CN107885417A - Object localization method, device and computer-readable recording medium in virtual environment - Google Patents
Object localization method, device and computer-readable recording medium in virtual environment Download PDFInfo
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- CN107885417A CN107885417A CN201711073541.7A CN201711073541A CN107885417A CN 107885417 A CN107885417 A CN 107885417A CN 201711073541 A CN201711073541 A CN 201711073541A CN 107885417 A CN107885417 A CN 107885417A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
- G06F3/04883—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures for inputting data by handwriting, e.g. gesture or text
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0481—Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
- G06F3/04812—Interaction techniques based on cursor appearance or behaviour, e.g. being affected by the presence of displayed objects
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
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- User Interface Of Digital Computer (AREA)
Abstract
Present invention is disclosed the object localization method in a kind of virtual environment, device and computer-readable storage medium.Methods described includes:The location information of the control point stop acquisition control point according to corresponding to manipulation behavior during resource is shown is carried out by virtual environment;Show that the distribution of the page determines that target selectes scene in virtual environment according to control point and resource;The selected acquisition target of target in resource is carried out under target selectes scene according to the location information of control point;Control point is navigated in the target of itself residing regional extent association, complete automatic absorbing.The stop of control point, which reflects user and manipulated, to be intended to, the distribution reflection virtual environment of control point and resource shows the distribution situation of resource in the page, hence in so that the realization that target positions in virtual environment can manipulate intention with user and resource distribution situation is combined closely, improve virtual environment in target position accuracy, will not produce due to do not consider user manipulate be intended to and resource distribution situation caused by accuracy it is low the defects of.
Description
Technical field
The present invention relates to Computer Applied Technology field, object localization method, dress in more particularly to a kind of virtual environment
Put and computer-readable recording medium.
Background technology
The progress shown with virtual environment, the virtual environment obtained, which is shown in the page, deploys various resources, user
Can be by showing that the page triggers manipulation behavior in virtual environment, and then cause corresponding control point to be positioned to desired resource
On, this resource is the target for triggering target positioning according to manipulation behavior and determining.
For example, virtual environment shows that the manipulation element selected in the page, and virtual environment show the trip constructed by the page
The virtual role that control point finally stops in play scene, all it is the target that target positioning is triggered according to manipulation behavior and determined.
It is each resource distribution regional extent in advance that the realization of existing target positioning, which is, and each resource has associated by it
Regional extent.The regional extent finally stopped according to manipulation behavior come position this regional extent association resource be target.
This is the implementation process of target positioning in the ideal situation.Finally stopped by depending only on manipulation behavior
Regional extent, and corresponding user can not be perceived and manipulated and be intended to, it can not also be shown suitable for virtual environment various the page
Resource distribution situation.
Therefore, existing target position fixing process departs from manipulates intention and resource distribution situation in user, in turn results in
The low limitation of accuracy.
The content of the invention
Depart to solve the realization that target positions in correlation technique in user's manipulation intention and resource distribution situation, avoid
The low technical problem of the accuracy that thereby results in, the invention provides the object localization method in a kind of virtual environment, device
And computer-readable storage medium.
A kind of object localization method in virtual environment, methods described include:
In being shown by virtual environment and the resource carried out, the control point according to corresponding to manipulation behavior, which stops, to be obtained virtually
Environment shows the location information of control point in the page;
Show that the distribution of the page determines that target selectes scene in the virtual environment according to the control point and resource;
Target in the resource is carried out under the target selectes scene according to the location information of the control point is selected,
Obtain the target corresponding to the control point;
The control point is navigated in the target of itself residing regional extent association, complete the manipulation behavior described
Automatic absorbing in target.
A kind of target locating set in virtual environment, described device include:
Detecting module is stopped, used in being shown by virtual environment and the resource carried out, according to corresponding to manipulation behavior
Control point, which stops, obtains the location information that virtual environment shows control point in the page;
Scene determining module, for showing that the distribution of the page determines in the virtual environment according to the control point and resource
Target selectes scene;
Target chosen module, for the target select scene under according to the location information of the control point carry out described in
Target in resource is selected, and obtains the target corresponding to the control point;
Automatic absorbing module, for the control point to be navigated to the target of itself residing regional extent association, complete
Automatic absorbing of the manipulation behavior in the target.
A kind of target locating set in virtual environment, including:
Processor;And
Memory, computer-readable instruction is stored with the memory, the computer-readable instruction is by the processing
Device realizes the object localization method in virtual environment as described above when performing.
A kind of computer-readable recording medium, is stored thereon with computer program, and the computer program is held by processor
The object localization method in virtual environment as described above is realized during row.
The technical scheme that embodiments of the invention provide can include the following benefits:
In being shown by virtual environment and the resource carried out, the control point first according to corresponding to manipulation behavior, which stops, to be obtained
The location information that virtual environment shows control point in the page is obtained, shows that the distribution of the page is true in virtual environment by control point and resource
Set the goal selected scene, so as to which the target in resource is carried out under target selectes scene according to the location information of control point is selected,
The target corresponding to control point is obtained, control point is navigated to residing for this control point itself in the target of regional extent association, just
Automatic absorbing of the manipulation behavior in target is completed, during this, on the one hand, the stop of control point reflects user and manipulates meaning
Figure, on the other hand, the distribution of control point and resource also reflects virtual environment and show the distribution situation of resource in the page, therefore make
Obtaining the realization that target positions in virtual environment can combine closely with user's manipulation intention and resource distribution situation, it is possible to increase empty
The accuracy that target positions in near-ring border, enter and be intended to be made with resource distribution situation by not considering that user manipulates without producing
Into accuracy it is low the defects of.
It should be appreciated that the general description and following detailed description of the above are only exemplary, this can not be limited
Invention.
Brief description of the drawings
Accompanying drawing herein is merged in specification and forms the part of this specification, shows the implementation for meeting the present invention
Example, and in specification together for explaining principle of the invention.
Fig. 1 is a kind of block diagram of device according to an exemplary embodiment;
Fig. 2 is the flow chart of the object localization method in a kind of virtual environment according to an exemplary embodiment;
Fig. 3 is the flow chart that the details of step 230 is described for correspondingly being implemented to exemplify according to Fig. 2;
Fig. 4 is the flow chart that the details of step 230 is described for correspondingly being implemented to exemplify according to Fig. 2;
Fig. 5 is the flow chart that the details of step 250 is described for correspondingly being implemented to exemplify according to Fig. 2;
Fig. 6 is the flow chart that the details for the step 250 for correspondingly being implemented to exemplify according to Fig. 2 is described;
Fig. 7 is the flow chart that the details of step 210 is described for correspondingly being implemented to exemplify according to Fig. 2;
Fig. 8 is the schematic diagram that regional extent is overlapping between the enemy A according to an exemplary embodiment and enemy B;
Fig. 9 is the configuration that target associated by adsorption site according to an exemplary embodiment departs from scope and regional extent
Schematic diagram;
Figure 10 is correspondingly to implement the configuration target that exemplifies according to Fig. 8 to depart from after scope region model between enemy A and enemy B
Enclose overlapping schematic diagram;
Figure 11 is to show to aim at the quasi- heart according to an exemplary embodiment and stay in the virtual environment of blank position to show the page
Schematic diagram;
Figure 12 is that the virtual environment according to an exemplary embodiment shows quadrant distribution schematic diagram in the page;
Figure 13 is that optimization relevant with absorption in automatic aiming according to an exemplary embodiment realizes that framework shows
It is intended to;
Figure 14 is that schematic diagram is realized in the optimization related to manipulation behavior according to an exemplary embodiment;
Figure 15 is the realization of the optimization related to target disengaging scope of the adsorption range according to an exemplary embodiment
Schematic diagram;
Figure 16 is the block diagram of the target locating set in a kind of virtual environment according to an exemplary embodiment;
Figure 17 is the block diagram that the details of scene determining module is described for correspondingly being implemented to exemplify according to Figure 16;
Figure 18 is the block diagram that the details of scene determining module is described for correspondingly being implemented to exemplify according to Figure 16;
Figure 19 is the block diagram that the details of target chosen module is described for correspondingly being implemented to exemplify according to Figure 16;
Figure 20 is the block diagram that the details of target chosen module is described for correspondingly being implemented to exemplify according to Figure 16;
Figure 21 is according to the corresponding block diagrams that the details for stopping detecting module is described for implementing to exemplify of Figure 16.
