Recursive sections in electronic forms

Abstract

Systems and/or methods enabling creation and/or use of a recursive section for an electronic form are described. In one embodiment, a system and/or method enables alteration, responsive to graphical selection of a recursive section component, of an electronic form's schema to permit a recursive section. In another embodiment, a system and/or method enables a user to modify a recursive section in an electronic form through a rendering of the electronic form.

Description

TECHNICAL FIELD

This invention relates to recursive sections in electronic forms.

BACKGROUND

Electronic data-entry forms are commonly used to collect information. These electronic forms enable users to enter data and have that data stored digitally, such as in computer-accessible databases. Data so stored can be quickly retrieved, allowing others to use that data.

In some cases, it is useful for electronic data-entry forms to include recursive sections. These sections may permit nested sets of similar information to be entered, each section being governed similarly by a schema governing the electronic form.

Assume, for example, that a user of an electronic form wishes to enter names and email addresses for employees that are within a management hierarchy. To do so, a group of recursive sections may be used, each of which enables the user to enter the needed information for each employee within the hierarchy.

Building recursive sections into an electronic data-entry form, however, can require significant time and computer-programming skill. A person often needs to have extensive training and experience in computer programming before he or she can build recursive sections into an electronic data-entry form. Even with extensive training, this programmer may need many hours to build and maintain these recursive sections.

Further, these recursive sections may be limited by the electronic form. Assume, for example, that the programmer thought that the form's user would need to have up to three levels of hierarchy in a management structure, each having up to five employees, and built the electronic form to reflect the recursive sections accordingly. The electronic form may work for a sales team having one president, two sales managers below the president, and five salesmen below the sales managers. If the form's user, however, needs to enter into the form a sixth salesman or a salesman's assistant (a fourth level of management hierarchy), the form may no longer be capable of handling the management structure needed by the user. In this case, the programmer may have to go back and re-design the electronic form.

Alternatively, a programmer may design an electronic form to enable additional flexibility by permitting a user to add recursive sections to an electronic form; to add these recursive sections, however, a user may need to do so through a potentially confusing and difficult-to-manage hierarchical representation of the electronic form's data structure. In this case, for example, a user may need to view and understand a hierarchical tree representation of the electronic form, select a particular node or hierarchical level of the tree, and insert a representation of a recursive structure at that particular node or level. Not only is this way of adding recursive sections potentially confusing and difficult, it may permit the user to improperly insert the recursive structure. If the user inserts the structure improperly, the altered data structure of the electronic form may be invalid to its governing schema. An electronic form invalid to its schema may be useless.

Given the foregoing, there is a need in the art for a more user-friendly and/or less time-consuming way to build and/or use recursive sections for electronic data-entry forms.

SUMMARY

Systems and/or methods (“tools”) enabling creation and/or use of recursive sections for an electronic data-entry form are described.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates an exemplary architecture capable of facilitating creation and/or use of recursive sections in an electronic form.

FIG. 2 sets forth a flow diagram of an exemplary process for building recursive sections.

FIG. 3 illustrates an exemplary and empty form-design area.

FIG. 4 illustrates the form-design area of FIG. 3 showing an exemplary control.

FIG. 5 sets forth a flow diagram of an exemplary process for enabling a user to add or alter recursive sections.

FIG. 6 illustrates an exemplary rendered view of an electronic form having a recursive section.

FIG. 7 illustrates the rendered view of FIG. 6 with an exemplary recursive selection dialog.

FIG. 8 illustrates the rendered view of FIG. 6 with an exemplary subordinate recursive section.

The same numbers are used throughout the disclosure and figures to reference like components and features.

DETAILED DESCRIPTION

Overview

Tools described below enable creation and/or use of recursive sections for an electronic data-entry form.

The tools, in one embodiment, enable a recursive section to be built into an electronic form graphically, such as through enabling a form designer to graphically select a component representing the recursive section. By so doing, the tools may enable form designers to quickly and easily create recursive sections for electronic forms without needing to write script or have extensive programming experience.

