FI109055B - Method for generation of treelike control structures in user interfaces based on page description language - Google Patents

Description

109055

FIELD OF THE INVENTION The invention relates to a method for presenting hierarchical information based on page markup languages and their use in hierarchical information. The invention further relates to a method according to the preamble of claim 1.

Woodwork

Presentation of data as hierarchical 10 tree structures is widely used in modern user interfaces. A controllable tree presentation provides a convenient way to browse and retrieve blurry amounts of data without losing sight of where the data is. The hierarchical tree can be used to illustrate information that is hierarchically organized, grouped in some way, or organized in a networked manner. Hierarchical trees are used, for example, to illustrate the contents of file systems, the contents of files, books, and other data collections. Wood-like presentations are also common in modern operating system interfaces.

Figure 1 shows an example of a basic tree view on a computer screen. The presentation comprises an information window 6 and a wood presentation window 5. The wood presentation window 5 contains an object to be examined. , the control tree, and the information window displays any information selected in the ·; '20 control tree being examined. The tree comprises nodes 10, icons 20 and representations 30. For the sake of clarity, all of the elements of these elements are not denoted by reference numerals in Figure 1. The rings control the widening and compacting of the branches of the wood presentation, i.e. the user can 1 * * expand and collapse branches of the hierarchy being studied by selecting the corresponding node.

: Icons provide a visual indication of the content of a specific branch or a specific endpoint of a branch, the magazine. Descriptions 30 provide a textual description of the contents of the branches and leaves. The user can select a specific information page by selecting a branch ....: description of the desired magazine 30, or he can examine the contents of the branch in the information window select-. · · *. by taking a description of the branch. There are many variations on the basic structure of wood control in the computer industry.

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....: 30 Numerous patents also disclose various variations of tree-based user interfaces. For example, one prior art patent US-4,613,946 discloses a method and apparatus for drawing wood structures on display devices and in printed prints. In addition, U.S. Patent No. 4,710,763 discloses a method of forming and displaying wood structures by means of automatic data processing equipment. Quite a number of subsequent patents refer to at least one of these publications, for example, U.S. Patent No. 5,425,140, which discloses a computer system and method for providing a user with cascading menus. The use of graphical representations that are more complex than wood graphics is disclosed in U.S. Pat. No. 5,515,487, which discloses a method of selectively displaying complex graphics comprising trees, non-cyclic graphics, and cyclic graphics on a computer display screen. U.S. Patent No. 5,546,529 may be cited as a specific example of the use of tree structures, namely to visualize database search results.

10 Hypertext Systems

In recent years, hypertext systems have been heavily developed. The use of hypertext systems has grown exponentially as a result of the Internet and development. Here's a look at one of the basic aspects of web technology, namely, markup languages.

15 The markup language contains textual information, with commands inserted between them that define the logical structure or layout of textual information. Such commands are commonly referred to as tags in the computer industry. Desired pieces of text can be tagged with corresponding tags so that they form specific logical entities, such as a title or subtitle, or have, for example, a specific structure 20 or font, such as a bold kernel. • *: various page markup languages are used to produce printed documents. For example, SGML is widely used in the printing industry, * and TeX are widely used in academic communities to produce publications in mathematics and physics. In recent years, markup languages have also gained new use in information technology, where markup languages are used to produce documents presented on computer-controlled screens. Important. *: ·. an example is veppi, or the World Wide Web, where documents are encoded in a subset of SGML, HTML.

':' The combination of computers and markup language has expanded the capabilities of markup language: '. In this combination, the markup language can be enhanced, · ': 30 with the computer-provided interaction. Tagging language tags can have * i i '! This is a type of information that controls the functions of a computer. When the user selects. a body of text tagged with a tag or tag pair associated with some kind of road; ', * to, the computer examines the attached data and acts in a similar manner. For example, if the tag: ': specifies a filename for an image, the computer will retrieve the image and display it in place of the tag.

