CN102890694A - Time shaft system and implementation method thereof - Google Patents

Abstract

The invention provides a time shaft system and an implementation method thereof. The time shaft system comprises an event editor module, a time shaft module and a touch event identification module, wherein the event editor module is used for storing event information in a file in an extensible markup language (XML) format by using events as indexes; the time shaft module is used for deserializing the event information in the XML format in a memory and displaying the event information according to different occurrence time information in each piece of event information; and the touch event identification module is used for capturing multiple kinds of touch event information returned by hardware equipment in real time. The novel time shaft system can change the time scale of the events, and a user can quickly, visually and conveniently search the required event information.

Description

Time axis system and implementation method thereof

Technical Field

The invention relates to the field of computers, in particular to a time axis system and an implementation method thereof.

Background

The fusion content with the time axis shows more spatial and historical feelings. Scientists have had the idea that all dimensions are made of time, and without time, there is no space. Because there is no time, the existence of space itself has no meaning, because space-time itself is an integral that cannot be segmented. According to einstein relativistic: the three-dimensional space faced in our lives plus time constitutes a so-called four-dimensional space.

The time axes of all the existing systems place all the time on the whole axis, so that the contents displayed on the axis are many and disordered, and a user cannot selectively look for a specified event on the time axis system by taking different time scales as scales according to own needs.

Thus, one of the technical problems that needs to be urgently solved by those skilled in the art is: how to construct a new time axis system that can transform the time scale of an event.

Disclosure of Invention

The invention provides a time axis system and a realization method thereof, and the system can change a novel time axis system of a scale of a time scale of an event, so that a user can quickly, intuitively and conveniently search event information to be searched.

In order to solve the above problems, the present invention discloses a timeline system, comprising:

an event editor module for storing the information of the event in a file in an extensible markup language format with the event as an index,

the time axis module is used for deserializing the event information in the extensible markup language format into the memory and expressing the event information in the time axis module according to different occurrence time information in each event information;

and the touch event identification module is used for capturing various touch event messages returned by the hardware equipment in real time.

Preferably, the event information is text information, picture information, video information and Flash animation information.

The invention also discloses a method for realizing the time axis system, which comprises the following steps:

receiving an initial command for starting the time axis system, and starting to execute the corresponding operation of the time axis system;

starting a time axis system, reading event data information with time scales, and serializing the event data information into a memory from a structured extensible markup language;

summarizing the events to a time axis according to the time sequence of the events;

calculating the numerical value of the minimum time scale according to the time difference;

drawing a time axis according to the numerical value of the minimum time scale, and placing the events on the time axis according to the sequence of the events;

and performing corresponding operation according to the occurrence or non-occurrence of the touch event.

Preferably, the step of performing a corresponding operation according to whether the touch event occurs or not includes:

if the touch event does not occur, receiving an instruction of exiting the time axis system, and exiting the time axis system;

if the touch event occurs, judging the type of the event to perform corresponding operations of zooming in, zooming out, translating and clicking to redraw the event on the time axis, and after the process of redrawing the event is finished, receiving an instruction of exiting the time axis system and exiting the time axis system.

Preferably, the step of determining the type of the event includes:

if the event type is a multipoint message event, calculating the distance between two points in the multipoint to obtain a distance value between the two points; if the distance value between the two points is increased, the multipoint message event is marked as an amplified message event; if the distance value between the two points is reduced, the multipoint message event is marked as a reduced message event;

if the event type is a single-point message event, judging whether the single point is translated or not; if the point is translated, the single-point message event is marked as a drag-and-drop event, and if the point is not translated, the single-point message event is marked as a click event.

Preferably, if the touch event occurs, the step of determining the type of the event to perform corresponding operations of zooming in, zooming out, translating, and clicking to redraw the event on the time axis includes:

if the event type is an amplified message event, acquiring the length of two-point touch, and recalculating the time scale of the time axis system;

if the event type is a reduced message event, acquiring the two-point touch length, and recalculating the time scale of the time axis system;

if the event type is a drag-and-drop event, obtaining a single-point translation distance, and recalculating the time start-stop time scale of the time axis system;

if the event type is a click event, drawing the information of the click event, and redrawing the time scale of the time axis system according to the calculation result;

the information of the click event is video information of the click event, text information of the click event, picture information of the click event and Flash information of the click event.

Compared with the prior art, the invention has the following advantages:

1. the occurrence sequence of events can be expressed visually and in a transverse comparison mode.

2. The files in picture, video and flash formats can be read at the time point in the time axis system.

3. The touch event recognition module can be used for carrying out interaction operations such as amplification, reduction, translation, clicking and the like on the pictures, videos and files in flash formats related to the events.

4. Another way to read and retrieve information. The information visualization design of the time axis is introduced to users. The content of the read information is undoubtedly a new way. Organizing content and organizing memory in a time dimension is a method used by human beings all the time. For example, "nine-eight events change" in history of China and "512 great Sichuan earthquake in 2008".

