A friend of mine asked me this question earlier, but I found myself clutching at straws trying to give him an adequate explanation.
If you assign a value of any numeric type (integer, floating-point) to an object of another numeric type, the value is implicitly converted to the target type. The same thing happens in an initialization or when passing an argument to a function.
The rules for how the conversion is done vary with what kind of types you're using.
If the target type can represent the value exactly:
there may be a change in representation, but the mathematical value is unchanged.
If a floating-point type is converted to an integer type, and the value can't be represented, it's truncated, as @sashang's answer says -- but if the truncated value can't be represented, the behavior is undefined.
Conversion of an integer (either signed or unsigned) to an unsigned type causes the value to be reduced modulo
Conversion of an integer to a signed type, if the value won't fit, is implementation-defined. It typically wraps around in a manner similar to what happens with unsigned types, but the language doesn't guarantee that.
A float or a double will be truncated. So 2.99 will become 2 and -2.99 will become -2.
The pertinent section from the standard (section 4.9)
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