test: restructure into unit / integration / spec layers + shared harness

Reorganize the flat 49-file test/ into three layers (jpm test recurses, so all
are still discovered):
- test/unit/        white-box component tests (reader, evaluator, types,
                    persistent-map, lazy-seq, macro, interop, compiler)
- test/integration/ cross-cutting + regression batteries (conformance, jank,
                    sci-bootstrap/runtime, features, systematic-coverage, api,
                    core, namespaces, ported clojure suites) and
   .../ports/       ported clojure/cljs test batches pending consolidation
- test/spec/        the behavioral contract (built out in following commits)
- test/support/harness.janet  shared defspec table runner (cases compared via
                    Jolt's own =, with a :throws sentinel) + expect= helpers

Files moved with git mv (history preserved) and import paths fixed for depth.
jpm test green. README Test section updated.

Next: build out test/spec/ to cover the public API area-by-area, mining the
integration batteries and filling gaps.
This commit is contained in:
Yogthos 2026-06-05 00:00:16 -04:00
parent 1898308926
commit 16428179fa
52 changed files with 185 additions and 86 deletions

View file

@ -1,92 +0,0 @@
(use ../src/jolt/reader)
(use ../src/jolt/types)
(use ../src/jolt/evaluator)
# Helper: parse and eval in a fresh ctx
(defn eval-str [s]
(let [ctx (make-ctx)
form (parse-string s)]
(eval-form ctx @{} form)))
(print "1: in-ns...")
(let [ctx (make-ctx)]
(def form (parse-string "(in-ns my.app)"))
(eval-form ctx @{} form)
(assert (= "my.app" (ctx-current-ns ctx)) "in-ns switches namespace"))
(print " passed")
(print "2: def in different namespace...")
(let [ctx (make-ctx)]
(eval-form ctx @{} (parse-string "(in-ns my.app)"))
(eval-form ctx @{} (parse-string "(def x 42)"))
(let [ns (ctx-find-ns ctx "my.app")
v (ns-find ns "x")]
(assert (= 42 (var-get v)) "def works in new namespace")))
(print " passed")
(print "3: ns form...")
(let [ctx (make-ctx)]
(eval-form ctx @{} (parse-string "(ns my.lib)"))
(assert (= "my.lib" (ctx-current-ns ctx)) "ns sets current namespace"))
(print " passed")
(print "4: ns with require...")
(let [ctx (make-ctx)]
# Set up a namespace with some vars
(let [other-ns (ctx-find-ns ctx "other.lib")]
(ns-intern other-ns "f" (fn [x] (inc x))))
# Now ns with require
(eval-form ctx @{} (parse-string "(ns my.app (:require [other.lib :as o]))"))
# current-ns should be my.app
(assert (= "my.app" (ctx-current-ns ctx)) "ns with require sets current namespace")
# Alias should be registered
(let [ns (ctx-find-ns ctx "my.app")
aliased (ns-import-lookup ns "o")]
(assert (= "other.lib" aliased) "alias o -> other.lib registered")))
(print " passed")
(print "5: require form (standalone)...")
(let [ctx (make-ctx)]
(eval-form ctx @{} (parse-string "(require '[other.lib :as o])"))
(let [ns (ctx-find-ns ctx "user")
aliased (ns-import-lookup ns "o")]
(assert (= "other.lib" aliased) "standalone require registers alias")))
(print " passed")
(print "6: qualified symbol via alias...")
(let [ctx (make-ctx)]
# Set up target ns
(let [target (ctx-find-ns ctx "other.lib")]
(ns-intern target "f" (fn [x] (inc x))))
# Register alias
(let [ns (ctx-find-ns ctx "user")]
(ns-import ns "o" "other.lib"))
# Resolve o/f and call it
(let [form (parse-string "(o/f 41)")
result (eval-form ctx @{} form)]
(assert (= 42 result) "qualified call via alias works")))
(print " passed")
(print "7: require then use alias...")
(let [ctx (make-ctx)]
# Set up target ns
(let [target (ctx-find-ns ctx "math.lib")]
(ns-intern target "add" (fn [a b] (+ a b))))
# require + use
(eval-form ctx @{} (parse-string "(require '[math.lib :as m])"))
(let [result (eval-form ctx @{} (parse-string "(m/add 1 2)"))]
(assert (= 3 result) "require + alias + call chain works")))
(print " passed")
(print "8: ns form requires multiple...")
(let [ctx (make-ctx)]
(let [ns1 (ctx-find-ns ctx "a.lib")]
(ns-intern ns1 "f" (fn [x] (inc x))))
(let [ns2 (ctx-find-ns ctx "b.lib")]
(ns-intern ns2 "g" (fn [x] (dec x))))
(eval-form ctx @{} (parse-string "(ns user (:require [a.lib :as a] [b.lib :as b]))"))
(assert (= 43 (eval-form ctx @{} (parse-string "(a/f 42)"))) "alias a works")
(assert (= 41 (eval-form ctx @{} (parse-string "(b/g 42)"))) "alias b works"))
(print " passed")
(print "\nAll namespace tests passed!")