# jolt-j5vg / jolt-22vo / clojure.pprint — Phase-2 stdlib parity closeout. # # clojure.set — pure Clojure (src/jolt/clojure/set.clj) added to the Chez # prelude tier (driver.janet stdlib-ns-files). # clojure.math — native flonum-math shims (host/chez/math.ss) def-var!'d into # the clojure.math ns; the analyzer already knows the ns exists # (api.janet install-clojure-math!), so refs lower to var-deref. # clojure.pprint — minimal shim on the prelude; pprint's 2-arity no longer uses # (binding [*out* writer] ...) (uncompilable on the no-fallback # Chez back end; *out* isn't a bindable var — output always goes # through the host seam). # # Outputs are order-stable (value-equality / scalars) so set/map iteration order # — which is host-dependent — never masquerades as a divergence. # # # janet test/chez/_stdlib.janet (def jolt-bin (or (os/getenv "JOLT_BIN") "bin/joltc")) (def cases [# --- clojure.math (jolt-22vo / jolt-h79) --- ["(< 1.4142 (clojure.math/sqrt 2) 1.4143)" "true"] ["(long (clojure.math/pow 2 10))" "1024"] ["(long (clojure.math/tan 0))" "0"] ["(clojure.math/round 2.6)" "3"] ["(clojure.math/floor 2.9)" "2"] ["(clojure.math/signum -7.2)" "-1"] ["(< 3.14 (clojure.math/to-radians 180) 3.15)" "true"] ["(< 3.14 clojure.math/PI 3.15)" "true"] ["(< 2.71 clojure.math/E 2.72)" "true"] ["(long (clojure.math/cbrt 27))" "3"] ["(< 4.6 (clojure.math/log 100) 4.7)" "true"] # Chez has no native log10 (computed as log(x)/log(10)), so it can differ from # C log10 in the last ulp (3 vs 2.9999…); range-check, don't pin. ["(< 2.99 (clojure.math/log10 1000) 3.01)" "true"] ["(do (require (quote [clojure.math :as m])) (long (m/hypot 3 4)))" "5"] ["(mapv (comp long clojure.math/sqrt) [1 4])" "[1 2]"] ["(long (clojure.math/atan2 0 1))" "0"] # --- clojure.set (jolt-j5vg) --- ["(do (require (quote [clojure.set :as s])) (= #{1 2 3 4} (s/union #{1 2} #{3 4})))" "true"] ["(do (require (quote [clojure.set :as s])) (= #{2} (s/intersection #{1 2} #{2 3})))" "true"] ["(do (require (quote [clojure.set :as s])) (= #{1} (s/difference #{1 2} #{2 3})))" "true"] ["(do (require (quote [clojure.set :as s])) (s/subset? #{1} #{1 2}))" "true"] ["(do (require (quote [clojure.set :as s])) (s/superset? #{1 2} #{1}))" "true"] ["(do (require (quote [clojure.set :as s])) (= {1 :a 2 :b} (s/map-invert {:a 1 :b 2})))" "true"] ["(do (require (quote [clojure.set :as s])) (= #{:a} (s/select keyword? #{:a})))" "true"] ["(do (require (quote [clojure.set :as s])) (= #{{:a 1 :b 2}} (s/join #{{:a 1}} #{{:b 2}})))" "true"] ["(do (require (quote [clojure.set :as s])) (= {:b 1} (s/rename-keys {:a 1} {:a :b})))" "true"] ["(do (require (quote [clojure.set :as s])) (= 2 (count (s/index #{{:k 1} {:k 2}} [:k]))))" "true"] # --- clojure.pprint (minimal shim) --- ["(do (require (quote [clojure.pprint :as pp])) (= \"[1 2 3]\\n\" (with-out-str (pp/pprint [1 2 3]))))" "true"] ["(do (require (quote [clojure.pprint :as pp])) (pp/with-pprint-dispatch pp/code-dispatch 42))" "42"]]) (defn run-capture [bin expr] (def proc (os/spawn [bin "-e" expr] :p {:out :pipe :err :pipe})) (def out (ev/read (proc :out) 0x100000)) (def err (ev/read (proc :err) 0x100000)) (def code (os/proc-wait proc)) (def lines (filter (fn [l] (not (empty? l))) (string/split "\n" (string/trim (if out (string out) ""))))) [code (if (empty? lines) "" (last lines)) (string/trim (if err (string err) ""))]) (var pass 0) (def fails @[]) (each [expr expected] cases (def [code got err] (run-capture jolt-bin expr)) (cond (not= code 0) (array/push fails [expr (string "exit " code "; err: " err)]) (= got expected) (++ pass) (array/push fails [expr (string "want `" expected "`, got `" got "`")]))) (printf "\n_stdlib parity [%s]: %d/%d passed" jolt-bin pass (length cases)) (when (> (length fails) 0) (printf "%d FAIL(s):" (length fails)) (each [e m] fails (printf " FAIL %s\n %s" e m))) (flush) (os/exit (if (empty? fails) 0 1))