PATENT DOCUMENT

Publication Number: US-8296332-B2
Application Number: US-75295310-A
Country: US
Kind Code: B2

Title: Visual manipulation of database schema

Abstract:
Methods, program products, and systems for visual manipulation of database schema are disclosed. In general, in one aspect, a system can display a schema view and a data view in graphic representation in an integrated GUI on a display device. The system can display a schema in the schema view, and one or more data records in the data view. The system can receive a touch input from the display device in the schema view, or the data view, or both. In response to the touch input, the system can modify the schema, or the data records, or both. The system can update the schema view and data view substantially simultaneously to reflect the modification in the schema or data records.

Claims:
1. A method executed on a mobile device, comprising:
 displaying on a display of the mobile device a schema view and a data view, the schema view displaying a schema of a database, the data view displaying at least one data record, the data record including a first data field defined by the schema; 
 receiving a touch input on the display in at least one of the two views; 
 in response to the received touch input, modifying the schema and the data record; and 
 updating the schema view and the data view displayed on the display substantially simultaneously, according to the modified schema and the modified data record. 
 
     
     
       2. The method of  claim 1 , wherein the touch input includes a movement of a pointing means across the display device. 
     
     
       3. The method of  claim 1 , wherein displaying the schema of the database includes displaying in the schema view an icon of a second data field of the database, the second data field being defined by the schema, wherein the second data field is hidden from the data view. 
     
     
       4. The method of  claim 3 , wherein receiving the touch input includes:
 receiving a touch of the display device on the icon displayed in the schema view by a pointing means; 
 detecting a movement of the pointing means from the schema view into the data view; and 
 detecting that the pointing means is no longer in contact with the display device. 
 
     
     
       5. The method of  claim 4 , wherein updating the data view includes displaying the second data field in the data view. 
     
     
       6. The method of  claim 1 , wherein:
 receiving the touch input on the display device includes receiving a touch, by a pointing means, of a first handle of the first data field displayed in the data view; 
 modifying the schema includes deleting the first data field from the schema; and 
 updating the schema view and the data view displayed on the display device includes deleting the data field from the data view and deleting an icon of the first data field from the schema view. 
 
     
     
       7. The method of  claim 6 , where deleting the data field is visualized using a crumpling animation. 
     
     
       8. The method of  claim 1 , wherein:
 receiving the touch input on the display device includes receiving a touch, by a pointing means, of a second handle of the first data field displayed in the data view; and 
 updating the schema view and the data view displayed on the display device includes:
 deleting the first data field from the data view; and 
 changing an icon displayed the schema view into a hidden state, the icon corresponding to the first data field. 
 
 
     
     
       9. The method of  claim 1 , further comprising:
 displaying a text data field in the data view, the text data field including multiple lines of text; 
 receiving a user input, the user input including a pinching action of multiple pointing means on the display device; and 
 reducing a number of the lines of the text according to the pinching action, including replacing at least one line of the text with an ellipsis. 
 
     
     
       10. A computer program product stored on a mobile device, operable to cause the mobile device to perform operations comprising:
 displaying on a display of the mobile device a schema view and a data view, the schema view displaying a schema of a database, the data view displaying at least one data record, the data record including a first data field defined by the schema; 
 receiving a touch input on the display in at least one of the two views; 
 in response to the received touch input, modifying the schema and the data record; and 
 updating the schema view and the data view displayed on the display substantially simultaneously, according to the modified schema and the modified data record. 
 
     
     
       11. The product of  claim 10 , wherein the touch input includes a movement of a pointing means across the display device. 
     
     
       12. The product of  claim 10 , wherein displaying the schema of the database includes displaying in the schema view an icon of a second data field of the database, the second data field being defined by the schema, wherein the second data field is hidden from the data view. 
     
     
       13. The product of  claim 12 , wherein receiving the touch input includes:
 receiving a touch of the display device on the icon displayed in the schema view by a pointing means; 
 detecting a movement of the pointing means from the schema view into the data view; and 
 detecting that the pointing means is no longer in contact with the display device. 
 
     
     
       14. The product of  claim 13 , wherein updating the data view includes displaying the second data field in the data view. 
     
     
       15. The product of  claim 10 , wherein:
 receiving the touch input on the display device includes receiving a touch, by a pointing means, of a first handle of the first data field displayed in the data view; 
 modifying the schema includes deleting the first data field from the schema; and 
 updating the schema view and the data view displayed on the display device includes deleting the data field from the data view and deleting an icon of the first data field from the schema view. 
 
     
     
       16. The product of  claim 15 , where deleting the data field is visualized using a crumpling animation. 
     
     
       17. The product of  claim 15 , wherein:
 receiving the touch input on the display device includes receiving a touch, by a pointing means, of a second handle of the first data field displayed in the data view; and 
 updating the schema view and the data view displayed on the display device includes:
 deleting the first data field from the data view; and 
 changing an icon displayed the schema view into a hidden state, the icon corresponding to the first data field. 
 
 
     
     
       18. A system, comprising a mobile device configured to perform operations comprising:
 displaying on a display of the mobile device a schema view and a data view, the schema view displaying a schema of a database, the data view displaying at least one data record, the data record including a first data field defined by the schema; 
 receiving a touch input on the display in at least one of the two views; 
 in response to the received touch input, modifying the schema and the data record; and 
 updating the schema view and the data view displayed on the display substantially simultaneously, according to the modified schema and the modified data record. 
 
     
     
       19. The system of  claim 18 , wherein the touch input includes a movement of a pointing means across the display device. 
     
     
       20. The system of  claim 18 , wherein displaying the schema of the database includes displaying in the schema view an icon of a second data field of the database, the second data field being defined by the schema, wherein the second data field is hidden from the data view. 
     
     
       21. The system of  claim 20 , wherein receiving the touch input includes:
 receiving a touch of the display device on the icon displayed in the schema view by a pointing means; 
 detecting a movement of the pointing means from the schema view into the data view; and 
 detecting that the pointing means is no longer in contact with the display device. 
 
     
     
       22. The system of  claim 20 , wherein updating the data view includes displaying the second data field in the data view. 
     
     
       23. The system of  claim 18 , wherein:
 receiving the touch input on the display device includes receiving a touch, by a pointing means, of a first handle of the first data field displayed in the data view; 
 modifying the schema includes deleting the first data field from the schema; and 
 updating the schema view and the data view displayed on the display device includes deleting the data field from the data view and deleting an icon of the first data field from the schema view. 
 
