package DBIx::SearchBuilder::Record;
use strict;
use warnings;
use vars qw($AUTOLOAD);
use Class::ReturnValue;
use Encode qw();
use DBIx::SearchBuilder::Util qw/ sorted_values /;
=head1 NAME
DBIx::SearchBuilder::Record - Superclass for records loaded by SearchBuilder
=head1 SYNOPSIS
package MyRecord;
use base qw/DBIx::SearchBuilder::Record/;
sub _Init {
my $self = shift;
my $DBIxHandle =
shift; # A DBIx::SearchBuilder::Handle::foo object for your database
$self->_Handle($DBIxHandle);
$self->Table("Users");
}
# Tell Record what the primary keys are
sub _PrimaryKeys {
return ['id'];
}
# Preferred and most efficient way to specify fields attributes in a derived
# class, used by the autoloader to construct Attrib and SetAttrib methods.
# read: calling $Object->Foo will return the value of this record's Foo column
# write: calling $Object->SetFoo with a single value will set Foo's value in
# both the loaded object and the database
sub _ClassAccessible {
{
Tofu => { 'read' => 1, 'write' => 1 },
Maz => { 'auto' => 1, },
Roo => { 'read' => 1, 'auto' => 1, 'public' => 1, },
};
}
# A subroutine to check a user's password without returning the current value
# For security purposes, we didn't expose the Password method above
sub IsPassword {
my $self = shift;
my $try = shift;
# note two __s in __Value. Subclasses may muck with _Value, but
# they should never touch __Value
if ( $try eq $self->__Value('Password') ) {
return (1);
}
else {
return (undef);
}
}
# Override DBIx::SearchBuilder::Create to do some checking on create
sub Create {
my $self = shift;
my %fields = (
UserId => undef,
Password => 'default', #Set a default password
@_
);
# Make sure a userid is specified
unless ( $fields{'UserId'} ) {
die "No userid specified.";
}
# Get DBIx::SearchBuilder::Record->Create to do the real work
return (
$self->SUPER::Create(
UserId => $fields{'UserId'},
Password => $fields{'Password'},
Created => time
)
);
}
=head1 DESCRIPTION
DBIx::SearchBuilder::Record is designed to work with DBIx::SearchBuilder.
=head2 What is it trying to do.
DBIx::SearchBuilder::Record abstracts the agony of writing the common and generally
simple SQL statements needed to serialize and De-serialize an object to the
database. In a traditional system, you would define various methods on
your object 'create', 'find', 'modify', and 'delete' being the most common.
In each method you would have a SQL statement like:
select * from table where value='blah';
If you wanted to control what data a user could modify, you would have to
do some special magic to make accessors do the right thing. Etc. The
problem with this approach is that in a majority of the cases, the SQL is
incredibly simple and the code from one method/object to the next was
basically the same.
<trumpets>
Enter, DBIx::SearchBuilder::Record.
With::Record, you can in the simple case, remove all of that code and
replace it by defining two methods and inheriting some code. Its pretty
simple, and incredibly powerful. For more complex cases, you can, gasp,
do more complicated things by overriding certain methods. Lets stick with
the simple case for now.
The two methods in question are '_Init' and '_ClassAccessible', all they
really do are define some values and send you on your way. As you might
have guessed the '_' suggests that these are private methods, they are.
They will get called by your record objects constructor.
=over 4
=item '_Init'
Defines what table we are talking about, and set a variable to store
the database handle.
=item '_ClassAccessible
Defines what operations may be performed on various data selected
from the database. For example you can define fields to be mutable,
or immutable, there are a few other options but I don't understand
what they do at this time.
=back
And really, thats it. So lets have some sample code.
=head2 An Annotated Example
The example code below makes the following assumptions:
=over 4
=item *
The database is 'postgres',
=item *
The host is 'reason',
=item *
The login name is 'mhat',
=item *
The database is called 'example',
=item *
The table is called 'simple',
=item *
The table looks like so:
id integer not NULL, primary_key(id),
foo varchar(10),
bar varchar(10)
=back
First, let's define our record class in a new module named "Simple.pm".
000: package Simple;
001: use DBIx::SearchBuilder::Record;
002: @ISA = (DBIx::SearchBuilder::Record);
This should be pretty obvious, name the package, import ::Record and then
define ourself as a subclass of ::Record.
