CN116541121A - Dial fish swimming method, system and storage medium based on intelligent wearable device - Google Patents

Abstract

The invention discloses a dial fish swimming method, a dial fish swimming system and a dial fish swimming storage medium based on intelligent wearable equipment, wherein the dial fish swimming method comprises the following steps: initializing intelligent wearing equipment and acquiring a screen display position of a dial fish on the intelligent wearing equipment; calculating the position relation of the dial fish on the display screen of the intelligent wearable device when the dial fish moves on the display screen, judging whether the dial fish reaches the boundary of the display screen, and if not, controlling the dial fish to move continuously; if yes, changing the current swimming parameters of the dial fish, wherein the swimming parameters comprise a swimming gesture and/or a swimming direction. The dial fish can not jump under the power, the acceleration is gentle due to the influence of the setting resistance, the dial fish can not be infinitely enlarged, the dial fish can move more truly, the user experience is improved, and in addition, compared with the display of the GIF dynamic diagram in the prior art, the storage space of the wearable device is saved.

Description

Dial fish swimming method, system and storage medium based on intelligent wearable device

Technical Field

The invention relates to the technical field of intelligent wearing, in particular to a dial fish swimming method, system and storage medium based on intelligent wearing equipment.

Background

The watch plate effect of the intelligent wearing equipment is colorful, most of the swimming effects are loaded into codes in the form of GIF dynamic resources, so that the intelligent wearing space resources are very tight, and the dynamic effects of the watch plate design and the watch plate are very important for consumers in the intelligent wearing equipment.

Disclosure of Invention

The invention aims to provide a dial fish swimming method, a dial fish swimming system and a dial fish swimming storage medium based on intelligent wearable equipment, and the dial fish is not jumped to move under power, so that the dial fish moves more truly, and the user experience is improved.

The invention provides a dial fish swimming method based on intelligent wearable equipment, which comprises the following steps of:

initializing intelligent wearing equipment and acquiring a screen display position of a dial fish on the intelligent wearing equipment;

when the dial fish moves on the display screen, calculating the position relation of the dial fish on the display screen of the intelligent wearable device, wherein,

judging whether the dial fish reaches the boundary of the display screen, if not, controlling the dial fish to continue swimming; if yes, changing the current swimming parameters of the dial fish, wherein the swimming parameters comprise a swimming gesture and/or a swimming direction.

In this scheme, initialize intelligent wearing equipment to acquire the dial plate fish and be in the screen display position on the intelligent wearing equipment specifically includes:

setting the display screen background as a dynamic water background to initialize the intelligent wearable device;

acquiring a dial coordinate system of the intelligent wearable device, and acquiring dial specification parameters based on the dial coordinate system, wherein the dial specification parameters comprise dial width, dial height, dial resistance and refreshing time;

the method comprises the steps of obtaining dial fish specification parameters based on a dial coordinate system, wherein the dial fish specification parameters comprise dial fish coordinates, dial fish speed, dial fish acceleration and dial fish power.

In this scheme, when dial plate fish moves about on the display screen, calculate the dial plate fish is in the relation of position on the intelligent wearing equipment display screen specifically includes:

when the dial fish moves on the display screen, calculating the position relation between the dial fish and the boundary of the display screen based on the coordinates of the dial fish, wherein,

calculating the distance between the dial fish coordinates and a first boundary of the display screen to obtain a first position relationship, wherein the first boundary comprises a left boundary and a right boundary of the display screen;

and calculating the distance between the dial fish coordinates and a second boundary of the display screen to obtain a second position relationship, wherein the second boundary comprises an upper boundary and a lower boundary of the display screen.

In this scheme, judge whether dial plate fish reaches the boundary of display screen, if not, then control dial plate fish continues to move about, specifically includes:

judging whether the dial fish reaches the boundary of the display screen based on the first position relation and the second position relation, wherein,

and when the first position relation or the second position relation is not a preset value, indicating that the current dial fish does not reach the boundary of the display screen, and controlling the dial fish to continue swimming.

In this scheme, judge whether dial plate fish reaches the boundary of display screen, if yes, change current dial plate fish's parameter of swimming specifically includes:

when the first position relation is the preset value, indicating that the current dial fish reaches the left boundary or the right boundary of the display screen;

changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing a swimming posture and a swimming direction, changing the speed of the dial fish and/or the acceleration of the dial fish and/or the power of the dial fish to change the swimming posture, and changing the advancing direction of the dial fish to update the swimming direction.

