perlintern - autogenerated documentation of purely internal Perl functions
This file is the autogenerated documentation of functions in the Perl interpreter that are documented using Perl's internal documentation format but are not marked as part of the Perl API. In other words, they are not for use in extensions!
Return an entry from the BHK structure. which is a preprocessor token indicating which entry to return. If the appropriate flag is not set this will return NULL. The type of the return value depends on which entry you ask for.
NOTE: this function is experimental and may change or be removed without notice.
void * BhkENTRY(BHK *hk, which)
Return the BHK's flags.
NOTE: this function is experimental and may change or be removed without notice.
U32 BhkFLAGS(BHK *hk)
Call all the registered block hooks for type which. which is a preprocessing token; the type of arg depends on which.
NOTE: this function is experimental and may change or be removed without notice.
void CALL_BLOCK_HOOKS(which, arg)
Each CV has a pointer, CvOUTSIDE()
, to its lexically enclosing CV (if any). Because pointers to anonymous sub prototypes are stored in &
pad slots, it is a possible to get a circular reference, with the parent pointing to the child and vice-versa. To avoid the ensuing memory leak, we do not increment the reference count of the CV pointed to by CvOUTSIDE
in the one specific instance that the parent has a &
pad slot pointing back to us. In this case, we set the CvWEAKOUTSIDE
flag in the child. This allows us to determine under what circumstances we should decrement the refcount of the parent when freeing the child.
There is a further complication with non-closure anonymous subs (i.e. those that do not refer to any lexicals outside that sub). In this case, the anonymous prototype is shared rather than being cloned. This has the consequence that the parent may be freed while there are still active children, eg
BEGIN { $a = sub { eval '$x' } }
In this case, the BEGIN is freed immediately after execution since there are no active references to it: the anon sub prototype has CvWEAKOUTSIDE
set since it's not a closure, and $a points to the same CV, so it doesn't contribute to BEGIN's refcount either. When $a is executed, the eval '$x'
causes the chain of CvOUTSIDE
s to be followed, and the freed BEGIN is accessed.
To avoid this, whenever a CV and its associated pad is freed, any &
entries in the pad are explicitly removed from the pad, and if the refcount of the pointed-to anon sub is still positive, then that child's CvOUTSIDE
is set to point to its grandparent. This will only occur in the single specific case of a non-closure anon prototype having one or more active references (such as $a
above).
One other thing to consider is that a CV may be merely undefined rather than freed, eg undef &foo
. In this case, its refcount may not have reached zero, but we still delete its pad and its CvROOT
etc. Since various children may still have their CvOUTSIDE
pointing at this undefined CV, we keep its own CvOUTSIDE
for the time being, so that the chain of lexical scopes is unbroken. For example, the following should print 123:
my $x = 123;
sub tmp { sub { eval '$x' } }
my $a = tmp();
undef &tmp;
print $a->();
bool CvWEAKOUTSIDE(CV *cv)
dump the contents of a CV
void cv_dump(CV *cv, const char *title)
When a CV has a reference count on its slab (CvSLABBED), it is responsible for making sure it is freed. (Hence, no two CVs should ever have a reference count on the same slab.) The CV only needs to reference the slab during compilation. Once it is compiled and CvROOT attached, it has finished its job, so it can forget the slab.
void cv_forget_slab(CV *cv)
Dump the contents of a padlist
void do_dump_pad(I32 level, PerlIO *file,
PADLIST *padlist, int full)
"Introduce" my variables to visible status. This is called during parsing at the end of each statement to make lexical variables visible to subsequent statements.
U32 intro_my()
Duplicates a pad.
PADLIST * padlist_dup(PADLIST *srcpad,
CLONE_PARAMS *param)
Allocates a place in the currently-compiling pad (via "pad_alloc" in perlapi) and then stores a name for that entry. namesv is adopted and becomes the name entry; it must already contain the name string and be sufficiently upgraded. typestash and ourstash and the padadd_STATE
flag get added to namesv. None of the other processing of "pad_add_name_pvn" in perlapi is done. Returns the offset of the allocated pad slot.