003:
004: sub _Init {
005: my $this = shift;
006: my $handle = shift;
007:
008: $this->_Handle($handle);
009: $this->Table("Simple");
010:
011: return ($this);
012: }
Here we set our handle and table name, while its not obvious so far, we'll
see later that $handle (line: 006) gets passed via ::Record::new when a
new instance is created. Thats actually an important concept, the DB handle
is not bound to a single object but rather, its shared across objects.
013:
014: sub _ClassAccessible {
015: {
016: Foo => { 'read' => 1 },
017: Bar => { 'read' => 1, 'write' => 1 },
018: Id => { 'read' => 1 }
019: };
020: }
What's happening might be obvious, but just in case this method is going to
return a reference to a hash. That hash is where our columns are defined,
as well as what type of operations are acceptable.
021:
022: 1;
Like all perl modules, this needs to end with a true value.
Now, on to the code that will actually *do* something with this object.
This code would be placed in your Perl script.
000: use DBIx::SearchBuilder::Handle;
001: use Simple;
Use two packages, the first is where I get the DB handle from, the latter
is the object I just created.
002:
003: my $handle = DBIx::SearchBuilder::Handle->new();
004: $handle->Connect( 'Driver' => 'Pg',
005: 'Database' => 'test',
006: 'Host' => 'reason',
007: 'User' => 'mhat',
008: 'Password' => '');
Creates a new DBIx::SearchBuilder::Handle, and then connects to the database using
that handle. Pretty straight forward, the password '' is what I use
when there is no password. I could probably leave it blank, but I find
it to be more clear to define it.
009:
010: my $s = Simple->new($handle);
011:
012: $s->LoadById(1);
LoadById is one of four 'LoadBy' methods, as the name suggests it searches
for an row in the database that has id='0'. ::SearchBuilder has, what I
think is a bug, in that it current requires there to be an id field. More
reasonably it also assumes that the id field is unique. LoadById($id) will
do undefined things if there is >1 row with the same id.
In addition to LoadById, we also have:
=over 4
=item LoadByCol
Takes two arguments, a column name and a value. Again, it will do
undefined things if you use non-unique things.
=item LoadByCols
Takes a hash of columns=>values and returns the *first* to match.
First is probably lossy across databases vendors.
=item LoadFromHash
Populates this record with data from a DBIx::SearchBuilder. I'm
currently assuming that DBIx::SearchBuilder is what we use in
cases where we expect > 1 record. More on this later.
=back
Now that we have a populated object, we should do something with it! ::Record
automagically generates accessos and mutators for us, so all we need to do
is call the methods. Accessors are named <Field>(), and Mutators are named
Set<Field>($). On to the example, just appending this to the code from
the last example.
013:
014: print "ID : ", $s->Id(), "\n";
015: print "Foo : ", $s->Foo(), "\n";
016: print "Bar : ", $s->Bar(), "\n";
Thats all you have to to get the data, now to change the data!
017:
018: $s->SetBar('NewBar');
Pretty simple! Thats really all there is to it. Set<Field>($) returns
a boolean and a string describing the problem. Lets look at an example of
what will happen if we try to set a 'Id' which we previously defined as
read only.
019: my ($res, $str) = $s->SetId('2');
020: if (! $res) {
021: ## Print the error!
022: print "$str\n";
023: }
The output will be:
>> Immutable field
Currently Set<Field> updates the data in the database as soon as you call
it. In the future I hope to extend ::Record to better support transactional
operations, such that updates will only happen when "you" say so.
Finally, adding a removing records from the database. ::Record provides a
Create method which simply takes a hash of key=>value pairs. The keys
exactly map to database fields.
023: ## Get a new record object.
024: $s1 = Simple->new($handle);
025: $s1->Create('Id' => 4,
026: 'Foo' => 'Foooooo',
027: 'Bar' => 'Barrrrr');
Poof! A new row in the database has been created! Now lets delete the
object!
028:
029: $s1 = undef;
030: $s1 = Simple->new($handle);
031: $s1->LoadById(4);
032: $s1->Delete();
And its gone.
For simple use, thats more or less all there is to it. In the future, I hope to exapand
this HowTo to discuss using container classes, overloading, and what
ever else I think of.
=head1 METHOD NAMING
Each method has a lower case alias; '_' is used to separate words.