Embodiment
Here explanation will be performed to exemplary embodiment in detail, its example is illustrated in the accompanying drawings.Following description is related to
During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represent same or analogous key element.Following exemplary embodiment
Described in embodiment do not represent and the consistent all embodiments of the present invention.On the contrary, they be only with it is such as appended
The example of the consistent apparatus and method of some aspects being described in detail in claims, of the invention.
In one exemplary embodiment, implementation environment involved in the present invention, including at least terminal used in user
Equipment.Terminal device can be desktop computer, notebook computer, smart mobile phone and tablet personal computer etc..
For terminal device during carrying out virtual environment and showing, it is virtual for expressing that virtual environment shows that the page is disposed
The resource of ambient Property, in addition, also there is control point, realize that virtual environment shows by manipulation of the user to control point
Show the movement of control point in the page, and the position that can be finally displaced into according to control point is responded and fed back, herein mistake
Cheng Zhong, just positioned by the target in virtual environment to determine that control point is initiated the position at final place after manipulation.
Fig. 1 is a kind of block diagram of device according to an exemplary embodiment.For example, device 100 can be shown in Fig. 1
Terminal device in implementation environment.
Reference picture 1, device 100 can include following one or more assemblies:Processing component 102, memory 104, power supply
Component 106, multimedia groupware 108, audio-frequency assembly 110, sensor cluster 114 and communication component 116.
The integrated operation of the usual control device 100 of processing component 102, such as communicated with display, call, data, phase
Operation that machine operates and record operation is associated etc..Processing component 102 can include one or more processors 118 to perform
Instruction, to complete all or part of step of following methods.In addition, processing component 102 can include one or more modules,
The interaction being easy between processing component 102 and other assemblies.For example, processing component 102 can include multi-media module, with convenient
Interaction between multimedia groupware 108 and processing component 102.
Memory 104 is configured as storing various types of data to support the operation in device 100.These data are shown
Example includes the instruction of any application program or method for operating on the device 100.Memory 104 can be by any kind of
Volatibility or non-volatile memory device or combinations thereof are realized, such as static RAM (Static Random
Access Memory, abbreviation SRAM), Electrically Erasable Read Only Memory (Electrically Erasable
Programmable Read-Only Memory, abbreviation EEPROM), Erasable Programmable Read Only Memory EPROM (Erasable
Programmable Read Only Memory, abbreviation EPROM), programmable read only memory (Programmable Red-
Only Memory, abbreviation PROM), read-only storage (Read-Only Memory, abbreviation ROM), magnetic memory, flash
Device, disk or CD.One or more modules are also stored with memory 104, one or more modules are configured to by this
One or more processors 118 perform, complete in any shown method of following Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and Fig. 7 to complete
Portion or part steps.
Power supply module 106 provides electric power for the various assemblies of device 100.Power supply module 106 can include power management system
System, one or more power supplys, and other components associated with generating, managing and distributing electric power for device 100.
Multimedia groupware 108 is included in the screen of one output interface of offer between described device 100 and user.One
In a little embodiments, screen can include liquid crystal display (Liquid Crystal Display, abbreviation LCD) and touch panel.
If screen includes touch panel, screen may be implemented as touch-screen, to receive the input signal from user.Touch panel
Including one or more touch sensors with the gesture on sensing touch, slip and touch panel.The touch sensor can be with
The not only border of sensing touch or sliding action, but also detect the duration related to the touch or slide and pressure
Power.Screen can also include display of organic electroluminescence (Organic Light Emitting Display, abbreviation OLED).
Audio-frequency assembly 110 is configured as output and/or input audio signal.For example, audio-frequency assembly 110 includes a Mike
Wind (Microphone, abbreviation MIC), when device 100 is in operator scheme, such as call model, logging mode and speech recognition mould
During formula, microphone is configured as receiving external audio signal.The audio signal received can be further stored in memory
104 or sent via communication component 116.In certain embodiments, audio-frequency assembly 110 also includes a loudspeaker, for exporting
Audio signal.
Sensor cluster 114 includes one or more sensors, and the state for providing various aspects for device 100 is commented
Estimate.For example, sensor cluster 114 can detect opening/closed mode of device 100, the relative positioning of component, sensor group
Part 114 can be changed with the position of 100 1 components of detection means 100 or device and the temperature change of device 100.At some
In embodiment, the sensor cluster 114 can also include Magnetic Sensor, pressure sensor or temperature sensor.
Communication component 116 is configured to facilitate the communication of wired or wireless way between device 100 and other equipment.Device
100 can access the wireless network based on communication standard, such as WiFi (WIreless-Fidelity, Wireless Fidelity).Show at one
In example property embodiment, communication component 116 receives broadcast singal or broadcast from external broadcasting management system via broadcast channel
Relevant information.In one exemplary embodiment, the communication component 116 also includes near-field communication (Near Field
Communication, abbreviation NFC) module, to promote junction service.For example, radio frequency identification (Radio can be based in NFC module
Frequency Identification, abbreviation RFID) technology, Infrared Data Association (Infrared Data
Association, abbreviation IrDA) technology, ultra wide band (Ultra Wideband, abbreviation UWB) technology, Bluetooth technology and other skills
Art is realized.
In the exemplary embodiment, device 100 can be by one or more application specific integrated circuit (Application
Specific Integrated Circuit, abbreviation ASIC), it is digital signal processor, digital signal processing appts, programmable
Logical device, field programmable gate array, controller, microcontroller, microprocessor or other electronic components are realized, for performing
Following methods.
Fig. 2 is the flow chart of the object localization method in a kind of virtual environment according to an exemplary embodiment.Should
Object localization method in virtual environment is applied to the terminal device of foregoing implementation environment, and the terminal device is in an exemplary reality
It can be device shown in Fig. 1 to apply in example.As shown in Fig. 2 the object localization method in the virtual environment, can be by terminal device
Perform, may comprise steps of.
In step 210, in being shown by virtual environment and the resource carried out, according to the control point corresponding to manipulation behavior
Stop and obtain the location information that virtual environment shows control point in the page.
Wherein, resource composition virtual environment shows the content body in the page, and virtual environment is substantially by resource construction
's.Resource can be virtual environment show the page in element or game load virtual environment display the page void
Intend role etc..The progress shown with virtual environment, it is laid in virtual environment and shows that the resource of the page carries out virtual environment and shown
Show, now, user can show in the page to virtual environment triggers manipulation behavior with resource in the lump existing control point, is manipulating
In the presence of behavior control point is moved.
In exemplary embodiment in the specific implementation, virtual environment is presented by animation form.With
The broadcasting of animation, the switching of each frame picture just realize the virtual environment of dynamic change.For example, played a game one in game, it is empty
Near-ring border is this presented cartoon picture of game of playing a game, and it is that dynamic change occurs with the process for game of playing a game.
Virtual environment shows that the page is then the page for carrying virtual environment, and in one exemplary embodiment, the virtual environment page will be
The page being embedded in application, further, the virtual environment page can also be the form of Webpage, herein without limit
It is fixed.
Manipulation behavior is used for the movement for controlling control point in virtual environment display interface, when the triggering with manipulation behavior is grasped
Control point is moved and short stay, target position fixing process will be now initiated, by the execution of target position fixing process
Control point finally can be by automatic absorbing to the target positioned, and then realizes the Intellisense of target corresponding to manipulation behavior,
Ensure the accuracy of manipulation behavior feedback.
