- first throws on scalars (numbers/keywords/booleans/char & symbol structs) - rseq is vector/sorted-only (throws on strings/maps/numbers/seqs) - assoc requires an even kv count and a map/vector/nil receiver first clean; rseq 12/1; assoc 39/3. clojure-test-suite pass 3864->3874. spec: seq/more-strictness (11). jpm test green.
181 lines
10 KiB
Text
181 lines
10 KiB
Text
# Specification: the sequence abstraction (clojure.core).
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# Sequential expecteds use vector literals — Jolt's `=` treats vectors and lists
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# with the same elements as equal, so [2 3 4] matches a (2 3 4) seq result.
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(use ../support/harness)
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(defspec "seq / access"
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["first of vector" "1" "(first [1 2 3])"]
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["first of list" "1" "(first (list 1 2 3))"]
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["first of empty is nil" "nil" "(first [])"]
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["first of nil is nil" "nil" "(first nil)"]
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["second" "2" "(second [1 2 3])"]
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["last" "3" "(last [1 2 3])"]
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["rest of vector" "[2 3]" "(rest [1 2 3])"]
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["rest of single" "[]" "(rest [1])"]
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["rest of empty" "[]" "(rest [])"]
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["next of single is nil" "nil" "(next [1])"]
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["next of empty is nil" "nil" "(next [])"]
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["nth" "30" "(nth [10 20 30] 2)"]
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["nth with default" "99" "(nth [10] 5 99)"]
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["nth out of range" :throws "(nth [10] 5)"]
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["ffirst" "1" "(ffirst [[1 2] [3 4]])"]
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["fnext" "2" "(fnext [1 2 3])"]
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["nnext" "[3 4]" "(nnext [1 2 3 4])"])
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(defspec "seq / construction"
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["cons onto list" "[0 1 2]" "(cons 0 (list 1 2))"]
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["cons onto vector" "[0 1 2]" "(cons 0 [1 2])"]
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["cons onto nil" "[0]" "(cons 0 nil)"]
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["conj vector appends" "[1 2 3]" "(conj [1 2] 3)"]
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["conj list prepends" "[0 1 2]" "(conj (list 1 2) 0)"]
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["conj multiple on vec" "[1 2 3 4]" "(conj [1 2] 3 4)"]
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["conj multiple on list" "[4 3 1 2]" "(conj (list 1 2) 3 4)"]
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["seq of empty is nil" "nil" "(seq [])"]
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["seq of nil is nil" "nil" "(seq nil)"]
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["seq of string" "[\\a \\b]" "(seq \"ab\")"]
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["empty?" "true" "(empty? [])"]
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["not empty?" "false" "(empty? [1])"]
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["count" "3" "(count [1 2 3])"]
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["count of nil" "0" "(count nil)"]
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["count of string" "3" "(count \"abc\")"])
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(defspec "seq / map filter reduce"
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["map" "[2 3 4]" "(map inc [1 2 3])"]
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["map two colls" "[5 7 9]" "(map + [1 2 3] [4 5 6])"]
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["map stops at shortest" "[5 7]" "(map + [1 2] [4 5 6])"]
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["map-indexed" "[[0 :a] [1 :b]]" "(map-indexed vector [:a :b])"]
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["mapv" "[2 3 4]" "(mapv inc [1 2 3])"]
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["filter" "[2 4]" "(filter even? [1 2 3 4])"]
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["filterv" "[2 4]" "(filterv even? [1 2 3 4])"]
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["remove" "[1 3]" "(remove even? [1 2 3 4])"]
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["reduce" "10" "(reduce + [1 2 3 4])"]
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["reduce with init" "20" "(reduce + 10 [1 2 3 4])"]
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["reduce empty with init" "0" "(reduce + 0 [])"]
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["reduce single no init" "5" "(reduce + [5])"]
