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|
=head1 NAME
perldebguts - Guts of Perl debugging
=head1 DESCRIPTION
This is not L<perldebug>, which tells you how to use
the debugger. This manpage describes low-level details concerning
the debugger's internals, which range from difficult to impossible
to understand for anyone who isn't incredibly intimate with Perl's guts.
Caveat lector.
=head1 Debugger Internals
Perl has special debugging hooks at compile-time and run-time used
to create debugging environments. These hooks are not to be confused
with the I<perl -Dxxx> command described in L<perlrun>, which is
usable only if a special Perl is built per the instructions in the
F<INSTALL> podpage in the Perl source tree.
For example, whenever you call Perl's built-in C<caller> function
from the package C<DB>, the arguments that the corresponding stack
frame was called with are copied to the C<@DB::args> array. These
mechanisms are enabled by calling Perl with the B<-d> switch.
Specifically, the following additional features are enabled
(cf. L<perlvar/$^P>):
=over 4
=item *
Perl inserts the contents of C<$ENV{PERL5DB}> (or C<BEGIN {require
'perl5db.pl'}> if not present) before the first line of your program.
=item *
Each array C<@{"_<$filename"}> holds the lines of $filename for a
file compiled by Perl. The same is also true for C<eval>ed strings
that contain subroutines, or which are currently being executed.
The $filename for C<eval>ed strings looks like C<(eval 34)>.
Code assertions in regexes look like C<(re_eval 19)>.
Values in this array are magical in numeric context: they compare
equal to zero only if the line is not breakable.
=item *
Each hash C<%{"_<$filename"}> contains breakpoints and actions keyed
by line number. Individual entries (as opposed to the whole hash)
are settable. Perl only cares about Boolean true here, although
the values used by F<perl5db.pl> have the form
C<"$break_condition\0$action">.
The same holds for evaluated strings that contain subroutines, or
which are currently being executed. The $filename for C<eval>ed strings
looks like C<(eval 34)> or C<(re_eval 19)>.
=item *
Each scalar C<${"_<$filename"}> contains C<"_<$filename">. This is
also the case for evaluated strings that contain subroutines, or
which are currently being executed. The $filename for C<eval>ed
strings looks like C<(eval 34)> or C<(re_eval 19)>.
=item *
After each C<require>d file is compiled, but before it is executed,
C<DB::postponed(*{"_<$filename"})> is called if the subroutine
C<DB::postponed> exists. Here, the $filename is the expanded name of
the C<require>d file, as found in the values of %INC.
=item *
After each subroutine C<subname> is compiled, the existence of
C<$DB::postponed{subname}> is checked. If this key exists,
C<DB::postponed(subname)> is called if the C<DB::postponed> subroutine
also exists.
=item *
A hash C<%DB::sub> is maintained, whose keys are subroutine names
and whose values have the form C<filename:startline-endline>.
C<filename> has the form C<(eval 34)> for subroutines defined inside
C<eval>s, or C<(re_eval 19)> for those within regex code assertions.
=item *
When the execution of your program reaches a point that can hold a
breakpoint, the C<DB::DB()> subroutine is called if any of the variables
C<$DB::trace>, C<$DB::single>, or C<$DB::signal> is true. These variables
are not C<local>izable. This feature is disabled when executing
inside C<DB::DB()>, including functions called from it
unless C<< $^D & (1<<30) >> is true.
=item *
When execution of the program reaches a subroutine call, a call to
C<&DB::sub>(I<args>) is made instead, with C<$DB::sub> holding the
name of the called subroutine. (This doesn't happen if the subroutine
was compiled in the C<DB> package.)
=back
Note that if C<&DB::sub> needs external data for it to work, no
subroutine call is possible without it. As an example, the standard
debugger's C<&DB::sub> depends on the C<$DB::deep> variable
(it defines how many levels of recursion deep into the debugger you can go
before a mandatory break). If C<$DB::deep> is not defined, subroutine
calls are not possible, even though C<&DB::sub> exists.
