CN110465073A - Method, apparatus, equipment and the readable storage medium storing program for executing that visual angle adjusts in virtual environment - Google Patents
Method, apparatus, equipment and the readable storage medium storing program for executing that visual angle adjusts in virtual environment Download PDFInfo
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- CN110465073A CN110465073A CN201910731056.7A CN201910731056A CN110465073A CN 110465073 A CN110465073 A CN 110465073A CN 201910731056 A CN201910731056 A CN 201910731056A CN 110465073 A CN110465073 A CN 110465073A
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- virtual environment
- visual angle
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63F—CARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
- A63F13/00—Video games, i.e. games using an electronically generated display having two or more dimensions
- A63F13/20—Input arrangements for video game devices
- A63F13/21—Input arrangements for video game devices characterised by their sensors, purposes or types
- A63F13/211—Input arrangements for video game devices characterised by their sensors, purposes or types using inertial sensors, e.g. accelerometers or gyroscopes
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63F—CARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
- A63F13/00—Video games, i.e. games using an electronically generated display having two or more dimensions
- A63F13/50—Controlling the output signals based on the game progress
- A63F13/52—Controlling the output signals based on the game progress involving aspects of the displayed game scene
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63F—CARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
- A63F13/00—Video games, i.e. games using an electronically generated display having two or more dimensions
- A63F13/80—Special adaptations for executing a specific game genre or game mode
- A63F13/803—Driving vehicles or craft, e.g. cars, airplanes, ships, robots or tanks
-
- 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
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/033—Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor
- G06F3/0346—Pointing devices displaced or positioned by the user, e.g. mice, trackballs, pens or joysticks; Accessories therefor with detection of the device orientation or free movement in a 3D space, e.g. 3D mice, 6-DOF [six degrees of freedom] pointers using gyroscopes, accelerometers or tilt-sensors
-
- 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]
- G06F3/0484—Interaction techniques based on graphical user interfaces [GUI] for the control of specific functions or operations, e.g. selecting or manipulating an object, an image or a displayed text element, setting a parameter value or selecting a range
- G06F3/04847—Interaction techniques to control parameter settings, e.g. interaction with sliders or dials
-
- 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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- Engineering & Computer Science (AREA)
- Multimedia (AREA)
- General Engineering & Computer Science (AREA)
- Theoretical Computer Science (AREA)
- Human Computer Interaction (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- User Interface Of Digital Computer (AREA)
- Processing Or Creating Images (AREA)
Abstract
This application discloses method, apparatus, equipment and readable storage medium storing program for executing that visual angle in a kind of virtual environment adjusts, it is related to virtual environment field, this method comprises: display, with the first picture of the first view directions observation virtual environment, virtual objects have body direction in virtual environment;Receive the trigger action on visual angle adjustment control;The exercise data of acquisition terminal;The first view directions are adjusted to the second view directions according to exercise data;Display is with the second picture of the second view directions observation virtual environment, and the bodies of virtual objects is towards constant.Control is adjusted by setting visual angle, when receive visual angle adjustment control trigger action when, the exercise data of acquisition terminal, and the direction according to the view directions of exercise data adjustment observation without changing virtual objects, user will not block the picture observed virtual environment because of the adjustment operation observed other view directions, improve the accuracy and efficiency observed virtual environment.
Description
Technical field
The invention relates to virtual environment field, in particular to the method for visual angle adjustment, dress in a kind of virtual environment
It sets, equipment and readable storage medium storing program for executing.
Background technique
In the application program for including virtual environment, it usually needs by the virtual objects in control virtual environment virtual
Carry out activity in environment, user can control virtual objects can be in three-dimensional virtual environment in running, walk, standing, putting down
It the postures such as lies and crawls, the visual angle of virtual objects can also be rotated.
In the related technology, a visual angle adjustment control is typically provided with when observing virtual environment, in environmental interface
Part, user carry out drag operation on control by adjusting at the visual angle, to carry out pair to the view directions of observation virtual environment
The adjustment answered.
However, when carrying out visual angle rotation through the above way, due to needing user to rotate in the user interface to the visual angle
Control is dragged, and the hand of user is biggish to terminal interface generation in dragging process blocks, and is undoubtedly affected to virtual ring
The observation accuracy in border.
Summary of the invention
The embodiment of the present application provide in a kind of virtual environment in virtual environment the method, apparatus, equipment of visual angle adjustment and
Readable storage medium storing program for executing, the hand that can solve user during dragging to visual angle adjustment control generate terminal interface
It is biggish to block, the problem of affecting the observation accuracy to virtual environment.The technical solution is as follows:
On the one hand, a kind of method of visual angle adjustment in virtual environment is provided, which comprises
It shows first environment interface, includes virtual objects in the first environment interface described in the observation of the first view directions
First picture of virtual environment, the virtual objects have body direction, the first environment interface in the virtual environment
In further include visual angle adjustment control;
Receive the trigger action on visual angle adjustment control;
According to the exercise data of the trigger action acquisition terminal, the exercise data is used to indicate the terminal body
Motion conditions;
First view directions are adjusted according to the exercise data, obtain the second view directions;
It shows second environment interface, includes the virtual objects in the second environment interface with second view directions
Observe the second picture of the virtual environment, the virtual objects in the virtual environment the possessed body towards not
Become.
On the other hand, a kind of device of visual angle adjustment in virtual environment is provided, described device includes:
Display module includes virtual objects with the first view for showing first environment interface, in the first environment interface
The first picture of the virtual environment is observed in angular direction, and the virtual objects have body direction, institute in the virtual environment
Stating in first environment interface further includes visual angle adjustment control;
Receiving module, for receiving the trigger action on visual angle adjustment control;
Acquisition module, for the exercise data according to the trigger action acquisition terminal, the exercise data is used to indicate
The motion conditions of the terminal body;
It adjusts module and obtains the second visual angle for being adjusted according to the exercise data to first view directions
Direction;
The display module, is also used to show second environment interface, includes described virtual right in the second environment interface
The second picture as observing the virtual environment with second view directions, virtual objects institute in the virtual environment
The body having is towards constant.
On the other hand, a kind of computer equipment is provided, the computer equipment includes processor and memory, described to deposit
Be stored at least one instruction, at least a Duan Chengxu, code set or instruction set in reservoir, at least one instruction, it is described extremely
A few Duan Chengxu, the code set or instruction set are loaded by the processor and are executed to realize as in above-mentioned the embodiment of the present application
The method that visual angle adjusts in the virtual environment of offer.
On the other hand, a kind of computer readable storage medium is provided, at least one is stored in the readable storage medium storing program for executing
Item instruction, at least a Duan Chengxu, code set or instruction set, at least one instruction, an at least Duan Chengxu, the code
Collection or instruction set are loaded by the processor and are executed to realize in the virtual environment provided in such as above-mentioned the embodiment of the present application and regard
The method of angle adjustment.
On the other hand, a kind of computer program product is provided, when the computer program product is run on computers
When, so that the method that computer executes visual angle adjustment in the virtual environment provided in such as above-mentioned the embodiment of the present application.
Technical solution bring beneficial effect provided by the embodiments of the present application includes at least:
Control is adjusted by setting visual angle, when user triggers visual angle adjustment control on first environment interface,
The exercise data of acquisition terminal, and it is virtual without changing according to the view directions that virtual environment is observed in exercise data adjustment
The direction of object maintains original direction in virtual objects, while keeping original athletic posture, user can be by control eventually
The motion state at end observes other view directions of virtual environment, that is, user will not be because of to other view directions
Observed adjustment operation block the picture observed virtual environment, improve virtual environment is observed it is accurate
Degree and efficiency.
Detailed description of the invention
In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment
Attached drawing is briefly described, it should be apparent that, the drawings in the following description are only some examples of the present application, for
For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other
Attached drawing.