The difference of input module is accessed according to terminal device, manipulation behavior is also different.For example, for configuring touch-control
For the smart mobile phone of screen, manipulation behavior can be slip gesture, and the manipulation behavior initiated by mouse can be dragged
Work is dropped, herein without limiting, any operation that can realize control point movement can all be used as manipulation behavior.
In one embodiment in the specific implementation, manipulation gesture is the slip gesture on Touch Screen, for automatic aiming
Class is played, and this manipulation gesture is the gesture during the quasi- heart of the equipment aiming such as mobile firearms, has certain direction trend.
Virtual environment shows that the location information of control point in the page have recorded control point and corresponding shifting during short stay occurs
Dynamic state.In one exemplary embodiment, virtual environment shows that the location information of control point in the page includes control point position,
Further, directional information can also be included, the directional information is used to indicate that control point is moved in the presence of manipulation behavior
Move corresponding direction.
By on control point manipulate behavior apply can with accordingly obtain virtual environment show the page in control point stop
Information.Herein it should also be noted that control point shows the movement of page progress under the triggering of manipulation behavior in virtual environment
It is comparatively, on the one hand, can be control point transfixion, and the background and deployment in the virtual environment display page
Resource moves integrally under the triggering of manipulation behavior so that control point seems moving, and is then manipulation behavior on the other hand
Directly act on control point so that control point is moved in virtual environment shows the page, herein without limiting, no matter manipulates row
To act on the page in itself or control point, it is provided to realize the mobile carried out of control point.
It should also remark additionally, the location information of control point, can correspond to the stop of control point generation, can also
Corresponding to manipulation behavior disappearance and control point implement release moment, herein without limit, can real-time perception control point shifting
Dynamic state and obtain the location information of control point, and then initiation target position fixing process promptly and accurately.
In step 230, show that the distribution of the page determines that target selectes scene in virtual environment according to control point and resource.
Wherein, control point and resource show that the distribution of the page, including virtual environment show resource in the page in virtual environment
Distribution, and the relative position relation between control point and resource.Therefore, page is shown in virtual environment by control point and resource
The distribution in face, the relative position relation between resource in the virtual environment display page can be obtained, for example, knowing that there is multiple
The resource to flock together, or know that resource is scattered in virtual environment and shows the page;It is and each in the virtual environment display page
Resource has the regional extent associated by it, the relative position relation between the control point obtained and resource, will indicate behaviour
Whether control point is in the regional extent associated by resource.For example, virtual environment show the page in, control point be in some or
Regional extent associated by certain several resource, or control point are not in the regional extent associated by any resource.
Therefore, control point shows the distribution of the page with resource in virtual environment, indicates virtual environment and shows in the page respectively
The distribution situation of kind resource, also indicate that control point stops corresponding page distribution situation, which constituted corresponding target choosing
Determine scene.
Signified target, refers to that control point is moved and then the money finally reached by the manipulation behavior triggered
Source.That is, target is the resource in the virtual environment display page.It is to show page by virtual environment that target, which selectes scene,
The distribution of resource and control point determines in face, and target selectes scene and corresponds to the optimization process that target is selected, different
Target, which selectes scene, to select optimization process using different targets.
It should be understood that during existing target positioning is realized in virtual environment, only it is to determine whether control point stays in
Regional extent, if staying in regional extent, the resource associated by this regional extent is the target of control point, but more
Kind target is selected under scene, this single processing mode and the target that can not accurately select control point.For example, multiple resources poly- one
When rising, control point is to stay in the regional extent associated by multiple resources, and now, multiple resources are all by as the mesh of control point
Mark, this is clearly irrational, it is necessary to identify the target of control point from multiple resources.
Therefore optimization process is selected, it is necessary to select scene according to different targets and perform different targets.At one
In the specific implementation of exemplary embodiment, the target that target is selected scene and included in close-in target handoff scenario and multiple resource is selected
Determine scene.
Specifically, close-in target handoff scenario is then got together, it is necessary to by control point by taking off corresponding to multiple resources
Fresh target is switched to from primary objective, primary objective and fresh target are the poly- multiple resources for belonging to and flocking together.
Target in multiple resource selectes scene, then is for manipulation in the multiple resources for being scattered in the virtual environment display page
The scene of point selected target, close-in target handoff scenario is different from, virtual environment shows multiple resources in the page, is point
It is distributed in multiple regions of the virtual environment display page.
Control point shows that the page stays in everywhere with moving for itself in virtual environment, now, by by control point
Stop and obtain control point and resource and show the distribution of the page in virtual environment, and then can thereby determine that current target is selected
Scene.
Thus, the target that can be then continued with selecting the determination of scene by target selectes optimization process, after guarantee
The distribution situation of current control point and resource can be adapted to by continuing the selected optimization process of performed target, and then ensure mesh
The selected accuracy of mark.
In step 250, the target in resource is carried out under target selectes scene according to the location information of control point is selected,
Obtain the target corresponding to control point.
Wherein, as previously described, control point can be obtained by the location information of control point and shows the page in virtual environment
Mobile status, and the location information of control point is caused by under the manipulation of user, and therefore, the location information of control point will be anti-
User is reflected and has manipulated and be intended to.For example, caused control point location information reflects control point in manipulation behavior by data
Mobile trend under effect, and then the target selected based on the location information of control point is consistent with this mobile trend,
And then accord with user and manipulate intention.
The execution of process is selected by target in resource, in the case where realization determines the selected scene of target from the mesh in multiple resource
Mark is selected, determines that virtual environment shows which resource the control point of short stay in the page is eventually settled in.
In step 270, control point is navigated in the target of itself residing regional extent association, completes manipulation behavior and exist
Automatic absorbing in target.
Wherein, can be with root after the selected target corresponding to control point and acquisition of target is realized by abovementioned steps
Finally realize that control point shows the stop of the page in virtual environment according to the target corresponding to control point.
Can be one or more first it should be noted that abovementioned steps obtain the target corresponding to control point,
And each target has the regional extent associated by itself, therefore will further confirm which regional extent control point is in,
It is determined that after regional extent residing for control point, the resource of this regional extent association is the target that control point finally stops.
So far for example, control point is pullled to target, and then void can make it that by manipulation point location to this target
Near-ring border shows that control point can realize that manipulation behavior is automatic in target via the positioning performed to control point on the page
Absorption, thus for user is in the manipulation that virtual environment shows that the page is carried out, it is not necessary to carry out fine manipulation process
Also control point can be moved in desired target, on the one hand saves manipulation cost, be on the other hand then limited to void
Even if accurate manipulation of the control point to target can not be realized it is also possible that control point in the case of the display screen size of near-ring border
The accuracy of user's manipulation on automatic absorbing to target, is improved, is advantageous to simplify manipulation process.
In exemplary embodiment in the specific implementation, regional extent is centered on a point in resource, by setting
Determine the border circular areas that radius is formed.
Above-mentioned example embodiment can apply to the various manipulation scenes that virtual environment shows the page, for example, one is virtual
In the menu page that environment is shown, after triggering manipulation behavior to control point, pass through exemplary embodiment as described above
Control point can manipulate according to user to be intended to and falls in desired target;An in another example automatic aiming class game virtual ring
In the page in border, each resource is present in as enemy role in the virtual scene of structure, and user is needed by control point
Manipulate and aim at enemy and realize shooting, in the process, by exemplary embodiment as described above and realize to enemy from
It is dynamic to aim at, game implementation process is greatly optimized, and then be able to be applied to the more difficult portable mobile terminal of manipulation, improve
Handling.
So far, all kinds of game applications for needing automatic aiming can be achieved by exemplary embodiment as described above, and
And effectively optimize the manipulation in game application.
Fig. 3 is the flow chart that the details of step 230 is described for correspondingly being implemented to exemplify according to Fig. 2.The step
230, as shown in figure 3, may comprise steps of.
In step 231a, according to the relative position relation between the regional extent of each resource associations and control point, it is determined that
Control point is not in the regional extent of any resource associations.
In step 233a, when the regional extent of any resource associations is not in control point, determine that target selectes scene
Scene is selected for the target of multiple resource.
