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.
42 lines
1.7 KiB
Text
42 lines
1.7 KiB
Text
(use ../../../src/jolt/api)
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(defn ct-eval [ctx s] (normalize-pvecs (eval-string ctx s)))
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(print "CLJS Collections Ported Tests")
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(print "1: dissoc...")
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(let [ctx (init)]
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(assert (= true (ct-eval ctx "(= {:a :b} (dissoc {:a :b :c :d} :c))")) "dissoc")
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(assert (= true (ct-eval ctx "(= {} (dissoc {1 2 3 4} 1 3))")) "dissoc multi"))
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(print " ok")
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(print "2: assoc...")
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(let [ctx (init)]
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(assert (= true (ct-eval ctx "(= {1 2 3 4} (assoc {} 1 2 3 4))")) "assoc multi")
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(assert (= true (ct-eval ctx "(= {1 2} (assoc {} 1 2))")) "assoc single"))
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(print " ok")
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(print "3: set operations...")
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(let [ctx (init)]
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(assert (= true (ct-eval ctx "(set? (set []))")) "set empty")
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(assert (= true (ct-eval ctx "(= #{\"foo\"} (set [\"foo\"]))")) "set from vec")
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(assert (= true (ct-eval ctx "(= #{1 2 3} #{1 3 2})")) "set order")
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(assert (= true (ct-eval ctx "(= #{1 2 3} (disj #{1 2 3}))")) "disj none")
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(assert (= true (ct-eval ctx "(= #{1 2} (disj #{1 2 3} 3))")) "disj one")
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(assert (= true (ct-eval ctx "(= #{1} (disj #{1 2 3} 2 3))")) "disj multi")
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(assert (= true (ct-eval ctx "(= 4 (get #{1 2 3 4} 4))")) "get set")
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(assert (= true (ct-eval ctx "(contains? #{1 2 3 4} 4)")) "contains? set"))
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(print " ok")
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(print "4: vector nth...")
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(let [ctx (init)]
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(assert (= true (ct-eval ctx "(= :a (nth [:a :b :c :d] 0))")) "nth")
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(assert (= true (ct-eval ctx "(= :c (nth [:a :b :c :d] 2 0.1))")) "nth float"))
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(print " ok")
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(print "5: range...")
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(let [ctx (init)]
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(assert (= true (ct-eval ctx "(= 0 (count (range 10 0 1)))")) "range empty")
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(assert (= true (ct-eval ctx "(= 4 (count (range 0 10 3)))")) "range count")
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(assert (= true (ct-eval ctx "(= 1 (count (range 0 1 1)))")) "range single"))
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(print " ok")
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(print "\nAll CLJS Collections Ported tests passed!")
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