For example, the method C<_PrimaryKeys> has the alias C<_primary_keys>.
=head1 METHODS
=cut
=head2 new
Instantiate a new record object.
=cut
sub new {
my $proto = shift;
my $class = ref($proto) || $proto;
my $self = {};
bless ($self, $class);
$self->_Init(@_);
return $self;
}
# Not yet documented here. Should almost certainly be overloaded.
sub _Init {
my $self = shift;
my $handle = shift;
$self->_Handle($handle);
}
=head2 id
Returns this row's primary key.
=cut
*id = \&Id;
sub Id {
my $pkey = $_[0]->_PrimaryKey();
return $_[0]->{'values'}->{ $pkey };
}
=head2 primary_keys
=head2 PrimaryKeys
Return a hash of the values of our primary keys for this function.
=cut
sub PrimaryKeys {
my $self = shift;
return map { $_ => $self->{'values'}->{lc $_} } @{$self->_PrimaryKeys};
}
sub DESTROY {
return 1;
}
sub AUTOLOAD {
my $self = $_[0];
no strict 'refs';
my ($Attrib) = ( $AUTOLOAD =~ /::(\w+)$/o );
if ( $self->_Accessible( $Attrib, 'read' ) ) {
*{$AUTOLOAD} = sub { return ( $_[0]->_Value($Attrib) ) };
goto &$AUTOLOAD;
}
elsif ( $self->_Accessible( $Attrib, 'record-read') ) {
*{$AUTOLOAD} = sub { $_[0]->_ToRecord( $Attrib, $_[0]->__Value($Attrib) ) };
goto &$AUTOLOAD;
}
elsif ( $self->_Accessible( $Attrib, 'foreign-collection') ) {
*{$AUTOLOAD} = sub { $_[0]->_CollectionValue( $Attrib ) };
goto &$AUTOLOAD;
}
elsif ( $AUTOLOAD =~ /.*::[sS]et_?(\w+)/o ) {
$Attrib = $1;
if ( $self->_Accessible( $Attrib, 'write' ) ) {
*{$AUTOLOAD} = sub {
return ( $_[0]->_Set( Field => $Attrib, Value => $_[1] ) );
};
goto &$AUTOLOAD;
} elsif ( $self->_Accessible( $Attrib, 'record-write') ) {
*{$AUTOLOAD} = sub {
my $self = shift;
my $val = shift;
$val = $val->id if UNIVERSAL::isa($val, 'DBIx::SearchBuilder::Record');
return ( $self->_Set( Field => $Attrib, Value => $val ) );
};
goto &$AUTOLOAD;
}
elsif ( $self->_Accessible( $Attrib, 'read' ) ) {
*{$AUTOLOAD} = sub { return ( 0, 'Immutable field' ) };
goto &$AUTOLOAD;
}
else {
return ( 0, 'Nonexistant field?' );
}
}
elsif ( $AUTOLOAD =~ /.*::(\w+?)_?[oO]bj$/o ) {
$Attrib = $1;
if ( $self->_Accessible( $Attrib, 'object' ) ) {
*{$AUTOLOAD} = sub {
return (shift)->_Object(
Field => $Attrib,
Args => [@_],
);
};
goto &$AUTOLOAD;
}
else {
return ( 0, 'No object mapping for field' );
}
}
#Previously, I checked for writability here. but I'm not sure that's the
#right idea. it breaks the ability to do ValidateQueue for a ticket
#on creation.
elsif ( $AUTOLOAD =~ /.*::[vV]alidate_?(\w+)/o ) {
$Attrib = $1;
*{$AUTOLOAD} = sub { return ( $_[0]->_Validate( $Attrib, $_[1] ) ) };
goto &$AUTOLOAD;
}
# TODO: if autoload = 0 or 1 _ then a combination of lowercase and _ chars,
# turn them into studlycapped phrases
else {
my ( $package, $filename, $line );
( $package, $filename, $line ) = caller;
die "$AUTOLOAD Unimplemented in $package. ($filename line $line) \n";
}
}
=head2 _Accessible KEY MODE
Private method.