PADOFFSET pad_alloc_name(SV *namesv, U32 flags,
HV *typestash, HV *ourstash)
Update the pad compilation state variables on entry to a new block.
void pad_block_start(int full)
Check for duplicate declarations: report any of:
* a my in the current scope with the same name;
* an our (anywhere in the pad) with the same name and the
same stash as C<ourstash>
is_our
indicates that the name to check is an 'our' declaration.
void pad_check_dup(SV *name, U32 flags,
const HV *ourstash)
Find a named lexical anywhere in a chain of nested pads. Add fake entries in the inner pads if it's found in an outer one.
Returns the offset in the bottom pad of the lex or the fake lex. cv is the CV in which to start the search, and seq is the current cop_seq to match against. If warn is true, print appropriate warnings. The out_* vars return values, and so are pointers to where the returned values should be stored. out_capture, if non-null, requests that the innermost instance of the lexical is captured; out_name_sv is set to the innermost matched namesv or fake namesv; out_flags returns the flags normally associated with the IVX field of a fake namesv.
Note that pad_findlex() is recursive; it recurses up the chain of CVs, then comes back down, adding fake entries as it goes. It has to be this way because fake namesvs in anon protoypes have to store in xlow the index into the parent pad.
PADOFFSET pad_findlex(const char *namepv,
STRLEN namelen, U32 flags,
const CV* cv, U32 seq, int warn,
SV** out_capture,
SV** out_name_sv, int *out_flags)
For any anon CVs in the pad, change CvOUTSIDE of that CV from old_cv to new_cv if necessary. Needed when a newly-compiled CV has to be moved to a pre-existing CV struct.
void pad_fixup_inner_anons(PADLIST *padlist,
CV *old_cv, CV *new_cv)
Free the SV at offset po in the current pad.
void pad_free(PADOFFSET po)
Cleanup at end of scope during compilation: set the max seq number for lexicals in this scope and warn of any lexicals that never got introduced.
void pad_leavemy()
Push a new pad frame onto the padlist, unless there's already a pad at this depth, in which case don't bother creating a new one. Then give the new pad an @_ in slot zero.
void pad_push(PADLIST *padlist, int depth)
Mark all the current temporaries for reuse
void pad_reset()
Abandon the tmp in the current pad at offset po and replace with a new one.
void pad_swipe(PADOFFSET po, bool refadjust)
This function assigns the prototype of the named core function to sv
, or to a new mortal SV if sv
is NULL. It returns the modified sv
, or NULL if the core function has no prototype. code
is a code as returned by keyword()
. It must not be equal to 0 or -KEY_CORE.
SV * core_prototype(SV *sv, const char *name,
const int code,
int * const opnum)
Check for the cases 0 or 3 of cur_env.je_ret, only used inside an eval context.
0 is used as continue inside eval,
3 is used for a die caught by an inner eval - continue inner loop
See cop.h: je_mustcatch, when set at any runlevel to TRUE, means eval ops must establish a local jmpenv to handle exception traps.
OP* docatch(OP *o)
If the typeglob gv
can be expressed more succinctly, by having something other than a real GV in its place in the stash, replace it with the optimised form. Basic requirements for this are that gv
is a real typeglob, is sufficiently ordinary, and is only referenced from its package. This function is meant to be used when a GV has been looked up in part to see what was there, causing upgrading, but based on what was found it turns out that the real GV isn't required after all.
If gv
is a completely empty typeglob, it is deleted from the stash.
If gv
is a typeglob containing only a sufficiently-ordinary constant sub, the typeglob is replaced with a scalar-reference placeholder that more compactly represents the same thing.
NOTE: this function is experimental and may change or be removed without notice.
void gv_try_downgrade(GV* gv)
Adds a name to a stash's internal list of effective names. See hv_ename_delete
.
This is called when a stash is assigned to a new location in the symbol table.
void hv_ename_add(HV *hv, const char *name, U32 len,
U32 flags)
Removes a name from a stash's internal list of effective names. If this is the name returned by HvENAME
, then another name in the list will take its place (HvENAME
will use it).
