# deps.edn support — design notes How Jolt loads pure-Clojure libraries from a `deps.edn`, and why it's built the way it is. For how to *use* it, see [building-and-deps.md](building-and-deps.md). Scope, decided up front: - **git + local deps only** — no Maven/`~/.m2` resolution. - **pure `clj`/`cljc`** — anything needing the JVM won't load or run; expected. - **no classpath abstraction** — `require` just needs to find a dep's namespaces; "the classpath" is an ordered list of source directories. - **own resolver, own reader** — `deps.edn` is read by jolt's own reader, and git fetch/cache is a thin shell-out to `git`; no external package manager. - **deps-agnostic runtime core** — resolution is a CLI front-end concern, not a runtime one. The runtime knows nothing about `deps.edn`; it only consumes a list of source roots. The CLI resolves a `deps.edn` into those roots before running. ## How resolution works `jolt.deps` (`jolt-core/jolt/deps.clj`) reads `deps.edn` (jolt's own reader parses the EDN), then walks `:deps`: - `:git/url` + `:git/sha` (+ optional `:deps/root`) → clone the sha into the git cache and contribute the checkout (or its `:deps/root` subdir); - `:local/root` → the path as-is; - `:mvn/*` → skipped with a warning; - anything else → ignored. git resolution shells out to `git` through `jolt.host/sh` — `git init` + remote add + fetch + reset at the requested sha. Clones land in a global, sha-immutable cache (`$JOLT_GITLIBS`, else `~/.jolt/gitlibs`) shared across projects, the `tools.gitlibs` `~/.gitlibs` model. Each resolved dependency contributes its own `:paths` (default `["src"]`) as source roots; the walk is **breadth-first** so every top-level coordinate registers before any transitive one — a top-level pin always wins, matching tools.deps. The result is a de-duplicated, ordered list of directories. Two tools.deps features are mirrored in reduced form. **Aliases**: `:aliases` entries supply `:extra-paths`/`:extra-deps` (accumulate across the aliases selected with `-A:a:b`) and `:main-opts` (last-wins, run with `-M:alias`). **Tasks**: the honest subset of babashka's — a string task is a shell command, a map task is `{:main-opts […]}`; bare Clojure expressions aren't a separate task form. ## How the CLI ties it together `jolt.main` (`jolt-core/jolt/main.clj`) is the CLI dispatch. Driven by `cli.ss`, it resolves the project (`jolt.deps/resolve-project`), prepends the resolved roots, and de-sugars the argv into a run: - `run -m NS args` → load `NS`, call its `-main`; - `run FILE` → load the file; - `-M:alias` → run the alias's `:main-opts`; - `-A:alias` → add the alias's paths/deps, then run the rest; - `repl` → a line REPL; - `path` → print the resolved roots; - `build -m NS [-o OUT] [--opt|--dev]` → AOT-compile the app into a standalone binary; - `` → run a `deps.edn` `:tasks` entry. The resolver lives in the overlay alongside the runtime, but the runtime's only dependency interface is the list of source roots it's handed. ## Native libraries A library that binds C declares the shared objects it needs under `:jolt/native`, so `jolt.main` loads them before the namespace is required and its `foreign-fn` bindings resolve. Each entry is a map — `{:name "sqlite3" :darwin ["libsqlite3.0.dylib" …] :linux ["libsqlite3.so.0" …]}` — with optional `:optional true` (absence is fine, a feature-gated dep) and `:process true` (use the running process's own symbols, e.g. libc sockets, no external file). A project inherits its dependencies' `:jolt/native`. ## Standalone binaries `joltc build -m NS -o OUT` compiles the app and every library into one executable (the runtime + compiler are baked in). It loads the resolved `:jolt/native` libs at startup, so an FFI app — sockets, SQLite — runs with no jolt or Chez on the path. `:jolt/build {:embed ["resources" …]}` bakes those directories' files into the binary; `io/resource` serves them from the image with no files on disk. Resources not embedded resolve at runtime against `JOLT_PWD` (or the cwd), so the ship-the-binary-with-its-`resources/`-dir model also works. Files read through `io/file` (e.g. a `config.edn` a config library loads) stay external by design — edit them without rebuilding. A standalone build needs Chez's kernel dev files (`libkernel.a`, `scheme.h`) and a C compiler; `JOLT_CHEZ_CSV` overrides the auto-detected `csv/` dir. `--opt` turns on the inference/flatten/scalar-replace passes; the default `release` mode is const-fold only. ## Limitations - Pure `clj`/`cljc` only — JVM interop, host classes, and unimplemented `clojure.core` corners fail. Coverage is per-function: a namespace can load with most functions working and a few not. - Source only; compiled `.class` files in a git dep are ignored. - git `:git/sha` must be a full SHA (`git fetch` can't resolve a short one). ## Conformance The known-working libraries (see [libraries.md](libraries.md)) and the [examples](https://github.com/jolt-lang/examples) exercise real pure-`cljc` git libraries end to end — resolving them from git, loading their namespaces, and running sample calls. A library fails when it relies on something Jolt doesn't provide — JVM interop, or a regex feature like Unicode property classes (`\p{…}`).