In this scheme, judge whether dial plate fish reaches the boundary of display screen, if yes, change current dial plate fish's parameter of swimming still includes:

when the second position relation is the preset value and the first position relation is not the preset value, indicating that the current dial fish reaches the upper boundary or the lower boundary of the display screen;

changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing the swimming direction, and particularly changing the advancing direction of the dial fish to update the swimming direction.

The second aspect of the invention also provides a dial fish swimming system based on the intelligent wearing equipment, which comprises a memory and a processor, wherein the memory comprises a dial fish swimming method program based on the intelligent wearing equipment, and the dial fish swimming method program based on the intelligent wearing equipment realizes the following steps when being executed by the processor:

initializing intelligent wearing equipment and acquiring a screen display position of a dial fish on the intelligent wearing equipment;

when the dial fish moves on the display screen, calculating the position relation of the dial fish on the display screen of the intelligent wearable device, wherein,

judging whether the dial fish reaches the boundary of the display screen, if not, controlling the dial fish to continue swimming; if yes, changing the current swimming parameters of the dial fish, wherein the swimming parameters comprise a swimming gesture and/or a swimming direction.

In this scheme, initialize intelligent wearing equipment to acquire the dial plate fish and be in the screen display position on the intelligent wearing equipment specifically includes:

setting the display screen background as a dynamic water background to initialize the intelligent wearable device;

acquiring a dial coordinate system of the intelligent wearable device, and acquiring dial specification parameters based on the dial coordinate system, wherein the dial specification parameters comprise dial width, dial height, dial resistance and refreshing time;

the method comprises the steps of obtaining dial fish specification parameters based on a dial coordinate system, wherein the dial fish specification parameters comprise dial fish coordinates, dial fish speed, dial fish acceleration and dial fish power.

In this scheme, when dial plate fish moves about on the display screen, calculate the dial plate fish is in the relation of position on the intelligent wearing equipment display screen specifically includes:

when the dial fish moves on the display screen, calculating the position relation between the dial fish and the boundary of the display screen based on the coordinates of the dial fish, wherein,

calculating the distance between the dial fish coordinates and a first boundary of the display screen to obtain a first position relationship, wherein the first boundary comprises a left boundary and a right boundary of the display screen;

and calculating the distance between the dial fish coordinates and a second boundary of the display screen to obtain a second position relationship, wherein the second boundary comprises an upper boundary and a lower boundary of the display screen.

In this scheme, judge whether dial plate fish reaches the boundary of display screen, if not, then control dial plate fish continues to move about, specifically includes:

judging whether the dial fish reaches the boundary of the display screen based on the first position relation and the second position relation, wherein,

and when the first position relation or the second position relation is not a preset value, indicating that the current dial fish does not reach the boundary of the display screen, and controlling the dial fish to continue swimming.

In this scheme, judge whether dial plate fish reaches the boundary of display screen, if yes, change current dial plate fish's parameter of swimming specifically includes:

when the first position relation is the preset value, indicating that the current dial fish reaches the left boundary or the right boundary of the display screen;

changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing a swimming posture and a swimming direction, changing the speed of the dial fish and/or the acceleration of the dial fish and/or the power of the dial fish to change the swimming posture, and changing the advancing direction of the dial fish to update the swimming direction.

In this scheme, judge whether dial plate fish reaches the boundary of display screen, if yes, change current dial plate fish's parameter of swimming still includes:

when the second position relation is the preset value and the first position relation is not the preset value, indicating that the current dial fish reaches the upper boundary or the lower boundary of the display screen;

changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing the swimming direction, and particularly changing the advancing direction of the dial fish to update the swimming direction.

A third aspect of the present invention provides a computer readable storage medium, including a dial fish swimming method program based on an intelligent wearable device of a machine, where the dial fish swimming method program based on the intelligent wearable device, when executed by a processor, implements the steps of a dial fish swimming method based on the intelligent wearable device as described in any one of the above.

According to the dial fish swimming method, system and storage medium based on the intelligent wearable equipment, the dial fish is free from jumping swimming under the power, acceleration is gentle due to the influence of setting resistance, the speed is not infinitely increased, the dial fish can swim more truly, user experience is improved, and in addition, compared with the display of a GIF dynamic diagram in the prior art, the storage space of the wearable equipment is saved.

Drawings

Fig. 1 shows a flow chart of a dial fish swimming method based on intelligent wearable equipment;

fig. 2 shows a schematic diagram of a dial fish swimming scene of the dial fish swimming method based on the intelligent wearable device;

fig. 3 shows a block diagram of a dial fish swimming system based on an intelligent wearable device of the present invention.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

Fig. 1 shows a flow chart of a dial fish swimming method based on intelligent wearable equipment.

