//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (clojure.string/replace "The tutorial is about Groovy" #"Groovy"
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (reverse "Hello World")))
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (clojure.string/split-lines "Hello\\nWorld")))
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (clojure.string/split "Hello World" #" ")))
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (clojure.string/join ", " [1 2 3])))
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (clojure.string/upper-case "HelloWorld"))
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (clojure.string/lower-case "HelloWorld"))
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (compare "Hello" "hello"))
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (subs "HelloWorld" 2 5))
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (count "Hello")))
(hello-world)
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (format "Hello , %s" "World"))
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println (str "Hello" "World"))
//
(ns clojure.examples.hello
(:gen-class))
(defn hello-world []
(println "Hello World")
(println "This is a demo application"))
//
(ns clojure.examples.hello
(:gen-class))
;; This program displays Hello World
(defn Example []
(loop [i 0]
//
(ns clojure.examples.hello
(:gen-class))
;; This program displays Hello World
(defn Example []
(def x (float? 0))
//
(ns clojure.examples.hello
(:gen-class))
;; This program displays Hello World
(defn Example []
(def x (integer? 0))
(ns clojure.examples.example
(:require [clojure.set :as set])
(:gen-class))
(defn example []
(println (set/intersection #{1 2} #{2 3})))
(ns clojure.examples.example
(:require [clojure.set :as set])
(:gen-class))
(defn example []
(println (set/difference #{1 2} #{2 3})))
(ns clojure.examples.example
(:require [clojure.set :as set])
(:gen-class))
(defn example []
(println (set/union #{1 2} #{3 4})))
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (disj (set '(3 2 1)) 2)))
(example)
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (conj (set '(3 2 1)) 5)))
(example)
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (contains? (set '(3 2 1)) 2))
(println (contains? (set '(3 2 1)) 5)))
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (get (set '(3 2 1)) 2))
(println (get (set '(3 2 1)) 1)))
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (sorted-set 3 2 1)))
(example)
//
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (set '(1 1 2 2))))
(example)
//
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (rest (list 1 2,3))))
(example)
//
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (conj (list 1 2,3) 4 5)))
(example)
//
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (cons 0 (list 1 2,3))))
(example)
//
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (nth (list 1 2,3) 0))
(println (nth (list 1 2,3) 2)))
//
(ns clojure.examples.example
(:gen-class))
(defn example []
(println (first (list 1 2,3))))
(example)