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As per C99, there maybe padding bits in signed int or unsigned int representation . So I wonder are there still any implementations having such outdated things?

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  • You might want to produce an example and related sections in C99 standard (latest draft might be OK) – Yann Droneaud Jan 2 '13 at 10:23
  • @ydroneaud: See section 6.2.6.2: "For unsigned integer types other than unsigned char, the bits of the object representation shall be divided into two groups: value bits and padding bits", similarly for signed. – Oliver Charlesworth Jan 2 '13 at 11:48
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Quoting the C99 rationale (PDF) section 6.2.6.2 §20:

Padding bits are user-accessible in an unsigned integer type. For example, suppose a machine uses a pair of 16-bit shorts (each with its own sign bit) to make up a 32-bit int and the sign bit of the lower short is ignored when used in this 32-bit int. Then, as a 32-bit signed int, there is a padding bit (in the middle of the 32 bits) that is ignored in determining the value 20 of the 32-bit signed int. But, if this 32-bit item is treated as a 32-bit unsigned int, then that padding bit is visible to the user’s program. The C committee was told that there is a machine that works this way, and that is one reason that padding bits were added to C99.

So such things at least did exist.

As for weird architectures still around today, the go-to example is the UNIVAC 1100/2200 series with its weird data formats.

While it does not use integer padding, a look at their C compiler manual (PDF) is still instructive:

Table 4–4. Size and Range of Unsigned Integer Types

Type                 Size        Range
unsigned short int   18 bits     0 to (2^18)–1
unsigned short

unsigned int         36 bits     0 to (2^36)–2 (see the following note)
unsigned

unsigned long int    36 bits     0 to (2^36)–2 (see the following note)
unsigned long

The second volume (PDF) explains how the CONFORMANCE/TWOSARITH compiler keyword can be used to control interpretation of negative zero: this adjusts the range of the unsigned integer types to the expected (2^36)-1 but comes with a performance penalty on unsigned arithmetics.

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    Giving unsigned int a range of 0 to 2^36-2 is actually non-conforming. If it uses all 36 bits of a 36-bit word as value bits, then it has to be able to represent all 2^36 distinct values. – Keith Thompson Oct 23 '15 at 23:59
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From The New C Standard:

On some Cray processors the type short has 32 bits of precision but is held in 64 bits worth of storage. The Unisys A Series unsigned integer type contains a padding bit that is treated as a sign bit in the signed integer representation.

...

The Harris/6 computer represented the type long using two consecutive int types. This meant that the sign bit of one of the ints had to be ignored; it was treated as a padding bit. The value representation of the type int is 24 bits wide, and long had a value representation of 47 bits with one padding bit.

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    +1: nice to finally get a name for the 'machine that works this way' – Christoph Jan 2 '13 at 12:12
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The MSP430X architecture (an architecture for microcontrollers from Texas Instruments) is a 16 bit architecture (MSP430) expanded to a 20 bit address space with 20 bit registers. The architecture is still byte-addressed with one byte having eight bits. Instructions can generally operate on quantities of 8, 16, and 20 bits.

On this architecture, a compiler might choose to make int a 20 bit type. Since 20 is not a multiple of 8, 4 or 12 bits of padding have to be added when storing this type in memory.

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  • Nice example, thanks. Incidentally, the GCC port for the MSP430(X) uses "20-bit pointers, 32-bit size_t" ( gcc.gnu.org/onlinedocs/gcc/MSP430-Options.html#MSP430-Options ). – sleske Oct 23 '15 at 22:53
  • @sleske Recently a patch was committed that adds a 20 bit uint20_t and uses that type for size_t and uintptr_t. I don't think there has been a stable release with that patch yet though. – fuz Oct 24 '15 at 2:02

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