jolt/test/chez/reader-parity.janet
Yogthos b12cb3c00b Chez Phase 3 inc 5c: reader dispatch (#) in jolt.reader
Ports the full # dispatch to the portable reader: #{} sets, #() anon-fns, #?/#?@
reader-conditionals, #_ discard, #' var-quote, #"" regex, #inst/#uuid/#tag tagged
literals, ## symbolic (Inf/-Inf/NaN), and #^ deprecated metadata. With this the
reader is feature-complete except position tracking + wire-in (inc 5d).

Reader-conditionals resolve clause-order against a portable feature set (atom
#{:jolt :default}); #? -> :skip / :form, #?@ -> :splice (the control protocol from
5b). #() uses the two-pass %-scan (collect indices, then rebuild replacing %N/%/%&
with gensym params) over the form tree via the jolt.host form-* contract. Three
host constructors added: form-make-set, form-make-tagged, form-gensym-name.

reader-parity 149/149. #() compares modulo gensym (canonicalize #-suffixed param
names by first-occurrence order — the two readers gensym different names but the
structure + %-mapping must match). ##NaN checked by the NaN!=NaN property. Full jpm
gate green (prelude pre-warmed). jolt-9ufe.
2026-06-19 20:00:57 -04:00

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# Chez Phase 3 inc 5a (jolt-50xx) — value-parity gate for the PORTABLE Clojure
# reader (jolt.reader) vs the Janet seed reader (src/jolt/reader.janet, oracle).
#
# jolt.reader holds the lexing/parsing LOGIC in portable Clojure and delegates
# form construction + number parsing to the jolt.host contract. Here it runs
# interpreted ON THE JANET HOST (loaded via bootstrap-load-source); each input is
# read by BOTH readers and the resulting FORMS compared with jolt's own = (so the
# representation, host-built either way, matches structurally). Positions differ
# (char vs byte indices) and are not compared.
#
# janet test/chez/reader-parity.janet (from repo root)
(import ../../src/jolt/api :as api)
(import ../../src/jolt/backend :as backend)
(import ../../src/jolt/reader :as r)
(import ../../src/jolt/types_ctx :as tctx)
(import ../../src/jolt/types_ns :as tns)
(import ../../src/jolt/types_var :as tvar)
(import ../../src/jolt/core :as core)
(var total 0) (var fails 0)
(defn ok [name pred &opt extra]
(++ total)
(if pred (printf "ok: %s" name)
(do (++ fails) (printf "FAIL: %s %s" name (or extra "")))))
(def ctx (api/init {:compile? true}))
(def src (get (get (ctx :env) :embedded-sources) "jolt.reader"))
(assert src "jolt.reader not embedded (check stdlib_embed collect)")
(backend/bootstrap-load-source ctx "jolt.reader" src)
(def read-one (tvar/var-get (tns/ns-find (tctx/ctx-find-ns ctx "jolt.reader") "read-one")))
(assert read-one "jolt.reader/read-one not found")
# jolt's own value equality (the host =), the same comparator the corpus gate uses.
(defn jeq [a b] (core/jolt-equal? a b))
(defn check [input]
(def w (protect (in (r/parse-next input) 0))) # Janet seed reader (oracle)
(def g (protect (read-one input))) # portable Clojure reader
(cond
# both readers throw on the same input = faithful parity (safety net for
# genuinely-invalid input). We FIX latent bugs rather than reproduce them
# (fix-bugs-dont-reproduce), so this should be rare.
(and (not (w 0)) (not (g 0))) (ok input true)
(not (w 0)) (ok input false (string "janet threw, clj didn't: clj=" (string/format "%p" (g 1))))
(not (g 0)) (ok input false (string "clj threw, janet ok: " (string (g 1))))
(ok input (jeq (w 1) (g 1))
(string "clj=" (string/format "%p" (g 1)) " janet=" (string/format "%p" (w 1))))))
# For inputs where the Janet seed reader is a BUGGY oracle (a latent bug we FIX in
# the port rather than reproduce, fix-bugs-dont-reproduce), assert the portable
# reader against the hand-verified correct value. The Janet seed isn't fixed —
# it's deleted in Phase 5 — so we don't compare against it here.
(defn check-correct [input expected]
(def g (protect (read-one input)))
(if (not (g 0))
(ok input false (string "clj threw: " (string (g 1))))
(ok input (jeq expected (g 1))
(string "clj=" (string/format "%p" (g 1)) " want=" (string/format "%p" expected)))))
# --- inc 5a: atoms -------------------------------------------------------------
# nil / bool
(each i ["nil" "true" "false"] (check i))
# symbols (plain, ns'd, punctuation, special chars)
(each i ["foo" "foo-bar" "my.ns/bar" "+" "-" "*" "->" "<=" "some?" "a1" "x'" "ns/+"] (check i))
# keywords
(each i [":a" ":foo-bar" ":my.ns/key" "::auto" ":a1" ":+"] (check i))
# strings (escapes)
(each i [`"hello"` `"with space"` `"tab\there"` `"nl\nhere"` `"q\"q"` `"back\\slash"` `""`] (check i))
