15,560,678 members
Articles / Programming Languages / C++11
Tip/Trick
Posted 18 Feb 2016

24.7K views
11 bookmarked

# Two's Complement for Unusual Integer Sizes

Rate me:
19 Feb 2016CPOL3 min read
Getting negative numbers from 10-bit (and other unusual size) integers

## Introduction

Negative integers are generally represented as Two's complement in binary. For most programmers, this is nothing they have to worry about, as it's handled automatically, including the conversion when assigning to a larger type. But when you work with integers of unusual length - like 5, 7 or 10 bits - you have to handle the negative representation yourself. This tip gives you a generic function to do just that.

## Background

A signed 8-bit integer with the decimal value `-2` is stored as the binary `11111110`, or `0xfe`. When this is assigned to a 16-bit integer, the value stored is not `0x00fe`, but `0xfffe`, which preserves the two's complement representation. In contrast, when you assign `0xfe` to an unsigned 16-bit integer, it stores `0x00fe`, since unsigned types do not adjust for two's complement.

However, when working with custom hardware or writing device drivers, you occasionally come across non-standard integer lengths, since register space can be limited. I recently had to cope with both 6-bit and 10-bit signed integers. When I read those, I stored them as an 8-bit and 16-bit integer, respectively, which messed up negative numbers. A 10-bit integer storing `-1` in two's complement will contain `0x3ff`, but a 16-bit integer containing `0x03ff` is taken to represent `1023` in decimal. It should be `0xffff`, which is 16-bit two's complement for `-1`.

I needed a conversion function to make sure negative numbers were represented accurately.

ETA: Philippe Mori reminded me of bit fields, which handles this for you (provided your data fits in an `int`), so I have written a little template class (because bit fields must be members) to give a third option.

## The Function

C++
```#include <cstdint>
#include <stdexcept>

int16_t UpscaleTwosComplement(int16_t value, size_t length)
{
// Too large?
if (length > 15)
{
throw std::out_of_range("UpscaleTwosComplement length too large");
}
uint16_t mask = (~0) << length;
// Too small for complement?
if (length < 2)
{
return (~mask & value);
}
// Two's complement?
uint16_t msb = 1 << (length-1);
if (value & msb)
{
return (mask | value);
}
else
{
return (~mask & value);
}
}```

After basic sanity-checking, it checks the most significant bit of `value` to see if it is a negative number. If it is, all the higher bits in the result are set to `1`, which preserves the representation. If it isn't, all higher bits are filtered out.

C++
```...
// 10-bit sensor value, 2's complement
int16_t registerTemp;
...
int16_t temp = UpscaleTwosComplement(registerTemp, 10);
// registerTemp temp
//   -1 (0x3ff)    -1 (0xffffffff)
//   10 (0x00a)    10 (0x0000000a)
//  -10 (0x3f6)   -10 (0xfffffff6)```

I also wrote a templated version, for more control of the target type, and slightly fewer runtime operations:

C++
```template<typename Target, size_t Length>
Target UpscaleTwosComplement(Target value)
{
// Template type sanity checks (C++11 and later)
static_assert(sizeof(Target) * 8 > Length, "Length too large for Target");
static_assert(Length > 1, "Too short for two's complement");
Target mask = (~0) << Length;
// Two's complement?
Target msb = 1 << (Length-1);
if (value & msb)
{
return (mask | value);
}
else
{
return (~mask & value);
}
}```

## Bit Fields

I was reminded of bit fields, which is a mechanism in C and C++ to let you work on non-standard length integers. I cannot use them directly in my project, because of the way the hardware library is constructed, but you might be able to.

I can, however, use bitfields to do the conversion, so I have written the code to do that below as an alternative to my homespun conversions above. There are two limitations you need to be aware of, though. The first is that bit fields must be data members, of a struct or `class`. The second is that if you assign a bit field a value outside its range, the value it holds depends on the compiler implementation. For instance, a 10-bit signed bit field has a range of `-512` (`0x200`) to `511` (`0x1ff`), but if it is assigned a 16-bit value of `512` (`0x0200`) will yield `-512` in VC2008, and probably most compilers, but it is not guaranteed every compiler does the same thing - it is perfectly legal for a compiler to discard the sign bit, so you end up with `0`, for instance. Check it works as you'd expect on your compiler before using it.

C++
```template <typename Target, size_t Length>
class TwosComplementUpscaler
{
Target bitfield : Length;
// Private constructors
TwosComplementUpscaler(Target value)
: bitfield(value)
{}
TwosComplementUpscaler();
public:

static Target Convert(Target value)
{
// Template type sanity checks (C++11 and later)
static_assert(sizeof(Target) * 8 > Length, "Length too large for Target");
static_assert(Length > 1, "Too short for two's complement");

Target mask = (~0) << Length;
TwosComplementUpscaler temp(value & ~mask);
return static_cast<Target>(temp.bitfield);
}
}; ```

You use it as a stand-alone template function:

C++
```int16_t tt = TwosComplementUpscaler<int16_t, 10>::Convert(0x3ff); // = -1
tt = TwosComplementUpscaler<int16_t, 10>::Convert(0x1ff); // = 511
tt = TwosComplementUpscaler<int16_t, 10>::Convert(0x200); // = -512```

## History

• 18th Feb, 2016 - First posted
• 19th Feb, 2016 - Updates after comments. Added section on bit fields and code for that, changed `UpscaleTwosComplement` to use size-specified types, and check length

Written By
Software Developer (Senior)
Sweden
Orjan has worked as a professional developer - in Sweden and England - since 1993, using a range of languages (C++, Pascal, Delphi, C, C#, Visual Basic, Python and assemblers), but tends to return to C++.

## Comments and Discussions

 First Prev Next
 minor points bling19-Feb-16 12:20 bling 19-Feb-16 12:20
 Re: minor points Orjan Westin21-Feb-16 23:25 Orjan Westin 21-Feb-16 23:25
 Would not bit field handle that correctly? Philippe Mori18-Feb-16 16:47 Philippe Mori 18-Feb-16 16:47
 Re: Would not bit field handle that correctly? Orjan Westin18-Feb-16 23:58 Orjan Westin 18-Feb-16 23:58
 Re: Would not bit field handle that correctly? Andreas Gieriet19-Feb-16 3:02 Andreas Gieriet 19-Feb-16 3:02
 Re: Would not bit field handle that correctly? Orjan Westin19-Feb-16 3:37 Orjan Westin 19-Feb-16 3:37
 Re: Would not bit field handle that correctly? Andreas Gieriet19-Feb-16 4:23 Andreas Gieriet 19-Feb-16 4:23
 Re: Would not bit field handle that correctly? Philippe Mori22-Feb-16 7:12 Philippe Mori 22-Feb-16 7:12
 Re: Would not bit field handle that correctly? Orjan Westin23-Feb-16 0:59 Orjan Westin 23-Feb-16 0:59
 Some thoughts with respect to programming close to the hardware... Andreas Gieriet18-Feb-16 9:28 Andreas Gieriet 18-Feb-16 9:28
 Re: Some thoughts with respect to programming close to the hardware... Orjan Westin19-Feb-16 0:36 Orjan Westin 19-Feb-16 0:36
 Re: Some thoughts with respect to programming close to the hardware... Andreas Gieriet19-Feb-16 2:53 Andreas Gieriet 19-Feb-16 2:53
 Re: Some thoughts with respect to programming close to the hardware... Orjan Westin19-Feb-16 4:09 Orjan Westin 19-Feb-16 4:09
 Last Visit: 31-Dec-99 19:00     Last Update: 30-Jan-23 4:36 Refresh 1

General    News    Suggestion    Question    Bug    Answer    Joke    Praise    Rant    Admin

Use Ctrl+Left/Right to switch messages, Ctrl+Up/Down to switch threads, Ctrl+Shift+Left/Right to switch pages.