The notation “constant-expression: conditional-expression” is only a specification of the syntax of a constant expression. The syntax describes the strings that **may** be a constant expression. In addition to satisfying the syntax, a constant expression **must also** satisfy the constraints listed in clause 6.6.

The fact that the C standard uses “constant-expression: conditional-expression” may be confusing. However, it would be exactly the same if the standard used “constant-expression: expression”, as I will show below. That is, **any** expression is a constant expression provided it follows not just the syntax for expressions but also the constraints listed in clause 6.6.

One example of a conditional expression is `3 < 4 ? 5 : 6`

. This expression is also a constant expression, because it satisfies the constraints in clause 6.6. On the other hand, `x < 4 ? 5 : 6`

is also a conditional expression but is not a constant expression (assuming `x`

is the name of an object and is not a macro that gets replaced by a constant, et cetera).

The clause 6.6 tells you that a conditional expression may be a constant expression if it satisfies the constraints. Clause 6.5.15 shows that a conditional expression may be either a `logical-OR-expression`

or a `logical-OR-expression ? expression : conditional-expression`

. Continuing to work through the chain, a `logical-OR-expression`

may be the a `logical-AND-expression`

or may be an expression built with the logical OR operator, `||`

. Although the name at each level is something like `foo-expression`

, each level is actually either the type of expression that came before or is an expression built with `foo`

. It would just be cumbersome to name them `foo-expression-or-prior-type-of-expression`

instead of just `foo-expression`

.

Thus, the grammar starts with the primaries, which are identifiers, constants, string literals, and one special thing I will discuss in a moment, and the grammar builds those primaries into more complicated expressions, adding the possibility of using each operator that C permits. Layering the grammar in this way defines the operator precedence, because the earlier expressions must be parsed before the later expressions, where possible.

The special thing in the primary is a parenthesized expression, `( expression )`

. The `expression`

token is the end of the chain of definitions, defined in 6.5.17. This loops the grammar back; any expression can be placed in parentheses, which makes it a new `primary`

, and then operators can be applied to it.

Clause 6.6 could have stated that a `constant-expression`

is an `expression`

, and it would have the same effect as saying it is a `conditional-expression`

. This is because the constraints in 6.6 forbid assignment operators and comma operators. So, if we consider what an `expression`

could be, clause 6.5.17 says it can be either an `assignment-expression`

or `expression , assignment-expression`

. But the constraint prohibiting the comma operator prohibits the latter. Therefore, an `expression`

in a constant expression must be an `assignment-expression`

. Similarly, an `assignment-expression`

must be a `conditional-expression`

and not `unary-expression assignment-operator assignment-expression`

.

`conditional-expression`

.`conditional-expression`

contains the definition for all the operators with higher precedence, so it means that a constant expression can comes from an expression that contains operators with precedence equal to or higher than ternary operator. But check the constraint also - since some operators are excluded (as you can use`()`

to increase precedence of an operator). – nhahtdh Dec 2 '12 at 14:35