If you are using the old Leiningen based tool, we recommend that you migrate to the new tool that is based on tools.deps by following the instructions further down here.
Before we start, it may be interesting to get an idea of why you should migrate to the new tool:
- The new tool is based on tools.deps which is flexible, powerful, and supported by Cognitect. Tools.deps is also a really good fit for the Lego-like way of working with code in Polylith.
- The symbolic links are gone, which means less complexity and that Emacs/CIDER and Windows now work out of the box.
- A more streamlined naming. Systems, services and development environments are now all handled as projects.
- You are less dependent on tool support. Operations such as moving, renaming and deleting
projects, components and bases can easily be done from your favourite editor/IDE and there is
no need for the
add
,remove
anddelete
commands. - The empty workspace interfaces are gone. The interfaces are instead implicitly declared by the components themselves and the time is over when you need to update them in two places.
- The way you work with the code has greatly improved. Now you have access to all projects, components and bases, from the workspace root, not just from the development environment as before.
- Support for more than one project where each project specifies which components, bases, libraries, resources and tests are included.
- Improved testing experience:
- The compilation step of each component and base has been removed which substantially speeds things up,
especially if we have many components and bases. The component contracts (interfaces) are instead
checked by the
ìnfo
andcheck
command that can be called by a git hook to ensure consistency of the workspace (optional). - The tests execute much faster by only starting the JVM once, and then running all the tests in isolation by separate class loaders.
- Output from the test execution is displayed continuously.
- The compilation step of each component and base has been removed which substantially speeds things up,
especially if we have many components and bases. The component contracts (interfaces) are instead
checked by the
- Introduction of the
profile
concept that allows us to emulate different projects (services/systems) from the development environment without restarting the REPL. - No need for the
prompt
command. The newpoly
command is several times faster than the old Leiningen based plugin and starts in a second. - Powerful diagrams that view the project status, dependencies to interfaces and components, and what libraries that are included.
- The new
ws
command allows us to explore the internal structure of the workspace with support for export/import which allow us to share what the workspace looks like without sending the code.
Other differences:
- Arguments are passed to commands by name, like
poly create w name:my-ws top-ns:com.mycompany
. - No support for empty top namespaces. The use of empty top namespaces is bad practice anyway.
- Before, we created a "system" that automatically created a base. Now, bases and projects are created separately.
- When we create a component or base, no example code is created, like the
add-two
functions. - Type hints in functions are now part of the interface contract.
- If a definition is defined as
defn
in one interface, it must be implemented as a function in all components for that interface (not mixingdefn
anddefmacro
) and also the other way around. - Changes are calculated using git, which makes git mandatory. The local timestamps and bookmarks are gone. Instead, the new tool supports tagging a stable point in time from which all changes are calculated. The main reason we changed this, was that timestamps in files weren't reliable, because they were reset when switching between branches in git. Another good reason is that we can let our CI build set the latest stable point in time for us.
- The
build
command has been removed. Now we configure what to build in thedeps.edn
files for each project in combination with tools and scripts. - No
sync
command. Missing components or libraries will be shown as errors which need to be manually added to each project'sdeps.edn
. This is part of the philosophy of the new tool, to have less magic and more control!
Now, let's migrate a lein-polylith project.
Before we start, make sure you have these two tools installed:
Depending on what operating system you have, continue with one of the two following sections.
To install the migration tool on Mac, type this:
brew install polyfy/polylith/poly-migrator
If you get the error "openjdk-13.0.2.jdk could not be opened...", do this:
- Open MacOS "System Preferences > Security & Privacy > General".
- Click Allow at the bottom for "openjdk-13.0.2.jdk".
- Run
brew install polyfy/polylith/poly-migrator
again.
If you can't get this to work, use the installation instruction below instead.
To run the migrator tool on other operating systems, we need to clone the Polylith repository:
git clone git@github.com:polyfy/polylith.git
cd polylith
To verify the installation, type:
clj -A:poly info
If everything went well, the workspace of the Polylith tool is shown:
Now it's time to migrate a project.
Note: Here we will use the realworld example app as an example, but you should preferable use your own Leiningen based Polylith project to migrate, and in that case you can skip cloning the realworld example app.