=head2 Writing Your Own Debugger
=head3 Environment Variables
The C<PERL5DB> environment variable can be used to define a debugger.
For example, the minimal "working" debugger (it actually doesn't do anything)
consists of one line:
sub DB::DB {}
It can easily be defined like this:
$ PERL5DB="sub DB::DB {}" perl -d your-script
Another brief debugger, slightly more useful, can be created
with only the line:
sub DB::DB {print ++$i; scalar <STDIN>}
This debugger prints a number which increments for each statement
encountered and waits for you to hit a newline before continuing
to the next statement.
The following debugger is actually useful:
{
package DB;
sub DB {}
sub sub {print ++$i, " $sub\n"; &$sub}
}
It prints the sequence number of each subroutine call and the name of the
called subroutine. Note that C<&DB::sub> is being compiled into the
package C<DB> through the use of the C<package> directive.
When it starts, the debugger reads your rc file (F<./.perldb> or
F<~/.perldb> under Unix), which can set important options.
(A subroutine (C<&afterinit>) can be defined here as well; it is executed
after the debugger completes its own initialization.)
After the rc file is read, the debugger reads the PERLDB_OPTS
environment variable and uses it to set debugger options. The
contents of this variable are treated as if they were the argument
of an C<o ...> debugger command (q.v. in L<perldebug/"Configurable Options">).
=head3 Debugger Internal Variables
In addition to the file and subroutine-related variables mentioned above,
the debugger also maintains various magical internal variables.
=over 4
=item *
C<@DB::dbline> is an alias for C<@{"::_<current_file"}>, which
holds the lines of the currently-selected file (compiled by Perl), either
explicitly chosen with the debugger's C<f> command, or implicitly by flow
of execution.
Values in this array are magical in numeric context: they compare
equal to zero only if the line is not breakable.
=item *
C<%DB::dbline> is an alias for C<%{"::_<current_file"}>, which
contains breakpoints and actions keyed by line number in
the currently-selected file, either explicitly chosen with the
debugger's C<f> command, or implicitly by flow of execution.
As previously noted, individual entries (as opposed to the whole hash)
are settable. Perl only cares about Boolean true here, although
the values used by F<perl5db.pl> have the form
C<"$break_condition\0$action">.
=back
=head3 Debugger Customization Functions
Some functions are provided to simplify customization.
=over 4
=item *
See L<perldebug/"Configurable Options"> for a description of options parsed by
C<DB::parse_options(string)>.
=item *
C<DB::dump_trace(skip[,count])> skips the specified number of frames
and returns a list containing information about the calling frames (all
of them, if C<count> is missing). Each entry is reference to a hash
with keys C<context> (either C<.>, C<$>, or C<@>), C<sub> (subroutine
name, or info about C<eval>), C<args> (C<undef> or a reference to
an array), C<file>, and C<line>.
=item *
C<DB::print_trace(FH, skip[, count[, short]])> prints
formatted info about caller frames. The last two functions may be
convenient as arguments to C<< < >>, C<< << >> commands.
=back
Note that any variables and functions that are not documented in
this manpages (or in L<perldebug>) are considered for internal
use only, and as such are subject to change without notice.
=head1 Frame Listing Output Examples
The C<frame> option can be used to control the output of frame
information. For example, contrast this expression trace:
$ perl -de 42
Stack dump during die enabled outside of evals.
Loading DB routines from perl5db.pl patch level 0.94
Emacs support available.
Enter h or `h h' for help.
main::(-e:1): 0
DB<1> sub foo { 14 }
DB<2> sub bar { 3 }
DB<3> t print foo() * bar()
main::((eval 172):3): print foo() + bar();
main::foo((eval 168):2):
main::bar((eval 170):2):
42
with this one, once the C<o>ption C<frame=2> has been set:
DB<4> o f=2
frame = '2'
DB<5> t print foo() * bar()
3: foo() * bar()
entering main::foo
2: sub foo { 14 };
exited main::foo
entering main::bar
2: sub bar { 3 };
exited main::bar
42
By way of demonstration, we present below a laborious listing
resulting from setting your C<PERLDB_OPTS> environment variable to
the value C<f=n N>, and running I<perl -d -V> from the command line.