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As another example, you can use a specific tag pair in the HTML language that delimits the desired piece of text, and you can append the desired filename to the tag pair. Programs known as browsers interpret this as a hypertext link. Browsers are programs that can interpret HTML, display the corresponding 5 pages of information to the user, and receive input data from the user. When a browser encounters such a hypertext link, it typically displays a restricted text body in a different style from the adjacent text to inform the user that the restricted text body is a hypertext link. Similarly, when a user selects a link on their input device, the browser retrieves, processes, and displays a file whose name was associated with a tag pair.

However, current systems based on markup languages cannot use tree structures to process information. Static tree structures can and have been made, for example, in HTML, but dynamic tree structures to control data processing have not been implemented. This is due to a feature associated with markup languages, namely, that markup languages do not provide functional descriptions of entities, since markup languages are designed to produce layouts of information such as texts and images.

One approach to remedy this shortcoming has been to include in the documents program code marked in the markup language. Modern browser programs can retrieve Java programs embedded in HTML documents and interpret and execute these Java programs. Embedded programs are typically placed in com. . mentbits to avoid interfering with browsers that cannot run embedded programs. This embedded program code • · · '; The '' approach can be any desired functionality. However, the processing capacity of such embedded programs places considerable demands on the processing capacity of 25 users' computers. As the Java language has evolved, not all Ja-ν ': language-enabled browsers support the same version of Java, resulting in: * i': version dependencies and related issues. In addition, Java programs can increase the risk of a virus being infected by a user's computer.

Another approach to addressing the shortcomings of functional description is to use •; · '30 provides hyperlinks to the original code program blocks. When a browser encounters hyperlin in such a program block, the browser loads the program block into the computer and commands: ··; the computer executes the block. This approach also makes it possible to provide any functionality to the user. However, this approach also has its drawbacks. Since the original code program blocks are directly processed by a computer processor, the given block can only be executed on specific types of computers. This causes problems in environments that use 4,109,555 different computer platforms, or for a user who does not have the specific type of computer needed to execute the original code program block. In addition, original code programs increase the risk of a virus being infected by the user's computer.

It is an object of the present invention to provide a method for forming wooden-like control structures in rigid systems based on a side description language. Another object of the invention is to provide a database server means for creating and managing tree-like control structures for users using page description language based display systems.

The objects are achieved by implementing a data generating means which, in addition to storing information pages comprising a tree-like structure, using a markup language, stores information describing the state of each tree-like structure presented to the user.

The method according to the invention is characterized by what is defined in the characterizing part of the independent method claim. The database server unit according to the invention is characterized in what is defined in the characterizing part of the independent claim on the database server unit. The dependent claims describe other preferred embodiments of the invention.

The invention provides a method and a mechanism in a simple manner *. 20, a tree-like control structure is formed in systems based on page description language. For example, the markup language can be the HTML language used to encode documents in vep. According to the invention, the data generating means forms electronic documents based on page description language for display to the user. The data generating means includes in the electronic documents a description of the control tree structure by using markup language commands. The data generating means stores in memory a set of data describing the type of tree structure or types of tree structures presented to a particular user. Each piece of data stored in: ·· is associated with a tree identifier, which is also attached to the control tree; structure description. When the user then has a specific * t · 30 node of the tree structure shown, the data generation means receives the user-related tree identifier; which allows it to produce a new tree structure according to user choice '1.

The invention will now be explained in more detail with reference to the accompanying drawings, in which: • 109055 Figure 1 illustrates a prior art wood display on a computer monitor; Fig. 2 is a block diagram of an embodiment of the invention; Figure 3 shows a flow diagram of a method according to a preferred embodiment of the invention; Figure 4 illustrates a wooden control structure formed in accordance with a preferred embodiment of the invention; Figure 5 illustrates another type of wood-like control structure formed in accordance with a preferred embodiment of the invention; Fig. 6 is a block diagram of another preferred embodiment of the invention; and Fig. 7 shows a flow chart of a method according to a preferred embodiment of the invention.

In the pictures, the same reference numerals are used for similar entities.

