1
0
Fork 0
mirror of https://github.com/git/git.git synced 2024-11-14 13:13:01 +01:00
git/perl/private-Error.pm

828 lines
19 KiB
Perl
Raw Normal View History

# Error.pm
#
# Copyright (c) 1997-8 Graham Barr <gbarr@ti.com>. All rights reserved.
# This program is free software; you can redistribute it and/or
# modify it under the same terms as Perl itself.
#
# Based on my original Error.pm, and Exceptions.pm by Peter Seibel
# <peter@weblogic.com> and adapted by Jesse Glick <jglick@sig.bsh.com>.
#
# but modified ***significantly***
package Error;
use strict;
use vars qw($VERSION);
use 5.004;
$VERSION = "0.15009";
use overload (
'""' => 'stringify',
'0+' => 'value',
'bool' => sub { return 1; },
'fallback' => 1
);
$Error::Depth = 0; # Depth to pass to caller()
$Error::Debug = 0; # Generate verbose stack traces
@Error::STACK = (); # Clause stack for try
$Error::THROWN = undef; # last error thrown, a workaround until die $ref works
my $LAST; # Last error created
my %ERROR; # Last error associated with package
sub throw_Error_Simple
{
my $args = shift;
return Error::Simple->new($args->{'text'});
}
$Error::ObjectifyCallback = \&throw_Error_Simple;
# Exported subs are defined in Error::subs
sub import {
shift;
local $Exporter::ExportLevel = $Exporter::ExportLevel + 1;
Error::subs->import(@_);
}
# I really want to use last for the name of this method, but it is a keyword
# which prevent the syntax last Error
sub prior {
shift; # ignore
return $LAST unless @_;
my $pkg = shift;
return exists $ERROR{$pkg} ? $ERROR{$pkg} : undef
unless ref($pkg);
my $obj = $pkg;
my $err = undef;
if($obj->isa('HASH')) {
$err = $obj->{'__Error__'}
if exists $obj->{'__Error__'};
}
elsif($obj->isa('GLOB')) {
$err = ${*$obj}{'__Error__'}
if exists ${*$obj}{'__Error__'};
}
$err;
}
sub flush {
shift; #ignore
unless (@_) {
$LAST = undef;
return;
}
my $pkg = shift;
return unless ref($pkg);
undef $ERROR{$pkg} if defined $ERROR{$pkg};
}
# Return as much information as possible about where the error
# happened. The -stacktrace element only exists if $Error::DEBUG
# was set when the error was created
sub stacktrace {
my $self = shift;
return $self->{'-stacktrace'}
if exists $self->{'-stacktrace'};
my $text = exists $self->{'-text'} ? $self->{'-text'} : "Died";
$text .= sprintf(" at %s line %d.\n", $self->file, $self->line)
unless($text =~ /\n$/s);
$text;
}
# Allow error propagation, ie
#
# $ber->encode(...) or
# return Error->prior($ber)->associate($ldap);
sub associate {
my $err = shift;
my $obj = shift;
return unless ref($obj);
if($obj->isa('HASH')) {
$obj->{'__Error__'} = $err;
}
elsif($obj->isa('GLOB')) {
${*$obj}{'__Error__'} = $err;
}
$obj = ref($obj);
$ERROR{ ref($obj) } = $err;
return;
}
sub new {
my $self = shift;
my($pkg,$file,$line) = caller($Error::Depth);
my $err = bless {
'-package' => $pkg,
'-file' => $file,
'-line' => $line,
@_
}, $self;
$err->associate($err->{'-object'})
if(exists $err->{'-object'});
# To always create a stacktrace would be very inefficient, so
# we only do it if $Error::Debug is set
if($Error::Debug) {
require Carp;
local $Carp::CarpLevel = $Error::Depth;
my $text = defined($err->{'-text'}) ? $err->{'-text'} : "Error";
my $trace = Carp::longmess($text);
# Remove try calls from the trace
$trace =~ s/(\n\s+\S+__ANON__[^\n]+)?\n\s+eval[^\n]+\n\s+Error::subs::try[^\n]+(?=\n)//sog;
$trace =~ s/(\n\s+\S+__ANON__[^\n]+)?\n\s+eval[^\n]+\n\s+Error::subs::run_clauses[^\n]+\n\s+Error::subs::try[^\n]+(?=\n)//sog;
$err->{'-stacktrace'} = $trace
}
$@ = $LAST = $ERROR{$pkg} = $err;
