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Man Pages

Manual Reference Pages  -  ACE::OBJECT (3)

.ds Aq ’


Ace::Object - Manipulate Ace Data Objects



    # open database connection and get an object
    use Ace;
    $db = Ace->connect(-host =>,
                       -port => 20000100);
    $sequence  = $db->fetch(Sequence => D12345);
    # Inspect the object
    $r    = $sequence->at(Visible.Overlap_Right);
    @row  = $sequence->row;
    @col  = $sequence->col;
    @tags = $sequence->tags;
    # Explore object substructure
    @more_tags = $sequence->at(Visible)->tags;
    @col       = $sequence->at("Visible.$more_tags[1]")->col;

    # Follow a pointer into database
    $r     = $sequence->at(Visible.Overlap_Right)->fetch;
    $next  = $r->at(Visible.Overlap_left)->fetch;

    # Classy way to do the same thing
    $r     = $sequence->Overlap_right;
    $next  = $sequence->Overlap_left;

    # Pretty-print object
    print $sequence->asString;
    print $sequence->asTabs;
    print $sequence->asHTML;

    # Update object

    # Rollback changes

    # Get errors
    print $sequence->error;


Ace::Object is the base class for objects returned from ACEDB databases. Currently there is only one type of Ace::Object, but this may change in the future to support more interesting object-specific behaviors.

Using the Ace::Object interface, you can explore the internal structure of an Ace::Object, retrieve its content, and convert it into various types of text representation. You can also fetch a representation of any object as a GIF image.

If you have write access to the databases, add new data to an object, replace existing data, or kill it entirely. You can also create a new object de novo and write it into the database.

For information on connecting to ACEDB databases and querying them, see Ace.


The structure of an Ace::Object is very similar to that of an Acedb object. It is a tree structure like this one (an Author object):

 Thierry-Mieg J->Full_name ->Jean Thierry-Mieg
                 Address->Mail->CRBM duCNRS
                  |        |     |
                  |        |    BP 5051
                  |        |     |
                  |        |    34033 Montpellier
                  |        |     |
                  |        |    FRANCE
                  |        |
                  |       E_mail->
                  |        |
                  |       Phone ->33-67-613324
                  |        |
                  |       Fax   ->33-67-521559
                 Paper->The C. elegans sequencing project
                        Genome Project Database
                        Genome Sequencing
                         How to get ACEDB for your Sun
                        ACEDB is Hungry

Each object in the tree has two pointers, a right pointer to the node on its right, and a down pointer to the node beneath it. Right pointers are used to store hierarchical relationships, such as Address->Mail->E_mail, while down pointers are used to store lists, such as the multiple papers written by the Author.

Each node in the tree has a type and a name. Types include integers, strings, text, floating point numbers, as well as specialized biological types, such as dna and peptide. Another fundamental type is tag, which is a text identifier used to label portions of the tree. Examples of tags include Paper and Laboratory in the example above.

In addition to these built-in types, there are constructed types known as classes. These types are specified by the data model. In the above example, Thierry-Mieg J is an object of the Author class, and Genome Project Database is an object of the Paper class. An interesting feature of objects is that you can follow them into the database, retrieving further information. For example, after retrieving the Genome Project Database Paper from the Author object, you could fetch more information about it, either by following <B>itsB> right pointer, or by using one of the specialized navigation routines described below.

new() method

    $object = new Ace::Object($class,$name,$database);
    $object = new Ace::Object(-class=>$class,

You can create a new Ace::Object from scratch by calling the new() routine with the object’s class, its identifier and a handle to the database to create it in. The object won’t actually be created in the database until you add() one or more tags to it and commit() it (see below). If you do not provide a database handle, the object will be created in memory only.

Arguments can be passed positionally, or as named parameters, as shown above.

