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

@ -0,0 +1,100 @@
(use ../../src/jolt/api)
(defn ct-eval [ctx s] (normalize-pvecs (eval-string ctx s)))
(print "Ported Logic Tests (from clojure/test-clojure/logic.clj)")
(print "1: test-if true/false/nil...")
(let [ctx (init)]
(assert (= :t (ct-eval ctx "(if true :t)")) "if true")
(assert (= :t (ct-eval ctx "(if true :t :f)")) "if true with else")
(assert (= nil (ct-eval ctx "(if false :t)")) "if false no else")
(assert (= :f (ct-eval ctx "(if false :t :f)")) "if false with else")
(assert (= nil (ct-eval ctx "(if nil :t)")) "if nil no else")
(assert (= :f (ct-eval ctx "(if nil :t :f)")) "if nil with else"))
(print " ok")
(print "2: test-if zero/empty is true...")
(let [ctx (init)]
(assert (= true (ct-eval ctx "(= :t (if 0 :t :f))")) "0 is true")
(assert (= true (ct-eval ctx "(= :t (if 0.0 :t :f))")) "0.0 is true")
(assert (= true (ct-eval ctx "(= :t (if \"\" :t :f))")) "empty string is true")
(assert (= true (ct-eval ctx "(= :t (if () :t :f))")) "empty list is true")
(assert (= true (ct-eval ctx "(= :t (if [] :t :f))")) "empty vector is true")
(assert (= true (ct-eval ctx "(= :t (if {} :t :f))")) "empty map is true")
(assert (= true (ct-eval ctx "(= :t (if #{} :t :f))")) "empty set is true"))
(print " ok")
(print "3: test-if anything except nil/false is true...")
(let [ctx (init)]
(assert (= true (ct-eval ctx "(= :t (if 42 :t :f))")) "42 is true")
(assert (= true (ct-eval ctx "(= :t (if 1.5 :t :f))")) "float is true")
(assert (= true (ct-eval ctx "(= :t (if \"abc\" :t :f))")) "string is true")
(assert (= true (ct-eval ctx "(= :t (if 'abc :t :f))")) "symbol is true")
(assert (= true (ct-eval ctx "(= :t (if :kw :t :f))")) "keyword is true")
(assert (= true (ct-eval ctx "(= :t (if '(1 2) :t :f))")) "list is true")
(assert (= true (ct-eval ctx "(= :t (if [1 2] :t :f))")) "vector is true")
(assert (= true (ct-eval ctx "(= :t (if {:a 1 :b 2} :t :f))")) "map is true")
(assert (= true (ct-eval ctx "(= :t (if #{1 2} :t :f))")) "set is true"))
(print " ok")
(print "4: test-nil-punning...")
(let [ctx (init)]
(assert (= :yes (ct-eval ctx "(if (first []) :no :yes)")) "first [] nil")
(assert (= :yes (ct-eval ctx "(if (next [1]) :no :yes)")) "next [1] nil")
(assert (= :no (ct-eval ctx "(if (rest [1]) :no :yes)")) "rest [1] non-nil")
(assert (= :yes (ct-eval ctx "(if (seq nil) :no :yes)")) "seq nil")
(assert (= :yes (ct-eval ctx "(if (seq []) :no :yes)")) "seq [] nil")
(assert (= :no (ct-eval ctx "(if (lazy-seq nil) :no :yes)")) "lazy-seq nil non-nil")
(assert (= :no (ct-eval ctx "(if (lazy-seq []) :no :yes)")) "lazy-seq [] non-nil"))
(print " ok")
(print "5: test-and...")
(let [ctx (init)]
(assert (= true (ct-eval ctx "(and)")) "and empty")
(assert (= true (ct-eval ctx "(and true)")) "and true")
(assert (= nil (ct-eval ctx "(and nil)")) "and nil")
(assert (= false (ct-eval ctx "(and false)")) "and false")
(assert (ct-eval ctx "(= \"abc\" (and 1 true :kw 'abc \"abc\"))") "and chain last")
(assert (= nil (ct-eval ctx "(and 1 true nil 'abc \"abc\")")) "and chain nil")
(assert (= false (ct-eval ctx "(and 1 true 'abc \"abc\" false)")) "and chain false"))
(print " ok")
(print "6: test-or...")
(let [ctx (init)]
(assert (= nil (ct-eval ctx "(or)")) "or empty")
(assert (= true (ct-eval ctx "(or true)")) "or true")
(assert (= nil (ct-eval ctx "(or nil)")) "or nil")
(assert (= false (ct-eval ctx "(or false)")) "or false")
(assert (= true (ct-eval ctx "(or nil false true)")) "or nil false true")
(assert (= 1 (ct-eval ctx "(or nil false 1 2)")) "or picks first truthy")
(assert (ct-eval ctx "(= \"abc\" (or nil false \"abc\" :kw))") "or picks string")
(assert (= nil (ct-eval ctx "(or false nil)")) "or false nil -> nil")
(assert (= false (ct-eval ctx "(or nil false)")) "or nil false -> false")
(assert (= false (ct-eval ctx "(or nil nil nil false)")) "or chain to false")
(assert (= true (ct-eval ctx "(or nil true false)")) "or nil true false"))
(print " ok")
(print "7: test-not...")
(let [ctx (init)]
(assert (= true (ct-eval ctx "(not nil)")) "not nil")
(assert (= true (ct-eval ctx "(not false)")) "not false")
(assert (= false (ct-eval ctx "(not true)")) "not true")
(assert (= false (ct-eval ctx "(not 0)")) "not 0")
(assert (= false (ct-eval ctx "(not 42)")) "not 42")
(assert (= false (ct-eval ctx "(not \"\")")) "not empty string")
(assert (= false (ct-eval ctx "(not \"abc\")")) "not string")
(assert (= false (ct-eval ctx "(not ())")) "not empty list")
(assert (= false (ct-eval ctx "(not [])")) "not empty vector")
(assert (= false (ct-eval ctx "(not {})")) "not empty map")
(assert (= false (ct-eval ctx "(not #{})")) "not empty set"))
(print " ok")
(print "8: test-some?...")
(let [ctx (init)]
(assert (= false (ct-eval ctx "(some? nil)")) "some? nil")
(assert (= true (ct-eval ctx "(some? false)")) "some? false")
(assert (= true (ct-eval ctx "(some? 0)")) "some? 0")
(assert (= true (ct-eval ctx "(some? \"abc\")")) "some? string")
(assert (= true (ct-eval ctx "(some? [])")) "some? empty vec"))
(print " ok")
(print "\nAll Ported Logic tests passed!")