CN104035703A - Client side, method and system for changing view display - Google Patents

Abstract

The invention discloses a client side, a method and a system for changing view display. The client side is used for triggering a view list display mode to be switched between a small picture display mode and a large picture display mode under the condition that a multi-finger gesture touch event of a current called sub-view image object is obtained and adding the called sub-view image object and guiding information contents which are corresponding to the called sub-view object into the switched information interface which is corresponding to the current view list display mode. The client side, the method and the system for changing view display can satisfy requirements for a user to rapidly switch between the view display modes and conveniently and rapidly obtain complete information.

Description

Client, method and system for changing view display

Technical Field

The present invention relates to a view list display technology, and in particular, to a client, a method, and a system for changing a view display.

Background

The development of communication and internet technology makes information sharing become the necessity of daily life of people, adopts various windowed information interfaces to display various information, and can meet the requirement of people for quickly realizing information sharing. With the popularization of various clients, various information interfaces supporting the windowing of the clients are emerging, such as various news clients, social clients, science and technology periodicals clients, stock information clients and the like related to the daily life information of the user, which all support information to be displayed and shared in the information interfaces.

In the prior art, a windowed information interface supporting various clients displays and shares information in a display mode of a view list, and is divided into a small image display mode and a large image display mode, switching between the small image display mode and the large image display mode is realized through a control with a return function, the simplest expression form of the control is as common news client ZAKER, a return button is arranged on the large image display mode, and the control is switched to the small image display mode after clicking. Fig. 1 is a schematic diagram illustrating switching between different display modes of an existing view list, where a, b, c, and d respectively represent each sub-view in the view list, and a shaded filling block at the lower left corner of a in the large-view display mode represents a position where the return button is located. Wherein, the small picture display mode refers to: and a view list display mode for displaying only a part of the condensed information such as the summary or title of the information. The large graph display mode refers to: a view list display mode that displays complete information for all specific details.

When the switching of the view list display mode is realized between the small image display mode and the large image display mode, clicking the sub view a of the small image display mode to switch to the large image display mode, and displaying one sub view a on all interfaces; clicking the return button of the large image display mode returns to the small image display mode. In the prior art, a control, such as a return button, is clicked to switch a view list display mode between a small image display mode and a large image display mode, and only one sub-view can be displayed in the large image display mode, but other sub-views cannot display information, so that the problems in the prior art are as follows: switching needs to be realized by means of a control, so that switching operation is complicated, and the requirement of a user for rapidly switching between view display modes cannot be met; all the specific details of one of the sub-views can be obtained in the large-image display mode, all the specific details of other sub-views need to be obtained, the sub-view required by clicking needs to be selected again in the small-image display mode, and then all the specific details of the selected sub-view are displayed in the large-image display mode, so that the requirements of a user on quick switching between the view display modes and convenient and quick acquisition of complete information cannot be met.

Disclosure of Invention

In view of the above, the main objective of the present invention is to provide a client, a method and a system for changing view display, which can meet the needs of a user for quickly switching between view display modes and conveniently and quickly acquiring complete information.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

the client is used for triggering the switching of a view list display mode between a small image display mode and a large image display mode under the condition that a currently called sub-view object obtains a multi-finger gesture touch event, adding the called sub-view object in an information interface corresponding to the switched current view list display mode, and importing information content corresponding to the called sub-view object.

Preferably, the client specifically includes: the system comprises a switching trigger unit, an interface display unit and a sub-view display unit; wherein,

the switching triggering unit is used for triggering the switching of the view list display mode between the small image display mode and the large image display mode when the sub-view display unit acquires the multi-finger gesture touch event of the currently called sub-view object;

the interface display unit is used for displaying an information interface corresponding to the switched current view list display mode when the switching trigger unit triggers the switching;

and the sub-view display unit is used for displaying the added called sub-view object and the imported information content corresponding to the called sub-view object in the information interface displayed by the interface display unit.

Preferably, the number of the sub-view display units is multiple, and the sub-view display unit is further configured to sequentially display, in the information interface displayed by the interface display unit, the added sub-view object adjacent to the called sub-view object and the imported information content corresponding to the added sub-view object according to the arrangement order of the sub-view objects in the sub-view object group.

Preferably, the client further includes a storage unit, configured to store an association/correspondence between the information content and the sub-view object in the sub-view object group.

Preferably, the client further includes a detection unit, configured to, when the multi-finger gesture touch event is an enlargement gesture touch event in the thumbnail display mode, detect that a distance parameter of the enlargement gesture touch event is smaller than a threshold value for triggering switching, and locally enlarge the called sub-view object displayed by the sub-view display unit; when the distance parameter of the touch event of the amplifying gesture is detected to be larger than the critical value for triggering switching, the switching triggering unit is informed;

the switching trigger unit is further used for triggering the switching from the small image display mode to the large image display mode;

the sub-view display unit is further configured to display the added called sub-view object and the imported information content corresponding to the called sub-view object in a top position of an information interface corresponding to a large-image display mode displayed by the interface display unit.

Preferably, the sub-view display unit further includes: the system comprises a first acquisition subunit, a second acquisition subunit, a first construction subunit, a first information matching and importing subunit and a first display subunit; wherein,

the first acquiring subunit is configured to acquire the called sub-view object when the switching is triggered;

the second obtaining subunit is configured to, when the data pointer points to the position of the called sub-view object in the sub-view object group, obtain and record an attribute and an index value set for the called sub-view object;

the first constructing subunit is used for constructing an information interface corresponding to the large-image display mode and amplifying the called sub-view object to the size under the large-image display mode according to the origin coordinate of the upper left corner of the sub-view and the width and height of the sub-view contained in the called sub-view object attribute; continuing to construct and sequentially amplifying the adjacent sub-view objects in the sub-view object group to the size and the relative position in the large-image display mode;

the first information matching and importing subunit is used for matching information contents according to the time stamp or the sequence number contained in the index value, directly extracting information contents corresponding to the called sub-view object and the adjacent sub-view object from a storage unit of the client or asking the server for the information contents corresponding to the called sub-view object and the adjacent sub-view object, and importing the information contents into the called sub-view object and the adjacent sub-view object;

and the first display subunit is used for returning the scroll view list to the information interface corresponding to the large-image display mode again according to the recorded attribute and index value of the called sub-view object and displaying the called sub-view object at the top after the adding of the sub-view object and the importing of the information content are continuously constructed.