This routine is usually used internally. See also add_row(), add_tree(), delete() and replace() for ways to manipulate this object.

name() method

    $name = $object->name();

Return the name of the Ace::Object. This happens automatically whenever you use the object in a context that requires a string or a number. For example:

    $object = $db->fetch(Author,"Thierry-Mieg J");
    print "$object did not write Pride and Prejudice.\n";

class() method

    $class = $object->class();

Return the class of the object. The return value may be one of float, int, date, tag, txt, dna, peptide, and scalar. (The last is used internally by Perl to represent objects created programatically prior to committing them to the database.) The class may also be a user-constructed type such as Sequence, Clone or Author. These user-constructed types usually have an initial capital letter.

db() method

     $db = $object->db();

Return the database that the object is associated with.

isClass() method

     $bool = $object->isClass();

Returns true if the object is a class (can be fetched from the database).

isTag() method

     $bool = $object->isTag();

Returns true if the object is a tag.

tags() method

     @tags = $object->tags();

Return all the top-level tags in the object as a list. In the Author example above, the returned list would be (’Full_name’,’Laboratory’,’Address’,’Paper’).

You can fetch tags more deeply nested in the structure by navigating inwards using the methods listed below.

right() and down() methods

     $subtree = $object->right;
     $subtree = $object->right($position);     
     $subtree = $object->down;
     $subtree = $object->down($position);

<B>B>right()<B>B> and <B>B>down()<B>B> provide a low-level way of traversing the tree structure by following the tree’s right and down pointers. Called without any arguments, these two methods will move one step. Called with a numeric argument >= 0 they will move the indicated number of steps (zero indicates no movement).

     $full_name = $object->right->right;
     $full_name = $object->right(2);

     $city = $object->right->down->down->right->right->down->down;
     $city = $object->right->down(2)->right(2)->down(2);

If $object contains the Thierry-Mieg J Author object, then the first series of accesses shown above retrieves the string Jean Thierry-Mieg and the second retrieves 34033 Montpellier. If the right or bottom pointers are NULL, these methods will return undef.

In addition to being somewhat awkard, you will probably never need to use these methods. A simpler way to retrieve the same information would be to use the at() method described in the next section.

The right() and down() methods always walk through the tree of the current object. They do not follow object pointers into the database. Use <B>B>fetch()<B>B> (or the deprecated <B>B>pick()<B>B> or <B>B>follow()<B>B> methods) instead.

at() method

    $subtree    = $object->at($tag_path);
    @values     = $object->at($tag_path);

at() is a simple way to fetch the portion of the tree that you are interested in. It takes a single argument, a simple tag or a path. A simple tag, such as Full_name, must correspond to a tag in the column immediately to the right of the root of the tree. A path such as Address.Mail is a dot-delimited path to the subtree. Some examples are given below.

    ($full_name)   = $object->at(Full_name);
    @address_lines = $object->at(Address.Mail);

The second line above is equivalent to:

    @address = $object->at(Address)->at(Mail);

Called without a tag name, at() just dereferences the object, returning whatever is to the right of it, the same as $object->right

If a path component already has a dot in it, you may escape the dot with a backslash, as in:

    @homologies = $s->at(Homol.DNA_homol.yk192f7\.3;

This also demonstrates that path components don’t necessarily have to be tags, although in practice they usually are.

at() returns slightly different results depending on the context in which it is called. In a list context, it returns the column of values to the <B>rightB> of the tag. However, in a scalar context, it returns the subtree rooted at the tag. To appreciate the difference, consider these two cases:

    $name1   = $object->at(Full_name);
    ($name2) = $object->at(Full_name);

After these two statements run, $name1 will be the tag object named Full_name, and $name2 will be the text object Jean Thierry-Mieg, The relationship between the two is that $name1->right leads to $name2. This is a powerful and useful construct, but it can be a trap for the unwary. If this behavior drives you crazy, use this construct:

    $name1   = $object->at(Full_name)->at();

For finer control over navigation, path components can include optional indexes to indicate navigation to the right of the current path component. Here is the syntax:


Indexes are zero-based. An index of [0] indicates no movement relative to the current component, and is the same as not using an index at all. An index of [1] navigates one step to the right, [2] moves two steps to the right, and so on. Using the Thierry-Mieg object as an example again, here are the results of various indexes:

    $object = $db->fetch(Author,"Thierry-Mieg J");
    $a = $object->at(Address[0])   --> "Address"
    $a = $object->at(Address[1])   --> "Mail"
    $a = $object->at(Address[2])   --> "CRBM duCNRS"

In an array context, the last index in the path does something very interesting. It returns the entire column of data K steps to the right of the path, where K is the index. This is used to implement so-called tag[2] syntax, and is very useful in some circumstances. For example, here is a fragment of code to return the Thierry-Mieg object’s full address without having to refer to each of the intervening Mail, E_Mail and Phone tags explicitly.