Examples using various values of C<n> are shown to give you a feel
for the difference between settings. Long though it may be, this
is not a complete listing, but only excerpts.
=over 4
=item 1
entering main::BEGIN
entering Config::BEGIN
Package lib/Exporter.pm.
Package lib/Carp.pm.
Package lib/Config.pm.
entering Config::TIEHASH
entering Exporter::import
entering Exporter::export
entering Config::myconfig
entering Config::FETCH
entering Config::FETCH
entering Config::FETCH
entering Config::FETCH
=item 2
entering main::BEGIN
entering Config::BEGIN
Package lib/Exporter.pm.
Package lib/Carp.pm.
exited Config::BEGIN
Package lib/Config.pm.
entering Config::TIEHASH
exited Config::TIEHASH
entering Exporter::import
entering Exporter::export
exited Exporter::export
exited Exporter::import
exited main::BEGIN
entering Config::myconfig
entering Config::FETCH
exited Config::FETCH
entering Config::FETCH
exited Config::FETCH
entering Config::FETCH
=item 3
in $=main::BEGIN() from /dev/null:0
in $=Config::BEGIN() from lib/Config.pm:2
Package lib/Exporter.pm.
Package lib/Carp.pm.
Package lib/Config.pm.
in $=Config::TIEHASH('Config') from lib/Config.pm:644
in $=Exporter::import('Config', 'myconfig', 'config_vars') from /dev/null:0
in $=Exporter::export('Config', 'main', 'myconfig', 'config_vars') from li
in @=Config::myconfig() from /dev/null:0
in $=Config::FETCH(ref(Config), 'package') from lib/Config.pm:574
in $=Config::FETCH(ref(Config), 'baserev') from lib/Config.pm:574
in $=Config::FETCH(ref(Config), 'PERL_VERSION') from lib/Config.pm:574
in $=Config::FETCH(ref(Config), 'PERL_SUBVERSION') from lib/Config.pm:574
in $=Config::FETCH(ref(Config), 'osname') from lib/Config.pm:574
in $=Config::FETCH(ref(Config), 'osvers') from lib/Config.pm:574
=item 4
in $=main::BEGIN() from /dev/null:0
in $=Config::BEGIN() from lib/Config.pm:2
Package lib/Exporter.pm.
Package lib/Carp.pm.
out $=Config::BEGIN() from lib/Config.pm:0
Package lib/Config.pm.
in $=Config::TIEHASH('Config') from lib/Config.pm:644
out $=Config::TIEHASH('Config') from lib/Config.pm:644
in $=Exporter::import('Config', 'myconfig', 'config_vars') from /dev/null:0
in $=Exporter::export('Config', 'main', 'myconfig', 'config_vars') from lib/
out $=Exporter::export('Config', 'main', 'myconfig', 'config_vars') from lib/
out $=Exporter::import('Config', 'myconfig', 'config_vars') from /dev/null:0
out $=main::BEGIN() from /dev/null:0
in @=Config::myconfig() from /dev/null:0
in $=Config::FETCH(ref(Config), 'package') from lib/Config.pm:574
out $=Config::FETCH(ref(Config), 'package') from lib/Config.pm:574
in $=Config::FETCH(ref(Config), 'baserev') from lib/Config.pm:574
out $=Config::FETCH(ref(Config), 'baserev') from lib/Config.pm:574
in $=Config::FETCH(ref(Config), 'PERL_VERSION') from lib/Config.pm:574
out $=Config::FETCH(ref(Config), 'PERL_VERSION') from lib/Config.pm:574
in $=Config::FETCH(ref(Config), 'PERL_SUBVERSION') from lib/Config.pm:574
=item 5
in $=main::BEGIN() from /dev/null:0
in $=Config::BEGIN() from lib/Config.pm:2
Package lib/Exporter.pm.