The tools also, in another embodiment, enable users of an electronic form to modify recursive sections in an electronic form through a data-entry and/or rendered view of the electronic form. In this way, the tools may enable a user to alter recursive sections through a view of the form in which the user may be most familiar.

The tools may also, in another embodiment, enable creation and/or use of recursive sections in an electronic form that permit a user to add an arbitrary number or level of recursive sections to the electronic form.

In still another embodiment, the tools enable a user to add recursive sections to an electronic form while ensuring that the form remains valid to its governing schema.

Architecture

An exemplary architecture 100 capable of facilitating creation and/or use of a recursive section is shown FIG. 1. This architecture is set forth as one example of a computer architecture in which the tools may be implemented. The architecture 100 comprises a display 102, one or more user-input devices 104, and a computer 106. The user-input devices 104 comprise any device allowing a computer to receive a designer's or user's preferences, such as a keyboard 108, other device(s) 110 (e.g., a touch screen, a voice-activated input device, a track ball, etc.), and a mouse 112. The computer comprises a processing unit 114 capable of executing computer-readable media 116 communicated to the processing unit through a bus 117.

The computer-readable media comprises an operating system 118 and one or more applications stored in memory and executable by the processing unit. One particular application is a design application 120, which may allow a form designer to create recursive sections for an electronic form with little or no programming skill. The design application is capable of providing a visual what-you-see-is-what-you-get (WYSIWYG) user interface 122 that, in one embodiment, enables designers to graphically construct recursive sections by visually selecting graphics and arranging them in a manner that can be intuitive and straight forward.

An electronic-form template 124 is also shown. This template comprises a schema 126 governing electronic form 128, and recursive section logic 130. The recursive section logic may be part of or separate from the template. The electronic form comprises a data structure 132 and a form view 134. The data structure may be arranged hierarchically and comprise nodes. The data structure may also be transformed to render the form view, which enables data entry into the electronic form. In one embodiment, the data structure comprises eXtensible Markup Language (XML) and can be transformed with an eXtensible Style-sheet Language Transformation (XSLT) to produce HyperText Machine Language (HTML) that is viewable and through which a user can enter information.

The computer-readable media also comprises a runtime application 136. The runtime is capable of enabling a user's interaction with the electronic form, and may include a user interface.

Recursive Sections

Generally, a recursive section in the context of electronic forms comprises a section capable of containing or referencing an instance of itself. In some cases, a recursive section can contain an instance of itself as a direct child or a descendant. In some others, it can reference an instance of itself as a child or descendant as a choice.

Electronic forms described herein may provide multiple, substantially similar data-entry sections into which a user may enter and view information. These data-entry sections may correspond to a recursive section and instances of that recursive section, though each may appear different in some fashion. The schema governing and/or the logic directing the operation of these data-entry sections may, however, be identical.

An electronic form having three levels of recursion, for instance, may provide data-entry sections each having the same data-entry fields, though the orientation, color, accompanying text, and the like may be different. For example, the first level may be oriented to the left of the page and have accompanying text of “President”, as a highest level of an employee management structure. The second level may be oriented slightly right of the first level and have accompanying text of “Vice President”. Likewise, the third level may be oriented further right and have accompanying text of “Manager”.

Building Recursive Sections

An exemplary process 200 enabling a form designer to build a recursive section into an electronic data-entry form is shown in FIG. 2. The process 200 is illustrated as a series of blocks representing individual operations or acts performed by components of architecture 100, such as design application 120 and/or its user interface 122. This and other processes described herein may be implemented in any suitable hardware, software, firmware, or combination thereof. In the case of software and firmware, these processes represent sets of operations implemented as computer-executable instructions.