An embodiment of the invention will now be described with reference to Figure 2. Fig. 15 2 is a block diagram of a system according to the invention. The main components of the system are data generating means 110, hereinafter abbreviated. . TMV, a display control means 120, hereinafter referred to as NOV, and. . ; a user interface unit 130. TMV is coupled to memory 115 and via a first connection 150 to a data source 112. TMV is further coupled via a second connection 140: * 20 to one or more NOVs 120. Each NOV has a user interface unit 130 comprising a display 131 and feeding means 132, 133.

The basic tasks of NOV 120 comprise: - receiving information including layout commands from TMV 110, - displaying one or more information pages to the user through information received from the user interface unit 130, - receiving user responses through the input means 132, 133 of the user interface unit, and: '·. I - sends TMV specific information corresponding to input data from the user:: ···.

Most preferably, the NOV 120 can be implemented using a processor that processes computer program stored in the memory means, whereby the processor provides NOV functions controlled by program steps in said memory means.

6 109055! The basic tasks of TMV 110 include: - sending NOV 120 with layout commands to be displayed to the user or users, - storing in memory 115 status information 115b relating to information presented to the user, and 5 session identifier 115a for identifying said status information to other users from other session information items; receives information requests from NO Five, and - retrieves information from one or more data sources 112.

Most preferably, the TMV 110 may be implemented using a processor that processes a computer program stored on the storage media, whereby the processor executes the TMV operations under the control of program steps in said storage media. The user interface unit 130 comprises a display and a user input means. The display may be any conventional display, such as a cathode ray tube, a liquid crystal display, an electroluminescent display (EL), or any other display. Many different display types are known to those skilled in the art and the present invention is not limited to any particular display type. The user input means 132, 133 may be a keyboard or a set of buttons 132. The input device may equally be a mouse 133, a joystick, a touch pad, or the like. Touch screens can also be used as a feeder, and any combination of separate feeders can also be used. Many different types of feeders are known to those skilled in the art, and the present invention is not limited to any particular feeder or combination thereof. The user interface unit can combine. '·'; It may well be a television unit that is connected to a bidirectional data transmission network.

'· * * Data source 112 provides the essential information content that is presented to users. The data source * · '112 can be implemented in many different ways, depending on the particular application of the invention. For example, data source 112 may be a database located in database-v,: server computer system, or file-server computer system file ': system, or a file system on the same computer comprising data generation means TMV. Therefore, the data source may be located on the same physical device as • TMV or on a remote device. Data source 112 can also be a single file, ···. 30 containing all the necessary information, for example an electronic book with a description of its contents. In an application where the '·': method of the invention is applied to a control system of a machine such as a printer, the data source may: e.g. include values for various machine settings and control data; ·. . a combination of register memory and different sensors when the sensors detect different. * ·. 35 physical quantities, such as the amount of ink in the ink tank or the amount of paper in the paper tray. In addition, more than one 7109055 can be connected to the TMV. Additionally, more than one data source 112 may be connected to the TMV device. The data source 112 may further comprise one or more TMVs.

In a preferred embodiment of the invention, the data source 112 is a database or a group of databases and the TMV is a database server unit, for example, a database server process run on a database server computer. In such an embodiment, TMV receives search requests from users, performs required searches, and displays search results to users through NOV means. TMV can associate search results with their location in the database hierarchy using tree control according to the invention or present the results of different search requests in different branches of tree control.

In a preferred embodiment of the invention, the display control means is a processor of a computer executing a browser program.

In a preferred embodiment of the invention, the TMV and the NOV are implemented using separate computers interconnected through a data transmission network. For example, NOVs have been implemented on the personal workstations of employees or external customers, and TMV has been implemented on the company's database server computer. When using the system of the invention, there is no need to install specific database programs on users' workstations, since NOV in a preferred embodiment of the invention may be a conventional browser program such as is currently pre-installed on new personal computers. This fact is especially useful when users need to contact the company's icy system from remote locations, as trained software installation personnel do not need to ::: visit a remote location.

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In another embodiment of the invention, TMV and NOV are implemented in the same physical '; ·; Device, such as a speaker, copier, or other machine, either in separate dedicated processors or in different policy areas in a program that is run: in the same processor. In such an embodiment, the device is connected to a data transmission network, and in addition to the NOVs in the same physical device, the remote •: · *: NOVs can communicate with the TMV processor or TMV process over the network.

