Represents text as a series of Unicode characters.
Unity uses the .Net System.String class for strings. See the Microsoft MSDN
documentation for Strings
for more details.
Note: In c# string is an alias for System.String. This means that you
can use either string or String in your code (if you have added using System
to the top of your script.)
Note: In Javascript strings are represented using String which you should use
in your Unity script code.
Here are some basic uses of the String class.
#pragma strict
function Start () { var s : String = "hello"; Debug.Log(s); // prints hello s = String.Format("{0} {1}", s, "world"); Debug.Log(s); // prints hello world s = String.Concat("hello","world"); Debug.Log(s); // prints helloworld s = s.ToUpper(); Debug.Log(s); // prints HELLOWORLD s = s.ToLower(); Debug.Log(s); // prints helloworld
//Debug.Log(s.CharAt(1)); // CharAt not supported, produces compiler error // instead use array syntax below Debug.Log(s[1]); // prints e
var c : char = 'x'[0]; // slight odd JS way of specifying a char // 'x' is a string and [0] means first character
Debug.Log(s.IndexOf(c)); // prints -1 (s does not contain an x)
var i : int = 42; s = i.ToString(); Debug.Log(s); // prints 42
s = "-43"; i = int.Parse(s); Debug.Log(i); // prints -43
var f : float = 3.14159265358979f; s = f.ToString(); Debug.Log(s); // prints 3.141593 (which is an approximation)
s = "-7.14159265358979"; f = float.Parse(s); Debug.Log(f); // prints -7.141593 (which is an approximation) }
using UnityEngine; using System.Collections;
public class ExampleClass : MonoBehaviour { void Start() { // prints hello string s = "hello"; Debug.Log(s);
// prints hello world s = string.Format("{0} {1}", s, "world"); Debug.Log(s);
// prints helloworld s = string.Concat("hello", "world"); Debug.Log(s);
// prints HELLOWORLD s = s.ToUpper(); Debug.Log(s);
// prints helloworld s = s.ToLower(); Debug.Log(s);
// prints 'e' Debug.Log(s[1]);
// prints 42 int i = 42; s = i.ToString(); Debug.Log(s);
// prints -43 s = "-43"; i = int.Parse(s); Debug.Log(i);
// prints 3.141593 (an approximation) float f = 3.14159265359F; s = f.ToString(); Debug.Log(s);
// prints -7.141593 (an approximation) s = "-7.14159265358979"; f = float.Parse(s); Debug.Log(f); } }
This example shows how you can examine the String class and see the methods it contains.
// Javascript #pragma strict
import System; import System.Reflection;
function Start () {
var t : Type = System.String;
// Iterate over all the methods from the System.String class and display // return type and parameters. // This reveals all the things you can do with a String.
for (var mi : MethodInfo in t.GetMethods()) {
var s : System.String = System.String.Format("{0} {1} (", mi.ReturnType, mi.Name); var pars : ParameterInfo[] = mi.GetParameters();
for (var j : int = 0; j < pars.Length; j++) { s = String.Concat(s, String.Format("{0}{1}", pars[j].ParameterType, (j == pars.Length-1) ? "" : ", ")); } s = String.Concat(s, ")"); Debug.Log(s); } }
using System; using System.Reflection; using UnityEngine; using System.Collections;
public class ExampleClass : MonoBehaviour { void Start() { Type t = typeof(System.String);
// Iterate over all the methods from the System.String class and display // return type and parameters. // This reveals all the things you can do with a String. foreach (MethodInfo mi in t.GetMethods()) { System.String s = System.String.Format("{0} {1} (", mi.ReturnType, mi.Name); ParameterInfo[] pars = mi.GetParameters();
for (int j = 0; j < pars.Length; j++) { s = String.Concat(s, String.Format("{0}{1}", pars[j].ParameterType, ((j == pars.Length - 1) ? "" : ", "))); } s = String.Concat(s, ")"); Debug.Log(s); } } }
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