I want to use lua (that internally uses only doubles) to represent a integer that can't have rounding errors between 0 and 2^641 or terrible things will happen.
Is it possible to do so?
I want to use lua (that internally uses only doubles) to represent a integer that can't have rounding errors between 0 and 2^641 or terrible things will happen. Is it possible to do so? 


No At least some bits of a 64bit double must be used to represent the exponent (position of the binary point), and hence there are fewer than 64bits available for the actual number. So no, a 64bit double can't represent all the values a 64bit integer can (and viceversa). 


Even though you've gotten some good answers to your question about 64bit types, you may still want a practical solution to your specific problem. The most reliable solution I know of is to build Lua 5.1 with the LNUM patch (also known as the Lua integer patch) which can be downloaded from LuaForge. If you aren't planning on building Lua from the C source, there is at least one pure Lua library that handles 64bit signed integers  see the Luausers wiki. 


The double is a 64bit type itself. However you lose 1 bit for the sign and 11 for the exponent. So the answer is no: it can't be done. 


From memory, a 


No, you cannot use Double to store 64bit integers without losing precision. However, you can apply a Lua patch that adds support for true 64bit integers to the Lua interpreter. Apply the LNUM patch to your Lua source and recompile. 


On 64 bits you can only store 2^64 different codes. This means that a 64bit type which can represent 2^64 integers doesn't have any place for representing something else, such as floating point numbers. Obviously double can represent a lot of nonintegers numbers, so it can't fit your requirements. 


IEEE 754 double cannot represent 64bit integers exactly. It can, however, represent exactly every 32bit integer value. 


i know nothing about lua 