     
     
       24. The system of  claim 23 , where deleting the data field is visualized using a crumpling animation. 
     
     
       25. The system of  claim 18 , wherein:
 receiving the touch input on the display device includes receiving a touch, by a pointing means, of a second handle of the first data field displayed in the data view; and 
 updating the schema view and the data view displayed on the display device includes:
 deleting the first data field from the data view; and 
 changing an icon displayed the schema view into a hidden state, the icon corresponding to the first data field.

Description:
TECHNICAL FIELD 
     This disclosure relates generally to database manipulation. 
     BACKGROUND 
     A database management system (DBMS) can be a software system that includes a data model, a data language for definition and manipulation of data, and mechanisms for enforcing and implementing security, integrity, and concurrency of the data in the database. A user can use a formal language, e.g., data-definition language (DDL) or data-manipulation language (DML), to communicate with a database. A database schema describes a structure of the data using a formal language. For example, the data in the database can be structured as a collection of data records. 
     Many modern database tools integrate a database engine with a graphical user interface (GUI). In the GUI, a user can use one database tool (e.g., a data modeler tool) to manipulate the schema of the database, and use another database tool (e.g., a form tool or a report tool) to manipulate or display the data records. 
     SUMMARY 
     Methods, program products, and systems for visual manipulation of database schema are disclosed. In general, in one aspect, a system can display a schema view and a data view in graphic representation in an integrated GUI on a display device. The system can display a schema in the schema view, and one or more data records in the data view. The system can receive a touch input from the display device in the schema view, or the data view, or both. In response to the touch input, the system can modify the schema, or the data records, or both. The system can update the schema view and data view substantially simultaneously to reflect the modification in the schema or data records. 
     The details of one or more implementations of visual manipulation of database schema are set forth in the accompanying drawings and the description below. Other features, aspects, and advantages of visual manipulation of database schema will become apparent from the description, the drawings, and the claims. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  illustrates an exemplary user interface for changing a status of a data field in a database schema and updating a data view simultaneously. 
         FIG. 2  illustrates an exemplary user interface for adding a new data field in a database schema in a data view. 
         FIG. 3  illustrates an exemplary user interface for manipulating a data field name and definition in a data view. 
         FIG. 4  illustrates an exemplary user interface for manipulating the database schema in a data view. 
         FIG. 5  illustrates an exemplary user interface for browsing a database. 
         FIG. 6  illustrates an exemplary user interface for switching between various databases. 
         FIG. 7  illustrates an exemplary user interface for linking data fields between multiple databases. 
         FIG. 8  illustrates an exemplary user interface for displaying data records of a database. 
         FIG. 9  illustrates an exemplary user interface for configuring a display of data records. 
         FIG. 10  illustrates an exemplary user interface for updating a data field while viewing a webpage. 
         FIG. 11  is a block diagram illustrating exemplary relationships between a GUI and a database. 
         FIG. 12  is a flowchart illustrating an exemplary process of visually manipulating a database schema. 
         FIG. 13  is a block diagram illustrating an exemplary device architecture of a mobile device implementing the features and operations described in reference to  FIGS. 1-12 . 
         FIG. 14  is a block diagram of an exemplary network operating environment for the mobile devices of  FIGS. 1-13 . 
     
    
    