Wherein, the relative position relation between the regional extent of each resource associations and control point, refer to control point with it is each
Relative position relation between regional extent associated by resource, closed on this basis to confirm whether control point is in resource
The regional extent of connection.
For all resources, the untreated associated regional extent in control point, then manipulated in the virtual environment display page
Point is away from all resources, so far can determine to be currently needed for showing all resources of the page away from control point from virtual environment
Middle selected target, this scene are that the target of multiple resource selectes scene.
That is, the target of multiple resource, which selectes scene, refers to that virtual environment shows the resource in the page not close to manipulation
Point, so far performed manipulation behavior also act on control point by not discharging, i.e. control point still provides for it and shown in virtual environment
Show the moving process on the page, will be that holding for optimization process is selected by target in the case where the target of multiple resource selectes scene therefore
Go and determine the target that manipulation behavior is inclined to, so as to be continued to move in the target that manipulation behavior is inclined to control point
The target for determining to eventually fall into release.
So far, it is selected to target to realize optimization, while accuracy is improved, treatment effeciency is also improved, and then most
Very high response speed is obtained eventually.
Fig. 4 is the flow chart that the details of step 230 is described for correspondingly being implemented to exemplify according to Fig. 2.The step
230, as shown in figure 4, may comprise steps of.
In step 231b, the regional extent according to residing for the regional extent of each resource associations determines control point itself, and
Control point corresponds to the prime area scope of initial target association in manipulation behavior.
In step 233b, when regional extent is with prime area overlapping ranges residing for control point itself, determine that target is selected
It is close-in target handoff scenario to determine scene.
Wherein, control point is before the manipulation behavior that is triggered, and in a resource, this resource is for being subsequently triggered
It is initial target for the control point of manipulation behavior, and the target then selected in the triggering with manipulation behavior, then it is behaviour
Control point departs from the fresh target that initial target is switched to.
The movement of control point is initiated with the triggering that behavior is manipulated in step 210, is moved in control point by initial target
To a regional extent, this regional extent is overlapping with the regional extent associated with initial target, at this point for mesh that will be performed
For the selected optimization process of mark, it is close-in target handoff scenario that current corresponding target, which selectes scene,.
Close-in target handoff scenario is used for the target handoff procedure for realizing that multiple resources focus on control point when together.Can
To understand, multiple resource clusterings together when, between each resource, associated regional extent is overlapping, is often occurred
The situation in multiple regional extents, this regional extent include the regional extent associated by initial target, entered simultaneously for control point
And there is the difficulty of target identification in the realization of prior art, target switches between also resulting in the resource being closely distributed
Have some setbacks it is even difficult.
Therefore, it will identify that this situation is selected to determine that current target selectes scene as the target in multiple resource, in order to
This situation is optimized, and then ensures the accurate and simplification of Object selection.
Fig. 5 is the flow chart that the details of step 250 is described for correspondingly being implemented to exemplify according to Fig. 2.Performing
After embodiment illustrated in fig. 3, in the execution of step 250, as shown in figure 5, may comprise steps of.
In step 251a, the target in multiple resource is selected under scene, is manipulated according to the location information of control point
Point position and directional information.
In step 253a, in the quadrant distribution that virtual environment shows that the page is configured by control point, according to control point
Position and directional information obtain the quadrant of manipulation behavior disposition, and the resource of the display of virtual environment shows the page according to virtual environment
In quadrant distribution and be placed in each quadrant.
In step 255a, it is placed in manipulation behavior and is inclined to the resource of quadrant and be chosen to be target corresponding to control point.
Wherein, after the target that the current target of the execution determination by step 230 is chosen to be in multiple resource is selected, i.e.,
It can perform the target that the target in this multiple resource is selected corresponding to scene and select optimization process.
Implementation process shown in step 251a to step 255a is that the target that the target in multiple resource is selected under scene is selected
Determine optimization process.
As previously described, the location information of control point describes the mobile status of control point, therefore, can be stopped by control point
Information extraction is stayed to obtain control point position and directional information.Directional information indicates the direction of control point movement, and then can be
The tendentious auxiliary information of selected offer of target, specifically, by indicate control point movement carry out tend to be moved to
Which region of resource distribution, and then can quickly determine that the resource that this region is distributed is likely to become the most under auxiliary herein
The target of control point.
Quadrant refers to that virtual environment shows the region divided in the page, and then causes virtual environment to show the page by several
Region forms, corresponding, is distributed in virtual environment and shows that the configuration being distributed with quadrant is distributed by the resource of the page
In different quadrants.
In one exemplary embodiment, can by virtual environment show the page build in advance coordinate system realization as
Limit the configuration of distribution.Specifically, quadrant is drawn by the x coordinate axle in coordinate system and y-coordinate axle in virtual environment shows the page
Get.In exemplary embodiment in the specific implementation, the origin using control point position as coordinate system is carried out into coordinate
Tie up to virtual environment show the page in quadrant division, with obtain virtual environment show the page in quadrant be distributed, thus for
Follow-up control point is moved to for the tendentiousness judgement of which kind of quadrant, is beneficial to improve accuracy, is avoided the occurrence of according to sensing
Information can not understand the limitation for obtaining be inclined to quadrant.
It should be appreciated that the quadrant pointed by directional information is the quadrant for manipulating behavior disposition, and it is distributed in this quadrant
Resource is become as the target corresponding to control point.Now, for control point, will continue to move in the presence of manipulation behavior
It is dynamic, and the possibility for being moved to the quadrant of manipulation behavior disposition is very high, a certain resource associations in mobile so far quadrant
During regional extent, you can it is exactly the final target selected to think this resource.
It should remark additionally herein, be distributed configuration for the quadrant carried out by control point, can carry out in advance
, unified quadrant distribution is pre-configured with virtual environment shows the page, can also dynamically be matched somebody with somebody with the movement of control point
Put, and then ensure the accuracy of the quadrant of institute's acquired tendency, herein without limiting.
, can in the case where virtual environment shows the scattered numerous resources of distribution of the page by this exemplary embodiment
Fast simple realizes that target positions, and while improving efficiency, also causes accuracy to obtain very big raising.
In another exemplary embodiment, the object localization method in the virtual environment, implementation shown in Fig. 3 is being performed
After example, before step 250, it can also comprise the following steps.
Judge whether manipulation behavior shakes on the display screen of virtual environment, if YES, then terminate manipulation row
For target select, if NO, then perform step 250.
Wherein, it is that the realization that target positions in virtual environment is configured with stabilization mechanism, it is activated in stabilization mechanism
Afterwards, it will pass through whether manipulation behavior occurs shake to confirm the validity of manipulation behavior.If manipulation behavior is shaken,
The manipulation behavior for illustrating currently to trigger control point is invalid, for example, it may be possible to be the maloperation to the triggering of this control point,
Target for terminating manipulation behavior is selected in the case of this, to save the follow-up required calculation resources expended.
If manipulation behavior do not shake, illustrate currently to control point triggering manipulation behavior be it is effective, really
Surely it is that control point is moved to expectation target and triggered by user, therefore, step 250 can be performed and carry out corresponding target choosing
Determine optimization process, and then complete the selected of target, finally control point is adsorbed by target, control point is positioned automatically to institute
In desired target.
In one exemplary embodiment, weigh manipulation behavior shake whether occurs on the display screen of virtual environment can
To use the index gathered to manipulation behavior, quickly and accurately to determine whether manipulation behavior is sent out under the auxiliary of institute's acquisition index
Shake is given birth to.
For example, the index gathered can be the frequency of manipulation behavior on the display screen.Accordingly, obtain and manipulation is gone
For the manipulation frequency gathered, judge whether this manipulation frequency exceeds default frequency threshold, if NO, then trigger step
250 execution, if YES, the then target for terminating manipulation behavior are selected.
Default frequency threshold can be 100 pixels/second.Whether default frequency threshold is used to occur as manipulation behavior
The critical point of shake.