Returns undef unless C<KEY> is accessible in C<MODE> otherwise returns C<MODE> value
=cut
sub _Accessible {
my $self = shift;
my $attr = shift;
my $mode = lc(shift || '');
my $attribute = $self->_ClassAccessible(@_)->{$attr};
return unless defined $attribute;
return $attribute->{$mode};
}
=head2 _PrimaryKeys
Return our primary keys. (Subclasses should override this, but our default is that we have one primary key, named 'id'.)
=cut
sub _PrimaryKeys {
my $self = shift;
return ['id'];
}
sub _PrimaryKey {
my $self = shift;
my $pkeys = $self->_PrimaryKeys();
die "No primary key" unless ( ref($pkeys) eq 'ARRAY' and $pkeys->[0] );
die "Too many primary keys" unless ( scalar(@$pkeys) == 1 );
return $pkeys->[0];
}
=head2 _ClassAccessible
An older way to specify fields attributes in a derived class.
(The current preferred method is by overriding C<Schema>; if you do
this and don't override C<_ClassAccessible>, the module will generate
an appropriate C<_ClassAccessible> based on your C<Schema>.)
Here's an example declaration:
sub _ClassAccessible {
{
Tofu => { 'read'=>1, 'write'=>1 },
Maz => { 'auto'=>1, },
Roo => { 'read'=>1, 'auto'=>1, 'public'=>1, },
};
}
=cut
sub _ClassAccessible {
my $self = shift;
return $self->_ClassAccessibleFromSchema if $self->can('Schema');
# XXX This is stub code to deal with the old way we used to do _Accessible
# It should never be called by modern code
my %accessible;
while ( my $col = shift ) {
$accessible{$col}->{lc($_)} = 1
foreach split(/[\/,]/, shift);
}
return(\%accessible);
}
sub _ClassAccessibleFromSchema {
my $self = shift;
my $accessible = {};
foreach my $key ($self->_PrimaryKeys) {
$accessible->{$key} = { 'read' => 1 };
};
my $schema = $self->Schema;
for my $field (keys %$schema) {
if ($schema->{$field}{'TYPE'}) {
$accessible->{$field} = { 'read' => 1, 'write' => 1 };
} elsif (my $refclass = $schema->{$field}{'REFERENCES'}) {
if (UNIVERSAL::isa($refclass, 'DBIx::SearchBuilder::Record')) {
if ($field =~ /(.*)_id$/) {
$accessible->{$field} = { 'read' => 1, 'write' => 1 };
$accessible->{$1} = { 'record-read' => 1, 'column' => $field };
} else {
$accessible->{$field} = { 'record-read' => 1, 'record-write' => 1 };
}
} elsif (UNIVERSAL::isa($refclass, 'DBIx::SearchBuilder')) {
$accessible->{$field} = { 'foreign-collection' => 1 };
} else {
warn "Error: $refclass neither Record nor Collection";
}
}
}
return $accessible;
}
sub _ToRecord {
my $self = shift;
my $field = shift;
my $value = shift;
return unless defined $value;
my $schema = $self->Schema;
my $description = $schema->{$field} || $schema->{$field . "_id"};
die "Can't get schema for $field on $self" unless $description;
return unless $description;
return $value unless $description->{'REFERENCES'};
my $classname = $description->{'REFERENCES'};
return unless UNIVERSAL::isa($classname, 'DBIx::SearchBuilder::Record');
# XXX TODO FIXME perhaps this is not what should be passed to new, but it needs it
my $object = $classname->new( $self->_Handle );
$object->LoadById( $value );
return $object;
}
sub _CollectionValue {
my $self = shift;
my $method_name = shift;
return unless defined $method_name;
my $schema = $self->Schema;
my $description = $schema->{$method_name};
return unless $description;
my $classname = $description->{'REFERENCES'};
return unless UNIVERSAL::isa($classname, 'DBIx::SearchBuilder');
my $coll = $classname->new( Handle => $self->_Handle );
$coll->Limit( FIELD => $description->{'KEY'}, VALUE => $self->id);
return $coll;
}
# sub {{{ ReadableAttributes
=head2 ReadableAttributes
Returns an array of the attributes of this class defined as "read" => 1 in this class' _ClassAccessible datastructure
=cut
sub ReadableAttributes {
my $self = shift;
my $ca = $self->_ClassAccessible();
my @readable = grep { $ca->{$_}->{'read'} or $ca->{$_}->{'record-read'} } sort keys %{$ca};
return (@readable);
}
=head2 WritableAttributes
Returns an array of the attributes of this class defined as "write" => 1 in this class' _ClassAccessible datastructure
=cut
sub WritableAttributes {
my $self = shift;
my $ca = $self->_ClassAccessible();
my @writable = grep { $ca->{$_}->{'write'} || $ca->{$_}->{'record-write'} } sort keys %{$ca};
return @writable;
}
=head2 __Value
Takes a field name and returns that field's value. Subclasses should never
override __Value.