Preferably, the client further includes a detection unit, configured to, when the multi-finger gesture touch event is a zoom-out gesture touch event in a large-image display mode, detect that a distance parameter of the zoom-out gesture touch event is smaller than a threshold value for triggering switching, and locally zoom out the called sub-view object displayed by the sub-view display unit; when the distance parameter of the gesture touch event is detected to be smaller than the critical value for triggering switching, the switching triggering unit is informed;

the switching trigger unit is further used for triggering the switching from the large image display mode to the small image display mode;

the sub-view display unit is further configured to display the added called sub-view object and the imported information content corresponding to the called sub-view object in a top position of an information interface corresponding to a thumbnail display mode displayed by the interface display unit.

Preferably, the sub-view display unit further includes: the system comprises a third acquisition subunit, a fourth acquisition subunit, a second construction subunit, a second information matching and importing subunit and a second display subunit; wherein,

the third acquiring subunit is configured to acquire the called sub-view object when the switching is triggered;

the fourth obtaining subunit is configured to, when the data pointer points to the position of the called sub-view object in the sub-view object group, obtain and record an attribute and an index value set for the called sub-view object;

the second construction subunit is used for constructing an information interface corresponding to the thumbnail display mode according to the origin coordinate of the upper left corner of the sub-view and the width and height of the sub-view contained in the called sub-view object attribute and reducing and returning the called sub-view object to the size under the thumbnail display mode; continuing to construct and sequentially reducing the adjacent sub-view objects in the sub-view object group to the size and the relative position in the small-image display mode;

the second information matching and importing subunit is configured to perform information content matching according to a timestamp or a sequence number included in the index value, directly extract or retrieve, from a storage unit of the client, information content corresponding to the called sub-view object and the adjacent sub-view object from the server, and import the information content into the called sub-view object and the adjacent sub-view object;

and the second display subunit is used for returning the scroll view list to the information interface corresponding to the thumbnail display mode again according to the recorded attribute and index value of the called sub-view object after the adding of the sub-view object and the importing of the information content are continuously constructed and finished, and the called sub-view object displayed at the top is located at the display position.

A method of changing a view display, the method comprising:

acquiring a multi-finger gesture touch event at a currently called child view object, and triggering the switching of a view list display mode between a small image display mode and a large image display mode;

and adding the called sub-view object and importing the information content corresponding to the called sub-view object in the information interface corresponding to the switched current view list display mode.

Preferably, after the importing the information content corresponding to the called sub-view object, the method further includes: and adding and importing the information content of the sub-view objects adjacent to the called sub-view object according to the arrangement sequence of the sub-view objects in the sub-view object group.

Preferably, before the triggering of the view list display mode to switch between the small map display mode and the large map display mode, the method further comprises: and sequencing the information content according to the time sequence of the acquired information, and storing the incidence relation/corresponding relation between the information content and the sub-view object in the sub-view object group.

Preferably, when the multi-finger gesture touch event is an enlarged gesture touch event in the thumbnail display mode, the method further includes:

detecting that the distance parameter of the touch event of the magnifying gesture is smaller than a critical value triggering switching, and locally magnifying the called sub-view object;

and when the distance parameter of the touch event of the magnification gesture is detected to be larger than the critical value for triggering switching, switching from a small image display mode to a large image display mode is triggered, adding the called sub-view object at the top position of the information interface corresponding to the large image display mode, and importing the information content corresponding to the called sub-view object.

Preferably, when the multi-finger gesture touch event is a zoom-out gesture touch event in the large image display mode, the method further includes:

detecting that the distance parameter of the zooming-out gesture touch event is smaller than a critical value triggering switching, and locally zooming out the called sub-view object;

and when the distance parameter of the zooming-out gesture touch event is detected to be larger than the critical value for triggering switching, switching from a large image display mode to a small image display mode is triggered, adding the called sub-view object at the top position of the information interface corresponding to the small image display mode, and importing the information content corresponding to the called sub-view object.

Preferably, the system comprises: the server and the client terminal of the invention; the server is used as an information source and is used for providing the information content required by the client under the condition of importing the information content corresponding to the called sub-view object to the client.

The client triggers the switching of the view list display mode between the small image display mode and the large image display mode under the condition that the currently called sub-view object obtains the multi-finger gesture touch event, adds the called sub-view object in the information interface corresponding to the switched current view list display mode, and imports the information content corresponding to the called sub-view object. By adopting the method and the device, the touch event is triggered and switched by acquiring the double-finger-pinch gesture without using an additional control, so that the requirements of a user on quick switching between view display modes and convenient and quick acquisition of complete information can be met.

Drawings

FIG. 1 is a diagram illustrating a conventional view list switching between different display modes;

FIG. 2 is a schematic flow chart of the implementation of the method of the present invention;

FIG. 3 is a schematic diagram of the client end according to the present invention;

FIG. 4 is a diagram illustrating switching between different display modes of a view list according to the present invention.