At block 202, design application 120 enables selection of a recursive section component. This component may be selected graphically, such as by dragging and dropping it from one region of display 102 to another, for instance. It can also be selected (graphically or otherwise) through a dialog menu or in other appropriate ways.

In an illustrated embodiment, the design application enables graphical selection of a recursive section component without writing script or code, as illustrated in a screen shot 300 of FIG. 3. This screen shot sets forth an exemplary form-design area 302 capable of showing a what-you-see-is-what-you-get (WYSIWYG) representation of a selected recursive section component, a hierarchical representation 304 (entitled “data source”) of an electronic form from which a node may be selected at which the recursive section may be associated or a position at which a node corresponding to the selected component may be placed, and a selectable recursive section component 306 (entitled “Repeating Recursive Section”).

At block 204, the design application may determine whether or not the electronic form comprises a schema part that is substantially similar to a schema construct that may be added when a recursive section component is selected. In some cases an electronic form being designed already comprises a schema, which may have a part or parts that is substantially similar to a schema construct for a recursive section component. If the design application determines that the electronic form being designed comprises such a schema part, it proceeds to block 206. Otherwise, it proceeds to block 208.

At block 206, the design application indicates that this recursive section component may be selected without altering the schema of the electronic form. This may be useful when a designer does not wish to alter a schema of an electronic form but does wish to alter how the electronic form behaves. By so doing, this process 200 permits an existing electronic form that has a schema matching an industry or company standard (and so should not be changed) to have its behavior (e.g., logic or view) but not its schema altered.

At block 208, the design application receives a form designer's selection. In the ongoing illustrated embodiment shown in FIG. 3, the design application receives a selection of an employee node 308 and recursive section component 306. The design application is capable of associating the selected recursive section component with the selected employee node.

In the ongoing illustrated embodiment, the design application indicates a selection of the form designer graphically, in this case in a WYSIWYG way by presenting a control approximating what a user of the form may see when editing the form (an “editable view”). FIG. 4 sets forth this exemplary presentation with screen shot 400 showing control 402 associated with the selected recursive section in the form-design area 302.

In one embodiment, the form designer is also enabled to customize the user's experience, such as by selecting: concentric boxes for recursive sections based on their hierarchy; text or other user interfaces to aid the user that may also be dependent on the level of the hierarchy; and the like. Thus, a form designer may select that a first level employee have an outer concentric box and text of “employee”, and each successive level employee have an inner concentric box for each level and a “sub” before “employee” also for each level.

Following block 208, the design application may proceed to block 210 or, if the designer selected to not alter the electronic form's schema, to block 212.

At block 210, the design application may alter the electronic form's schema to permit a recursive section. The design application may alter the electronic form's schema at a location in the schema at which a component is selected, such as at the employee node selected in the illustrated embodiment.

Continuing this embodiment, the design application alters the electronic form's schema 126 of FIG. 1 by adding a schema construct associated with the selected recursive section component. This schema construct may govern the recursive section of the electronic form and may permit an arbitrary number and/or level of instances contained by or referencing the recursive section. This arbitrary number and/or level may permit, for example, a user of the electronic form to enter information for many employees and to many levels of hierarchy without the electronic form being invalid.

The design application adds the following schema construct (here in XML schema, “XSD”) to the electronic form's schema in the illustrated embodiment:

<?xml version=“1.0” encoding=“UTF-8” standalone=“no” ?>
<xsd:schema
targetNamespace=“http://schemas.microsoft.com/office/infopath/2003
/myXSD/2004-08-30T18:16:22”
xmlns:my=“http://schemas.microsoft.com/office/infopath/2003/myXSD/
2004-08-30T18:16:22” xmlns:xsd=“http://www.w3.org/2001/
XMLSchema”>
<xsd:element name=“myFields”>
<xsd:complexType>
<xsd:sequence>
<xsd:element ref=“my:Employee” minOccurs=“0”
maxOccurs=“unbounded”/>
</xsd:sequence>
<xsd:anyAttribute processContents=“lax”
namespace=“http://www.w3.org/XML/1998/namespace” />
</xsd:complexType>
</xsd:element>
<xsd:element name=“Employee”>
<xsd:complexType>
<xsd:sequence>
<xsd:element ref=“my:Name” minOccurs=“0” />
<xsd:element ref=“my:Email” minOccurs=“0” />
<xsd:element ref =“my:Employee” minOccurs=“0”
maxOccurs=“unbounded” />
</xsd:sequence>
</xsd:complexType>
</xsd:element>
<xsd:element name=“Name” type=“xsd:string” />
<xsd:element name=“Email” type=“xsd:string” />
</xsd:schema>

At block 212, the design application associates logic with the electronic form that is capable of guiding how the recursive section is used during editing. If the design application skipped block 210, this logic may be associated with the existing schema part determined at block 204.

In the illustrated embodiment, this logic is mapped one-to-one to the schema construct for the selected recursive section component. This logic is added to recursive section logic 130 of electronic form template 124 of FIG. 1. The design application adds the logic set forth below (here written in XML) to the electronic form template. The first “xsf:xmlToEdit” section set forth below governs the outer instance and the second “xsf:xmlToEdit” section governs all inner (sub-hierarchical or nested) instances.

<xsf:editing>
<xsf:xmlToEdit name=“Employee_1”
item=“/my:myFields/my:Employee” container=“/my:myFields”>
<xsf:editWith caption=“Employee”
xd:autogeneration=“template” component=“xCollection”>
<xsf:fragmentToInsert>
<xsf:chooseFragment innerFragment=
“my:Employee”>
<myEmployee>
<my:Name></my:Name>
<my:Email></my:Email>
</my:Employee>
</xsf:chooseFragment>
</xsf:fragmentToInsert>
</xsf:editWith>
</xsf:xmlToEdit>
<xsf:xmlToEdit name=“Employee_2”
item=“/my:myFields//my:Employee//my:Employee”
container=“/my:myFields//my:Employee”>
<xsf:editWith caption=“Sub Employee”
xd:autogeneration=“template” component=“xCollection”>
<xsf:fragmentToInsert>
<xsf:chooseFragment innerFragment=
“my:Employee”>
<my:Employee>
<my:Name></my:Name>
<my:Email></my:Email>
</my:Employee>
</xsf:chooseFragment>
</xsf:fragmentToInsert>
</xsf:editWith>
</xsf:xmlToEdit>
</xsf:editing>

At block 214, the design application may associate with the electronic form viewing information associated with a recursive section component. This viewing information may provide additional information guiding how the selected recursive section is viewed by a user. This viewing information is available to runtime 136 of FIG. 1 during editing of the electronic form.

Continuing the illustrated embodiment, the design application may add the following viewing information (here an extensible Stylesheet Language (XSL) transformation), to the electronic form template:

<xsl:template match=“my:myFields”>
<html>
<body>
<div><xsl:apply-templates select=“my:Employee”
mode=“_3”/>
<div class=“optionalPlaceholder”
xd:xmlToEdit=“Employee_1” tabIndex=“0”
xd:action=“xCollection::insert” align=“left” style=“WIDTH:
651px”>Insert item</div>
</div>
<div> </div>
</body>
</html>
</xsl:template>
<xsl:template match=“my:Employee” mode=“_3”>
<div class=“xdRepeatingSection xdRepeating” title=“ ”
style=“MARGIN-BOTTOM: 6px; WIDTH: 651px” align=“left”
xd:CtrlId=“CTRL7” xd:xctname=“RepeatingSection” tabIndex=“−1”>
<div>Name:<span class=“xdTextBox” hideFocus=“1” title=“ ”
xd:CtrlId=“CTRL8” xd:xctname=“PlainText” tabIndex=“0”
xd:binding=“my:Name” style=“WIDTH: 130px”>
<xsl:value-of select=“my:Name”/>
</ span>
</div>
<div>Email:<span class=“xdTextBox” hideFocus=“1” title=“ ”
xd:CtrlId=“CTRL9” xd:xctname=“PlainText” tabIndex=“0”
xd:binding=“my:Email” style=“WIDTH: 130px”>
<xsl:value-of select=“my:Email”/>
</ span>
</ div>
<div><xsl:apply-templates select=“my:Employee”
mode=“_3“/>
<div class=“optionalPlaceholder”
xd xmlToEdit=“Employee_2” tabIndex=“0”
xd:action=“xCollection::insert” align=“left” style=“WIDTH:
100%”>Insert item</div>
</div>
<div> </div>
<div> </div>
<div> </div>
</div>
</xsl:template>