=cut
sub __Value {
my $self = shift;
my $field = lc shift;
$field = $self->_Accessible($field, "column") || $field;
return $self->{'values'}{$field} if $self->{'fetched'}{$field};
$self->{'fetched'}{$field} = 1;
my %pk = $self->PrimaryKeys;
return undef if grep !defined, values %pk;
my $query = "SELECT $field FROM ". $self->Table
." WHERE ". join " AND ", map "$_ = ?", sort keys %pk;
my $sth = $self->_Handle->SimpleQuery( $query, sorted_values(%pk) ) or return undef;
return $self->{'values'}{$field} = ($sth->fetchrow_array)[0];
}
=head2 _Value
_Value takes a single column name and returns that column's value for this row.
Subclasses can override _Value to insert custom access control.
=cut
sub _Value {
my $self = shift;
return ($self->__Value(@_));
}
=head2 _Set
_Set takes a single column name and a single unquoted value.
It updates both the in-memory value of this column and the in-database copy.
Subclasses can override _Set to insert custom access control.
=cut
sub _Set {
my $self = shift;
return ($self->__Set(@_));
}
sub __Set {
my $self = shift;
my %args = (
'Field' => undef,
'Value' => undef,
'IsSQL' => undef,
@_
);
$args{'Column'} = delete $args{'Field'};
$args{'IsSQLFunction'} = delete $args{'IsSQL'};
my $ret = Class::ReturnValue->new();
unless ( $args{'Column'} ) {
$ret->as_array( 0, 'No column specified' );
$ret->as_error(
errno => 5,
do_backtrace => 0,
message => "No column specified"
);
return ( $ret->return_value );
}
my $column = lc $args{'Column'};
# XXX: OLD behaviour, no_undefs_in_set will go away
if ( !defined $args{'Value'} && $self->{'no_undefs_in_set' } ) {
$ret->as_array( 0, "No value passed to _Set" );
$ret->as_error(
errno => 2,
do_backtrace => 0,
message => "No value passed to _Set"
);
return ( $ret->return_value );
}
if ( defined $args{'Value'} ) {
if ( $args{'Value'} eq '' &&
( $self->_Accessible( $args{'Column'}, 'is_numeric' )
|| ($self->_Accessible( $args{'Column'}, 'type' ) || '') =~ /INT/i ) )
{
$args{'Value'} = 0;
}
}
else {
if ( $self->_Accessible( $args{Column}, 'no_nulls' ) ) {
my $default = $self->_Accessible( $args{Column}, 'default' );
if ( defined $default ) {
$args{'Value'} = $default;
}
else {
$ret->as_array( 0, 'Illegal value for non-nullable field ' . $args{'Column'} . ": undef/null value provided and no default specified by class" );
$ret->as_error(
errno => 3,
do_backtrace => 0,
message => "Illegal value for non-nullable field " . $args{'Column'} . ": undef/null value provided and no default specified by class"
);
return ( $ret->return_value );
}
}
}
my $current_value = $self->__Value($column);
if (
( !defined $args{'Value'} && !defined $current_value )
|| ( defined $args{'Value'}
&& defined $current_value
&& ( $args{'Value'} eq $current_value ) )
)
{
$ret->as_array( 0, "That is already the current value" );
$ret->as_error(
errno => 1,
do_backtrace => 0,
message => "That is already the current value"
);
return ( $ret->return_value );