As shown in fig. 1, the application discloses a dial fish swimming method based on intelligent wearable equipment, which comprises the following steps:

s102, initializing intelligent wearing equipment and acquiring the screen display position of the dial fish on the intelligent wearing equipment;

s104, calculating the position relation of the dial fish on the display screen of the intelligent wearable device when the dial fish moves on the display screen;

s106, judging whether the dial fish reaches the boundary of the display screen, if not, controlling the dial fish to continue swimming; if yes, changing the current swimming parameters of the dial fish, wherein the swimming parameters comprise a swimming gesture and/or a swimming direction.

It should be noted that, in this embodiment, the dial background of the intelligent wearable device is initialized to be a dynamic water background, a screen display position of the dial fish on the intelligent wearable device is obtained, when the dial fish moves on a display screen, a position relationship of the dial fish on the display screen of the intelligent wearable device is calculated, specifically, the dial fish can change positions based on a preset refreshing function to realize the back and forth movement of the dial fish in the dial, wherein the refreshing function is used for changing the coordinates of the dial fish without repeated description herein, and is a function of position change selectable by a person skilled in the art, when the dial fish moves, whether the current dial fish reaches the boundary of the display screen is judged, so that the movement parameters of the dial fish are adjusted, and if not, the dial fish is controlled to continue moving; if yes, changing the current swimming parameters of the dial fish, wherein the swimming parameters comprise a swimming gesture and/or a swimming direction.

According to the embodiment of the invention, the intelligent wearing equipment is initialized, and the screen display position of the dial fish on the intelligent wearing equipment is obtained, specifically comprising:

setting the display screen background as a dynamic water background to initialize the intelligent wearable device;

acquiring a dial coordinate system of the intelligent wearable device, and acquiring dial specification parameters based on the dial coordinate system, wherein the dial specification parameters comprise dial width, dial height, dial resistance and refreshing time;

the method comprises the steps of obtaining dial fish specification parameters based on a dial coordinate system, wherein the dial fish specification parameters comprise dial fish coordinates, dial fish speed, dial fish acceleration and dial fish power.

It should be noted that, in this embodiment, the display screen background needs to be set as a dynamic water background so that the intelligent wearable device may be initialized, and accordingly, taking the intelligent watch as an example, a dial coordinate system of the intelligent watch is obtained so that a current dial specification parameter may be obtained, where the dial specification parameter corresponds to a dial width, a dial height, a dial resistance and a refresh time, where the refresh time is related to a coordinate of a dial fish, and accordingly, when the dial fish is displayed on the display screen, the dial fish specification parameter may be obtained based on the dial coordinate system, where the dial fish specification parameter includes a dial fish coordinate, a dial fish speed, a dial fish acceleration and a dial fish power.

According to the embodiment of the invention, when the dial fish moves on the display screen, the position relation of the dial fish on the display screen of the intelligent wearable device is calculated, and the method specifically comprises the following steps:

when the dial fish moves on the display screen, calculating the position relation between the dial fish and the boundary of the display screen based on the coordinates of the dial fish, wherein,

calculating the distance between the dial fish coordinates and a first boundary of the display screen to obtain a first position relationship, wherein the first boundary comprises a left boundary and a right boundary of the display screen;

and calculating the distance between the dial fish coordinates and a second boundary of the display screen to obtain a second position relationship, wherein the second boundary comprises an upper boundary and a lower boundary of the display screen.

In this embodiment, as shown in fig. 2, a scene diagram of a dial fish moving on a dial is displayed, and when the dial fish moves on a display screen, a positional relationship with a boundary of the display screen is calculated based on the dial fish coordinates, wherein a first positional relationship is obtained by calculating a distance between the dial fish coordinates and a first boundary of the display screen, specifically, a shortest euclidean distance between the coordinates and the first boundary is calculated, and the first boundary includes a left boundary and a right boundary of the display screen; calculating the distance between the dial fish coordinates and the second boundary of the display screen to obtain a second position relationship, specifically calculating the shortest Euclidean distance between the coordinates and the second boundary, wherein the second boundary comprises an upper boundary and a lower boundary of the display screen, and distinguishing the two first boundaries from the second boundary is due to different modified swimming parameters when dial fish corresponding to different boundaries touch, and specifically, the following description is given.

According to the embodiment of the invention, the step of judging whether the dial fish reaches the boundary of the display screen or not, if not, controlling the dial fish to continue swimming comprises the following steps:

judging whether the dial fish reaches the boundary of the display screen based on the first position relation and the second position relation, wherein,

and when the first position relation or the second position relation is not a preset value, indicating that the current dial fish does not reach the boundary of the display screen, and controlling the dial fish to continue swimming.