   @address = $object->at(Address[2]);
   --> (CRBM duCNRS,BP 5051,34033 Montpellier,FRANCE,,33-67-613324,33-67-521559)

Similarly, tag[3] will return the column of data three hops to the right of the tag. tag[1] is identical to tag (with no index), and will return the column of data to the immediate right. There is no special behavior associated with using tag[0] in an array context; it will always return the subtree rooted at the indicated tag.

Internal indices such as Homol[2].BLASTN, do not have special behavior in an array context. They are always treated as if they were called in a scalar context.

Also see <B>B>col()<B>B> and <B>B>get()<B>B>.

get() method

    $subtree    = $object->get($tag);
    @values     = $object->get($tag);
    @values     = $object->get($tag, $position);
    @values     = $object->get($tag => $subtag, $position);

The get() method will perform a breadth-first search through the object (columns first, followed by rows) for the tag indicated by the argument, returning the column of the portion of the subtree it points to. For example, this code fragment will return the value of the Fax tag.

    ($fax_no) = $object->get(Fax);
         --> "33-67-521559"

The list versus scalar context semantics are the same as in at(), so if you want to retrieve the scalar value pointed to by the indicated tag, either use a list context as shown in the example, above, or a dereference, as in:

     $fax_no = $object->get(Fax);
         --> "Fax"
     $fax_no = $object->get(Fax)->at;
         --> "33-67-521559"

An optional second argument to <B>B>get()<B>B>, $position, allows you to navigate the tree relative to the retrieved subtree. Like the <B>B>at()<B>B> navigational indexes, $position must be a number greater than or equal to zero. In a scalar context, $position moves rightward through the tree. In an array context, $position implements tag[2] semantics.

For example:

     $fax_no = $object->get(Fax,0);
          --> "Fax"

     $fax_no = $object->get(Fax,1);
          --> "33-67-521559"

     $fax_no = $object->get(Fax,2);
          --> undef  # nothing beyond the fax number

     @address = $object->get(Address,2);
          --> (CRBM duCNRS,BP 5051,34033 Montpellier,FRANCE,

It is important to note that <B>B>get()<B>B> only traverses tags. It will not traverse nodes that aren’t tags, such as strings, integers or objects. This is in keeping with the behavior of the Ace query language show command.

This restriction can lead to confusing results. For example, consider the following object:

 Clone: B0280  Position    Map            Sequence-III  Ends   Left   3569
                                                               Right  3585
                           Pmap           ctg377        -1040  -1024
               Positive    Positive_locus nhr-10
               Sequence    B0280
               Location    RW
               FingerPrint Gel_Number     0
                           Canonical_for  T20H1
                           Bands          1354          18

The following attempt to fetch the left and right positions of the clone will fail, because the search for the Left and Right tags cannot traverse Sequence-III, which is an object, not a tag:

  my $left = $clone->get(Left);    # will NOT work
  my $right = $clone->get(Right);  # neither will this one

You must explicitly step over the non-tag node in order to make this query work. This syntax will work:

  my $left = $clone->get(Map,1)->get(Left);   # works
  my $left = $clone->get(Map,1)->get(Right);  # works

Or you might prefer to use the tag[2] syntax here:

  my($left,$right) = $clone->get(Map,1)->at(Ends[2]);

Although not frequently used, there is a form of get() which allows you to stack subtags:

    $locus = $object->get(Positive=>Positive_locus);

Only on subtag is allowed. You can follow this by a position if wish to offset from the subtag.

    $locus = $object->get(Positive=>Positive_locus,1);

search() method

This is a deprecated synonym for get().

    Autogenerated Access Methods

     $scalar = $object->Name_of_tag;
     $scalar = $object->Name_of_tag($position);
     @array  = $object->Name_of_tag;
     @array  = $object->Name_of_tag($position);
     @array  = $object->Name_of_tag($subtag=>$position);
     @array  = $object->Name_of_tag(-fill=>$tag);

The module attempts to autogenerate data access methods as needed. For example, if you refer to a method named Fax (which doesn’t correspond to any of the built-in methods), then the code will call the <B>B>get()<B>B> method to find a tag named Fax and return its contents.