}
# First, we truncate the value, if we need to.
#
$args{'Value'} = $self->TruncateValue ( $args{'Column'}, $args{'Value'});
my $method = "Validate" . $args{'Column'};
unless ( $self->$method( $args{'Value'} ) ) {
$ret->as_array( 0, 'Illegal value for ' . $args{'Column'} );
$ret->as_error(
errno => 3,
do_backtrace => 0,
message => "Illegal value for " . $args{'Column'}
);
return ( $ret->return_value );
}
$args{'Table'} = $self->Table();
$args{'PrimaryKeys'} = { $self->PrimaryKeys() };
# The blob handling will destroy $args{'Value'}. But we assign
# that back to the object at the end. this works around that
my $unmunged_value = $args{'Value'};
unless ( $self->_Handle->KnowsBLOBs ) {
# Support for databases which don't deal with LOBs automatically
my $ca = $self->_ClassAccessible();
my $key = $args{'Column'};
if ( $ca->{$key}->{'type'} =~ /^(text|longtext|clob|blob|lob)$/i ) {
my $bhash = $self->_Handle->BLOBParams( $key, $ca->{$key}->{'type'} );
$bhash->{'value'} = $args{'Value'};
$args{'Value'} = $bhash;
}
}
my $val = $self->_Handle->UpdateRecordValue(%args);
unless ($val) {
my $message =
$args{'Column'}
. " could not be set to "
. ( defined $args{'Value'} ? $args{'Value'} : 'undef' ) . ".";
$ret->as_array( 0, $message);
$ret->as_error(
errno => 4,
do_backtrace => 0,
message => $message
);
return ( $ret->return_value );
}
# If we've performed some sort of "functional update"
# then we need to reload the object from the DB to know what's
# really going on. (ex SET Cost = Cost+5)
if ( $args{'IsSQLFunction'} ) {
$self->Load( $self->Id );
}
else {
$self->{'values'}->{"$column"} = $unmunged_value;
}
$ret->as_array( 1, "The new value has been set." );
return ( $ret->return_value );
}
=head2 _Canonicalize PARAMHASH
This routine massages an input value (VALUE) for FIELD into something that's
going to be acceptable.
Takes
=over
=item FIELD
=item VALUE
=item FUNCTION
=back
Takes:
=over
=item FIELD
=item VALUE
=item FUNCTION
=back
Returns a replacement VALUE.
=cut
sub _Canonicalize {
my $self = shift;
my $field = shift;
}
=head2 _Validate FIELD VALUE
Validate that VALUE will be an acceptable value for FIELD.
Currently, this routine does nothing whatsoever.
If it succeeds (which is always the case right now), returns true. Otherwise returns false.
=cut
sub _Validate {
my $self = shift;
my $field = shift;
my $value = shift;
#Check type of input
#If it's null, are nulls permitted?
#If it's an int, check the # of bits
#If it's a string,
#check length
#check for nonprintables
#If it's a blob, check for length
#In an ideal world, if this is a link to another table, check the dependency.
return(1);
}
=head2 TruncateValue KEY VALUE
Truncate a value that's about to be set so that it will fit inside the database'
s idea of how big the column is.
(Actually, it looks at SearchBuilder's concept of the database, not directly into the db).
=cut
sub TruncateValue {
my $self = shift;
my $key = shift;
my $value = shift;
# We don't need to truncate empty things.
return undef unless defined $value;
my $metadata = $self->_ClassAccessible->{$key};
return $value unless $metadata;
my $truncate_to;
if ( $metadata->{'length'} && !$metadata->{'is_numeric'} ) {
$truncate_to = int $metadata->{'length'};
}
elsif ($metadata->{'type'} && $metadata->{'type'} =~ /char\((\d+)\)/ ) {
$truncate_to = $1;
}
return $value unless $truncate_to;
# return asap if length in bytes is smaller than limit
return $value if $truncate_to >= do { use bytes; length $value };
if ( Encode::is_utf8($value) ) {
return Encode::decode_utf8(
substr( Encode::encode_utf8( $value ), 0, $truncate_to ),
Encode::FB_QUIET(),
);
}
else {
# XXX: if it's not UTF-8 then why do we convert it to?
return Encode::encode_utf8( Encode::decode_utf8 (
substr( $value, 0, $truncate_to ), Encode::FB_QUIET(),
) );
}
}
=head2 _Object
_Object takes a single column name and an array reference.
It creates new object instance of class specified in _ClassAccessable
structure and calls LoadById on recently created object with the
current column value as argument. It uses the array reference as
the object constructor's arguments.
Subclasses can override _Object to insert custom access control or
define default contructor arguments.
Note that if you are using a C<Schema> with a C<REFERENCES> field,
this is unnecessary: the method to access the column's value will
automatically turn it into the appropriate object.