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["reduced short-circuits" "3" "(reduce (fn [a x] (if (> a 2) (reduced a) (+ a x))) 0 [1 2 3 4 5])"]
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["reduce-kv" "6" "(reduce-kv (fn [a k v] (+ a v)) 0 {:a 1 :b 2 :c 3})"]
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["reductions" "[1 3 6]" "(reductions + [1 2 3])"]
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["mapcat" "[1 1 2 2]" "(mapcat (fn [x] [x x]) [1 2])"]
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["keep" "[1 3]" "(keep (fn [x] (if (odd? x) x nil)) [1 2 3 4])"]
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["some truthy" "true" "(some even? [1 2 3])"]
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["some nil" "nil" "(some even? [1 3 5])"]
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["every? true" "true" "(every? pos? [1 2 3])"]
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["every? false" "false" "(every? pos? [1 -2 3])"])
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(defspec "seq / take drop slice"
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["take" "[1 2 3]" "(take 3 [1 2 3 4 5])"]
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["take more than size" "[1 2]" "(take 5 [1 2])"]
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["drop" "[4 5]" "(drop 3 [1 2 3 4 5])"]
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["take-while" "[1 2]" "(take-while (fn [x] (< x 3)) [1 2 3 1])"]
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["drop-while" "[3 1]" "(drop-while (fn [x] (< x 3)) [1 2 3 1])"]
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["take-last" "[4 5]" "(take-last 2 [1 2 3 4 5])"]
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["drop-last" "[1 2 3]" "(drop-last [1 2 3 4])"]
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["take-nth" "[1 3 5]" "(take-nth 2 [1 2 3 4 5])"]
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["partition" "[[1 2] [3 4]]" "(partition 2 [1 2 3 4 5])"]
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["partition-all" "[[1 2] [3]]" "(partition-all 2 [1 2 3])"]
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["split-at" "[[1 2] [3 4]]" "(split-at 2 [1 2 3 4])"])
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(defspec "seq / transform"
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["reverse" "[3 2 1]" "(reverse [1 2 3])"]
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["sort" "[1 2 3]" "(sort [3 1 2])"]
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["sort with comparator" "[3 2 1]" "(sort > [1 3 2])"]
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["sort-by" "[[1] [2 2]]" "(sort-by count [[2 2] [1]])"]
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["distinct" "[1 2 3]" "(distinct [1 1 2 3 3])"]
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["dedupe" "[1 2 1]" "(dedupe [1 1 2 1])"]
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["interpose" "[1 0 2 0 3]" "(interpose 0 [1 2 3])"]
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["interleave" "[1 :a 2 :b]" "(interleave [1 2] [:a :b])"]
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["flatten" "[1 2 3 4]" "(flatten [1 [2 [3 [4]]]])"]
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["concat" "[1 2 3 4]" "(concat [1 2] [3 4])"]
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["into vector" "[1 2 3 4]" "(into [1 2] [3 4])"]
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["into list" "[3 2 1]" "(into (list) [1 2 3])"]
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["frequencies" "{1 2, 2 1}" "(frequencies [1 1 2])"]
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["group-by" "{false [1 3], true [2 4]}" "(group-by even? [1 2 3 4])"]
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["zipmap" "{:a 1, :b 2}" "(zipmap [:a :b] [1 2])"]
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["mapcat seqs" "[1 2 3 4]" "(mapcat identity [[1 2] [3 4]])"])
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(defspec "seq / generators"
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["range n" "[0 1 2 3]" "(range 4)"]
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["range from to" "[2 3 4]" "(range 2 5)"]
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["range with step" "[0 2 4]" "(range 0 6 2)"]
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["take repeat" "[:x :x :x]" "(take 3 (repeat :x))"]
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["repeat n" "[5 5]" "(repeat 2 5)"]
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["take iterate" "[1 2 4 8]" "(take 4 (iterate (fn [x] (* x 2)) 1))"]
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["take cycle" "[1 2 1 2 1]" "(take 5 (cycle [1 2]))"]
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["take repeatedly" "3" "(count (take 3 (repeatedly (fn [] 1))))"]
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["take-last of range" "[8 9]" "(take-last 2 (range 10))"])
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# Clojure IFn values used as the function arg to higher-order fns: a keyword or
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# symbol looks up a key, a set tests membership, a map looks up a key.