Fig. 1 is the schematic diagram for the camera model that one exemplary embodiment of the application provides;
Fig. 2 is the interface schematic diagram of progress visual angle adjustment in virtual environment provided in the related technology;
Fig. 3 is the interface signal that visual angle adjustment is carried out in virtual environment that one exemplary embodiment of the application provides
Figure;
Fig. 4 is the structural block diagram for the terminal that one exemplary embodiment of the application provides;
Fig. 5 is the implementation environment schematic diagram that one exemplary embodiment of the application provides;
Fig. 6 is the method flow diagram of visual angle adjustment in the virtual environment of one exemplary embodiment of the application offer;
Fig. 7 is the method flow diagram of visual angle adjustment in the virtual environment of another exemplary embodiment of the application offer;
Fig. 8 is the interface schematic diagram of visual angle adjustment in the virtual environment provided based on the embodiment shown in Fig. 7;
Fig. 9 is the method flow diagram of visual angle adjustment in the virtual environment of another exemplary embodiment of the application offer;
Figure 10 is the method flow diagram of visual angle adjustment in the virtual environment of another exemplary embodiment of the application offer;
Figure 11 is the method flow diagram of visual angle adjustment in the virtual environment of another exemplary embodiment of the application offer;
Figure 12 is the structural block diagram of viewing angle adjustment device in the virtual environment of one exemplary embodiment of the application offer;
Figure 13 is the structural block diagram of viewing angle adjustment device in the virtual environment of another exemplary embodiment of the application offer;
Figure 14 is the structural block diagram for the terminal that one exemplary embodiment of the application provides.
Specific embodiment
To keep the purposes, technical schemes and advantages of the application clearer, below in conjunction with attached drawing to the application embodiment party
Formula is described in further detail.
Firstly, simply being introduced noun involved in the embodiment of the present application:
Virtual environment: being the virtual environment of display when application program is run at the terminal (or offer).The virtual environment can
To be the simulated environment to real world, it is also possible to the semifictional environment of half emulation, can also be pure imaginary environment.Virtually
Environment can be any one in two-dimensional virtual environment, 2.5 dimension virtual environments and three-dimensional virtual environment, this is not added in the application
To limit.Following embodiments are illustrated so that virtual environment is three-dimensional virtual environment.
Virtual objects: refer to the movable object in virtual environment.The movable object can be virtual portrait, virtually move
Object, cartoon character etc., such as: personage, animal, plant, oil drum, wall, stone for being shown in three-dimensional virtual environment etc..It is optional
Ground, virtual objects are the three-dimensional stereo models based on the creation of animation bone technology.Each virtual objects are in three-dimensional virtual environment
With itself shape and volume, a part of space in three-dimensional virtual environment is occupied.
View directions: when being observed in virtual environment with the first person or third person of virtual objects
Direction of observation.Optionally, in the embodiment of the present application, view directions are by camera model in virtual environment to virtual right
Direction when as being observed.
Optionally, camera model follows virtual objects in virtual environment automatically, that is, when virtual objects are in void
When position in near-ring border changes, camera model follows position of the virtual objects in virtual environment while changing
Become, and the camera model is in always within the scope of the pre-determined distance of virtual objects in virtual environment.Optionally, automatically with
With in the process, the relative position for imaging head model and virtual objects does not change.
Camera model: camera model is the threedimensional model being located at around virtual objects in three-dimensional virtual environment, when
When using first person, which is located at the head of virtual objects nearby or positioned at the head of virtual objects,
When using third person, which can be located at the rear of virtual objects, can also be located at and virtual objects
It, can be from different perspectives to the void being located in three-dimensional virtual environment by the camera model at a distance of any position of pre-determined distance
Quasi- object is observed, and optionally, which is the first person when crossing shoulder visual angle, and camera model is located at virtual
The rear of object (such as head and shoulder portion of virtual portrait).Optionally, which not will do it in three-dimensional virtual environment
Actual displayed, that is, the camera model can not be recognized in the three-dimensional virtual environment that user interface is shown.
Optionally, which can be bound with virtual objects, and according to the movement of virtual objects, turn round
Operation is so as to adjust the viewing angle to virtual environment;The camera model can also independently of virtual objects to virtual environment into
Row observation, that is, being only adjusted to the viewing angle of camera model, without adjusting court of the virtual objects in virtual environment
To.In the embodiment of the present application, said in such a way that the camera model observes virtual environment independently of virtual objects
It is bright.
The camera model is located at and is illustrated for any position of pre-determined distance with virtual objects, it is optional
Ground, the corresponding camera model of a virtual objects, the camera model can be revolved by rotation center of virtual objects
Turn, such as: camera model being rotated using any point of virtual objects as rotation center, camera model is in rotary course
In not only have rotation in angle, also offset in displacement, when rotation between camera model and the rotation center away from
From remaining unchanged, that is, rotate camera model in the spherome surface using the rotation center as the centre of sphere, wherein virtual
Any point of object can be any point around head, trunk or the virtual objects of virtual objects, and the application is implemented
Example is not limited this.Optionally, camera model is when observing virtual objects, the visual angle side of the camera model
The direction of virtual objects is directed toward to the vertical line where the camera model on the section of spherical surface.
Optionally, the camera model can also virtual objects different directions with preset angle to virtual objects into
Row observation.
Schematically, it is a little used as rotation center 12 referring to FIG. 1, determining in virtual objects 11, camera model encloses
It is rotated around the rotation center 12, optionally, which is configured with an initial position, which is virtual
The position (such as rear position of brain) of object back upper place.Schematically, as shown in Figure 1, the initial position is position 13, when
When camera model is rotated to position 14 or position 15, the view directions of camera model with the rotation of camera model and into
Row changes.
Method provided herein can be applied to virtual reality applications program, three-dimensional map program, Military Simulation journey
Sequence, first person shooting game (First-person shooting game, FPS), the online tactics competitive game of more people
(Multiplayer Online Battle Arena Games, MOBA) etc., following embodiments are come with application in gaming
It illustrates.
Game based on virtual environment is often made of the map of one or more gaming worlds, the virtual environment in game
The scene of real world is simulated, the virtual objects that user can manipulate in game are walked in virtual environment, run, jumped
Jump shooting, fistfight, is driven, switches and attacked the movement such as other virtual objects, interactivity using virtual weapons, using virtual weapons
It is relatively strong, and multiple users can form a team to carry out competitive game online.User's control virtual objects are using virtual weapons to target
When virtual objects are launched a offensive, user according to where destination virtual object position or operating habit selection it is suitable virtual military
Device attacks virtual objects.
In the related technology, when adjusting the visual angle of virtual objects observation virtual environment, visual angle is provided in environmental interface
Pivot controls, user is by carrying out drag operation on the visual angle pivot controls, to carry out to the angle of observation virtual environment
Adjustment, schematically, referring to FIG. 2, showing the first visual angle picture 22 of application program, first visual angle in user interface 21
It include the virtual objects 23 with body direction in picture 22, the body of the virtual objects 23 is oriented towards in the virtual environment
Doorway 25, going back Overlapping display on the first visual angle picture has visual angle pivot controls 24;User carries out visual angle pivot controls 24
Drag operation to the right is adjusted the first view directions after terminal receives the instruction of the dragging to the visual angle pivot controls 24,
The second view directions are obtained, and show the second visual angle picture 27 of the application program in user interface 26, which draws
It include the above-mentioned virtual objects 23 with body direction in face 27, the body direction of the virtual objects 23 is still towards virtual ring
Doorway 25 in border, optionally, going back Overlapping display on the second visual angle picture 27 has visual angle pivot controls 24.
However, when carrying out visual angle rotation through the above way, due to needing user to rotate in the user interface to the visual angle
Control is dragged, and the hand of user is biggish to terminal interface generation in dragging process blocks, and is undoubtedly affected to virtual ring
The observation accuracy in border.
The embodiment of the present application provides a kind of method of visual angle adjustment in virtual environment, and Fig. 3 shows the embodiment of the present application
The user interface schematic diagram for the method that visual angle adjusts in the virtual environment of offer, as shown in Figure 3:
Virtual objects observe virtual environment with the first view directions first is shown in first environment interface
Picture 31 includes having body in first picture 31 towards virtual objects 32, and the virtual objects 32 are towards in virtual environment
Body direction, Overlapping display is gone back on first picture 31 has visual angle to adjust control 33.User is enterprising in visual angle adjustment control 33
After row long press operation, the movement such as translated, rotated, being tilted to terminal 30, according to the movement of terminal the first view directions tune
Whole is the second view directions, and show the second picture 34, second picture 34 be with the second view directions to virtual environment into
The picture of row observation includes the above-mentioned virtual objects 32 with body direction in second picture 34.
