That's just the string concatenation operator - nothing to do with boxing or integers in particular... it's any value which is being concatenated with a string.
Your second example doesn't involve any concatenation, hence no conversion.
From the C# spec, section 7.8.4:
For an operation of the form x + y,
binary operator overload resolution
(§7.3.4) is applied to select a
specific operator implementation. The
operands are converted to the
parameter types of the selected
operator, and the type of the result
is the return type of the operator.
The predefined addition operators are
listed below. For numeric and
enumeration types, the predefined
addition operators compute the sum of
the two operands. When one or both
operands are of type string, the
predefined addition operators
concatenate the string representation
of the operands.
string operator +(string x, string y);
string operator +(string x, object y);
string operator +(object x, string y);
These overloads of the binary + operator perform string concatenation.
If an operand of string concatenation is null, an empty string is substituted.
Otherwise, any non-string argument is converted to its string representation
by invoking the virtual ToString method inherited from type object.
ToString returns null, an empty string is substituted.
In fact, in your example, with the current MS C# compiler, it will simply box the integer and call
string.Concat(object, object) - but the compiler knows that will have the same result as calling
One interesting point of fact: the + operator doesn't exist in the
string class itself. The language has special handling for it (as we've already seen) which ends up calling
Concat. One advantage of this is that
x + y + z
can be compiled into
string.Concat(x, y, z)
which can perform the whole concatenation in one go, rather than building a pointless intermediate string.
(Also, note that the compiler performs concatenations of compile-time constant strings itself.)