/* Still under construction */
-Upgrades rv to reference if not already one. Creates new SV for rv to
-point to. If C<classname> is non-null, the SV is blessed into the specified
-class. SV is returned.
+The following function upgrades rv to reference if not already one.
+Creates a new SV for rv to point to. If C<classname> is non-null, the SV
+is blessed into the specified class. SV is returned.
SV* newSVrv(SV* rv, const char* classname);
-Copies integer, unsigned integer or double into an SV whose reference is C<rv>. SV is blessed
-if C<classname> is non-null.
+The following three functions copy integer, unsigned integer or double
+into an SV whose reference is C<rv>. SV is blessed if C<classname> is
+non-null.
SV* sv_setref_iv(SV* rv, const char* classname, IV iv);
SV* sv_setref_uv(SV* rv, const char* classname, UV uv);
SV* sv_setref_nv(SV* rv, const char* classname, NV iv);
-Copies the pointer value (I<the address, not the string!>) into an SV whose
-reference is rv. SV is blessed if C<classname> is non-null.
+The following function copies the pointer value (I<the address, not the
+string!>) into an SV whose reference is rv. SV is blessed if C<classname>
+is non-null.
- SV* sv_setref_pv(SV* rv, const char* classname, PV iv);
+ SV* sv_setref_pv(SV* rv, const char* classname, void* pv);
-Copies string into an SV whose reference is C<rv>. Set length to 0 to let
-Perl calculate the string length. SV is blessed if C<classname> is non-null.
+The following function copies string into an SV whose reference is C<rv>.
+Set length to 0 to let Perl calculate the string length. SV is blessed if
+C<classname> is non-null.
- SV* sv_setref_pvn(SV* rv, const char* classname, PV iv, STRLEN length);
+ SV* sv_setref_pvn(SV* rv, const char* classname, char* pv, STRLEN length);
-Tests whether the SV is blessed into the specified class. It does not
-check inheritance relationships.
+The following function tests whether the SV is blessed into the specified
+class. It does not check inheritance relationships.
int sv_isa(SV* sv, const char* name);
-Tests whether the SV is a reference to a blessed object.
+The following function tests whether the SV is a reference to a blessed object.
int sv_isobject(SV* sv);
-Tests whether the SV is derived from the specified class. SV can be either
-a reference to a blessed object or a string containing a class name. This
-is the function implementing the C<UNIVERSAL::isa> functionality.
+The following function tests whether the SV is derived from the specified
+class. SV can be either a reference to a blessed object or a string
+containing a class name. This is the function implementing the
+C<UNIVERSAL::isa> functionality.
bool sv_derived_from(SV* sv, const char* name);
AV* get_av("package::varname", GV_ADD);
HV* get_hv("package::varname", GV_ADD);
-Notice the use of TRUE as the second parameter. The new variable can now
+Notice the use of GV_ADD as the second parameter. The new variable can now
be set, using the routines appropriate to the data type.
There are additional macros whose values may be bitwise OR'ed with the
-C<TRUE> argument to enable certain extra features. Those bits are:
+C<GV_ADD> argument to enable certain extra features. Those bits are:
=over
To remove the magic from an SV, call the function sv_unmagic:
- void sv_unmagic(SV *sv, int type);
+ int sv_unmagic(SV *sv, int type);
The C<type> argument should be equal to the C<how> value when the C<SV>
was initially made magical.
