(require-macros :macros) (require-macros :tests.test) (local core (require :init)) (deftest equality (testing "comparing basetypes" (assert-not (pcall core.eq)) (assert-eq 1 1) (assert-ne 1 2) (assert-is (core.eq 1 1 1 1 1)) (assert-eq 1.0 1.0) (assert-is (core.eq 1.0 1.0 1.0)) (assert-is (core.eq 1.0 1.0 1.0)) (assert-is (core.eq "1" "1" "1" "1" "1"))) (testing "deep comparison" (assert-is (core.eq [])) (assert-eq [] []) (assert-eq [] {}) (assert-eq [1 2] [1 2]) (assert-eq [[1 [2 [3]] {[5] {:a [1 [1 [1 [1]]]]}}]] [[1 [2 [3]] {[5] {:a [1 [1 [1 [1]]]]}}]]) (assert-is (core.eq [[1 [2 [3]] {[5] {:a [1 [1 [1 [1]]]]}}]] [[1 [2 [3]] {[5] {:a [1 [1 [1 [1]]]]}}]])) (assert-is (core.eq [[1 [2 [3]] {[5] {:a [1 [1 [1 [1]]]]}}]] [[1 [2 [3]] {[5] {:a [1 [1 [1 [1]]]]}}]] [[1 [2 [3]] {[5] {:a [1 [1 [1 [1]]]]}}]])) (assert-not (core.eq [[1 [2 [3]] {[5] {:a [1 [1 [1 [1]]]]}}]] [[1 [2 [3]] {[5] {:a [1 [1 [1 [1]]]]}}]] [[1 [2 [3]] {[6] {:a [1 [1 [1 [1]]]]}}]])) (assert-ne [1] [1 2]) (assert-ne [1 2] [1]) (assert-is (core.eq [1 [2]] [1 [2]] [1 [2]])) (assert-is (core.eq [1 [2]] [1 [2]] [1 [2]])) (assert-not (core.eq [1 [2]] [1 [2]] [1 [2 [3]]])) (assert-not (core.eq {:a {:b 2}} {:a {:b 2}} {:a {:b 3}})) (let [a {:a 1 :b 2} b {:a 1 :b 2}] (table.insert b 10) (assert-ne a b)) (let [a [1 2 3] b [1 2 3]] (tset b :a 10) (assert-ne a b)) (assert-eq [1 2 3] {1 1 2 2 3 3}) (assert-eq {4 1} [nil nil nil 1])) (testing "eq metadata preservation" (let [a (setmetatable {[1] [1 1 1] [2 3] [[2 3] [2 3] [2 3] [2 3]]} {:__index (fn [tbl key] (. tbl key)) :meta :data}) b (setmetatable {[1] [1 1 1] [2 3] [[2 3] [2 3] [2 3] [2 3] [2 3]]} {:__index (fn [tbl key] (. tbl key)) :extra :metadata :meta {:table :data}}) meta-a (getmetatable a) meta-b (getmetatable b) index-a (. meta-a :__index) index-b (. meta-b :__index)] (core.eq a b) (assert-eq meta-a (getmetatable a)) (assert-eq meta-b (getmetatable b)) (assert-eq index-a (. (getmetatable a) :__index)) (assert-eq index-b (. (getmetatable b) :__index)) (core.eq b a) (assert-eq meta-a (getmetatable a)) (assert-eq meta-b (getmetatable b)) (assert-eq index-a (. (getmetatable a) :__index)) (assert-eq index-b (. (getmetatable b) :__index))))) (deftest range (testing "range" (assert-not (pcall core.range)) (assert-eq (core.range 10) [0 1 2 3 4 5 6 7 8 9]) (assert-eq (core.range -5 5) [-5 -4 -3 -2 -1 0 1 2 3 4]) (assert-eq [0 0.2 0.4 0.6 0.8] [0 0.2 0.4 0.6 0.8]) (assert-eq (core.range 0 1 0.2) (core.range 0 1 0.2)))) (deftest predicates (testing "zero?" (assert-is (core.zero? 0)) (assert-is (core.zero? -0)) (assert-not (core.zero? 1)) (assert-not (pcall core.zero?)) (assert-not (pcall core.zero? 1 2))) (testing "int?" (assert-is (core.int? 1)) (assert-not (core.int? 1.1)) (assert-not (pcall core.int?)) (assert-not (pcall core.int? 1 2))) (testing "pos?" (assert-is (core.pos? 1)) (assert-is (and (not (core.pos? 0)) (not (core.pos? -1)))) (assert-not (pcall core.pos?)) (assert-not (pcall core.pos? 1 2))) (testing "neg?" (assert-is (core.neg? -1)) (assert-is (and (not (core.neg? 0)) (not (core.neg? 1)))) (assert-not (pcall core.neg?)) (assert-not (pcall core.neg? 1 2))) (testing "pos-int?" (assert-is (core.pos-int? 42)) (assert-not (core.pos-int? 4.2)) (assert-not (pcall core.pos-int?)) (assert-not (pcall core.pos-int? 1 2))) (testing "neg-int?" (assert-is (core.neg-int? -42)) ;; (assert-not (core.neg-int? -4.2)) (assert-not (pcall core.neg-int?)) (assert-not (pcall core.neg-int? 1 2))) (testing "string?" (assert-is (core.string? :s)) (assert-not (pcall core.string?)) (assert-not (pcall core.string? 