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HP C

HP C
User's Guide for OpenVMS Systems


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A.1.2 Comment Processing

VAX C treats a comment in a macro definition as if the comment were replaced with no characters. This allows comments to paste tokens together, as in the following example:


#define PASTE(X) X/*  */1 
int PASTE(VAR); 

This example declares the variable VAR1 . Standard C requires that comments be treated as if they were replaced by a single space. In HP C, therefore, comments cannot be used to concatenate tokens when /STANDARD=ANSI89 or /STANDARD=RELAXED is specified. (The new operator ## is provided to allow token concatenation in macros.)

HP C for OpenVMS Systems continues to replace comments with no characters when /STANDARD=VAXC or /STANDARD=COMMON is specified; and /WARN=ENABLE=CHECK provides a diagnostic to flag comments that are used to concatenate tokens.

For /STANDARD=COMMON and /STANDARD=RELAXED, C++ style comments (//) are supported.

A.1.3 String Literal Concatenation

HP C introduces a new ANSI-conforming feature that allows convenient continuation of string literals. If string literals are separated only by white space, the string literals are concatenated to form one string literal. For example:


fputs("This is really " 
   "one string literal", stderr); 

String literal concatenation works for both normal string literals and wide string literals.

A.1.4 Recursive main() Function

In VAX C, main , or any function using the VAX C main_program option, is not recursively reentrant.

As required by standard C, the main function in HP C can now be called recursively.

A.1.5 Trigraph Sequences

Standard C defines an additional representation of some of the special characters in the C language source abstract character set. These additional representations are sequences of three characters called trigraphs. Table A-1 lists the trigraphs and the character each is mapped to.

Table A-1 Trigraphs
Trigraph Replacement
??= #
??( [
??/ \
??) ]
??' ^
??< {
??! |
??> }
??- ~

Conceptually, every trigraph is removed from the file and its replacement is substituted. Each ? that does not begin one of the trigraphs is not changed. Trigraph processing occurs before tokenization takes place. Thus, even trigraphs in string constants have their replacements substituted.

Trigraph support has the potential to change the meaning of existing C code that unintentionally contains a trigraph in a string literal. However, since such conflicts will be quite rare, there is no facility for disabling trigraph support.

Trigraph support is available in strict and relaxed mode.

A.1.6 Alert Escape Sequence

As specified by standard C, HP C defines a new escape sequence for the alert character. The escape sequence \a represents the ASCII BEL (Ctrl/G) character.

A.1.7 Hexadecimal Escape Sequence

VAX C limits hexadecimal escape sequences to at most 3 hex digits, but standard C allows an unlimited number of digits. HP C removes the limit imposed by VAX C.

This can cause some programs to behave differently. The string "\x0012" is currently interpreted by VAX C as a string with two characters in it: a Ctrl/A followed by the character "2". Under standard C rules, the string consists of a single character whose character code is hexadecimal 12 (Ctrl/R). However, this problem is unlikely to occur in practice.

A.1.8 Invalid Escape Sequences

HP C issues a warning message if it encounters an invalid escape sequence. VAX C did not diagnose such usage.

A.1.9 $ in Macro Names

The dollar sign ($) is not an element of the minimum basic character set allowed by the C standard. By a systemwide convention, the dollar sign identifies HP reserved identifiers. HP C for OpenVMS Systems supplies header files containing many macros with dollar signs in their names, and the VAX C compiler predefines some macros with dollar signs in their names. In strict ANSI C mode, such macros trigger a warning.

A.1.10 Null Arguments to Macros

In HP C, null arguments to a macro produce a BUGCHECK. VAX C allowed macro arguments to be null.

A.1.11 Standard C Name Space Conformance

Standard C strictly controls the name space of C programs, and prohibits compilers or their standard-specified header files from intruding on the name space reserved for user programs. Specifically, the C Standard requires that compiler extensions begin with an underscore followed by an uppercase letter or another underscore.

This affects VAX C extensions involving additional keywords and predefined macros. It also affects the freedom of HP C to add additional macros, variables, and functions to the standard-specified header files, such as <stdio.h> .

The following sections describe how HP C solves the reserved name space problem for extensions involving keywords, predefined macros, and header file contents.

A.1.11.1 Nonstandard Keywords

VAX C has several keywords that intrude into the user name space. The HP C compiler in strict ANSI C mode (/STANDARD=ANSI89) does not recognize keywords that are VAX C-specific extensions to the language. They are recognized instead as identifier names. As a result, programs that use these extensions as keywords cannot be compiled in strict ANSI C mode without eliciting syntax errors.

Similarly, the HP C compiler in VAX C mode and relaxed ANSI C mode does recognize keywords that are VAX C-specific extensions to the language. Therefore, programs that use these names as identifiers cannot be compiled in VAX C or relaxed mode without eliciting syntax errors. In relaxed mode, the compiler generates a warning for these keywords. When the /STANDARD=ANSI89 qualifier is used, the compiler strictly follows the ANSI C rules about the name space, and does not recognize the old spellings as keywords.