}
# Throw an error. this contains some very gory code.
sub throw {
my $self = shift;
local $Error::Depth = $Error::Depth + 1;
# if we are not rethrow-ing then create the object to throw
$self = $self->new(@_) unless ref($self);
die $Error::THROWN = $self;
}
# syntactic sugar for
#
# die with Error( ... );
sub with {
my $self = shift;
local $Error::Depth = $Error::Depth + 1;
$self->new(@_);
}
# syntactic sugar for
#
# record Error( ... ) and return;
sub record {
my $self = shift;
local $Error::Depth = $Error::Depth + 1;
$self->new(@_);
}
# catch clause for
#
# try { ... } catch CLASS with { ... }
sub catch {
my $pkg = shift;
my $code = shift;
my $clauses = shift || {};
my $catch = $clauses->{'catch'} ||= [];
unshift @$catch, $pkg, $code;
$clauses;
}
# Object query methods
sub object {
my $self = shift;
exists $self->{'-object'} ? $self->{'-object'} : undef;
}
sub file {
my $self = shift;
exists $self->{'-file'} ? $self->{'-file'} : undef;
}
sub line {
my $self = shift;
exists $self->{'-line'} ? $self->{'-line'} : undef;
}
sub text {
my $self = shift;
exists $self->{'-text'} ? $self->{'-text'} : undef;
}
# overload methods
sub stringify {
my $self = shift;
defined $self->{'-text'} ? $self->{'-text'} : "Died";
}
sub value {
my $self = shift;
exists $self->{'-value'} ? $self->{'-value'} : undef;
}
package Error::Simple;
@Error::Simple::ISA = qw(Error);
sub new {
my $self = shift;
my $text = "" . shift;
my $value = shift;
my(@args) = ();
local $Error::Depth = $Error::Depth + 1;
@args = ( -file => $1, -line => $2)
if($text =~ s/\s+at\s+(\S+)\s+line\s+(\d+)(?:,\s*<[^>]*>\s+line\s+\d+)?\.?\n?$//s);
push(@args, '-value', 0 + $value)
if defined($value);
$self->SUPER::new(-text => $text, @args);
}
sub stringify {
my $self = shift;
my $text = $self->SUPER::stringify;
$text .= sprintf(" at %s line %d.\n", $self->file, $self->line)
unless($text =~ /\n$/s);
$text;
}
##########################################################################
##########################################################################
# Inspired by code from Jesse Glick <jglick@sig.bsh.com> and
# Peter Seibel <peter@weblogic.com>
package Error::subs;
use Exporter ();
use vars qw(@EXPORT_OK @ISA %EXPORT_TAGS);
@EXPORT_OK = qw(try with finally except otherwise);
%EXPORT_TAGS = (try => \@EXPORT_OK);
@ISA = qw(Exporter);
sub blessed {
my $item = shift;
local $@; # don't kill an outer $@
ref $item and eval { $item->can('can') };
}
sub run_clauses ($$$\@) {
my($clauses,$err,$wantarray,$result) = @_;
my $code = undef;
$err = $Error::ObjectifyCallback->({'text' =>$err}) unless ref($err);
CATCH: {
# catch
my $catch;
if(defined($catch = $clauses->{'catch'})) {
my $i = 0;
CATCHLOOP:
for( ; $i < @$catch ; $i += 2) {
my $pkg = $catch->[$i];
unless(defined $pkg) {
#except
splice(@$catch,$i,2,$catch->[$i+1]->());
$i -= 2;
next CATCHLOOP;
}
elsif(blessed($err) && $err->isa($pkg)) {
$code = $catch->[$i+1];
while(1) {
my $more = 0;
local($Error::THROWN);
my $ok = eval {
if($wantarray) {
@{$result} = $code->($err,\$more);
}
elsif(defined($wantarray)) {
@{$result} = ();
$result->[0] = $code->($err,\$more);
}
else {
$code->($err,\$more);
}
1;
};
if( $ok ) {
next CATCHLOOP if $more;
undef $err;
}
else {
$err = defined($Error::THROWN)
? $Error::THROWN : $@;
$err = $Error::ObjectifyCallback->({'text' =>$err})
unless ref($err);
}
last CATCH;
};
}
}
}
# otherwise
my $owise;
if(defined($owise = $clauses->{'otherwise'})) {
my $code = $clauses->{'otherwise'};
my $more = 0;
my $ok = eval {
if($wantarray) {
@{$result} = $code->($err,\$more);
}
elsif(defined($wantarray)) {
@{$result} = ();
$result->[0] = $code->($err,\$more);
}
else {
$code->($err,\$more);
}
1;
};
if( $ok ) {
undef $err;
}
else {
$err = defined($Error::THROWN)
? $Error::THROWN : $@;
$err = $Error::ObjectifyCallback->({'text' =>$err})
unless ref($err);
}
}
}
$err;
}
sub try (&;$) {
my $try = shift;
my $clauses = @_ ? shift : {};
my $ok = 0;
my $err = undef;
my @result = ();
unshift @Error::STACK, $clauses;
my $wantarray = wantarray();
do {
local $Error::THROWN = undef;
local $@ = undef;
$ok = eval {
if($wantarray) {
@result = $try->();
}
elsif(defined $wantarray) {
$result[0] = $try->();
}
else {
$try->();
}
1;
};
$err = defined($Error::THROWN) ? $Error::THROWN : $@
unless $ok;
};
shift @Error::STACK;
$err = run_clauses($clauses,$err,wantarray,@result)
unless($ok);
$clauses->{'finally'}->()
if(defined($clauses->{'finally'}));
if (defined($err))
{
if (blessed($err) && $err->can('throw'))
{
throw $err;
}
else
{
die $err;
}
}
wantarray ? @result : $result[0];