The connection between TMV 140 and NOV 140 may be accomplished in many ways throughout the invention. i 30 even according to the requirements of the application. For example, the connection may be via a data transmission network, electrical wires in the same physical device, or via a wireless data transmission link. In addition, the connection between TMV and data source 112 can also be implemented in many ways. The invention is not limited to any particular implementation of TMV and NOV 8101055 connection 140 and TMV to data source 112 connection 150.

According to the invention, TMV and NOV communicate with each other using a page markup language such as a known markup language derived from a known SGML language or other 5 language defining languages such as XML. A specific example of such a markup language is the HTML language used to encode web pages. Two essential elements of the invention are required to establish a functional tree-like control structure: - TMV must know what kind of tree structure is presented to the user, and 10 - The request received from the user must include at least information defining the tree structure.

Since the document encoded in the markup language cannot contain the functionality required for the tree structure, according to the invention, the functionality is provided in a TMV medium. According to the invention, TMV produces and sends to the user new static representations of the information tree in response to user selections.

The TMV must know what is being displayed to the current user and what is hidden from the user's field of view in order to be able to prepare a new tree structure for presentation to the user. This can be done by storing a description of each tree structure presented in TMV memory. In addition, each request from a user to expand or collapse a tree branch of a tree must include identifying information that defines which of the stored tree structure descriptions the request applies to in addition to:; · The request contains information that identifies the relevant node * *: mu. In this specification, the identifier defining the tree structure specified is: '': the identifier of the tree. Therefore, TMV saves the description of the tree structure shown

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. '. '. 25 of the corresponding tree. Later, the wood described in this specification. ·: ·. the description of the structure is called the state of the tree.

By way of example, according to a preferred embodiment of the invention, the operation of the system proceeds as follows. When TMV first presents a tree-like control structure to an operator, TMV prepares a document in a page description, where

. · ': 30 a tree structure to be presented, which at this stage can represent the main branches of the tree. TMV

The J stores in its memory 115 tree status information 115b and the corresponding tree identifier 115a.

. TMV associates the tree tag with those tags in the markup document that describe the different nodal elements of the tree structure. TMV then sends the docu; NO Ville 120, which interprets the document and presents it to the user through the user interface 130. When a user wants to change his perspective on a tree, he can provide an intermediate element to extend or seal the tree branch. When a user selects a node element, NOV sends TMV a tree identifier and node identifier associated with tags describing the selected node element. Based on the received tree identifier, TMV has information that the user is currently viewing, and based on this information and the node identifier, TMV is able to prepare a new presentation of the tree, encode it into a markup document, and send the new document to NOV for presentation to the user.

The invention will now be explained in more detail with reference to Figure 3, which shows a flow chart of a method according to a preferred embodiment of the invention. First, TMV produces a tree representation of the data source in step 200, after which the description of the presentation, i.e., the status of the tree, is stored in 205 memory units. The generated presentation is transmitted to 210 NO Ville serving the desired user, and NOV presents the wooden presentation to the user by drawing the 220 presentation of the wooden presentation on the user interface. In the next step, NOV waits 230 for the user to respond to the information presented. User 15 can respond by selecting a node element in the tree view, a data manager data element in the tree view, or another element in the user interface. If the user selects a node element, the NOV sends the corresponding node element identifier and the tree identifier back to the TMV, which then forms a new tree representation, again in step 200.

If the user does not select a node element, NOV next checks to see if the koh-20 de tree view information management element was selected. If so, NOV will send at least the associated information management element identifier to TMV. TMV then sends: · '280 corresponding information to NO Ville, which presents 290 information to the user. After displaying the information, NOV returns to wait for input data from 230 users.

. · ·, If the user selected another element outside the interface tree structure, - '·, 25 la, NOV handles 300 selections and returns to wait for input from 230 users. Such elements may be, for example, keys or sliders to scroll the display.

