and "old-practice-declared-as-void" functions. Hence your code is at
mercy of this heuristics unless you use C<SV *> as return value.)
+=head2 Returning SVs, AVs and HVs through RETVAL
+
+When you're using RETVAL to return an C<SV *>, there's some magic
+going on behind the scenes that should be mentioned. When you're
+manipulating the argument stack using the ST(x) macro, for example,
+you usually have to pay special attention to reference counts. (For
+more about reference counts, see L<perlguts>.) To make your life
+easier, the typemap file automatically makes C<RETVAL> mortal when
+you're returning an C<SV *>. Thus, the following two XSUBs are more
+or less equivalent:
+
+ void
+ alpha()
+ PPCODE:
+ ST(0) = newSVpv("Hello World",0);
+ sv_2mortal(ST(0));
+ XSRETURN(1);
+
+ SV *
+ beta()
+ CODE:
+ RETVAL = newSVpv("Hello World",0);
+ OUTPUT:
+ RETVAL
+
+This is quite useful as it usually improves readability. While
+this works fine for an C<SV *>, it's unfortunately not as easy
+to have C<AV *> or C<HV *> as a return value. You I<should> be
+able to write:
+
+ AV *
+ array()
+ CODE:
+ RETVAL = newAV();
+ /* do something with RETVAL */
+ OUTPUT:
+ RETVAL
+
+But due to an unfixable bug (fixing it would break lots of existing
+CPAN modules) in the typemap file, the reference count of the C<AV *>
+is not properly decremented. Thus, the above XSUB would leak memory
+whenever it is being called. The same problem exists for C<HV *>.
+
+When you're returning an C<AV *> or a C<HV *>, you have make sure
+their reference count is decremented by making the AV or HV mortal:
+
+ AV *
+ array()
+ CODE:
+ RETVAL = newAV();
+ sv_2mortal((SV*)RETVAL);
+ /* do something with RETVAL */
+ OUTPUT:
+ RETVAL
+
+And also remember that you don't have to do this for an C<SV *>.
+
=head2 The MODULE Keyword
The MODULE keyword is used to start the XS code and to specify the package
[ XS code in package RPC ]
+The same package name can be used more than once, allowing for
+non-contiguous code. This is useful if you have a stronger ordering
+principle than package names.
+
Although this keyword is optional and in some cases provides redundant
information it should always be used. This keyword will ensure that the
XSUBs appear in the desired package.
bool_t
rpcb_gettime(host,timep)
- time_t &timep ; /* \$v{timep}=@{[$v{timep}=$arg]} */
+ time_t &timep; /* \$v{timep}=@{[$v{timep}=$arg]} */
char *host + SvOK($v{timep}) ? SvPV($arg,PL_na) : NULL;
OUTPUT:
timep
If one of the input arguments to the C function is the length of a string
argument C<NAME>, one can substitute the name of the length-argument by
-C<length(NAME)> in the XSUB declaration. This argument must be omited when
+C<length(NAME)> in the XSUB declaration. This argument must be omitted when
the generated Perl function is called. E.g.,
void
Some people may be inclined to include an explicit C<return> in the above
XSUB, rather than letting control fall through to the end. In those
situations C<XSRETURN_EMPTY> should be used, instead. This will ensure that
-the XSUB stack is properly adjusted. Consult L<perlguts/"API LISTING"> for
-other C<XSRETURN> macros.
+the XSUB stack is properly adjusted. Consult L<perlapi> for other
+C<XSRETURN> macros.
Since C<XSRETURN_*> macros can be used with CODE blocks as well, one can
rewrite this example as:
timep
RETVAL
+If the prototypes are enabled, you can disable it locally for a given
+XSUB as in the following example:
+
+ void
+ rpcb_gettime_noproto()
+ PROTOTYPE: DISABLE
+ ...
+
=head2 The ALIAS: Keyword
The ALIAS: keyword allows an XSUB to have two or more unique Perl names
multiple overloads with whitespace. Note that "" (the stringify
overload) should be entered as \"\" (i.e. escaped).
+=head2 The FALLBACK: Keyword
+
+In addition to the OVERLOAD keyword, if you need to control how
+Perl autogenerates missing overloaded operators, you can set the
+FALLBACK keyword in the module header section, like this:
+
+ MODULE = RPC PACKAGE = RPC
+
+ FALLBACK: TRUE
+ ...
+
+where FALLBACK can take any of the three values TRUE, FALSE, or
+UNDEF. If you do not set any FALLBACK value when using OVERLOAD,
+it defaults to UNDEF. FALLBACK is not used except when one or
+more functions using OVERLOAD have been defined. Please see
+L<overload/Fallback> for more details.
