HP C
Run-Time Library Reference Manual for
OpenVMS Systems
1.3.4 Extended File Specifications
The ODS-5 volume structure provides enhanced support for mixed UNIX and
OpenVMS style filenames. It supports long filenames, allows the use of
a wider range of characters within filenames, and preserves case within
filenames. With OpenVMS Alpha Version 7.3-1, the C RTL has greatly
improved support of ODS-5 characters, with 250 of the 256 characters
supported, as opposed to only 214 supported previously. Also, filenames
without file types can now be accessed.
To enable the new support, you must define one or more C RTL feature
logical names. These names include the following:
DECC$EFS_CHARSET
DECC$DISABLE_TO_VMS_LOGNAME_TRANSLATION
DECC$FILENAME_UNIX_NO_VERSION
DECC$FILENAME_UNIX_REPORT
DECC$READDIR_DROPDOTNOTYPE
DECC$RENAME_NO_INHERIT
See Section 1.5 for more information on these and other feature
logical names.
1.3.5 Symbolic Links and POSIX Pathnames
OpenVMS provides support for Open Group compliant symbolic links and
POSIX pathname processing. See Chapter 12 for more information.
1.4 Feature-Test Macros for Header-File Control
Feature-test macros provide a means for writing portable programs. They
ensure that the HP C RTL symbolic names used by a program do
not clash with the symbolic names supplied by the implementation.
The HP C RTL header files are coded to support the use of a
number of feature-test macros. When an application defines a
feature-test macro, the HP C RTL header files supply the
symbols and prototypes defined by that feature-test macro and nothing
else. If a program does not define such a macro, the HP C RTL
header files define symbols without restriction.
The feature-test macros supported by the HP C RTL fall into
the following broad categories for controlling the visibility of
symbols in header files according to the following:
- Standards
- Multiple-version support
- Compatibility
1.4.1 Standards Macros
The HP C RTL implements parts of the following standards:
- X/Open CAE Specification, System Interfaces and Headers, Issue 4,
Version 2, also known as XPG4 V2.
- X/Open CAE Specification, System Interfaces and Headers, Issue 4,
also known as XPG4.
- Standard for Information Technology - Portable Operating System
Interface (POSIX) - Part 1: System Application Program Interface
(API)---Amendment 2: Threads Extension [C Language], also known as
POSIX 1003.1c-1995 or IEEE 1003.1c-1995.
- ISO/IEC 9945-2:1993 - Information Technology - Portable Operating
System Interface (POSIX) - Part 2: Shell and Utilities, also known as
ISO POSIX-2.
- ISO/IEC 9945-1:1990 - Information Technology - Portable Operating
System Interface (POSIX) - Part 1: System Application Programming
Interface (API) (C Language), also known as ISO POSIX-1.
- ANSI/ISO/IEC 9899:1999 - The C99 standard, published by ISO in
December, 1999 and adopted as an ANSI standard in April, 2000.
- ISO/IEC 9899:1990-1994 - Programming Languages - C, Amendment 1:
Integrity, also known as ISO C, Amendment 1.
- ISO/IEC 9899:1990 - Programming Languages - C, also known as ISO C.
The normative part is the same as X3.159-1989, American National
Standard for Information Systems - Programming Language C, also known
as ANSI C.
1.4.2 Selecting a Standard
You can define a feature-test macro to select each standard. You can do
this either with a
#define
preprocessor directive in your C source before the inclusion of any
header file, or with the /DEFINE qualifier on the CC command line.
Table 1-3 lists and describes the HP C RTL feature-test
macros that control standards support.
Table 1-3 Feature Test Macros - Standards
Macro Name |
Standard Selected |
Other Standards Implied |
Description |
_XOPEN_SOURCE_EXTENDED
|
XPG4 V2
|
XPG4, ISO POSIX-2, ISO POSIX-1, ANSI C
|
Makes visible XPG4-extended features, including traditional UNIX based
interfaces not previously adopted by X/Open.
|
_XOPEN_SOURCE
|
XPG4 (X/Open Issue 4)
|
ISO POSIX-2, ISO POSIX-1, ANSI C
|
Makes visible XPG4 standard symbols and causes _POSIX_C_SOURCE to be
set to 2 if it is not already defined with a value greater than 2.
