# What is Indeterminate value?

I found this in c99 standard

``````3.17.2
1 indeterminate value
either an unspecified value or a trap representation
``````

This above statement is not clear to me. Can anyone explain what is this and what are its pros and cons?

Some example will be highly appreciated.

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I'm also interested in it's usage of a "trap representation", what's that supposed to mean as well? –  mattclemens Nov 16 '12 at 20:11
A good example of a trap representation are signalling NaNs. Some processors will issue an exception when a signalling NaN is encountered. An indeterminate value can be a signalling NaN. –  Mysticial Nov 16 '12 at 20:12
The discussion would not be complete without a reference to Defect Report 322: open-std.org/jtc1/sc22/wg14/www/docs/n1208.htm –  Pascal Cuoq Nov 16 '12 at 20:17
A signaling NAN is not a trap representation. It's a valid floating point value. Trap representations essentially don't exist in the real world; the canonical examples would be implementations with parity/checksum in the padding bits (in which case, bad parity/checksum would be a trap representation) and "negative zero" on sign/magnitude and ones-complement systems that don't support a negative zero. –  R.. Nov 16 '12 at 20:31
@PascalCuoq: is there a response to that defect report? The reporter has read the text the same way I did, and reacted to that reading in horror (as not representing the intention of the committee) the same way you did. –  Steve Jessop Nov 17 '12 at 2:10
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The differentiation of the two (indeterminate values and trap representations) is fundamental. In one case you have no known value. In the other you have a known-invalid value.

Simplest example of an indeterminate value I can muster:

``````int a;
int b = a;
``````

There is no concept of determinate 'value' associated with `a`. It has something (as it is occupying memory) but the "what" it has is not defined, thus indeterminate. Overall, the concept is as simple as it sounds: Unless it has been decided what something is, it cannot be used in any evaluation (think r-value if it helps) with deterministic results.

The actual value depends on the language, compiler, and memory management policies. For instance, in most implementations of C, an uninitialized scope variable or the memory pointed to by the pointer returned by a call to malloc will contain whatever value happened to be stored at that address previously. On the other hand, most scripting languages will initialize variables to some default value (0, "", etc).

Regarding Trap Representation, it is essentially any value that is outside the restricted domain of the allowable values pertaining to the underlying formal definition. A hopefully non-confusing example follows. :

``````enum FooBar { foo=0, bar=1 };
enum FooBar fb = (enum FooBar)2;
``````

In general it is any bit pattern that falls within the space allowed by the underlying storage representation (in enums that is likely an `int`) but is NOT considered a valid "value" for the restricted domain of its formal definition. An outstanding description on trap representations and their roots can be found at this answer. The above is just a representative of what a very simple known-invalid representation may appear as. In reality it is practiced in hardware for detection of values that trigger invalid-state. I think of them as "panic" values. Again, the above code is solely idealistic in demonstrating the concept of a "value" this is not "valid", but is, in fact, known.

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It means can we say it garbage value ? –  Omkant Nov 16 '12 at 20:12
We can say we don't have a clue what it is. –  WhozCraig Nov 16 '12 at 20:13
@WhozCraig: one more thing,give answer about trap representation.. I haven't read anything about trap in `C ` –  Omkant Nov 16 '12 at 20:14
@Omkant amended for discussion of trap-representation. I hope it makes sense. –  WhozCraig Nov 16 '12 at 20:46
It's implementation-defined whether or not `int` has any trap representations. If it doesn't (and I've never actually used an implementation that did have trap values of `int`), then it is not undefined behavior to read an indeterminate value: you know that it's not a trap value, so it's a valid value of the type `int`, it's just unspecified which one. In C++, by contrast, it's explicitly UB to read any uninitialized value. In both C and C++ it's UB to read a trap representation. –  Steve Jessop Nov 16 '12 at 21:54