1 2))) (testing "double?" (assert-is (core.double? 3.3)) (assert-not (core.double? 3.0)) (assert-not (pcall core.double?)) (assert-not (pcall core.double? 1 2))) (testing "map?" (assert-is (core.map? {:a 1})) (assert-not (core.map? {})) (assert-is (core.map? (empty {}))) (assert-not (core.map? (empty []))) (assert-not (pcall core.map?)) (assert-not (pcall core.map? 1 2))) (testing "vector?" (assert-not (core.vector? [])) (assert-is (core.vector? [{:a 1}])) (assert-not (core.vector? {})) (assert-not (core.vector? {:a 1})) (assert-is (core.vector? (empty []))) (assert-not (core.vector? (empty {}))) (assert-not (pcall core.vector?)) (assert-not (pcall core.vector? 1 2))) (testing "multifn?" (assert-not (core.multifn? [])) (assert-is (core.multifn? (do (defmulti f core.identity) f))) (assert-not (pcall core.multifn?)) (assert-not (pcall core.multifn? 1 2))) (testing "set?" (assert-is (core.set? (core.ordered-set))) (assert-is (core.set? (core.hash-set))) (assert-eq (core.set? (core.hash-set)) :cljlib/hash-set) (assert-eq (core.set? (core.ordered-set)) :cljlib/ordered-set) (assert-not (pcall core.set?)) (assert-not (pcall core.set? 1 2))) (testing "nil?" (assert-is (core.nil?)) (assert-is (core.nil? nil)) (assert-not (core.nil? 1)) (assert-not (pcall core.nil? 1 2))) (testing "odd?" (assert-is (core.odd? 3)) (assert-is (core.odd? -3)) (assert-not (core.odd? 2)) (assert-not (core.odd? -2)) (assert-not (pcall core.odd?)) (assert-not (pcall core.odd? 1 2))) (testing "even?" (assert-is (core.even? 2)) (assert-is (core.even? -2)) (assert-not (core.even? 23)) (assert-not (core.even? -23)) (assert-not (pcall core.even?)) (assert-not (pcall core.even? 1 2))) (testing "true?" (assert-is (core.true? true)) (assert-not (core.true? false)) (assert-not (core.true? 10)) (assert-not (core.true? :true)) (assert-not (pcall core.true?)) (assert-not (pcall core.true? 1 2))) (testing "false?" (assert-is (core.false? false)) (assert-not (core.false? true)) (assert-not (core.false? 10)) (assert-not (core.false? :true)) (assert-not (pcall core.false?)) (assert-not (pcall core.false? 1 2))) (testing "boolean?" (assert-is (core.boolean? true)) (assert-is (core.boolean? false)) (assert-not (core.boolean? :false)) (assert-not (core.boolean? (fn [] true))) (assert-not (pcall core.boolean?)) (assert-not (pcall core.boolean? 1 2)))) (deftest sequence-functions (testing "seq" (assert-not (pcall core.seq)) (assert-not (pcall core.seq [] [])) (assert-eq (core.seq []) nil) (assert-eq (core.seq {}) nil) (assert-eq (core.seq [1]) [1]) (assert-eq (core.seq [1 2 3]) [1 2 3]) (assert-eq (core.seq {:a 1}) [["a" 1]]) (assert-eq (core.seq "abc") ["a" "b" "c"]) (when _G.utf8 (assert-eq (core.seq "абв") ["а" "б" "в"])) (assert-eq (core.seq {12345 123}) [[12345 123]]) (assert-eq (core.seq (core.ordered-set 1 2 3)) [1 2 3]) (assert-eq (length (core.seq (core.ordered-set 1 2 3))) 3) (assert-eq (core.seq (core.hash-set 1)) [1]) (assert-eq (length (core.seq (core.hash-set 1 2 3))) 3)) (testing "kvseq" (assert-not (pcall core.kvseq)) (assert-not (pcall core.kvseq [] [])) (assert-eq (core.kvseq {123 456}) [[123 456]]) (assert-eq (core.kvseq {:a 1}) [[:a 1]]) (assert-eq (core.kvseq [0 0 0 10]) [[1 0] [2 0] [3 0] [4 10]]) (assert-eq (core.kvseq (core.ordered-set :a :b :c)) [[:a :a] [:b :b] [:c :c]]) (assert-eq (core.kvseq (core.hash-set :a)) [[:a :a]]) (assert-eq (core.kvseq "abc") [[1 "a"] [2 "b"] [3 "c"]])) (testing "mapv" (assert-not (pcall core.mapv)) (assert-not (pcall core.mapv #(do nil))) (assert-eq (core.mapv #(* $ $) [1 2 3 4]) [1 4 9 16]) (assert-eq (into {} (core.mapv (fn [[k v]] [k (* v v)]) {:a 1 :b 2 :c 3})) (into {} [[:a 1] [:b 4] [:c 9]])) (assert-eq (into {} (core.mapv (fn [[k1 v1] [k2 v2]] [k1 (* v1 v2)]) {:a 1 :b 2 :c 3} {:a -1 :b 0 :c 2})) {:a -1 :b 0 :c 6}) (assert-eq (core.mapv #(* $1 $2 $3) [1] [2] [-1]) [-2]) (assert-eq (core.mapv string.upper ["a" "b" "c"]) ["A" "B" "C"]) (assert-eq (core.mapv #(+ $1 $2 $3 $4) [1 -1] [2 -2] [3 -3] [4 -4]) [(+ 1 2 3 4) (+ -1 -2 -3 -4)]) (assert-eq (core.mapv (fn [f-name s-name company position] (.. f-name " " s-name " works as " position " at " company)) ["Bob" "Alice"] ["Smith" "Watson"] ["Happy Days co." "Coffee With You"] ["secretary" "chief officer"]) ["Bob Smith works as secretary at Happy Days co." "Alice Watson works as chief officer at Coffee With You"]) (assert-eq (table.concat (core.mapv string.upper "vaiv")) "VAIV")) (testing "reduce" (fn* add ([] 0) ([a] a) ([a b] (+ a b)) ([a b & c] (var res (+ a b)) (each [_ v (ipairs c)] (set res (+ res v))) res)) (assert-eq (core.reduce add []) 0) (assert-eq (core.reduce add [1]) 1) (assert-eq (core.reduce add [1 2]) 3) (assert-eq (core.reduce add (core.range 10)) 45) (assert-eq (core.reduce add -3 (core.range 10)) 42) (assert-eq (core.reduce add 10 []) 10) (assert-eq (core.reduce add 10 [1]) 11) (assert-eq (core.reduce add 10 nil) 10) (assert-not (pcall core.reduce)) (assert-not (pcall core.reduce add))) (testing "core.reduce reference implementation" (fn mapping [f] (fn [reducing] (fn [result input] (reducing result (f input))))) (fn -reduce [f init [x & tbl]] (if x (-reduce f (f init x) tbl) init)) (assert-eq (core.reduce core.add (core.range 10)) (-reduce core.add 0 (core.range 10))) (assert-eq (core.reduce ((mapping core.inc) core.add) 0 (core.range 10)) (-reduce ((mapping core.inc) core.add) 0 (core.range 10)))) (testing "filter" (assert-not (pcall core.filter)) (assert-not (pcall core.filter core.even?)) (assert-eq (core.filter core.even? (core.range 10)) [0 2 4 6 8]) (assert-eq (core.filter core.odd? (core.range 10)) [1 3 5 7 9]) (assert-eq (core.filter core.map? [{:a 1} {5 1} [1 2] [] {}]) [{:a 1} {5 1}]) (assert-eq (core.filter core.vector? [{:a 1} {5 1} [1 2] [] {}]) [[1 2]])) (testing "concat" (assert-eq (core.concat) nil) (assert-eq (core.concat []) []) (assert-eq (core.concat [1 2 3]) [1 2 3]) (assert-eq (core.concat [1 2 3] [4 5 6]) [1 2 3 4 5 6]) (assert-eq (core.concat [1 2] [3 4] [5 6]) [1 2 3 4 5 6]) (assert-eq (core.concat {:a 1} {:b 2}) [[:a 1] [:b 2]]) (assert-eq (core.concat [[:a 1]] {:b 2}) [[:a 1] [:b 2]]) (assert-eq (core.concat {:a 1} [[:b 2]]) [[:a 1] [:b 2]]) (assert-eq (core.concat [] [[:b 2]]) [[:b 2]]) (assert-eq (core.concat [] []) []) (assert-not (pcall core.concat 1)) (assert-not (pcall core.concat 1 2)) (assert-not (pcall core.concat 1 [])) (assert-not (pcall core.concat [] 2)) (assert-not (pcall core.concat [1] 2))) (testing "reverse" (assert-not (pcall core.reverse)) (assert-not (pcall core.reverse [] [])) (assert-eq (core.reverse []) nil) (assert-eq (core.reverse [1 2 3]) [3 2 1]) (assert-eq (core.reverse {:a 1}) [[:a 1]])) (testing "conj" (assert-eq (core.conj) []) (assert-eq (core.conj [1]) [1]) (assert-eq (core.conj [] 1 2 3) [1 2 3]) (assert-eq (core.conj [0] 1 2 3) [0 1 2 3]) (assert-eq (core.conj {:a 1} [:b 2]) {:a 1 :b 2}) (assert-eq (core.conj {:a 1}) {:a 1}) (assert-eq (core.conj [1] 2 3 4 5 6 7) [1 2 3 4 5 6 7])) (testing "disj" (assert-not (pcall core.disj)) (assert-not (pcall core.disj [1])) (assert-not (pcall core.disj [1] 1)) (assert-eq (core.disj (core.ordered-set)) (core.ordered-set)) (assert-eq (core.disj (core.ordered-set 1 3 2 5) 3) (core.ordered-set 1 2 5)) (assert-eq (core.disj (core.ordered-set 1 3 2 5) 3 1 5) (core.ordered-set 2))) (testing "cons" (assert-not (pcall core.cons)) (assert-not (pcall core.cons [] [] [])) (assert-eq (core.cons nil [1]) [1]) (assert-eq (core.cons 1 []) [1]) (assert-eq (core.cons 1 [0]) [1 0])) (testing "first" (assert-not (pcall core.first)) (assert-not (pcall core.first [] [])) (assert-eq (core.first [1 2 3]) 1) (assert-eq (core.first {:a 1}) [:a 1]) (assert-eq (core.first []) nil)) (testing "last" (assert-not (pcall core.last)) (assert-not (pcall core.last [] [])) (assert-eq (core.last [1 2 3]) 3) (assert-eq (core.last []) nil) (assert-eq (core.last nil) nil) (assert-eq (core.last {:a 1}) [:a 1])) (testing "rest" (assert-not (pcall core.rest)) (assert-not (pcall core.rest [] [])) (assert-eq (core.rest [1 2 3]) [2 3]) (assert-eq (core.rest {:a 1}) []) (assert-eq (core.rest []) []) (assert-eq (core.rest nil) [])) (testing "butlast" (assert-not (pcall core.butlast)) (assert-not (pcall core.butlast [] [])) (assert-eq (core.butlast [1 2 3]) [1 2]) (assert-eq (core.butlast {:a 1}) nil) (assert-eq (core.butlast []) nil) (assert-eq (core.butlast nil) nil)) (testing "reduce-kv" (assert-eq (core.reduce-kv #(+ $1 $3) 0 {:a 1 :b 2 :c 3}) 6) (assert-eq (core.reduce-kv #(+ $1 $3) 0 [1 2 3]) 6) (assert-not (pcall core.reduce-kv #(+ $1 $3) 0)) (assert-not (pcall core.reduce-kv #(+ $1 $3))) (assert-not (pcall core.reduce-kv))) (testing "reduced" (assert-not (pcall core.reduced)) (assert-not (pcall core.reduced 1 2 3)) (assert-eq (core.reduce #(if (> $1 10) (core.reduced -1) (+ $1 $2)) [1]) 1) (assert-eq (core.reduce #(if (> $1 10) (core.reduced -1) (+ $1 $2)) [1 2]) 3) (assert-eq (core.reduce #(if (> $1 10) (core.reduced -1) (+ $1 $2)) [1 2 3 4]) 10) (assert-eq (core.reduce #(if (> $1 10) (core.reduced -1) (+ $1 $2)) [1 2 3 4 5]) 15) (assert-eq (core.reduce #(if (> $1 10) (core.reduced -1) (+ $1 $2)) [1 2 3 4 5 6]) -1) (assert-eq (core.reduce #(if (> $1 10) (core.reduced -1) (+ $1 $2)) 10 [1]) 11) (assert-eq (core.reduce #(if (> $1 10) (core.reduced -1) (+ $1 $2)) 10 [1 2]) -1) (assert-eq (core.reduce #(if (> $1 10) (core.reduced -1) (+ $1 $2)) 0 [10 5]) 15) (assert-eq (core.reduce #(if (> $1 10) (core.reduced -1) (+ $1 $2)) 1 [10 7]) -1) (assert-eq (core.reduce-kv (fn [res _ v] (if (> res 10) (core.reduced -1) (+ res v))) 0 {:a 1 :b 2}) 3) (assert-eq (core.reduce-kv (fn [res _ v] (if (> res 10) (core.reduced -1) (+ res v))) 0 {:a 10 :b 2}) 12) (assert-eq (core.reduce-kv (fn [res _ v] (if (> res 