Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

What is the difference between a mutable and immutable string in C#?

share|improve this question
2  
possible duplicate of - stackoverflow.com/questions/2365272/why-net-string-is-immutable – RameshVel Nov 25 '10 at 6:08
5  
It isn't identical. Very similar, but that's not the same as identical. – Marcelo Cantos Nov 25 '10 at 6:10
2  
Related question about the internals of StringBuilder stackoverflow.com/q/3564906/38206 – Brian Rasmussen Nov 25 '10 at 6:24

13 Answers 13

Mutable and immutable are English words meaning "can change" and "cannot change" respectively. The meaning of the words is the same in the IT context; i.e.

  • a mutable string can be changed, and
  • an immutable string cannot be changed.

The meanings of these words are the same in C# / .NET as in other programming languages / environments, though (obviously) the names of the types may differ, as may other details.

share|improve this answer
17  
Very short and clear answer. +1 – david Dec 24 '11 at 15:55
3  
@FlorinBombeanu - I'm explaining what the terms "mutable" and "immutable" mean ... which is what the Question asks about. I'm not talking about the specific .NET types used to represent mutable or immutable strings. – Stephen C Jul 3 '13 at 8:13
1  
@StephenC - Yeah, I'm not challenging the term explanation. It's just that someone might get the idea that there is such a thing as "mutable string" in .NET just by looking at your answer. Also, the question clearly refers to C# string thus .NET's String type. – Florin Bombeanu Jul 3 '13 at 8:34
    
@FlorinBombeanu - I've clarified the Answer to make it clear what I am talking about. If they still cannot understand what I am saying, then there is little that can be done about it. – Stephen C Jul 3 '13 at 11:59
11  
@FlorinBombeanu - Besides, what you are saying is incorrect. .NET does have a mutable string type; it is called StringBuilder. IMO, your assertion that the question is only about the .NET String is based on a pedantic misreading of the Question that ignores its obvious plain English meaning in favour of a meaning that is plainly nonsensical. (If he is using "string" to refer exclusively to instances of String, then one of the two things he is asking us to compare does not exist.) – Stephen C Jul 3 '13 at 12:13

String is immutable

i.e. strings cannot be altered. When you alter a string (by adding to it for example), you are actually creating a new string.

But StringBuilder is not immutable (rather, it is mutable)

so if you have to alter a string many times, such as multiple concatenations, then use StringBuilder.

share|improve this answer
4  
What happens if you concat immutable strings many times? Loads of memory usage for strings without references? Or just slow? – Rudie Oct 14 '14 at 17:38
8  
@Rudie - both. Each concatenation creates a new String object, and copies all of the characters of both input strings. Leads to O(N^2) behaviour ... – Stephen C Jan 23 '15 at 23:53
    
@StephenC explained with the keywords. – Kent Liau Jul 6 '15 at 17:54
2  
if you have to alter a string many times, such as multiple concatenations, then use StringBuilder ... That cleared my mind totally thanks... – katmanco Dec 17 '15 at 8:24
1  
This should be the top answer. Passive-agressive smartasses rarely give a proper answer. – S.O. Apr 15 at 17:46

All string objects are immutable in C#. Objects of the class string, once created, can never represent any value other than the one they were constructed with. All operations that seem to "change" a string instead produce a new one. This is inefficient with memory, but extremely useful with regard to being able to trust that a string won't change out form under you- because as long as you don't change your reference, the string being referred to will never change.

A mutable object, by contrast, has data fields that can be altered. One or more of its methods will change the contents of the object, or it has a Property that, when written into, will change the value of the object.

If you have a mutable object- the most similar one to String is StringBuffer- then you have to make a copy of it if you want to be absolutely sure it won't change out from under you. This is why mutable objects are dangerous to use as keys into any form of Dictionary or set- the objects themselves could change, and the data structure would have no way of knowing, leading to corrupt data that would, eventually, crash your program.

However, you can change its contents- so it's much, much more memory efficient than making a complete copy because you wanted to change a single character, or something similar.

Generally, the right thing to do is use mutable objects while you're creating something, and immutable objects once you're done. This applies to objects that have immutable forms, of course; most of the collections don't. It's often useful to provide read-only forms of collections, though, which is the equivalent of immutable, when sending the internal state of your collection to other contexts- otherwise, something could take that return value, do something to it, and corrupt your data.

share|improve this answer

An object is mutable if, once created, its state can be changed by calling various operations on it, otherwise it is immutable.

