To add something to what Mysticial wrote (that is correct): your implementation of C uses `float`

that are 32 bits IEEE 754 single precision binary floating-point and `int`

that are 32 bits. In "your" `int`

you can have 31 bits of number and 1 bit of sign. In "your" float the `mantissa`

is 24 bits and there is 1 bit of sign. Clearly `int`

s that need more than 24 bits plus sign to be represented can't be converted exactly to "your" `float`

. (I use the "your" to represent "your" compiler, the compiler you are using. The C standard doesn't tell the exact length of `float`

or `int`

).

Now, the `rand()`

can generate any `int`

number, so the compiler has to give you the warning. The `100`

is a numeric literal that is known at compile time, so the compiler can statically check if that number is convertible.

(even without explaining exactly how floating points work, your `int`

is 32 bits and "supports" only integer numbers. Your `float`

is 32 bits and "supports" floating point numbers. Clearly floating point numbers are more difficult to represent (you have to save somewhere where the decimal point is), so there must be a "price" you pay if both `int`

and `float`

have the same length. The price is precision.)

To respond to the comment you made, the maximum number you can represent exactly in a `float`

that is "contiguous" to 0 (so that 0...number are all exactly representable) are 16777215 (that has mantissa = 16777215 and exponent = 0) and 16777216 (that has mantissa = 1 and exponent = 24, because it's 1 * 2 ^ 24). 16777217 isn't representable exactly. 16777218 is.

`-Wconversion`

option. – Keith Thompson Oct 12 '11 at 7:14