10) (core.reduced -1) (+ res v))) 1 {:a 3 :b 3 :c 3 :d 3}) 13) (assert-eq (core.reduce-kv (fn [res _ v] (if (> res 10) (core.reduced -1) (+ res v))) 2 {:a 3 :b 3 :c 3 :d 3}) -1) (assert-eq (core.reduce-kv (fn [res _ v] (if (> res 10) (core.reduced -1) (+ res v))) 1 [10 12]) -1)) (testing "assoc" (assert-not (pcall core.assoc)) (assert-not (pcall core.assoc {})) (assert-eq (core.assoc {} :a 1) {:a 1}) (assert-eq (core.assoc {} :a 1 :b 2 :c 3 :d 4) {:a 1 :b 2 :c 3 :d 4})) (testing "dissoc" (assert-not (pcall core.dissoc)) (assert-eq (core.dissoc {}) {}) (assert-eq (core.dissoc {:a 1 :b 2} :b) {:a 1}) (assert-eq (core.dissoc {:a 1 :b 2 :c 3} :a :c) {:b 2})) (testing "find, keys and vals" (assert-not (pcall core.keys)) (assert-not (pcall core.keys {} {} {})) (assert-not (pcall core.vals)) (assert-not (pcall core.vals {} {} {})) (assert-not (pcall core.find)) (assert-not (pcall core.find {} {} {})) (assert-eq (core.keys {:a 1}) [:a]) (assert-eq (core.vals {:a 1}) [1]) (match (pcall #(assert-eq (core.keys {:a 1 :b 2 :c 3}) (core.hash-set :a :b :c))) (false msg) (io.stderr:write (.. "WARNING: " msg))) (match (pcall #(assert-eq (core.vals {:a 1 :b 2 :c 3}) (core.hash-set 1 2 3))) (false msg) (io.stderr:write (.. "WARNING: " msg))) (assert-eq (core.find {:a 1 :b 2 :c 3} :c) [:c 3]) (assert-eq (core.find {:a 1 :b 2 :c 3} :d) nil))) (deftest function-manipulation (testing "constantly" (assert-not (pcall core.constantly)) (assert-not (pcall core.constantly nil nil)) (let [always-nil (core.constantly nil)] (assert-eq (always-nil) nil) (assert-eq (always-nil 1) nil) (assert-eq (always-nil 1 2 3 4 "5") nil)) (let [always-true (core.constantly true)] (assert-is (always-true)) (assert-is (always-true false)))) (testing "complement" (assert-not (pcall core.complement)) (assert-not (pcall core.complement #nil #nil)) (assert-is ((core.complement #(do false)))) (assert-is ((core.complement core.nil?) 10)) (assert-is ((core.complement core.every?) core.double? [1 2 3 4])) (assert-is ((core.complement #(= $1 $2 $3)) 1 1 2 1)) (assert-is ((core.complement #(= $1 $2)) 1 2))) (testing "apply" (fn* add ([x] x) ([x y] (+ x y)) ([x y & zs] (add (+ x y) ((or _G.unpack table.unpack) zs)))) (assert-eq (core.apply add [1 2 3 4]) 10) (assert-eq (core.apply add -1 [1 2 3 4]) 9) (assert-eq (core.apply add -2 -1 [1 2 3 4]) 7) (assert-eq (core.apply add -3 -2 -1 [1 2 3 4]) 4) (assert-eq (core.apply add -4 -3 -2 -1 [1 2 3 4]) 0) (assert-eq (core.apply add -5 -4 -3 -2 -1 [1 2 3 4]) -5) (assert-not (pcall core.apply)) (assert-not (pcall core.apply add))) (testing "comp" (assert-eq ((core.comp) 10) 10) (assert-eq ((core.comp #10)) 10) (fn square [x] (* x x)) (assert-eq (core.comp square) square) (assert-eq ((core.comp square core.inc) 6) 49) (assert-eq ((core.comp #(- $ 7) square core.inc core.inc core.inc core.inc core.inc core.inc core.inc) 0) 42) (fn sum-squares [x y] (+ (* x x) (* y y))) (assert-eq ((core.comp square core.inc sum-squares) 2 3) 196) (fn f [a b c] (+ a b c)) (assert-eq ((core.comp core.inc f) 1 2 3) 7) (fn g [a b c d] (+ a b c d)) (assert-eq ((core.comp core.inc g) 1 2 3 4) 11) (fn h [a b c d e f] (+ a b c d e f)) (assert-eq ((core.comp core.inc h) 1 2 3 4 5 6) 22)) (testing "identity" (fn f [] nil) (local a {}) (assert-not (pcall core.identity)) (assert-not (pcall core.identity 