User Input: Difference between revisions

{{task|Text processing}}[[Category:Basic language learning]]In this task, the goal is to input a string and the integer 75000, from the normal user interface.

=Text Terminal=

=={{header|Ada}}==

{{works with|GCC|4.1.2}}

<lang ada>

function Get_String return String is

Line : String (1 .. 1_000);

Last : Natural;

begin

Get_Line (Line, Last);

return Line (1 .. Last);

end Get_String;

function Get_Integer return Integer is

S : constant String := Get_String;

begin

return Integer'Value (S);

-- may raise exception Constraint_Error if value entered is not a well-formed integer

end Get_Integer;

</lang>

The functions above may be called as shown below

<lang ada>

My_String : String := Get_String;

My_Integer : Integer := Get_Integer;

</lang>

=={{header|ALGOL 68}}==

print("Enter a string: ");

STRING s := read string;

print("Enter a number: ");

INT i := read int;

~

=={{header|BASIC}}==

{{works with|QuickBasic|4.5}}

INPUT "Enter a string: ", s$

INPUT "Enter a number: ", i%

{{works with|FreeBASIC}}

dim s as string

dim i as integer

input "Enter a string: ", s

input "Enter the integer 75000: ", i

=={{header|Befunge}}==

This prompts for a string and pushes it to the stack a character at a time ('''~''') until end of input (-1).

<>:v:"Enter a string: "

^,_ >~:1+v

^ _@

Numeric input is easier, using the '''&''' command.

<>:v:"Enter a number: "

^,_ & @

=={{header|C}}==

{{works with|gcc}}

<lang c> #include <stdio.h>

int main(int argc, char* argv[])

{

int input;

if((scanf("%d", &input))==1)

{

printf("Read in %d\n", input);

return 1;

}

return 0;

}</lang>

=={{header|C++}}==

{{works with|g++}}

<lang cpp> #include <iostream>

#include <istream>

#include <ostream>

#include <string>

using namespace std;

int main()

{

// while probably all current implementations have int wide enough for 75000, the C++ standard

// only guarantees this for long int.

long int integer_input;

string string_input;

cout << "Enter an integer: ";

cin >> integer_input;

cout << "Enter a string: ";

cin >> string_input;

return 0;

}</lang>

Note: The program as written above only reads the string up to the first whitespace character. To get a complete line into the string, replace

<lang cpp> cin >> string_input;</lang>

with

<lang cpp> readline(cin, string_input);</lang>

=={{header|C sharp|C#}}==

using System;

namespace C_Sharp_Console {

class example {

static void Main() {

string word;

int num;

Console.Write("Enter an integer: ");

num = Console.Read();

Console.Write("Enter a String: ");

word = Console.ReadLine();

}

}

}

=={{header|Erlang}}==

{ok, [String]} = io:fread("Enter a string: ","~s").

{ok, [Number]} = io:fread("Enter a number: ","~d").

Alternatively, you could use io:get_line to get a string:

String = io:get_line("Enter a string: ").

=={{header|Forth}}==

===Input a string===

: INPUT$ ( n -- addr n )

PAD SWAP ACCEPT

PAD SWAP ;

===Input a number===

The only ANS standard number interpretation word is >NUMBER ( ud str len -- ud str len ), which is meant to be the base factor for more convenient (but non-standard) parsing words.

: INPUT# ( -- u true | false )

0. 16 INPUT$ DUP >R

>NUMBER NIP NIP

R> <> DUP 0= IF NIP THEN ;

{{works with|GNU Forth}}

: INPUT# ( -- n true | d 1 | false )

16 INPUT$ SNUMBER? ;

{{works with|Win32Forth}}

: INPUT# ( -- n true | false )

16 INPUT$ NUMBER? NIP

DUP 0= IF NIP THEN ;

Note that NUMBER? always leaves a double result on the stack.

INPUT# returns a single precision number. If you desire a double precision result, remove the NIP.

Here is an example that puts it all together:

: TEST

." Enter your name: " 80 INPUT$ CR

." Hello there, " TYPE CR

." Enter a number: " INPUT# CR

IF ." Your number is " .