5. The time axis system of the invention uses variable time scales as scales to divide, store and display events according to years, months, days and even time. When the time axis is zoomed in to the day, the time axis can be translated according to the time and also zoomed in and zoomed out, so that the infinite transformation is realized.

6. The time axis system not only supports the time axis system with time property, but also supports axes with different classifications, for example, for schools, chapters, sections and knowledge points can be used as axes, and the chapters, the sections and the knowledge points can be moved or infinitely enlarged and reduced, so that the time axis system can be conveniently applied to teaching and research.

In summary, the present invention provides a time axis system and a method for implementing the same, wherein the system can transform a novel time axis system of a time scale of an event, so that a user can quickly, intuitively and conveniently search event information to be searched.

Drawings

FIG. 1 is a schematic diagram of a timeline system according to an embodiment of the present invention;

FIG. 2 is a flowchart of the steps of embodiment 1 of a method of implementing a timeline system of the present invention;

FIG. 3 is a flowchart of the steps of embodiment 2 of a method of implementing a timeline system of the present invention;

FIG. 4 is a schematic diagram of the working sequence and relationship between four events for completing various touch screen gesture operations according to the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

One of the core ideas of the present invention is to provide a timeline system including: the event editor module is used for storing the information of the event in a file in an extensible markup language format by taking the event as an index; the time axis module is used for deserializing the event information in the extensible markup language format into the memory and expressing the event information in the time axis module according to different occurrence time information in each event information; the touch event identification module is used for capturing messages of various touch events returned by the hardware equipment in real time; the system can change a novel time axis system of a scale of the time scale of the event, so that a user can quickly, intuitively and conveniently search the event information to be searched.

Referring to fig. 1, a schematic structural diagram of an embodiment of a timeline system according to the present invention is shown, which specifically includes:

and the event editor module 101 is configured to store the information of the event in a file in an extensible markup language format with the event as an index.

The event information is text information, picture information, video information and Flash animation information.

The timeline module 102 is configured to deserialize the event information in the xml format into a memory, and to present the event information in the timeline module according to different occurrence time information in each event information.

And the touch event identification module 103 is used for capturing messages of various touch events returned by the hardware device in real time.

Referring to fig. 2, a flowchart illustrating steps of embodiment 1 of a method for implementing a timeline system according to the present invention is shown, which may specifically include:

step 201, receiving a start command for starting the time axis system, and starting to perform a corresponding operation of the time axis system.

Step 202, starting a time axis system, reading event data information with time scales, and serializing the event data information from a structured extensible markup language into a memory.

And step 203, summarizing the events to a time axis according to the time sequence of the events.

And step 204, calculating the numerical value of the minimum time scale according to the time difference.

Step 205, drawing a time axis according to the numerical value of the minimum time scale, and placing the events on the time axis according to the sequence of the events.

And step 206, performing corresponding operation according to the occurrence or non-occurrence of the touch event.

In order to make those skilled in the art better understand the present invention, in a preferred embodiment of the present invention, the step 206 may specifically include:

and a substep A1, if the touch event does not occur, receiving an instruction for exiting the time axis system, and exiting the time axis system.

And a substep A2, if a touch event occurs, judging the type of the event to perform corresponding operations of zooming in, zooming out, translating and clicking to redraw the event on the time axis, and after the process of redrawing the event is finished, receiving an instruction of exiting the time axis system and exiting the time axis system.

Wherein,

the step of judging the type of the event comprises the following steps:

substep B1, if the event type is a multipoint message event, calculating a distance between two points of the multipoint, and obtaining a distance value between the two points; if the distance value between the two points is increased, the multipoint message event is marked as an amplified message event; if the distance value between two points is reduced, the multi-point message event is marked as a reduced message event.

Sub-step B2, if the event type is single point message event, judging whether the single point is translated; if the point is translated, the single-point message event is marked as a drag-and-drop event, and if the point is not translated, the single-point message event is marked as a click event.

If the touch event occurs, judging the type of the event to perform corresponding operations of zooming in, zooming out, translating and clicking to redraw the event on a time axis, wherein the steps comprise:

and a sub-step C1, if the event type is the amplified message event, obtaining the two-point touch length, and recalculating the time scale of the time axis system.

And a sub-step C2, if the event type is a reduced message event, obtaining the two-point touch length, and recalculating the time scale of the time axis system.

And a substep C3, if the event type is drag-and-drop event, obtaining a single point translation distance, and recalculating the time start-stop time scale of the time axis system.

And a substep C4, if the event type is the click event, drawing the information of the click event, and redrawing the time scale of the time axis system according to the calculation result.

The information of the click event is video information of the click event, text information of the click event, picture information of the click event and Flash information of the click event.

Referring to fig. 3, a flow chart of the steps of embodiment 2 of a method of implementing the timeline system of the present invention is shown.

From fig. 3, it can be seen that the whole process of the method for implementing the timeline system is specifically described as follows:

description of the flow:

1) and event information is stored by adopting structured xml, and time scale information is stored in each event.

2) And after the program is started, serializing the event information from the xml into the memory.

3) And summarizing the events on a variable time axis according to the time sequence of the events.

4) And waiting for the touch event to occur.

