NAME

B::Utils - Helper functions for op tree manipulation

VERSION

0.22

INSTALLATION

To install this module, run the following commands:

perl Makefile.PL
make
make test
make install

SYNOPSIS

use B::Utils;

OP METHODS

$op->oldname

Returns the name of the op, even if it is currently optimized to null. This helps you understand the stucture of the op tree.

$op->kids

Returns an array of all this op's non-null children, in order.

$op->parent

Returns the parent node in the op tree, if possible. Currently "possible" means "if the tree has already been optimized"; that is, if we're during a CHECK block. (and hence, if we have valid next pointers.)

In the future, it may be possible to search for the parent before we have the next pointers in place, but it'll take me a while to figure out how to do that.

$op->ancestors

Returns all parents of this node, recursively. The list is ordered from younger/closer parents to older/farther parents.

$op->descendants

Returns all children of this node, recursively. The list is unordered.

$op->siblings

Returns all younger siblings of this node. The list is ordered from younger/closer siblings to older/farther siblings.

$op->previous

Like $op->next , but not quite.

$op->stringify

Returns a nice stringification of an opcode.

$op->as_opgrep_pattern(%options)

From the op tree it is called on, as_opgrep_pattern() generates a data structure suitable for use as a condition pattern for the opgrep() function described below in detail. Beware: When using such generated patterns, there may be false positives: The pattern will most likely not match only the op tree it was generated from since by default, not all properties of the op are reproduced.

You can control which properties of the op to include in the pattern by passing named arguments. The default behaviour is as if you passed in the following options:

my $pattern = $op->as_opgrep_pattern(
  attributes          => [qw(name flags)],
  max_recursion_depth => undef,
);

So obviously, you can set max_recursion_depth to a number to limit the maximum depth of recursion into the op tree. Setting it to 0 will limit the dump to the current op.

attributes is a list of attributes to include in the produced pattern. The attributes that can be checked against in this way are

name targ type seq flags private pmflags pmpermflags.

EXPORTABLE FUNCTIONS

all_starts
all_roots

Returns a hash of all of the starting ops or root ops of optrees, keyed to subroutine name; the optree for main program is simply keyed to __MAIN__.

Note: Certain "dangerous" stashes are not scanned for subroutines: the list of such stashes can be found in @B::Utils::bad_stashes. Feel free to examine and/or modify this to suit your needs. The intention is that a simple program which uses no modules other than B and B::Utils would show no addition symbols.

This does not return the details of ops in anonymous subroutines compiled at compile time. For instance, given

$a = sub { ... };

the subroutine will not appear in the hash. This is just as well, since they're anonymous... If you want to get at them, use...

anon_subs

This returns an array of hash references. Each element has the keys "start" and "root". These are the starting and root ops of all of the anonymous subroutines in the program.

recalc_sub_cache

If PL_sub_generation has changed or you have some other reason to want to force the re-examination of the optrees, everywhere, call this function.

walkoptree_simple($op, \&callback, [$data])

The B module provides various functions to walk the op tree, but they're all rather difficult to use, requiring you to inject methods into the B::OP class. This is a very simple op tree walker with more expected semantics.

All the walk functions set $B::Utils::file, $B::Utils::line, and $B::Utils::sub to the appropriate values of file, line number, and sub name in the program being examined.

walkoptree_filtered($op, \&filter, \&callback, [$data])

This is much the same as walkoptree_simple, but will only call the callback if the filter returns true. The filter is passed the op in question as a parameter; the opgrep function is fantastic for building your own filters.

walkallops_simple(\&callback, [$data])

This combines walkoptree_simple with all_roots and anon_subs to examine every op in the program. $B::Utils::sub is set to the subroutine name if you're in a subroutine, __MAIN__ if you're in the main program and __ANON__ if you're in an anonymous subroutine.

walkallops_filtered(\&filter, \&callback, [$data])

Same as above, but filtered.

opgrep(\%conditions, @ops)

Returns the ops which meet the given conditions. The conditions should be specified like this:

@barewords = opgrep(
                    { name => "const", private => OPpCONST_BARE },
                    @ops
                   );

where the first argument to opgrep() is the condition to be matched against the op structure. We'll henceforth refer to it as an op-pattern.

You can specify alternation by giving an arrayref of values:

@svs = opgrep ( { name => ["padsv", "gvsv"] }, @ops)

And you can specify inversion by making the first element of the arrayref a "!". (Hint: if you want to say "anything", say "not nothing": ["!"])