Figure 4 shows an example of a wood representation produced by a method according to a preferred embodiment of the invention. Fig. 4 illustrates node control elements »» ♦, 30,400, data management elements 410, and graphical elements 401, 402. Node ohm; the dividing elements 400 control the expansion and tightening of the entire branches of the wood presentation. The control elements of the nodes can be graphical or text elements. Road-! '': The donation control elements 410 may control the content of the display in the area of the tree display; *; that is, in Figure 4, the right side of the display 420. The graphic elements 401, 402 enhance the visual appearance of the 35 tree structure. Graphic elements 401 may also be used as control elements of the nodes. By selecting, for example, a graphical element 401 that leads to a tree representation of the branch, the user can expand or collapse the branch. The tree representation may also comprise elements other than those shown in Figure 4, for example, small images or icons representing a visual representation of the contents of a node or information page.

The wood presentation can be produced in many different ways in different embodiments of the invention. Figure 5 shows an example of a text-based representation of a tree structure produced by a method according to a preferred embodiment of the invention. Figure 5 illustrates node control elements 400 and data management elements 410 in addition to text information. These 10 examples show that the invention is not limited to a graphical display unit, but can be used in a wide variety of user interfaces, including, for example, text-only interfaces.

The invention is not limited to any particular way in which a static wood presentation is produced for display to the user. The static wood presentation can be formed in many known ways, such as, for example, arranging small images, that is, graphical elements, as exemplified in Fig. 4, or text rendering, as in Fig. 5, or a combination of both. The wood presentation can also be produced as a single image on the TMV medium or the entire branches of the wood presentation can be formed as single images. For example, when a single image is used to represent multiple selectable objects 20, an image mapping method may be used in which the user can,, point, and select any position in the large image, and the browser program converts t ·: to a coordinate pair. The image map is accompanied by data tag strings for * * '·' * selectable items in the image and information on which areas of the image correspond to which information: *. · * String. The browser program checks which of the tag strings correspond to the selected point and sends a corresponding string in response to the server that provided the image map. TMV: V: Can produce a slideshow as a single image map or, for example, a collection of image maps, each corresponding to a specific branch of the tree presentation.

In another preferred embodiment of the invention, TMV and NOV may also provide more than one tree control from which the user selects objects. In such an embodiment, each separate tree control has a unique tree identifier: ', I te, so that TMV can differentiate between different tree representations.

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Fig. 6 is a block diagram of another preferred embodiment of the invention. In this filter: * ': TMV 110 has one memory 115 for each NOV means 120 for each' 1 ', i.e. for each user. In this embodiment, memory 115 maintains at least 35 partial representations of the structure of information in the data source or database 112. When the '109055 11 user contacts the TMV for the first time, TMV creates a memory for 115 users and initializes the memory. The initialization may comprise preparing a presentation of the top-level structure of the database, or at least preparing a presentation of the highest level of the database in the form of a single node. After Vessel 5, TMV sends a tree describing at least a portion of the representation in memory 115 to NOV medium 120. When a user responds by opening a node, TMV checks whether the contents of the node are already displayed in memory 115. If not, TMV retrieves from the database and inserts the node in each case, TMV then transmits at least a portion of the representation in memory 115 as a tree-10 structure to the NOV medium 120. In this embodiment, TMV also indicates for each node whether it is visible or hidden, i.e., opened or closed. TMV can then later use this information as it builds new trees for the user to view. This embodiment has the advantage that TMV does not have to search database 112 every time a user opens a node. The database is searched 15 only if the contents of the newly opened node are not yet represented in the memory corresponding to this user 115.

In another preferred embodiment of the invention, the TMV medium has a single memory 115 which contains a description of at least a portion of the database structure described in connection with Figure 6. In this embodiment, TMV only needs to search the tie-20 socket unless any of the users have previously opened the node. In this embodiment, TMV must store information for each node about which users the node is visible to. As one skilled in the art will appreciate, this embodiment and. . the choice between the embodiment of Figure 6 is a compromise against TMV; 'Between speed, memory usage and program complexity.