Package lib/Carp.pm.
out $=Config::BEGIN() from lib/Config.pm:0
Package lib/Config.pm.
in $=Config::TIEHASH('Config') from lib/Config.pm:644
out $=Config::TIEHASH('Config') from lib/Config.pm:644
in $=Exporter::import('Config', 'myconfig', 'config_vars') from /dev/null:0
in $=Exporter::export('Config', 'main', 'myconfig', 'config_vars') from lib/E
out $=Exporter::export('Config', 'main', 'myconfig', 'config_vars') from lib/E
out $=Exporter::import('Config', 'myconfig', 'config_vars') from /dev/null:0
out $=main::BEGIN() from /dev/null:0
in @=Config::myconfig() from /dev/null:0
in $=Config::FETCH('Config=HASH(0x1aa444)', 'package') from lib/Config.pm:574
out $=Config::FETCH('Config=HASH(0x1aa444)', 'package') from lib/Config.pm:574
in $=Config::FETCH('Config=HASH(0x1aa444)', 'baserev') from lib/Config.pm:574
out $=Config::FETCH('Config=HASH(0x1aa444)', 'baserev') from lib/Config.pm:574
=item 6
in $=CODE(0x15eca4)() from /dev/null:0
in $=CODE(0x182528)() from lib/Config.pm:2
Package lib/Exporter.pm.
out $=CODE(0x182528)() from lib/Config.pm:0
scalar context return from CODE(0x182528): undef
Package lib/Config.pm.
in $=Config::TIEHASH('Config') from lib/Config.pm:628
out $=Config::TIEHASH('Config') from lib/Config.pm:628
scalar context return from Config::TIEHASH: empty hash
in $=Exporter::import('Config', 'myconfig', 'config_vars') from /dev/null:0
in $=Exporter::export('Config', 'main', 'myconfig', 'config_vars') from lib/Exporter.pm:171
out $=Exporter::export('Config', 'main', 'myconfig', 'config_vars') from lib/Exporter.pm:171
scalar context return from Exporter::export: ''
out $=Exporter::import('Config', 'myconfig', 'config_vars') from /dev/null:0
scalar context return from Exporter::import: ''
=back
In all cases shown above, the line indentation shows the call tree.
If bit 2 of C<frame> is set, a line is printed on exit from a
subroutine as well. If bit 4 is set, the arguments are printed
along with the caller info. If bit 8 is set, the arguments are
printed even if they are tied or references. If bit 16 is set, the
return value is printed, too.
When a package is compiled, a line like this
Package lib/Carp.pm.
is printed with proper indentation.
=head1 Debugging Regular Expressions
There are two ways to enable debugging output for regular expressions.
If your perl is compiled with C<-DDEBUGGING>, you may use the
B<-Dr> flag on the command line.
Otherwise, one can C<use re 'debug'>, which has effects at
compile time and run time. Since Perl 5.9.5, this pragma is lexically
scoped.
=head2 Compile-time Output
The debugging output at compile time looks like this:
Compiling REx `[bc]d(ef*g)+h[ij]k$'
size 45 Got 364 bytes for offset annotations.
first at 1
rarest char g at 0
rarest char d at 0
1: ANYOF[bc](12)
12: EXACT <d>(14)
14: CURLYX[0] {1,32767}(28)
16: OPEN1(18)
18: EXACT <e>(20)
20: STAR(23)
21: EXACT <f>(0)
23: EXACT <g>(25)
25: CLOSE1(27)
27: WHILEM[1/1](0)
28: NOTHING(29)
29: EXACT <h>(31)
31: ANYOF[ij](42)
42: EXACT <k>(44)
44: EOL(45)
45: END(0)
anchored `de' at 1 floating `gh' at 3..2147483647 (checking floating)
stclass `ANYOF[bc]' minlen 7
Offsets: [45]
1[4] 0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 5[1]
0[0] 12[1] 0[0] 6[1] 0[0] 7[1] 0[0] 9[1] 8[1] 0[0] 10[1] 0[0]
11[1] 0[0] 12[0] 12[0] 13[1] 0[0] 14[4] 0[0] 0[0] 0[0] 0[0]
0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 18[1] 0[0] 19[1] 20[0]
Omitting $` $& $' support.