This is called when a stash is deleted from the symbol table.
void hv_ename_delete(HV *hv, const char *name,
U32 len, U32 flags)
Generates and returns a HV *
representing the content of a refcounted_he
chain. flags is currently unused and must be zero.
HV * refcounted_he_chain_2hv(
const struct refcounted_he *c, U32 flags
)
Like "refcounted_he_fetch_pvn", but takes a nul-terminated string instead of a string/length pair.
SV * refcounted_he_fetch_pv(
const struct refcounted_he *chain,
const char *key, U32 hash, U32 flags
)
Search along a refcounted_he
chain for an entry with the key specified by keypv and keylen. If flags has the REFCOUNTED_HE_KEY_UTF8
bit set, the key octets are interpreted as UTF-8, otherwise they are interpreted as Latin-1. hash is a precomputed hash of the key string, or zero if it has not been precomputed. Returns a mortal scalar representing the value associated with the key, or &PL_sv_placeholder
if there is no value associated with the key.
SV * refcounted_he_fetch_pvn(
const struct refcounted_he *chain,
const char *keypv, STRLEN keylen, U32 hash,
U32 flags
)
Like "refcounted_he_fetch_pvn", but takes a literal string instead of a string/length pair, and no precomputed hash.
SV * refcounted_he_fetch_pvs(
const struct refcounted_he *chain,
const char *key, U32 flags
)
Like "refcounted_he_fetch_pvn", but takes a Perl scalar instead of a string/length pair.
SV * refcounted_he_fetch_sv(
const struct refcounted_he *chain, SV *key,
U32 hash, U32 flags
)
Decrements the reference count of a refcounted_he
by one. If the reference count reaches zero the structure's memory is freed, which (recursively) causes a reduction of its parent refcounted_he
's reference count. It is safe to pass a null pointer to this function: no action occurs in this case.
void refcounted_he_free(struct refcounted_he *he)
Increment the reference count of a refcounted_he
. The pointer to the refcounted_he
is also returned. It is safe to pass a null pointer to this function: no action occurs and a null pointer is returned.
struct refcounted_he * refcounted_he_inc(
struct refcounted_he *he
)
Like "refcounted_he_new_pvn", but takes a nul-terminated string instead of a string/length pair.
struct refcounted_he * refcounted_he_new_pv(
struct refcounted_he *parent,
const char *key, U32 hash,
SV *value, U32 flags
)
Creates a new refcounted_he
. This consists of a single key/value pair and a reference to an existing refcounted_he
chain (which may be empty), and thus forms a longer chain. When using the longer chain, the new key/value pair takes precedence over any entry for the same key further along the chain.
The new key is specified by keypv and keylen. If flags has the REFCOUNTED_HE_KEY_UTF8
bit set, the key octets are interpreted as UTF-8, otherwise they are interpreted as Latin-1. hash is a precomputed hash of the key string, or zero if it has not been precomputed.
value is the scalar value to store for this key. value is copied by this function, which thus does not take ownership of any reference to it, and later changes to the scalar will not be reflected in the value visible in the refcounted_he
. Complex types of scalar will not be stored with referential integrity, but will be coerced to strings. value may be either null or &PL_sv_placeholder
to indicate that no value is to be associated with the key; this, as with any non-null value, takes precedence over the existence of a value for the key further along the chain.
parent points to the rest of the refcounted_he
chain to be attached to the new refcounted_he
. This function takes ownership of one reference to parent, and returns one reference to the new refcounted_he
.
struct refcounted_he * refcounted_he_new_pvn(
struct refcounted_he *parent,
const char *keypv,
STRLEN keylen, U32 hash,
SV *value, U32 flags
)
Like "refcounted_he_new_pvn", but takes a literal string instead of a string/length pair, and no precomputed hash.
struct refcounted_he * refcounted_he_new_pvs(
struct refcounted_he *parent,
const char *key, SV *value,
U32 flags
)
Like "refcounted_he_new_pvn", but takes a Perl scalar instead of a string/length pair.
struct refcounted_he * refcounted_he_new_sv(
struct refcounted_he *parent,
SV *key, U32 hash, SV *value,
U32 flags
)
Function called by do_readline
to spawn a glob (or do the glob inside perl on VMS). This code used to be inline, but now perl uses File::Glob
this glob starter is only used by miniperl during the build process. Moving it away shrinks pp_hot.c; shrinking pp_hot.c helps speed perl up.