Terminal in the application can be desktop computer, pocket computer on knee, mobile phone, tablet computer, e-book
Reader, MP3 (Moving Picture Experts Group Audio Layer III, dynamic image expert's compression standard
Audio level 3) player, MP4 (Moving Picture Experts Group Audio Layer IV, dynamic image expert
Compression standard audio level 4) player etc..Installation and operation has the application program for supporting virtual environment in the terminal, such as
Support the application program of three-dimensional virtual environment.The application program can be virtual reality applications program, three-dimensional map program, military affairs
Simulated program, TPS game, FPS game, any one in MOBA game.Optionally, which can be standalone version
Application program, such as the 3D games of standalone version, are also possible to the application program of network on-line version.
Fig. 4 shows the structural block diagram of the electronic equipment of one exemplary embodiment of the application offer.The electronic equipment 400
It include: operating system 420 and application program 422.
Operating system 420 is that the basic software of the secure access to computer hardware is provided for application program 422.
Application program 422 is to support the application program of virtual environment.Optionally, application program 422 is to support three-dimensional
The application program of environment.The application program 422 can be virtual reality applications program, three-dimensional map program, Military Simulation program,
Third person shooting game (Third-Personal Shooting Game, TPS), first person shooting game (First-
Person shooting game, FPS), MOBA game, any one in more people's gunbattle class survival games.The application program
422 can be the application program of standalone version, such as the 4D games of standalone version.
Fig. 5 shows the structural block diagram of the computer system of one exemplary embodiment of the application offer.The department of computer science
System 500 includes: the first equipment 520, server 540 and the second equipment 560.
First equipment, 520 installation and operation has the application program for supporting virtual environment.The application program can be virtual existing
Real application program, three-dimensional map program, Military Simulation program, TPS game, FPS game, MOBA game, the existence of more people's gunbattle classes
Any one in game.First equipment 520 is the equipment that the first user uses, and the first user is controlled using the first equipment 520
The first virtual objects carry out activity in virtual environment, which includes but is not limited to: adjustment body posture creeps, walks
At least one of go, run, ride, jump, drive, pick up, shoot, attack, throw.Schematically, the first virtual objects
It is the first virtual portrait, such as artificial figure role or cartoon character role.
First equipment 520 is connected by wireless network or cable network with server 540.
Server 540 includes at least one in a server, multiple servers, cloud computing platform and virtualization center
Kind.Server 540 is used to that the application program of three-dimensional virtual environment to be supported to provide background service.Optionally, server 540 undertakes
Main to calculate work, the first equipment 520 and the second equipment 560 undertake secondary calculation work;Alternatively, server 540 undertake it is secondary
Work is calculated, the first equipment 520 and the second equipment 560 undertake main calculating work;Alternatively, server 540, the first equipment 520
Cooperated computing is carried out using distributed computing architecture between 560 three of the second equipment.
Second equipment, 560 installation and operation has the application program for supporting virtual environment.The application program can be virtual existing
Real application program, three-dimensional map program, Military Simulation program, FPS game, MOBA game, in more people's gunbattle class survival games
Any one.Second equipment 560 is the equipment that second user uses, and second user is located at virtual using the control of the second equipment 560
The second virtual objects carry out activity in environment, which includes but is not limited to: adjustment body posture, creep, walking, run,
At least one of ride, jump, drive, pick up, shoot, attack, throw.Schematically, the second virtual objects are the second void
Anthropomorphic object, such as artificial figure role or cartoon character role.
Optionally, the first virtual portrait and the second virtual portrait are in same virtual environment.Optionally, the first visual human
Object and the second virtual portrait may belong to the same troop, the same tissue, with friend relation or with provisional communication
Permission.Optionally, the first virtual portrait and the second virtual portrait also may belong to different troops, different tissues or have hostile
The Liang Ge group of property.
Optionally, the application program installed in the first equipment 520 and the second equipment 560 be identical or two equipment on
The application program of installation is the same type application program of different control system platforms.First equipment 520 can refer to multiple set
One in standby, the second equipment 560 can refer to one in multiple equipment, and the present embodiment is only with the first equipment 520 and second
Equipment 560 illustrates.The device type of first equipment 520 and the second equipment 560 is identical or different, the device type packet
It includes: game host, desktop computer, smart phone, tablet computer, E-book reader, MP3 player, MP5 player and knee
At least one of mo(u)ld top half portable computer.Following embodiment is illustrated so that equipment is desktop computer.
Those skilled in the art could be aware that the quantity of above equipment can be more or less.For example above equipment can be with
Only one perhaps above equipment be tens or several hundred or greater number.The embodiment of the present application to the quantity of equipment and
Device type is not limited.
Illustrate in conjunction with above-mentioned noun brief introduction and implementation environment, to visual angle tune in virtual environment provided by the embodiments of the present application
Whole method is illustrated, and is applied to be illustrated in terminal in this way, as shown in fig. 6, this method comprises:
Step 601, it shows first environment interface, includes that virtual objects are seen with the first view directions in the first environment interface
The first picture of virtual environment is examined, which has body direction in virtual environment, also wrap in the first environment interface
Include visual angle adjustment control.
Optionally, which, which can be, observes virtual environment with the first person of virtual objects
View directions, be also possible to the view directions observed with the third person of virtual objects virtual environment.
Optionally, which is the direction that camera model observes virtual environment.
Optionally, adjustment control in the visual angle is control of the Overlapping display on the first picture.Optionally, visual angle adjusts control
Overlapping display refers to that the display level of visual angle adjustment control is located at the first picture in first environment interface on the first picture
Display level on.When the first picture changes in first environment interface, visual angle adjustment control is not influenced first
Perhaps size changes the size or position of visual angle adjustment control in set interface as user for position in environmental interface
After change, the display of the first picture in the user interface is nor affected on.
Optionally, the body of the virtual objects is oriented the direction that virtual objects are faced in virtual environment, namely should
Direction of the front of virtual objects in virtual environment.
Step 602, the trigger action on visual angle adjustment control is received.
Optionally, the trigger action can be implemented as single-click operation, double click operation, long press operation, in gravity pressing operation
Any one.
Optionally, adjustment control in the visual angle is control of the Overlapping display on the picture of visual angle, is with touching with the terminal
It touching and is illustrated for the mobile phone or plate of display screen, user can directly trigger on visual angle adjustment control, from
And realize the trigger action to visual angle adjustment control.
Optionally, adjustment control in the visual angle can be appointing in round, rectangular, diamond shape, ellipse or irregular figure
It anticipates one kind, which, which adjusts control, to adjust control 35 in visual angle as shown in Figure 3, the pattern of pigsney is shown, with
Indicate the control for being adjusted to visual angle.The size of visual angle adjustment control can be fixed, can also be according to user
Need to carry out customized setting.
Optionally, visual angle adjustment control can with Overlapping display in the right side of the first picture or the left side of the first picture,
Can with Overlapping display in the upside of the first picture also with Overlapping display in the downside of the first picture, the embodiment of the present application to this not
It is limited.
Optionally, adjustment control in the visual angle can overlap in first environment interface with other visual angle controls,
Visual angle adjustment control, which can be set, cannot have lap with other controls in the user interface.
Optionally, when receiving the trigger action on visual angle adjustment control, in the virtual environment to seek you right
Towards conducting the locking operations, the body direction which is used to control virtual objects is not changed the body of elephant.
Step 603, according to the exercise data of trigger action acquisition terminal.
Optionally, which is used to indicate the motion conditions of terminal body.
Optionally, which collected by the sensor configured in terminal, which may be implemented
For at least one of gyro sensor, gravity sensor, acceleration transducer.In the embodiment of the present application, with the movement number
It is illustrated for being collected according to the gyro sensor by being configured in terminal.
It optionally, include such as any one under type according to the exercise data of trigger action acquisition terminal, wherein with
It is illustrated for acquiring the exercise data by gyro sensor:
First, the gyro sensor of terminal is continuously in working condition namely the gyro sensor persistently obtains
The exercise data of terminal obtains the exercise data currently collected according to trigger action from gyro sensor;
Second, the gyro sensor of terminal is in off working state namely the gyro sensor not to exercise data
It is obtained, gyro sensor is controlled according to trigger action and switches to working condition, and is acquired by gyro sensor
To the exercise data of terminal.