Detailed Description

The basic idea of the invention is: under the condition that the currently called sub-view object acquires a multi-finger gesture touch event, triggering the switching of a view list display mode between a small image display mode and a large image display mode, adding the called sub-view object in an information interface corresponding to the switched current view list display mode, and importing information content corresponding to the called sub-view object.

The following describes the embodiments in further detail with reference to the accompanying drawings.

The multi-finger gesture touch event is divided into a zooming-in gesture touch event in a small image display mode and a zooming-out gesture touch event in a large image display mode. The magnification gesture touch event may be specifically a finger open touch event, and the reduction gesture touch event may be specifically a finger close touch event. The finger open touch event may be a double finger pinch open touch event, and the finger close touch event may be a double finger pinch touch event.

The finger open touch event and the finger close touch event may also be collectively referred to as a finger open and close touch event, and may be specifically referred to as a finger open and close touch event, and the finger open and close touch event may be a double-finger pinch gesture touch event.

The client changing the view list display is used for triggering the switching of the view list display mode between a small image display mode and a large image display mode under the condition that the currently called sub-view object obtains a multi-finger gesture touch event, adding the called sub-view object in an information interface corresponding to the switched current view list display mode, and importing information content corresponding to the called sub-view object.

The system for changing the view list display comprises a client side of a foreground and a server of a background, wherein the server is used as an information source and is used for providing information content required by the client side under the condition of importing the information content corresponding to the called sub-view object to the client side.

For the server, the server is used for returning the information requested by the client to the client according to the request of the client; or the server actively pushes the information to the client according to the set strategy.

Here, the returning the information requested by the client to the client according to the request of the client may be: and returning the information meeting the conditions to the client by the server according to at least one condition of the type of the requested information, the time interval of information updating, the correlation degree of the information and the sharing frequency of the information.

Here, the actively pushing information to the client according to the set policy may be: 1) a timer is set at the server, and the time of the timer is a preset information updating time interval, such as 2 minutes. And starting a timer, actively pushing information to the client by the server at a preset information updating time interval, resetting the timer after the information pushing execution is finished, and restarting timing. 2) When the information sharing and forwarding frequency reaches a preset threshold value, for example, sharing and forwarding are performed for 50 times, the server takes the information as information with high information sharing and forwarding frequency, and the information is actively pushed to the client.

For the client, the client is configured to sort the information content according to the time sequence of obtaining the information from the server, and store an association/correspondence between the information content and the sub-view object in the sub-view object group, and specifically, may store the association/correspondence in a memory pool where the sub-view object group corresponding to the information content is located. Here, for the sub-view object group described herein, a data storage form such as an array may be adopted, that is, the sub-view object group may be specifically an array of the sub-view object, which is not described in detail later, and the array of the sub-view object is described as an example.

Acquiring a double-finger-pinch gesture touch event at a currently called sub-view object, triggering and realizing switching of a view list display mode between a small image display mode and a large image display mode; and adding the called sub-view object and importing the information content corresponding to the called sub-view object in a windowed information interface corresponding to the switched current view list display mode, and sequentially executing adding and importing the information content to the sub-view object adjacent to the called sub-view object according to the sequence of the sub-view objects in the array of the sub-view objects.

Here, the advantages of using the present invention are: on one hand, compared with the prior art that the switching of the view list display mode between the small image display mode and the large image display mode is realized by means of a control, the switching of the view list display mode between the small image display mode and the large image display mode is triggered and realized by acquiring a double-finger-pinch gesture touch event on the sub-view object without the aid of an additional control on the sub-view object, so that the switching operation is simplified by adopting the method, and the requirement of a user for quickly switching between the view display modes can be met; on the other hand, compared with the prior art that all the specific details of one selected sub-view can only be obtained in the large-view display mode, and all the specific details of other sub-views need to be returned to the small-view display mode to reselect and click the required sub-view, and then switched back to the large-view display mode for display, the invention adds the selected called sub-view object and introduces the information content corresponding to the called sub-view object in the windowed information interface corresponding to the switched current view list display mode no matter in the large-view display mode or the small-view display mode of the view list display mode, and sequentially executes the adding and information content introducing operations on the sub-view objects adjacent to the called sub-view object according to the sequence of the sub-view object in the sub-view array object, that is, by adopting the invention, even in a large image display mode, a plurality of sub-views are displayed, but one of the selected and called sub-views is displayed, the display positions of the sub-views in an information interface are arranged according to the sequence of the sub-view objects in a temporal sub-view object array, the information content correspondingly imported by the sub-view objects is also temporal, and the information content is sequenced according to the time sequence of information acquisition from a server, therefore, the invention does not need to switch back to a small image display mode for a plurality of times to display the complete information content of the reselected sub-view, meets the requirement that a user quickly switches between the view display modes to conveniently and quickly acquire the complete information, and the display positions of the sub-views and the information content thereof displayed in an information window are arranged according to the time sequence of each other no matter in the large image display mode or the small image display mode, the user can select to read the information content of the sub-views according to the time sequence, the latest updated information content is contained in the sub-views displayed at the information window top position, the user can conveniently and quickly acquire the real-time updated information content, the shared effective information can be acquired as soon as possible in the shortest time, and the sharing efficiency is improved.

In addition, the scheme of arranging the sub-view display positions and the information contents thereof in the information window in the time sequence during switching is adopted, and the display positions and the information contents of each sub-view are not disordered and are arranged according to the time sequence, so that the ordered arrangement caused by the time sequence can not cause the phenomenon that the original reading position is lost during random switching, a user can conveniently return to the original reading position in time, and the fluency and the efficiency of reading information are improved.

Further, when the double-finger pinch-off touch event is in a small image display mode, the client side detects that the distance parameter of the double-finger pinch-off touch event is smaller than a critical value for triggering switching, and locally amplifies a currently called sub-view object; and when the distance parameter of the double-finger pinch-off touch event is detected to be larger than the critical value for triggering switching, the small image display mode is triggered to be switched to the large image display mode, the currently called sub-view object is added at the top position of the information interface corresponding to the large image display mode, and the information content corresponding to the called sub-view object is imported.

