# Host interop and JVM standard-library shims Jolt runs on Chez Scheme, not the JVM, so there are no real Java classes behind interop forms. Instead the runtime ships shims for the slice of the JVM standard library that portable Clojure code reaches for, so libraries written against `clojure.core` and common `java.*` classes run unchanged. The Clojure interop syntax works against these shims: ```clojure (Math/sqrt 2) ; static call Math/PI ; static field (StringBuilder.) ; constructor (.append sb "x") ; instance method (instance? String "hi") ; class token ``` A class token (`String`, `java.util.UUID`, …) resolves to a name; there is no reflection and no class hierarchy. `(class x)` returns the JVM class name for the scalar/collection types Clojure programs compare against (`"java.lang.Long"`, `"java.lang.String"`, and so on). ## Source layering: JVM-specific code lives in the java layer Keep anything JVM-specific in `host/chez/java/`. The rest of the runtime stays JVM-free, and the compiler in `jolt-core/` is JVM-free by construction. - `host/chez/java/` holds the JVM model: the `java.*` mirrors, the class tokens and class hierarchy, `(class x)`/`(type x)`/`instance?`, exception classes, the interop dispatch for `.method`/`Class/static`/`(Class.)`. If a value or name only means something because the JVM has it, it belongs here. - The rest of `host/chez/` is the host-neutral runtime — the value model (`values.ss`, `collections.ss`, `seq.ss`), reader, vars, multimethods, meta. It speaks jolt's own taxonomy (`:string`, `:vector`, `:jolt/inst`), never JVM class names. - `jolt-core/` (the Clojure compiler + `clojure.core` overlay) emits and reasons in that taxonomy only. The JVM mapping happens *after*, in the java layer. The worked example is `type`. The core layer (`natives-meta.ss`) computes the keyword taxonomy and binds it as `__type-tag` — that's what `print-method` and the reader dispatch on, with no JVM in scope. The java layer (`java/host-class.ss`) then rebinds the public `clojure.core/type` to Clojure's `(or (:type meta) (class x))`, mapping `:jolt/inst` → `java.util.Date` and so on, right next to `(class …)`. So the compiler keeps emitting `:jolt/inst`; the java layer remaps it. When you add interop behaviour, prefer registering it through the generic hooks a java-layer file already uses — `register-class-arm!` for `(class x)`, `register-instance-check-arm!` for `instance?`, `register-eq-arm!` for value equality — rather than threading a JVM concept back into a host-neutral file. A new `java.*` shim is a new file under `host/chez/java/` loaded from `rt.ss`, not a branch added to `collections.ss` or `seq.ss`. ## What's shimmed This is the surface today, not the whole JVM. Methods not listed generally aren't implemented; a few are accepted but no-ops (noted inline). ### Numbers and language - **`java.lang.Math`** — `sqrt` `cbrt` `pow` `exp` `log` `log10` `floor` `ceil` `round` `abs` `max` `min` `sin` `cos` `tan` `asin` `acos` `atan` `signum` `random`; fields `PI`, `E`. (`clojure.math` mirrors these as functions.) - **`Long` / `Integer`** — `parseLong`/`parseInt`/`valueOf` (optional radix), `MAX_VALUE`, `MIN_VALUE`; `(Integer. x)`. - **`Double` / `Float`** — `parseDouble`, `valueOf`, `toString`, `isNaN`, `isInfinite`, the `*_VALUE`/`*_INFINITY`/`NaN` fields; `(Double. s)`. - **`Boolean`** — `parseBoolean`, `TRUE`, `FALSE`. - **`Character`** — `isUpperCase` `isLowerCase` `isDigit` `isWhitespace` (ASCII). - **Boxed-number methods** — every number answers `.intValue` `.longValue` `.doubleValue` `.floatValue` `.byteValue` `.shortValue` `.toString` `.hashCode` (integer projections wrap modulo their width, as on the JVM). - **`java.lang.System`** — `currentTimeMillis` `nanoTime` `exit` `getProperty` `setProperty` `clearProperty` `getProperties` `getenv` `gc` (a full Chez collection — clears weak references and fires their queues). - **`java.lang.Thread`** — real OS threads over Chez `fork-thread`, sharing the one heap (a captured atom/var is shared): `(Thread. thunk)` + `start` / `join` / `run` / `isAlive`; plus `sleep` (real), `yield`/`interrupted`/`interrupt` (no-ops), `currentThread`. - **`java.util.concurrent.CountDownLatch`** — `(CountDownLatch. n)` + `countDown` / `await` / `getCount`, a real counting barrier (mutex + condition). - **`java.lang.ref.SoftReference` / `WeakReference` + `ReferenceQueue`** — genuine GC reclamation: the referent is held through a Chez weak pair, so the collector reclaims it once unreachable (`.get` then returns nil) and a guardian enqueues the reference on its `ReferenceQueue` (`poll`). Chez has no reference softer than weak, so a `SoftReference` clears on unreachability, not memory pressure — eager, but real eviction (core.cache's SoftCache). - **`java.lang.Object`** — `(Object.)