ELSE ." That's not a number!" THEN CR ;

=={{header|Groovy}}==

word = System.in.readLine()

num = System.in.readLine().toInteger()

=={{header|Haskell}}==

main = do

putStr "Enter a string: "

str <- getLine

putStr "Enter an integer: "

num <- readLn :: IO Int

putStrLn $ str ++ (show num)

Note: <tt>:: IO Int</tt> is only there to disambiguate what type we wanted from <tt>read</tt>. If <tt>num</tt> were used in a numerical context, its type would have been inferred by the interpreter/compiler.

=={{header|Java}}==

import java.io.BufferedReader;

import java.io.InputStreamReader;

public class GetInput {

public static void main(String[] args) throws Exception {

BufferedReader sysin = new BufferedReader(new InputStreamReader(System.in));

int number = Integer.parseInt(sysin.readLine());

String string = sysin.readLine();

}

}

or

{{works with|Java|1.5/5.0+}}

import java.util.Scanner;

Scanner stdin = new Scanner(System.in);

String string = stdin.nextLine();

int number = stdin.nextInt();

=={{header|Logo}}==

Logo literals may be read from a line of input from stdin as either a list or a single word.

make "input readlist ; in: string 75000

show map "number? :input ; [false true]

make "input readword ; in: 75000

show :input + 123 ; 75123

make "input readword ; in: string 75000

show :input ; string 75000

=={{header|mIRC Scripting Language}}==

alias askmesomething {

echo -a You answered: $input(What's your name?, e)

}

=={{header|Modula-3}}==

<pre>

MODULE Input EXPORTS Main;

IMPORT IO, Fmt;

VAR string: TEXT;

number: INTEGER;

BEGIN

IO.Put("Enter a string: ");

string := IO.GetLine();

IO.Put("Enter a number: ");

number := IO.GetInt();

IO.Put("You entered: " & string & " and " & Fmt.Int(number) & "\n");

END Input.

</pre>

=={{header|newLISP}}==

{{works with|newLISP|9.0}}

(print "Enter an integer: ")

(set 'x (read-line))

(print "Enter a string: ")

(set 'y (read-line))

=={{header|OCaml}}==

<lang ocaml>print_string "Enter a string: ";

let str = read_line () in

print_string "Enter an integer: ";

let num = read_int () in

Printf.printf "%s%d\n" str num</lang>

=={{header|Pascal}}==

program UserInput(input, output);

var i : Integer;

s : String;

begin

write('Enter an integer: ');

readln(i);

write('Enter a string: ');

readln(s)

end.

=={{header|Perl}}==

{{works with|Perl|5.8.8}}

#!/usr/bin/perl

my $string = <>; # equivalent to readline(*STDIN)

my $integer = <>;

=={{header|PHP}}==

{{works with|CLI SAPI}}

#!/usr/bin/php

<?php

$string = fgets(STDIN);

$integer = (int) fgets(STDIN);

=={{header|Pop11}}==

;;; Setup item reader

lvars itemrep = incharitem(charin);

lvars s, c, j = 0;

;;; read chars up to a newline and put them on the stack

while (charin() ->> c) /= `\n` do j + 1 -> j ; c endwhile;

;;; build the string

consstring(j) -> s;

;;; read the integer

lvars i = itemrep();

=={{header|PostScript}}==

{{works with|PostScript|level-2}}

%open stdin for reading (and name the channel "kbd"):

/kbd (%stdin) (r) file def

%make ten-char buffer to read string into:

/buf (..........) def

%read string into buffer:

kbd buf readline

At this point there will be two items on the stack: a boolean which is "true" if the read was successful and the string that was read from the kbd (input terminates on a <return>). If the length of the string exceeds the buffer length, an error condition occurs (rangecheck). For the second part, the above could be followed by this:

%if the read was successful, convert the string to integer:

{cvi} if

which will read the conversion operator 'cvi' (convert to integer) and the boolean and execute the former if the latter is true.