     Like reference symbols in the various drawings indicate like elements. 
     DETAILED DESCRIPTION 
     GUIs for Visual Manipulation of Database Schema 
       FIG. 1  illustrates exemplary user interface  100   a  for changing a status of a data field in a database schema and updating a data view simultaneously. User interface  100   a  can be a graphical user interface displayed on a display device on a mobile device. For illustrative purposes, an exemplary database of real estate information is described. 
     User interface  100   a  can include at least two views, schema view  102   a  and data view  120   a . The mobile device can display information related to the schema of the database in schema view  102   a . The database can be a relational database, an object-oriented database, or any other database that includes data sets and descriptions of the data sets. In a relational database, the schema can define tables, data fields of the tables, relationships, views, indexes, packages, procedures, functions, queues, triggers, types, sequences, synonyms, links, and other elements. In the exemplary database of  FIG. 1 , representations  108 ,  110 ,  112 , and  114  of data fields in the exemplary database are displayed in schema view  102   a.    
     Representations  108 ,  110 ,  112 , and  114  of data fields can include icons or labels (e.g., text) or both. Each of the representations  108 ,  110 ,  112 , and  114  of data fields can correspond to a particular column of a data table in the database. A “new field” icon or label  106  can be displayed together with representations  108 ,  110 ,  112 , and  114 . Schema view  102   a  can be a display view that can receive a touch input from a user. For example, a user can touch a portion of schema view  102   a  with a pointing means (e.g., a finger or a stylus), and make a gesture to move the pointing means across schema view  102   a . In response to the gesture, representations  108 ,  110 ,  112 , and  114  can be animated to scroll to the left or right to display more representations of data fields in schema view  102   a . In various implementations, the “new field” icon or label  106  can scroll with representations  108 ,  110 ,  112 , and  114  or be anchored at a configurable part of schema view  102   a.    
     The mobile device can display a data record in data view  120   a . In some implementations, the displayed data record can correspond to a virtual view of the database. The virtual view of the database can be formed using a stored query. The virtual view can include a virtual database table generated from the result of the stored query. The virtual view is not required to be part of the schema of the database. In the example database, the virtual view can include data fields “real estate agent,” “address,” “price,” “front view,” and “listing URL.” These data fields can be displayed in display fields  122 ,  124 ,  126 ,  128 , and  130 , respectively. In some implementations, data view  120   a  can be used as a layout editor. For example, data view  120   a  can be a template where placement of various display fields  122 ,  124 ,  126 ,  128  and  130  can be arranged. The template can be populated using an actual data record from the database, and can be used for browsing other data records. 
     At least some of representations  108 ,  110 ,  112 , and  114  can represent hidden data fields. A hidden data field can be a data field included in a database schema but not displayed in data view  120   a . For example, a data field “year built” represented by representation  110  can be excluded from the virtual view when the stored query does not include the data field “year built.” In various implementations, a representation representing a hidden data field can be distinguished from representations representing visible data fields using a distinguishing color scheme (e.g., an icon having a distinct brightness) or a notation (e.g., an additional “H” mark). In some implementations, schema view  102   a  can be configured such that only representations of hidden data fields are displayed. 
     Through user interface  100   a , the mobile device can receive touch input  130 . Touch input  130  can include a touch by a pointing means on representation  110  in schema view  102   a , a dragging motion of the pointing means into data view  120   a , and a release of the pointing means from user interface  100   a . Upon receiving the touch input  130 , the mobile device can create a new display field  140  in data view  120   a . New display field  140  can display data of data field “year built” in the database. New display field  140  can be positioned at a place that corresponds to where the pointing means is released from user interface  100   a . For example, if a user touches representation  110  with a finger, drags representation  110  to a location in data view  120   a  that is between display field  126  and display field  128 , display field  128  and display fields after display field  128  (e.g., display field  130 ) can be shifted downwards to make room for new display field  140 . The amount of shift can correspond to a height of display field  140 , which can be a default height or a height calculated based on the data in data field “year built” (e.g., based on a number of lines in the data). 
     Upon receiving touch input  130 , the mobile device can modify the stored query that generated the virtual view to be displayed in data view  120   a . The modified query can include the new data field selected from the schema view. The virtual view can change in accordance with user input  130 . 
       FIG. 2  illustrates exemplary user interface  100   b  for adding a new data field in a database schema in a data view. User interface  100   b  can be a graphical user interface displayed on a display device on a mobile device. 
     Through user interface  100   b , the mobile device can receive a touch input for adding a data field. Receiving the touch input can include, for example, receiving a touch (e.g., a tap or a click) by a pointing means on “new field” icon or label  106  in schema view  102   b . Upon receiving the touch input, the mobile device can create new display field  240 . User interface  100   b  can display new display field  240  at a position that overlaps data view  120   b , so that new display field  240  appears to hover over data view  120   b.    
     In some implementations, the mobile device can create new display field  240  in response to a spreading gesture. For example, the mobile device can detect a spreading gesture (e.g., the fingers opening up) and determine that the spreading gesture is intended for creating a new display field  240 . 
     Through user interface  100   b , the mobile device can receive a second touch input  230 . Receiving touch input  230  can include detecting a touch by a pointing means on new field  240 , and detecting a dragging motion of the pointing means. In response to the dragging motion of the pointing means, new display field  240  can be moved the direction of the dragging motion, including following a motion path of the dragging motion (e.g., moving fingers up or down). Upon the movement of new display field  240 , other display fields (e.g., display field  126  and display field  128 ) can move (e.g., spread apart) to make room for new display field  240 . 
     In some implementations, receiving the touch input can include receiving a multi-touch gesture (e.g., using two fingers) in data view  120   a . Receiving multi-touch input can include receiving a first touch on one display field (e.g., display field  126 ) by one finger and a second touch on another display field (e.g., display field  128 ) by another finger substantially simultaneously, and detecting a spreading gesture. Upon receiving the multi-touch input, the two display fields being multi-touched (e.g., display field  126  and display field  128 ) can be separated (e.g., a distance between display field  126  and display field  128  can be increased) to allow for insertion of new display field  240 . 
     Through user interface  100   b , the mobile device can receive a third touch input on new display field  240 . Upon receiving the third touch input, the mobile device can display a configuration interface. Through the configuration interface, the mobile device receive various configurations of new display field  240  and data to be displayed in new data display field  240 . Further details of the configuration interface will be discussed below with respect to  FIG. 3 . 
     The insertion of new display field  240  can correspond to a creation of a new data field in the schema of the exemplary real estate information database, even when the insertion is performed entirely in data view  120   b . For example, in a relational database, a new column in a database table can be created to correspond to the new data field. The new column in the database table can be populated by a default value or user input. Corresponding changes can be made to the stored query that generates a virtual view. The stored query can include a new name corresponding to the new data field, at a position determined by the position of new display field  240  relative to other display fields (e.g., between display field  126  and display field  128 ). 