}
# Each clause adds a sub to the list of clauses. The finally clause is
# always the last, and the otherwise clause is always added just before
# the finally clause.
#
# All clauses, except the finally clause, add a sub which takes one argument
# this argument will be the error being thrown. The sub will return a code ref
# if that clause can handle that error, otherwise undef is returned.
#
# The otherwise clause adds a sub which unconditionally returns the users
# code reference, this is why it is forced to be last.
#
# The catch clause is defined in Error.pm, as the syntax causes it to
# be called as a method
sub with (&;$) {
@_
}
sub finally (&) {
my $code = shift;
my $clauses = { 'finally' => $code };
$clauses;
}
# The except clause is a block which returns a hashref or a list of
# key-value pairs, where the keys are the classes and the values are subs.
sub except (&;$) {
my $code = shift;
my $clauses = shift || {};
my $catch = $clauses->{'catch'} ||= [];
my $sub = sub {
my $ref;
my(@array) = $code->($_[0]);
if(@array == 1 && ref($array[0])) {
$ref = $array[0];
$ref = [ %$ref ]
if(UNIVERSAL::isa($ref,'HASH'));
}
else {
$ref = \@array;
}
@$ref
};
unshift @{$catch}, undef, $sub;
$clauses;
}
sub otherwise (&;$) {
my $code = shift;
my $clauses = shift || {};
if(exists $clauses->{'otherwise'}) {
require Carp;
Carp::croak("Multiple otherwise clauses");
}
$clauses->{'otherwise'} = $code;
$clauses;
}
1;
__END__
=head1 NAME
Error - Error/exception handling in an OO-ish way
=head1 SYNOPSIS
use Error qw(:try);
throw Error::Simple( "A simple error");
sub xyz {
...
record Error::Simple("A simple error")
and return;
}
unlink($file) or throw Error::Simple("$file: $!",$!);
try {
do_some_stuff();
die "error!" if $condition;
throw Error::Simple -text => "Oops!" if $other_condition;
}
catch Error::IO with {
my $E = shift;
print STDERR "File ", $E->{'-file'}, " had a problem\n";
}
except {
my $E = shift;
my $general_handler=sub {send_message $E->{-description}};
return {
UserException1 => $general_handler,
UserException2 => $general_handler
};
}
otherwise {
print STDERR "Well I don't know what to say\n";
}
finally {
close_the_garage_door_already(); # Should be reliable
}; # Don't forget the trailing ; or you might be surprised
=head1 DESCRIPTION
The C<Error> package provides two interfaces. Firstly C<Error> provides
a procedural interface to exception handling. Secondly C<Error> is a
base class for errors/exceptions that can either be thrown, for
subsequent catch, or can simply be recorded.
Errors in the class C<Error> should not be thrown directly, but the
user should throw errors from a sub-class of C<Error>.
=head1 PROCEDURAL INTERFACE
C<Error> exports subroutines to perform exception handling. These will
be exported if the C<:try> tag is used in the C<use> line.
=over 4
=item try BLOCK CLAUSES
C<try> is the main subroutine called by the user. All other subroutines
exported are clauses to the try subroutine.
The BLOCK will be evaluated and, if no error is throw, try will return
the result of the block.
C<CLAUSES> are the subroutines below, which describe what to do in the
event of an error being thrown within BLOCK.
=item catch CLASS with BLOCK
This clauses will cause all errors that satisfy C<$err-E<gt>isa(CLASS)>
to be caught and handled by evaluating C<BLOCK>.
C<BLOCK> will be passed two arguments. The first will be the error
being thrown. The second is a reference to a scalar variable. If this
variable is set by the catch block then, on return from the catch
block, try will continue processing as if the catch block was never
found.
To propagate the error the catch block may call C<$err-E<gt>throw>
If the scalar reference by the second argument is not set, and the
error is not thrown. Then the current try block will return with the
result from the catch block.
=item except BLOCK
When C<try> is looking for a handler, if an except clause is found
C<BLOCK> is evaluated. The return value from this block should be a
HASHREF or a list of key-value pairs, where the keys are class names
and the values are CODE references for the handler of errors of that
type.
=item otherwise BLOCK
Catch any error by executing the code in C<BLOCK>
When evaluated C<BLOCK> will be passed one argument, which will be the
error being processed.
