Solaris 64-bit Developer's Guide

<inttypes.h> File

The include file <inttypes.h> was added to the Solaris 2.6 release to provide constants, macros, and derived types that help programmers make their code compatible with explicitly sized data items, independent of the compilation environment. It contains mechanisms for manipulating 8-bit, 16-bit, 32-bit, and 64-bit objects. The file is part of an ANSI C proposal and tracks the ISO/JTC1/SC22/WG14 C committee's working draft for the revision of the current ISO C standard, ISO/IEC 9899:1990 Programming Language – C.

The basic features provided by <inttypes.h> are:

These are discussed in more detail in the sections that follow.

Fixed-Width Integer Types

The fixed-width integer types provided by <inttypes.h> include both signed and unsigned integer types, such as int8_t, int16_t, int32_t, int64_t, uint8_t, uint16_t, uint32_t, and uint64_t. Derived types defined as the smallest integer types that can hold the specified number of bits include int_least8_t, int_least64_t, uint_least8_t, uint_least64_t.

These fixed-width types should not be used indiscriminately. For example, int can continue to be used for such things as loop counters and file descriptors, and long can be used for array indices. On the other hand, you should use fixed-width types for explicit binary representations of:

uintptr_t and Other Helpful Types

Other useful types provided by <inttypes.h> include signed and unsigned integer types large enough to hold a pointer. These are given as intptr_t and uintptr_t. In addition, intmax_t and uintmax_t are defined to be the longest (in bits) signed and unsigned integer types available.

Using the uintptr_t type as the integral type for pointers is a better option than using a fundamental type such as unsigned long. Even though an unsigned long is the same size as a pointer in both the ILP32 and LP64 data models, the use of the uintptr_t requires only the definition of uintptr_t to change when a different data model is used. This makes it portable to many other systems. It is also a clearer way to express your intentions in C.

The intptr_t and uintptr_t types are extremely useful for casting pointers when you want to do address arithmetic. They should be used instead of long or unsigned long for this purpose.

Note –

Use of uintptr_t for casting is usually safer than intptr_t, especially for comparisons.

Constant Macros

Macros are provided to specify the size and sign of a given constant. The macros are INT8_C(c), ..., INT64_C(c), UINT8_C(c),..., UINT64_C(c). Basically, these macros place an l, ul, ll, or ull at the end of the constant, if necessary. For example, INT64_C(1) appends ll to the constant 1 for ILP32 and an l for LP64.

Macros for making a constant the biggest type are INTMAX_C(c) and UINTMAX_C(c). These macros can be very useful for specifying the type of constants described in Guidelines for Converting to LP64.

Limits Defined by <inttypes.h>

The limits defined by <inttypes.h> are constants specifying the minimum and maximum values of various integer types. This includes minimum and maximum values of each of the fixed-width types, such as INT8_MIN,..., INT64_MIN, INT8_MAX,..., INT64_MAX, and their unsigned counterparts.

The minimum and maximum for each of the least-sized types are given, too. These include INT_LEAST8_MIN,..., INT_LEAST64_MIN, INT_LEAST8_MAX,..., INT_LEAST64_MAX, and their unsigned counterparts.

Finally, the minimum and maximum value of the largest supported integer types are defined. These include INTMAX_MIN and INTMAX_MAX and their corresponding unsigned versions.

Format String Macros

Macros for specifying the printf and scanf format specifiers are also provided in <inttypes.h> . Essentially, these macros prepend the format specifier with an l or ll to specify the argument as a long or long long, given the number of bits in the argument, which is built into the name of the macro.

Macros for printf(3C) format specifiers exist for printing 8-bit, 16-bit, 32-bit, and 64-bit integers, the smallest integer types, and the biggest integer types, in decimal, octal, unsigned, and hexadecimal. For example, printing a 64–bit integer in hexadecimal notation:

int64_t i;
printf("i =%" PRIx64 "\n", i);

Similarly, there are macros for scanf(3C) format specifiers for reading 8-bit, 16-bit, 32-bit, and 64-bit integers and the biggest integer type in decimal, octal, unsigned, and hexadecimal. For example, reading an unsigned 64–bit decimal integer:

uint64_t u;
scanf("%" SCNu64 "\n", &u);

Do not use these macros indiscriminately. They are best used in conjunction with the fixed-width types. Refer to the section Fixed-Width Integer Types for more details.