Figure 7 shows in more detail an embodiment of the invention which is essentially: ''. similar to that described in Figure 6. Figure 7 shows a preferred embodiment of the invention. ·, ·. a flowchart for a method of construction that explains how to build a tree. the contents of buffer memory 115 and database 112. First, in step 500, the buffer is initialized when the first user contacts the TMV. Initialization 30 creates a predetermined portion of the database structure representation in the buffer. For example, the predetermined portion may be a root node.

In step 510, TMV reads the root node from the buffer and adds it to the tree. Next, TMV checks 520 to see if the node has subnodes. Unless the node has subnodes, the tree is. 'finished and sent to NOV 530. After receiving the tree, NOV waits for 35,540 user interactions.

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E

If the user selects a data control element, a link to the information page, the NOV will inform TMV of this selection, after which TMV will retrieve the data from the 550 selected pages and send 560 pages to the NOV for presentation to the user. After this, NOV will wait for the 540 to interact again.

5 If the node has subnodes in step 520, TMV next checks to see if all the subnodes are already in the tree. If all the subnodes are already in the tree, the tree is sent to 530 NOVs, after which the process continues as described above. If the tree does not have all the subnodes, TMV next checks 590 to see if the next subnode is in the buffer. If the next subnode is not in the buffer, TMV will retrieve data from the 10 databases in 600 databases. After Harm or if the subnode was in the buffer in step 590, TMV adds the subnode to the tree in step 610. Next, TMV checks 620 to determine if the subnode is the one that the user currently wanted to open. If so, TMV returns to step 520.

If not, TMV will continue by checking 630 to see if the subnode is marked open. If the subnode was marked open, TMV returns to step 520. If the subnode was marked 15 closed, TMV returns to step 580.

In a preferred embodiment of the invention, step 530 of transmitting the tree to the NOV further comprises the steps of recursively visiting the tree nodes formed by the TMV and adding their descriptions to the electronic document. When all nodes have been visited, the resulting electronic document is sent to 20 NOVs. In this embodiment, each node contains descriptions of its contents.

In the embodiment of Fig. 7, TMV comprises at least means for producing an electronic document in a page markup language describing the search results obtained in response to the search request, means for generating a tree structure definition in said insert. ·. in the markup language whereby the tree structure describes the search results, and the means to display ··· '. 25, storing a description of said tree structure and identification information of said tree structure.

An advantage of the invention is that it provides a way to produce wooden presentations of information using systems that use a markup language to represent the information. In addition, the method of the invention enables the production of wood representations that are viewed ·· *. 30 ways and manageable with any browser program that supports any published version of HTML,. The use of the invention does not require any modification by the user; hardware and software.

. According to the invention, the information pages sent to the user by TMV in response to the selection of the information management elements may be any HTML-encoded document or other document encoded in 13,109,055 I. In particular, these pages may represent the standard database server interface based on the markup language.

In light of the above description, it will be apparent to one skilled in the art that various modifications may be made within the scope of the invention. Although a preferred embodiment of the invention has been described in detail herein, it should be apparent that many variations and variations to it are possible, all of which are within the real spirit of the invention and are within its scope.

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Claims (10)

