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Test, Build, and Deploy / test-build-deploy (push) Failing after 33s
lib/guest/test-runner.sx — per-suite mutable state {:pass :fail :fails}
+ refl-test recorder + refl-test-report. Replaces the identical
4-define harness that appears in 142+ test files across the codebase.
Each migrated file goes from:
(define X-test-pass 0)
(define X-test-fail 0)
(define X-test-fails (list))
(define X-test (fn (name actual expected) (if (= actual expected)
(set! X-test-pass (+ X-test-pass 1)) (begin ...))))
;; ... tests ...
(define X-tests-run! (fn () {:total ... :passed ... :failed ... :fails ...}))
to:
(define X-suite (refl-make-test-suite))
(define X-test (fn (n a e) (refl-test X-suite n a e)))
;; ... tests ...
(define X-tests-run! (fn () (refl-test-report X-suite)))
All 322 Kernel tests pass unchanged (parse 62, eval 36, vau 38,
standard 127, encap 19, hygiene 26, metacircular 14). 84 LoC removed.
Migration is mechanical (the prefix is the only difference between
suites); /tmp/migrate_harness.py drives the regex. Other guests
(Tcl, Smalltalk, APL, CL, Erlang, Haskell, etc.) migrated in
subsequent commits.
434 lines
16 KiB
Plaintext
434 lines
16 KiB
Plaintext
;; lib/kernel/tests/standard.sx — exercises the Kernel standard env.
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;;
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;; Phase 4 tests verify that the standard env is rich enough to run
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;; classic Kernel programs: factorial via recursion, list operations,
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;; first-class environment manipulation. Each test starts from a fresh
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;; standard env via `(kernel-standard-env)`.
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(define ks-suite (refl-make-test-suite))
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(define ks-test (fn (n a e) (refl-test ks-suite n a e)))
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(define
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ks-eval
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(fn (src) (kernel-eval (kernel-parse src) (kernel-standard-env))))
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(define ks-eval-in (fn (src env) (kernel-eval (kernel-parse src) env)))
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(define
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ks-eval-all
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(fn (src env) (kernel-eval-program (kernel-parse-all src) env)))
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;; ── $if ──────────────────────────────────────────────────────────
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(ks-test "if: true branch" (ks-eval "($if #t 1 2)") 1)
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(ks-test "if: false branch" (ks-eval "($if #f 1 2)") 2)
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(ks-test "if: predicate"
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(ks-eval "($if (<=? 1 2) ($quote yes) ($quote no))") "yes")
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(ks-test
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"if: untaken branch not evaluated"
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(ks-eval "($if #t 42 nope)")
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42)
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;; ── $define! + arithmetic ───────────────────────────────────────
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(ks-test
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"define!: returns value"
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(let ((env (kernel-standard-env))) (ks-eval-in "($define! x 5)" env))
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5)
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(ks-test
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"define!: bound in env"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in "($define! x 5)" env)
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(ks-eval-in "x" env))
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5)
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(ks-test "arith: +" (ks-eval "(+ 2 3)") 5)
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(ks-test "arith: -" (ks-eval "(- 10 4)") 6)
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(ks-test "arith: *" (ks-eval "(* 6 7)") 42)
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(ks-test "arith: /" (ks-eval "(/ 20 5)") 4)
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(ks-test "cmp: < true" (ks-eval "(< 1 2)") true)
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(ks-test "cmp: < false" (ks-eval "(< 2 1)") false)
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(ks-test "cmp: >=" (ks-eval "(>=? 2 2)") true)
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(ks-test "cmp: <=" (ks-eval "(<=? 2 3)") true)
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(ks-test "cmp: =" (ks-eval "(=? 7 7)") true)
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;; ── $sequence ────────────────────────────────────────────────────
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(ks-test "sequence: empty" (ks-eval "($sequence)") nil)
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(ks-test "sequence: single" (ks-eval "($sequence 99)") 99)
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(ks-test
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"sequence: multi-effect"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in "($sequence ($define! a 1) ($define! b 2) (+ a b))" env))
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3)
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;; ── list primitives ──────────────────────────────────────────────
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(ks-test
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"list: builds"
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(ks-eval "(list 1 2 3)")
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(list 1 2 3))
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(ks-test "list: empty" (ks-eval "(list)") (list))
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(ks-test
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"cons: prepend"
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(ks-eval "(cons 0 (list 1 2 3))")
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(list 0 1 2 3))
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(ks-test "car: head" (ks-eval "(car (list 10 20 30))") 10)
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(ks-test
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"cdr: tail"
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(ks-eval "(cdr (list 10 20 30))")
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(list 20 30))
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(ks-test "length: 3" (ks-eval "(length (list 1 2 3))") 3)
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(ks-test "length: 0" (ks-eval "(length (list))") 0)