Step 604, the first view directions are adjusted according to exercise data, obtain the second view directions.
Optionally, first view directions and the second view directions contribute in virtual environment to virtual environment into
The direction of row observation.
It optionally, include as any one under type according to the mode that exercise data is adjusted the first view directions
Kind:
First, optionally, first view directions and the second view directions are all by camera model to virtual environment
The direction observed then is adjusted according to shooting direction of the exercise data to camera shooting head model;Optionally, according to movement number
When according to being adjusted to the first view directions, the direction of motion of terminal is determined according to exercise data, and will take the photograph according to the direction of motion
Camera model is revolved in virtual environment using virtual objects as rotation center using the corresponding direction of the direction of motion as direction of rotation
Turn, postrotational camera model is determined as the second view directions to the direction that virtual environment is observed.
Second, which is corresponding view directions when being acquired to the environment picture of virtual environment, then
Be adjusted according to environment picture of the exercise data to virtual environment, according to exercise data by the picture outside user interface adjust to
In user interface.
Step 605, it shows second environment interface, includes that virtual objects are seen with the second view directions in the second environment interface
Examine the second picture of virtual environment, the virtual objects in virtual environment possessed body towards constant.
It optionally, also include that above-mentioned visual angle adjusts control in the second environment interface.
It is worth noting that, being adjusted in above-described embodiment to view directions, can be to view directions in virtual ring
It is rotated in border, is also possible to translate direction in three-dimensional virtual environment.
In conclusion the method that visual angle adjusts in virtual environment provided in this embodiment, adjusts control by setting visual angle,
When user triggers visual angle adjustment control on first environment interface, the exercise data of acquisition terminal, and according to movement
Direction of the view directions that data point reuse observes virtual environment without changing virtual objects, i.e., remain former in virtual objects
Have direction, while keeping original athletic posture, user can by the motion state of controlling terminal to virtual environment other
View directions are observed, that is, user will not block because of the adjustment operation observed other view directions to virtual
The picture that environment is observed improves the accuracy and efficiency observed virtual environment.
In an alternative embodiment, above-mentioned trigger action can be implemented as long press operation, according to long press operation to end
The exercise data at end is acquired, and Fig. 7 is visual angle adjustment in the virtual environment of another exemplary embodiment of the application offer
Method flow diagram is applied to be illustrated in terminal in this way, as shown in fig. 7, this method comprises:
Step 701, it shows first environment picture, includes that virtual objects are seen with the first view directions in the first environment interface
The first picture of virtual environment is examined, which has body direction in virtual environment, also wrap in the first environment interface
Include visual angle adjustment control.
Optionally, which, which can be, observes virtual environment with the first person of virtual objects
View directions, be also possible to the view directions observed with the third person of virtual objects virtual environment.
Optionally, which is the direction that camera model observes virtual environment.
Step 702, the long press operation on visual angle adjustment control is received.
Optionally, which is the terminal configured with touch display screen, when receiving in the touch display screen in the view
When angle adjusts the sustained touch operation on control, the long press operation on visual angle adjustment control is as received.
Step 703, when the duration of long press operation reaches requirement duration, the exercise data of acquisition terminal.
Optionally, when the duration of long press operation reaches requirement duration, gyro sensor in activated terminals, and
Pass through the exercise data of gyro sensor acquisition terminal.
Step 704, the first view directions are adjusted according to exercise data, obtain the second view directions.
Optionally, first view directions and the second view directions are all to be seen by camera model to virtual environment
The direction examined then is adjusted according to shooting direction of the exercise data to camera shooting head model.
Optionally, when being adjusted according to exercise data to the first view directions, the fortune of terminal is determined according to exercise data
Dynamic direction, and according to the direction of motion by camera model using virtual objects as rotation center, be with the corresponding direction of the direction of motion
Direction of rotation is rotated in virtual environment, and postrotational camera model determines the direction that virtual environment is observed
For the second view directions.
Optionally, during being rotated in virtual environment to camera model, it is also necessary to the video camera mould
The spinning obstacle of type is detected, that is, when detecting that camera model has obstruction in rotary course, by video camera mould
View directions when type is obstructed are determined as the second view directions.Wherein, the form of the obstruction includes expose the false detection limit and barrier
Hinder at least one of object blocking, be illustrated respectively for the two ways:
First, by detection limit of exposing the false in the rotary course of camera model, wherein detection of exposing the false refers in virtual ring
Can postrotational view directions be carried out with observation to virtual objects according to physical principle in border to detect, imaged when detecting
Machine model exposed the false in rotary course detection limit rotation when, by by expose the false detection limit when view directions be determined as second
View directions;
Optionally, which refers in the rotary course of camera model, when the camera model is not by obstacle
When object stops, can virtual objects carry out observation to postrotational view directions and detect, and such as: camera model is rotating through
Cheng Zhong is turned in window except window, is observed with the inside to room, and according to physical principle, virtual objects exist
When the location of its can not be to observing in room, then it is assumed that the camera model is exposed the false in rotary course detects limit
System rotation.
Second, it is obscured by an obstacle during camera model rotation, which is three in the virtual environment
Dimension module, when detecting that camera model, there are when barrier obstruction, camera model hinders by barrier in rotary course
View directions when gear are determined as the second view directions.
Optionally, whether camera model be obscured by an obstacle in rotary course can be by carrying out in virtual environment
Collision detection is detected.It, can be to collision detection be carried out between object and object, such as due in virtual environment: according to taking the photograph
The rotating path of camera model carries out collision detection, judges whether the camera model can carry out in rotary course with barrier
Collision, when camera model can collide in rotary course with barrier, it is believed that the camera model is obscured by an obstacle.
Step 705, it shows second environment picture, includes that virtual objects are seen with the second view directions in the second environment interface
Examine the second picture of virtual environment, the virtual objects in virtual environment possessed body towards constant.
It optionally, also include that above-mentioned visual angle adjusts control in the second environment interface.
Step 706, when receiving the long-pressing end signal of long press operation, cancel the acquisition to the exercise data of terminal.
Optionally, when receiving the long-pressing end signal of long press operation, cancel from gyro sensor and obtain the terminal
Exercise data, or, cancelling gyro sensor acquires the exercise data of the terminal.
Step 707, the second view directions are switched back into the first view directions, restores display first environment picture.
Schematically, referring to FIG. 8, user's handheld terminal 800, first environment picture 810 is shown in the terminal 800,
It include visual angle adjustment control 811 and virtual objects 812 in the first environment picture 810, which is with first
View directions observe the picture of virtual environment, when user carries out long-pressing, and controlling terminal 800 on visual angle adjustment control 811
When rotation, translation, second environment picture 820 is shown in terminal 800, includes that visual angle adjusts control in the second environment picture 820
811 and virtual objects 812, which is with the picture of the second view directions observation virtual environment, when user ties
When beam adjusts the long press operation of control 811 to visual angle, which switches back into the first view directions, and the terminal 800
Middle recovery shows first environment picture 810.
In conclusion the method that visual angle adjusts in virtual environment provided in this embodiment, adjusts control by setting visual angle,
When user triggers visual angle adjustment control on first environment interface, the exercise data of acquisition terminal, and according to movement
Direction of the view directions that data point reuse observes virtual environment without changing virtual objects, i.e., remain former in virtual objects
Have direction, while keeping original athletic posture, user can by the motion state of controlling terminal to virtual environment other
View directions are observed, that is, user will not block because of the adjustment operation observed other view directions to virtual
The picture that environment is observed improves the accuracy and efficiency observed virtual environment.
Method provided in this embodiment adjusts the long press operation on control at visual angle by receiving, and triggering moves terminal
First view directions are adjusted to the second view directions, and at the end of long press operation, cancel and moving to terminal by the acquisition of data
The acquisition of data, and the second view directions are switched to the first view directions again, improve the flexible journey of switching of view directions
Degree, improves the observation efficiency of virtual environment.
Schematically, Fig. 9 is the method for visual angle adjustment in the virtual environment of another exemplary embodiment of the application offer
Flow chart is applied to be illustrated in terminal in this way, as shown in figure 9, this method comprises:
Step 901, user's long-pressing visual angle adjusts control, is ready for observing.