+
=head2 The INTERFACE: Keyword
This keyword declares the current XSUB as a keeper of the given
C<subtract_off>. Then one can use
#define XSINTERFACE_FUNC_BYOFFSET(ret,cv,f) \
- ((XSINTERFACE_CVT(ret,))fp[CvXSUBANY(cv).any_i32])
+ ((XSINTERFACE_CVT_ANON(ret))fp[CvXSUBANY(cv).any_i32])
#define XSINTERFACE_FUNC_BYOFFSET_set(cv,f) \
CvXSUBANY(cv).any_i32 = CAT2( f, _off )
T_PTROBJ_SPECIAL
if (sv_derived_from($arg, \"${(my $ntt=$ntype)=~s/_/::/g;\$ntt}\")) {
IV tmp = SvIV((SV*)SvRV($arg));
- $var = ($type) tmp;
+ $var = INT2PTR($type, tmp);
}
else
croak(\"$var is not of type ${(my $ntt=$ntype)=~s/_/::/g;\$ntt}\")
on the fly, giving the desired effect. This example demonstrates some
of the power and versatility of the typemap facility.
+The INT2PTR macro (defined in perl.h) casts an integer to a pointer,
+of a given type, taking care of the possible different size of integers
+and pointers. There are also PTR2IV, PTR2UV, PTR2NV macros,
+to map the other way, which may be useful in OUTPUT sections.
+
=head2 Safely Storing Static Data in XS
Starting with Perl 5.8, a macro framework has been defined to allow
dMY_CXT;
CODE:
if (MY_CXT.count >= 3) {
- warn("Already have 3 blind mice") ;
+ warn("Already have 3 blind mice");
RETVAL = 0;
}
else {
else
RETVAL = newSVpv(MY_CXT.name[index - 1]);
+ void
+ CLONE(...)
+ CODE:
+ MY_CXT_CLONE;
B<REFERENCE>
The MY_CXT_INIT macro initialises storage for the C<my_cxt_t> struct.
-It I<must> be called exactly once -- typically in a BOOT: section.
+It I<must> be called exactly once -- typically in a BOOT: section. If you
+are maintaining multiple interpreters, it should be called once in each
+interpreter instance, except for interpreters cloned from existing ones.
+(But see C<MY_CXT_CLONE> below.)
=item dMY_CXT
dMY_CXT;
MY_CXT.index = 2;
+=item aMY_CXT/pMY_CXT
+
+C<dMY_CXT> may be quite expensive to calculate, and to avoid the overhead
+of invoking it in each function it is possible to pass the declaration
+onto other functions using the C<aMY_CXT>/C<pMY_CXT> macros, eg
+
+ void sub1() {
+ dMY_CXT;
+ MY_CXT.index = 1;
+ sub2(aMY_CXT);
+ }
+
+ void sub2(pMY_CXT) {
+ MY_CXT.index = 2;
+ }
+
+Analogously to C<pTHX>, there are equivalent forms for when the macro is the
+first or last in multiple arguments, where an underscore represents a
+comma, i.e. C<_aMY_CXT>, C<aMY_CXT_>, C<_pMY_CXT> and C<pMY_CXT_>.
+
+=item MY_CXT_CLONE
+
+By default, when a new interpreter is created as a copy of an existing one
+(eg via C<<threads->create()>>), both interpreters share the same physical
+my_cxt_t structure. Calling C<MY_CXT_CLONE> (typically via the package's
+C<CLONE()> function), causes a byte-for-byte copy of the structure to be
+taken, and any future dMY_CXT will cause the copy to be accessed instead.
+
+=item MY_CXT_INIT_INTERP(my_perl)
+
+=item dMY_CXT_INTERP(my_perl)
+
+These are versions of the macros which take an explicit interpreter as an
+argument.
+
=back
+Note that these macros will only work together within the I<same> source
+file; that is, a dMY_CTX in one source file will access a different structure
+than a dMY_CTX in another source file.
+
+=head2 Thread-aware system interfaces
+
+Starting from Perl 5.8, in C/C++ level Perl knows how to wrap
+system/library interfaces that have thread-aware versions
+(e.g. getpwent_r()) into frontend macros (e.g. getpwent()) that
+correctly handle the multithreaded interaction with the Perl
+interpreter. This will happen transparently, the only thing
+you need to do is to instantiate a Perl interpreter.
+
+This wrapping happens always when compiling Perl core source
+(PERL_CORE is defined) or the Perl core extensions (PERL_EXT is
+defined). When compiling XS code outside of Perl core the wrapping
+does not take place. Note, however, that intermixing the _r-forms
+(as Perl compiled for multithreaded operation will do) and the _r-less
+forms is neither well-defined (inconsistent results, data corruption,
+or even crashes become more likely), nor is it very portable.
+
=head1 EXAMPLES
File C<RPC.xs>: Interface to some ONC+ RPC bind library functions.