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(ks-test "null?: empty" (ks-eval "(null? (list))") true)
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(ks-test "null?: nonempty" (ks-eval "(null? (list 1))") false)
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(ks-test "pair?: empty" (ks-eval "(pair? (list))") false)
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(ks-test "pair?: nonempty" (ks-eval "(pair? (list 1))") true)
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;; ── $quote ───────────────────────────────────────────────────────
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(ks-test "quote: symbol" (ks-eval "($quote foo)") "foo")
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(ks-test
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"quote: list"
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(ks-eval "($quote (+ 1 2))")
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(list "+" 1 2))
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;; ── boolean / not ────────────────────────────────────────────────
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(ks-test "not: true" (ks-eval "(not #t)") false)
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(ks-test "not: false" (ks-eval "(not #f)") true)
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;; ── factorial ────────────────────────────────────────────────────
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(ks-test
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"factorial: 5!"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in
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"($define! factorial ($lambda (n) ($if (<=? n 1) 1 (* n (factorial (- n 1))))))"
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env)
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(ks-eval-in "(factorial 5)" env))
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120)
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(ks-test
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"factorial: 0! = 1"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in
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"($define! factorial ($lambda (n) ($if (<=? n 1) 1 (* n (factorial (- n 1))))))"
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env)
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(ks-eval-in "(factorial 0)" env))
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1)
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(ks-test
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"factorial: 10!"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in
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"($define! factorial ($lambda (n) ($if (<=? n 1) 1 (* n (factorial (- n 1))))))"
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env)
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(ks-eval-in "(factorial 10)" env))
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3628800)
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;; ── recursive list operations ────────────────────────────────────
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(ks-test
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"sum: recursive over list"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in
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"($define! sum ($lambda (xs) ($if (null? xs) 0 (+ (car xs) (sum (cdr xs))))))"
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env)
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(ks-eval-in "(sum (list 1 2 3 4 5))" env))
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15)
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(ks-test
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"len: recursive count"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in
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"($define! mylen ($lambda (xs) ($if (null? xs) 0 (+ 1 (mylen (cdr xs))))))"
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env)
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(ks-eval-in "(mylen (list 1 2 3 4))" env))
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4)
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(ks-test
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"map-add1: build new list"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in
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"($define! add1-all ($lambda (xs) ($if (null? xs) (list) (cons (+ 1 (car xs)) (add1-all (cdr xs))))))"
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env)
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(ks-eval-in "(add1-all (list 10 20 30))" env))
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(list 11 21 31))
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;; ── eval as a first-class applicative ────────────────────────────
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(ks-test
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"eval: applies to constructed form"
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(ks-eval "(eval (list ($quote +) 2 3) (get-current-environment))")
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5)
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(ks-test
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"eval: with a fresh make-environment"
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(guard
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(e (true :raised))
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(ks-eval "(eval ($quote (+ 1 2)) (make-environment))"))
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:raised)
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(ks-test
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"eval: in extended env sees parent's bindings"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in "($define! shared 7)" env)
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(ks-eval-in
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"(eval ($quote shared) (make-environment (get-current-environment)))"
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env))
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7)
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;; ── get-current-environment ──────────────────────────────────────
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(ks-test
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"get-current-environment: returns env"
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(kernel-env? (ks-eval "(get-current-environment)"))
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true)
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(ks-test
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"get-current-environment: contains $if"
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(let
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((env (ks-eval "(get-current-environment)")))
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(kernel-env-has? env "$if"))
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true)
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(ks-test