1
2
|
_XOPEN_SOURCE=500
|
X/Open Issue 5
|
ISO POSIX-2, ISO POSIX-1, ANSI C
|
Makes visible X/Open Issue 5 standard symbols and causes
_POSIX_C_SOURCE to be set to 2 if it is not already defined with a
value greater than 2.
1
2
|
_XOPEN_SOURCE=600
|
X/Open Issue 6
|
ISO POSIX-2, ISO POSIX-1, ANSI C
|
Makes visible X/Open Issue 6 standard symbols and causes
_POSIX_C_SOURCE to be set to 2 if it is not already defined with a
value greater than 2.
1
2
|
_POSIX_C_SOURCE==199506
|
IEEE 1003.1c-1995
|
ISO POSIX-2, ISO POSIX-1, ANSI C
|
Header files defined by ANSI C make visible those symbols required by
IEEE 1003.1c-1995.
|
_POSIX_C_SOURCE==2
|
ISO POSIX-2
|
ISO POSIX-1, ANSI C
|
Header files defined by ANSI C make visible those symbols required by
ISO POSIX-2 plus those required by ISO POSIX-1.
|
_POSIX_C_SOURCE==1
|
ISO POSIX-1
|
ANSI C
|
Header files defined by ANSI C make visible those symbols required by
ISO POSIX-1.
|
__STDC_VERSION__==199409
|
ISO C amdt 1
|
ANSI C
|
Makes ISO C Amendment 1 symbols visible.
|
_ANSI_C_SOURCE
|
ANSI C
|
---
|
Makes ANSI C standard symbols visible.
|
__HIDE_FORBIDDEN_NAMES
|
|
|
When defined to the value 1, causes the C RTL headers that are named in
the C standard to be configured such that they define only those
identifiers that are specified as being defined by those headers under
the version of the C standard in effect for the compilation, unless
additional features are explicitly requested by other configuration
macros (_XOPEN_SOURCE, for example).
The C and C++ compilers will predefine this macro when certain
language standard conformance features are selected, but the user can
override any such predefinition by specifying
/UNDEFINE=__HIDE_FORBIDDEN_NAMES on the command line (or using
#undef
before including any headers). Conversely, the user can explicitly
define the macro before including any headers, regardless of the
language standard selected for the compiler.
|
1Where the ISO C Amendment 1 includes symbols not specified
by XPG4, defining __STDC_VERSION__ == 199409 and _XOPEN_SOURCE (or
_XOPEN_SOURCE_EXTENDED) selects both ISO C and XPG4 APIs. Conflicts
that arise when compiling with both XPG4 and ISO C Amendment 1 resolve
in favor of ISO C Amendment 1.
2Where XPG4 extends the ISO C Amendment 1, defining
_XOPEN_SOURCE or _XOPEN_SOURCE_EXTENDED selects ISO C APIs as well as
the XPG4 extensions available in the header file. This mode of
compilation makes XPG4 extensions visible.
Features not defined by one of the previously named standards are
considered HP C extensions and are selected by not defining
any standards-related, feature-test macros.
If you do not explicitly define feature test macros to control header
file definitions, you implicitly include all defined symbols as well as
HP C extensions.
1.4.3 Interactions with the /STANDARD Qualifier
The /STANDARD qualifier selects the dialect of the C language supported.
With the exception of /STANDARD=ANSI89 and /STANDARD=ISOC94, the
selection of C dialect and the selection of HP C RTL APIs to
use are independent choices. All other values for /STANDARD cause the
entire set of APIs to be available, including extensions.
Specifying /STANDARD=ANSI89 restricts the default API set to the ANSI C
set. In this case, to select a broader set of APIs, you must also
specify the appropriate feature-test macro. To select the ANSI C
dialect and all APIs, including extensions, undefine
__HIDE_FORBIDDEN_NAMES before including any header file.
Compiling with /STANDARD=ISOC94 sets __STDC_VERSION__ to 199409.
