`x`

and `y`

are *copy-initialized* to `T`

's *value-initialized* value.

From the C++03 standard, §8.5/7:

An object whose initializer is an empty set of parentheses, i.e., (), shall be value-initialized.

And from §8.5/5:

To *value-initialize* an object of type `T`

means:

- if
`T`

is a class type with a user-declared constructor, then the default constructor for `T`

is called (and the initialization is ill-formed if `T`

has no accessible default constructor);
- if
`T`

is a non-union class type without a user-declared constructor, then every non-static data member and base-class component of `T`

is value-initialized;
- if
`T`

is an array type, then each element is value-initialized;
- otherwise, the object is zero-initialized

To *zero-initialize* an object of type `T`

means:

- if
`T`

is a scalar type, the object is set to the value of `0`

(zero) converted to `T`

;
- if
`T`

is a non-union class type, each nonstatic data member and each base-class subobject is zero-initialized;
- if
`T`

is a union type, the object’s first named data member) is zero-initialized;
- if
`T`

is an array type, each element is zero-initialized;
- if
`T`

is a reference type, no initialization is performed.

`x(T()),y(T())`

could be replaced with `x(),y()`

to instead value-initialize `x`

and `y`

directly. In most circumstances this will achieve the same net effect (assuming `T`

is copy constructable), but in some cases this will be more efficient, so as a general rule this approach should always be preferred.

`T`

is a primitive, and you don't explicitly initialise them, they will remain uninitialised. – Lightness Races in Orbit May 10 '11 at 12:45