NOTE: this function is experimental and may change or be removed without notice.
PerlIO* start_glob(SV *tmpglob, IO *io)
Triggered by a delete from %^H, records the key to PL_compiling.cop_hints_hash
.
int magic_clearhint(SV* sv, MAGIC* mg)
Triggered by clearing %^H, resets PL_compiling.cop_hints_hash
.
int magic_clearhints(SV* sv, MAGIC* mg)
Invoke a magic method (like FETCH).
sv
and mg
are the tied thingy and the tie magic.
meth
is the name of the method to call.
argc
is the number of args (in addition to $self) to pass to the method.
The flags
can be:
G_DISCARD invoke method with G_DISCARD flag and don't
return a value
G_UNDEF_FILL fill the stack with argc pointers to
PL_sv_undef
The arguments themselves are any values following the flags
argument.
Returns the SV (if any) returned by the method, or NULL on failure.
SV* magic_methcall(SV *sv, const MAGIC *mg,
const char *meth, U32 flags,
U32 argc, ...)
Triggered by a store to %^H, records the key/value pair to PL_compiling.cop_hints_hash
. It is assumed that hints aren't storing anything that would need a deep copy. Maybe we should warn if we find a reference.
int magic_sethint(SV* sv, MAGIC* mg)
Copy some of the magic from an existing SV to new localized version of that SV. Container magic (eg %ENV, $1, tie) gets copied, value magic doesn't (eg taint, pos).
If setmagic is false then no set magic will be called on the new (empty) SV. This typically means that assignment will soon follow (e.g. 'local $x = $y'), and that will handle the magic.
void mg_localize(SV* sv, SV* nsv, bool setmagic)
Returns the Depth-First Search linearization of @ISA the given stash. The return value is a read-only AV*. level
should be 0 (it is used internally in this function's recursion).
You are responsible for SvREFCNT_inc()
on the return value if you plan to store it anywhere semi-permanently (otherwise it might be deleted out from under you the next time the cache is invalidated).
AV* mro_get_linear_isa_dfs(HV* stash, U32 level)
Takes the necessary steps (cache invalidations, mostly) when the @ISA of the given package has changed. Invoked by the setisa
magic, should not need to invoke directly.
void mro_isa_changed_in(HV* stash)
Call this function to signal to a stash that it has been assigned to another spot in the stash hierarchy. stash
is the stash that has been assigned. oldstash
is the stash it replaces, if any. gv
is the glob that is actually being assigned to.
This can also be called with a null first argument to indicate that oldstash
has been deleted.
This function invalidates isa caches on the old stash, on all subpackages nested inside it, and on the subclasses of all those, including non-existent packages that have corresponding entries in stash
.
It also sets the effective names (HvENAME
) on all the stashes as appropriate.
If the gv
is present and is not in the symbol table, then this function simply returns. This checked will be skipped if flags & 1
.
void mro_package_moved(HV * const stash,
HV * const oldstash,
const GV * const gv,
U32 flags)
This function finalizes the optree. Should be called directly after the complete optree is built. It does some additional checking which can't be done in the normal ck_xxx functions and makes the tree thread-safe.
void finalize_optree(OP* o)
Save the current pad in the given context block structure.
void CX_CURPAD_SAVE(struct context)
Access the SV at offset po in the saved current pad in the given context block structure (can be used as an lvalue).
SV * CX_CURPAD_SV(struct context, PADOFFSET po)
Whether this is an "our" variable.
bool PadnameIsOUR(PADNAME pn)
Whether this is a "state" variable.
bool PadnameIsSTATE(PADNAME pn)
The stash in which this "our" variable was declared.