Further, when the double-finger pinch gesture touch event is in the large image display mode, the client side detects that the distance parameter of the double-finger pinch touch event is smaller than a critical value for triggering switching, and locally reduces the currently called sub-view object; and when the distance parameter of the double-finger pinch touch event is detected to be larger than the critical value for triggering switching, the large image display mode is triggered to be switched to the small image display mode, the currently called sub-view object is added at the top position of the information interface corresponding to the small image display mode, and the information content corresponding to the called sub-view object is imported.

The interactive method for changing the display of the view list, as shown in fig. 2, of the present invention comprises the following steps:

step 101, acquiring a double-finger-pinch gesture touch event from a currently called child view object, and triggering switching of a view list display mode between a small image display mode and a large image display mode.

And 102, adding the currently called sub-view object and importing the information content corresponding to the called sub-view object in the information interface corresponding to the switched current view list display mode.

Here, the information interface is composed of a scroll view list composed of a plurality of sub-view objects. Presetting default parameters of a plurality of sub-view objects in different display modes of a scroll view list in the information interface, namely a small image display mode and a large image display mode, wherein the default parameters comprise: the origin coordinate of the upper left corner of the sub-view, the width of the sub-view and the height of the sub-view. And the origin coordinate of the upper left corner of the sub-view is used for identifying the starting position of the sub-view object in the information interface display.

Here, the adding operation of adding the currently called child view object in the information interface specifically includes: and constructing and adding the sub-view object in the information interface according to default parameters preset for the currently called sub-view object.

Here, the information interface includes information interfaces supporting windowing of various clients, such as various news clients, social clients, science and technology periodicals clients, stock information clients, and the like related to daily information of the user, and all support information to be displayed and shared in the information interfaces.

Here, the types of information are various, for example, multimedia information includes graphics, text, audio, and video, and the information content in the present invention includes at least one of graphics, text, audio, and video.

Here, one of the ways of storing data in the memory pool of the client is to store an array of information content and sub-view objects corresponding to the information content, that is, a storage way in which the information content and the sub-view object array formed by the sub-view objects are respectively stored and data types are distinguished; the other is to store only an array of the sub-view object, and the array of the sub-view object contains information content corresponding to the sub-view object, i.e. a storage mode without distinguishing data types.

It should be noted that: because the data volume of the text information content is small and does not occupy the memory space, the client can directly ask for the server or actively push the data by the server and then store the data into the memory pool, if the first data storage mode is adopted, the sub-view object is matched with the information content data block corresponding to the sub-view object through a timestamp or a serial number when the sub-view object is matched with the information content data block corresponding to the sub-view object, namely: the data blocks and the sub-view objects are identified by setting attributes or adding index values, and the identification adopts a time stamp or a sequence number. If the second data storage mode is adopted, the corresponding data block is directly extracted from the sub-view object during matching.

If the information content is at least one of graphic type, audio type and video type, the data volume is large, the information content occupies a memory, and the processing efficiency of the client is affected, the information content is directly stored in the server, and a timestamp or a serial number identifier is correspondingly adopted to be conveniently matched with the sub-view object stored in the memory pool.

In addition, default parameters of setting, namely, the origin coordinate of the upper left corner of the sub-view, the width of the sub-view and the height of the sub-view can also be set in the attributes of the sub-view object.

And 103, adding and importing the information content to the sub-view object adjacent to the called sub-view object according to the arrangement sequence of the sub-view objects in the array of the sub-view objects.

Further, before executing step 101, the method further includes step 1001: and the server returns the information requested by the client to the client according to the request of the client or pushes the information to the client according to a set strategy.

Further, before performing step 101, the method further includes step 1002: and the client sorts the information content according to the time sequence of the information acquired from the server and stores the information content into the memory pool where the array of the child view object corresponding to the information content is located.

Further, when the pinch gesture touch event in step 101 is a pinch-off touch event in the thumbnail display mode, the method further includes step 1021 a: detecting that the distance parameter of the double-finger pinch-off touch event is smaller than a critical value for triggering switching, and locally amplifying the currently called sub-view object; and when the distance parameter of the double-finger pinch-off touch event is detected to be larger than the critical value for triggering switching, the small image display mode is triggered to be switched to the large image display mode, the currently called sub-view object is added at the top position of the information interface corresponding to the large image display mode, and the information content corresponding to the called sub-view object is imported.

Here, in step 1021a, the triggering is to switch from the small-image display mode to the large-image display mode, and adding the currently called sub-view object and importing the information content corresponding to the called sub-view object at the top position of the information interface corresponding to the large-image display mode specifically includes:

1) acquiring a currently called sub-view object when triggering switching, wherein a data pointer in a memory pool points to the position of the currently called sub-view object in an array of the sub-view object, and simultaneously acquiring and recording attributes and index values preset for the currently called sub-view object; it should be noted that the preset attributes of the sub-view object refer to the origin coordinates, width and height required for displaying the sub-view object in the information interface corresponding to the large-image display mode.

2) Constructing and adding a currently called sub-view object on an information interface corresponding to a large-image display mode according to the origin coordinate of the upper left corner of the sub-view, the width of the sub-view and the height of the sub-view contained in the attribute of the currently called sub-view object, performing information content matching according to a timestamp or a serial number contained in an index value, directly extracting or asking a server for information content corresponding to the currently called sub-view object from a memory pool of a client and introducing the information content into the currently called sub-view object;

3) the data pointer points to the position of the sub-view object adjacent to the currently called sub-view object in the array of the sub-view object, as in 2), according to the principle described in the above, continuously constructing and sequentially adding the adjacent sub-view objects in the array of the sub-view object and importing the corresponding information content according to the information interface corresponding to the sub-view object attribute and the index value in the large graph display mode;

4) and after the operations of continuing to construct the added sub-view object and importing the information content are finished, returning the scroll view list to the display position of the currently called sub-view object displayed at the top in the information interface corresponding to the large-image display mode according to the recorded attribute and index value of the currently called sub-view object in the step 1).

