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- .. highlight:: yaml
-
- Library and Package Dependencies
- ################################
-
- ``dds`` considers that all libraries belong to a single *package*, but a single
- package may contain one or more *libraries*. For this reason, and to better
- interoperate with other build and packaging tools, we consider the issues of
- package dependencies and library dependencies separately.
-
-
- .. _deps.pkg-deps:
-
- Package Dependencies
- ********************
-
- Consider that we are creating a package ``acme-gadgets@4.3.6``. We declare the
- name and version in the ``package.json5`` in the package root:
-
- .. code-block:: js
-
- {
- name: 'acme-widgets',
- version: '4.3.6',
- namespace: 'acme',
- }
-
- .. note::
- The ``namespace`` field is required, but will be addressed in the
- :ref:`deps.lib-deps` section.
-
- Suppose that our package's libraries build upon the libraries in the
- ``acme-widgets`` package, and that we require version ``1.4.3`` or newer, but
- not as new as ``2.0.0``. Such a dependency can be declared with the ``Depends``
- key:
-
- .. code-block:: js
- :emphasize-lines: 5-7
-
- {
- name: 'acme-gadgets',
- version: '4.3.6',
- namespace: 'acme',
- depends: {
- 'acme-widgets': '^1.4.3',
- },
- }
-
- .. seealso:: :ref:`deps.ranges`.
-
- If we wish to declare additional dependencies, we simply declare them with
- additional ``Depends`` keys
-
- .. code-block::
- :emphasize-lines: 7-8
-
- {
- name: 'acme-gadgets',
- version: '4.3.6',
- namespace: 'acme',
- depends: {
- 'acme-widgets': '^1.4.3',
- 'acme-gizmos': '~5.6.5',
- 'acme-utils': '^3.3.0',
- },
- }
-
- When ``dds`` attempts to build a project, it will first build the dependency
- solution by iteratively scanning the dependencies of the containing project and
- all transitive dependencies.
-
-
- .. _deps.ranges:
-
- Compatible Range Specifiers
- ===========================
-
- When specifying a dependency on a package, one will want to specify which
- versions of the dependency are supported.
-
- .. note::
- Unlike other packaging tools, ``dds`` will find a solution with the
- *lowest* possible version that satisfies the given requirements for each
- package. This decision is not incidental: It's entirely intentional.
- Refer to: :ref:`deps.ranges.why-lowest`.
-
- ``dds`` compatible-version ranges are similar to the shorthand range specifiers
- supported by ``npm`` and ``npm``-like tools. There are five (and a half)
- version range formats available, listed in order of most-to-least restrictive:
-
- Exact: ``1.2.3`` and ``=1.2.3``
- Specifies an *exact* requirement. The dependency must match the named
- version *exactly* or it is considered incompatible.
-
- Minor: ``~1.2.3``
- Specifies a *minor* requirement. The version of the dependency should be
- *at least* the given version, but not as new or newer than the next minor
- revision. In this example, it represents the half-open version range
- ``[1.2.3, 1.3.0)``.
-
- Major: ``^1.2.3``
- Specifies a *major* requirement. The version must be *at least* the same
- given version, but not any newer than the the next major version. In the
- example, this is the half-open range ``[1.2.3, 2.0.0)``.
-
- .. note::
- This is the recommended default option to reach for, as it matches the
- intended behavior of `Semantic Versioning <https://semver.org>`_.
-
- At-least: ``+1.2.3``
- Specifies an *at least* requirement. The version must be *at least* the
- given version, but any newer version is acceptable.
-
- Anything: ``*``
- An asterisk ``*`` represents than *any* version is acceptable. This is not
- recommended for most dependencies.
-
-
- .. _deps.ranges.why-lowest:
-
- Why Pull the *Lowest* Matching Version?
- ---------------------------------------
-
- When resolving dependencies, ``dds`` will pull the version of the dependency
- that is the lowest version that satisfies the given range. In most cases,
- this will be the same version that is the base of the version range.
-
- Imagine a scenario where we *did* select the "latest-matching-version":
-
- Suppose we are developing a library ``Gadgets``, and we wish to make use of
- ``Widgets``. The latest version is ``1.5.2``, and they promise Semantic
- Versioning compatibility, so we select a version range of ``^1.5.2``.
-
- Suppose a month passes, and ``Widgets@1.6.0`` is published. A few things
- happen:
-
- #. Our CI builds now switch from ``1.5.2`` to ``1.6.0`` *without any code
- changes*. Should be okay, right? I mean... it's still compatible, yeah?