     New representation  214  of the new data field can be displayed in schema view  102   b . The mobile device can display new representation  214  and new display field  240  substantially simultaneously, to give an appearance that new representation  214  and new display field  240  are displayed at the same time. 
       FIG. 3  illustrates an exemplary user interface for manipulating a data field name and definition in a data view. User interface  100   c  can be a graphical user interface displayed on a display of a mobile device. 
     User interface  100   c  can include configuration interface  300  for configuring a new data field (e.g., the new data field that corresponds to new display field  240 ) or an existing data field. Configuration interface  300  can include a display panel (e.g., a window or a pane that has an appearance of a note pad). 
     The data field to be configured can have a data type defined in the schema. The data type can be configured at a time when new display field  240  is inserted. The data type can include, for example, text, image, video, audio, number, or choice. A “choice” data type can include one or more enumerated values. When a data field has a “choice” data type, the data field can have a value that is selected from the enumerated values. For illustrative purposes, configuration interface  300  is described in context of a “choice” data type. 
     Configuration interface  300  can include “field name” input field  302  that can accept user inputs of a field name. Upon receiving a touch input in “field name” input field  302 , a virtual keypad can be displayed in user interface  100   c  to accept typed field names (e.g., “Bedroom”). The data field having a “choice” type can be subsequently identified using field name “Bedroom.” 
     The enumerated values for field “Bedroom” can be configured using choice panel  304  and associated choice controls  306   a - d  and  308 . Control  308  can be an “add a choice” control. Upon receiving a touch input on control  308 , a new choice (e.g., a placeholder for a value) can be added to existing enumerated values in choice panel  304 . The new choice can be a further configured (e.g., to be given an actual enumerated value, including a numeric value or a text string) when the mobile device receives a second touch input on a sign (e.g., a “&gt;” sign) displayed in association with the placeholder. Controls  306   a - d  can be “delete a choice” controls. Upon receiving a touch input on one or more of controls  306   a - d , the mobile device can remove an existing enumerated value associated with that control. For example, for the “Bedroom” choice data field, a user can tap on control  308  to add values “1,” “2,” “3,” and “4” to allow the “Bedroom” choice data field to have values representing one through four bedrooms. The user can tap on one or more of controls  306   a - d  to remove a particular number of bedrooms from the choices. Configuration interface  300  can be used to modify the schema of the exemplary real estate information database, regardless of whether configuration interface  300  was activated from a display field (e.g., new display field  240 ) on a data view (e.g., data view  120   b ) or activated from a representation of a data field in a schema view (e.g., schema view  102   b ). 
       FIG. 4  illustrates an exemplary user interface for manipulating the database schema in a data view. User interface  100   d  can be a graphical user interface displayed on a display device on a mobile device. 
     User interface  100   d  can include schema view  102   d  and data view  120   d . Schema view  102   d  can include one or more representations of data fields in the database schema, including data fields that are visible in data view  120   d  and data fields that are hidden from data view  120   d . One or more display fields  122 ,  124 ,  126 ,  440 ,  128 , and  130  can be displayed in data view  120   d . Each display field can be associated with a delete field control  442 , a field information control  444 , and a hide field control  446 . 
     Through user interface  100   d , the mobile device can receive a touch input from delete field control  442  for deleting a data field corresponding to the display field (e.g., display field  122 ) to which the delete field control (e.g., delete field control  442   a ) is associated. Upon receiving the touch input, the mobile device can delete the data field (e.g., data field “real estate agent”) from the database schema. Actual data that correspond to the data field can be deleted at the same time, or cached until the mobile device receives a user confirmation to commit the change. A representation corresponding to the deleted field, as well as the display field corresponding to the data field (e.g., display field  122 ) can be deleted from schema view  102   d  and data view  120   d , respectively, at substantially the same time, upon the deletion of the data field from the database schema. 
     Through user interface  100   d , the mobile device can receive a touch input from field information control  444  for configuring a data field corresponding to the display field (e.g., display field  440 ) to which the field information control (e.g., field information control  444   d ) is associated. Upon receiving the touch input, a configuration interface (e.g., configuration interface  300 ) can be displayed to allow a user to configure the data field. 
     In some implementations, a spreading gesture can be used for invoking the display of the configuration interface. Through user interface  100   d , the mobile device can receive a spreading gesture on a display field (e.g., display field  128 ). The spreading gesture can mimic an action for pulling open two sliding doors. Upon receiving the spreading gesture, the mobile device can display schema settings, form configurations, and relationships between the data field displayed in display field  128  and other entities (e.g., tables, columns). The display can include an animation of display field  128  splitting into parts (e.g., into two parts from a middle point), the parts moving away from one another, and revealing information underneath the parts. 
     Through user interface  100   d , the mobile device can receive a touch input from hide field control  446  for hiding a display field (e.g., display field  124 ) associated with the hide field control (e.g., hide field control  446   b ). Upon receiving the touch input from hide field control  446   b , display field  124  can be hidden from data view  120   d . In various implementations, hiding the display field can including removing a field name (e.g., “address”) from a stored query that generates a virtual view for display, setting a value of an attribute of the data field corresponding to the display field to “hidden,” or changing a layout for the data view to exclude the data field to be hidden. A representation of the data field corresponding to the display field to be hidden can change status (e.g., from one color scheme to another color scheme) to represent the new hidden status of the data field. 
     In some implementations, schema view  102   d  can be configured to display only hidden data fields. When receiving a touch input from hide field control  446   b , display field  124  can be removed from data view  120   d , and new representation  454  can be added to schema view  102   d  at substantially the same time. The removal and addition can be animated, for example, by changing (e.g., reducing) a display size of display field  124  until the display size is the size of new representation  454 , and moving the display field with the reduced size from data view  120   d  to schema view  102   d . The animation can include reducing the display size in a crumpling motion. 
     In some implementations, the mobile device can be configured to receive multiple touches selecting display fields. For example, the mobile device can receive a first touch input by one hand (e.g., one finger tapping and holding on display field  122 ), and one or more second touch inputs from another hand (e.g., a finger of a second hand tapping on display fields  124  and  126 ). In response to receiving the multiple touches, multiple display fields (e.g., display fields  122 ,  124 , and  126 ) can be selected. The mobile device can batch delete, batch change attributes, batch add to collection, or batch hide the selected display fields. 
       FIG. 5  illustrates exemplary user interface  500   a  for browsing a database. User interface  500   a  can be a graphical user interface displayed on a display device on a mobile device. User interface  500   a  can be a user interface through which data records in a database can be presented to a user for browsing. 
     User interface  500   a  can include header area  502   a , which can include library selection control  504   a . User interface  500   a  can include data browsing section  506   a , which can be used to display various data fields of a data record currently being viewed. 