Further, when the pinch gesture touch event in step 101 is a pinch touch event in the large-image display mode, the method further includes step 1021 b: detecting that the distance parameter of the double-finger pinch touch event is smaller than a critical value for triggering switching, and locally reducing the currently called sub-view object; and when the distance parameter of the double-finger pinch touch event is detected to be larger than the critical value for triggering switching, the large image display mode is triggered to be switched to the small image display mode, the currently called sub-view object is added at the top position of the information interface corresponding to the small image display mode, and the information content corresponding to the called sub-view object is imported.

Here, in step 1021b, the triggering is to switch from the large-image display mode to the small-image display mode, and adding the currently called sub-view object and importing the information content corresponding to the called sub-view object at the top position of the information interface corresponding to the small-image display mode specifically includes:

1) acquiring a currently called sub-view object when triggering switching, wherein a data pointer in a memory pool points to the position of the currently called sub-view object in an array of the sub-view object, and simultaneously acquiring and recording attributes and index values preset for the currently called sub-view object; it should be noted that the preset attributes of the sub-view object refer to the origin coordinates, width and height required for displaying the sub-view object in the information interface corresponding to the thumbnail display mode.

2) Constructing and adding a currently called sub-view object on an information interface corresponding to a small picture display mode according to the origin coordinate of the upper left corner of the sub-view, the width of the sub-view and the height of the sub-view contained in the attribute of the currently called sub-view object, performing information content matching according to a timestamp or a serial number contained in an index value, directly extracting or asking a server for information content corresponding to the currently called sub-view object from a memory pool of a client and introducing the information content into the currently called sub-view object;

3) the data pointer points to the position of the sub-view object adjacent to the currently called sub-view object in the array of the sub-view object, such as 2), according to the principle described in the above, continuously constructing and sequentially adding the adjacent sub-view objects in the array of the sub-view object and importing the corresponding information content according to the information interface corresponding to the attribute and the index value of the sub-view object in the thumbnail display mode;

4) and after the operations of continuing to construct the added sub-view object and importing the information content are finished, returning the scroll view list to the display position of the currently called sub-view object displayed at the top in the information interface corresponding to the small picture display mode according to the recorded attribute and index value of the currently called sub-view object in the step 1).

The method comprises the following steps:

a scene that a view list display mode is switched between a small graph display mode and a large graph display mode is triggered through a double-finger-pinch gesture touch event, in the small graph display mode, double fingers are pinched off on a touch screen client, and a scroll view list is enlarged to the large graph display mode, namely when a double-finger-pinch-off gesture is operated on an explicit sub-view object, the scroll view list composed of a plurality of sub-view objects enters the large graph display mode, and the called sub-view object is displayed at the top of an information interface, as shown in fig. 4; and in the large image display mode, double fingers are kneaded on the touch screen client, and the scroll view list is reduced to the small image display mode. When the gesture of double-finger pinch operates on an explicit sub-view object, the scrolling view list enters a thumbnail display mode, and the called sub-view object is displayed at the top of the information interface, as shown in fig. 4.

Specifically, the embodiment is based on a scrolling window (uiscollview), and the waterfall flow view component displaying the number of columns is dynamically switched according to a user double-finger pinch gesture, that is, the switching between the two columns of small image display modes and the one column of large image display modes is realized. Here, each sub-view object presented by the information interface is presented by the sub-view display unit. In order to improve the efficiency, a memory pool for storing the numerical value of the sub-view object is placed in the memory of the client, and the sub-view object which is not displayed on the screen at any moment can be recycled and placed in the memory pool. According to the method, the UIScrollView is expanded, so that the UIScrollView can correspondingly support a double-finger pinching gesture touch event while responding to an up-down pulling gesture.

The switching is divided into two cases, namely, a small image display mode of two-column display to a large image display mode of one-column display and a large image display mode of one-column display to a small image display mode of two-column display. As described separately below.

The implementation process of switching a two-column display mode of small pictures to a one-column display mode of large pictures comprises the following steps:

1. the user logs in the information interface for the first time, the information interface is displayed in a two-column display mode by default, and two data are stored in the memory before display:

a) each sub-view object displayed by the sub-view display unit is displayed in a starting position in the uisscrollview in a two-column display mode, and the position is arranged in an array of the sub-view objects by a temporal index value, such as a timestamp or a sequence number;

b) a reusable memory pool for storing the array of the sub-view object and the information content;

2. and rendering the sub-view object which needs to be displayed through the sub-view display unit to the information interface according to the scrolling position of the UIScrollView, and recycling the sub-view object which is not in the display range of the information interface and placing the sub-view object in the memory pool.

Here, it is determined whether to scroll the view list or to track the sub-view object displayed by the sub-view display unit in the view list, and by establishing a timer, before the timer starts to act, it is determined whether the touched finger has made any movement, i.e. it is determined whether to trigger a scrolling event according to a sufficient length of the finger moved by the user. If the timer is started and no large position change exists, namely a scrolling event is not triggered, sending a tracking event to the touched sub-view and calling a sub-view object; if the user moves the finger far enough before the timer stops, reaching a threshold, a scroll event is triggered, canceling any tracking events of the child view, and scrolling the view itself.