When user catches display screen, slight shake is often lost control of, and such shake can influence target
It is selected, for example, causing subsequently to determine rocking or judging by accident for the quadrant of manipulation behavior disposition, and pass through this exemplary embodiment
Realizing the judgement of shake will effectively avoid this type of circumstances from happening, and the selected validity of succeeding target is greatly improved.
Fig. 6 is the flow chart that the details for the step 250 for correspondingly being implemented to exemplify according to Fig. 2 is described.Performing Fig. 3
After illustrated embodiment, step 250 is as shown in fig. 6, may comprise steps of.
In step 251b, under close-in target handoff scenario, control point position is obtained according to the location information of control point
Put.
Wherein, as previously described, under close-in target handoff scenario, multiple resource clusterings together, associated region
Scope is overlapped, and the resource in the initial target where control point before manipulation behavior is triggered for aggregation.
The manipulation behavior being triggered for control point under close-in target handoff scenario, as control point is from initial target
When departing from and moving to overlapping region, the manipulation behavior that is applied on control point can discharge, and can continue to perform control point
Dragging, no matter which kind of manipulates process, all can be in the presence of target corresponding to close-in target handoff scenario selectes optimization process
The easily quick target switching realized closely, and avoiding the occurrence of needs the initial target side of disengaging at a distance to move again
To the situation for the fresh target being closely distributed with initial target.
In step 253b, judge whether control point position is in and depart from model with the target configured in the scope of prime area
Enclose, if YES, then do not process, if NO, then perform step 255b.
Wherein, in the target corresponding to close-in target handoff scenario selectes optimization process, it is associated with the region of resource
Scope is configured with target and departs from scope.Target departs from scope and is less than regional extent, and regional extent is only as correlated resources to manipulation
The adsorption range of point, and target departs from scope and is in inside regional extent, target departs from scope and departs from association money as control point
The disengaging scope in source.
Specifically, for the resource where control point, with the triggering of manipulation behavior, control point is moved,
In this moving process, once the target that control point is moved out of this resource associations departs from scope, then mean control point no longer by this
Resource is adsorbed, and thus resource switch comes out.
Here, the setting control point for departing from scope and regional extent by target can take off easily from initial target
From, i.e., removed once departing from scope from target, although being still within regional extent, i.e., the exterior domain model between target disengaging scope
Within enclosing, but by being from the control point that target disengaging scope is removed, therefore limitation general of the regional extent to this control point
It is invalid, is not compromised by currently being still within still being adsorbed by original resource in regional extent.
If control point position is still within departing from scope with the target configured in the scope of prime area, currently to manipulation
Although the manipulation of point corresponds to a moving process, once control point is released and is back in the resource of association, and not
The switching of target occurs.
In step 255b, determine whether control point position whether in other regions with prime area overlapping ranges
Scope, if YES, then step 257b is performed, if NO, is not then processed.
Wherein, first it should be noted that prime area scope refers to the regional extent for being associated with control point initial target.
Close-in target handoff scenario is to realize that control point is switched to the process of fresh target by an initial target.
If control point position departs from outside scope in target, under close-in target handoff scenario, will enter
One step judges whether control point position is in overlapping region, and this overlapping region is that other regional extents occur with prime area scope
Corresponding to overlapping.
Control point in overlapping region, initial target associated region scope is on the one hand still within, is on the other hand also located
In the regional extent of other resource associations, closely it is distributed in this initial target and other resources.
With other regional extents of prime area overlapping ranges, the as region with prime area scope composition overlapping region
Scope, this regional extent are associated with the resource being closely distributed with initial target.
In one embodiment in the specific implementation, if control point position is in overlapping region, it is determined that this overlapping region
Involved other regional extents in addition to the scope of prime area, identified other regional extents are residing for control point
Other regional extents with prime area overlapping ranges.
In step 257b, the resource for selecting other regional extent associations is the target corresponding to control point.
Wherein, other regional extents of overlapping region are formed with prime area scope, associated resource will be used as to manipulation
The adsorption range of point, this resource are the target corresponding to control point.
By this exemplary embodiment, the target realized closely for control point switches, and page is shown for virtual environment
The close distance of distance on face, to carry out the switching between two targets being closely distributed for control point, then less than first
The target of beginning target area scope departs under scope effect, because control point has had been moved off the mesh in the scope of initial target region
Mark departs from scope, therefore can be naturally by another resource, i.e. regional extent and the money of this initial target region overlapping ranges
Source is adsorbed, for a user, it is only necessary to the switching slided display screen can and complete target gently.
Fig. 7 is the flow chart that the details of step 210 is described for correspondingly being implemented to exemplify according to Fig. 2.Show at one
In example property embodiment, the virtual environment of display is automatic aiming class game virtual environment, and resource is automatic aiming class game virtual
The virtual role of projection can be aimed in environment.
The step 210, as shown in fig. 7, may comprise steps of.
In step 211, during the virtual environment of automatic aiming class game is shown, the virtual role of configuration is shown in virtually
Environment shows the page, and control point is adsorbed and be placed on virtual role or be placed in the virtual environment and show page by initial target
The other positions of virtual role are different from face.
Wherein, the game of automatic aiming class refers in the manipulation of game picture as the triggering of manipulation behavior can grasp this
The control point that control behavior the is acted on game of automatic absorbing on a virtual role when manipulation behavior discharges.For example, from
Dynamic aiming class game can be the shooting game for being capable of automatic aiming goal, corresponding, and virtual role is to exist
The enemy that can be shot in visual angle.
Virtual environment shows that the page is the picture presentation in user perspective, and before manipulation behavior is triggered, manipulation
Point is attracted on a virtual role, can also be placed in an initial position, can also freely be manipulated by user and be placed in difference
In the other positions of virtual role.
In one exemplary embodiment, virtual role is often configured with the adsorption site more than one or two, with right
Presence of the control point on virtual role carries out process of refinement, and for its realization in the game of automatic aiming class and
Speech, the accurate aiming of any part on virtual role can be carried out, and then cause control point to be finally aimed positioning to virtual angle
The concrete position of color, it ensure that the uniformity between aiming process and final laying positioning.
Now, for foregoing signified target, on the adsorption site that will be configured specific to virtual role, each adsorption site is all
The regional extent of association.
Certainly, for foregoing signified resource, the regional extent of its associated configuration, and the mesh in regional extent
Mark departs from scope, substantially and with the datum mark in resource realizes, here, this datum mark i.e. adsorption site.
In step 213, the manipulation behavior to control point triggering is tracked, control point is departed from by initial target and is placed in initial
The target of target departs from outside scope, or the other positions by being different from virtual role be moved after obtain virtual environment and show
Show the location information of control point in the page.
Wherein, in automatic aiming game, user does not trigger any manipulation behavior in this way, then control point is to stay in one to consolidate
What positioning was put, i.e., on foregoing signified initial target, or it is different from the other positions of virtual role.
As control point is triggered manipulation behavior, the position according to where control point, there is two kinds of moving process.It is a kind of
The target that moving process, which is control point, to be departed from by initial target and be placed in initial target departs from outside scope, i.e., this, control point and
Initial target departs from;Another moving process is then to be carried out by being different from the other positions of virtual role in the picture display page
It is mobile.
No matter which kind of moving process, all change in location occurring for control point, and this moving process is there is directionality,
Therefore, the location information of control point in the virtual environment display page can will be got.
It should be understood that the acquisition of control point location information, can be obtained when manipulation behavior discharges, also can be in moving process
Central acquisition, and when being not limited in manipulation behavior and being released.Corresponding, the location information of control point, it can indicate
Mobile status when itself being released, can be used for indicating its in moving process by way of position and directional information.
It follows that select the determination of scene for succeeding target and respective objects select the execution of optimization process, can be with
Triggering is carried out after manipulation behavior is released, and can also carry out in the trigger process of manipulation behavior, thus, possess very high
Flexibility, can timely and effectively realize optimization.