Optionally, which passes through gyro sensor acquisition for triggering terminal and moves
Data.Optionally, when user's long-pressing visual angle, adjustment control reaches requirement duration, which is triggered.
Step 902, customer mobile terminal, built-in gyro sensor come into force, and observe surrounding.
Optionally, when user moves terminal, built-in gyro sensor collects the end in the terminal
The exercise data at end, thus be adjusted according to view directions of the exercise data to the camera model of observation virtual environment,
The second view directions are adjusted to by the first view directions.
Step 903, user unclamps finger, and visual angle is restored.
Optionally, when user unclamp finger when, namely terminate to the visual angle adjustment control long press operation when, by this second
View directions are restored to the first view directions.
In an alternative embodiment, the acquisition of above-mentioned exercise data is the gyro sensor by configuring in terminal
It realizing, Figure 10 is the method flow diagram of visual angle adjustment in the virtual environment of another exemplary embodiment of the application offer, with
This method is illustrated for being applied in the terminal configured with gyro sensor, as shown in Figure 10, this method comprises:
Step 1001, it shows first environment interface, includes virtual objects in the first environment interface with the first view directions
The first picture of virtual environment is observed, which has body direction in virtual environment, go back in the first environment interface
Control is adjusted including visual angle.
Optionally, which, which can be, observes virtual environment with the first person of virtual objects
View directions, be also possible to the view directions observed with the third person of virtual objects virtual environment.
Optionally, which is the direction that camera model observes virtual environment.
Step 1002, the trigger action on visual angle adjustment control is received.
Optionally, the trigger action can be implemented as single-click operation, double click operation, long press operation, in gravity pressing operation
Any one.
Optionally, adjustment control in the visual angle is control of the Overlapping display on the picture of visual angle, is with touching with the terminal
It touching and is illustrated for the mobile phone or plate of display screen, user can directly trigger on visual angle adjustment control, from
And realize the trigger action to visual angle adjustment control.
Optionally, when receiving the trigger action on visual angle adjustment control, in the virtual environment to seek you right
Towards conducting the locking operations, the body direction which is used to control virtual objects is not changed the body of elephant.
Step 1003, the exercise data that gyro sensor collects is obtained according to trigger action.
Optionally, which is used to indicate the motion conditions of terminal body.
Optionally, the gyro sensor collected be terminal acceleration information, namely according to trigger action
Degree will be accelerated when acceleration information, which is greater than acceleration, to be required by obtaining the acceleration information that gyro sensor collects
The exercise data collected according to gyro sensor is determined as.
Optionally, which is corresponding with world coordinate system, which includes mutually perpendicular first coordinate
Axis, the second reference axis and third reference axis include the first acceleration of the first reference axis of eye in the acceleration information, sit along second
Second acceleration of parameter and third acceleration along third reference axis, when the first acceleration, the second acceleration and third add
When there is the acceleration for being greater than acceleration requirement in speed, acceleration information is determined as the fortune that gyro sensor collects
Dynamic data.
Step 1004, the first view directions are adjusted according to exercise data, obtain the second view directions.
Optionally, first view directions and the second view directions contribute in virtual environment to virtual environment into
The direction of row observation.
Optionally, first view directions and the second view directions are all to be seen by camera model to virtual environment
The direction examined then is adjusted according to shooting direction of the exercise data to camera shooting head model;Optionally, according to exercise data to
When one view directions are adjusted, the direction of motion of terminal is determined according to exercise data, and according to the direction of motion by video camera mould
Type is rotated in virtual environment using virtual objects as rotation center using the corresponding direction of the direction of motion as direction of rotation, will
The direction that postrotational camera model observes virtual environment is determined as the second view directions.
Optionally, according to the first reference axis of world coordinate system, the second reference axis and third reference axis and above-mentioned acceleration
Degree is adjusted first view directions along the acceleration of each reference axis in.Optionally, on each change in coordinate axis direction
The corresponding camera model on the change in coordinate axis direction of acceleration magnitude rotation angle, so that it is determined that the camera model is three
Corresponding rotation angle on a change in coordinate axis direction, after rotating to the camera model, obtains the second view directions.
Schematically, it is illustrated by taking corresponding 1 ° of angle of the rotation of acceleration 1 as an example, the corresponding acceleration of the first change in coordinate axis direction
Degree is 20, and the corresponding acceleration of the second change in coordinate axis direction is 25, and the corresponding acceleration of third change in coordinate axis direction is 30, then is rotating
When camera model, 20 ° are rotated along the first change in coordinate axis direction, 25 ° are rotated along the second change in coordinate axis direction, along third change in coordinate axis direction
30 ° of rotation.
Step 1005, it shows second environment interface, includes virtual objects in the second environment interface with the second view directions
Observe the second picture of virtual environment, the virtual objects in virtual environment possessed body towards constant.
It optionally, also include that above-mentioned visual angle adjusts control in the second environment interface.
In conclusion the method that visual angle adjusts in virtual environment provided in this embodiment, adjusts control by setting visual angle,
When user triggers visual angle adjustment control on first environment interface, the exercise data of acquisition terminal, and according to movement
Direction of the view directions that data point reuse observes virtual environment without changing virtual objects, i.e., remain former in virtual objects
Have direction, while keeping original athletic posture, user can by the motion state of controlling terminal to virtual environment other
View directions are observed, that is, user will not block because of the adjustment operation observed other view directions to virtual
The picture that environment is observed improves the accuracy and efficiency observed virtual environment.
Method provided in this embodiment collects terminal in the first reference axis, the second coordinate by gyro sensor
Corresponding acceleration on axis and third reference axis, to be adjusted to obtain the second visual angle side to the first view directions
To, and virtual environment is observed by the second view directions, improving and carrying out observation to virtual environment is view directions tune
Whole efficiency.
Schematically, Figure 11 is visual angle regulating method in the virtual environment of another exemplary embodiment of the application offer
Overall flow figure is applied to be illustrated in terminal in this way, as shown in figure 11, this method comprises:
Step 1101, long-pressing visual angle adjusts control.
Optionally, visual angle adjustment control is for adjusting the view directions observed virtual environment.Optionally, the view
Angle adjustment control is used to trigger the function of adjusting view directions by gyro sensor.
Step 1102, judge whether long-pressing duration reaches 0.2 second.
Step 1103, when long-pressing duration reaches 0.2 second, gyro sensor activation.
Optionally, when long-pressing duration reaches 0.2 second, then pass through the exercise data of gyro sensor acquisition terminal, and obtain
Take the collected data of gyro sensor institute.
Step 1104, judge whether the acceleration on x, y, z axis any direction is greater than 30.
Optionally, in the exercise data that gyro sensor is collected, including acceleration corresponding with x, y, z axis
Degree.
Step 1105, when the acceleration on x, y, z axis any direction is greater than 30, gyroscope comes into force, and view directions are synchronous
It changes.
Optionally, when at least one acceleration magnitude is greater than 30 in acceleration corresponding with x, y, z axis in exercise data,
The gyroscope comes into force, and is adjusted according to exercise data to view directions.
Step 1106, judge whether long press operation continues to keep.
Optionally, when long press operation is kept, above-mentioned steps 1103 are repeated.
Step 1107, when long press operation is not kept persistently, terminate visual angle adjustment, and restore view directions.
Optionally, when long press operation does not continue to keep, before view directions are restored to gyro sensor to activate
View directions.
In conclusion the method that visual angle adjusts in virtual environment provided in this embodiment, adjusts control by setting visual angle,
When user triggers visual angle adjustment control on first environment interface, the exercise data of acquisition terminal, and according to movement
Direction of the view directions that data point reuse observes virtual environment without changing virtual objects, i.e., remain former in virtual objects
Have direction, while keeping original athletic posture, user can by the motion state of controlling terminal to virtual environment other
View directions are observed, that is, user will not block because of the adjustment operation observed other view directions to virtual
The picture that environment is observed improves the accuracy and efficiency observed virtual environment.