Only one otherwise block may be specified per try block
=item finally BLOCK
Execute the code in C<BLOCK> either after the code in the try block has
successfully completed, or if the try block throws an error then
C<BLOCK> will be executed after the handler has completed.
If the handler throws an error then the error will be caught, the
finally block will be executed and the error will be re-thrown.
Only one finally block may be specified per try block
=back
=head1 CLASS INTERFACE
=head2 CONSTRUCTORS
The C<Error> object is implemented as a HASH. This HASH is initialized
with the arguments that are passed to its constructor. The elements
that are used by, or are retrievable by the C<Error> class are listed
below, other classes may add to these.
-file
-line
-text
-value
-object
If C<-file> or C<-line> are not specified in the constructor arguments
then these will be initialized with the file name and line number where
the constructor was called from.
If the error is associated with an object then the object should be
passed as the C<-object> argument. This will allow the C<Error> package
to associate the error with the object.
The C<Error> package remembers the last error created, and also the
last error associated with a package. This could either be the last
error created by a sub in that package, or the last error which passed
an object blessed into that package as the C<-object> argument.
=over 4
=item throw ( [ ARGS ] )
Create a new C<Error> object and throw an error, which will be caught
by a surrounding C<try> block, if there is one. Otherwise it will cause
the program to exit.
C<throw> may also be called on an existing error to re-throw it.
=item with ( [ ARGS ] )
Create a new C<Error> object and returns it. This is defined for
syntactic sugar, eg
die with Some::Error ( ... );
=item record ( [ ARGS ] )
Create a new C<Error> object and returns it. This is defined for
syntactic sugar, eg
record Some::Error ( ... )
and return;
=back
=head2 STATIC METHODS
=over 4
=item prior ( [ PACKAGE ] )
Return the last error created, or the last error associated with
C<PACKAGE>
=item flush ( [ PACKAGE ] )
Flush the last error created, or the last error associated with
C<PACKAGE>.It is necessary to clear the error stack before exiting the
package or uncaught errors generated using C<record> will be reported.
$Error->flush;
=cut
=back
=head2 OBJECT METHODS
=over 4
=item stacktrace
If the variable C<$Error::Debug> was non-zero when the error was
created, then C<stacktrace> returns a string created by calling
C<Carp::longmess>. If the variable was zero the C<stacktrace> returns
the text of the error appended with the filename and line number of
where the error was created, providing the text does not end with a
newline.
=item object
The object this error was associated with
=item file
The file where the constructor of this error was called from
=item line
The line where the constructor of this error was called from
=item text
The text of the error
=back
=head2 OVERLOAD METHODS
=over 4
=item stringify
A method that converts the object into a string. This method may simply
return the same as the C<text> method, or it may append more
information. For example the file name and line number.
By default this method returns the C<-text> argument that was passed to
the constructor, or the string C<"Died"> if none was given.
=item value
A method that will return a value that can be associated with the
error. For example if an error was created due to the failure of a
system call, then this may return the numeric value of C<$!> at the
time.
By default this method returns the C<-value> argument that was passed
to the constructor.
=back
=head1 PRE-DEFINED ERROR CLASSES
=over 4
=item Error::Simple
This class can be used to hold simple error strings and values. Its
constructor takes two arguments. The first is a text value, the second
is a numeric value. These values are what will be returned by the
overload methods.
If the text value ends with C<at file line 1> as $@ strings do, then
this information will be used to set the C<-file> and C<-line> arguments
of the error object.
This class is used internally if an eval'd block die's with an error
that is a plain string. (Unless C<$Error::ObjectifyCallback> is modified)
=back
=head1 $Error::ObjectifyCallback
This variable holds a reference to a subroutine that converts errors that
are plain strings to objects. It is used by Error.pm to convert textual
errors to objects, and can be overridden by the user.
It accepts a single argument which is a hash reference to named parameters.
Currently the only named parameter passed is C<'text'> which is the text
of the error, but others may be available in the future.
For example the following code will cause Error.pm to throw objects of the
class MyError::Bar by default:
sub throw_MyError_Bar
{
my $args = shift;
my $err = MyError::Bar->new();
$err->{'MyBarText'} = $args->{'text'};
return $err;
}
{
local $Error::ObjectifyCallback = \&throw_MyError_Bar;
# Error handling here.
}
=head1 KNOWN BUGS
None, but that does not mean there are not any.
=head1 AUTHORS
Graham Barr <gbarr@pobox.com>
The code that inspired me to write this was originally written by
Peter Seibel <peter@weblogic.com> and adapted by Jesse Glick
<jglick@sig.bsh.com>.
=head1 MAINTAINER
Shlomi Fish <shlomif@iglu.org.il>
=head1 PAST MAINTAINERS
Arun Kumar U <u_arunkumar@yahoo.com>
=cut