It is as described above with reference to the realization in this game application, description by taking the shooting game application of an automatic aiming as an example
Method.It should illustrate first, the shooting game of automatic aiming is applied realizes user to enemy's under user perspective
Aimed fire, and existing control point is the corresponding quasi- hearts of aiming of equipment such as user's manipulation firearms.
The shooting game application as FPS of this automatic aiming plays, and is realized by the exemplary embodiment of the present invention
The absorption optimization of automatic aiming.Wherein, automatic aiming refers to the aiming for not needing user's control, when firearms of user etc. equip it
When the quasi- heart is aimed at close to enemy's certain limit, the quasi- heart can will be aimed at automatically and pull adsorption site on this enemy.
In oneainstance, user is not manipulated under the original state of firearms, is aimed at the quasi- heart and is stayed in enemy A is configured one
On individual adsorption site, that is to say, that user is aimed at enemy A before this.
Now, user it is expected to aim at enemy B, will aim at the quasi- heart and switch to enemy B by enemy A.Enemy A and enemy B
Between closer to the distance, the regional extent weight that the prime area scope on enemy A associated by adsorption site associates with adsorption site on enemy B
It is folded.
Fig. 8 is the schematic diagram that regional extent is overlapping between the enemy A according to an exemplary embodiment and enemy B.Enemy
Adsorption site 410 on people A is associated with regional extent 430, and the adsorption site 450 on enemy B is associated with regional extent 470, and area
Domain scope 430 and regional extent 470 are overlapped, form overlapping region 490.
Regional extent 430 is the prime area scope of control point, and overlapping region 490 is substantially the overlapping absorption of Bi-objective
Scope.
This situation is close-in target handoff scenario, is due to that more enemies flock together and caused.Existing skill
During art is realized, the regional extent that the quasi- heart is fallen into that aims at being released is closed for determining that the quasi- heart of aiming will fall in this regional extent
On the adsorption site of connection.And for the dragged quasi- heart of aiming gone out from an adsorption site, can be real once departing from this regional extent
The quasi- heart is now aimed at associating the disengaging of adsorption site.
That is, regional extent is adsorption range of the associated adsorption site to control point, and target departs from scope, inhales
It is unified set that attached scope and target, which depart from scope,.
But during specific aim at, if necessary to carry out target switching between enemy A and enemy B, for
It is triggered manipulation behavior, it is necessary to manipulate firearms so that aiming at the quasi- heart for family, the quasi- heart is aimed to enemy B by manipulating Behavior- Based control
It is mobile.In this moving process, the overlapping region between regional extent 430 and regional extent 470 will be passed through by aiming at the quasi- heart
490.When the quasi- heart of aiming enters overlapping region 490, aim at the quasi- heart and also enter the region on sub- enemy B associated by adsorption site 450
Scope 470, but still the regional extent 430 on enemy A associated by adsorption site 410, therefore aim at the quasi- heart and be not able to and enemy A
Depart from, causing the target selection of control point, there is difficulty, it is impossible to the adsorption site 450 smoothly switched on enemy B.
And in the present example embodiment, Fig. 9 be adsorption site according to an exemplary embodiment associated by target take off
From scope and the configuration schematic diagram of regional extent.For an adsorption site, associated adsorption range, i.e., foregoing signified area
Inside the scope of domain, it is configured with target and departs from scope.
Regional extent is only used for weighing and will be adsorbed to by the quasi- heart of aiming of outside entrance on the adsorption site of association, and for
For entering the quasi- heart of aiming of this regional extent by target disengaging scope, regional extent will not possess validity, will will not aim at
The quasi- heart is limited to the adsorption site of association.
Adsorption range and target are departed from into scope to be separated, switched in the foregoing quasi- heart of aiming by the adsorption site on enemy A
The process of adsorption site on enemy B, as shown in Figure 10.
Figure 10 is correspondingly to implement the configuration target that exemplifies according to Fig. 8 to depart from after scope region model between enemy A and enemy B
Enclose overlapping schematic diagram.
On the basis of Fig. 8, to depart from scope because there is provided the target for being different from adsorption range, therefore, as shown in Figure 10
, even if overlapping between regional extent 433 and regional extent 473, remain able to depart from scope in target by aiming at the quasi- heart
431 removal simultaneously enters overlapping region 490 and confirms that the quasi- heart of aiming enters regional extent 473 by outside, therefore, regional extent
Adsorption site 450 associated by 470 on enemy B is become to aim at the target of the quasi- heart, is aimed at the quasi- heart after manipulation behavior release and is pullled
Adsorption site 450 on to enemy B.
And in another scenario, user is not manipulated under the original state of firearms, is aimed at the quasi- heart and is stayed in virtual environment and shows
Show the other positions that virtual role is different from the page.
Figure 11 is to show to aim at the quasi- heart according to an exemplary embodiment and stay in the virtual environment of blank position to show the page
Schematic diagram.In this virtual environment shows the page 510, aim at the quasi- heart and be not on any adsorption site, and there is adsorption site
550 and adsorption site 570.
As previously described, adsorption site 550 and adsorption site 570 have all been respectively associated regional extent and less than this regional extents
Target depart from scope.
In the virtual environment shown in Figure 11 shows the page, the enemy for corresponding respectively to adsorption site 550 and adsorption site 570 is equal
In the visual field of player, the quasi- heart of enemy's range sight where adsorption site 550 is nearer, and the enemy where adsorption site 570
Farther out, two adsorption sites and the accurate angle being formed centrally of aiming are respectively θ and β to the quasi- heart of range sight, and θ is less than β.
Existing technology realization in, often chosen distance closer to adsorption site, when the quasi- heart of the range sight of adsorption site 550
Closer to when, this adsorption site 550 can be more likely to by aiming at the absorption of the quasi- heart.
However, for a user, although it is relatively near apart from adsorbable point 550 to aim at the quasi- heart, be sighting range in fact compared with
Remote adsorption site 570, now, due to being adsorbed to adsorption site 550, so needing larger cost will to aim at the quasi- heart
Adsorption site 570 is transferred to from adsorption site 550, can not smoothly be switched to the target desired by oneself.
Herein by the embodiment shown in the present invention, this situation is that the target in multiple resource selectes scene, in this multiple resource
In target select under scene, will first obtain and aim at quasi- heart position and directional information, to be shown based on this in virtual environment
In the page quadrant distribution is configured to aim at the quasi- heart.
Figure 12 is that the virtual environment according to an exemplary embodiment shows quadrant distribution schematic diagram in the page.Virtual
In the environment page 610, first quartile and the second quadrant are divided into based on the quasi- heart 630 is aimed at, thus will cause existing void
Intend role and be respectively disposed in first quartile and the second quadrant.
For the manipulation of user, screen is slided towards different directions, the position for aiming at the quasi- heart can be changed.And
Towards direction so that aim at the quasi- heart and be towards what the enemy in this direction launched a offensive.
According to directional information, if first quartile is tended in direction corresponding to user's manipulation, aim at the quasi- heart and be intended to
The virtual role being distributed in first quartile, the target of attack finally positioned is placed in the virtual role in first quartile, by
This it also avoid the defects of prior art realization.
In summary, the present invention is provided in automatic aiming for the realization that target in the shooting game of automatic aiming positions
The optimization relevant with absorption.Figure 13 is the reality of optimization relevant with absorption in automatic aiming according to an exemplary embodiment
Existing configuration diagram.
As shown in fig. 13 that, optimization relevant with absorption in automatic aiming generally comprises two aspects, is on the one hand and manipulation
On the other hand 710 parts of the related optimization of behavior, the i.e. choosing of institute's frame are then adsorption ranges departs from related excellent of scope to target
Change, i.e. 730 parts of institute's frame choosing.
The absorption of optimization automatic aiming jointly in the presence of 710 parts and 730 parts so that target positioning is more simple
It is single.