Figure 12 is the structural block diagram of viewing angle adjustment device in the virtual environment of one exemplary embodiment of the application offer, with
The device is illustrated for being configured in terminal, and as shown in figure 12, which includes: display module 1210, receiving module
1220, acquisition module 1230 and adjustment module 1240;
Display module 1210 includes virtual objects for showing first environment interface, in the first environment interface with the
One view directions observe the first picture of the virtual environment, and the virtual objects have body court in the virtual environment
To, further include in the first environment interface visual angle adjustment control;
Receiving module 1220, for receiving the trigger action on visual angle adjustment control;
Acquisition module 1230, for the exercise data according to the trigger action acquisition terminal, the exercise data is used for
Indicate the motion conditions of the terminal body;
It adjusts module 1240 and obtains second for being adjusted according to the exercise data to first view directions
View directions;
The display module 1210 is also used to show second environment interface, includes the void in the second environment interface
Quasi- object observes the second picture of the virtual environment with second view directions, and the virtual objects are in the virtual environment
In the possessed body towards constant.
In an alternative embodiment, gyro sensor is configured in the terminal;
The acquisition module 1230 is also used to obtain what the gyro sensor collected according to the trigger action
The exercise data.
In an alternative embodiment, the acquisition module 1230 is also used to according to trigger action acquisition
The acceleration information that gyro sensor collects;When the acceleration information, which is greater than acceleration, to be required, by the acceleration
Degree evidence is determined as the exercise data that the gyro sensor collects.
In an alternative embodiment, the virtual environment is corresponding with world coordinate system, and the world coordinate system includes
Mutually perpendicular first reference axis, the second reference axis and third reference axis include sitting in the acceleration information along described first
First acceleration of parameter, the second acceleration along second reference axis and the third acceleration along the third reference axis;
The acquisition module 1230 is also used to accelerate when first acceleration, second acceleration and the third
When there is the acceleration for being greater than acceleration requirement in degree, the acceleration information is determined as the gyro sensor and is adopted
Collect the obtained exercise data.
In an alternative embodiment, first view directions be by camera model to the virtual environment into
Direction when row observation;
As shown in figure 13, the adjustment module 1240, comprising:
Determination unit 1241, for determining the direction of motion of the terminal according to the exercise data;
Rotary unit 1242 is used to according to the direction of motion be rotation with the virtual objects by the camera model
Center is rotated in the virtual environment using the corresponding direction of the direction of motion as direction of rotation;
The determination unit 1241 is also used to observe the postrotational camera model to the virtual environment
Direction be determined as second view directions.
In an alternative embodiment, the determination unit 1241 is also used to detect that the camera model exists
When there is obstruction in rotary course, the view directions when camera model is obstructed are determined as the second visual angle side
To.
In an alternative embodiment, the receiving module 1220 is also used to receive on visual angle adjustment control
Long press operation;
The acquisition module 1230 is also used to when the duration of the long press operation reaches requirement duration, acquires institute
State the exercise data of terminal.
In an alternative embodiment, the receiving module 1220 is also used to when the length for receiving the long press operation
When by end signal, cancel the acquisition to the exercise data of the terminal;
The display module 1210 is also used to second view directions switching back into first view directions, restores
Show the first environment picture.
In an alternative embodiment, the display module 1210 is also used to the body to the virtual objects
Towards conducting the locking operations, the body direction that the lock operation is used to control the virtual objects is not changed.
In conclusion the device that visual angle adjusts in virtual environment provided in this embodiment, adjusts control by setting visual angle,
When user triggers visual angle adjustment control on first environment interface, the exercise data of acquisition terminal, and according to movement
Direction of the view directions that data point reuse observes virtual environment without changing virtual objects, i.e., remain former in virtual objects
Have direction, while keeping original athletic posture, user can by the motion state of controlling terminal to virtual environment other
View directions are observed, that is, user will not block because of the adjustment operation observed other view directions to virtual
The picture that environment is observed improves the accuracy and efficiency observed virtual environment.
It should be understood that viewing angle adjustment device in virtual environment provided by the above embodiment, only with above-mentioned each function mould
The division progress of block can according to need and for example, in practical application by above-mentioned function distribution by different functional modules
It completes, i.e., the internal structure of equipment is divided into different functional modules, to complete all or part of the functions described above.
In addition, viewing angle adjustment device belongs to visual angle regulating method embodiment in virtual environment in virtual environment provided by the above embodiment
Same design, specific implementation process are detailed in embodiment of the method, and which is not described herein again.
Figure 14 shows the structural block diagram of the terminal 1400 of an illustrative embodiment of the invention offer.The terminal 1400 can
To be: smart phone, tablet computer, MP3 player (Moving Picture Experts Group Audio Layer
III, dynamic image expert's compression standard audio level 3), MP4 (Moving Picture Experts Group Audio
Layer IV, dynamic image expert's compression standard audio level 4) player, laptop or desktop computer.Terminal 1400 is also
Other titles such as user equipment, portable terminal, laptop terminal, terminal console may be referred to as.
In general, terminal 1400 includes: processor 1401 and memory 1402.
Processor 1401 may include one or more processing cores, than, such as 4 core processors, 8 core processors.
Processor 1401 can use DSP (Digital Signal Processing, Digital Signal Processing), FPGA (Field-
Programmable Gate Array, field programmable gate array), PLA (Programmable Logic Array, may be programmed
Logic array) at least one of example, in hardware realize.Processor 1401 also may include primary processor and coprocessor, master
Processor is the processor for being handled data in the awake state, also referred to as CPU (Central Processing
Unit, central processing unit);Coprocessor is the low power processor for being handled data in the standby state.In
In some embodiments, processor 1401 can be integrated with GPU (Graphics Processing Unit, image processor),
GPU is used to be responsible for the rendering and drafting of content to be shown needed for display screen.In some embodiments, processor 1401 can also be wrapped
AI (Artificial Intelligence, artificial intelligence) processor is included, the AI processor is for handling related machine learning
Calculating operation.
Memory 1402 may include one or more computer readable storage mediums, which can
To be non-transient.Memory 1402 may also include high-speed random access memory and nonvolatile memory, such as one
Or multiple disk storage equipments, flash memory device.In some embodiments, the non-transient computer in memory 1402 can
Storage medium is read for storing at least one instruction, at least one instruction performed by processor 1401 for realizing this Shen
Please in embodiment of the method provide virtual environment in virtual objects observation method.
In some embodiments, terminal 1400 is also optional includes: peripheral device interface 1403 and at least one periphery are set
It is standby.It can be connected by bus or signal wire between processor 1401, memory 1402 and peripheral device interface 1403.It is each outer
Peripheral equipment can be connected by bus, signal wire or circuit board with peripheral device interface 1403.Specifically, peripheral equipment includes:
In radio circuit 1404, touch display screen 1405, camera 1406, voicefrequency circuit 1407, positioning component 1408 and power supply 1409
At least one.
Peripheral device interface 1403 can be used for I/O (Input/Output, input/output) is relevant outside at least one
Peripheral equipment is connected to processor 1401 and memory 1402.In some embodiments, processor 1401, memory 1402 and periphery
Equipment interface 1403 is integrated on same chip or circuit board;In some other embodiments, processor 1401, memory
1402 and peripheral device interface 1403 in any one or two can be realized on individual chip or circuit board, this implementation
Example is not limited this.
Radio circuit 1404 is for receiving and emitting RF (Radio Frequency, radio frequency) signal, also referred to as electromagnetic signal.
Radio circuit 1404 is communicated by electromagnetic signal with communication network and other communication equipments.Radio circuit 1404 is by telecommunications
Number being converted to electromagnetic signal is sent, alternatively, the electromagnetic signal received is converted to electric signal.Optionally, radio circuit
1404 include: antenna system, RF transceiver, one or more amplifiers, tuner, oscillator, digital signal processor, volume solution
Code chipset, user identity module card etc..Radio circuit 1404 can by least one wireless communication protocol come with it is other
Terminal is communicated.The wireless communication protocol includes but is not limited to: WWW, Metropolitan Area Network (MAN), Intranet, each third generation mobile communication network
(2G, 3G, 4G and 5G), WLAN and/or WiFi (Wireless Fidelity, Wireless Fidelity) network.In some implementations
In example, radio circuit 1404 can also include that NFC (Near Field Communication, wireless near field communication) is related
Circuit, the application are not limited this.