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"make-environment: empty"
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(let ((env (ks-eval "(make-environment)"))) (kernel-env-has? env "$if"))
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false)
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(ks-test
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"make-environment: child sees parent"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in "($define! marker 123)" env)
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(let
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((child (ks-eval-in "(make-environment (get-current-environment))" env)))
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(kernel-env-has? child "marker")))
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true)
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;; ── closures and lexical scope ───────────────────────────────────
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(ks-test
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"closure: captures binding"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in
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"($define! make-adder ($lambda (n) ($lambda (x) (+ x n))))"
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env)
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(ks-eval-in "($define! add5 (make-adder 5))" env)
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(ks-eval-in "(add5 10)" env))
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15)
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(ks-test
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"closure: nested lookups"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in
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"($define! curry-add ($lambda (a) ($lambda (b) ($lambda (c) (+ a (+ b c))))))"
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env)
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(ks-eval-in "(((curry-add 1) 2) 3)" env))
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6)
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;; ── operative defined in standard env can reach $define! ─────────
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(ks-test
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"custom: define-via-vau"
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(let
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((env (kernel-standard-env)))
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(ks-eval-in
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"($define! $let-it ($vau (name expr) e ($sequence ($define! tmp (eval expr e)) (eval (list ($quote $define!) name (list ($quote $quote) tmp)) e) tmp)))"
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env)
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(ks-eval-in "($let-it z 77)" env)
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(ks-eval-in "z" env))
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77)
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;; ── quasiquote ──────────────────────────────────────────────────
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(ks-test "qq: plain atom" (ks-eval "`hello") "hello")
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(ks-test "qq: plain list" (ks-eval "`(a b c)") (list "a" "b" "c"))
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(ks-test "qq: unquote splices value"
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(let ((env (kernel-standard-env)))
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(ks-eval-in "($define! x 42)" env)
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(ks-eval-in "`(a ,x b)" env)) (list "a" 42 "b"))
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(ks-test "qq: unquote-splicing splices list"
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(let ((env (kernel-standard-env)))
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(ks-eval-in "($define! xs (list 1 2 3))" env)
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(ks-eval-in "`(a ,@xs b)" env)) (list "a" 1 2 3 "b"))
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(ks-test "qq: unquote-splicing at end"
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(let ((env (kernel-standard-env)))
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(ks-eval-in "($define! xs (list 9 8))" env)
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(ks-eval-in "`(a b ,@xs)" env)) (list "a" "b" 9 8))
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(ks-test "qq: unquote-splicing at start"
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(let ((env (kernel-standard-env)))
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(ks-eval-in "($define! xs (list 1 2))" env)
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(ks-eval-in "`(,@xs c)" env)) (list 1 2 "c"))
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(ks-test "qq: nested list with unquote inside"
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(let ((env (kernel-standard-env)))
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(ks-eval-in "($define! x 5)" env)
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(ks-eval-in "`(a (b ,x) c)" env))
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(list "a" (list "b" 5) "c"))
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(ks-test "qq: error on bare unquote-splicing into non-list"
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(let ((env (kernel-standard-env)))
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(ks-eval-in "($define! x 42)" env)
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(guard (e (true :raised))
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(ks-eval-in "`(a ,@x b)" env)))
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:raised)
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;; ── $cond / $when / $unless ─────────────────────────────────────
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(ks-test "cond: first match"
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(ks-eval "($cond (#f 1) (#t 2) (#t 3))") 2)
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(ks-test "cond: else fallback"
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(ks-eval "($cond (#f 1) (else 99))") 99)
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(ks-test "cond: no match returns nil"
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(ks-eval "($cond (#f 1) (#f 2))") nil)
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(ks-test "cond: empty clauses returns nil"
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(ks-eval "($cond)") nil)
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(ks-test "cond: multi-expr body"
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(ks-eval "($cond (#t 1 2 3))") 3)
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(ks-test "cond: doesn't evaluate untaken clauses"
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;; If the second clause's test were evaluated, the unbound `nope` would error.