14 109055 A method for interactively displaying a hierarchical tree structure to a user on a computer display unit (131) in a system wherein: - the content of the display is controlled by the display control means (120) and wherein the information is generated by the data generation means (110); transmitting the display information to the display control means (120) as an electronic document describing the display information in a page description language, said information display having a definition of a tree structure described by instructions in said page description language, said tree structure having at least one node control element defined by in a single instruction, the 15 data generation means (110) stores said tree structure description (115b) and corresponding tree identification information (115a) in a memory (115), and the data generation means (110) and identifying said tree information for each of said at least one of said page description language instructions defining each of said at least one control element. 2. Förfarande enligt patentkrav 1, transducing the image of the reaction after 5 or (240) av an nodstymingselement (400) av användaren sänder (250) bildskärmstyrorganet (120) account informationsgenereringsorganet (110) ätminstone tridentifidentification of these mins ena kommando som defmierar nämnda Reigns nod. A method according to claim 1, characterized in that in response to the user selecting (240) the node control element (400), the display control means (120) transmits (250) at least the tree identification information associated with the generating means (110). said at least one instruction defining the selected node. 3. Förfarande enligt patentkrav 2, kännetecknat av att säsom en reaction main mot-10 backstage avt ena tradid identification identifications (120) genererar (200, 205) informationsgenereringsorganet (110) et electronical document en definition uppdaterad trädstruktur som beskrivs av kommandon frän nämnda sidbeskrivningsspräkää basen av nämnda mottagna iden-tifikationsinformation och nämnda lagrade beskrivning av nämnda trädstruktur. 15 4. Förfarande enligt patentkrav 1, kännetecknat av att such sidbeskrivnings-spräk härletts ur SGML-spräket. A method according to claim 2, characterized in that the data generating means (110) receives at least the identifier of said tree; '; 'From the data display control means (120), the data generating means provides (200, 205) an electronic document having an updated tree structure definition described by said page description language commands based on said received identification information and said stored tree description of said tree structure. Method according to claim 1, characterized in that said si-. The markup language is derived from SGML. 5. Förfarande enligt patentkrav 1, kännetecknat av att such sidbeskrivningsspräk härletts ur XML-spräket. A method according to claim 1, characterized in that said si-; 'The markup language is derived from XML. 15 109055 6. Förfarande enligt patentkrav 1, kännetecknat av att nd sidbeskrivnings-20 spracks and HTML sprites. 6. A method according to claim 1, characterized in that said markup language is HTML. 7. En Database Server (110) För sökning i en Database (112) enligt begäran ··, ·, som mottagits frän clientenheter (120), Colors databas-serverenheten (110) har goat (115), telnet decknad av att databas -serverenheten (110) omfattar; '25 - organ för att producera et electronica document main sidbeskrivningsspräk som be- 1. scriver sökningsresultatet som erhällits säsom important sökningsbegäran (250), - organ för att producera (200) nämnda sidbe- :: skrivningsspräk, varvid nämnda trädstruktur och 30 identificationsinformation för nämnda trädstruktur. (205) i minnet (115) en beskrivning av nämnda trädstruktur och 30 identificationsinformation for this particular structure. The database server unit (110) for performing searches in the database (112) according to requests received from the client units (120), wherein the database server unit (110) has a memory (115), characterized in that the database server unit (110) comprises means for producing an electronic document in means for generating (200) a tree structure definition in said page description language, said tree structure describing a search result and means for storing (205) a description of said tree structure and identification of said tree structure. 8. En databas-serverenhet enligt patentkrav 7, kennnetecknad av att so sidbeskrivningsspräk härletts ur SGML-clips. • I i 17 109055 Database server unit according to claim 7, characterized in that said page markup language is derived from SGML. 9. En databas-serverenhet enligt patentkrav 7, translation code av att like this and beskrivningsspräk härletts ur XML-spraket. Database server unit according to claim 7, characterized in that said page markup language is derived from XML. Database server unit according to claim 7, characterized in that said page markup language is HTML. . v.20 1. Förfarande för att interactive interactive visa en hierarchical structure of the computer. ·: ·. the information (131) at the system level, the system (120), the information (120), the information (110),; '; * kännetecknat av att 25. informationsgenereringsorganet (110) sänder Informationen som skall all till '·' 'bildskärmstyrenheten (120) sommom et electronic document som beskriver information som skall all med sidideskrivningsspräk,' color these har som definition all en treadmill som beskrivs av kommandona i niet sidbeskrivningsspräk,,:: 30 colors nietr structur har harst et element för nodstyrning som de- 'fmieras av minst et kommando i näm siddeskrivningsspräkd (tr) (en) 110 en motsvarande tridentificationinformation (115a) to go (115), och 16 109055 - informationsgenereringsorganet (110) fäster these tridentification infonnation vid this is the command that comes with this sidbeskrivningsspräk som defmieryrst this. 10. En databas-serverenhet enligt patentkrav 7, translation code such as sid-beskrivningssprak HTML tags.