Exemplary User Interaction

Referring to FIG. 5, an exemplary process 500 enabling a user to modify a recursive section in an electronic form is shown. The process 500 is illustrated as a series of blocks representing individual operations or acts performed by components of architecture 100, such as runtime 136 and electronic form template 124. Electronic forms in which a user may modify a recursive section according to the process 500 may comprise, for instance, those with recursive sections built according to process 200 above or electronic forms built in other ways and governed by a schema permitting recursive sections, such as some electronic forms that follow an industry standard.

At block 502, a view of an electronic form having a schema permitting recursive sections is displayed. This view may be editable by a user and/or comprise a rendering of an electronic form's data structure, such as a transformation of data structure 132 of FIG. 1. In one embodiment, this view comprises data-entry fields or otherwise enables a user to enter data.

Continuing the illustrated embodiment above, a screen shot 600 showing a rendered view 602 is set forth in FIG. 6. This view shows a recursive section 604 presented in HTML, which is an XSL transformation of an XML data structure in the electronic form for the recursive section.

At block 504, a user is enabled to modify a recursive section. The user may, in one embodiment, be enabled to add recursive sections to an arbitrary number and/or level of hierarchy. Thus, the runtime may permit a user to add recursive sections at the same or an arbitrary level below a recursive section over and over again. Constraints of the schema may be determined in part based on the form's schema and/or recursive section logic 130 of FIG. 1.

Also, the user may be able to modify the recursive section graphically while maintaining the form's validity to its schema. The modifications to the recursive section may be constrained so that a user is not enabled to perform a modification that is not permitted by a schema governing the electronic form. The runtime may determine what modifications are permitted in part based on the recursive section logic. Based on this information, the runtime may orient where in a view the user is enabled to modify the recursive section.

Graphical interaction may be enabled through an editable, rendered view of the electronic form. By so doing, a user is enabled to interact with the form through a view in which the user may be familiar. Also, by so doing, the user may not have to switch out of the editable view to modify the recursive section.

Continuing the illustrated embodiment, the rendered view shown in FIG. 6 comprises a recursive selection button 606. Responsive to receiving a user's selection of this button, the runtime may present additional options to the user. These options may enable the user to add, delete, or alter a recursive section. The user may also be enabled to select in which way he or she wishes a recursive section to be added.

Consider, for example, FIG. 7. There a screen shot 700 shows an updated rendered view 602 having a recursive selection dialog 702. Through this recursive selection dialog a user is enabled to select to add an instance of a recursive section at the same level as the recursive section with which the recursive selection button 606 is associated in FIG. 6. The dialog 702 shows two options for adding an instance of a recursive section at the same level, an insert above option 704 (entitled “Insert Employee above”) and an insert below option 706 (entitled “Insert Employee below”). The dialog also enables the user to remove the recursive section 604 with a remove option 708 (entitled “Remove Employee”). Further, the dialog enables the user to add an instance of the recursive section at a level below that of recursive section 604 with an insert subordinate option 710 (entitled “Insert Sub Employee”).

