# how do i simulate signed 32bit integer in lua

In Java, when I do following left shift operation, I get a negative result due to integer / long overflow: 0xAAAAAAAA << 7 gives me -183251938048

But, In Lua since everything is a Lua number which is 52 bit float; I am not able to trigger overflow upon left shift: bit_lshift(0xAAAAAAAA,7) gives me 1431655680

How do I simulate 32bit signed integer in Lua??

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You write some C functions that handle this and then export them to Lua.

Though generally, Lua code shouldn't be touching things this low-level.

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I am working in an Lua env. with limited control as in I cannot use external C libraries. I am looking for a pure Lua implementation. –  rohit Apr 26 '12 at 18:31
@rohit: Then you'll have to write it yourself. In general, pure-Lua implementations of low-level concepts like this don't exist. –  Nicol Bolas Apr 26 '12 at 18:46
Though of course, if you do write it, share it; then there will be a pure Lua implementation... :] (and a pure-Lua workalike bit32 library would be kinda useful for such situations) –  snogglethorpe Apr 26 '12 at 21:48

You are looking for bit manipulating libraries in Lua. One such library is bitop from the author of LuaJIT, which directly contains it without the need for installation. You can also install it in standard Lua.

Another library is the bit32 library, which is contained in Lua 5.2.

Both libraries let you manipulate 32-bit numbers. For example with bitop:

local bit = require 'bit
print(bit.lshift(0xAAAAAAAA, 7)) --> 1431655680


I do not know how you got the negative number, since 1431655680 is what I get by doing (0xAAAAAAAA<<7)&0xFFFFFFFF in C (and also doing that in a "programming calculator").

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Your shift operation gives you a positive number because you're dealing with unsigned integers. He specifically wants certain behavior for signed integers. Why, I have no idea; generally, people try to avoid bitshifts on signed integers. –  Nicol Bolas Apr 26 '12 at 18:43
That is strange, because the bitop semantics page specifically states that " all operations are based on 32 bit integers" and "All bit operations are defined to return results in the range of signed 32 bit numbers" –  Michal Kottman Apr 26 '12 at 19:16
It might also be because he's comparing it to Java, which may have funky, non-C rules about how shifting signed integers works. –  Nicol Bolas Apr 26 '12 at 19:21
I guess the (indeed weird) Java result came about because it (1) interpreted the input 0xaaaaaaaa as a signed 32-bit integer, but (2) did the actual shifting on a 64-bit sign-extended version of the input... : –  snogglethorpe Apr 26 '12 at 21:53
One confusing thing is that the different Lua bit libraries use different conventions... older Lua bit libs seem to sign-extend the results when converting back into numbers, but bit32 makes everything unsigned (which seems a bit more sensible to me). –  snogglethorpe Apr 26 '12 at 21:55