# integers / signs / hex / radix
(each i ["0" "42" "-7" "123456" "0xFF" "0x10" "-0xff" "2r1010" "16rFF" "36rZ" "8r17"] (check i))
# floats / exponent / ratio / N|M suffix
(each i ["3.14" "-2.5" "0.0" "1e10" "1.5e-3" "2E5" "10N" "3.14M" "1/2" "-3/4" "22/7"] (check i))
# leading + reads as the positive number (jolt-if19 fixed in the port; the Janet
# seed reader still errors on these, so assert against the correct value).
(check-correct "+5" 5)
(check-correct "+42" 42)
(check-correct "+0xff" 255)
(check-correct "+3.5" 3.5)
# characters
(each i [`\a` `\Z` `\0` `\newline` `\tab` `\space` `\return` `\\` `\(` `\{` `\%` `A` `\o101`] (check i))
# For #() forms the two readers gensym DIFFERENT param names, so compare modulo
# gensyms: canonicalize each "#"-suffixed symbol to G__<first-occurrence-order>.
(defn- gsym? [nm] (and (> (length nm) 0) (= (in nm (- (length nm) 1)) (chr "#"))))
(defn normalize [form mp]
(cond
(and (struct? form) (= :symbol (form :jolt/type)) (gsym? (form :name)))
(do (when (nil? (get mp (form :name))) (put mp (form :name) (string "G__" (length mp))))
{:jolt/type :symbol :ns nil :name (get mp (form :name))})
(and (struct? form) (= :symbol (form :jolt/type))) form
(array? form) (map |(normalize $ mp) form)
(tuple? form) (tuple/slice (tuple ;(map |(normalize $ mp) form)))
(and (struct? form) (= :jolt/set (form :jolt/type)))
{:jolt/type :jolt/set :value (tuple/slice (tuple ;(map |(normalize $ mp) (form :value))))}
(struct? form) (let [order (r/form-kv-order form)]
(if order (r/reader-map (array ;(map |(normalize $ mp) order))) form))
form))
(defn check-anon [input]
(def w (in (r/parse-next input) 0))
(def g (protect (read-one input)))
(if (not (g 0))
(ok input false (string "clj threw: " (string (g 1))))
(ok input (core/jolt-equal? (normalize w @{}) (normalize (g 1) @{}))
(string "clj=" (string/format "%p" (normalize (g 1) @{})) " janet=" (string/format "%p" (normalize w @{}))))))
# --- inc 5b: collections + quote/deref/meta -----------------------------------
# lists
(each i ["(1 2 3)" "(a b c)" "()" "(foo (bar baz) qux)" "(+ 1 (* 2 3))"] (check i))
(check "(1 ; c\n 2 3)") # comment inside a list
# vectors
(each i ["[1 2 3]" "[]" "[a [b c]]" "[1 [2 [3]]]" "[:a :b :c]"] (check i))
# maps
(each i ["{:a 1 :b 2}" "{}" "{:a {:b 1}}" "{:x [1 2] :y {:z 3}}" "{1 2 3 4}"] (check i))
(check "{:a 1 ; c\n :b 2}") # comment inside a map (key/value slots)
# mixed / nested forms (real code shapes)
(each i ["(defn f [x] (+ x 1))" "{:list (1 2) :vec [3 4]}" "(let [a 1 b 2] (+ a b))"] (check i))
# quote / syntax-quote / unquote / deref
(each i ["'foo" "'(1 2 3)" "''x" "'[a b]" "'{:a 1}"] (check i))
(each i ["`foo" "`(a b c)" "`[x y]"] (check i))
(check "`\"meow\"") # syntax-quote of a literal collapses
(each i ["~x" "~@xs" "@x" "@(atom 1)"] (check i))
(check "`(a ~b ~@c)")
# metadata
(each i ["^:dynamic x" "^String s" "^:private foo" "^{:a 1} v" "^t/Ray r"] (check i))
(check "(defn ^:private g [x] x)")
# --- inc 5c: dispatch (#) ------------------------------------------------------
# sets
(each i ["#{1 2 3}" "#{}" "#{:a :b}" "#{[1 2] {:k 1}}"] (check i))
# var-quote
(each i ["#'foo" "#'my.ns/bar"] (check i))
# regex (tagged :regex form — compared by source string)
(each i [`#"[0-9]+"` `#"\d+"` `#"a.c"` `#"(?i)foo"`] (check i))
# tagged literals (#inst / #uuid / arbitrary #tag)
(each i [`#inst "2020-01-01"` `#uuid "00000000-0000-0000-0000-000000000000"`
`#foo bar` `#foo [1 2]` `#my.ns/Tag {:a 1}`] (check i))
# #_ discard (in collections + top-level + map slots)
(each i ["[1 #_2 3]" "(a #_b c)" "#_ x y" "{:a #_1 2 :b 3}" "[#_#_1 2 3]"] (check i))
# #? reader-conditional (jolt + default active; cljs inactive)
(each i ["#?(:jolt 1 :clj 2)" "#?(:clj 1 :default 2)" "[#?(:cljs 1) 2]"
"#?(:jolt :yes :default :no)"] (check i))
# #?@ splice
(each i ["[#?@(:jolt [1 2]) 3]" "[#?@(:cljs [9]) 4]" "(0 #?@(:default [1 2 3]) 4)"] (check i))
# ## symbolic (Inf/-Inf comparable; NaN checked by property)
(each i ["##Inf" "##-Inf"] (check i))
(let [g (read-one "##NaN")] (ok "##NaN" (not= g g) (string "got " (string/format "%p" g))))
# #^ deprecated metadata reader macro (= ^)
(each i ["#^String x" "#^:dynamic y"] (check i))
# #() anonymous fns (gensym-normalized)
(each i ["#(+ %1 %2)" "#(* % %)" "#(do %2 %&)" "#(foo)" "#(vector %1 %2 %3)"
"#(%)" "#(apply + %&)" "#(get {:a %} :a)" "#(conj #{%1} %2)" "#(inc %)"] (check-anon i))
(printf "\n%d/%d ok" (- total fails) total)
(when (> fails 0) (os/exit 1))