In the illustrated embodiment, the runtime (in some cases using the recursive section logic of FIG. 1), enables the user to select to add as many numbers of employees and to as many levels as the user desires. If, for instance, the user wishes to add thirty employees at the current level of recursive section 604 (e.g., for thirty-one sales managers), each of which has between three and twenty-six salesmen, each of these of which has zero to twelve sales assistants, and so forth, the runtime may enable the user to do so. In at least this sense, the electronic form is enabled to be user-driven, rather than forcing the user to follow a prescribed set of recursive section options. Also, each of the added instances of the recursive section may enable similar or identical instances to be added to the added recursive section. Thus, each recursive section, whether original or later added, may have additional instances added at or below its level.

At block 506, the runtime modifies the electronic form's data structure 132. The user may, for instance, select to add an employee with insert subordinate option 710 (and thus at a lower level as the employee shown with recursive section 604), responsive to which the runtime may add an instance of the recursive section for the additional employee.

At block 508, the runtime alters the form view 134 for the electronic form. It may do so by transforming the data structure with a transformation associated with the recursive section (such as described above). In presenting data-entry fields and the like for the newly added recursive section, the runtime may rely on aspects of the electronic form template 124, such as parts of recursive section logic 130 associated with the recursive section. This logic may set forth a way in which the added recursive section may appear (e.g., shading, orientation, and text).

Consider, for example, FIG. 8. There a screen shot 800 shows an updated rendered view 602 having an added, subordinate recursive section 802 for an additional employee. Note also that the runtime enables the user to add, delete, and or alter recursive sections for both the recursive section 604 and the newly added subordinate recursive section 802. Through recursive selection button 606 and a subordinate recursive selection button 804, the user can continue to add, delete, and alter recursive sections for employees at various levels.

The user may then enter information into the subordinate recursive section.

CONCLUSION

The above-described systems and methods enable creation and/or use of a recursive section for an electronic data-entry form. Although the invention has been described in language specific to structural features and/or methodological acts, it is to be understood that the invention defined in the appended claims is not necessarily limited to the specific features or acts described. Rather, the specific features and acts are disclosed as exemplary forms of implementing the claimed invention.

Claims

1. One or more computer-readable media having computer-readable instructions therein that, when executed by a computer, cause the computer to perform acts comprising: transforming an electronic form from a first format comprising a data structure including eXtensible Markup Language (XML) into a second format comprising an editable form view rendered in hyper text machine language (HTML) representing the data structure, wherein the first format is transformed into the second format with an eXtensible Style-sheet Language Transformation (XSLT), wherein the electronic form comprises a recursive section and the editable form view renders the recursive section, wherein the electronic form is governed by an electronic-form template comprising a schema and a recursive section logic;enabling a user to graphically modify the recursive section of the electronic form using the editable form view of the second format of the electronic form rendered in HTML without writing script or code; andin response to graphically modifying the recursive section of the electronic form using the editable form view of the second format of the electronic form, transforming the XML data structure of the first format of the electronic form with a transformation associated with the modification of the recursive section of the second format of the electronic form.

2. The media of claim 1, wherein the rendering of the electronic form into the editable form view enables a user to enter data into the electronic form.

3. The media of claim 1, wherein the editable form view of the electronic form comprises hyper text machine language.

4. The media of claim 1, wherein the act of enabling comprises enabling the user to add an arbitrary number of instances of the recursive section to the electronic form.

5. The media of claim 1, wherein the act of enabling comprises enabling the user to add an arbitrary level of instances of the recursive section to the electronic form.

6. The media of claim 1, wherein the act of enabling comprises enabling the user to add an instance of the recursive section to the XML data structure of the electronic form.

7. The media of claim 6, further comprising: receiving a selection to add the instance; andtransforming the XML data structure effective to render the electronic form and display the added instance.

8. The media of claim 1, wherein the act of enabling is performed while maintaining the electronic form's validity to the schema governing the electronic form.