Specifically, for the optimization related to manipulation behavior, the optimization of target selection in multiple resource, Tu14Shi are realized
Schematic diagram is realized in the optimization related to manipulation behavior according to an exemplary embodiment.For in automatic aiming with manipulation
The execution of the relevant absorption optimization of behavior, includes the execution of two big steps first, when the differentiation of screen quadrant, i.e. step 711, two
It is the introducing that user manipulates behavior, i.e. step 713.
So far, just it is determined that virtual environment shows that quadrant where each virtual role in the page, and user manipulate behavior
Corresponding sensing, that is, aim at the signified direction of the quasi- heart.
In the case, it is confirmed whether to shake by performing step 715, if do not shaken, performs
Step 717, the set direction tendency absorption quadrant signified according to the quasi- heart is aimed at, the absorption present in this quadrant on virtual role
Point is to aim at target corresponding to the quasi- heart, and then selects the target affinity in tendency absorption quadrant, specific such as step 717 to step
719 implementation procedure.
Figure 15 is the realization of the optimization related to target disengaging scope of the adsorption range according to an exemplary embodiment
Schematic diagram.
Depart from scope in adsorption range and target to be separated, and target departs from scope and is less than under the optimization of adsorption range, it is right
For multiple closely existing virtual roles, the switching between target can be accurately realized, user is easily by a virtual angle
Color is aimed to another closely existing virtual role, the obstacle in manipulation no longer be present.
Thus, the selection of automatic aiming is optimized by realizing as described above so that user can be more freely
Switch between multiple adsorption sites, in game the selection of automatic aiming become simple, optimization user manipulates to game, particularly firearms
Deng the feel of equipment manipulation
Following is apparatus of the present invention embodiment, can be used for performing the object localization method in the above-mentioned virtual environment of the present invention
Embodiment.For the details not disclosed in apparatus of the present invention embodiment, it refer to the present invention and realize that the target in virtual environment is determined
Position embodiment of the method.
Figure 16 is the block diagram of the target locating set in a kind of virtual environment according to an exemplary embodiment.The void
Target locating set in near-ring border, as shown in figure 16, it can include but is not limited to:Stop detecting module 910, scene determines mould
Block 930, target chosen module 950 and automatic absorbing module 970.
Detecting module 910 is stopped, used in being shown by virtual environment and the resource carried out, according to corresponding to manipulation behavior
Control point stop obtain virtual environment show the page in control point location information.
Scene determining module 930, for showing that the distribution of the page determines target in virtual environment according to control point and resource
Selected scene.
Target chosen module 950, for being carried out under selecting scene in target according to the location information of control point in resource
Target is selected, and obtains the target corresponding to control point.
Automatic absorbing module 970, for control point to be navigated to the target of itself residing regional extent association, complete behaviour
Automatic absorbing of the control behavior in target.
Figure 17 is the block diagram that the details of scene determining module is described for correspondingly being implemented to exemplify according to Figure 16.This
Scape determining module 930, as shown in figure 17, it can include but is not limited to:Relative position determining unit 931a and scene obtaining unit
933a。
Relative position determining unit 931a, for the relative position between the regional extent according to each resource associations and control point
Relation is put, determines that control point is not in the regional extent of any resource associations.
Scene obtaining unit 933a, during regional extent for being not in any resource associations in control point, determine target
Selected scene is that the target in multiple resource selectes scene.
Figure 18 is the block diagram that the details of scene determining module is described for correspondingly being implemented to exemplify according to Figure 16.This
Scape determining module 930, as shown in figure 18, it can include but is not limited to:Regional extent determining unit 931b and handoff scenario obtain
Unit 933b.
Regional extent determining unit 931b, for area residing for determining control point itself according to the regional extent of each resource associations
Control point corresponds to the prime area scope of initial target association in domain scope, and manipulation behavior.
Handoff scenario obtaining unit 933b, in regional extent residing for control point itself and prime area overlapping ranges
When, it is close-in target handoff scenario to determine that target selectes scene.
Figure 19 is the block diagram that the details of target chosen module is described for correspondingly being implemented to exemplify according to Figure 16.The mesh
Chosen module 950 is marked, as shown in figure 19, can be included but is not limited to:Information obtainment unit 951a, tendency quadrant obtaining unit
953a and target obtaining unit 955a.
Information obtainment unit 951a, selected for the target in multiple resource under scene, according to the location information of control point
Obtain control point position and directional information.
Quadrant obtaining unit 953a is inclined to, for showing that the quadrant that the page is configured by control point is distributed in virtual environment
In, the quadrant of manipulation behavior disposition is obtained according to control point position and directional information, the resource that virtual environment is shown is according to virtual
Environment shows the quadrant distribution in the page and is placed in each quadrant.
Target obtaining unit 955a, the resource that quadrant is inclined to for being placed in manipulation behavior are chosen to be corresponding to control point
Target.
In one exemplary embodiment, the target locating set in virtual environment as described above also includes shake judgement
Module.The shake judge module is used to judge whether manipulation behavior shakes on the display screen of virtual environment, if
It is that the target for then terminating manipulation behavior is selected, if NO, then triggers target chosen module 950.
Figure 20 is the block diagram that the details of target chosen module is described for correspondingly being implemented to exemplify according to Figure 16.The mesh
Chosen module is marked, as shown in figure 20, can be included but is not limited to:Position obtaining unit 951b, target depart from judging unit 953b
With overlapping judging unit 955b.
Position obtaining unit 951b, under close-in target handoff scenario, being obtained according to the location information of control point
Control point position.
Target departs from judging unit 953b, for judging whether control point position is in the scope of prime area the mesh configured
Mark departs from scope, if NO, then triggers overlapping judging unit 955b, if YES, does not then process.
Overlapping judging unit 955b, for determining whether control point position is in and prime area overlapping ranges
Other regional extents, if YES, the then resource for selecting other regional extent associations are the target corresponding to the control point, such as
Fruit is no, then does not process.
Figure 21 is according to the corresponding block diagrams that the details for stopping detecting module is described for implementing to exemplify of Figure 16.It is aobvious
The virtual environment shown is automatic aiming class game virtual environment, and resource is that can be taken aim in automatic aiming class game virtual environment
The virtual role of quasi- projection;The stop detecting module 910, as shown in figure 21, it can include but is not limited to:Initial display unit
911 and behavior tracking unit 913.
Initial display unit 911, during the virtual environment for the game of automatic aiming class is shown, the virtual role of configuration is shown
It is shown in virtual environment and shows the page, and control point is adsorbed and be placed on virtual role or be placed in virtual environment and show by initial target
Show the other positions that virtual role is different from the page.
Behavior tracking unit 913, for track to control point triggering manipulation behavior, control point by initial target depart from and
The target for being placed in initial target departs from outside scope, or the other positions by being different from virtual role be moved after obtain it is empty
Near-ring border shows the location information of control point in the page.
Optionally, the present invention also provides a kind of terminal, performs any shown void of Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6 and Fig. 7
The all or part of step of object localization method in near-ring border.Described device includes:
Processor;
For storing the memory of processor-executable instruction;
Wherein, the processor is configured as performing:
In being shown by virtual environment and the resource carried out, the control point according to corresponding to manipulation behavior, which stops, to be obtained virtually
Environment shows the location information of control point in the page;
Show that the distribution of the page determines that target selectes scene in the virtual environment according to the control point and resource;
Target in the resource is carried out under the target selectes scene according to the location information of the control point is selected,
Obtain the target corresponding to the control point;
The control point is navigated in the target of itself residing regional extent association, complete the manipulation behavior described
Automatic absorbing in target.
In the exemplary embodiment, a kind of storage medium is additionally provided, the storage medium is computer-readable recording medium,
Such as can be the provisional and non-transitorycomputer readable storage medium for including instruction.The storage, which is situated between, to be referred to for example including instruction
Memory 104, above-mentioned instruction can be performed by the processor 118 of device 100 with complete the target in above-mentioned virtual environment positioning
Method.
It should be appreciated that the invention is not limited in the precision architecture for being described above and being shown in the drawings, and
And various modifications and changes can be being performed without departing from the scope.The scope of the present invention is only limited by appended claim.