Unlike get(), this method will <B>always step into objectsB>. This means that:

   $map = $clone->Map;

will return the Sequence_Map object pointed to by the Clone’s Map tag and not simply a pointer to a portion of the Clone tree. Therefore autogenerated methods are functionally equivalent to the following:

   $map = $clone->get(Map)->fetch;

The scalar context semantics are also slightly different. In a scalar context, the autogenerated function will *always* move one step to the right.

The list context semantics are identical to get(). If you want to dereference all members of a multivalued tag, you have to do so manually:

  @papers = $author->Paper;
  foreach (@papers) {
    my $paper = $_->fetch;
    print  $paper->asString;

You can provide an optional positional index to rapidly navigate through the tree or to obtain tag[2] behavior. In the following examples, the first two return the object’s Fax number, and the third returns all data two hops to the right of Address.

     $object   = $db->fetch(Author => Thierry-Mieg J);
     ($fax_no) = $object->Fax;
     $fax_no   = $object->Fax(1);
     @address  = $object->Address(2);

You may also position at a subtag, using this syntax:

     $representative = $object->Laboratory(Representative);

Both named tags and positions can be combined as follows:

     $lab_address = $object->Laboratory(Address=>2);

If you provide a -fill=>$tag argument, then the object fetch will automatically fill the specified subtree, greatly improving performance. For example:

      $lab_address = $object->Laboratory(-filled=>Address);

** NOTE: In a scalar context, if the node to the right of the tag is ** an object, the method will perform an implicit dereference of the ** object. For example, in the case of:

    $lab = $author->Laboratory;

**NOTE: The object returned is the dereferenced Laboratory object, not a node in the Author object. You can control this by giving the autogenerated method a numeric offset, such as Laboratory(0) or Laboratory(1). For backwards compatibility, Laboratory(’@’) is equivalent to Laboratory(1).

The semantics of the autogenerated methods have changed subtly between version 1.57 (the last stable release) and version 1.62. In earlier versions, calling an autogenerated method in a scalar context returned the subtree rooted at the tag. In the current version, an implicit right() and dereference is performed.

fetch() method

    $new_object = $object->fetch;
    $new_object = $object->fetch($tag);

Follow object into the database, returning a new object. This is the best way to follow object references. For example:

    $laboratory = $object->at(Laboratory)->fetch;
    print $laboratory->asString;

Because the previous example is a frequent idiom, the optional $tag argument allows you to combine the two operations into a single one:

    $laboratory = $object->fetch(Laboratory);

follow() method

    @papers        = $object->follow(Paper);
    @filled_papers = $object->follow(-tag=>Paper,-filled=>1);
    @filled_papers = $object->follow(-tag=>Paper,-filled=>Author);

The follow() method will follow a tag into the database, dereferencing the column to its right and returning the objects resulting from this operation. Beware! If you follow a tag that points to an object, such as the Author Paper tag, you will get a list of all the Paper objects. If you follow a tag that points to a scalar, such as Full_name, you will get an empty string. In a scalar context, this method will return the number of objects that would have been followed.

The full named-argument form of this call accepts the arguments <B>-tagB> (mandatory) and <B>-filledB> (optional). The former points to the tag to follow. The latter accepts a boolean argument or the name of a subtag. A numeric true argument will return completely filled objects, increasing network and memory usage, but possibly boosting performance if you have a high database access latency. Alternatively, you may provide the name of a tag to follow, in which case just the named portion of the subtree in the followed objects will be filled (v.g.)

For backward compatability, if follow() is called without any arguments, it will act like fetch().

pick() method

Deprecated method. This has the same semantics as fetch(), which should be used instead.

col() method

     @column = $object->col;
     @column = $object->col($position);

<B>B>col()<B>B> flattens a portion of the tree by returning the column one hop to the right of the current subtree. You can provide an additional positional index to navigate through the tree using tag[2] behavior. This example returns the author’s mailing address:

  @mailing_address = $object->at(Address.Mail)->col();

This example returns the author’s entire address including mail, e-mail and phone:

  @address = $object->at(Address)->col(2);

It is equivalent to any of these calls:


Use whatever syntax is most comfortable for you.