The first line shows the pre-compiled form of the regex. The second
shows the size of the compiled form (in arbitrary units, usually
4-byte words) and the total number of bytes allocated for the
offset/length table, usually 4+C<size>*8. The next line shows the
label I<id> of the first node that does a match.
The
anchored `de' at 1 floating `gh' at 3..2147483647 (checking floating)
stclass `ANYOF[bc]' minlen 7
line (split into two lines above) contains optimizer
information. In the example shown, the optimizer found that the match
should contain a substring C<de> at offset 1, plus substring C<gh>
at some offset between 3 and infinity. Moreover, when checking for
these substrings (to abandon impossible matches quickly), Perl will check
for the substring C<gh> before checking for the substring C<de>. The
optimizer may also use the knowledge that the match starts (at the
C<first> I<id>) with a character class, and no string
shorter than 7 characters can possibly match.
The fields of interest which may appear in this line are
=over 4
=item C<anchored> I<STRING> C<at> I<POS>
=item C<floating> I<STRING> C<at> I<POS1..POS2>
See above.
=item C<matching floating/anchored>
Which substring to check first.
=item C<minlen>
The minimal length of the match.
=item C<stclass> I<TYPE>
Type of first matching node.
=item C<noscan>
Don't scan for the found substrings.
=item C<isall>
Means that the optimizer information is all that the regular
expression contains, and thus one does not need to enter the regex engine at
all.
=item C<GPOS>
Set if the pattern contains C<\G>.
=item C<plus>
Set if the pattern starts with a repeated char (as in C<x+y>).
=item C<implicit>
Set if the pattern starts with C<.*>.
=item C<with eval>
Set if the pattern contain eval-groups, such as C<(?{ code })> and
C<(??{ code })>.
=item C<anchored(TYPE)>
If the pattern may match only at a handful of places, with C<TYPE>
being C<BOL>, C<MBOL>, or C<GPOS>. See the table below.
=back
If a substring is known to match at end-of-line only, it may be
followed by C<$>, as in C<floating `k'$>.
The optimizer-specific information is used to avoid entering (a slow) regex
engine on strings that will not definitely match. If the C<isall> flag
is set, a call to the regex engine may be avoided even when the optimizer
found an appropriate place for the match.
Above the optimizer section is the list of I<nodes> of the compiled
form of the regex. Each line has format
C< >I<id>: I<TYPE> I<OPTIONAL-INFO> (I<next-id>)
=head2 Types of Nodes
Here are the possible types, with short descriptions:
# TYPE arg-description [num-args] [longjump-len] DESCRIPTION
# Exit points
END no End of program.
SUCCEED no Return from a subroutine, basically.
# Anchors:
BOL no Match "" at beginning of line.
MBOL no Same, assuming multiline.
SBOL no Same, assuming singleline.
EOS no Match "" at end of string.
EOL no Match "" at end of line.
MEOL no Same, assuming multiline.
SEOL no Same, assuming singleline.
BOUND no Match "" at any word boundary
BOUNDL no Match "" at any word boundary
NBOUND no Match "" at any word non-boundary
NBOUNDL no Match "" at any word non-boundary
GPOS no Matches where last m//g left off.
# [Special] alternatives
ANY no Match any one character (except newline).
SANY no Match any one character.
ANYOF sv Match character in (or not in) this class.
ALNUM no Match any alphanumeric character
ALNUML no Match any alphanumeric char in locale
NALNUM no Match any non-alphanumeric character
NALNUML no Match any non-alphanumeric char in locale
SPACE no Match any whitespace character
SPACEL no Match any whitespace char in locale
NSPACE no Match any non-whitespace character
NSPACEL no Match any non-whitespace char in locale
DIGIT no Match any numeric character
NDIGIT no Match any non-numeric character
# BRANCH The set of branches constituting a single choice are hooked
# together with their "next" pointers, since precedence prevents
# anything being concatenated to any individual branch. The
# "next" pointer of the last BRANCH in a choice points to the
# thing following the whole choice. This is also where the
# final "next" pointer of each individual branch points; each
# branch starts with the operand node of a BRANCH node.
#
BRANCH node Match this alternative, or the next...