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(defspec "seq / IFn values as functions"
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["map keyword" "[1 2 3]" "(map :a [{:a 1} {:a 2} {:a 3}])"]
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["filter keyword" "[{:ok true}]" "(filter :ok [{:ok true} {:ok false}])"]
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["remove keyword" "[{:ok false}]" "(remove :ok [{:ok true} {:ok false}])"]
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["sort-by keyword" "[{:a 1} {:a 2} {:a 3}]" "(sort-by :a [{:a 3} {:a 1} {:a 2}])"]
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["sort-by key + cmp" "[{:a 3} {:a 2} {:a 1}]" "(sort-by :a > [{:a 3} {:a 1} {:a 2}])"]
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["filter set" "[2 4]" "(filter #{2 4} [1 2 3 4 5])"]
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["remove set" "[1 3 5]" "(remove #{2 4} [1 2 3 4 5])"]
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["group-by keyword" "{1 [{:n 1}], 2 [{:n 2}]}" "(group-by :n [{:n 1} {:n 2}])"]
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["map a map" "[1 nil 2]" "(map {:a 1 :b 2} [:a :z :b])"]
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["take-nth transducer" "[0 2 4 6 8]" "(into [] (take-nth 2) (range 10))"]
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["interpose transducer" "[1 :x 2]" "(into [] (interpose :x) [1 2])"])
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# conj edge cases: 0-arg, conj onto nil (builds a list), conj a map into a map.
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(defspec "seq / conj edge cases"
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["conj no args" "[]" "(conj)"]
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["conj nil one" "[3]" "(conj nil 3)"]
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["conj nil many" "[2 1]" "(conj nil 1 2)"]
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["conj vector" "[1 2 3]" "(conj [1 2] 3)"]
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["conj list prepend" "[0 1 2]" "(conj '(1 2) 0)"]
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["conj map + map" "{:a 0, :b 1}" "(conj {:a 0} {:b 1})"]
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["conj map + pair" "{:a 0, :b 1}" "(conj {:a 0} [:b 1])"]
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["conj map merge wins" "{:a 2}" "(conj {:a 0} {:a 1} {:a 2})"])
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# Strictness: these reject malformed arguments like Clojure.
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(defspec "seq / strictness (throws like Clojure)"
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["cons non-seqable num" :throws "(cons 1 42)"]
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["cons non-seqable kw" :throws "(cons 1 :k)"]
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["cons onto nil ok" "[1]" "(cons 1 nil)"]
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["cons onto seq ok" "[0 1 2]" "(cons 0 [1 2])"]
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["num non-number" :throws "(num \"x\")"]
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["num ok" "5" "(num 5)"]
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["realized? on number" :throws "(realized? 1)"]
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["realized? on nil" :throws "(realized? nil)"]
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["symbol from nil" :throws "(symbol nil)"]
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["symbol bad 2-arg" :throws "(symbol :a \"b\")"]
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["symbol from keyword" "\"x\"" "(name (symbol :x))"]
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["keyword bad 2-arg" :throws "(keyword \"abc\" nil)"]
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["keyword from symbol" "\"x\"" "(name (keyword 'x))"])
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# Stack/accessor strictness: peek/pop are stack-only; vec needs a seqable;
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# key/val need a map entry.
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(defspec "seq / accessor strictness"
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["peek vector" "3" "(peek [1 2 3])"]
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["peek list" "1" "(peek '(1 2 3))"]
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["peek empty vec" "nil" "(peek [])"]
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["peek on set" :throws "(peek #{1 2})"]
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["peek on number" :throws "(peek 42)"]
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["pop empty vec" :throws "(pop [])"]
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["pop on number" :throws "(pop 0)"]
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["pop vector" "[1 2]" "(pop [1 2 3])"]
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["vec on number" :throws "(vec 42)"]
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["vec on keyword" :throws "(vec :a)"]
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["vec ok" "[1 2]" "(vec '(1 2))"]
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["key on nil" :throws "(key nil)"]
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["key on map" :throws "(key {})"]
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["val on number" :throws "(val 0)"]
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["key of entry" ":a" "(key (first {:a 1}))"]
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["val of entry" "1" "(val (first {:a 1}))"])
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# More strictness: first/rseq on the right shapes, assoc even-arg requirement.
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(defspec "seq / more strictness"
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["first on number" :throws "(first 42)"]
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["first on keyword" :throws "(first :a)"]
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["first ok vec" "1" "(first [1 2])"]
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["first ok nil" "nil" "(first nil)"]
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["rseq vector" "[3 2 1]" "(rseq [1 2 3])"]
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["rseq on string" :throws "(rseq \"ab\")"]
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["rseq on map" :throws "(rseq {:a 1})"]
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["rseq on number" :throws "(rseq 0)"]
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["assoc odd args" :throws "(assoc {:a 1} :b)"]
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["assoc on number" :throws "(assoc 5 :a 1)"]
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["assoc on set" :throws "(assoc #{} :a 1)"])
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