In a scalar context, <B>B>col()<B>B> returns the number of items in the column.

row() method


<B>B>row()<B>B> will return the row of data to the right of the object. The first member of the list will be the object itself. In the case of the Thierry-Mieg J object, the example below will return the list (’Address’,’Mail’,’CRBM duCNRS’).

     @row = $object->Address->row();

You can provide an optional position to move rightward one or more places before retrieving the row. This code fragment will return (’Mail’,’CRBM duCNRS’):

     @row = $object->Address->row(1);

In a scalar context, <B>B>row()<B>B> returns the number of items in the row.

asString() method


asString() returns a pretty-printed ASCII representation of the object tree.

asTable() method


asTable() returns the object as a tab-delimited text table.

asAce() method


asAce() returns the object as a tab-delimited text table in .ace format.

asHTML() method


asHTML() returns an HTML 3 table representing the object, suitable for incorporation into a Web browser page. The callback routine, if provided, will have a chance to modify the object representation before it is incorporated into the table, for example by turning it into an HREF link. The callback takes a single argument containing the object, and must return a string-valued result. It may also return a list as its result, in which case the first member of the list is the string representation of the object, and the second member is a boolean indicating whether to prune the table at this level. For example, you can prune large repetitive lists.

Here’s a complete example:

   sub process_cell {
     my $obj = shift;
     return "$obj" unless $obj->isObject || $obj->isTag;

     my @col = $obj->col;
     my $cnt = scalar(@col);
     return ("$obj -- $cnt members",1);  # prune
            if $cnt > 10                 # if subtree to big

     # tags are bold
     return "<B>$obj</B>" if $obj->isTag; 

     # objects are blue
     return qq{<FONT COLOR="blue">$obj</FONT>} if $obj->isObject;


asXML() method

   $result = $object->asXML;

asXML() returns a well-formed XML representation of the object. The particular representation is still under discussion, so this feature is primarily for demonstration.

asGIF() method

  ($gif,$boxes) = $object->asGIF();
  ($gif,$boxes) = $object->asGIF(-clicks=>[[$x1,$y1],[$x2,$y2]...]
                                 -dimensions=> [$width,$height],
                                 -coords    => [$top,$bottom],
                                 -display   => $display_type,
                                 -view      => $view_type,
                                 -getcoords => $true_or_false

asGIF() returns the object as a GIF image. The contents of the GIF will be whatever xace would ordinarily display in graphics mode, and will vary for different object classes.

You can optionally provide asGIF with a <B>-clicksB> argument to simulate the action of a user clicking on the image. The click coordinates should be formatted as an array reference that contains a series of two-element subarrays, each corresponding to the X and Y coordinates of a single mouse click. There is currently no way to pass information about middle or right mouse clicks, dragging operations, or keystrokes. You may also specify a <B>-dimensionsB> to control the width and height of the returned GIF. Since there is no way of obtaining the preferred size of the image in advance, this is not usually useful.

The optional <B>-displayB> argument allows you to specify an alternate display for the object. For example, Clones can be displayed either with the PMAP display or with the TREE display. If not specified, the default display is used.

The optional <B>-viewB> argument allows you to specify an alternative view for MAP objects only. If not specified, you’ll get the default view.

The option <B>-coordsB> argument allows you to provide the top and bottom of the display for MAP objects only. These coordinates are in the map’s native coordinate system (cM, bp). By default, AceDB will show most (but not necessarily all) of the map according to xace’s display rules. If you call this method with the <B>-getcoordsB> argument and a true value, it will return a two-element array containing the coordinates of the top and bottom of the map.

asGIF() returns a two-element array. The first element is the GIF data. The second element is an array reference that indicates special areas of the image called boxes. Boxes are rectangular areas that surround buttons, and certain displayed objects. Using the contents of the boxes array, you can turn the GIF image into a client-side image map. Unfortunately, not everything that is clickable is represented as a box. You still have to pass clicks on unknown image areas back to the server for processing.