+However, note that C<sv_unmagic> removes all magic of a certain C<type> from the
+C<SV>. If you want to remove only certain magic of a C<type> based on the magic
+virtual table, use C<sv_unmagicext> instead:
+
+ int sv_unmagicext(SV *sv, int type, MGVTBL *vtbl);
+
=head2 Magic Virtual Tables
The C<mg_virtual> field in the C<MAGIC> structure is a pointer to an
(old-style char and macro) MGVTBL Type of magic
-------------------------- ------ -------------
\0 PERL_MAGIC_sv vtbl_sv Special scalar variable
+ # PERL_MAGIC_arylen vtbl_arylen Array length ($#ary)
+ % PERL_MAGIC_rhash (none) extra data for restricted
+ hashes
+ . PERL_MAGIC_pos vtbl_pos pos() lvalue
+ : PERL_MAGIC_symtab (none) extra data for symbol tables
+ < PERL_MAGIC_backref vtbl_backref for weak ref data
+ @ PERL_MAGIC_arylen_p (none) to move arylen out of XPVAV
A PERL_MAGIC_overload vtbl_amagic %OVERLOAD hash
a PERL_MAGIC_overload_elem vtbl_amagicelem %OVERLOAD hash element
- c PERL_MAGIC_overload_table (none) Holds overload table (AMT)
- on stash
- B PERL_MAGIC_bm vtbl_bm Boyer-Moore (fast string search)
- D PERL_MAGIC_regdata vtbl_regdata Regex match position data
+ B PERL_MAGIC_bm vtbl_regexp Boyer-Moore
+ (fast string search)
+ c PERL_MAGIC_overload_table vtbl_ovrld Holds overload table
+ (AMT) on stash
+ D PERL_MAGIC_regdata vtbl_regdata Regex match position data
(@+ and @- vars)
d PERL_MAGIC_regdatum vtbl_regdatum Regex match position data
element
E PERL_MAGIC_env vtbl_env %ENV hash
e PERL_MAGIC_envelem vtbl_envelem %ENV hash element
- f PERL_MAGIC_fm vtbl_fm Formline ('compiled' format)
- g PERL_MAGIC_regex_global vtbl_mglob m//g target / study()ed string
+ f PERL_MAGIC_fm vtbl_regdata Formline ('compiled' format)
+ G PERL_MAGIC_study vtbl_regdata study()ed string
+ g PERL_MAGIC_regex_global vtbl_mglob m//g target
H PERL_MAGIC_hints vtbl_hints %^H hash
h PERL_MAGIC_hintselem vtbl_hintselem %^H hash element
I PERL_MAGIC_isa vtbl_isa @ISA array
k PERL_MAGIC_nkeys vtbl_nkeys scalar(keys()) lvalue
L PERL_MAGIC_dbfile (none) Debugger %_<filename
l PERL_MAGIC_dbline vtbl_dbline Debugger %_<filename element
- o PERL_MAGIC_collxfrm vtbl_collxfrm Locale collate transformation
+ N PERL_MAGIC_shared (none) Shared between threads
+ n PERL_MAGIC_shared_scalar (none) Shared between threads
+ o PERL_MAGIC_collxfrm vtbl_collxfrm Locale transformation
P PERL_MAGIC_tied vtbl_pack Tied array or hash
p PERL_MAGIC_tiedelem vtbl_packelem Tied array or hash element
q PERL_MAGIC_tiedscalar vtbl_packelem Tied scalar or handle
- r PERL_MAGIC_qr vtbl_qr precompiled qr// regex
- S PERL_MAGIC_sig vtbl_sig %SIG hash
+ r PERL_MAGIC_qr vtbl_regexp precompiled qr// regex
+ S PERL_MAGIC_sig (none) %SIG hash
s PERL_MAGIC_sigelem vtbl_sigelem %SIG hash element
t PERL_MAGIC_taint vtbl_taint Taintedness
U PERL_MAGIC_uvar vtbl_uvar Available for use by extensions
+ u PERL_MAGIC_uvar_elem (none) Reserved for use by extensions
+ V PERL_MAGIC_vstring (none) SV was vstring literal
v PERL_MAGIC_vec vtbl_vec vec() lvalue
- V PERL_MAGIC_vstring (none) v-string scalars
- w PERL_MAGIC_utf8 vtbl_utf8 UTF-8 length+offset cache
+ w PERL_MAGIC_utf8 vtbl_utf8 Cached UTF-8 information
x PERL_MAGIC_substr vtbl_substr substr() lvalue
y PERL_MAGIC_defelem vtbl_defelem Shadow "foreach" iterator
variable / smart parameter
vivification
- # PERL_MAGIC_arylen vtbl_arylen Array length ($#ary)
- . PERL_MAGIC_pos vtbl_pos pos() lvalue
- < PERL_MAGIC_backref vtbl_backref back pointer to a weak ref
+ ] PERL_MAGIC_checkcall (none) inlining/mutation of call to
+ this CV
~ PERL_MAGIC_ext (none) Available for use by extensions
- : PERL_MAGIC_symtab (none) hash used as symbol table
- % PERL_MAGIC_rhash (none) hash used as restricted hash
- @ PERL_MAGIC_arylen_p vtbl_arylen_p pointer to $#a from @a
When an uppercase and lowercase letter both exist in the table, then the
an C<SV> through the functions C<hv_store_ent>, C<hv_fetch_ent>,
C<hv_delete_ent>, and C<hv_exists_ent>. Accessing the key as a string
through the functions without the C<..._ent> suffix circumvents the
-hook. See L<Hash::Util::Fieldhash/Guts> for a detailed description.
