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What is the reasoning behind the naming of "lvalue" and "rvalue" in C/C++ (I know how they function)?

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As you know what they are, why do you ask then? –  Kiril Kirov Apr 2 '13 at 13:52
-1 didn't google it –  Cheers and hth. - Alf Apr 2 '13 at 13:54

5 Answers 5

up vote 8 down vote accepted

The standard mentions this:

An lvalue (so called, historically, because lvalues could appear on the left-hand side of an assignment expression) [...]

An rvalue (so called, historically, because rvalues could appear on the right-hand side of an assignment expression) [...]

That is, an lvalue was something you could assign to and an rvalue was something you could assign from.

However, this has gradually gotten further and further from the truth. A simple example of an lvalue that you can't assign it is a const variable.

const int x = 5;
x = 6; // Error

You can even have an rvalue appear on the left side of an assignment when you involve operator overloading.

I find it more useful to think of an lvalue as referencing an object stored in memory and an rvalue as just a value (that may have been read from memory). The concepts mirror this idea quite well. Some examples:

  • Lvalue-to-rvalue can be considered the reading of a value from an object in memory.
  • Most operators require lvalue-to-rvalue conversion because they use the value of the object to calculate a result.
  • The address of operator (&) requires an lvalue because you can only take the address of something in memory. It doesn't need to get the value of the object to work out its address.
  • Performing std::move to turn an lvalue expression into an rvalue expression can be thought of as tricking the compiler into thinking the object that's stored in memory is actually just a temporary value.

However, this also doesn't hold up in every situation. It's just a reasonable analogy.

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@Mike Badly worded. I changed it to something a bit better, I think. Thanks. –  Joseph Mansfield Apr 2 '13 at 15:04

Back in the olden days, an "lvalue" meant something that could go on the left side of an assignment, and an "rvalue" meant something that could go on the right side of an assignment.

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It's pretty intuitive if you think about what side of an assignment operator they can appear:

left-value = right-value;

Loosely put, lvalue means you can assign to it, rvalue means it can only appear on the right hand side of the operator.

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... except the meaning has changed over time, and you can have an rvalue on the left or require an lvalue on the right for user defined assignment operators... but yes, historically this is the reason. –  David Rodríguez - dribeas Apr 2 '13 at 13:53

In C, lvalue and rvalue reflect the usage in the assignment operator. rvalue can appear only to the right of =, while lvalue can be on either side. In C++ it's similar, but more complicated.

There are non-assignable lvalues, constant variables.

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And arrays are another example of non-assignable lvalues. –  Daniel Fischer Apr 2 '13 at 18:05
@DanielFischer Correct. –  Alexey Frunze Apr 2 '13 at 21:53

This is the result of the simplification of a (somewhat more complex) concept.

lvalues are left values, i. e. those which "can be on the left side of an assignment". This is, again, a simplification, not all lvalues can be directly assigned to as-is (for example, arrays can't, only elements of a non-const arrays, so subscripting is required).

rvalues are right values, those which can only be on the right side of an assignment expression.

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