
-
- Source Roots
- ************
-
- Source files are collected as children of some *source root*. A *source
- root* is a single directory that contains some *portable* bundle of source
- files. The word "portable" is important: It is what distinguishes the
- source root from its child directories.
-
-
- Portability
- ===========
-
- By saying that a source root is "portable", It indicates that the directory
- itself can be moved, renamed, or copied without breaking the ``#include``
- directives of its children or of the directory's referrers.
-
- As a practical example, let's examine such a directory, which we'll call
- ``src/`` for the purposes of this example. Suppose we have a directory named
- ``src`` with the following structure:
-
- .. code-block:: text
-
- <path>/src/
- animals/
- mammal/
- mammal.hpp
- cat/
- cat.hpp
- sound.hpp
- sound.cpp
- dog/
- dog.hpp
- sound.hpp
- sound.cpp
-
- In this example, ``src/`` is a *source root*, but ``src/animals/``,
- ``src/animals/cat/``, and ``src/animals/dog/`` are **not** source roots.
- While they may be directories that contain source files, they are not "roots."
-
- Suppose now that ``dog.hpp`` contains an ``#include`` directive:
-
- .. code-block:: c++
-
- #include <animals/mammal/mammal.hpp>
-
- or even a third-party user that wants to use our library:
-
- .. code-block:: c++
-
- #include <animals/dog/dog.hpp>
- #include <animals/dog/sound.hpp>
-
- In order for any code to compile and resolve these ``#include`` directives, the
- ``src/`` directory must be added to their *include search path*.
-
- Because the ``#include`` directives are based on the *portable* source root,
- the exactly location of ``src/`` is not important to the content of the
- consuming source code, and can thus be relocated and renamed as necessary.
- Consumers only need to update the path of the *include search path* in a single
- location rather than modifying their source code.
-
-
- .. _pkgs.source-root:
-
- Source Roots in ``dds``
- =======================
-
- To avoid ambiguity and aide in portability, the following rules should be
- strictly adhered to:
-
- #. Source roots may not contain other source roots.
- #. Only source roots will be added to the *include-search-path*.
- #. All ``#include``-directives are relative to a source root.
-
- By construction, ``dds`` cannot build a project that has nested source roots,
- and it will only ever add source roots to the *include-search-path*.
-
- ``dds`` supports either one or two source roots in a library.
-
-
- .. _pkgs.lib-roots:
-
- Library Roots
- *************
-
- In ``dds``, a *library root* is a directory that contains a ``src/`` directory,
- an ``include/`` directory, or both. ``dds`` will treat both directories as
- source roots, but behaves differently between the two. The ``src/`` and
- ``include/`` directories are themselves *source roots*.
-
- ``dds`` distinguishes between a *public* include-directory, and a *private*
- include-directory. When ``dds`` is compiling a library, both its *private* and
- its *public* include-paths will be added to the compiler's
- *include-search-path*. When a downstream user of a library is compiling against
- a library managed by ``dds``, only the *public* include-directory will be
- added to the compiler's *include-search-path*. This has the effect that only
- the files that are children of the source root that is the *public*
- include-directory will be available when compiling consumers.
-
- .. warning::
- Because only the *public* include-directory is available when compiling
- consumers, it is essential that no headers within the *public*
- include-directory attempt to use headers from the *private*
- include-directory, as they **will not** be visible.
-
- If both ``src/`` and ``include/`` are present in a library root, then ``dds``
- will use ``include/`` as the *public* include-directory and ``src/`` as the
- *private* include-directory. If only one of the two is present, then that
- directory will be treated as the *public* include-directory, and there will be
- no *private* include-directory.
-
- When ``dds`` exports a library, the header files from the *public*
- include-directory source root will be collected together and distributed as
- that library's header tree. The path to the individual header files relative to
- their source root will be retained as part of the library distribution.
-
- ``dds`` will compile every compilable source file that appears in the ``src/``
- directory. ``dds`` will not compile compilable source files that appear in the
- ``include/`` directory and will issue a warning on each file found.
-
-
- .. _pkgs.libs:
-
- Libraries
- *********
-
- The *library* is a fundamental unit of consumable code, and ``dds`` is
- specifically built to work with them. When you are in ``dds``, the library is
- the center of everything.
-
- A single *library root* will always correspond to exactly one library. If the
- library has any compilable sources then ``dds`` will use those sources to
- generate a static library file that is linked into runtime binaries. If a
- library contains only headers then ``dds`` will not generate an archive to be
- included in downstream binaries, but it will still generate link rules for the
- dependencies of a header-only library.
-
- In order for ``dds`` to be able to distribute and interlink libraries, a
- ``library.dds`` file must be present at the corresponding library root. The
- only required key in a ``library.dds`` file is ``Name``:
-
- .. code-block:: yaml
-
- Name: my-library
-
-
- .. seealso:: More information is discussed on the :ref:`deps.lib-deps` page
-
-
- .. _pkgs.pkg-root:
-
- Package Roots
- *************
-
- A *package root* is a directory that contains some number of library roots. If
- the package root contains a ``src/`` and/or ``include/`` directory then the
- package root is itself a library root, and a library is defined at the root of
- the package. This is intended to be the most common and simplest method of
- creating libraries with ``dds``.
-
- If the package root contains a ``libs/`` directory, then each subdirectory of
- the ``libs/`` directory is checked to be a library root. Each direct child of
- the ``libs/`` directory that is also a library root is added as a child of the
- owning package.
-
-
- .. _pkgs.pkgs:
-
- Packages
- ********
-
- A package is defined by some *package root*, and contains some number of
- *libraries*.
-
- The primary distribution format of packages that is used by ``dds`` is the
- *source distribution*. Refer to the page :doc:`source-dists`.
-
- Packages are identified by a name/version pair, joined together by an ``@``
- symbol. The version of a package must be a semantic version string. Together,
- the ``name@version`` string forms the *package ID*, and it must be unique
- within a repository or package catalog.
-
- In order for a package to be exported by ``dds`` it must have a
- ``package.json5`` file at its package root. Three keys are required to be
- present in the ``package.json5`` file: ``name``, ``version``, and ``namespace``:
-
- .. code-block:: js
-
- {
- name: 'acme-widgets',
- version: '6.7.3',
- namespace: 'acme',
- }
-
- ``version`` must be a valid semantic version string.
-
- .. note::
- The ``namespace`` key is arbitrary, and not necessarily associated with
- any C++ ``namespace``.
-
- .. seealso::
- The purpose of ``namespace``, as well as additional options in this file,
- are described in the :ref:`deps.pkg-deps` page
-
-
- .. _pkgs.naming-reqs:
-
- Naming Requirements
- ===================
-
- Package names aren't a complete free-for-all. Package names must follow a set
- of specific rules:
-
- - Package names may consist of a subset of ASCII including lowercase
- characters, digits, underscores (``_``), hyphens (``-``), and periods
- (``.``).
-
- .. note::
- Different filesystems differ in their handling of filenames. Some platforms
- perform unicode and case normalization, which can significantly confuse tools
- that don't use the same normalization rules. Different platforms have
- different filename limitations and allowable characters. This set of
- characters is valid on most currently popular filesystems.
-
- - Package names must begin with an alphabetic character
- - Package names must end with an alphanumeric character (letter or digit).
- - Package names may not contain adjacent punctuation characters.
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