Table A-2 shows the traditional spelling and the new spelling of the keywords affected, as well as their corresponding standard-conforming pragmas.

Table A-2 Nonstandard Keywords
Keyword Corresponding Standard-Conforming Pragma
globaldef #pragma extern_model
globalref #pragma extern_model
globalvalue #pragma extern_model
noshare #pragma extern_model
readonly #pragma extern_model

A.1.11.2 Nonstandard Predefined Macros

Alternate spellings that follow standard C rules are added to HP C for all VAX C predefined macros. For compatibility, both the old spellings of the predefined macros and the new spellings are recognized by the compiler. However, when the /STANDARD=ANSI89 qualifier is used, the compiler strictly follows the C standard's rules about the name space, and does not recognize the old spellings as predefined macros. You are encouraged to use the new standard C conformant spelling of the macros.

Table A-3 shows the traditional spelling and the new spelling of the predefined macros affected

Table A-3 New and Traditional Spellings of Macros
Traditional Spelling New Spelling
vax __ vax
vax11c __ vax11c
vaxc __ vaxc
VAX __ VAX
VAX11C __ VAX11C
VAXC __ VAXC
vms __ vms
VMS __ VMS
vms_version __ vms_version
VMS_VERSION __ VMS_VERSION

A.1.11.3 Nonstandard Identifiers in Standard-Specified Header Files

The C standard specifies exactly what identifiers in the normal name space are declared by the standard header files. A compiler is not free to declare additional identifiers in a header file unless the identifiers follow defined rules (the identifier must begin with an underscore followed by an uppercase letter or another underscore).

When running the HP C compiler on OpenVMS systems in strict ANSI C mode (/STANDARD=ANSI89), versions of the standard header files are included that hide many identifiers that do not follow the rules. The <stdio.h> header file, for example, hides the definition of the macro TRUE . The compiler accomplishes this by predefining the macro __ HIDE_FORBIDDEN_NAMES in strict ANSI C mode.

You can use the command-line qualifier /UNDEFINE="__HIDE_FORBIDDEN_NAMES" to prevent the compiler from predefining this macro, thus including macro definitions of the forbidden names.

The header files are modified to only define additional VAX C names if __ HIDE_FORBIDDEN_NAMES is undefined. For example, <stdio.h> might contain the following:


#ifndef __HIDE_FORBIDDEN_NAMES 
#define TRUE    1 
#endif 

A.1.12 HP C Predefined Macros

HP C for OpenVMS Systems supports the following new system-identification macros:

__ DECC
__ alpha
__ ALPHA
__ Alpha_AXP
__ 32BITS
__ mia
__ STDC __

A.1.13 HP C Types

The following sections describe changes to the data types supported by HP C.

A.1.13.1 signed Reserved Word

HP C supports the new reserved word signed to complement unsigned . The signed keyword may be used with the char , short , int , and long keywords to specify the types signed char , signed short , signed int , and signed long . (These types are already supported by VAX C.) The signed keyword can also be used when declaring bit fields to specify explicitly that the bit field is signed.

Standard C specifies that signed short , signed int , and signed long are the same types as short , int , and long , respectively. However, signed char is not the same type as char , even though HP C uses the same representation for both of them. This does not affect normal mixing of the two types, but it does mean that in HP C a pointer to signed char is not compatible with a pointer to char . Note that programs that previously used signed as an identifier will now be in error, even in VAX C mode. The /[NO]UNSIGNED_CHAR qualifier can be used to specify whether char is signed or unsigned.

A.1.13.2 Removal of the long float Type

In VAX C, long float is a synonym for double . Since the C Standard retires the long float specification, HP C in strict ANSI C mode diagnoses any use of long float as an error. The long float type is still accepted as a synonym for double in VAX C mode, but it elicits a warning diagnostic to the effect that this is an obsolete usage.

A.1.13.3 Addition of the long double Type

On OpenVMS VAX systems, HP C maps the standard C defined long double type to the G_floating or D_floating format, depending on the /FLOAT (or /[NO]G_FLOAT) qualifier used. (VAX ONLY)

On OpenVMS Alpha systems, the long double type defaults to X_floating (/L_DOUBLE_SIZE=128). If /L_DOUBLE_SIZE=64 is specified, the long double type is mapped to G_floating, D_floating, or T-floating, depending on the /FLOAT (or /[NO]G_FLOAT) qualifier used. (ALPHA ONLY)

The <float.h> header file is modified to define the appropriate values to describe the characteristics of this new data type.

A.1.13.4 Addition of Processor-Specific Integer Data Types

HP C for OpenVMS Systems supports the following processor-specific integer data types:

  • __int16
  • __int32
  • __int64 (ALPHA ONLY)

These data types are intended for applications that need integer data types of a specific size across platforms that support the data type.

