I see the benefit of using interpolated strings, in terms of readability:

string myString = $"Hello { person.FirstName } { person.LastName }!"

over a concatenation done this way:

string myString = "Hello " + person.FirstName + " " person.LastName + "!";

The author of this video tutorial claims that the first one makes better use of memory.

How come?

  • 10
    Unless this is part of a tight loop, do you really think any difference in memory usage here is going to be significant? Choose to write the code that reads cleanest to you and, if you do care about memory usage, profile your code to find the actual hotspots. "Someone on the internet told me" is a terrible way to make performance decisions. – Damien_The_Unbeliever Feb 21 '17 at 14:56
  • 2
    I did not expect a massive difference in memory usage :) I was trying to understand how the underlying implementation differ, I thought they were strictly equivalent methods! – harveyAJ Feb 23 '17 at 15:58

The author doesn't actually say that one makes better use of memory than the other. It says that the one method "makes good use of memory" in the abstract, which, by itself, doesn't really mean much of anything.

But regardless of what they said, the two methods aren't going to be meaningfully different in their implementation. Neither is going to be meaningfully different from the other in terms of memory or time.


Here is benchmarks. String concatenation is a little faster for a very small number of arguments, but requires more memory. After 20+ arguments concat is better by time and memory.


I made a simple test, see below. If you concatenate constants, don't use "string.Concat" because the compiler can't concatenate your strings at compile time. If you use variables, the results are effectively the same.

time measure results:

const string interpolation : 4
const string concatenation : 58
const string addition      : 3
var string interpolation   : 53
var string concatenation   : 55
var string addition        : 55
mixed string interpolation : 47
mixed string concatenation : 53
mixed string addition      : 42

the code:

void Main()

const int repetitions = 1000000; 
const string part1 = "Part 1"; 
const string part2 = "Part 2"; 
const string part3 = "Part 3"; 
var vPart1 = GetPart(1); 
var vPart2 = GetPart(2); 
var vPart3 = GetPart(3); 

Test("const string interpolation ", () => $"{part1}{part2}{part3}"); 
Test("const string concatenation ", () => string.Concat(part1, part2, part3)); 
Test("const string addition      ", () => part1 + part2 + part3); 
Test("var string interpolation   ", () => $"{vPart1}{vPart2}{vPart3}"); 
Test("var string concatenation   ", () => string.Concat(vPart1, vPart2, vPart3)); 
Test("var string addition        ", () => vPart1 + vPart2 + vPart3); 
Test("mixed string interpolation ", () => $"{vPart1}{part2}{part3}");
Test("mixed string concatenation ", () => string.Concat(vPart1, part2, part3));
Test("mixed string addition      ", () => vPart1 + part2 + part3);

void Test(string info, Func<string> action) 
    var watch = Stopwatch.StartNew(); 
    for (var i = 0; i < repetitions; i++) 
    Trace.WriteLine($"{info}: {watch.ElapsedMilliseconds}"); 

string GetPart(int index) 
    => $"Part{index}"; 


Strings are immutable. That means they can't be changed.

When you concatenate strings with a + sign, you end up creating multiple strings to get to the final string.

When you use the interpolation method (or StringBuilder), the .NET runtime optimizes your string use, so it (in theory) has better memory usage.

All that being said, it often depends on WHAT you are doing, and HOW OFTEN you are doing it.

One set of concatenations doesn't offer a lot of performance/memory improvements.

Doing those concatenations in a loop can have a lot of improvement.

  • 5
    No intermediate strings are going to be created in either of the two examples shown. Both are able to produce a single final string because there are a fixed number of strings at compile time, so the concatenation will be able to concatenate them all together. This is true of both methods shown here, not just when using string interpolation. Using a StringBuilder here would be both slower, and use more memory than either other option presented. – Servy Feb 21 '17 at 15:33

Because strings in c# are immutable that's why same memory is used again and again so it does not impact memory much but in terms of performance you are actually differentiating between String.Format and String.Concat because at compile time your code will be like this

  string a = "abc";
  string b = "def";

  string.Format("Hello {0} {1}!", a, b);

  string.Concat(new string[] { "Hello ", a, " ", b, "!" });

there is a whole thread about performance between these two if you are interested String output: format or concat in C#

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