HV * PadnameOURSTASH()
Whether this entry belongs to an outer pad.
bool PadnameOUTER(PADNAME pn)
The stash associated with a typed lexical. This returns the %Foo:: hash for my Foo $bar
.
HV * PadnameTYPE(PADNAME pn)
Get the value from slot po
in the base (DEPTH=1) pad of a padlist
SV * PAD_BASE_SV(PADLIST padlist, PADOFFSET po)
Clone the state variables associated with running and compiling pads.
void PAD_CLONE_VARS(PerlInterpreter *proto_perl,
CLONE_PARAMS* param)
Return the flags for the current compiling pad name at offset po
. Assumes a valid slot entry.
U32 PAD_COMPNAME_FLAGS(PADOFFSET po)
The generation number of the name at offset po
in the current compiling pad (lvalue). Note that SvUVX
is hijacked for this purpose.
STRLEN PAD_COMPNAME_GEN(PADOFFSET po)
Sets the generation number of the name at offset po
in the current ling pad (lvalue) to gen
. Note that SvUV_set
is hijacked for this purpose.
STRLEN PAD_COMPNAME_GEN_set(PADOFFSET po, int gen)
Return the stash associated with an our
variable. Assumes the slot entry is a valid our
lexical.
HV * PAD_COMPNAME_OURSTASH(PADOFFSET po)
Return the name of the current compiling pad name at offset po
. Assumes a valid slot entry.
char * PAD_COMPNAME_PV(PADOFFSET po)
Return the type (stash) of the current compiling pad name at offset po
. Must be a valid name. Returns null if not typed.
HV * PAD_COMPNAME_TYPE(PADOFFSET po)
When PERL_MAD is enabled, this is a small no-op function that gets called at the start of each pad-related function. It can be breakpointed to track all pad operations. The parameter is a string indicating the type of pad operation being performed.
NOTE: this function is experimental and may change or be removed without notice.
void pad_peg(const char *s)
Restore the old pad saved into the local variable opad by PAD_SAVE_LOCAL()
void PAD_RESTORE_LOCAL(PAD *opad)
Save the current pad to the local variable opad, then make the current pad equal to npad
void PAD_SAVE_LOCAL(PAD *opad, PAD *npad)
Save the current pad then set it to null.
void PAD_SAVE_SETNULLPAD()
Set the slot at offset po
in the current pad to sv
SV * PAD_SETSV(PADOFFSET po, SV* sv)
Set the current pad to be pad n
in the padlist, saving the previous current pad. NB currently this macro expands to a string too long for some compilers, so it's best to replace it with
SAVECOMPPAD();
PAD_SET_CUR_NOSAVE(padlist,n);
void PAD_SET_CUR(PADLIST padlist, I32 n)
like PAD_SET_CUR, but without the save
void PAD_SET_CUR_NOSAVE(PADLIST padlist, I32 n)
Get the value at offset po
in the current pad
void PAD_SV(PADOFFSET po)
Lightweight and lvalue version of PAD_SV
. Get or set the value at offset po
in the current pad. Unlike PAD_SV
, does not print diagnostics with -DX. For internal use only.
SV * PAD_SVl(PADOFFSET po)
Clear the pointed to pad value on scope exit. (i.e. the runtime action of 'my')
void SAVECLEARSV(SV **svp)
save PL_comppad and PL_curpad
void SAVECOMPPAD()
Save a pad slot (used to restore after an iteration)
XXX DAPM it would make more sense to make the arg a PADOFFSET void SAVEPADSV(PADOFFSET po)
When Perl is run in debugging mode, with the -d switch, this SV is a boolean which indicates whether subs are being single-stepped. Single-stepping is automatically turned on after every step. This is the C variable which corresponds to Perl's $DB::single variable. See PL_DBsub
.
