This question already has an answer here:
Various esteemed, high rep users on SO keeps insisting that reading a variable with indeterminate value "is always UB". So where exactly is this mentioned in the C standard?
It is very clear that an indeterminate value could either be an unspecified value or a trap representation:
either an unspecified value or a trap representation
valid value of the relevant type where this International Standard imposes no requirements on which value is chosen in any instance
NOTE An unspecified value cannot be a trap representation.
an object representation that need not represent a value of the object type
It is also clear that reading a trap representation invokes undefined behavior, 188.8.131.52:
Certain object representations need not represent a value of the object type. If the stored value of an object has such a representation and is read by an lvalue expression that does not have character type, the behavior is undefined. If such a representation is produced by a side effect that modifies all or any part of the object by an lvalue expression that does not have character type, the behavior is undefined.50) Such a representation is called a trap representation.
However, an indeterminate value does not necessarily contain a trap representation. In fact, trap representations are very rare for systems using two's complement.
Where in the C standard does it actually say that reading an indeterminate value invokes undefined behavior?
I was reading the non-normative Annex J of C11 and found that this is indeed listed as one case of UB:
The value of an object with automatic storage duration is used while it is indeterminate (6.2.4, 6.7.9, 6.8).
However, the listed sections are irrelevant. 6.2.4 only states rules regarding life time and when a variable's value becomes indeterminate. Similarly, 6.7.9 is regarding initialization and states how a variable's value becomes indeterminate. 6.8 seems mostly irrelevant. None of the sections contains any normative text saying that accessing an indeterminate value can lead to UB. Is this a defect in Annex J?
There is however some relevant, normative text in 184.108.40.206 regarding lvalues:
If the lvalue designates an object of automatic storage duration that could have been declared with the register storage class (never had its address taken), and that object is uninitialized (not declared with an initializer and no assignment to it has been performed prior to use), the behavior is undefined.
But that is a special case, which only applies to variables of automatic storage duration that never had their address taken. I have always thought that this section of 220.127.116.11 is the only case of UB regarding indeterminate values (that are not trap representations). But people keep insisting that "it is always UB". So where exactly is this mentioned?