You may also specify the conditions to be matched in nearby ops as nested patterns.

walkallops_filtered(
    sub { opgrep( {name => "exec",
                   next => {
                             name    => "nextstate",
                             sibling => { name => [qw(! exit warn die)] }
                           }
                  }, @_)},
    sub {
          carp("Statement unlikely to be reached");
          carp("\t(Maybe you meant system() when you said exec()?)\n");
    }
)

Get that?

Here are the things that can be tested in this way:

name targ type seq flags private pmflags pmpermflags
first other last sibling next pmreplroot pmreplstart pmnext

Additionally, you can use the kids keyword with an array reference to match the result of a call to $op->kids(). An example use is given in the documentation for op_or below.

For debugging, you can have many properties of an op that is currently being matched against a given condition dumped to STDERR by specifying dump = 1> in the condition's hash reference.

If you match a complex condition against an op tree, you may want to extract a specific piece of information from the tree if the condition matches. This normally entails manually walking the tree a second time down to the op you wish to extract, investigate or modify. Since this is tedious duplication of code and information, you can specify a special property in the pattern of the op you wish to extract to capture the sub-op of interest. Example:

my ($result) = opgrep(
  { name => "exec",
    next => { name    => "nextstate",
              sibling => { name => [qw(! exit warn die)]
                           capture => "notreached",
                         },
            }
  },
  $root_op
);

if ($result) {
  my $name = $result->{notreached}->name; # result is *not* the root op
  carp("Statement unlikely to be reached (op name: $name)");
  carp("\t(Maybe you meant system() when you said exec()?)\n");
}

While the above is a terribly contrived example, consider the win for a deeply nested pattern or worse yet, a pattern with many disjunctions. If a capture property is found anywhere in the op pattern, opgrep() returns an unblessed hash reference on success instead of the tested op. You can tell them apart using Scalar::Util's blessed(). That hash reference contains all captured ops plus the tested root up as the hash entry $result->{op}. Note that you cannot use this feature with walkoptree_filtered since that function was specifically documented to pass the tested op itself to the callback.

You cannot capture disjunctions, but that doesn't really make sense anyway.

opgrep( \@conditions, @ops )

Same as above, except that you don't have to chain the conditions yourself. If you pass an array-ref, opgrep will chain the conditions for you using next. The conditions can either be strings (taken as op-names), or hash-refs, with the same testable conditions as given above.

op_or( @conditions )

Unlike the chaining of conditions done by opgrep itself if there are multiple conditions, this function creates a disjunction ($cond1 || $cond2 || ...) of the conditions and returns a structure (hash reference) that can be passed to opgrep as a single condition.

Example:

my $sub_structure = {
  name => 'helem',
  first => { name => 'rv2hv', },
  'last' => { name => 'const', },
};

my @ops = opgrep( {
    name => 'leavesub',
    first => {
      name => 'lineseq',
      kids => [,
        { name => 'nextstate', },
        op_or(
          {
            name => 'return',
            first => { name => 'pushmark' },
            last => $sub_structure,
          },
          $sub_structure,
        ),
      ],
    },
}, $op_obj );

This example matches the code in a typical simplest-possible accessor method (albeit not down to the last bit):

sub get_foo { $_[0]->{foo} }

But by adding an alternation we can also match optional op layers. In this case, we optionally match a return statement, so the following implementation is also recognized:

sub get_foo { return $_[0]->{foo} }

Essentially, this is syntactic sugar for the following structure recognized by opgrep():

{ disjunction => [@conditions] }
carp(@args)
croak(@args)

Warn and die, respectively, from the perspective of the position of the op in the program. Sounds complicated, but it's exactly the kind of error reporting you expect when you're grovelling through an op tree.

EXPORT

None by default.

XS EXPORT

This modules uses ExtUtils::Depends to export some useful functions for XS modules to use. To use those, include in your Makefile.PL:

my $pkg = ExtUtils::Depends->new("Your::XSModule", "B::Utils");
WriteMakefile(
  ... # your normal makefile flags
  $pkg->get_makefile_vars,
);

Your XS module can now include BUtils.h and BUtils_op.h. To see document for the functions provided, use:

perldoc -m B::Utils::Install::BUtils.h
perldoc -m B::Utils::Install::BUtils_op.h

AUTHOR

Originally written by Simon Cozens, simon@cpan.org Maintained by Joshua ben Jore, jjore@cpan.org

Contributions from Mattia Barbon, Jim Cromie, Steffen Mueller, and Chia-liang Kao, Alexandr Ciornii, Reini Urban.

LICENSE

This module is free software; you can redistribute it and/or modify it under the same terms as Perl itself.

SEE ALSO

B, B::Generate.