# BACK Normal "next" pointers all implicitly point forward; BACK
# exists to make loop structures possible.
# not used
BACK no Match "", "next" ptr points backward.
# Literals
EXACT sv Match this string (preceded by length).
EXACTF sv Match this string, folded (prec. by length).
EXACTFL sv Match this string, folded in locale (w/len).
# Do nothing
NOTHING no Match empty string.
# A variant of above which delimits a group, thus stops optimizations
TAIL no Match empty string. Can jump here from outside.
# STAR,PLUS '?', and complex '*' and '+', are implemented as circular
# BRANCH structures using BACK. Simple cases (one character
# per match) are implemented with STAR and PLUS for speed
# and to minimize recursive plunges.
#
STAR node Match this (simple) thing 0 or more times.
PLUS node Match this (simple) thing 1 or more times.
CURLY sv 2 Match this simple thing {n,m} times.
CURLYN no 2 Match next-after-this simple thing
# {n,m} times, set parens.
CURLYM no 2 Match this medium-complex thing {n,m} times.
CURLYX sv 2 Match this complex thing {n,m} times.
# This terminator creates a loop structure for CURLYX
WHILEM no Do curly processing and see if rest matches.
# OPEN,CLOSE,GROUPP ...are numbered at compile time.
OPEN num 1 Mark this point in input as start of #n.
CLOSE num 1 Analogous to OPEN.
REF num 1 Match some already matched string
REFF num 1 Match already matched string, folded
REFFL num 1 Match already matched string, folded in loc.
# grouping assertions
IFMATCH off 1 2 Succeeds if the following matches.
UNLESSM off 1 2 Fails if the following matches.
SUSPEND off 1 1 "Independent" sub-regex.
IFTHEN off 1 1 Switch, should be preceded by switcher.
GROUPP num 1 Whether the group matched.
# Support for long regex
LONGJMP off 1 1 Jump far away.
BRANCHJ off 1 1 BRANCH with long offset.
# The heavy worker
EVAL evl 1 Execute some Perl code.
# Modifiers
MINMOD no Next operator is not greedy.
LOGICAL no Next opcode should set the flag only.
# This is not used yet
RENUM off 1 1 Group with independently numbered parens.
# This is not really a node, but an optimized-away piece of a "long" node.
# To simplify debugging output, we mark it as if it were a node
OPTIMIZED off Placeholder for dump.
=for unprinted-credits
Next section M-J. Dominus (mjd-perl-patch+@plover.com) 20010421
Following the optimizer information is a dump of the offset/length
table, here split across several lines:
Offsets: [45]
1[4] 0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 5[1]
0[0] 12[1] 0[0] 6[1] 0[0] 7[1] 0[0] 9[1] 8[1] 0[0] 10[1] 0[0]
11[1] 0[0] 12[0] 12[0] 13[1] 0[0] 14[4] 0[0] 0[0] 0[0] 0[0]
0[0] 0[0] 0[0] 0[0] 0[0] 0[0] 18[1] 0[0] 19[1] 20[0]
The first line here indicates that the offset/length table contains 45
entries. Each entry is a pair of integers, denoted by C<offset[length]>.
Entries are numbered starting with 1, so entry #1 here is C<1[4]> and
entry #12 is C<5[1]>. C<1[4]> indicates that the node labeled C<1:>
(the C<1: ANYOF[bc]>) begins at character position 1 in the
pre-compiled form of the regex, and has a length of 4 characters.
C<5[1]> in position 12
indicates that the node labeled C<12:>
(the C<< 12: EXACT <d> >>) begins at character position 5 in the
pre-compiled form of the regex, and has a length of 1 character.
C<12[1]> in position 14
indicates that the node labeled C<14:>
(the C<< 14: CURLYX[0] {1,32767} >>) begins at character position 12 in the
pre-compiled form of the regex, and has a length of 1 character---that
is, it corresponds to the C<+> symbol in the precompiled regex.