Here, the uisscrollview refers to an information interface that can adjust the position of the origin of each sub-view object on the scroll view list. And constructing and importing the information content of the sub-view object according to the original position of the sub-view object, wherein the original position is the offset of the sub-view object. The UIScrollView is adopted to manage how to tile the sub-view objects of the information content, no sub-view object can exceed the size of a screen, and when a user scrolls the view, the sub-view objects which are not displayed in the display range of the information interface can be added or removed according to the requirements of the scroll view displayed in the display range of the information interface.

3. If a user is interested in a sub-view object displayed by the sub-view display unit, the user can pinch the sub-view object by two fingers to generate a double-finger pinch gesture touch event, and if the distance parameter of the double-finger pinch touch event is smaller than the critical value triggering switching, the sub-view object is locally amplified; if the distance parameter of the double-finger pinch-off touch event is greater than the critical value, switching between a two-column display mode and a one-column display mode of the small images is triggered, and the specific process is as follows:

a) recording an index value, such as a timestamp or a sequence number, of the selected sub-view object;

b) according to default parameters of the selected sub-view object, such as the position of an origin, the width and the height, the animation of the selected sub-view object is amplified to the size of a column of displayed large-image display modes, and the animation of the sub-view object adjacent to the selected sub-view object in the array of the sub-view object is amplified and moved to the position of the column of displayed large-image display modes;

4. and after the animation is finished, setting a contentOffset attribute of the UIScrollView according to the recorded index value of the selected sub-view object, and instantly scrolling to the initial position of the selected sub-view object in a large-image display mode displayed in a column.

Here, the contentOffset attribute is used to track the specific position of the uisrolview, and may be set to be the point of the currently visible sub-view at the upper left corner on the boundary of the scroll view list information interface.

Secondly, the implementation process of switching the one-column display mode of the large graphs to the two-column display mode of the small graphs comprises the following steps:

1. in the case of a large-image display mode of a column display, the user may use a double-finger pinch-in action to a sub-view object displayed by the sub-view display unit, and similarly, two pieces of data are stored in the memory:

c) each sub-view object displayed by the sub-view display unit is displayed in a starting position in the uisscrollview in a large-view display mode displayed in a column, and the starting position is arranged in an array of the sub-view objects by a temporal index value, such as a timestamp or a sequence number;

d) a reusable memory pool for storing the array of the sub-view object and the information content;

2. if the user is interested in one sub-view object displayed by the sub-view display unit, the user can pinch the sub-view object by two fingers to generate a double-finger pinch gesture touch event, and if the distance parameter of the double-finger pinch touch event is smaller than the critical value triggering switching, the sub-view object is locally reduced; if the distance parameter of the double-finger pinch touch event is larger than the threshold value for triggering switching, switching from a large graph display mode of one row display to a small graph display mode of two rows display is triggered, and the specific flow is as follows:

a) recording the index value of the selected sub-view object, and displaying the UIScrollView again according to two rows of small graph display modes for layout;

b) the UIScrollView instantaneously scrolls to the position of the selected sub-view object according to an index value, such as a time stamp or a serial number, and the selected sub-view object and the adjacent sub-view objects thereof which are displayed in a two-column display small graph mode are rendered on a screen at the moment;

c) returning the selected sub-view object and the adjacent sub-view objects thereof to the size and relative position of a column of displayed large-scale image display modes;

d) and performing animation zooming-out on the selected sub-view object and the adjacent sub-view object thereof, and performing animation moving on the adjacent sub-view object to the position displayed in a column of large-picture display modes.

The client side for changing the view display is used for triggering the switching of the view list display mode between the small image display mode and the large image display mode under the condition that the currently called sub-view object obtains the double-click gesture touch event, adding the called sub-view object in an information interface corresponding to the switched current view list display mode, and importing the information content corresponding to the called sub-view object. Fig. 3 shows a specific example of the client according to the present invention, where the client includes a switching trigger unit, an interface display unit, and a sub-view display unit; wherein,

the switching triggering unit is used for triggering the switching of the view list display mode between the small image display mode and the large image display mode when the sub-view display unit acquires the double-finger-pinch gesture touch event of the currently called sub-view object.

The interface display unit is used for displaying an information interface corresponding to the switched current view list display mode when the switching trigger unit triggers the switching.

And the sub-view display unit is used for displaying the added called sub-view object and the imported information content corresponding to the called sub-view object in the information interface displayed by the interface display unit.

Furthermore, the multiple sub-view display units are further configured to sequentially display, in the information interface displayed by the interface display unit, the added sub-view object adjacent to the called sub-view object and the imported information content corresponding to the added sub-view object according to the arrangement order of the sub-view objects in the array of sub-view objects.

The client further comprises a storage unit for storing the association/correspondence between the information content and the sub-view object in the sub-view object group. Wherein the information content is ordered according to a chronological order of the information obtained from the server.

Here, in the case that the storage unit of the client is specifically a memory pool, the memory pool is used for storing the information content and the sub-view object group corresponding to the information content; or, storing a sub-view object group, where the sub-view object group includes information content corresponding to the sub-view object, and the information content specifically is: and sequencing the information content according to the time sequence of the information acquired from the server to obtain the data.

Further, the client further comprises a detection unit, configured to detect that a distance parameter of the double-finger pinch-off touch event is smaller than a threshold value for triggering switching when the double-finger pinch-off touch event is a double-finger pinch-off touch event in the thumbnail display mode, and locally amplify the called sub-view object displayed by the sub-view display unit; when the distance parameter of the double-finger pinch-off touch event is detected to be larger than the critical value for triggering switching, a switching triggering unit is informed;

the switching triggering unit is used for triggering the switching from the small image display mode to the large image display mode;

and the sub-view display unit is used for displaying the added called sub-view object and the imported information content corresponding to the called sub-view object in the top position of the information interface corresponding to the large-image display mode displayed by the interface display unit.