=cut
sub _Object {
my $self = shift;
return $self->__Object(@_);
}
sub __Object {
my $self = shift;
my %args = ( Field => '', Args => [], @_ );
my $field = $args{'Field'};
my $class = $self->_Accessible( $field, 'object' );
# Globs magic to be sure that we call 'eval "require $class"' only once
# because eval is quite slow -- cubic@acronis.ru
no strict qw( refs );
my $vglob = ${ $class . '::' }{'VERSION'};
unless ( $vglob && *$vglob{'SCALAR'} ) {
eval "require $class";
die "Couldn't use $class: $@" if ($@);
unless ( $vglob && *$vglob{'SCALAR'} ) {
*{ $class . "::VERSION" } = '-1, By DBIx::SearchBuilder';
}
}
my $object = $class->new( @{ $args{'Args'} } );
$object->LoadById( $self->__Value($field) );
return $object;
}
# load should do a bit of overloading
# if we call it with only one argument, we're trying to load by reference.
# if we call it with a passel of arguments, we're trying to load by value
# The latter is primarily important when we've got a whole set of record that we're
# reading in with a recordset class and want to instantiate objefcts for each record.
=head2 Load
Takes a single argument, $id. Calls LoadById to retrieve the row whose primary key
is $id
=cut
sub Load {
my $self = shift;
return $self->LoadById(@_);
}
=head2 LoadByCol
Takes two arguments, a column and a value. The column can be any table column
which contains unique values. Behavior when using a non-unique value is
undefined
=cut
sub LoadByCol {
my $self = shift;
return $self->LoadByCols(@_);
}
=head2 LoadByCols
Takes a hash of columns and values. Loads the first record that matches all
keys.
The hash's keys are the columns to look at.
The hash's values are either: scalar values to look for
OR has references which contain 'operator' and 'value'
=cut
sub LoadByCols {
my $self = shift;
my %hash = (@_);
my (@bind, @phrases);
foreach my $key (sort keys %hash) {
if (defined $hash{$key} && $hash{$key} ne '') {
my $op;
my $value;
my $function = "?";
if (ref $hash{$key} eq 'HASH') {
$op = $hash{$key}->{operator};
$value = $hash{$key}->{value};
$function = $hash{$key}->{function} || "?";
} else {
$op = '=';
$value = $hash{$key};
}
push @phrases, "$key $op $function";
push @bind, $value;
}
else {
push @phrases, "($key IS NULL OR $key = ?)";
my $meta = $self->_ClassAccessible->{$key};
$meta->{'type'} ||= '';
# TODO: type checking should be done in generic way
if ( $meta->{'is_numeric'} || $meta->{'type'} =~ /INT|NUMERIC|DECIMAL|REAL|DOUBLE|FLOAT/i ) {
push @bind, 0;
} else {
push @bind, '';
}
}
}
my $QueryString = "SELECT * FROM ".$self->Table." WHERE ".
join(' AND ', @phrases) ;
return ($self->_LoadFromSQL($QueryString, @bind));
}
=head2 LoadById
Loads a record by its primary key. Your record class must define a single primary key column.
=cut
sub LoadById {
my ($self, $id) = @_;
return $self->LoadByCols( $self->_PrimaryKey, defined $id? $id: 0 );
}
=head2 LoadByPrimaryKeys
Like LoadById with basic support for compound primary keys.
=cut
sub LoadByPrimaryKeys {
my $self = shift;
my $data = (ref $_[0] eq 'HASH')? $_[0]: {@_};
my %cols=();
foreach (@{$self->_PrimaryKeys}) {
return (0, "Missing PK field: '$_'") unless defined $data->{$_};
$cols{$_}=$data->{$_};
}
return ($self->LoadByCols(%cols));
}
=head2 LoadFromHash
Takes a hashref, such as created by DBIx::SearchBuilder and populates this record's
loaded values hash.