Each box in the array is a hash reference containing the following keys:

    coordinates  => [$left,$top,$right,$bottom]
    class        => object class or "BUTTON"
    name         => object name, if any
    comment      => a text comment of some sort

coordinates points to an array of points indicating the top-left and bottom-right corners of the rectangle. class indicates the class of the object this rectangle surrounds. It may be a database object, or the special word BUTTON for one of the display action buttons. name indicates the name of the object or the button. comment is some piece of information about the object in question. You can display it in the status bar of the browser or in a popup window if your browser provides that facility.

asDNA() and asPeptide() methods

    $dna = $object->asDNA();
    $peptide = $object->asPeptide();

If you are dealing with a sequence object of some sort, these methods will return strings corresponding to the DNA or peptide sequence in FASTA format.

add_row() method

    $result_code = $object->add_row($tag=>$value);   
    $result_code = $object->add_row($tag=>[list,of,values]);   
    $result_code = $object->add(-path=>$tag,

add_row() updates the tree by adding data to the indicated tag path. The example given below adds the value 555-1212 to a new Address entry named Pager. You may call add_row() a second time to add a new value under this tag, creating multi-valued entries.


You may provide a list of values to add an entire row of data. For example:

 $sequence->add_row(Assembly_tags=>[Finished Left,38949,38952,AC3]);

Actually, the array reference is not entirely necessary, and if you prefer you can use this more concise notation:

 $sequence->add_row(Assembly_tags,Finished Left,38949,38952,AC3);

No check is done against the database model for the correct data type or tag path. The update isn’t actually performed until you call commit(), at which time a result code indicates whether the database update was successful.

You may create objects that reference other objects this way:

    $lab = new Ace::Object(Laboratory,LM,$db);
    $lab->add_row(Full_name,The Laboratory of Medicine);

    $author = new Ace::Object(Author,Smith J,$db);
    $author->add_row(Full_name,Joseph M. Smith);


The result code indicates whether the addition was syntactically correct. add_row() will fail if you attempt to add a duplicate entry (that is, one with exactly the same tag and value). In this case, use replace() instead. Currently there is no checking for an attempt to add multiple values to a single-valued (UNIQUE) tag. The error will be detected and reported at commit() time however.

The add() method is an alias for add_row().

See also the Ace->new() method.


  $result_code = $object->add_tree($tag=>$ace_object);
  $result_code = $object->add_tree(-tag=>$tag,-tree=>$ace_object);

The add_tree() method will insert an entire Ace subtree into the object to the right of the indicated tag. This can be used to build up complex Ace objects, or to copy portions of objects from one database to another. The first argument is a tag path, and the second is the tree that you wish to insert. As with add_row() the database will only be updated when you call commit().

When inserting a subtree, you must be careful to remember that everything to the *right* of the node that you are pointing at will be inserted; not the node itself. For example, given this Sequence object:

  Sequence AC3
    DB_info     Database    EMBL
    Assembly_tags   Finished Left   1   4   AC3
                    Clone left end      1   4   AC3
                    Clone right end     5512    5515    K07C5
                                        38949   38952   AC3
                    Finished Right      38949   38952   AC3

If we use at(’Assembly_tags’) to fetch the subtree rooted on the Assembly_tags tag, it is the tree to the right of this tag, beginning with Finished Left, that will be inserted.

Here is an example of copying the Assembly_tags subtree from one database object to another:

 $remote = Ace->connect(-port=>200005)  || die "cant connect";
 $ac3 = $remote->fetch(Sequence=>AC3) || die "cant get AC7";
 my $assembly = $ac3->at(Assembly_tags);

 $local = Ace->connect(-path=>~acedb) || die "cant connect";
 $AC3copy = Ace::Object->new(Sequence=>AC3copy,$local);
 $AC3copy->commit || warn $AC3copy->error;

Notice that this syntax will not work the way you think it should:


This is because call at() in an array context returns the column to the right of the tag, not the tag itself.