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(ks-eval "($cond (#t 7) (nope ignored))") 7)
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(ks-test "cond: predicate evaluation"
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(let ((env (kernel-standard-env)))
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(ks-eval-in "($define! n 5)" env)
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(ks-eval-in "($cond ((< n 0) ($quote negative)) ((= n 0) ($quote zero)) (else ($quote positive)))" env))
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"positive")
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(ks-test "when: true runs body"
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(ks-eval "($when #t 1 2 3)") 3)
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(ks-test "when: false returns nil"
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(ks-eval "($when #f 1 2 3)") nil)
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(ks-test "when: skips body when false"
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(ks-eval "($when #f nope)") nil)
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(ks-test "unless: false runs body"
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(ks-eval "($unless #f 99)") 99)
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(ks-test "unless: true returns nil"
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(ks-eval "($unless #t 99)") nil)
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(ks-test "unless: skips body when true"
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(ks-eval "($unless #t nope)") nil)
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;; ── $and? / $or? short-circuit ──────────────────────────────────
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(ks-test "and: empty returns true" (ks-eval "($and?)") true)
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(ks-test "and: single returns value" (ks-eval "($and? 42)") 42)
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(ks-test "and: all true returns last"
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(ks-eval "($and? 1 2 3)") 3)
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(ks-test "and: first false short-circuits"
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(ks-eval "($and? #f nope)") false)
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(ks-test "and: false in middle short-circuits"
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(ks-eval "($and? 1 #f nope)") false)
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(ks-test "or: empty returns false" (ks-eval "($or?)") false)
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(ks-test "or: single returns value" (ks-eval "($or? 42)") 42)
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(ks-test "or: first truthy short-circuits"
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(ks-eval "($or? 99 nope)") 99)
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(ks-test "or: all false returns last"
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(ks-eval "($or? #f #f #f)") false)
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(ks-test "or: middle truthy"
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(ks-eval "($or? #f 42 nope)") 42)
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;; ── variadic arithmetic ─────────────────────────────────────────
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(ks-test "+: zero args = 0" (ks-eval "(+)") 0)
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(ks-test "+: one arg = arg" (ks-eval "(+ 7)") 7)
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(ks-test "+: two args" (ks-eval "(+ 3 4)") 7)
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(ks-test "+: five args" (ks-eval "(+ 1 2 3 4 5)") 15)
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(ks-test "*: zero args = 1" (ks-eval "(*)") 1)
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(ks-test "*: one arg" (ks-eval "(* 7)") 7)
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(ks-test "*: four args" (ks-eval "(* 1 2 3 4)") 24)
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(ks-test "-: one arg negates" (ks-eval "(- 10)") -10)
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(ks-test "-: two args" (ks-eval "(- 10 3)") 7)
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(ks-test "-: four args fold" (ks-eval "(- 100 1 2 3)") 94)
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(ks-test "/: two args" (ks-eval "(/ 20 5)") 4)
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(ks-test "/: three args fold" (ks-eval "(/ 100 2 5)") 10)
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;; ── variadic chained comparison ─────────────────────────────────
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(ks-test "<: chained ascending" (ks-eval "(< 1 2 3 4 5)") true)
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(ks-test "<: not strict" (ks-eval "(< 1 2 2 3)") false)
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(ks-test "<: anti-monotonic" (ks-eval "(< 5 3)") false)
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(ks-test ">: chained descending" (ks-eval "(> 5 4 3 2 1)") true)
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(ks-test "<=? ascending equals" (ks-eval "(<=? 1 1 2 3 3)") true)
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(ks-test "<=? violation" (ks-eval "(<=? 1 2 1)") false)
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(ks-test ">=? descending equals" (ks-eval "(>=? 3 3 2 1)") true)
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;; ── list combinators ────────────────────────────────────────────
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(ks-test "map: square"
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(ks-eval "(map ($lambda (x) (* x x)) (list 1 2 3 4))")
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(list 1 4 9 16))
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(ks-test "map: empty list"
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(ks-eval "(map ($lambda (x) x) (list))") (list))
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(ks-test "map: identity preserves"