Claims (16)
1. the object localization method in a kind of virtual environment, it is characterised in that methods described includes:
In being shown by virtual environment and the resource carried out, the control point according to corresponding to manipulation behavior, which stops, obtains virtual environment
Show the location information of control point in the page;
Show that the distribution of the page determines that target selectes scene in the virtual environment according to the control point and resource;
Target in the resource is carried out under the target selectes scene according to the location information of the control point is selected, and is obtained
Corresponding to the target of the control point;
The control point is navigated in the target of itself residing regional extent association, complete the manipulation behavior in the target
On automatic absorbing.
2. according to the method for claim 1, it is characterised in that it is described according to the control point and resource in the virtual ring
Border shows that the distribution of the page determines that target selectes scene, including:
According to the relative position relation between the regional extent of each resource associations and the control point, determine that the control point is not located
In the regional extent of any resource associations;
When being not in the regional extent of any resource associations in the control point, it is in multiple resource to determine that the target selectes scene
Target select scene.
3. according to the method for claim 1, it is characterised in that it is described according to the control point and resource in the virtual ring
Border shows that the distribution of the page determines that target selectes scene, including:
In the regional extent according to residing for the regional extent of each resource associations determines the control point itself, and the manipulation behavior
The control point corresponds to the prime area scope of initial target association;
When regional extent is with the prime area overlapping ranges residing for the control point itself, determine that the target selectes scene
For close-in target handoff scenario.
4. according to the method for claim 2, it is characterised in that it is described the target select scene under according to the manipulation
The target that the location information of point is carried out in the resource is selected, and obtains the target corresponding to the control point, including:
Target in the multiple resource is selected under scene, is obtained control point position according to the location information of the control point and is referred to
To information;
The virtual environment show the page configured by the control point quadrant distribution in, according to the control point position with
Directional information obtains the quadrant of the manipulation behavior disposition, and the resource that the virtual environment is shown shows the page according to virtual environment
In quadrant distribution and be placed in each quadrant;
It is placed in the resource that quadrant is inclined in the manipulation behavior and is chosen to be target corresponding to the control point.
5. according to the method for claim 2, it is characterised in that it is described the target select scene under according to control point
The target that location information is carried out in the resource is selected, and before obtaining the target corresponding to the control point, methods described is also wrapped
Include:
Judge whether the manipulation behavior shakes on the display screen of the virtual environment, if YES, then terminate institute
The target for stating manipulation behavior is selected, if NO, then
The target performed in the resource is carried out under the target selectes scene according to the location information of control point is selected, and is obtained
Corresponding to the control point target the step of.
6. according to the method for claim 3, it is characterised in that it is described the target select scene under according to the manipulation
The target that the location information of point is carried out in the resource is selected, and obtains the target corresponding to the control point, including:
Under the close-in target handoff scenario, control point position is obtained according to the location information of the control point;
Judge whether the control point position is in the prime area scope target configured and departs from scope, if NO,
Then determine whether the control point position is in other regional extents with the prime area overlapping ranges, if
It is that then the resource of selected other regional extent associations is the target corresponding to the control point.
7. according to the method for claim 2, it is characterised in that the virtual environment of display is that the game of automatic aiming class is empty
Near-ring border, the resource are that the virtual role of projection can be aimed in the automatic aiming class game virtual environment;
It is described to be shown by virtual environment and the resource carried out, the control point according to corresponding to the manipulation behavior stop obtain it is virtual
Environment shows the location information of control point in the page, including:
During the virtual environment of automatic aiming class game is shown, the virtual role of configuration is shown in the virtual environment and shows page
Face, and the control point is adsorbed and be placed on virtual role or be placed in the virtual environment and show area in the page by initial target
Not in the other positions of virtual role;
The manipulation behavior to control point triggering is tracked, the control point is departed from by the initial target and is placed in described initial
The target of target departs from outside scope, or the other positions by being different from virtual role be moved after obtain virtual environment and show
Show the location information of control point in the page.
8. the target locating set in a kind of virtual environment, it is characterised in that described device includes:
Stop detecting module, for by virtual environment and in the display that carries out, the control point according to corresponding to manipulation behavior is stopped
Stay and obtain the location information that virtual environment shows control point in the page;
Scene determining module, for showing that the distribution of the page determines target in the virtual environment according to the control point and resource
Selected scene;
Target chosen module, for carrying out the resource according to the location information of the control point under selecting scene in the target
In target select, obtain corresponding to the control point target;
Automatic absorbing module, for the control point to navigate to the target of itself residing regional extent association, described in completion
Automatic absorbing of the manipulation behavior in the target.
9. device according to claim 8, it is characterised in that the scene determining module includes:
Relative position determining unit, closed for the relative position between the regional extent according to each resource associations and the control point
System, determines that the control point is not in the regional extent of any resource associations;
Scene obtaining unit, during regional extent for being not in any resource associations in the control point, determine the target
Selected scene is that the target in multiple resource selectes scene.
10. device according to claim 8, it is characterised in that the scene determining module includes:
Regional extent determining unit, for region model residing for determining the control point itself according to the regional extent of each resource associations
Enclose, and control point described in the manipulation behavior corresponds to the prime area scope of initial target association;
Handoff scenario obtaining unit, in regional extent residing for the control point itself and the prime area overlapping ranges
When, it is close-in target handoff scenario to determine that the target selectes scene.
11. device according to claim 9, it is characterised in that the target chosen module includes:
Information obtainment unit, selected for the target in the multiple resource under scene, according to the location information of the control point
Obtain control point position and directional information;
Quadrant obtaining unit is inclined to, for showing that the quadrant that the page is configured by the control point is distributed in the virtual environment
In, the quadrant for manipulating behavior disposition is obtained according to the control point position and directional information, what the virtual environment was shown
Resource shows that the quadrant in the page is distributed and is placed in each quadrant according to virtual environment;
Target obtaining unit, it is chosen to be for being placed in the resource that quadrant is inclined in the manipulation behavior corresponding to the control point
Target.
12. device according to claim 9, it is characterised in that described device also includes:
Judge module is shaken, for judging whether the manipulation behavior shakes on the display screen of the virtual environment,
If YES, then the target for terminating the manipulation behavior is selected, and if NO, then triggers the target chosen module.
13. device according to claim 10, it is characterised in that the target chosen module includes:
Position obtaining unit, under the close-in target handoff scenario, being obtained according to the location information of the control point
Control point position;
Target departs from judging unit, for judging whether the control point position is in the prime area scope mesh configured
Mark departs from scope, if NO, then triggers overlapping judging unit;
The overlapping judging unit is used to determine whether the control point position is in and the prime area scope weight
Folded other regional extents, if YES, then the resource for selecting other regional extent associations is corresponding to the control point
Target.
14. device according to claim 9, it is characterised in that the virtual environment of display is played for automatic aiming class
Virtual environment, the resource are that the virtual role of projection can be aimed in the automatic aiming class game virtual environment;
The stop detecting module includes:
Initial display unit, during the virtual environment for the game of automatic aiming class is shown, the virtual role of configuration is shown in institute
State virtual environment and show the page, and the control point is adsorbed and be placed on virtual role or be placed in and be described virtual by initial target
Environment shows the other positions that virtual role is different from the page;
Behavior tracking unit, for tracking the manipulation behavior to control point triggering, the control point is by the initial target
The target for departing from and being placed in the initial target departs from outside scope, or the other positions by being different from virtual role are moved
The location information that virtual environment shows control point in the page is obtained after dynamic.
A kind of 15. target locating set in virtual environment, it is characterised in that including:
Processor;And
Memory, computer-readable instruction is stored with the memory, the computer-readable instruction is held by the processor
The object localization method in virtual environment according to any one of claim 1 to 7 is realized during row.
16. a kind of computer-readable recording medium, is stored thereon with computer program, the computer program is executed by processor
Object localization method in Shi Shixian virtual environments according to any one of claim 1 to 7.
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