Let's clone the realworld example app and switch to the old Leiningen based project:
cd ..
git clone git@github.com:furkan3ayraktar/clojure-polylith-realworld-example-app.git
git checkout leiningen
We should now have these two directories (or polylith
and your project
):
clojure-polylith-realworld-example-app
polylith
Let's migrate the clojure-polylith-realworld-example-app
:
If you have Mac, execute:
cd polylith
poly-migrator ../clojure-polylith-realworld-example-app
...otherwise, execute:
cd polylith
clj -A:migrator ../clojure-polylith-realworld-example-app
The new migrated clojure-polylith-realworld-example-app-01
directory was created:
clojure-polylith-realworld-example-app
clojure-polylith-realworld-example-app-01
polylith
Note: The old project is left untouched, and you can run this migration step as many times as you want. Every time you do, a new folder with an increased number will be created.
Let's verify the migration:
cd clojure-polylith-realworld-example-app-01
clj -A:poly deps
We can also check the library dependencies:
clj -A:poly libs
Now when we have a migrated workspace (clojure-polylith-realworld-example-app-01
)
we want to do two things:
- Verify that it works.
- Use the new workspace.
The migrated project is not initialized with git yet, which is mandatory to get all the functionality
that relies on change management to work, like running tests or to show the * symbol for changed
components/bases/projects in the info
command. Before we do that, you can play around with the
migrated workspace and run all the commands except the test
command which will not work.
The poly command can either be executed from the polylith
directory with clj -M:poly
plus argument(s), or
by installing the poly
tool and using that.
Note that this migration tool is migrating to the previous workspace structure, used by version 0.1.0-alpah9
or earlier of the poly
tool. This means that it will not create a workspace.edn
file at the root or deps.edn
files for the bricks.
Newer versions of the tool, that supports the newest format, with start from 0.2.0-alpha10
are able to read the old format and includes
the migrate
command that allows you to perform the last migration step.
The old documentation for the poly
command can be found here.
When the migrated project seems to work, it is time to decide how to continue. You need to do one of two things:
- Use the same repository as the old workspace
- Create a new git repository
The new tool stores components and bases in the same way as the old Leiningen based version, so if you want to keep the history of your changes, we recommend you to go for option 1.
If you go for this option, we recommend that you create a git branch, like polylith-deps
or similar,
and work from there, then merge it back when everything works.
As we mentioned before, the new tool doesn't contain any build
command. Instead it's up to you to
decide how to use tools.deps,
scripts and maybe other tooling, to build the artifacts you need.
To proceed from here, you can either learn the new tool and do the migration yourself, because it will be quite obvious what you should keep and what can be deleted, or you can continue with the detailed instruction below, with the risk that you don't know what you are doing! As long as you work in a new branch, you should be safe in either case.
Make sure you work from the newly created branch, e.g. polylith-deps
.
With old
we refer to the Leiningen based clojure-polylith-realworld-example-app
workspace (think your Leiningen based workspace),
and with new
we refer to the migrated clojure-polylith-realworld-example-app-01
workspace (think your migrated workspace):
- Delete the
project.clj
file from the root in the old workspace. - Delete the
interfaces
directory from the old workspace. - Copy
deps.edn
from the root of the new workspace to the old. - You may update the old
readme.md
file at the root by copying the changed information/links from the newreadme.md
. - Make sure you can build all the artifacts you need, by adding aliases to
deps.edn
, creating build scripts and similar. If you used the oldbuild.sh
under eachsystem
then they need to be replaced with something that involvestool.deps
. You also may have a.circleci/config.yaml
at the root, and maybe scripts, that also needs to be replaced or updated. - Copy the
projects
directory from the new workspace to the old workspace. - Go through all
deps.edn
files (the one at the root and the ones in each directory underprojects
) and check that keywords like:exclusions
in the library dependencies have been correctly migrated, compared to what's in eachproject.clj
inenvironments
and the projects under thesystems
directories. - Delete the
environments
directory. - Delete the
systems
directory. - The new tool only uses the
src
,test
andresources
directories under each component and base and if you have other files there, they can be deleted (you may want to keep thereadme.md
files). - If you have any components or bases that are not included in any other project than the
development
project, with the only purpose to be used as some kind of tooling, then this code should be moved to the newdevelopment
directory that is dedicated for this use:- Create a top namespace under
development/src
, e.g.dev
and maybe some sub namespaces. - Copy the code from the components you want to move to the
dev
namespace or to any sub namespace ofdev
indevelopment
. - Delete these components and bases.
- If you have any test code that you also want to move, create the
development/test
directory and add the "development/test" path to the:test
alias in./deps.edn
. Also create the same namespace(s) as fordevelopment/src
, e.g.development/test/dev
. - Delete
.keep
files for directories that are not empty.
- Create a top namespace under
If you go for this option, you can follow the above instructions about how to verify the workspace except that you keep the migrated workspace as it is and just add git support to it.
Since version 0.2.0-alpha10 of the poly
tool,