The <ints.h> header file contains typedef s for the signed and unsigned variations of these integer data types. For increased portability, use these typedef s rather than using the built-in data types directly.

Note that the 64-bit integer types are available on OpenVMS Alpha systems but not on OpenVMS VAX systems.

The contents of <ints.h> are:


#ifndef __INTS_LOADED 
#define __INTS_LOADED 1 
/**************************************************************************** 
** 
**  <ints.h> - Definitions for platform specific integer types 
** 
***************************************************************************** 
**  Header is nonstandard 
***************************************************************************** 
 
#pragma __nostandard 
 
/* 
**  Ensure that the compiler will not emit diagnostics about "signed" 
**  keyword usage when in /STAND=VAXC mode (the reason for the diagnostics 
**  is that VAX C does not support the signed keyword). 
*/ 
#if ((__DECC_VER >= 50600000) && !defined(__DECCXX)) 
#   pragma __message __save 
#   pragma __message __disable (__SIGNEDKNOWN) 
    typedef   signed char  int8; 
    typedef unsigned char uint8; 
#   pragma __message __restore 
#else 
    typedef   signed char  int8; 
    typedef unsigned char uint8; 
#endif 
 
/* 
**  Define 16 and 32 bit integer types 
*/ 
#if defined(__DECC) || (defined(__DECCXX) && defined(__ALPHA)) 
    typedef          __int16 int16; 
    typedef unsigned __int16 uint16; 
    typedef          __int32 int32; 
    typedef unsigned __int32 uint32; 
#else 
    typedef          short int int16; 
    typedef unsigned short int uint16; 
    typedef          int int32; 
    typedef unsigned int uint32; 
#endif 
 
/* 
**  Define 64 bit integer types only on Alpha 
*/ 
#ifdef __ALPHA 
    typedef          __int64 int64; 
    typedef unsigned __int64 uint64; 
#endif 
 
#pragma __standard 
#endif /* __INTS_LOADED */ 

A.1.14 Type Compatibility

HP C for OpenVMS Systems in strict and relaxed mode uses different rules than HP C in VAX C mode to determine if two types are identical:

  • VAX C mode treats int and long as exactly the same type. ANSI C mode differentiates between int and long even if both types use the same underlying representation.
  • VAX C mode treats char and signed char as exactly the same type. ANSI C mode differentiates between char and signed char , even though the same underlying representation is used for both types.
  • VAX C mode treats two structure or union types as the same type if they have the same size in bytes. In ANSI C mode, a structure or union type is compatible only with itself.
  • VAX C mode, by default, treats all pointer types as if they were compatible. ANSI C mode defines two pointer types as being compatible only if they are identically qualified pointers to compatible types.

These rules cause the strict and relaxed modes to be much more strict than VAX C mode about type checking.

A.1.15 Composite Types

As required by the C standard, HP C merges type information from two declarations of the same object in the same scope. The declarations are required to be type-compatible and the linkage of the declarations must be such that multiple declarations in the same scope are allowed.

The composite type (the merged type) can be formed only from array or function types. Array types can have their array bounds specified, and function types can have their arguments specified.

For example, consider the following two declarations in the same scope:


extern int f(int (*)(), double (*)[3]); 
extern int f(int (*)(char *), double (*)[]); 

The resulting type for f is:


extern int f(int (*)(char *), double (*)[3]); 

The VAX C compiler did not support composite types, although it might have appeared to do so. For example, in VAX C, what appears to be a second declaration of a composite function type, is actually a redeclaration of the function. This might have an effect on the compilation. For example, if the first declaration has ellipses and the second declaration does not, a composite type cannot be formed (not allowed by the C Standard). However, a redeclaration is done.

Since the composite type feature of the C standard is important even to those programming in VAX C mode, it is supported in VAX C mode. Therefore, it is possible to encounter declaration combinations that compile under VAX C but not under HP C in VAX C mode.

A.1.16 Enumerations Have Type int

For type-checking purposes, VAX C previously considered enumeration types to be distinct from each other, and from the integer types, even though enumeration constants and variables have always been usable as ordinary integers. Since the VAX C model of enumerations was overly restrictive even from the strong typing point of view, and since such checking is not common in modern C, HP C does not treat enumerations as a special type.

A.1.17 long double Constants

As specified by standard C, HP C floating-point constants suffixed by l or L have type long double . (Currently, VAX C gives such constants type double ).

A.1.18 Implicit Unsigned Integer Constants

A.1.18.1 OpenVMS VAX Systems

The type of an unsuffixed decimal integer constant is the first type in the following list that can represent its value: int , long int , or unsigned long int . (VAX ONLY)

The type of an unsuffixed octal or hex constant is the first type in the following list that can represent its value: int , unsigned int , long int , or unsigned long int . (VAX ONLY)


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