| name | odk-make |
| description | Use whenever you run a Makefile target (e.g. `make travis_build`, `make test`, `make reasoned.ofn`) or any one-off ROBOT / owltools / dosdp-tools / scala-cli command derived from a Makefile recipe. These must run inside the pinned ODK Docker image, not against host tools. Covers validation, reasoning, imports, and release builds in src/ontology. |
The core rule
Every Makefile target and every one-off command copied from a Makefile recipe
must run inside the ODK Docker image (obolibrary/odkfull). The Makefile
recipes call robot, owltools, dosdp-tools, and scala-cli; the ODK image
is what provides those tools at the exact versions GO's build and CI expect.
Running make or robot against whatever happens to be on the host PATH is not
reproducible — host tools may be missing, or be the wrong version, and you will
get results that don't match CI.
The canonical console invocation is the wrapper src/ontology/run.sh, which a
human editor runs from inside src/ontology:
cd src/ontology
./run.sh make test
./run.sh robot --version
run.sh is just docker run ... obolibrary/odkfull:<pinned-version> "$@", with
the repo mounted at /work and the working directory set to
/work/src/ontology. It mounts $PWD/../../, so it only mounts correctly when
invoked from src/ontology.
How YOU (an agent) should run these commands
run.sh requests an interactive TTY (docker run -ti). That fails in a
non-interactive shell — the normal case when you run commands — with:
cannot attach stdin to a TTY-enabled container because stdin is not a terminal
So do not call ./run.sh directly. Use the bundled TTY-free wrapper in this
skill instead. It mirrors run.sh exactly (same image tag — read live from
run.sh so it never drifts — same mount, same workdir) but omits -ti, and it
works from any directory in the repo:
.claude/skills/odk-make/odk-run.sh make travis_build
.claude/skills/odk-make/odk-run.sh make reasoned.ofn
.claude/skills/odk-make/odk-run.sh robot --version
Decision rule:
- Local development / agent on a workstation (Docker available, you are NOT
already inside the ODK container): always go through
odk-run.sh.
- Already inside the ODK image (GitHub Actions /
dragon-ai-agent, where the
job itself runs in the ODK container; or you launched an interactive
./run.sh bash shell): the tools are already on PATH, so call make / robot
directly with no wrapper. Don't nest Docker.
If you're unsure which environment you're in: robot --version succeeding on the
bare PATH and a /work working directory are signs you're already inside ODK.
Otherwise assume you need odk-run.sh.
Note on CLAUDE.md: the project guide writes validation as
cd src/ontology && make travis_build. That shorthand assumes the ODK
environment is already active (as in CI). On a local machine, run the
equivalent through the wrapper:
.claude/skills/odk-make/odk-run.sh make travis_build.
Common targets
| Goal | Command (local) |
|---|
| Full validation (CI gate) | .claude/skills/odk-make/odk-run.sh make travis_build |
| Test suite | .claude/skills/odk-make/odk-run.sh make test |
| Reason the edit file | .claude/skills/odk-make/odk-run.sh make reasoned.ofn |
| Regenerate an import | .claude/skills/odk-make/odk-run.sh make imports/<name>.owl |
| Regenerate all imports | .claude/skills/odk-make/odk-run.sh make all_imports |
| Simulate a release build | .claude/skills/odk-make/odk-run.sh make |
make travis_build is the primary post-edit validation gate. Allow at least
~10 minutes for it to run; don't kill it early. If it times out, you can run
the SPARQL verification checks and the ELK reasoning step on their own (see the
AUTOMATED-VALIDATION section of CLAUDE.md) — those are also Makefile-derived
commands, so run them through odk-run.sh too, e.g.:
.claude/skills/odk-make/odk-run.sh \
robot reason -r ELK -i go-edit.obo -o go-edit.reasoned.obo
One-off ROBOT / owltools commands
Anything you'd lift from a Makefile recipe — a robot verify, robot explain,
robot convert -vvv for a syntax stack trace, an owltools diff — goes through
the same wrapper. Paths are relative to src/ontology (the container's working
directory), so reference files the way the Makefile does (go-edit.obo,
imports/..., ../sparql/..., ../taxon_constraints/...):
.claude/skills/odk-make/odk-run.sh robot convert -vvv -i go-edit.obo -f obo -o go-edit.TMP.obo
.claude/skills/odk-make/odk-run.sh \
robot explain --input go-edit.obo --reasoner ELK -M unsatisfiability \
--unsatisfiable all explanations.md
Gotchas
- Use ELK, never a DL reasoner (HermiT) on the full ontology — GO is large and
only has EL axioms; ELK is the default and is sufficient. HermiT will not scale.
- Run from the repo, not a stray subdir.
odk-run.sh figures out the repo
root from its own path, but the paths you pass to commands are interpreted
inside /work/src/ontology. Keep the repo as your working tree.
- First run pulls the image. If the ODK image isn't cached locally, the first
docker invocation downloads it (can take a while). This is expected.
- Don't commit build artifacts. Targets write many derived files (
*.ofn,
*.owl, reasoned.*, reports). Only commit the source files you actually
edited (normally src/ontology/go-edit.obo), per CLAUDE.md.
- Don't edit
run.sh to drop -ti — console editors rely on the interactive
shell. Use odk-run.sh for non-interactive runs instead.