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(ks-eval "(map ($lambda (x) x) (list 1 2 3))") (list 1 2 3))
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(ks-test "map: with closure over outer"
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(let ((env (kernel-standard-env)))
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(ks-eval-in "($define! k 10)" env)
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(ks-eval-in "(map ($lambda (x) (+ x k)) (list 1 2 3))" env))
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(list 11 12 13))
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(ks-test "filter: positives"
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(ks-eval "(filter ($lambda (x) (< 0 x)) (list -2 -1 0 1 2))")
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(list 1 2))
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(ks-test "filter: empty result"
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(ks-eval "(filter ($lambda (x) #f) (list 1 2 3))") (list))
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(ks-test "filter: all match"
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(ks-eval "(filter ($lambda (x) #t) (list 1 2 3))") (list 1 2 3))
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(ks-test "reduce: sum"
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(ks-eval "(reduce ($lambda (a b) (+ a b)) 0 (list 1 2 3 4 5))") 15)
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(ks-test "reduce: product"
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(ks-eval "(reduce ($lambda (a b) (* a b)) 1 (list 1 2 3 4))") 24)
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(ks-test "reduce: empty returns init"
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(ks-eval "(reduce ($lambda (a b) (+ a b)) 42 (list))") 42)
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(ks-test "reduce: build list"
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(ks-eval "(reduce ($lambda (acc x) (cons x acc)) () (list 1 2 3))")
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(list 3 2 1))
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;; ── apply ────────────────────────────────────────────────────────
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(ks-test "apply: + over list"
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(ks-eval "(apply + (list 1 2 3 4 5))") 15)
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(ks-test "apply: lambda"
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(ks-eval "(apply ($lambda (a b c) (* a (+ b c))) (list 2 3 4))") 14)
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(ks-test "apply: list identity"
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(ks-eval "(apply list (list 1 2 3))") (list 1 2 3))
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(ks-test "apply: empty args list"
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(ks-eval "(apply + (list))") 0)
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(ks-test "apply: single arg list"
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(ks-eval "(apply ($lambda (x) (* x 10)) (list 7))") 70)
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(ks-test "apply: built via map+apply"
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;; (apply + (map ($lambda (x) (* x x)) (list 1 2 3))) → 1+4+9 = 14
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(ks-eval
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"(apply + (map ($lambda (x) (* x x)) (list 1 2 3)))") 14)
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(ks-test "apply: error on non-list args"
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(guard (e (true :raised))
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(ks-eval "(apply + 5)"))
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:raised)
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;; ── append / reverse ────────────────────────────────────────────
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(ks-test "append: two lists"
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(ks-eval "(append (list 1 2) (list 3 4))") (list 1 2 3 4))
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|
(ks-test "append: three lists"
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(ks-eval "(append (list 1) (list 2) (list 3))") (list 1 2 3))
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|
(ks-test "append: empty list"
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|
(ks-eval "(append)") (list))
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|
(ks-test "append: one list"
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|
(ks-eval "(append (list 1 2 3))") (list 1 2 3))
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|
(ks-test "append: empty + nonempty"
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|
(ks-eval "(append (list) (list 1 2))") (list 1 2))
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|
(ks-test "append: nonempty + empty"
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|
(ks-eval "(append (list 1 2) (list))") (list 1 2))
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|
(ks-test "append: error on non-list"
|
|
(guard (e (true :raised))
|
|
(ks-eval "(append (list 1) 5)"))
|
|
:raised)
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|
|
|
(ks-test "reverse: four elements"
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|
(ks-eval "(reverse (list 1 2 3 4))") (list 4 3 2 1))
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|
(ks-test "reverse: empty"
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|
(ks-eval "(reverse (list))") (list))
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|
(ks-test "reverse: single"
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|
(ks-eval "(reverse (list 99))") (list 99))
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|
(ks-test "reverse: double reverse is identity"
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|
(ks-eval "(reverse (reverse (list 1 2 3)))") (list 1 2 3))
|
|
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|
(define ks-tests-run! (fn () (refl-test-report ks-suite)))
|