+hook. See L<Hash::Util::FieldHash/GUTS> for a detailed description.
Note that because multiple extensions may be using C<PERL_MAGIC_ext>
or C<PERL_MAGIC_uvar> magic, it is important for extensions to take
For C<PERL_MAGIC_ext> magic, it is usually a good idea to define an
C<MGVTBL>, even if all its fields will be C<0>, so that individual
C<MAGIC> pointers can be identified as a particular kind of magic
-using their C<mg_virtual> field.
+using their magic virtual table. C<mg_findext> provides an easy way
+to do that:
STATIC MGVTBL my_vtbl = { 0, 0, 0, 0, 0, 0, 0, 0 };
MAGIC *mg;
- for (mg = SvMAGIC(sv); mg; mg = mg->mg_moremagic) {
- if (mg->mg_type == PERL_MAGIC_ext && mg->mg_virtual == &my_vtbl) {
- /* this is really ours, not another module's PERL_MAGIC_ext */
- my_priv_data_t *priv = (my_priv_data_t *)mg->mg_ptr;
- }
+ if ((mg = mg_findext(sv, PERL_MAGIC_ext, &my_vtbl))) {
+ /* this is really ours, not another module's PERL_MAGIC_ext */
+ my_priv_data_t *priv = (my_priv_data_t *)mg->mg_ptr;
+ ...
}
Also note that the C<sv_set*()> and C<sv_cat*()> functions described
=head2 Finding Magic
- MAGIC* mg_find(SV*, int type); /* Finds the magic pointer of that type */
+ MAGIC *mg_find(SV *sv, int type); /* Finds the magic pointer of that type */
+
+This routine returns a pointer to a C<MAGIC> structure stored in the SV.
+If the SV does not have that magical feature, C<NULL> is returned. If the
+SV has multiple instances of that magical feature, the first one will be
+returned. C<mg_findext> can be used to find a C<MAGIC> structure of an SV
+based on both it's magic type and it's magic virtual table:
+
+ MAGIC *mg_findext(SV *sv, int type, MGVTBL *vtbl);
-This routine returns a pointer to the C<MAGIC> structure stored in the SV.
-If the SV does not have that magical feature, C<NULL> is returned. Also,
-if the SV is not of type SVt_PVMG, Perl may core dump.
+Also, if the SV passed to C<mg_find> or C<mg_findext> is not of type
+SVt_PVMG, Perl may core dump.
int mg_copy(SV* sv, SV* nsv, const char* key, STRLEN klen);
PUSHs(sv_2mortal(newSVuv(an_unsigned_integer)))
PUSHs(sv_2mortal(newSVnv(a_double)))
PUSHs(sv_2mortal(newSVpv("Some String",0)))
+ /* Although the last example is better written as the more efficient: */
+ PUSHs(newSVpvs_flags("Some String", SVs_TEMP))
And now the Perl program calling C<tzname>, the two values will be assigned
as in:
This does not need a interpreter context, so the definition has no
C<pTHX>, and it follows that callers don't use C<aTHX>. (See
-L<perlguts/Background and PERL_IMPLICIT_CONTEXT>.)
+L</Background and PERL_IMPLICIT_CONTEXT>.)
=item r
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