Display screen 1405 is for showing UI (UserInterface, user interface).The UI may include figure, text, figure
Mark, video and its their any combination.When display screen 1405 is touch display screen, display screen 1405 also has acquisition aobvious
The ability of the touch signal on the surface or surface of display screen 1405.The touch signal can be used as control signal and be input to processing
Device 1401 is handled.At this point, display screen 1405 can be also used for providing virtual push button and/or dummy keyboard, also referred to as soft button
And/or soft keyboard.In some embodiments, display screen 1405 can be one, and the front panel of terminal 1400 is arranged;At other
In embodiment, display screen 1405 can be at least two, be separately positioned on the different surfaces of terminal 1400 or in foldover design;In
In still other embodiments, display screen 1405 can be flexible display screen, be arranged on the curved surface of terminal 1400 or fold plane
On.Even, display screen 1405 can also be arranged to non-rectangle irregular figure, namely abnormity screen.Display screen 1405 can be adopted
With LCD (Liquid Crystal Display, liquid crystal display), (Organic Light-Emitting Diode, has OLED
Machine light emitting diode) etc. materials preparation.
CCD camera assembly 1406 is for acquiring image or video.Optionally, CCD camera assembly 1406 includes front camera
And rear camera.In general, the front panel of terminal is arranged in front camera, the back side of terminal is arranged in rear camera.In
In some embodiments, rear camera at least two is that main camera, depth of field camera, wide-angle camera, focal length are taken the photograph respectively
As any one in head, to realize that main camera and the fusion of depth of field camera realize background blurring function, main camera and wide
Pan-shot and VR (Virtual Reality, virtual reality) shooting function or other fusions are realized in camera fusion in angle
Shooting function.In some embodiments, CCD camera assembly 1406 can also include flash lamp.Flash lamp can be monochromatic temperature flash of light
Lamp is also possible to double-colored temperature flash lamp.Double-colored temperature flash lamp refers to the combination of warm light flash lamp and cold light flash lamp, can be used for
Light compensation under different-colour.
Voicefrequency circuit 1407 may include microphone and loudspeaker.Microphone is used to acquire the sound wave of user and environment, and
It converts sound waves into electric signal and is input to processor 1401 and handled, or be input to radio circuit 1404 to realize that voice is logical
Letter.For stereo acquisition or the purpose of noise reduction, microphone can be separately positioned on the different parts of terminal 1400 to be multiple.
Microphone can also be array microphone or omnidirectional's acquisition type microphone.Loudspeaker is then used to that processor 1401 or radio frequency will to be come from
The electric signal of circuit 1404 is converted to sound wave.Loudspeaker can be traditional wafer speaker, be also possible to piezoelectric ceramics loudspeaking
Device.When loudspeaker is piezoelectric ceramic loudspeaker, the audible sound wave of the mankind can be not only converted electrical signals to, can also be incited somebody to action
Electric signal is converted to the sound wave that the mankind do not hear to carry out the purposes such as ranging.In some embodiments, voicefrequency circuit 1407 may be used also
To include earphone jack.
Positioning component 1408 is used for the current geographic position of positioning terminal 1400, to realize navigation or LBS (Location
Based Service, location based service).Positioning component 1408 can be the GPS (Global based on the U.S.
Positioning System, global positioning system), China dipper system or Russia Galileo system positioning group
Part.
Power supply 1409 is used to be powered for the various components in terminal 1400.Power supply 1409 can be alternating current, direct current
Electricity, disposable battery or rechargeable battery.When power supply 1409 includes rechargeable battery, which can be line charge
Battery or wireless charging battery.Wired charging battery is the battery to be charged by Wireline, and wireless charging battery is to pass through
The battery of wireless coil charging.The rechargeable battery can be also used for supporting fast charge technology.
In some embodiments, terminal 1400 further includes having one or more sensors 1410.One or more sensing
Device 1410 includes but is not limited to: acceleration transducer 1411, gyro sensor 1412, pressure sensor 1413, fingerprint sensing
Device 1414, optical sensor 1415 and proximity sensor 1416.
Acceleration transducer 1411 can detecte the acceleration in three reference axis of the coordinate system established with terminal 1400
Size.For example, acceleration transducer 1411 can be used for detecting component of the acceleration of gravity in three reference axis.Processor
The 1401 acceleration of gravity signals that can be acquired according to acceleration transducer 1411, control touch display screen 1405 with transverse views
Or longitudinal view carries out the display of user interface.Acceleration transducer 1411 can be also used for game or the exercise data of user
Acquisition.
Gyro sensor 1412 can detecte body direction and the rotational angle of terminal 1400, gyro sensor 1412
Acquisition user can be cooperateed with to act the 3D of terminal 1400 with acceleration transducer 1411.Processor 1401 is according to gyro sensors
The data that device 1412 acquires, following function may be implemented: action induction (for example changing UI according to the tilt operation of user) is clapped
Image stabilization, game control and inertial navigation when taking the photograph.
The lower layer of side frame and/or touch display screen 1405 in terminal 1400 can be set in pressure sensor 1413.When
When the side frame of terminal 1400 is arranged in pressure sensor 1413, user can detecte to the gripping signal of terminal 1400, by
Reason device 1401 carries out right-hand man's identification or prompt operation according to the gripping signal that pressure sensor 1413 acquires.Work as pressure sensor
1413 when being arranged in the lower layer of touch display screen 1405, is grasped by processor 1401 according to pressure of the user to touch display screen 1405
Make, realization controls the operability control on the interface UI.Operability control include button control, scroll bar control,
At least one of icon control, menu control.
Fingerprint sensor 1414 is used to acquire the fingerprint of user, is collected by processor 1401 according to fingerprint sensor 1414
Fingerprint recognition user identity, alternatively, by fingerprint sensor 1414 according to the identity of collected fingerprint recognition user.Knowing
Not Chu the identity of user when being trusted identity, authorize the user to execute relevant sensitive operation by processor 1401, which grasps
Make to include solving lock screen, checking encryption information, downloading software, payment and change setting etc..Fingerprint sensor 1414 can be set
Set the front, the back side or side of terminal 1400.When being provided with physical button or manufacturer Logo in terminal 1400, fingerprint sensor
1414 can integrate with physical button or manufacturer Logo.
Optical sensor 1415 is for acquiring ambient light intensity.In one embodiment, processor 1401 can be according to light
The ambient light intensity that sensor 1415 acquires is learned, the display brightness of touch display screen 1405 is controlled.Specifically, work as ambient light intensity
When higher, the display brightness of touch display screen 1405 is turned up;When ambient light intensity is lower, the aobvious of touch display screen 1405 is turned down
Show brightness.In another embodiment, the ambient light intensity that processor 1401 can also be acquired according to optical sensor 1415, is moved
The acquisition parameters of state adjustment CCD camera assembly 1406.
Proximity sensor 1416, also referred to as range sensor are generally arranged at the front panel of terminal 1400.Proximity sensor
1416 for acquiring the distance between the front of user Yu terminal 1400.In one embodiment, when proximity sensor 1416 is examined
When measuring the distance between the front of user and terminal 1400 and gradually becoming smaller, by processor 1401 control touch display screen 1405 from
Bright screen state is switched to breath screen state;When proximity sensor 1416 detect the distance between front of user and terminal 1400 by
When gradual change is big, touch display screen 1405 is controlled by processor 1401 and is switched to bright screen state from breath screen state.
It, can be with it will be understood by those skilled in the art that the restriction of the not structure paired terminal 1400 of structure shown in Figure 14
Including than illustrating more or fewer components, perhaps combining certain components or being arranged using different components.
The embodiment of the present application also provides a kind of computer equipment, which includes memory and processor, storage
Be stored at least one instruction, at least a Duan Chengxu, code set or instruction set in device, at least one instruction, an at least Duan Chengxu,
Code set or instruction set are loaded by processor and realize visual angle in the above-mentioned virtual environment as described in Fig. 6, Fig. 7 and Figure 10 are any
The method of adjustment.