C<0[0]> items indicate that there is no corresponding node.
=head2 Run-time Output
First of all, when doing a match, one may get no run-time output even
if debugging is enabled. This means that the regex engine was never
entered and that all of the job was therefore done by the optimizer.
If the regex engine was entered, the output may look like this:
Matching `[bc]d(ef*g)+h[ij]k$' against `abcdefg__gh__'
Setting an EVAL scope, savestack=3
2 <ab> <cdefg__gh_> | 1: ANYOF
3 <abc> <defg__gh_> | 11: EXACT <d>
4 <abcd> <efg__gh_> | 13: CURLYX {1,32767}
4 <abcd> <efg__gh_> | 26: WHILEM
0 out of 1..32767 cc=effff31c
4 <abcd> <efg__gh_> | 15: OPEN1
4 <abcd> <efg__gh_> | 17: EXACT <e>
5 <abcde> <fg__gh_> | 19: STAR
EXACT <f> can match 1 times out of 32767...
Setting an EVAL scope, savestack=3
6 <bcdef> <g__gh__> | 22: EXACT <g>
7 <bcdefg> <__gh__> | 24: CLOSE1
7 <bcdefg> <__gh__> | 26: WHILEM
1 out of 1..32767 cc=effff31c
Setting an EVAL scope, savestack=12
7 <bcdefg> <__gh__> | 15: OPEN1
7 <bcdefg> <__gh__> | 17: EXACT <e>
restoring \1 to 4(4)..7
failed, try continuation...
7 <bcdefg> <__gh__> | 27: NOTHING
7 <bcdefg> <__gh__> | 28: EXACT <h>
failed...
failed...
The most significant information in the output is about the particular I<node>
of the compiled regex that is currently being tested against the target string.
The format of these lines is
C< >I<STRING-OFFSET> <I<PRE-STRING>> <I<POST-STRING>> |I<ID>: I<TYPE>
The I<TYPE> info is indented with respect to the backtracking level.
Other incidental information appears interspersed within.
=head1 Debugging Perl Memory Usage
Perl is a profligate wastrel when it comes to memory use. There
is a saying that to estimate memory usage of Perl, assume a reasonable
algorithm for memory allocation, multiply that estimate by 10, and
while you still may miss the mark, at least you won't be quite so
astonished. This is not absolutely true, but may provide a good
grasp of what happens.
Assume that an integer cannot take less than 20 bytes of memory, a
float cannot take less than 24 bytes, a string cannot take less
than 32 bytes (all these examples assume 32-bit architectures, the
result are quite a bit worse on 64-bit architectures). If a variable
is accessed in two of three different ways (which require an integer,
a float, or a string), the memory footprint may increase yet another
20 bytes. A sloppy malloc(3) implementation can inflate these
numbers dramatically.
On the opposite end of the scale, a declaration like
sub foo;
may take up to 500 bytes of memory, depending on which release of Perl
you're running.
Anecdotal estimates of source-to-compiled code bloat suggest an
eightfold increase. This means that the compiled form of reasonable
(normally commented, properly indented etc.) code will take
about eight times more space in memory than the code took
on disk.
The B<-DL> command-line switch is obsolete since circa Perl 5.6.0
(it was available only if Perl was built with C<-DDEBUGGING>).
The switch was used to track Perl's memory allocations and possible
memory leaks. These days the use of malloc debugging tools like
F<Purify> or F<valgrind> is suggested instead. See also
L<perlhacktips/PERL_MEM_LOG>.
One way to find out how much memory is being used by Perl data
structures is to install the Devel::Size module from CPAN: it gives
you the minimum number of bytes required to store a particular data
structure. Please be mindful of the difference between the size()
and total_size().
If Perl has been compiled using Perl's malloc you can analyze Perl
memory usage by setting $ENV{PERL_DEBUG_MSTATS}.