Conflicts that arise when compiling with both XPG4 and ISO C Amendment
1 resolve in favor of ISO C Amendment 1. XPG4 extensions to ISO C
Amendment 1 are selected by defining _XOPEN_SOURCE.
The following examples help clarify these rules:
- The
fdopen
function is an ISO POSIX-1 extension to
<stdio.h>
. Therefore,
<stdio.h>
defines
fdopen
only if one or more of the following is true:
- The program including it is not compiled in strict ANSI C mode
(/STANDARD=ANSI89).
- _POSIX_C_SOURCE is defined as 1 or greater.
- _XOPEN_SOURCE is defined.
- _XOPEN_SOURCE_EXTENDED is defined.
- The
popen
function is an ISO POSIX-2 extension to
<stdio.h>
. Therefore,
<stdio.h>
defines
popen
only if one or more of the following is true:
- The program including it is not compiled in strict ANSI C mode
(/STANDARD=ANSI89).
- _POSIX_C_SOURCE is defined as 2 or greater.
- _XOPEN_SOURCE is defined.
- _XOPEN_SOURCE_EXTENDED is defined.
- The
getw
function is an X/Open extension to
<stdio.h>
. Therefore,
<stdio.h>
defines
getw
only if one or more of the following is true:
- The program is not compiled in strict ANSI C mode
(/STANDARD=ANSI89).
- _XOPEN_SOURCE is defined.
- _XOPEN_SOURCE_EXTENDED is defined.
- The X/Open Extended symbolic constants _SC_PAGESIZE, _SC_PAGE_SIZE,
_SC_ATEXIT_MAX, and _SC_IOV_MAX were added to
<unistd.h>
to support the
sysconf
function. However, these constants are not defined by _POSIX_C_SOURCE.
The
<unistd.h>
header file defines these constants only if a program does not define
_POSIX_C_SOURCE and does define _XOPEN_SOURCE_EXTENDED.
If
_POSIX_C_SOURCE is defined, these constants are not visible in
<unistd.h>
. Note that _POSIX_C_SOURCE is defined only for programs compiled in
strict ANSI C mode.
- The
fgetname
function is a HP C RTL extension to
<stdio.h>
. Therefore,
<stdio.h>
defines
fgetname
only if the program is not compiled in strict ANSI C mode
(/STANDARD=ANSI89).
- The macro _PTHREAD_KEYS_MAX is defined by POSIX 1003.1c-1995. This
macro is made visible in
<limits.h>
when compiling for this standard with _POSIX_C_SOURCE == 199506
defined, or by default when compiling without any standards-defining,
feature-test macros.
- The macro WCHAR_MAX defined in
<wchar.h>
is required by ISO C Amendment 1 but not by XPG4. Therefore:
- Compiling for ISO C Amendment 1 makes this symbol visible, but
compiling for XPG4 compliance does not.
- Compiling for both ISO C Amendment 1 and XPG4 makes this symbol
visible.
Similarly, the functions
wcsftime
and
wcstok
in
<wchar.h>
are defined slightly differently by the ISO C Amendment 1 and XPG4:
- Compiling for ISO C Amendment 1 makes the ISO C Amendment 1
prototypes visible.
- Compiling for XPG4 compliance makes the XPG4 prototypes visible.
- Compiling for both ISO C Amendment 1 and XPG4 selects the ISO C
prototypes because conflicts resulting from this mode of compilation
resolve in favor of ISO C.
- Compiling without any standard selecting feature test macros makes
ISO C Amendment 1 features visible.
In this example, compiling with no standard-selecting feature-test
macros makes WCHAR_MAX and the ISO C Amendment 1 prototypes for
wcsftime
and
wcstok
visible.
- The
wcswidth
and
wcwidth
functions are XPG4 extensions to ISO C Amendment 1. Their prototypes
are in
<wchar.h>
.
These symbols are visible if:
- Compiling for XPG4 compliance by defining _XOPEN_SOURCE or
_XOPEN_SOURCE_EXTENDED.
- Compiling for DEC C Version 4.0 compatibility or on pre-OpenVMS
Version 7.0 systems.