     A data record can include a text field, which can include long text (e.g., a text string that can take a relatively large area to display completely). The text can be displayed in text display field  508 . Pinch control  510  can be provided for controlling a size of text display field  508 . Through user interface  500   a , the mobile device can receive a multi-touch input from multiple pointing means (e.g., two fingers). The size of text display field  508  can decrease when the multiple pointing means come closer to each other (e.g., in a pinching gesture), and increase when the multiple pointing means move apart from each other (e.g., in a spreading gesture). When the size of the text display field decreases, undisplayed text can be represented by an ellipsis or other visual indicator. In some implementations, the multi-touch input can be received through text display field  508 , to which pinch control  510  is associated. Likewise, pinch control  510  can be associated with media display field  512 . 
     Media display field  512  can correspond to a media data field in the database. The media data field can store digital images, videos, or audios. In some implementations, through media display field  512 , the mobile device can receive a touch input (e.g., a tap), and in response to the touch input, expand to occupy a larger space (e.g., the entire space) of the display device displaying user interface  500   a . Expanded media display field  512  can be configured to receive further touch inputs (e.g., drawings by a pointing means). The drawings can be stored in the media data field. In these implementations, a user can create content in the database by drawing on the display device using a finger. 
     In some implementations, display sizes of display fields  508  and  512  can be automatically determined based on locations of display fields  508  and  512 . For example, the mobile device can receive a touch input that includes touching display field  512  using a finger and dragging display field  512  to a location lower down in user interface  500   a . The mobile device can squeeze display field  508  (e.g., by reducing a display height of display field  508 ) to make room for the new location of display field  512 . Likewise, the size of display field  512  can be reduced if the mobile device receives a touch input increasing the size of display field  508 . Reducing and increasing the size of display field  508  can include animating the change in size such that display field  508  appears elastic. 
     In some implementations, the mobile device can create a new data record in response to a spreading gesture. For example, the mobile device can detect a spreading gesture and determine the spreading gesture is intended for creating a new record, and then creating a new data record. Data field containing default values can be displayed on user interface  500   a.    
       FIG. 6  illustrates exemplary user interface  500   b  for switching between various databases. User interface  500   b  can be a graphical user interface displayed on a display device on a mobile device. User interface  500   b  can be a graphical user interface through which a mobile device can present data records in a database to a user for browsing. 
     Through library selection control  504   a , the mobile device can receive a touch input for selecting a library. A library can include a database schema, data records organized according to the schema, various display configurations (e.g., display layout, current record to be displayed, and time frame of video content to start to display for each record), and access privileges. Multiple libraries can be hosted on the mobile device, shared across multiple mobile devices, or be hosted on a server computer connected to the mobile device through a communications network. 
     Upon receiving the touch input from library selection control  504   a , the mobile device can display library selection box  602  in user interface  500   b . Library selection box  602  can include the names of one or more libraries currently accessible by the user who is currently logged on to the mobile device. A current library (e.g., library  604 ) can be marked (e.g., highlighted). 
     In some implementations, library selection box  602  can be configured to receive multi-touch gestures for revealing metadata about a current library. For example, the mobile device can perform data analysis on library “Expenses” upon receiving a spreading gesture from two or more pointing means, and display result of the data analysis. A pinching gesture can be use to dismiss the displayed result. 
       FIG. 7  illustrates exemplary user interface  500   c  for linking data fields between multiple databases. User interface  500   c  can be a graphical user interface displayed on a display device on a mobile device. User interface  500   c  can be a user interface through which data records in a database can be presented to a user sequentially for browsing. 
     User interface  500   c  can include data browsing section  506   c , which can include various display fields of a current data record (e.g., a data record currently being viewed). Data browsing section  506   c  can include contact display field  702 , which can display various contacts related to the current data record. 
     Contact display field  702  can include one or more representations  704   a - c  of various contacts. Representations  704   a - c  can include, for example, icons or avatars of the contacts, as well as names of the contacts. The icons, avatars, or names of the contacts can be stored in a database in a library (e.g., a “Contacts” library) other than the current library (e.g., the real estate information library “My House Search”). To edit (add, delete, modify) contacts displayed in contact display field  702 , the mobile device can receive a touch input in display field  702 , and display a prompt for linking to another library. The prompt can include a list of libraries accessible by a current user of the mobile device. The mobile device can receive a second touch input selecting a library to link to, and a third touch input to select records and fields of records that will be related to the current record. 
     The mobile device can receive the touch inputs in data browsing section  506   c . Based on the touch inputs, the mobile device can create a relationship in the schema of the current database (e.g., the real estate information in the current library) or the other database (e.g., the database in the “Contacts” library) or both databases. The editing of the schema can be accomplished in data browsing section  506   c  while data records are being browsed. A user is not required to go to access a specific interface for editing database schemas. 
       FIG. 8  illustrates exemplary user interface  800   a  for displaying data records of a database. User interface  800   a  can include selection sections  802  and  804  and data record viewing section  810 . 
     Selection sections  802  and  804  can display a particular virtual view of a database. The virtual view can include data from selected data fields (e.g., “real estate agent” data field and “price” data field. The selected data fields can be configured in selection sections  802  and  804 . Selection sections  802  and  804  can include one or more entries (e.g., entry  806 ), each entry corresponding to one or more data records in the database. A data record corresponding to a currently selected entry (e.g., entry  806 ) can be displayed in data record viewing section  810 . If the data fields in selection sections  804  and  804  form a composite key of the database, each entry in selection sections  804  and  804  can correspond to a unique data record to be displayed in data record viewing section  810 . Otherwise, it is possible that an entry in selection sections  804  and  804  can correspond to multiple data records. The multiple data records can be browsed in multiple pages of data record viewing section  810 . 
     Through selection sections  802  and  804 , the mobile device can receive a touch input to select particular entries. Selected entries can be displayed in selection section  804 , and marked as selected (e.g., using check marks or highlights). Unselected entries can be displayed in selection section  802 . In various implementations, the selected entries can be stored in the mobile device in a temporary database table, marked in the virtual view, or otherwise distinguished from unselected entries, to allow a user to browse only data record corresponding to the selected entries. 
     The entries in selection sections  802  and  804  can be sorted using various criteria, including, for example, in ascending or descending order based on one or more of the data fields (e.g., primarily ascending in alphabetic order according to names of real estate agents, and secondarily descending according to prices of properties). The entries in selection sections  802  and  804  can additionally or alternatively be sorted based on whether an entry is selected or unselected. Configuring various properties of selection sections  802  and  804  can be accomplished through settings control  808 . Further details on settings control  808  will be described in further detail in reference to  FIG. 9   
       FIG. 9  illustrates exemplary user interface  800   b  for configuring a display of data records. User interface  800   b  can include selection sections  802  and  804  and data record viewing section  810 . 
     Settings control  808  can be configured to receive a touch input. Upon receiving the touch input, view settings panel  912  can be displayed in user interface  800   b . View settings panel  912  can include a “display fields” section. In the “display fields” section, a primary field and a secondary field can be specified. In addition, the “display fields” section can include additional data fields, one or more image fields, one or more video fields. Data from the primary field and secondary field can be displayed as entries in selection sections  802  and  804 . 
