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Not often but sometimes I need to use String.Trim() to remove whitespaces of a string.
If it was a longer time since last trim coding I write:

string s = " text ";

and be surprised why s is not changed. I need to write:

string s = " text ";
s = s.Trim();

Why are some string methods designed in this (not very intuitive) way? Is there something special with strings?

share|improve this question
It's not some string methods: all of them are like that. – dasblinkenlight Apr 17 '12 at 12:01
a very nice answer can be found here :- stackoverflow.com/questions/93091/… – Pranav Apr 17 '12 at 12:02
up vote 6 down vote accepted

s.Trim() creates a new trimmed version of the original string and returns it instead of storing the new version in s. So, what you have to do is to store the trimmed instance in your variable:

  s = s.Trim();

This pattern is followed in all the string methods and extension methods.

The fact that string is immutable doesn't have to do with the decision to use this pattern, but with the fact of how strings are kept in memory. This methods could have been designed to create the new modified string instance in memory and point the variable to the new instance.

It's also good to remember that if you need to make lots of modifications to a string, it's much better to use an StringBuilder, which behaves like a "mutable" string, and it's much more eficient doing this kind of operations.

share|improve this answer
StringBuilder does not have a Trim() method. But the Replace(...) methods do both: change object itself and return a StringBuilder object. – brgerner Apr 17 '12 at 12:21
+1 for mention StringBuilder. – brgerner Apr 17 '12 at 12:27
Yes, you don't have a Trim, but you can also use Remove() or change the Lenght of the StringBuilder. i think you can't simulate a Trim with Replace. – JotaBe Apr 17 '12 at 12:27
A few quibbles: (1) Trim "trims the string" and "returns the trimmed string": this could lead the naïve reader to conclude that strings are mutable. (2) The pattern of returning an instance from an instance method is possible with mutable types, but necessary with immutable types. It's therefore not accurate to say that string immutability "doesn't have to do with the decision to use this pattern". (to be continued) – phoog Apr 17 '12 at 13:13
(continued) (3) The methods could not have been designed to "point the variable to the new instance" because C# does not have such semantics: no reference type stores a new instance in the receiver of an instance method call. With value types you can assign this = something; in an instance method, but not with reference types. – phoog Apr 17 '12 at 13:13

Strings are immutable. Any string operation generates a new string without changing the original string.

From MSDN:

Strings are immutable--the contents of a string object cannot be changed after the object is created, although the syntax makes it appear as if you can do this.

share|improve this answer
Thanks! I understand, immutability has its advantages. But then I would prever naming like String.GetTrimmed() to imply that there is no change. – brgerner Apr 17 '12 at 12:07
Except that once you know Strings are immutable, all those extra Get...ed become redundant. – Almo Apr 17 '12 at 12:13
@Almo: Exactly, string immutability is already a well known characteristic of both C# and Java. No one really expects something else. – Tudor Apr 17 '12 at 12:14
Lots of people expect something else! Many programmers have a hard time becoming accustomed to string immutability; I've seen statements like s.Trim() in code written even by experienced programmers. I daresay there'd be far less of that if @brgerner's suggestion had been implemented. – phoog Apr 17 '12 at 13:17

As it is written in MSDN Library:

A String object is called immutable (read-only), because its value cannot be modified after it has been created. Methods that appear to modify a String object actually return a new String object that contains the modification.

Because strings are immutable, string manipulation routines that perform repeated additions or deletions to what appears to be a single string can exact a significant performance penalty.

See this link.

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In addition to all the good answers, I also feel that the reason being Threadsaftey.

Lets say

string s = " any text "; s.Trim();

When you say this there is nothing stopping the other thread from modifying s. If the same string is modified, lets say the other thread remove 'a' from s, then what is the result of s.Trim()?

But when it returns the new string, though it is being modified by the other thread, the trim can make a local copy modify it and return modified string.

share|improve this answer
Inmutable classes are thread safe by definition. If the class wasn't inmutable it wouldn't be thread safe unless you implemented the necessary locks. I want to change your question. If thread a does this: string s = " any text "; s = s.Trim(); And thread b does this s += "and more"; What is s in the end? Thread safety depends on what you do, not only on the class design itself. – JotaBe Apr 17 '12 at 14:02

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