Immutable String

In C# (and .NET) a string is represented by class System.String. The 'string' keyword is an alias for this class.

The System.String class is immutable, i.e once created its state cannot be altered.

So all the operations you perform on a string like Substring, Remove, Replace, concatenation using '+' operator etc will create a new string and return it.

See the following program for demonstration -

string str = "mystring";
string newString = str.Substring(3);
Console.WriteLine(newString);
Console.WriteLine(str);

This will print 'string' and 'mystring' respectively.

For the benefits of immutability and why string are immutable check Why .NET String is immutable?.

Mutable String

If you want to have a string which you want to modify often you can use the StringBuilder class. Operations on a StringBuilder instance will modify the same object.

For more advice on when to use StringBuilder refer to When to use StringBuilder?.

share|improve this answer

Immutable :

When you do some operation on a object, it creates a new object hence state is not modifiable as in case of string.

Mutable

When you perform some operation on a object, object itself modified no new obect created as in case of StringBuilder

share|improve this answer

In .NET System.String (aka string) is a immutable object. That means when you create an object you can not change it's value afterwards. You can only recreate a immutable object.

System.Text.StringBuilder is mutable equivalent of System.String and you can chane its value

For Example:

class Program
{
    static void Main(string[] args)
    {

        System.String str = "inital value";
        str = "\nsecond value";
        str = "\nthird value";

        StringBuilder sb = new StringBuilder();
        sb.Append("initial value");
        sb.AppendLine("second value");
        sb.AppendLine("third value");
    }
}

Generates following MSIL : If you investigate the code. You will see that whenever you chane an object of System.String you are actually creating new one. But in System.Text.StringBuilder whenever you change the value of text you dont recreate the object.

.method private hidebysig static void  Main(string[] args) cil managed
{
  .entrypoint
  // Code size       62 (0x3e)
  .maxstack  2
  .locals init ([0] string str,
           [1] class [mscorlib]System.Text.StringBuilder sb)
  IL_0000:  nop
  IL_0001:  ldstr      "inital value"
  IL_0006:  stloc.0
  IL_0007:  ldstr      "\nsecond value"
  IL_000c:  stloc.0
  IL_000d:  ldstr      "\nthird value"
  IL_0012:  stloc.0
  IL_0013:  newobj     instance void [mscorlib]System.Text.StringBuilder::.ctor()
  IL_0018:  stloc.1
  IL_0019:  ldloc.1
  IL_001a:  ldstr      "initial value"
  IL_001f:  callvirt   instance class [mscorlib]System.Text.StringBuilder [mscorlib]System.Text.StringBuilder::Append(string)
  IL_0024:  pop
  IL_0025:  ldloc.1
  IL_0026:  ldstr      "second value"
  IL_002b:  callvirt   instance class [mscorlib]System.Text.StringBuilder [mscorlib]System.Text.StringBuilder::AppendLine(string)
  IL_0030:  pop
  IL_0031:  ldloc.1
  IL_0032:  ldstr      "third value"
  IL_0037:  callvirt   instance class [mscorlib]System.Text.StringBuilder [mscorlib]System.Text.StringBuilder::AppendLine(string)
  IL_003c:  pop
  IL_003d:  ret
} // end of method Program::Main
share|improve this answer
1  
Ummm ... that disassembled code only shows that pointer assignments are being made and methods are being called. It has (almost) nothing to do with mutable versus immutable. (It escapes me why some people think that disassembling some irrelevant example code is going to help people understand this kind of thing. For a start, most programmers are not fluent in CLI code.) – Stephen C Jan 22 '14 at 13:29
    
Someone got bossed. – Christopher Bruce Feb 12 '14 at 20:21

Strings are mutable because .NET use string pool behind the scene. It means :

string name = "My Country";
string name2 = "My Country";

Both name and name2 are referring to same memory location from string pool. Now suppose you want to change name2 to :

name2 = "My Loving Country";

It will look in to string pool for the string "My Loving Country", if found you will get the reference of it other wise new string "My Loving Country" will be created in string pool and name2 will get reference of it. But it this whole process "My Country" was not changed because other variable like name is still using it. And that is the reason why string are IMMUTABLE.