=cut
sub LoadFromHash {
my $self = shift;
my $hashref = shift;
foreach my $f ( keys %$hashref ) {
$self->{'fetched'}{lc $f} = 1;
}
$self->{'values'} = $hashref;
return $self->id();
}
=head2 _LoadFromSQL QUERYSTRING @BIND_VALUES
Load a record as the result of an SQL statement
=cut
sub _LoadFromSQL {
my $self = shift;
my $QueryString = shift;
my @bind_values = (@_);
my $sth = $self->_Handle->SimpleQuery( $QueryString, @bind_values );
#TODO this only gets the first row. we should check if there are more.
return ( 0, "Couldn't execute query: ".$self->_Handle->dbh->errstr ) unless $sth;
$self->{'values'} = $sth->fetchrow_hashref;
$self->{'fetched'} = {};
if ( !$self->{'values'} && $sth->err ) {
return ( 0, "Couldn't fetch row: ". $sth->err );
}
unless ( $self->{'values'} ) {
return ( 0, "Couldn't find row" );
}
## I guess to be consistant with the old code, make sure the primary
## keys exist.
if( grep { not defined } $self->PrimaryKeys ) {
return ( 0, "Missing a primary key?" );
}
foreach my $f ( keys %{$self->{'values'}} ) {
$self->{'fetched'}{lc $f} = 1;
}
return ( 1, "Found Object" );
}
=head2 Create
Takes an array of key-value pairs and drops any keys that aren't known
as columns for this recordtype
=cut
sub Create {
my $self = shift;
my %attribs = @_;
my ($key);
foreach $key ( keys %attribs ) {
if ( $self->_Accessible( $key, 'record-write' ) ) {
$attribs{$key} = $attribs{$key}->id
if UNIVERSAL::isa( $attribs{$key},
'DBIx::SearchBuilder::Record' );
}
if ( defined $attribs{$key} ) {
if ( $attribs{$key} eq '' &&
( $self->_Accessible( $key, 'is_numeric' )
|| ($self->_Accessible( $key, 'type' ) || '') =~ /INT/i ) )
{
$attribs{$key} = 0;
}
}
else {
$attribs{$key} = $self->_Accessible( $key, 'default' )
if $self->_Accessible( $key, 'no_nulls' );
}
#Truncate things that are too long for their datatypes
$attribs{$key} = $self->TruncateValue( $key => $attribs{$key} );
}
unless ( $self->_Handle->KnowsBLOBs ) {
# Support for databases which don't deal with LOBs automatically
my $ca = $self->_ClassAccessible();
foreach $key ( keys %attribs ) {
my $type = $ca->{$key}->{'type'};
next unless $type && $type =~ /^(text|longtext|clob|blob|lob)$/i;
my $bhash = $self->_Handle->BLOBParams( $key, $type );
$bhash->{'value'} = $attribs{$key};
$attribs{$key} = $bhash;
}
}
return ( $self->_Handle->Insert( $self->Table, %attribs ) );
}
=head2 Delete
Delete this record from the database. On failure return a Class::ReturnValue with the error. On success, return 1;
=cut
*delete = \&Delete;
sub Delete {
$_[0]->__Delete;
}
sub __Delete {
my $self = shift;
#TODO Check to make sure the key's not already listed.
#TODO Update internal data structure
## Constructs the where clause.
my @bind=();
my %pkeys=$self->PrimaryKeys();
my $where = 'WHERE ';
foreach my $key (sort keys %pkeys) {
$where .= $key . "=?" . " AND ";
push (@bind, $pkeys{$key});
}
$where =~ s/AND\s$//;
my $QueryString = "DELETE FROM ". $self->Table . ' ' . $where;
my $return = $self->_Handle->SimpleQuery($QueryString, @bind);
if (UNIVERSAL::isa($return, 'Class::ReturnValue')) {
return ($return);
} else {
return(1);
}
}
=head2 Table
Returns or sets the name of the current Table
=cut
sub Table {
my $self = shift;
if (@_) {
$self->{'table'} = shift;
}
return ($self->{'table'});
}
=head2 _Handle
Returns or sets the current DBIx::SearchBuilder::Handle object
=cut
sub _Handle {
my $self = shift;
if (@_) {
$self->{'DBIxHandle'} = shift;
}
return ($self->{'DBIxHandle'});
}
if( eval { require capitalization } ) {
capitalization->unimport( __PACKAGE__ );
}
1;
__END__
=head1 AUTHOR
Jesse Vincent, <jesse@fsck.com>
Enhancements by Ivan Kohler, <ivan-rt@420.am>
Docs by Matt Knopp <mhat@netlag.com>
=head1 SEE ALSO
L<DBIx::SearchBuilder>
=cut