I’ve used C but never C++. What does it mean for a variable’s type to be int&? From when I’ve used it, & would be used to create a pointer to a variable, but the type of that pointer would be int*.
edit:
never mind, I looked it up. It’s a “reference” instead of a pointer. Similar, but unlike a pointer it doesn’t create a distinct variable in memory of its own.
In my experience, it’s rare to see int& in day to day as a regular old lvalue… it essentially just allows you to alias a variable to another name. It’s much more common to see them used in function parameters to leverage pass by reference. In C++ pointers usually aren’t particularly useful compared to just passing things by reference since stack variables get auto-gc’d it’s the preferred style of frameworks like Qt and is extremely easy to use.
never mind, I looked it up. It’s a “reference” instead of a pointer. Similar, but unlike a pointer it doesn’t create a distinct variable in memory of its own.
I’m almost sure it does create a distinct variable in memory. Internally it’s still a pointer, specifically a const pointer (not to be confused with a pointer to a const value; it’s the address that does not change). Think about it as a pointer that is only ever dereferenced and never used as a pointer. So yes, like the other commenter said, like an alias.
I don’t think references are variables: you can’t modify them, and AFAIR you can’t have pointers to them, with the possible but unlikely exception of non-static member references.
An int& reference is just as much of a variable as int* const would be (a const pointer to a non-const int). “Variable” might be a misnomer here, but it takes just as much memory as any other pointer.
For references within a scope, you’re probably right. For references that cross scope boundaries (i.e. function parameters), they necessarily must consume memory (or a register). Passing a parameter to a function call consumes memory or a register by definition. If a function call is inlined, that means its instructions are copy-pasted to the call location so there’s no actual call in the compiled code.
I’ve used C but never C++. What does it mean for a variable’s type to be
int&
? From when I’ve used it,&
would be used to create a pointer to a variable, but the type of that pointer would beint*
.edit:
never mind, I looked it up. It’s a “reference” instead of a pointer. Similar, but unlike a pointer it doesn’t create a distinct variable in memory of its own.
In my experience, it’s rare to see
int&
in day to day as a regular old lvalue… it essentially just allows you to alias a variable to another name. It’s much more common to see them used in function parameters to leverage pass by reference. In C++ pointers usually aren’t particularly useful compared to just passing things by reference since stack variables get auto-gc’d it’s the preferred style of frameworks like Qt and is extremely easy to use.Here’s a breakdown if you want more information https://en.cppreference.com/w/cpp/language/reference
I’m almost sure it does create a distinct variable in memory. Internally it’s still a pointer, specifically a const pointer (not to be confused with a pointer to a const value; it’s the address that does not change). Think about it as a pointer that is only ever dereferenced and never used as a pointer. So yes, like the other commenter said, like an alias.
I don’t think references are variables: you can’t modify them, and AFAIR you can’t have pointers to them, with the possible but unlikely exception of non-static member references.
An
int&
reference is just as much of a variable asint* const
would be (a const pointer to a non-const int). “Variable” might be a misnomer here, but it takes just as much memory as any other pointer.For references within a scope, you’re probably right. For references that cross scope boundaries (i.e. function parameters), they necessarily must consume memory (or a register). Passing a parameter to a function call consumes memory or a register by definition. If a function call is inlined, that means its instructions are copy-pasted to the call location so there’s no actual call in the compiled code.