StringBuilder works in different manner and don't use string pool. When we create any instance of StringBuilder :

var address  = new StringBuilder(500);

It allocate memory chunk of size 500 bytes for this instance and all operation just modify this memory location and this memory not shared with any other object. And that is the reason why StringBuilder is MUTABLE.

I hope it will help.

share|improve this answer

To clarify there is no such thing as a mutable string in C# (or .NET in general). Other langues support mutable strings (string which can change) but the .NET framework does not.

So the correct answer to your question is ALL string are immutable in C#.

string has a specific meaning. "string" lowercase keyword is merely a shortcut for an object instantiated from System.String class. All objects created from string class are ALWAYS immutable.

If you want a mutable representation of text then you need to use another class like StringBuilder; but then my definition it is not a string.

share|improve this answer

in implementation detail.

CLR2's System.String is muttable. StringBuilder.Append calling String.AppendInplace (private method)

CLR4's System.String is imuttable. StringBuilder have Char array with chunking.

share|improve this answer

The data value may not be changed. Note: The variable value may be changed, but the original immutable data value was discarded and a new data value was created in memory.

share|improve this answer

None, actually. The String class is mutable.

unsafe
{
    string foo = string.Copy("I am immutable.");
    fixed (char* pChar = foo)
    {
        char* pFoo = pChar;

        pFoo[5] = ' ';
        pFoo[6] = ' ';
    }

    Console.WriteLine(foo); // "I am   mutable."
}

This kind of logic is done all the time in the String and StringBuilder classes, actually. They just allocate a new string each time you call Concat, Substring, etc. and use pointer arithmetic to copy over to the new string. Strings just don't mutate themselves, hence why they are considered "immutable".


By the way, do not attempt this with string literals or you will badly mess up your program:

string bar = "I am a string.";

fixed (char* pChar = bar)
{
    char* pBar = pChar;

    pBar[2] = ' ';
}

string baz = "I am a string.";

Console.WriteLine(baz); // "I  m a string."

This is because string literals are interned in the desktop .NET Framework; in other words, bar and baz point to the exact same string, so mutating one will mutate the other. This is all fine and dandy though if you're using an unmanaged platform like WinRT, which lacks string interning.

share|improve this answer

From http://yassershaikh.com/what-is-the-difference-between-strings-and-stringbuilder-in-c-net/

Short Answer : String is immutable – whereas StringBuilder is mutable.

What does that mean ? Wiki says : In object-oriented, an immutable object is an object whose state cannot be modified after it is created. This is in contrast to a mutable object, which can be modified after it is created.

From the StringBuilder Class documentation:

The String object is immutable. Every time you use one of the methods in the System.String class, you create a new string object in memory, which requires a new allocation of space for that new object.

In situations where you need to perform repeated modifications to a string, the overhead associated with creating a new String object can be costly.

The System.Text.StringBuilder class can be used when you want to modify a string without creating a new object. For example, using the StringBuilder class can boost performance when concatenating many strings together in a loop.

share|improve this answer

Here is the example for Immutable string and Mutable string builder

        Console.WriteLine("Mutable String Builder");
        Console.WriteLine("....................................");
        Console.WriteLine();
        StringBuilder sb = new StringBuilder("Very Good Morning");
        Console.WriteLine(sb.ToString());
        sb.Remove(0, 5);
        Console.WriteLine(sb.ToString());

        Console.WriteLine();

        Console.WriteLine("Immutable String");
        Console.WriteLine("....................................");
        Console.WriteLine();
        string s = "Very Good Morning";
        Console.WriteLine(s);
        s.Substring(0, 5);
        Console.WriteLine(s);
        Console.ReadLine();
share|improve this answer
    
It will be very nice if you can provide the output as well @Gokul :) – Roylee May 22 '14 at 2:46
    
Substring doesn't change the underlying value. It only returns a value. – Kye Jul 7 '14 at 5:01
    
@Kye and why? because strings are immutable :) – LuckyLikey Jun 30 '15 at 12:15
    
Your 2 line code -: s.Substring(0, 5); Console.WriteLine(s); Here s.substring() does not change s. this example does not show if string is immutable. – Dhananjay Dec 9 '15 at 4:09

protected by Stephen C Jan 22 '14 at 13:31

Thank you for your interest in this question. Because it has attracted low-quality or spam answers that had to be removed, posting an answer now requires 10 reputation on this site.

Would you like to answer one of these unanswered questions instead?

Not the answer you're looking for? Browse other questions tagged or ask your own question.