The embodiment of the present application also provides a kind of computer readable storage medium, and at least one is stored in the readable storage medium storing program for executing
Item instruction, at least a Duan Chengxu, code set or instruction set, at least one instruction, an at least Duan Chengxu, the code
Collection or instruction set are loaded by the processor and are executed to realize in the virtual environment as described in Fig. 6, Fig. 7 and Figure 10 are any and regard
The method of angle adjustment.
Present invention also provides a kind of computer program products to make when computer program product is run on computers
Obtain the method that computer executes visual angle adjustment in the virtual environment that above-mentioned each embodiment of the method provides.
Those of ordinary skill in the art will appreciate that all or part of the steps in the various methods of above-described embodiment is can
It is completed with instructing relevant hardware by program, which can be stored in a computer readable storage medium, the meter
Calculation machine readable storage medium storing program for executing can be computer readable storage medium included in the memory in above-described embodiment;It can also be with
It is individualism, without the computer readable storage medium in supplying terminal.Be stored in the computer readable storage medium to
Few an instruction, at least a Duan Chengxu, code set or instruction set, it is at least one instruction, an at least Duan Chengxu, described
Code set or instruction set are loaded by the processor and are executed to realize the virtual environment as described in Fig. 6, Fig. 7 and Figure 10 are any
The observation method of middle virtual objects.
Optionally, the computer readable storage medium may include: read-only memory (ROM, Read Only Memory),
Random access memory (RAM, Random Access Memory), solid state hard disk (SSD, Solid State Drives) or light
Disk etc..Wherein, random access memory may include resistive random access memory body (ReRAM, Resistance Random
Access Memory) and dynamic random access memory (DRAM, Dynamic Random Access Memory).Above-mentioned
Apply for that embodiment sequence number is for illustration only, does not represent the advantages or disadvantages of the embodiments.
Those of ordinary skill in the art will appreciate that realizing that all or part of the steps of above-described embodiment can pass through hardware
It completes, relevant hardware can also be instructed to complete by program, the program can store in a kind of computer-readable
In storage medium, storage medium mentioned above can be read-only memory, disk or CD etc..
The foregoing is merely the preferred embodiments of the application, not to limit the application, it is all in spirit herein and
Within principle, any modification, equivalent replacement, improvement and so on be should be included within the scope of protection of this application.
Claims (15)
1. a kind of method that visual angle adjusts in virtual environment, which is characterized in that the described method includes:
It shows first environment interface, includes that virtual objects are described virtual with the observation of the first view directions in the first environment interface
First picture of environment, the virtual objects have body direction in the virtual environment, go back in the first environment interface
Control is adjusted including visual angle;
Receive the trigger action on visual angle adjustment control;
According to the exercise data of the trigger action acquisition terminal, the exercise data is used to indicate the movement of the terminal body
Situation;
First view directions are adjusted according to the exercise data, obtain the second view directions;
It shows second environment interface, includes that the virtual objects are observed with second view directions in the second environment interface
Second picture of the virtual environment, the virtual objects in the virtual environment the possessed body towards constant.
2. the method according to claim 1, wherein being configured with gyro sensor in the terminal;
The exercise data according to the trigger action acquisition terminal, comprising:
The exercise data that the gyro sensor collects is obtained according to the trigger action.
3. according to the method described in claim 2, it is characterized in that, described obtain the gyroscope biography according to the trigger action
The exercise data that sensor collects, comprising:
The acceleration information that the gyro sensor collects is obtained according to the trigger action;
When the acceleration information, which is greater than acceleration, to be required, the acceleration information is determined as the gyro sensor and is adopted
Collect the obtained exercise data.
4. according to the method described in claim 3, it is characterized in that, the virtual environment is corresponding with world coordinate system, the generation
Boundary's coordinate system includes mutually perpendicular first reference axis, the second reference axis and third reference axis, includes in the acceleration information
The first acceleration along first reference axis, the second acceleration along second reference axis and along the third reference axis
Third acceleration;
It is described when the acceleration information be greater than acceleration require when, the acceleration information is determined as the gyro sensors
The exercise data that device collects, comprising:
It is greater than what the acceleration required when existing in first acceleration, second acceleration and the third acceleration
When acceleration, the acceleration information is determined as the exercise data that the gyro sensor collects.
5. method according to any one of claims 1 to 4, which is characterized in that first view directions are to pass through video camera
Direction when model observes the virtual environment;
It is described that first view directions are adjusted according to the exercise data, obtain the second view directions, comprising:
The direction of motion of the terminal is determined according to the exercise data;
According to the direction of motion by the camera model using the virtual objects as rotation center, with the direction of motion pair
The direction answered is that direction of rotation is rotated in the virtual environment;
The direction that the postrotational camera model observes the virtual environment is determined as the second visual angle side
To.
6. according to the method described in claim 5, it is characterized in that, it is described by the postrotational camera model to the void
The direction that near-ring border is observed is determined as second view directions, comprising:
View when detecting that the camera model has obstruction in rotary course, when the camera model is obstructed
Angular direction is determined as second view directions.
7. method according to any one of claims 1 to 4, which is characterized in that described to receive on visual angle adjustment control
Trigger action, comprising:
Receive the long press operation on visual angle adjustment control;
The exercise data according to the trigger action acquisition terminal, comprising:
When the duration of the long press operation reaches requirement duration, the exercise data of the terminal is acquired.
8. the method according to the description of claim 7 is characterized in that described when the duration of the long press operation reaches requirement
When duration, after the exercise data for acquiring the terminal, further includes:
When receiving the long-pressing end signal of the long press operation, cancel the acquisition to the exercise data of the terminal;
Second view directions are switched back into first view directions, restore to show the first environment picture.
9. method according to any one of claims 1 to 4, which is characterized in that described to receive on visual angle adjustment control
Trigger action after, further includes:
It conducts the locking operations to the body direction of the virtual objects, the lock operation is for controlling the virtual objects
The body towards not being changed.
10. the device that visual angle adjusts in a kind of virtual environment, which is characterized in that described device includes:
Display module includes virtual objects in the first environment interface with the first visual angle side for showing first environment interface
To the first picture for observing the virtual environment, the virtual objects have a body direction in the virtual environment, and described the
It further include adjustment control in visual angle in one environmental interface;
Receiving module, for receiving the trigger action on visual angle adjustment control;
Acquisition module, for the exercise data according to the trigger action acquisition terminal, the exercise data is used to indicate described
The motion conditions of terminal body;
It adjusts module and obtains the second view directions for being adjusted according to the exercise data to first view directions;
The display module, is also used to show second environment interface, include the virtual objects in the second environment interface with
Second view directions observe the second picture of the virtual environment, and the virtual objects are had in the virtual environment
The body towards constant.
11. device according to claim 10, which is characterized in that be configured with gyro sensor in the terminal;
The acquisition module is also used to obtain the movement that the gyro sensor collects according to the trigger action
Data.
12. device according to claim 11, which is characterized in that the acquisition module is also used to be grasped according to the triggering
Make to obtain the acceleration information that the gyro sensor collects;When the acceleration information, which is greater than acceleration, to be required,
The acceleration information is determined as the exercise data that the gyro sensor collects.
13. device according to claim 12, which is characterized in that the virtual environment is corresponding with world coordinate system, described
World coordinate system includes mutually perpendicular first reference axis, the second reference axis and third reference axis, is wrapped in the acceleration information
Include the first acceleration along first reference axis, along the second acceleration of second reference axis and along the third reference axis
Third acceleration;
The acquisition module is also used to exist in first acceleration, second acceleration and the third acceleration
Greater than the acceleration require acceleration when, the acceleration information is determined as what the gyro sensor collected
The exercise data.
14. a kind of computer equipment, which is characterized in that the computer equipment includes processor and memory, the memory
In be stored at least one instruction, at least a Duan Chengxu, code set or instruction set, at least one instruction, described at least one
Duan Chengxu, the code set or instruction set are loaded by the processor and are executed as described in any one of claim 1 to 9 to realize
The method that visual angle adjusts in virtual environment.
15. a kind of computer readable storage medium, which is characterized in that be stored at least one finger in the readable storage medium storing program for executing
Enable, at least a Duan Chengxu, code set or instruction set, at least one instruction, an at least Duan Chengxu, the code set or
Instruction set is loaded by processor and is executed the side to realize visual angle adjustment in virtual environment as described in any one of claim 1 to 9
Method.
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