Further, the sub-view display unit includes: the system comprises a first acquisition subunit, a second acquisition subunit, a first construction subunit, a first information matching and importing subunit and a first display subunit; wherein,

the first acquiring subunit is used for acquiring the called sub-view object when triggering switching;

the second acquiring subunit is used for acquiring and recording the attribute and the index value set for the called sub-view object when the data pointer points to the position of the called sub-view object in the array of the sub-view object;

the first construction subunit is used for constructing an information interface corresponding to the large-image display mode and amplifying the called sub-view object to the size under the large-image display mode according to the origin coordinate of the upper left corner of the sub-view and the width and height of the sub-view contained in the called sub-view object attribute; continuing to construct and sequentially amplifying the adjacent sub-view objects in the array of sub-view objects to the size and the relative position in the large-image display mode;

the first information matching and importing subunit is used for matching information contents according to a timestamp or a sequence number contained in the index value, directly extracting information contents corresponding to the called sub-view object and the adjacent sub-view object from a memory pool of the client or asking the server for the information contents corresponding to the called sub-view object and the adjacent sub-view object, and importing the information contents into the called sub-view object and the adjacent sub-view object;

and the first display subunit is used for returning the scroll view list to the display position of the called sub-view object displayed at the top in the information interface corresponding to the large-image display mode according to the recorded attribute and index value of the called sub-view object after the adding of the sub-view object and the introduction of the information content are continuously constructed.

Further, the client further comprises a detection unit, configured to, when the double-finger pinch gesture touch event is a double-finger pinch touch event in the large-image display mode, detect that a distance parameter of the double-finger pinch touch event is smaller than a critical value for triggering switching, and locally zoom out the called sub-view object displayed by the sub-view display unit; when the distance parameter of the double-finger pinch touch event is detected to be larger than the critical value for triggering switching, the switching triggering unit is informed;

the switching triggering unit is used for triggering the switching from the large image display mode to the small image display mode;

and the sub-view display unit is used for displaying the added called sub-view object and the imported information content corresponding to the called sub-view object in the top position of the information interface corresponding to the small picture display mode displayed by the interface display unit.

Further, the sub-view display unit includes: the system comprises a third acquisition subunit, a fourth acquisition subunit, a second construction subunit, a second information matching and importing subunit and a second display subunit; wherein,

the third acquiring subunit is used for acquiring the called sub-view object when the switching is triggered;

the fourth acquiring subunit is configured to acquire and record the attribute and the index value set for the called sub-view object when the data pointer points to the position of the called sub-view object in the array of sub-view objects;

the second construction subunit is used for constructing an information interface corresponding to the thumbnail display mode according to the origin coordinate of the upper left corner of the sub-view and the width and height of the sub-view contained in the called sub-view object attribute and reducing the called sub-view object to the size under the thumbnail display mode; continuing to construct and sequentially reducing the adjacent sub-view objects in the array of the sub-view objects to the size and the relative position under the small image display mode;

the second information matching and importing subunit is used for matching information contents according to the time stamp or the sequence number contained in the index value, directly extracting information contents corresponding to the called sub-view object and the adjacent sub-view object from a memory pool of the client or asking the server for the information contents corresponding to the called sub-view object and the adjacent sub-view object, and importing the information contents into the called sub-view object and the adjacent sub-view object;

and the second display subunit is used for returning the scroll view list to the information interface corresponding to the thumbnail display mode again according to the recorded attribute and index value of the called sub-view object after the adding of the sub-view object and the introduction of the information content are continuously constructed, and displaying the called sub-view object at the top.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (14)

1. The client side is used for triggering the switching of a view list display mode between a small image display mode and a large image display mode under the condition that a currently called sub-view object obtains a multi-finger gesture touch event, adding the called sub-view object in an information interface corresponding to the switched current view list display mode, and importing information content corresponding to the called sub-view object.

2. The client according to claim 1, wherein the client specifically comprises: the system comprises a switching trigger unit, an interface display unit and a sub-view display unit; wherein,

the switching triggering unit is used for triggering the switching of the view list display mode between the small image display mode and the large image display mode when the sub-view display unit acquires the multi-finger gesture touch event of the currently called sub-view object;

the interface display unit is used for displaying an information interface corresponding to the switched current view list display mode when the switching trigger unit triggers the switching;

and the sub-view display unit is used for displaying the added called sub-view object and the imported information content corresponding to the called sub-view object in the information interface displayed by the interface display unit.

3. The client according to claim 2, wherein the number of the sub-view display units is multiple, and the sub-view display unit is further configured to sequentially display, in the information interface displayed by the interface display unit, the added sub-view object adjacent to the called sub-view object and the imported information content corresponding to the added sub-view object according to an arrangement order of the sub-view objects in the sub-view object group.

4. The client according to claim 3, further comprising a storage unit configured to store an association/correspondence between information content and a sub-view object in the sub-view object group.

5. The client according to any one of claims 2 to 4, further comprising a detection unit, configured to, when the multi-finger gesture touch event is a zoom-in gesture touch event in the thumbnail display mode, detect that a distance parameter of the zoom-in gesture touch event is smaller than a threshold value for triggering switching, and perform local zoom-in on the called sub-view object displayed by the sub-view display unit; when the distance parameter of the touch event of the amplifying gesture is detected to be larger than the critical value for triggering switching, the switching triggering unit is informed;

the switching trigger unit is further used for triggering the switching from the small image display mode to the large image display mode;

the sub-view display unit is further configured to display the added called sub-view object and the imported information content corresponding to the called sub-view object in a top position of an information interface corresponding to a large-image display mode displayed by the interface display unit.