- Compiling with no standard-selecting feature-test macros.
- Compiling for both ISO C Amendment 1 and XPG4 compilance because
these symbols are XPG4 extensions to ISO C Amendment 1.
Compiling for strict ISO C Amendment 1 does not make them visible.
1.4.4 Multiple-Version-Support Macro
By default, the header files enable APIs in the HP C RTL
provided by the version of the operating system on which the
compilation occurs. This is accomplished by the predefined setting of
the __VMS_VER macro, as described in the HP C User's Guide for OpenVMS Systems. For example,
compiling on OpenVMS Version 6.2 causes only HP C RTL APIs
from Version 6.2 and earlier to be made available.
Another example of the use of the __VMS_VER macro is support for the
64-bit versions of HP C RTL functions available with OpenVMS
Alpha Version 7.0 and higher. In all header files, functions that
provide 64-bit support are conditionalized so that they are visible
only if __VMS_VER indicates a version of OpenVMS that is greater than
or equal to 7.0.
To target an older version of the operating system, do the following:
- Define a logical DECC$SHR to point to the old version of DECC$SHR.
The compiler uses a table from DECC$SHR to perform routine name
prefixing.
- Define __VMS_VER appropriately, either with the /DEFINE qualifier
or with a combination of the
#undef
and
#define
preprocessor directives. With /DEFINE, you may need to disable the
warning regarding redefinition of a predefined macro.
Targeting a newer version of the operating system might not always be
possible. For some versions, you can expect that the new DECC$SHR.EXE
will require new features of the operating system that are not present.
For such versions, the defining if the logical DECC$SHR in Step 1 would
cause the compilation to fail.
To override the value of __VMS_VER, define
__VMS_VER_OVERRIDE on the compiler command line. Defining
__VMS_VER_OVERRIDE without a value sets __VMS_VER to the maximum value.
1.4.5 Compatibility Modes
The following predefined macros are used to select header-file
compatibility with previous versions of DEC C) or the OpenVMS operating
system:
- _DECC_V4_SOURCE
- _VMS_V6_SOURCE
There are two types of incompatibilities that can be controlled in the
header files:
- To conform to standards, some changes are source-code incompatible
but binary compatible. To select DEC C Version 4.0 source
compatibility, use the _DECC_V4_SOURCE macro.
- Other changes to conform to standards introduce a binary or
run-time incompatibility.
In general, programs that recompile get
new behaviors.
In these cases, use the _VMS_V6_SOURCE feature test macro to retain
previous behaviors.
However, for the
exit
,
kill
, and
wait
functions, the OpenVMS Version 7.0 changes to make these routines ISO
POSIX-1 compliant were considered too incompatible to become the
default. Therefore, in these cases the default behavior is the same as
on pre-OpenVMS Version 7.0 systems. To access the versions of these
routines that comply with ISO POSIX-1, use the _POSIX_EXIT feature test
macro.
The following examples help clarify the use of these macros:
- To conform to the ISO POSIX-1 standard,
typedefs
for the following have been added to
<types.h>
:
dev_t off_t
gid_t pid_t
ino_t size_t
mode_t ssize_t
nlink_t uid_t
|
Previous development environments using a version of DEC C earlier
than Version 5.2 may have compensated for the lack of these
typedef
s in
<types.h>
by adding them to another module. If this is the case on your system,
then compiling with the
<types.h>
provided with DEC C Version 5.2 might cause compilation errors.
To
maintain your current environment and include the DEC C Version 5.2
<types.h>
, compile with _DECC_V4_SOURCE defined. This will omit incompatible
references from the DEC C Version 5.2 headers. In
<types.h>
, for example, the previously listed
typedefs
will not be visible.
- As of OpenVMS Version 7.0, the HP C RTL
getuid
and
geteuid
functions are defined to return an OpenVMS UIC (user identification
code) that contains both the group and member portions of the UIC. In
previous versions of the DEC C RTL, these functions returned only the
member number from the UIC code.