SV * PL_DBsingle
When Perl is run in debugging mode, with the -d switch, this GV contains the SV which holds the name of the sub being debugged. This is the C variable which corresponds to Perl's $DB::sub variable. See PL_DBsingle
.
GV * PL_DBsub
Trace variable used when Perl is run in debugging mode, with the -d switch. This is the C variable which corresponds to Perl's $DB::trace variable. See PL_DBsingle
.
SV * PL_DBtrace
The C variable which corresponds to Perl's $^W warning variable.
bool PL_dowarn
The GV which was last used for a filehandle input operation. (<FH>
)
GV* PL_last_in_gv
The glob containing the output field separator - *,
in Perl space.
GV* PL_ofsgv
The input record separator - $/
in Perl space.
SV* PL_rs
Declare Just SP
. This is actually identical to dSP
, and declares a local copy of perl's stack pointer, available via the SP
macro. See SP
. (Available for backward source code compatibility with the old (Perl 5.005) thread model.)
djSP;
True if this op will be the return value of an lvalue subroutine
A quick flag check to see whether an sv should be passed to sv_force_normal to be "downgraded" before SvIVX or SvPVX can be modified directly.
For example, if your scalar is a reference and you want to modify the SvIVX slot, you can't just do SvROK_off, as that will leak the referent.
This is used internally by various sv-modifying functions, such as sv_setsv, sv_setiv and sv_pvn_force.
One case that this does not handle is a gv without SvFAKE set. After
if (SvTHINKFIRST(gv)) sv_force_normal(gv);
it will still be a gv.
SvTHINKFIRST sometimes produces false positives. In those cases sv_force_normal does nothing.
U32 SvTHINKFIRST(SV *sv)
Given a chunk of memory, link it to the head of the list of arenas, and split it into a list of free SVs.
void sv_add_arena(char *const ptr, const U32 size,
const U32 flags)
Decrement the refcnt of each remaining SV, possibly triggering a cleanup. This function may have to be called multiple times to free SVs which are in complex self-referential hierarchies.
I32 sv_clean_all()
Attempt to destroy all objects not yet freed.
void sv_clean_objs()
Deallocate the memory used by all arenas. Note that all the individual SV heads and bodies within the arenas must already have been freed.
void sv_free_arenas()
Return an SV with the numeric value of the source SV, doing any necessary reference or overload conversion. You must use the SvNUM(sv)
macro to access this function.
NOTE: this function is experimental and may change or be removed without notice.
SV* sv_2num(SV *const sv)
Copies a stringified representation of the source SV into the destination SV. Automatically performs any necessary mg_get and coercion of numeric values into strings. Guaranteed to preserve UTF8 flag even from overloaded objects. Similar in nature to sv_2pv[_flags] but operates directly on an SV instead of just the string. Mostly uses sv_2pv_flags to do its work, except when that would lose the UTF-8'ness of the PV.
void sv_copypv(SV *const dsv, SV *const ssv)
Returns a SV describing what the SV passed in is a reference to.
SV* sv_ref(SV *dst, const SV *const sv,
const int ob)
Find the name of the undefined variable (if any) that caused the operator to issue a "Use of uninitialized value" warning. If match is true, only return a name if its value matches uninit_sv. So roughly speaking, if a unary operator (such as OP_COS) generates a warning, then following the direct child of the op may yield an OP_PADSV or OP_GV that gives the name of the undefined variable. On the other hand, with OP_ADD there are two branches to follow, so we only print the variable name if we get an exact match.
The name is returned as a mortal SV.
Assumes that PL_op is the op that originally triggered the error, and that PL_comppad/PL_curpad points to the currently executing pad.
NOTE: this function is experimental and may change or be removed without notice.
SV* find_uninit_var(const OP *const obase,
const SV *const uninit_sv,
bool top)
Print appropriate "Use of uninitialized variable" warning.
void report_uninit(const SV *uninit_sv)
The following functions are currently undocumented. If you use one of them, you may wish to consider creating and submitting documentation for it.
The autodocumentation system was originally added to the Perl core by Benjamin Stuhl. Documentation is by whoever was kind enough to document their functions.