6. The client of claim 5, wherein the sub-view display unit further comprises: the system comprises a first acquisition subunit, a second acquisition subunit, a first construction subunit, a first information matching and importing subunit and a first display subunit; wherein,

the first acquiring subunit is configured to acquire the called sub-view object when the switching is triggered;

the second obtaining subunit is configured to, when the data pointer points to the position of the called sub-view object in the sub-view object group, obtain and record an attribute and an index value set for the called sub-view object;

the first constructing subunit is used for constructing an information interface corresponding to the large-image display mode and amplifying the called sub-view object to the size under the large-image display mode according to the origin coordinate of the upper left corner of the sub-view and the width and height of the sub-view contained in the called sub-view object attribute; continuing to construct and sequentially amplifying the adjacent sub-view objects in the sub-view object group to the size and the relative position in the large-image display mode;

the first information matching and importing subunit is used for matching information contents according to the time stamp or the sequence number contained in the index value, directly extracting information contents corresponding to the called sub-view object and the adjacent sub-view object from a storage unit of the client or asking the server for the information contents corresponding to the called sub-view object and the adjacent sub-view object, and importing the information contents into the called sub-view object and the adjacent sub-view object;

and the first display subunit is used for returning the scroll view list to the information interface corresponding to the large-image display mode again according to the recorded attribute and index value of the called sub-view object and displaying the called sub-view object at the top after the adding of the sub-view object and the importing of the information content are continuously constructed.

7. The client according to any one of claims 2 to 4, further comprising a detection unit, configured to, when the multi-finger gesture touch event is a zoom-out gesture touch event in a large-image display mode, detect that a distance parameter of the zoom-out gesture touch event is smaller than a threshold value for triggering switching, and perform local zoom-out on the invoked sub-view object displayed by the sub-view display unit; when the distance parameter of the gesture touch event is detected to be smaller than the critical value for triggering switching, the switching triggering unit is informed;

the switching trigger unit is further used for triggering the switching from the large image display mode to the small image display mode;

the sub-view display unit is further configured to display the added called sub-view object and the imported information content corresponding to the called sub-view object in a top position of an information interface corresponding to a thumbnail display mode displayed by the interface display unit.

8. The client of claim 7, wherein the sub-view display unit further comprises: the system comprises a third acquisition subunit, a fourth acquisition subunit, a second construction subunit, a second information matching and importing subunit and a second display subunit; wherein,

the third acquiring subunit is configured to acquire the called sub-view object when the switching is triggered;

the fourth obtaining subunit is configured to, when the data pointer points to the position of the called sub-view object in the sub-view object group, obtain and record an attribute and an index value set for the called sub-view object;

the second construction subunit is used for constructing an information interface corresponding to the thumbnail display mode according to the origin coordinate of the upper left corner of the sub-view and the width and height of the sub-view contained in the called sub-view object attribute and reducing and returning the called sub-view object to the size under the thumbnail display mode; continuing to construct and sequentially reducing the adjacent sub-view objects in the sub-view object group to the size and the relative position in the small-image display mode;

the second information matching and importing subunit is configured to perform information content matching according to a timestamp or a sequence number included in the index value, directly extract or retrieve, from a storage unit of the client, information content corresponding to the called sub-view object and the adjacent sub-view object from the server, and import the information content into the called sub-view object and the adjacent sub-view object;

and the second display subunit is used for returning the scroll view list to the information interface corresponding to the thumbnail display mode again according to the recorded attribute and index value of the called sub-view object after the adding of the sub-view object and the importing of the information content are continuously constructed and finished, and the called sub-view object displayed at the top is located at the display position.

9. A method for changing a view display, the method comprising:

acquiring a multi-finger gesture touch event at a currently called child view object, and triggering the switching of a view list display mode between a small image display mode and a large image display mode;

and adding the called sub-view object and importing the information content corresponding to the called sub-view object in the information interface corresponding to the switched current view list display mode.

10. The method of claim 9, wherein after importing the information content corresponding to the called child view object, the method further comprises: and adding and importing the information content of the sub-view objects adjacent to the called sub-view object according to the arrangement sequence of the sub-view objects in the sub-view object group.

11. The method of claim 10, wherein triggering the view list display mode precedes switching between the small graph display mode and the large graph display mode, the method further comprising: and sequencing the information content according to the time sequence of the acquired information, and storing the incidence relation/corresponding relation between the information content and the sub-view object in the sub-view object group.

12. The method according to claim 10 or 11, wherein when the multi-finger gesture touch event is a zoom-in gesture touch event in the thumbnail display mode, the method further comprises:

detecting that the distance parameter of the touch event of the magnifying gesture is smaller than a critical value triggering switching, and locally magnifying the called sub-view object;

and when the distance parameter of the touch event of the magnification gesture is detected to be larger than the critical value for triggering switching, switching from a small image display mode to a large image display mode is triggered, adding the called sub-view object at the top position of the information interface corresponding to the large image display mode, and importing the information content corresponding to the called sub-view object.

13. The method according to claim 10 or 11, wherein when the multi-finger gesture touch event is a zoom-out gesture touch event in the large-image display mode, the method further comprises:

detecting that the distance parameter of the zooming-out gesture touch event is smaller than a critical value triggering switching, and locally zooming out the called sub-view object;

and when the distance parameter of the zooming-out gesture touch event is detected to be larger than the critical value for triggering switching, switching from a large image display mode to a small image display mode is triggered, adding the called sub-view object at the top position of the information interface corresponding to the small image display mode, and importing the information content corresponding to the called sub-view object.

14. A system for changing a view display, the system comprising: a server and a client according to claims 1-8; the server is used as an information source and is used for providing the information content required by the client under the condition of importing the information content corresponding to the called sub-view object to the client.