=head2 Using C<$ENV{PERL_DEBUG_MSTATS}>
If your perl is using Perl's malloc() and was compiled with the
necessary switches (this is the default), then it will print memory
usage statistics after compiling your code when C<< $ENV{PERL_DEBUG_MSTATS}
> 1 >>, and before termination of the program when C<<
$ENV{PERL_DEBUG_MSTATS} >= 1 >>. The report format is similar to
the following example:
$ PERL_DEBUG_MSTATS=2 perl -e "require Carp"
Memory allocation statistics after compilation: (buckets 4(4)..8188(8192)
14216 free: 130 117 28 7 9 0 2 2 1 0 0
437 61 36 0 5
60924 used: 125 137 161 55 7 8 6 16 2 0 1
74 109 304 84 20
Total sbrk(): 77824/21:119. Odd ends: pad+heads+chain+tail: 0+636+0+2048.
Memory allocation statistics after execution: (buckets 4(4)..8188(8192)
30888 free: 245 78 85 13 6 2 1 3 2 0 1
315 162 39 42 11
175816 used: 265 176 1112 111 26 22 11 27 2 1 1
196 178 1066 798 39
Total sbrk(): 215040/47:145. Odd ends: pad+heads+chain+tail: 0+2192+0+6144.
It is possible to ask for such a statistic at arbitrary points in
your execution using the mstat() function out of the standard
Devel::Peek module.
Here is some explanation of that format:
=over 4
=item C<buckets SMALLEST(APPROX)..GREATEST(APPROX)>
Perl's malloc() uses bucketed allocations. Every request is rounded
up to the closest bucket size available, and a bucket is taken from
the pool of buckets of that size.
The line above describes the limits of buckets currently in use.
Each bucket has two sizes: memory footprint and the maximal size
of user data that can fit into this bucket. Suppose in the above
example that the smallest bucket were size 4. The biggest bucket
would have usable size 8188, and the memory footprint would be 8192.
In a Perl built for debugging, some buckets may have negative usable
size. This means that these buckets cannot (and will not) be used.
For larger buckets, the memory footprint may be one page greater
than a power of 2. If so, the corresponding power of two is
printed in the C<APPROX> field above.
=item Free/Used
The 1 or 2 rows of numbers following that correspond to the number
of buckets of each size between C<SMALLEST> and C<GREATEST>. In
the first row, the sizes (memory footprints) of buckets are powers
of two--or possibly one page greater. In the second row, if present,
the memory footprints of the buckets are between the memory footprints
of two buckets "above".
For example, suppose under the previous example, the memory footprints
were
free: 8 16 32 64 128 256 512 1024 2048 4096 8192
4 12 24 48 80
With a non-C<DEBUGGING> perl, the buckets starting from C<128> have
a 4-byte overhead, and thus an 8192-long bucket may take up to
8188-byte allocations.
=item C<Total sbrk(): SBRKed/SBRKs:CONTINUOUS>
The first two fields give the total amount of memory perl sbrk(2)ed
(ess-broken? :-) and number of sbrk(2)s used. The third number is
what perl thinks about continuity of returned chunks. So long as
this number is positive, malloc() will assume that it is probable
that sbrk(2) will provide continuous memory.
Memory allocated by external libraries is not counted.
=item C<pad: 0>
The amount of sbrk(2)ed memory needed to keep buckets aligned.
=item C<heads: 2192>
Although memory overhead of bigger buckets is kept inside the bucket, for
smaller buckets, it is kept in separate areas. This field gives the
total size of these areas.
=item C<chain: 0>
malloc() may want to subdivide a bigger bucket into smaller buckets.
If only a part of the deceased bucket is left unsubdivided, the rest
is kept as an element of a linked list. This field gives the total
size of these chunks.
=item C<tail: 6144>
To minimize the number of sbrk(2)s, malloc() asks for more memory. This
field gives the size of the yet unused part, which is sbrk(2)ed, but
never touched.
=back
=head1 SEE ALSO
L<perldebug>,
L<perlguts>,
L<perlrun>
L<re>,
and
L<Devel::DProf>.
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