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I have the following code:

string line1;
string line2;

line1 = "this";
line2 = line1;
line1.replace(0, 1, "T");
cout << "line1: " << line1 << "  line2: " << line2 << endl;

The output is:

line1: This line2: this

So it looks like line1 and line2 do not point at the same string object.

This is confusing for me, as I thought that since c++ strings are mutable, changing s1 should also change s2.

2 Answers 2

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Objects in C++ generally have value semantics.

That's because all the primitive types (such as int, double, char, etc.) work like that, and the types in the standard library (such as std::string, std::vector, std::map, etc.) were modeled after primitive types.

Thus:

string line1;
string line2;

means you have two entirely separate string objects. They're not references or pointers (like in e.g. Java), they are full objects themselves.

Then

line2 = line1;

does not mean line2 refers to the same underlying object as line1 (it cannot mean that because line2 is not a reference or pointer); it means the contents of the line1 object are copied into the line2 object. Any later changes to line1 are not visible in line2 because it is an independent copy.

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  • Thanks! Much of this goes over my head (just starting in c++), but I'll do some reading. Will this also be the case for classes I define myself or just for standard library types?
    – titiree
    Sep 16, 2018 at 1:00
  • This is the case for classes you define as well, so long as you don't use pointers (you can see my above answer for details).
    – Blenm
    Sep 16, 2018 at 1:02
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    @titiree C++ is biased towards value semantics, so if you don't do anything special, your own classes will also behave like that. However, it is possible to create "handle" classes that only contain a pointer to some other object and then copying instances of your class just copies the pointer.
    – melpomene
    Sep 16, 2018 at 1:03
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They're mutable, but they're not references unless you declare them to be (and both were declared string, not string&). The line:

line2 = line1;

invokes copy assignment (had you declared and initialized it at the same time, it would have been copy construction, but there is no meaningful difference in this case), initializing line2 to the same value as line1, but completely independent of line1 from then on.

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