Note that the prototypes for
getuid
and
geteuid
in
<unistd.h>
(as required by the ISO POSIX-1 standard) and in
<unixlib.h>
(for HP C RTL compatibility) have not changed. By default,
newly compiled programs that call
getuid
and
geteuid
get the new definitions. That is, these functions will return an
OpenVMS UIC.
To let programs retain the pre-OpenVMS Version 7.0
behavior of
getuid
and
geteuid
, compile with the _VMS_V6_SOURCE feature-test macro defined.
- As of OpenVMS Version 7.0, the HP C RTL
exit
function is defined with ISO POSIX-1 semantics. As a result, the input
status argument to
exit
takes a number between 0 and 255. (Prior to this,
exit
could take an OpenVMS condition code in its status parameter.)
By
default, the behavior for
exit
on OpenVMS systems is the same as before:
exit
accepts an OpenVMS condition code. To enable the ISO POSIX-1 compatible
exit
function, compile with the _POSIX_EXIT feature-test macro defined.
1.4.6 Curses and Socket Compatibility Macros
The following feature-test macros are used to control the Curses and
Socket subsets of the HP C RTL library:
- _BSD44_CURSES
This macro selects the Curses package from the 4.4BSD Berkeley
Software Distribution.
- _VMS_CURSES
This macro selects a Curses package based on the VAX C compiler.
This is the default Curses package.
- _SOCKADDR_LEN
This macro is used to select 4.4BSD-compatible and XPG4
V2-compatible socket interfaces. These interfaces require support in
your underlying TCP/IP software. Contact your TCP/IP vendor to inquire
if the version of TCP/IP software you run supports 4.4BSD sockets.
Strict XPG4 V2 compliance requires the 4.4BSD-compatible socket
interface. Therefore, if _XOPEN_SOURCE_EXTENDED is defined on OpenVMS
Version 7.0 or higher, _SOCKADDR_LEN is defined to be 1.
The following examples help clarify the use of these macros:
- Symbolic constants like AE, AL, AS, AM, BC, which represent
pointers to termcap fields used by the BSD Curses package, are only
visible in
<curses.h>
if _BSD44_CURSES is defined.
- The
<socket.h>
header file defines a 4.4BSD
sockaddr
structure only if _SOCKADDR_LEN or _XOPEN_SOURCE_EXTENDED is defined.
Otherwise,
<socket.h>
defines a pre-4.4BSD
sockaddr
structure. If _SOCKADDR_LEN is defined and _XOPEN_SOURCE_EXTENDED is
not defined,
The
<socket.h>
header file also defines an
osockaddr
structure, which is a 4.3BSD
sockaddr
structure to be used for compatibility purposes. Since XPG4 V2 does not
define an
osockaddr
structure, it is not visible in _XOPEN_SOURCE_EXTENDED mode.
1.4.7 2 GB File Size Macro
The C RTL provides support for compiling applications to use file sizes
and offsets that are 2 GB and larger. This is accomplished by allowing
file offsets of 64-bit integers.
The
fseeko
and
ftello
functions, which have the same behavior as
fseek
and
ftell
, accept or return values of type
off_t
, which allows for a 64-bit variant of
off_t
to be used.
C RTL functions
lseek
,
mmap
,
ftuncate
,
truncate
,
stat
,
fstat
, and
ftw
can also accommodate a 64-bit file offset.
The new 64-bit interfaces can be selected at compile time by defining
the _LARGEFILE feature macro.
1.4.8 32-Bit UID and GID Macro (INTEGRITY SERVERS, ALPHA)
The C RTL supports 32-bit User Identification (UID) and Group
Identification (GID). When an application is compiled to use 32-bit
UID/GID, the UID and GID are derived from the UIC as in previous
versions of the operating system.
To compile an application for 16-bit UID/GID support on systems that by
default use 32-bit UIDs/GIDs, define the _DECC_SHORT_GID_T macro to 1.
Not specifying _DECC_SHORT_GID_T provides long (32-bit) UID/GID.
Compiling on older OpenVMS systems where long UID/GID is not supported,
or compiling for legacy compatibility (_DECC_V4_SOURCE for HP C Version
4 or _VMS_V6_SOURCE for OpenVMS Version 6), forces use of short
(16-bit) UID/GID.