     The primary field, secondary field, and additional data fields can be used as sorting fields. Additionally or alternatively, one or more sorting fields can be specified in a “sort by” section of view settings panel  912 . For example, in the “sort by” section of view settings panel  912 , an “open house” data field can be specified to allow the entries in selection sections  802  and  804  to be sorted by date of open house. The “sort by” section of view settings panel  912  can be configured to receive touch inputs to add more sorting fields, or to configure which field to sort upon. For example, upon receiving a touch input on sorting field “open house,” the mobile device can display a field selection panel for selecting which data field is to be designated as a sorting field. 
     View settings panel  912  can include an “order” section that allows a user to specify which order to sort by (e.g., ascending or descending). The mobile device can configure a stored query using the primary field, secondary field, and sorting field, using the sort order specified in view settings panel  912 . The configured query can be used to generate a virtual view for selection sections  802  and  804 . 
       FIG. 10  illustrates exemplary user interface  1000  for updating a data field while viewing a webpage. User interface  1000  can include a full-screen display of content of a webpage or of a file stored in a file system locally. User interface  1000  can be displayed, for example, when the mobile device receives a touch input through display field  130 , which displays a uniform resource identifier (URI, e.g., a uniform resource locator (URL) “www.realgreatexpectations.com”) that specifies where the content is located and how to retrieve the content (e.g., using hypertext transfer protocol (HTTP) by default). 
     User interface  1000  can include content manipulation panel  1002 . Content manipulation panel  1002  can include button  1004 . Button  1004  can be configured to receive a touch input for sending the content to a browser application. Upon receiving the touch input from button  1004 , the mobile device can launch or notify the browser application (e.g., Safari™) and display the content currently displayed in user interface  1000  (e.g., a web page identified by URL “www.realgreatexpectations.com”) to be displayed in the browser application. 
     Content manipulation panel  1002  can include button  1008 . Button  1008  can be configured to receive a touch input to update a data field in the database. Display field  130  can correspond to a data field in the database that stores the URI. Upon receiving the touch input from button  1008 , the mobile device can modify the data field to store a current URI. For example, through user interface  1000 , the mobile device can receive a touch input on link  1010 , which can include a second URI (e.g., URL “www.realtor.com”). Upon receiving the touch input on link  1010 , user interface  1000  can display content from the URL “www.realtor.com.” Upon receiving the touch input from button  1008 , the mobile device can update the data field “listing URL” in the database, including changing the content of the data field “listing URL” from “www.realgreatexpectations.com” to “www.realtor.com.” 
     In some implementations, user interfaces  100 ,  500 ,  800 , and  1000  can be associated with display themes. The display themes can include various color schemes (e.g., various colors for borders of schema view  102 , display view  120 , and display fields) and various background images. For example, in a first theme, a background image can include an image of a leather pad and paper-like pages bound to the leather pad. Data view  120  can be displayed in the paper-like pages. In a second theme, a background image can include an image of a clip pad and paper-like pages being clipped to the clip pad. The mobile device can receive a touch input to switch between themes. Upon receiving the touch input, the first theme can be switched-out in a curl animation, revealing the second theme underneath. Each theme can be associated with theme-specific gestures, animations, and sounds. For example, a leather pad theme can be associated with gestures for turning pages from right to left. Browsing the data records under the leather pad theme can include flipping the pages from right to left. Sound associated with the leather pad theme can include sound of turning soft paper. A clip pad theme can be associated with gestures of pressing on the clip of the clip pad. Browsing the data records in the clip pad theme can include animation for taking a piece of paper away from the clip pad. Sound associated with the clip pad theme can include sound of the clip clicking. 
     Exemplary Relationships Between a GUI and a Database 
       FIG. 11  is a block diagram illustrating exemplary relationships between GUI  100   e  and database  1120 . GUI  100   e  can be displayed on a mobile device. Database  1120  can be a database hosted on the mobile device or hosted remotely on a server connected to the mobile device through a communications network. 
     Database  1120  can include schema  1122  and data records  1124 . Data records  1124  can be data sets organized in accordance to schema  1122 . For example, in a relational database, schema  1122  can include columns for tables. The columns can be names of data fields (e.g., “agent,” “address,” “front view,” etc.). Schema  1122  can also include a type of each column. For example, a column “front view” can have a “media” type or a “video” type, which can be a subtype of the “media” type. Data records  1124  can be stored in the tables as rows of data records that have data fields corresponding to the columns, and data types in the data fields as specified by schema  1122 . For example, a “front view” data field can include a video file or a source identifier of streaming video as specified in the “video” type. Schema  1122  can determine structure and format of data records  1124 . 
     GUI  100   e  can include schema view  102   e  and data view  102   e . Schema view  102   e  can correspond to schema  1122  of database  1120 . Schema view  102   e  can include one or more representations  1104   a - e  of various data fields defined in schema  1122 . Changes in schema  1122  can be reflected in schema view  102   e . Changes in schema view  102   e  can cause changes in schema  1122 , if the computing determines that a user making the changes has sufficient access privilege to update schema  1122 . 
     Data view  120   e  can include one or more display fields  1108   a - d  of various data fields corresponding to one or more particular data records of data records  1124 . Changes in data records  1124  can be reflected in data view  120   e . Changes in data view  120   e  can cause changes in data records  1124 , if the computing determines that a user making the changes has sufficient access privilege to update data records  1124 . 
     Schema view  102   e  and data view  120   e  can form an integrated GUI (e.g., GUI  100   e ), such that changes in one view can cause substantially simultaneous changes in another view. For example, through GUI  102   e , the mobile device can receive a touch input of a drag-and-drop motion, including adding a new column in schema  1122  and adding corresponding data fields to data records  1124 . The touch input can include tapping or dragging-and-dropping a “new field” icon or label from schema view  102   e  to data view  120   e , or tapping and deleting a data field in data view  120   e . Thus, GUI  100   e  can provide the convenience of allowing schema changes from display areas preferred by various users. 
     In some implementations, schema  1122  and data records  1124  can be shared between mobile devices. A first mobile device can broadcast schema  1122  and data records  1124  to one or more second mobile devices that are located within a communication range of the first device, for example, using Bluetooth™ or WiFi technology. Applications of the broadcast can include, for example, a teacher wirelessly handing out assignments to students in a class, and the students wirelessly handing in completed assignments. 
     Exemplary Processes for Visual Manipulation of Database Schema 
       FIG. 12  is a flowchart illustrating exemplary process  1200  of visually manipulating a database schema. 
     A mobile device can display ( 1202 ), on a display device, at least two views of a database. The two views can include, for example, schema view  102  and data view  120 . Schema view  102  can display a schema (e.g., schema  1122 ) of a database (e.g. database  1120 ), using various representations (e.g., representations  1104 ) to represent various data field definitions (e.g., columns) in schema  1122 . Data view  120  can display at least one data record (e.g., a data record of data records  1124 ). The data record can include a first data field defined by schema  1122 . 