- #. Bugs in ``Widgets@1.6.0`` will now appear in all CI builds, and won't be
- reproducible locally unless we re-pull our dependencies and obtain the
- new version of ``Widgets``. This requires that we be conscientious enough to
- realize what is actually going on.
- #. Even if ``Widgets@1.6.0`` introduces no new bugs, a developer re-pulling
- their dependencies will suddenly be developing against ``1.6.0``, and may
- not even realize it. In fact, this may continue for weeks or months until
- *everyone* is developing against ``1.6.0`` without realizing that they
- actually only require ``1.5.2`` in their dependency declarations.
- #. Code in our project is written that presupposes features or bugfixes added
- in ``1.6.0``, and thus makes the dependency declaration on ``Widgets ^1.5.2``
- a *lie*.
-
- Pulling the lowest-matching-version has two *huge* benefits:
-
- #. No automatic CI upgrades. The code built today will produce the same result
- when built a year from now.
- #. Using a feature/fix beyond our minimum requirement becomes a compile error,
- and we catch these up-front rather than waiting for a downstream user
- discovering them for us.
-
-
- *Isn't this what lockfiles are for?*
- """"""""""""""""""""""""""""""""""""
-
- Somewhat. Lockfiles will prevent automatic upgrades, but they will do nothing
- to stop accidental reliance on new versions. There are other useful features
- of lockfiles, but preventing automatic upgrades can be a non-issue by simply
- using lowest-matching-version.
-
-
- *So, if this is the case, why use ranges at all?*
- """""""""""""""""""""""""""""""""""""""""""""""""
-
- In short: *Your* compatibility ranges are not for *you*. They are for *your
- users*.
-
- Suppose package ``A`` requires ``B ^1.0.0``, and ``B`` requires ``C ^1.2.0``.
- Now let us suppose that ``A`` wishes to use a newer feature of ``C``, and thus
- declares a dependency on ``C ^1.3.0``. ``B`` and ``A`` have different
- compatibility ranges on ``C``, but this will work perfectly fine **as long as
- the compatible version ranges of A and B have some overlap**.
-
- That final qualification is the reason we use compatibility ranges: To support
- our downstream users to form dependency graphs that would otherwise form
- conflicts if we required *exact* versions for everything. In the above example,
- ``C@1.3.0`` will be selected for the build of ``A``.
-
- Now, if another downstream user wants to use ``A``, they will get ``C@1.3.0``.
- But they discover that they actually need a bugfix in ``C``, so they place
- their own requirement on ``C ^1.3.1``. Thus, they get ``C@1.3.1``, which still
- satisfies the compatibility ranges of ``A`` and ``B``. Everyone gets along
- just fine!
-
-
- .. _deps.lib-deps:
-
- Library Dependencies
- ********************
-
- In ``dds``, library interdependencies are tracked separately from the packages
- that contain them. A library must declare its intent to use another library
- in the ``library.json5`` at its library root. The minimal content of a
- ``library.json5`` is the ``name`` key:
-
- .. code-block:: js
-
- {
- name: 'gadgets'
- }
-
- To announce that a library wishes to *use* another library, use the aptly-named
- ``uses`` key:
-
- .. code-block:: js
- :emphasize-lines: 3-7
-
- {
- name: 'gadgets',
- uses: [
- 'acme/widgets',
- 'acme/gizmos',
- 'acme/utils',
- ],
- }
-
- Here is where the package's ``namespace`` key comes into play: A library's
- qualified name is specified by joining the ``namespace`` of the containing
- package with the ``name`` of the library within that package with a ``/``
- between them.
-
- It is the responsibility of package authors to document the ``namespace`` and
- ``name`` of the packages and libraries that they distribute.
-
- .. note::
- The ``namespace`` of a package is completely arbitrary, and need not relate
- to a C++ ``namespace``.
-
- .. note::
- The ``namespace`` need not be unique to a single package. For example, a
- single organization (Like Acme Inc.) can share a single ``namespace`` for
- many of their packages and libraries.
-
- However, it is essential that the ``<namespace>/<name>`` pair be
- universally unique, so choose wisely!
-
- Once the ``uses`` key appears in the ``library.dds`` file of a library, ``dds``
- will make available the headers for the library being used, and will
- transitively propagate that usage requirement to users of the library.
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