Wherein,

multi-touch input is a type of input that relies on the concept of touch screen input, and possibly also on multiple touches and their interpretation as features of a cell (sometimes also referred to as a frame). Multi-touch input requires a hardware device that is touch sensitive and an environment that supports exposing touch events to the required infrastructure for each application.

The concept of multi-touch requires a hardware device capable of recording the pressure generated on the surface. The surface may be directly the screen or may be a separate dedicated input device (e.g. a drawing tablet). The touch device used in the system supports devices which drive authentication through windows.

5) And judging that the touch is a multi-point message event, calculating the distance between the two points, marking the event as an enlarged message event if the distance is increased, otherwise marking the event as a reduced message event, judging whether translation exists or not if the event is a single-point message, if so, regarding the event as a drag-and-drop event, and if not, regarding the event as a click event.

6) And (3) amplifying and reducing the message event, recalculating the time scale unit, calculating the visual scale of the time axis for the translation event, drawing the detailed content of the event for clicking the event, supporting the video, the text and the Flash animation, and redrawing the time axis according to the calculation result.

The platform requirements required by the time axis system in the invention are as follows: at the operating system level, Windows7 supports multi-touch input. One part is supported by the message WM _ TOUCH. The operating system has promoted the multi-touch message to a mouse message at this level. With this boost, a multi-touch user can use touch and gestures instead of mouse movement or mouse clicks. This is particularly useful when interacting with applications that may not have touch recognition capabilities, but instead perform all of their spatial input processing through mouse events and messages. Windows7 may also merge these messages as appropriate, so that the application does not have to handle overflow of intermediate messages that all generate delta events.

Referring to fig. 4, a schematic diagram of the working sequence and relationship between four events for completing various touch screen gesture operations in the present invention is shown.

The time axis system in the invention completes various touch screen gesture operations through the following four events: ManipulantStarting, ManipulantStarted, ManipulantDelta, ManipulantInertiaStarting, and ManipulantCompleted.

In summary, the present invention provides a time axis system and a method for implementing the same, wherein the system can transform a novel time axis system of a time scale of an event, so that a user can quickly, intuitively and conveniently search event information to be searched.

The above detailed description is provided for a timeline system and a method for implementing the same, and the principle and the implementation of the present invention are explained by applying specific examples, and the description of the above examples is only used to help understanding the method and the core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (6)

1. A timeline system, comprising:

an event editor module for storing the information of the event in a file in an extensible markup language format with the event as an index,

the time axis module is used for deserializing the event information in the extensible markup language format into the memory and expressing the event information in the time axis module according to different occurrence time information in each event information;

and the touch event identification module is used for capturing various touch event messages returned by the hardware equipment in real time.

2. The timeline system of claim 1, wherein:

the event information is text information, picture information, video information and Flash animation information.

3. A method of implementing a timeline system, comprising:

receiving an initial command for starting the time axis system, and starting to execute the corresponding operation of the time axis system;

starting a time axis system, reading event data information with time scales, and serializing the event data information into a memory from a structured extensible markup language;

summarizing the events to a time axis according to the time sequence of the events;

calculating the numerical value of the minimum time scale according to the time difference;

drawing a time axis according to the numerical value of the minimum time scale, and placing the events on the time axis according to the sequence of the events;

and performing corresponding operation according to the occurrence or non-occurrence of the touch event.

4. The method of claim 3, wherein the step of performing corresponding operations according to the occurrence or non-occurrence of the touch event comprises:

if the touch event does not occur, receiving an instruction of exiting the time axis system, and exiting the time axis system;

if the touch event occurs, judging the type of the event to perform corresponding operations of zooming in, zooming out, translating and clicking to redraw the event on the time axis, and after the process of redrawing the event is finished, receiving an instruction of exiting the time axis system and exiting the time axis system.

5. The method of claim 4, wherein the step of determining the type of the event comprises:

if the event type is a multipoint message event, calculating the distance between two points in the multipoint to obtain a distance value between the two points; if the distance value between the two points is increased, the multipoint message event is marked as an amplified message event; if the distance value between the two points is reduced, the multipoint message event is marked as a reduced message event;

if the event type is a single-point message event, judging whether the single point is translated or not; if the point is translated, the single-point message event is marked as a drag-and-drop event, and if the point is not translated, the single-point message event is marked as a click event.

6. The method according to claim 4, wherein if the touch event occurs, determining the type of the event to perform corresponding operations of zooming in, zooming out, translating and clicking to perform the step of redrawing the event on the time axis comprises:

if the event type is an amplified message event, acquiring the length of two-point touch, and recalculating the time scale of the time axis system;

if the event type is a reduced message event, acquiring the two-point touch length, and recalculating the time scale of the time axis system;

if the event type is a drag-and-drop event, obtaining a single-point translation distance, and recalculating the time start-stop time scale of the time axis system;

if the event type is a click event, drawing the information of the click event, and redrawing the time scale of the time axis system according to the calculation result;

the information of the click event is video information of the click event, text information of the click event, picture information of the click event and Flash information of the click event.

Images