` as a fresh-identity sentinel; `.toString` `.hashCode` `.equals` `.getClass` work on any value. - **`java.lang.Class`** — `forName` (throws a catchable `ClassNotFoundException` for a class jolt can't back, so `(try (Class/forName "opt.Dep") (catch …))` dependency probes work). There is no reflection, but a few common interfaces carry a modeled ancestry so `(supers c)` / `(ancestors c)` answer like the JVM — e.g. `(ancestors (class f))` for a function yields `Runnable` and `Callable`, the check `core.memoize` uses to validate a memoizable argument. ### Strings and text - **`java.lang.String`** statics — `valueOf`, `format` (the `clojure.core/format` engine; `String/format` with a leading locale is accepted). Instance methods go through `clojure.string` / the native string ops. - **`StringBuilder`** — `append` `toString` `length` `charAt` `setLength`. - **`java.text.NumberFormat`** — `getInstance` `getNumberInstance` `getIntegerInstance`; `.format`, `.setGroupingUsed`, `.setMinimum/MaximumFractionDigits`. - **`java.util.StringTokenizer`** — `hasMoreTokens` `countTokens` `nextToken`. - **`java.util.regex.Pattern`** — `compile` (with `Pattern/MULTILINE`), `quote`; `.split`, `.pattern`. (`#"…"` literals and `clojure.string` regex fns are the usual entry points.) ### Collections (mutable) - **`java.util.ArrayList`** — `add` `get` `set` `size` `isEmpty` `remove` `clear` `contains` `toArray` `iterator`. - **`java.util.HashMap`** / **`java.util.concurrent.ConcurrentHashMap`** — `put` `get` `getOrDefault` `containsKey` `containsValue` `size` `isEmpty` `remove` `clear` `putAll` `keySet` `values` `entrySet`; `clojure.core`'s `get` / `count` / `contains?` also read them. (One shared heap, so the plain mutable map serves the concurrent one.) ### I/O - **`java.io.File`** — `(File. path)` / `(File. parent child)`. A File keeps the path as given (`(.getPath (File. "rel"))` is `"rel"`, `.isAbsolute` false); a relative path resolves against `JOLT_PWD` only when the filesystem is touched. Methods: `getPath` `getName` `getParent` `getParentFile` `getAbsolutePath` `getAbsoluteFile` `getCanonicalPath` `getCanonicalFile` `toURI` `toURL` `exists` `isDirectory` `isFile` `isAbsolute` `isHidden` `length` `lastModified` `canRead` `canWrite` `canExecute` `list` `listFiles` `mkdir` `mkdirs` `delete` `createNewFile` `renameTo` `compareTo` `equals` `hashCode`. Statics: `File/separator` `File/separatorChar` `File/pathSeparator` `File/createTempFile` `File/listRoots`. - **Byte streams** — `FileInputStream` / `FileOutputStream` (over a path/File, `append` arg), `ByteArrayInputStream` / `ByteArrayOutputStream` (`toByteArray`/`toString`/`size`/`reset`), `BufferedInputStream` / `BufferedOutputStream`. `read`/`read(byte[])`, `write(int)`/`write(byte[])`, `flush`, `close`. Each is a Chez binary port underneath. - **Char streams** — `FileReader` / `InputStreamReader` (read a byte stream as UTF-8), `FileWriter` / `OutputStreamWriter`, `BufferedReader` (`readLine`, `lines`) / `BufferedWriter` (`newLine`), `StringReader` / `StringWriter` / `PushbackReader`. - **`clojure.java.io`** — `file` `as-file` `reader` `writer` `input-stream` `output-stream` `copy` (byte-exact for byte sources) `make-parents` `delete-file` `resource` `as-url`. `slurp`/`spit`/`line-seq`/`with-open` work over all of the above. - **`java.lang.ClassLoader`** — `getSystemClassLoader`, `.getResource`, `.getResourceAsStream` (resolved against the source roots). ### Time and date - **`java.util.Date`** — `(Date.)` / `(Date. ms)`; `getTime` `toInstant` `toLocalDate(Time)` `before` `after` `equals` `toString` (RFC 3339). - **`java.time`** — `Instant` (`now`, `ofEpochMilli`, `toEpochMilli`, `atZone`), `LocalDateTime`, `ZoneId`, `DateTimeFormatter` (`ofPattern`, `ISO_LOCAL_*`, localized styles), `FormatStyle`. - **`java.text.SimpleDateFormat`** — `(SimpleDateFormat. pattern)`; `parse` `format` `toPattern` `applyPattern` (`setTimeZone`/`setLenient` accepted but ignored — formatting is UTC). - **`java.util.TimeZone`** / **`java.util.Locale`** — constructed and passed through; only UTC is honored for formatting. ### Net, encoding, misc - **`java.net.URL`** — `(URL. spec)`; `toString` `toExternalForm` `getProtocol` `getPath` `getFile`. - **`java.net.URI`** — full component accessors (`getScheme` `getHost` `getPort` `getPath` `getQuery` `getFragment`, raw variants, `isAbsolute`). - **`java.util.Base64`** — `getEncoder`/`getDecoder` with `encode`, `encodeToString`, `decode`. - **`java.nio.charset.Charset`** — `forName`. - **`java.util.UUID`** — `randomUUID`, `fromString`; `(UUID. s)`. - **Exceptions** — `Throwable` `Exception` `RuntimeException` `IllegalArgumentException` `IllegalStateException` `IOException` `NumberFormatException` `ArithmeticException` `NullPointerException` `ClassCastException` `IndexOutOfBoundsException` `FileNotFoundException` `UnsupportedOperationException` `Error` `AssertionError` and the common network exceptions, each with the `(E.)