     In some implementations, displaying the schema in schema view  102  can include displaying representations (e.g., icons or labels) of data fields that are hidden from data view  120 . The data fields (e.g., a “year built” or an “open house date” data field) can be defined in schema  1122  and configured to be hidden from data view  120 . Representations of hidden data fields can be displayed in schema view  102  distinctively from non-hidden data fields (e.g., as darkened or grayed-out icons or highlighted icons). In some implementations, schema view  102  can be configured to display only representations of hidden data fields or representations of non-hidden data fields. 
     The mobile device can receive ( 1204 ) a touch input from the display device in at least one of the two views. The display device can be a multi-touch sensitive display device, configured to receive touch inputs from one or more pointing means that are in contact with the display device. The touch input can include a touch, a tap, or a movement of a pointing means across the display and various gestures by actions of multiple pointing means (e.g., a pinching action, a spreading action, a swirling action, a grabbing action, a twitching action, etc.). The touch input can include a movement of the pointing means from one view to another. For example, the touch input can included dragging-and-dropping a display field from data view  120  to schema view  102 , or dragging-and-dropping a representation from schema view  102  to data view  120 . 
     Receiving the touch input can include detecting the drag-and-drop movement of the pointing means on the display device. The drag-and-drop movement can be used for displaying an originally hidden data field. Detecting the drag-and-drop movement can include receiving a touch of the display device on the representation (e.g., “year built” icon  110 ) by the pointing means, detecting a movement of the pointing means from schema view  102  into data view  120 , and detecting that the pointing means is no longer in contact with the display device. Upon detecting the drag-and-drop movement of the pointing means, the mobile device can display the originally hidden data field in data view  120  (e.g., in display field  140 ). 
     In response to the received touch input, the mobile device can modify ( 1206 ) the schema (e.g., schema  1122 ) and the data record. Modifying the schema can include creating a new table, removing a table from the database, creating a new data field definition (e.g., a new column), removing a data field definition, modifying a data field definition, creating a new relationship between data fields, removing a relationship, modifying a relationship, and modifying access privileges to various tables and data columns, among others. Modifying the data record can include modifying data in various data fields of the data record and modifying display characteristics (e.g., whether to display or to hide) the data record or one or more fields of the data record. 
     The mobile device can update ( 1208 ) schema view  102  and data view  120  displayed on the display device substantially simultaneously, for example, giving an impression that schema view  102  and data view  120  are updated at the same time or in a single action. The update can be according to the modified schema and the modified data record. 
     In some implementations, receiving the touch input on the display device can include receiving a touch, by a pointing means, of a first handle (e.g., delete field control  442   b ) of a data field (e.g., data field “address”) displayed in the data view (e.g., in display field  124 ). Modifying schema  1122  can include deleting the first data field (e.g., data field “address”) from schema  1122 . Updating schema view  102  and data view  120  can include deleting the data field, including display field  124 , from data view  120 , and deleting an icon representing data field “address” from schema view  102 . Deleting the data field displayed in display field  124  can include visualizing the deleting in a crumpling animation. For example, display view  124  can be animated to shrink and fold up into a shape resembling a crumpled paper ball, the shape can be animated to move into a trashcan icon as if being thrown in the trashcan, or be animated to disappear by burning, evaporating, etc. 
     In some implementations, the mobile device can delete a data field (e.g., data field “front view”) from schema  1122  upon receiving a grabbing motion in the display field (e.g., display field  128 ) from multiple pointing means. For example, the mobile device can detect a multi-touch of three, four, or five fingers on display field  128 , and detect a pinching gesture. In response, the mobile device can delete the data field “front view” from schema  1122 , and visualize the deletion using a crumpling animation of display field  128 . 
     In some implementations, receiving the touch input on the display device can include receiving a touch, by a pointing means, of a second handle (e.g., hide field control  446   c ) of a data field (e.g., data field “price”) displayed in data view (e.g., in display field  126 ). Upon receiving the touch of the second handle, the mobile device can update schema view  102  and data view  120 . The updating can include deleting the data field “price,” including display field  126  that displays the data field “price,” from data view  120 , and changing an icon corresponding to the data field “price” in schema view  102  in to a hidden state. 
     Optionally, the mobile device can display ( 1210 ) a text data field in the data view (e.g., in text display field  508 ). The text data field can include multiple lines of text. The mobile device can receive ( 1212 ) a user input. The user input can include a pinching gesture or a spreading gesture of multiple pointing means (e.g., from two or more fingers) on the display device. The mobile device can reduce ( 1214 ) a number of the lines of the text displayed according to the pinching action, including replace at least one line of the text with an ellipsis or other visual indicator. Likewise, the mobile device can increase the number of the lines of the text displayed according to the spreading gesture, including replacing the ellipsis with actual content of the text. 
     Exemplary Mobile Device Architecture 
       FIG. 13  is a block diagram illustrating exemplary device architecture  1300  of a mobile device implementing the features and operations described in reference to  FIGS. 1-12 . The mobile device can be, for example, a handheld computer, a personal digital assistant, a cellular telephone, an electronic tablet, a network appliance, a camera, a smart phone, an enhanced general packet radio service (EGPRS) mobile phone, a network base station, a media player, a navigation device, an email device, a game console, or a combination of any two or more of these data processing devices or other data processing devices. 
     The mobile device can include memory interface  1302 , one or more data processors, image processors and/or processors  1304 , and peripherals interface  1306 . Memory interface  1302 , one or more processors  1304  and/or peripherals interface  1306  can be separate components or can be integrated in one or more integrated circuits. Processors  1304  can include one or more application processors (APs) and one or more baseband processors (BPs). The application processors and baseband processors can be integrated in one single process chip. The various components in the mobile device, for example, can be coupled by one or more communication buses or signal lines. 
     Sensors, devices, and subsystems can be coupled to peripherals interface  1306  to facilitate multiple functionalities. For example, motion sensor  1310 , light sensor  1312 , and proximity sensor  1314  can be coupled to peripherals interface  1306  to facilitate orientation, lighting, and proximity functions of the mobile device. Location processor  1315  (e.g., GPS receiver) can be connected to peripherals interface  1306  to provide geopositioning. Electronic magnetometer  1316  (e.g., an integrated circuit chip) can also be connected to peripherals interface  1306  to provide data that can be used to determine the direction of magnetic North. Thus, electronic magnetometer  1316  can be used as an electronic compass. Accelerometer  1317  can also be connected to peripherals interface  1306  to provide data that can be used to determine change of speed and direction of movement of the mobile device. 
     Camera subsystem  1320  and an optical sensor  1322 , e.g., a charged coupled device (CCD) or a complementary metal-oxide semiconductor (CMOS) optical sensor, can be utilized to facilitate camera functions, such as recording photographs and video clips. 
     Communication functions can be facilitated through one or more wireless communication subsystems  1324 , which can include radio frequency receivers and transmitters and/or optical (e.g., infrared) receivers and transmitters. The specific design and implementation of the communication subsystem  1324  can depend on the communication network(s) over which a mobile device is intended to operate. For example, a mobile device can include communication subsystems  1324  designed to operate over a GSM network, a GPRS network, an EDGE network, a Wi-Fi or WiMax network, and a Bluetooth network. In particular, the wireless communication subsystems  1324  can include hosting protocols such that the mobile device can be configured as a base station for other wireless devices. 
