I have encountered issues in the past multiplying literals by one billion, where the result should be 64-bits but was converted to 32 bits due to the presence of literals.

What is the best (safest & simplest) practice when multiplying numbers which will probably exceed 2^32?

I have this equation:

const uint64_t x = 1'000'000'000 * 60 * 5;

I have opted for:

const uint64_t x = static_cast<uint64_t>(1'000'000'000) * 60 * 5;

Is this how it should be done? Only one of the multiplicands needs to be cast to 64 bits?

  • 2
    Append ULL to one of the literals. – Hans Passant Sep 3 '20 at 14:36
  • Any reason not to use 1000000000ULL? – infixed Sep 3 '20 at 14:37
  • @infixed it's much less readable than 1'000'000'000ULL – phuclv Sep 3 '20 at 15:08

You can use a suffix on the first literal to promote it to the correct size. In this case you can use

const uint64_t x = 1'000'000'000ull * 60 * 5;

to make 1'000'000'000 an unsigned long long which is at least 64 bits wide. This also has the affect of promoting 60 and 5 to be unsigned long long's as well when the multiplication is done.

  • I have a additional question: const uint64_t x{ 1'000'000'000 * 60 * 5}; if number in curly races will exceed uint64, will compilator raise warning or error? In my opinion it can be staticly deduced – Krzysztof Mochocki Sep 3 '20 at 14:42
  • @KrzysztofMochocki using {} ensures that the code won't compile if this value doesn't fit into a uint64_t. – Jan Schultke Sep 3 '20 at 14:42
  • 2
    @KrzysztofMochocki { 1'000'000'000 * 60 * 5} will produce an int as that is the type of all of the operands. This means it will overflow. – NathanOliver Sep 3 '20 at 14:43
  • 2
    @KrzysztofMochocki it will compile, it just most likely not give you what you want. – NathanOliver Sep 3 '20 at 14:44
  • 2
    @KrzysztofMochocki the value of all operands in the curly brackets is int, so the result will also be int. Converting to uint64_t using curly brackets just ensures that this result will fit into whatever type a uint64_t is. This will compile, because regardless of whether the multiplication overflows, the value fits into a 64-bit integer. int is most likely 32-bits if you're using a modern architecture, so this multiplication will probably overflow. The right thing to do is instead uint64_t{1000000000} * 60 * 5. – Jan Schultke Sep 3 '20 at 14:47

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