1 2)) (assert-eq (core.identity 1) 1) (assert-eq (core.identity {:a 1 :b 2}) {:a 1 :b 2}) (assert-eq (core.identity [1 2 3]) [1 2 3]) (assert-eq (core.identity "abc") "abc") (assert-eq (core.identity f) f) (assert-eq (core.identity a) a))) (deftest sequence-predicates (testing "some" (assert-not (pcall core.some)) (assert-not (pcall core.some core.pos-int?)) (assert-is (core.some core.pos-int? [-1 1.1 2.3 -55 42 10 -27])) (assert-not (core.some core.pos-int? {:a 1})) (assert-is (core.some core.pos-int? [{:a 1} "1" -1 1]))) (testing "not-any?" (assert-not (pcall core.not-any?)) (assert-not (pcall core.not-any? core.pos-int?)) (assert-is (core.not-any? core.pos-int? [-1 1.1 2.3 -55 -42 -10 -27])) (assert-is (core.not-any? core.pos-int? {:a 1})) (assert-not (core.not-any? core.pos-int? [1 2 3 4 5]))) (testing "every?" (assert-not (pcall core.every?)) (assert-not (pcall core.every? core.pos-int?)) (assert-not (core.every? core.pos-int? [-1 1.1 2.3 -55 42 10 -27])) (assert-not (core.every? core.pos-int? {:a 1})) (assert-is (core.every? core.pos-int? [1 2 3 4 5]))) (testing "empty?" (assert-not (pcall core.empty?)) (assert-is (core.empty? [])) (assert-is (core.empty? {})) (assert-is (core.empty? "")) (assert-not (core.empty? "1")) (assert-not (core.empty? [1])) (assert-not (core.empty? {:a 1})) (assert-not (pcall core.empty? 10))) (testing "not-empty" (assert-not (pcall core.not-empty)) (assert-eq (core.not-empty []) nil) (assert-eq (core.not-empty {}) nil) (assert-eq (core.not-empty "") nil) (assert-eq (core.not-empty "1") "1") (assert-eq (core.not-empty [1]) [1]) (assert-eq (core.not-empty {:a 1}) {:a 1}))) (deftest math-functions (testing "inc" (assert-eq (core.inc 1) 2) (assert-eq (core.inc -1) 0) (assert-not (pcall core.inc)) (assert-not (pcall core.inc nil))) (testing "dec" (assert-eq (core.dec 1) 0) (assert-eq (core.dec -1) -2) (assert-not (pcall core.dec)) (assert-not (pcall core.dec nil)))) (deftest table-access (testing "get" (assert-eq (core.get {:key1 10 :key2 20} :key1) 10) (assert-eq (core.get {:key1 10 :key2 20} :key1 false) 10) (assert-eq (core.get {:key1 10 :key2 20} :key3 false) false) (assert-eq (core.get {:key1 10 :key2 20} :key3) nil) (assert-not (pcall core.get)) (assert-not (pcall core.get {}))) (testing "get-in" (local t {:a {:b {:c 10}}}) (assert-eq (core.get-in t [:a]) {:b {:c 10}}) (assert-eq (core.get-in t [:a :b]) {:c 10}) (assert-eq (core.get-in t [:a :b :c]) 10) (assert-eq (core.get-in t [:a :b :c] false) 10) (assert-eq (core.get-in t [:a :b :d] false) false) (assert-eq (core.get-in t [:a :b :d]) nil) (assert-eq (core.get-in t []) t) (assert-not (pcall core.get-in)) (assert-not (pcall core.get-in {})))) (deftest methods (testing "methods" (defmulti f core.identity) (defmethod f :a [_] :a) (defmethod f :b [_] :b) (defmethod f :c [x] (* x x)) (assert-eq (core.methods f) f) (assert-not (pcall core.methods)) (assert-not (pcall core.methods [])) (assert-not (pcall core.methods f f))) (testing "get-method" (defmulti f core.identity) (defmethod f :a [_] :a) (defmethod f :b [_] :b) (defmethod f :c [x] (* x x)) (assert-eq ((core.get-method f :a) 10) :a) (assert-eq ((core.get-method f :b) 20) :b) (assert-eq ((core.get-method f :c) 4) 16) (assert-not (pcall core.get-method)) (assert-not (pcall core.get-method [])) (assert-not (pcall core.get-method [] :a)) (assert-not (pcall core.get-method f)) (assert-not (pcall core.get-method f :a :b))) (testing "remove-method" (defmulti f core.identity) (defmethod f :a [_] :a) (defmethod f :b [_] :b) (core.remove-method f :a) (assert-eq (core.get-method f :a) nil) (defmethod f :default [_] :default) (assert-eq (core.get-method f :a) (core.get-method f :default)) (assert-not (pcall core.remove-method)) (assert-not (pcall core.remove-method [])) (assert-not (pcall core.remove-method [] :a)) (assert-not (pcall core.remove-method f)) (assert-not (pcall core.remove-method f :a :b))) (testing "remove-all-methods" (defmulti f core.identity) (defmethod f :a [_] :a) (defmethod f :b [_] :b) (defmethod f :default [_] :default) (core.remove-all-methods f) (assert-eq (core.methods f) {}) (assert-not (pcall core.remove-all-methods)) (assert-not (pcall core.remove-all-methods [])) (assert-not (pcall core.remove-all-methods f f)))) (deftest math-functions (testing "core.add" (assert-eq (core.add) 0) (assert-eq (core.add 1) 1) (assert-eq (core.add -1) -1) (assert-eq (core.add 1 2) 3) (assert-eq (core.add 1 2 3) 6) (assert-eq (core.add 1 2 3 4) 10) (assert-eq (core.add 1 2 3 4 5) 15)) (testing "sub" (assert-eq (core.sub) 0) (assert-eq (core.sub 1) -1) (assert-eq (core.sub -1) 1) (assert-eq (core.sub 1 2) -1) (assert-eq (core.sub 1 2 3) -4) (assert-eq (core.sub 1 2 3 4) -8) (assert-eq (core.sub 1 2 3 4 5) -13)) (testing "mul" (assert-eq (core.mul) 1) (assert-eq (core.mul 1) 1) (assert-eq (core.mul -1) -1) (assert-eq (core.mul 1 2) 2) (assert-eq (core.mul 1 2 3) 6) (assert-eq (core.mul 1 2 3 4) 24) (assert-eq (core.mul 1 2 3 4 5) 120)) (testing "div" (assert-not (pcall core.div)) (assert-eq (core.div 1) 1) (assert-eq (core.div -1) -1) (assert-eq (core.div 1 2) (/ 1 2)) (assert-eq (core.div 1 2 3) (/ 1 2 3)) (assert-eq (core.div 1 2 3 4) (/ 1 2 3 4)) (assert-eq (core.div 1 2 3 4 5) (/ 1 2 3 4 5)))) (deftest comparison-functions (testing "le" (assert-not (pcall core.le)) (assert-is (core.le 1)) (assert-is (core.le 1 2)) (assert-is (core.le 1 2 2)) (assert-is (core.le 1 2 3 4)) (assert-not (core.le 2 1)) (assert-not (core.le 2 1 3)) (assert-not (core.le 1 2 4 3))) (testing "lt" (assert-not (pcall core.lt)) (assert-is (core.lt 1)) (assert-is (core.lt 1 2)) (assert-is (core.lt 1 2 3)) (assert-is (core.lt 1 2 3 4)) (assert-not (core.lt 2 1)) (assert-not (core.lt 2 1 3)) (assert-not (core.lt 1 2 4 4))) (testing "ge" (assert-not (pcall core.ge)) (assert-is (core.ge 2)) (assert-is (core.ge 2 1)) (assert-is (core.ge 3 3 2)) (assert-is (core.ge 4 3 2 -1)) (assert-not (core.ge 1 2)) (assert-not (core.ge 2 1 3)) (assert-not (core.ge 1 2 4 4))) (testing "gt" (assert-not (pcall core.gt)) (assert-is (core.gt 2)) (assert-is (core.gt 2 1)) (assert-is (core.gt 3 2 1)) (assert-is (core.gt 4 3 2 -1)) (assert-not (core.gt 1 2)) (assert-not (core.gt 2 1 3)) (assert-not (core.gt 1 2 4 4)))) (deftest vector (testing "vector" (assert-eq (core.vector) []) (assert-eq (core.vector 1) [1]) (assert-eq (core.vector 1 2 3) [1 2 3]) (assert-eq (getmetatable (core.vector 1 2 3)) {:cljlib/type :seq}))) (deftest hash-map (testing "hash-map" (assert-not (pcall core.hash-map :a)) (assert-eq (core.hash-map) {}) (assert-eq (core.hash-map :a 1) {:a 1}) (assert-eq (core.hash-map :a 1 :b 2 :c 3) {:a 1 :b 2 :c 3}) (assert-eq (getmetatable (core.hash-map)) {:cljlib/type :table}))) (deftest sets (testing "hash-set" (let [h1 (core.hash-set [1] [1] [2] [3] [:a]) h2 (core.hash-set [1] [2] [3] [:a])] (assert-is (core.eq h1 h2))) (let [h3 (core.hash-set [1] [1] [2] [3] [:a]) h4 (core.hash-set [1] [1] [3] [:a])] (assert-not (core.eq h3 h4))) (assert-eq (. (core.hash-set [1]) [1]) [1]) (assert-eq (. (core.hash-set [1]) [2]) nil) (assert-eq ((core.hash-set [1]) [1]) [1]) (assert-eq ((core.hash-set [1]) [2]) nil)) (testing "ordered-set" (let [o1 (core.ordered-set [1] [1] [2] [3] [:a]) o2 (core.ordered-set [1] [2] [3] [:a])] (assert-eq o1 o2)) (let [o3 (core.ordered-set [1] [1] [2] [3] [:a]) o4 (core.ordered-set [2] [1] [1] [3] [:a])] (assert-eq o3 o4)) (assert-eq (. (core.ordered-set [1]) [1]) [1]) (assert-eq ((core.ordered-set [1]) [1]) [1]) (assert-eq (. (core.ordered-set [1]) [2]) nil) (assert-eq ((core.ordered-set [1]) [2]) nil)) (testing "set equality" (let [o1 (core.ordered-set [1] [[-1 0] 1] [2] [3] [:a] :a 2) h1 (core.hash-set [1] [[-1 0] 1] [2] [3] [:a] :a 2)] (assert-eq o1 h1)) (let [o2 (core.ordered-set [1] [[-1 0] 1] [2] [3] [:a] :a 2) h2 (core.hash-set [1] [[-1 1] 1] [2] [3] [:a] :a 2)] (assert-ne o2 h2)) (let [o3 (core.ordered-set [1] [[-1 0] 1] [2] [3] [:a] :a 2) h3 (core.hash-set [1] [[-1 0] 1] [2] [3] [:a] :a 2)] (assert-eq (core.disj o3 [2]) (core.disj h3 [2])) (assert-ne (core.disj o3 :a) h3) (assert-eq (core.disj h3 :a) o3)) (let [o4 (core.ordered-set [1] [[-1 5] 1] [3] [:a] :a 2) h4 (core.hash-set [1] [[-1 5] 1] [2] [3] [:a] :a 2)] (assert-eq (core.conj o4 [2]) (core.conj (core.disj h4 [2]) [2])))) (testing "empty sets" (assert-eq (empty (core.ordered-set)) (core.ordered-set)) (assert-eq (empty (core.ordered-set 1 2 3)) (core.ordered-set)) (assert-eq (. (getmetatable (empty (core.ordered-set))) :cljlib/type ) :cljlib/ordered-set) (assert-eq (empty (core.hash-set)) (core.hash-set)) (assert-eq (empty (core.hash-set 1 2 3)) (core.hash-set)) (assert-eq (. (getmetatable (empty (core.hash-set))) :cljlib/type ) :cljlib/hash-set)) (testing "into sets" (assert-eq (into (core.ordered-set) [1 2 3]) (core.ordered-set 1 2 3)) (assert-eq (into (core.ordered-set) {:a 1 :b 2}) (core.ordered-set [:a 1] [:b 2])) (assert-eq (into (core.ordered-set) "vaiv") (core.ordered-set "v" "a" "i" "v")) (assert-eq (into (core.hash-set) [1 2 3]) (core.hash-set 1 2 3)) (assert-eq (into (core.hash-set) {:a 1 :b 2}) (core.hash-set [:a 1] [:b 2])) (assert-eq (into (core.hash-set) "vaiv") (core.hash-set "v" "a" "i" "v"))) (testing "sets into tables" (assert-eq (into [] (core.ordered-set 1 2 3)) [1 2 3]) (assert-eq (into [] (core.ordered-set :a :b :c)) [:a :b :c]) (assert-eq (into {} (core.ordered-set [:a 1] [:b 2])) {:a 1 :b 2}))) (deftest memoization (testing "memoize" (macros {:time #`(let [clock# os.clock start# (clock#) res# ,$ end# (clock#)] (values res# (* 1000 (- end# start#))))}) (fn slow [x] (for [i 0 1000000] nil) x) (assert-not (pcall core.memoize)) (assert-not (pcall core.memoize slow 2)) (local fast (core.memoize slow)) (let [(res1 time1) (time (fast 42)) (res2 time2) (time (fast 42))] (assert-is (and res1 res2 42)) (assert-is (< time2 time1))) (let [(res1 time1) (time (fast [10])) (res2 time2) (time (fast [10]))] (assert-is (and (core.eq res1 res2 [10]))) (assert-is (< time2 time1)))))