=={{header|PowerShell}}==

$string = Read-Host "Input a string"

$number = Read-Host "Input a number"

=={{header|Python}}==

===Input a string===

string = raw_input("Input a string: ")

In Python 3.0, raw_input will be renamed to input(). The Python 3.0 equivalent would be

string = input("Input a string: ")

===Input a number===

While input() gets a string in Python 3.0, in 2.x it is the equivalent of eval(raw_input(...)). Because this runs arbitrary code, and just isn't nice, it is being removed in Python 3.0. raw_input() is being changed to input() because there will be no other kind of input function in Python 3.0.

number = input("Input a number: ") # Deprecated, please don't use.

Python 3.0 equivalent:

number = eval(input("Input a number: ")) # Evil, please don't use.

The preferred way of getting numbers from the user is to take the input as a string, and pass it to any one of the numeric types to create an instance of the appropriate number.

number = float(raw_input("Input a number: "))

Python 3.0 equivalent:

number = float(input("Input a number: "))

float may be replaced by any numeric type, such as int, complex, or decimal.Decimal. Each one varies in expected input.

=={{header|Raven}}==

'Input a string: ' print expect as str

'Input an integer: ' print expect 0 prefer as num

=={{header|Ruby}}==

{{works with|Ruby|1.8.4}}

print "Enter a string: "

s = gets

print "Enter an integer: "

i = gets.to_i # If string entered, will return zero

puts "String = " + s

puts "Integer = " + i.to_s

=={{header|Scheme}}==

The <tt>read</tt> procedure is R5RS standard, inputs a scheme representation so, in order to read a string, one must enter <tt>"hello world"</tt>

(define str (read))

(define num (read))

(display "String = ") (display str)

(display "Integer = ") (display num)

=={{header|Tcl}}==

Like LISP, there is no concept of a "number" in TCL - the only real variable type is a string (whether a string might represent a number is a matter of interpretation of the string in a mathematical expression at some later time). Thus the input is the same for both tasks:

set str [gets stdin]

set num [gets stdin]

possibly followed by something like

if {![string is integer $num]} then { ...do something here...}

=={{header|Toka}}==

needs readline

." Enter a string: " readline is-data the-string

." Enter a number: " readline >number [ ." Not a number!" drop 0 ] ifFalse is-data the-number

the-string type cr

the-number . cr

=={{header|UNIX Shell}}==

{{works with|Debian Almquish SHell}}

#!/bin/sh

read STRING

read INTEGER

{{works with|Bourne Again SHell}}

#!/bin/bash

read STRING

read INTEGER

=={{header|Vedit macro language}}==

Get_Input(1, "Enter a string: ")

#2 = Get_Num("Enter a number: ")

=GUI=

=={{header|AppleScript}}==

set input to text returned of (display dialog "Enter text:" default answer "")

set input to text returned of (display dialog "Enter a number:" default answer "") as integer

=={{header|Java}}==

{{libheader|Swing}}

import javax.swing.*;

public class GetInputSwing {

public static void main(String[] args) throws Exception {

int number = Integer.parseInt(JOptionPane.showInputDialog ("Enter an Integer"));

String string = JOptionPane.showInputDialog ("Enter a String");

}

}

=={{header|Python}}==

{{works with|Python|2.5}}

{{libheader|Tkinter}}

import tkSimpleDialog

number = tkSimpleDialog.askinteger("Integer", "Enter a Number")

string = tkSimpleDialog.askstring("String", "Enter a String")

=={{header|Tcl}}==

{{libheader|Tk}}

# create entry widget:

pack [entry .e1]

# read its content:

set input [.e get]

Alternatively, the content of the widget can be tied to a variable:

pack [entry .e1 -textvar input]

# show the content at any time by

puts $input

The <tt>-validate</tt> option can be used to test the contents/edits of the widget at any time against any parameters (including testing <tt>string is integer</tt> when the user hits <Return> or such)

=={{header|VBScript}}==

{{works with|Windows Script Host}}

strUserIn = InputBox("Enter Data")

Wscript.Echo strUserIn

=={{header|Vedit macro language}}==

Displays a dialog box with two input fields and default OK button. The values entered are stored in text registers 1 and 2.

The value from 2nd field is then converted into numeric value. (Accepts integers or integer expressions.)

Dialog_Input_1(1, "`User Input example`,

`??Enter a string `,

`??Enter a number `")

#2 = Num_Eval_Reg(2)