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Integer conversions, including implicit and explicit (using a cast), must be guaranteed not to result in lost or misinterpreted data. The only integer type conversions that are guaranteed to be safe for all data values and all possible conforming implementations are conversions of an integral value to a wider type of the same signedness. From C99 Section 6.3.1.3 :says
When a value with integer type is converted to another integer type other than
_Bool
, if the value can be represented by the new type, it is unchanged.Otherwise, if the new type is unsigned, the value is converted by repeatedly adding or subtracting one more than the maximum value that can be represented in the new type until the value is in the range of the new type.
Otherwise, the new type is signed and the value cannot be represented in it; either the result is implementation-defined or an implementation-defined signal is raised.
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C99 defines minimum ranges for standard integer types. For example, the minimum range for an object of type unsigned short int
is 0 -to 65,535, while the minimum range for int is -32,767 to +32,767. This means that it is not always possible to represent all possible values of an unsigned short int
as an int
. However, on the IA-32 architecture, for example, the actual integer range is from -2,147,483,648 to +2,147,483,647, meaning that is quite possible to represent all the values of an unsigned short int
as an int
on this platform. As a result, it is not necessary to provide a test for this conversion on IA-32. It is not possible to make assumptions about conversions without knowing the precision of the underlying types. If these tests are not provided, assumptions concerning precision must be clearly documented, as the resulting code cannot be safely ported to a system where these assumptions are invalid.
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Coverity Prevent. The Coverity Prevent NEGATIVE_RETURNS and REVERSE_NEGATIVE checkers can both find violations of this rule. The NEGATIVE_RETURNS checker can find array accesses, loop bounds, and other expressions which that may contain dangerous implied integer conversions that would result in unexpected behavior. The REVERSE_NEGATIVE checker can find instances where a negativity check occurs after the negative value has been used for something else. Coverity Prevent cannot discover all violations of this rule, so further verification is necessary.
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