     Audio subsystem  1326  can be coupled to a speaker  1328  and a microphone  1330  to facilitate voice-enabled functions, such as voice recognition, voice replication, digital recording, and telephony functions. 
     I/O subsystem  1340  can include touch screen controller  1342  and/or other input controller(s)  1344 . Touch-screen controller  1342  can be coupled to a touch screen  1346  or pad. Touch screen  1346  and touch screen controller  1342  can, for example, detect contact and movement or break thereof using any of a plurality of touch sensitivity technologies, including but not limited to capacitive, resistive, infrared, and surface acoustic wave technologies, as well as other proximity sensor arrays or other elements for determining one or more points of contact with touch screen  1346 . 
     Other input controller(s)  1344  can be coupled to other input/control devices  1348 , such as one or more buttons, rocker switches, thumb-wheel, infrared port, USB port, and/or a pointer device such as a stylus. The one or more buttons (not shown) can include an up/down button for volume control of speaker  1328  and/or microphone  1330 . 
     In one implementation, a pressing of the button for a first duration may disengage a lock of the touch screen  1346 ; and a pressing of the button for a second duration that is longer than the first duration may turn power to the mobile device on or off. The user may be able to customize a functionality of one or more of the buttons. The touch screen  1346  can, for example, also be used to implement virtual or soft buttons and/or a keyboard. 
     In some implementations, the mobile device can present recorded audio and/or video files, such as MP3, AAC, and MPEG files. In some implementations, the mobile device can include the functionality of an MP3 player. The mobile device may, therefore, include a pin connector that is compatible with the MP3 player. Other input/output and control devices can also be used. 
     Memory interface  1302  can be coupled to memory  1350 . Memory  1350  can include high-speed random access memory and/or non-volatile memory, such as one or more magnetic disk storage devices, one or more optical storage devices, and/or flash memory (e.g., NAND, NOR). Memory  1350  can store operating system  1352 , such as Darwin, RTXC, LINUX, UNIX, OS X, WINDOWS, or an embedded operating system such as VxWorks. Operating system  1352  may include instructions for handling basic system services and for performing hardware dependent tasks. In some implementations, operating system  1352  can include a kernel (e.g., UNIX kernel). 
     Memory  1350  may also store communication instructions  1354  to facilitate communicating with one or more additional devices, one or more computers and/or one or more servers. Memory  1350  may include graphical user interface instructions  1356  to facilitate graphic user interface processing; sensor processing instructions  1358  to facilitate sensor-related processing and functions; phone instructions  1360  to facilitate phone-related processes and functions; electronic messaging instructions  1362  to facilitate electronic-messaging related processes and functions; web browsing instructions  1364  to facilitate web browsing-related processes and functions; media processing instructions  1366  to facilitate media processing-related processes and functions; GPS/Navigation instructions  1368  to facilitate GPS and navigation-related processes and instructions; camera instructions  1370  to facilitate camera-related processes and functions; magnetometer data  1372  and calibration instructions  1374  to facilitate magnetometer calibration. The memory  1350  may also store other software instructions (not shown), such as security instructions, web video instructions to facilitate web video-related processes and functions, and/or web shopping instructions to facilitate web shopping-related processes and functions. In some implementations, the media processing instructions  1366  are divided into audio processing instructions and video processing instructions to facilitate audio processing-related processes and functions and video processing-related processes and functions, respectively. An activation record and International Mobile Equipment Identity (IMEI) or similar hardware identifier can also be stored in memory  1350 . Memory  1350  can include database instructions  1376  that can include functions for database  1120  and instructions for presenting database  1120  using user interfaces  100 ,  500 ,  800 , and  1000 . 
     Each of the above identified instructions and applications can correspond to a set of instructions for performing one or more functions described above. These instructions need not be implemented as separate software programs, procedures, or modules. Memory  1350  can include additional instructions or fewer instructions. Furthermore, various functions of the mobile device may be implemented in hardware and/or in software, including in one or more signal processing and/or application specific integrated circuits. 
     Exemplary Operating Environment 
       FIG. 14  is a block diagram of exemplary network operating environment  1400  for the mobile devices of  FIGS. 1-13 . Mobile devices  1402   a  and  1402   b  can, for example, communicate over one or more wired and/or wireless networks  1410  in data communication. For example, a wireless network  1412 , e.g., a cellular network, can communicate with a wide area network (WAN)  1414 , such as the Internet, by use of a gateway  1416 . Likewise, an access device  1418 , such as an 802.11g wireless access device, can provide communication access to the wide area network  1414 . 
     In some implementations, both voice and data communications can be established over wireless network  1412  and the access device  1418 . For example, mobile device  1402   a  can place and receive phone calls (e.g., using voice over Internet Protocol (VoIP) protocols), send and receive e-mail messages (e.g., using Post Office Protocol 3 (POP3)), and retrieve electronic documents and/or streams, such as web pages, photographs, and videos, over wireless network  1412 , gateway  1416 , and wide area network  1414  (e.g., using Transmission Control Protocol/Internet Protocol (TCP/IP) or User Datagram Protocol (UDP)). Likewise, in some implementations, the mobile device  1402   b  can place and receive phone calls, send and receive e-mail messages, and retrieve electronic documents over the access device  1418  and the wide area network  1414 . In some implementations, mobile device  1402   a  or  1402   b  can be physically connected to the access device  1418  using one or more cables and the access device  1418  can be a personal computer. In this configuration, mobile device  1402   a  or  1402   b  can be referred to as a “tethered” device. 
     Mobile devices  1402   a  and  1402   b  can also establish communications by other means. For example, wireless device  1402   a  can communicate with other wireless devices, e.g., other mobile devices  1402   a  or  1402   b , cell phones, etc., over the wireless network  1412 . Likewise, mobile devices  1402   a  and  1402   b  can establish peer-to-peer communications  1020 , e.g., a personal area network, by use of one or more communication subsystems, such as the Bluetooth™ communication devices. Other communication protocols and topologies can also be implemented. 
     The mobile device  1402   a  or  1402   b  can, for example, communicate with one or more services  1430  and  1440  over the one or more wired and/or wireless networks. For example, one or more location theme services  1430  can include various downloadable themes for user interfaces  100 ,  500 ,  800 , and  1000 . The themes can each include a distinct gesture configuration. The themes can be provided for download to mobile devices  1402   a  and  1402   b . One or more database services can include service for hosting database  1120 , syncing database  1120  with other databases and allowing database  1120  to be shared between mobile devices  1402   a  and  1402   b.    
     Mobile device  1402   a  or  1402   b  can also access other data and content over the one or more wired and/or wireless networks. For example, content publishers, such as news sites, Really Simple Syndication (RSS) feeds, web sites, blogs, social networking sites, developer networks, etc., can be accessed by mobile device  1402   a  or  1402   b . Such access can be provided by invocation of a web browsing function or application (e.g., a browser) in response to a user touching, for example, a Web object. 
     A number of implementations of visual manipulation of database schema have been described. Nevertheless, it will be understood that various modifications can be made without departing from the spirit and scope of the invention. For example, a mobile device is described. A non-mobile device (e.g., a desktop computer or a server computer) can also be used to implement the features described.

Metadata:
Filing Date: 20100401
Publication Date: 20121023
Grant Date: 20121023
Priority Date: 20100401
Inventors: BOLEY JESSE LEON
SHELBY RYAN DAVID
GRIGGS RYAN CHRISTOPHER
SMITH KEVIN IVERSEN
Assignee: APPLE INC
CPC Classifications: [{"code": "G06F16/2428", "inventive": true, "first": true, "tree": "[]"}, {"code": "G06F3/0484", "inventive": true, "first": true, "tree": "[]"}, {"code": "G06F16/2428", "inventive": true, "first": false, "tree": "[]"}]
Family ID: 44710890