Here’s an example of building up a complex structure from scratch using a combination of add() and add_tree():

 $newObj = Ace::Object->new(Sequence=>A555,$local);
 my $assembly = Ace::Object->new(tag=>Assembly_tags);
 $assembly->add(Finished Left=>[10,20,ABC]);
 $assembly->add(Clone right end=>[1000,2000,DEF]);
 $assembly->add(Clone right end=>[8000,9876,FRED]);
 $assembly->add(Finished Right=>[1000,3000,ETHEL]);
 $newObj->commit || warn $newObj->error;

delete() method

    $result_code = $object->delete($tag_path,$value);
    $result_code = $object->delete(-path=>$tag_path,

Delete the indicated tag and value from the object. This example deletes the address line FRANCE from the Author’s mailing address:


No actual database deletion occurs until you call commit(). The delete() result code indicates whether the deletion was successful. Currently it is always true, since the database model is not checked.

replace() method

    $result_code = $object->replace($tag_path,$oldvalue,$newvalue);
    $result_code = $object->replace(-path=>$tag_path,

Replaces the indicated tag and value with the new value. This example changes the address line FRANCE to LANGUEDOC in the Author’s mailing address:


No actual database changes occur until you call commit(). The delete() result code indicates whether the replace was successful. Currently is true if the old value was identified.

commit() method

     $result_code = $object->commit;

Commits all add(), replace() and delete() operations to the database. It can also be used to write a completely new object into the database. The result code indicates whether the object was successfully written. If an error occurred, further details can be found in the Ace->error() error string.

rollback() method


Discard all adds, deletions and replacements, returning the object to the state it was in prior to the last commit().

rollback() works by deleting the object from Perl memory and fetching the object anew from AceDB. If someone has changed the object in the database while you were working with it, you will see this version, ot the one you originally fetched.

If you are creating an entirely new object, you must add at least one tag in order to enter the object into the database.

kill() method

    $result_code = $object->kill;

This will remove the object from the database immediately and completely. It does not wait for a commit(), and does not respond to a rollback(). If successful, you will be left with an empty object that contains just the class and object names. Use with care!

In the case of failure, which commonly happens when the database is not open for writing, this method will return undef. A description of the problem can be found by calling the error() method.

date_style() method


This is a convenience method that can be used to set the date format for all objects returned by the database. It is exactly equivalent to


Note that the text representation of the date will change for all objects returned from this database, not just the current one.

isRoot() method

    print "Top level object" if $object->isRoot;

This method will return true if the object is a top level object, that is the root of an object tree rather than a subtree.

model() method

    $model = $object->model;

This method will return the object’s model as an Ace::Model object, or undef if the object does not have a model. See Ace::Model for details.

timestamp() method

   $stamp = $object->timestamp;

The <B>B>timestamp()<B>B> method will retrieve the modification time and date from the object. This works both with top level objects and with subtrees. Timestamp handling must be turned on in the database, or <B>B>timestamp()<B>B> will return undef.

The returned timestamp is actually a UserSession object which can be printed and explored like any other object. However, there is currently no useful information in UserSession other than its name.

comment() method

   $comment = $object->comment;

This returns the comment attached to an object or object subtree, if any. Comments are Comment objects and have the interesting property that a single comment can refer to multiple objects. If there is no comment attached to the current subtree, this method will return undef.

Currently you cannot create a new comment in AcePerl or edit an old one.

error() method

    $error = $object->error;

Returns the error from the previous operation, if any. As in Ace::error(), this string will only have meaning if the previous operation returned a result code indicating an error.

factory() method


    $package = $object->factory;

When a root Ace object instantiates its tree of tags and values, it creates a hierarchical structure of Ace::Object objects. The factory() method determines what class to bless these subsidiary objects into. By default, they are Ace::Object objects, but you can override this method in a child class in order to create more specialized Ace::Object classes. The method should return a string corresponding to the package to bless the object into. It receives the current Ace::Object as its first argument.

debug() method


Change the debugging mode. A zero turns off debugging messages. Integer values produce debug messages on standard error. Higher integers produce progressively more verbose messages. This actually is just a front end to Ace->debug(), so the debugging level is global.


Ace, Ace::Model, Ace::Object, Ace::Local, Ace::Sequence,Ace::Sequence::Multi


Lincoln Stein <> with extensive help from Jean Thierry-Mieg <>

Copyright (c) 1997-1998, Lincoln D. Stein

This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. See DISCLAIMER.txt for disclaimers of warranty.

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