//
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (list* 1 [2,3])))
(example)
//
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (list 'a 'b 'c 'd)))
//
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (list 1 2 3 4)))
(example)
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (clojure.string/trimr " White spaces ")))
(ns clojure.examples.example
(:gen-class))
(defn example []
(def demokeys (hash-map "z" 1 "b" 2 "a" 3))
(ns clojure.examples.example
(:gen-class))
(defn example []
(def demokeys (hash-map "z" "1" "b" "2" "a" "3"))
(ns clojure.examples.example
(:gen-class))
(defn example []
(def demokeys (hash-map "z" "1" "b" "2" "a" "3"))
(ns clojure.examples.example
(:gen-class))
(defn example []
(def demokeys (hash-map "z" "1" "b" "2" "a" "3"))
(ns clojure.examples.example
(:gen-class))
(defn example []
(def demokeys (hash-map "z" "1" "b" "2" "a" "3"))
(ns clojure.examples.example
(:gen-class))
(defn example []
(def demokeys (hash-map "z" "1" "b" "2" "a" "3"))
(ns clojure.examples.example
(:gen-class))
(defn example []
(def demokeys (hash-map "z" "1" "b" "2" "a" "3"))
(ns clojure.examples.example
(:gen-class))
(defn example []
(def demokeys (sorted-map "z" "1" "b" "2" "a" "3"))
(ns clojure.examples.example
(:gen-class))
(defn example []
(def demokeys (hash-map "z" "1" "b" "2" "a" "3"))
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (subvec (vector 1 2 3 4 5 6 7) 2 5)))
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (pop (vector 3 2 1))))
(example)
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (conj (vector 3 2 1) 5)))
(example)
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (get (vector 3 2 1) 2))
(println (get (vector 3 2 1) 1)))
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (nth (vector 1 2,3) 0))
(println (nth (vector 1 2,3) 2)))
(ns clojure.examples.example
(:require [clojure.set :as set])
(:gen-class))
(defn example []
(println (vector-of :int 1 2 3)))
(ns clojure.examples.example
(:require [clojure.set :as set])
(:gen-class))
(defn example []
(println (vector 1 2 3)))
(ns clojure.examples.example
(:require [clojure.set :as set])
(:gen-class))
(defn example []
(println (set/superset? #{1 2} #{1 2 3}))
(ns clojure.examples.example
(:require [clojure.set :as set])
(:gen-class))
(defn example []
(println (set/subset? #{1 2} #{2 3}))
(ns clojure.examples.example
(:gen-class))
(defn Example []
(try
(def string1 (slurp "Example.txt"))
(ns clojure.examples.example
(:gen-class))
(defn Example []
(try
(def string1 (slurp "Example.txt"))
(ns clojure.examples.example
(:gen-class))
(defn Example []
(try
(def string1 (slurp "Example.txt"))
(ns clojure.examples.example
(:gen-class))
(defn Example []
(try
(def string1 (slurp "Example.txt"))
(ns clojure.examples.example
(:gen-class))
(defn Example []
(try
(aget (int-array [1 2 3]) 5)
(catch Exception e (println (str "caught exception: " (.toString e))))
(ns clojure.examples.example
(:gen-class))
;; This program displays Hello World
(defn Example []
(def string1 (slurp "Example.txt"))
(ns clojure.examples.example
(:gen-class))
(defn example []
(alias 'string 'clojure.core)
(ns-unalias 'clojure.core 'string))
(ns clojure.examples.example
(:require [clojure.set :as set])
(:gen-class))
(defn example []
(println (count (ns-map 'clojure.core))))