` / `(E. msg)` / `(E. msg cause)` / `(E. cause)` constructors. `try` dispatches its `catch` clauses by class in order, respecting the exception supertype hierarchy (`(catch Exception e …)` catches a `RuntimeException` but not an `Error`); a thrown value matching no clause re-throws. An untyped host condition (e.g. from `(/ 1 0)`) is caught by a `RuntimeException`/`Exception`/`Throwable` clause. What's deliberately absent: STM (`clojure.lang.LockingTransaction/isRunning` returns `false`), reflection, `gen-class`/`proxy` of Java classes, and `BigDecimal`. ## Adding your own shim from a library The built-in shims above are baked into the seed. A library or project can register its **own** host classes at load time — no seed re-mint, no host edits. Put the registration calls at the top level of a namespace your code requires. Four functions (in `clojure.core`) plus the tagged-table seam (in `jolt.host`) cover it. `__register-class-ctor!` makes `(Name. …)` work; `__register-class-statics!` makes `Name/field` and `(Name/method …)` work; `__register-class-methods!` attaches instance methods to a tagged value; `__register-instance-check!` teaches `instance?` about your class. **Method and static names are strings** (they match the literal name in the interop form). A stateful object is a *tagged table* — `jolt.host/tagged-table` creates one, `ref-put!`/`ref-get` set and read its fields. Read the tag back with `jolt.host/ref-get` (or test it with `jolt.host/table?`); a plain `get` / keyword lookup deliberately can't see a wrapper's own `:jolt/type`. ```clojure (ns mylib.greeter (:require [jolt.host :as host])) ;; (Greeter. name) -> a tagged value carrying its name (__register-class-ctor! "Greeter" (fn [name] (-> (host/tagged-table :greeter) (host/ref-put! :name name)))) ;; (.hello g) -> instance method, keyed by the literal method name (__register-class-methods! :greeter {"hello" (fn [self] (str "hi " (host/ref-get self :name)))}) ;; Greeter/VERSION (field) and (Greeter/make x) (static method) (__register-class-statics! "Greeter" {"VERSION" "1.0" "make" (fn [name] (Greeter. name))}) ;; (instance? Greeter x) (__register-instance-check! (fn [class-name v] (when (= class-name "Greeter") (and (host/table? v) (= :greeter (host/ref-get v :jolt/type)))))) ``` ```clojure (.hello (Greeter. "ada")) ;=> "hi ada" Greeter/VERSION ;=> "1.0" (.hello (Greeter/make "bob")) ;=> "hi bob" (instance? Greeter (Greeter. "x")) ;=> true ``` An instance-check predicate returns `true`/`false` to decide, or `nil` to defer to the next registered check and the built-ins — so several libraries can register checks without clobbering each other. This is the mechanism jolt's HTTP client library uses to emulate `java.net.URL` and `HttpURLConnection` so `clj-http-lite` runs unchanged. `__register-instance-check!` answers one `(instance? Foo x)` question. When a class belongs to a *hierarchy* — a custom exception that should be caught as an `IOException`, or a value that should match `(instance? SomeInterface x)` across its whole supertype chain and dispatch a protocol extended to any of those supertypes — declare its direct supers once with `jolt.host/register-class-supers!` instead. `instance?`, `isa?`, `supers`/`ancestors`, and `extend-protocol` dispatch all derive from the one declaration (supers are given by canonical name; transitivity is computed): ```clojure ;; a library's exception type that catch/instance? should treat as an IOException (jolt.host/register-class-supers! "com.acme.RetryExhaustedException" ["java.io.IOException"]) (throw (jolt.host/throwable "com.acme.RetryExhaustedException" "gave up")) ;; (catch java.io.IOException e …) now matches it; (instance? java.lang.Exception e) is true ``` deftype/defrecord classes join the same graph automatically at definition: a record's ancestry carries the record interfaces (`clojure.lang.IRecord`, `IPersistentMap`, `Associative`, …), a bare deftype carries `clojure.lang.IType`, and every protocol the type implements inline appears as an implemented interface — so `(ancestors MyRecord)`, `(isa? MyRecord clojure.lang.IPersistentMap)`, and hierarchy relationships `derive`d on a class's supers all answer like the JVM. Extending a *built-in* class instead (adding a method to core's `String` shim, say) means editing the relevant `host/chez/*.ss` file and running `make remint` — see [building-and-deps.md](building-and-deps.md).