In this embodiment, since the dial fish needs to determine whether the dial fish reaches the boundary of the display screen according to the corresponding position relationship when the dial fish moves, a point contacting the boundary may be used as the calculation coordinate of the dial fish, or the preset value may be a uniform number value or a different number value for different boundaries, and the calculation coordinate is taken as an example, where when the shortest euclidean distance between the dial fish and the first boundary in the first position relationship is equal to the corresponding preset value, it indicates that the dial fish has reached the first boundary of the display screen, and the movement parameter needs to be adjusted, and when the point is not equal to the first boundary, it indicates that the dial fish does not reach the boundary of the display screen, the dial fish is controlled to continue moving.

According to the embodiment of the invention, the judging whether the dial fish reaches the boundary of the display screen or not, if yes, changing the current swimming parameters of the dial fish specifically includes:

when the first position relation is the preset value, indicating that the current dial fish reaches the left boundary or the right boundary of the display screen;

changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing a swimming posture and a swimming direction, changing the speed of the dial fish and/or the acceleration of the dial fish and/or the power of the dial fish to change the swimming posture, and changing the advancing direction of the dial fish to update the swimming direction.

It should be noted that, in the foregoing embodiment, when the dial fish corresponding to the different boundaries is described as touching, the modified swimming parameter is different, and in this embodiment, when the dial fish touches the first boundary, that is, when the first positional relationship is the preset value, it indicates that the current dial fish reaches the left boundary or the right boundary of the display screen, and at this time, the current swimming parameter of the dial fish is modified, where the modification includes modification of the swimming posture and the swimming direction, where the modification of the speed of the dial fish and/or the acceleration of the dial fish and/or the power of the dial fish changes the swimming posture, and modification of the advancing direction of the dial fish updates the swimming direction.

According to the embodiment of the invention, the step of judging whether the dial fish reaches the boundary of the display screen or not, if yes, changing the current swimming parameters of the dial fish, further comprises:

when the second position relation is the preset value and the first position relation is not the preset value, indicating that the current dial fish reaches the upper boundary or the lower boundary of the display screen;

changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing the swimming direction, and particularly changing the advancing direction of the dial fish to update the swimming direction.

It should be noted that, in this embodiment, when the dial fish corresponding to the different boundaries is touched, the modified swimming parameter is different, and in this embodiment, when the dial fish touches a second boundary, that is, when the second positional relationship is the preset value and the first positional relationship is not the preset value, it is indicated that the current dial fish reaches the upper boundary or the lower boundary of the display screen; changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing the swimming direction, and particularly changing the advancing direction of the dial fish to update the swimming direction.

It should be noted that the changing the swimming posture and the advancing direction of the dial fish to update the swimming direction specifically includes:

when the dial fish contacts the second boundary, the counter direction based on the current advancing direction of the dial fish is used as the moving direction so as to control the dial fish to move reversely;

when the dial fish touches the first boundary, the vertical speed component of the current dial fish speed in the upper and lower boundary directions is turned to change the swimming direction so as to control the dial fish to swim.

In this embodiment, when the dial fish touches the second boundary, the direction opposite to the current forward direction is used as the corresponding swimming direction of the dial fish, so as to control the dial fish to perform reverse swimming, and when the dial fish touches the first boundary, the original transverse velocity in the direction is not changed, but the original vertical velocity component is turned to change the corresponding swimming direction, so as to control the dial fish to perform swimming.

It is worth mentioning that the modifying the swimming posture further includes:

after the dial fish touches the first boundary and the swimming direction is changed, the acceleration of the dial fish is doubled;

and/or zeroing dial fish power.

It should be noted that, in this embodiment, since the fish collides with the wall when swimming, the acceleration of the dial fish may be doubled to simulate the frightened avoidance behavior of the fish, and/or the dial fish power may be zeroed to simulate the avoidance behavior of the fish striking the fish.

It is worth mentioning that the method further comprises:

identifying the stay position and stay time of the dial fish at a certain position in a display screen;

judging whether the stay position is positioned in a target area, if so, adjusting the dial fish to an initial position, if not, judging whether the stay time is larger than a preset duration limit value, if so, adjusting the dial fish to the initial position, and if not, performing no processing.

It should be noted that, in this embodiment, since the dial fish may appear at a certain point for a long time, the corresponding reason may be that the dial fish is in a resting state or a seizing state in a bionic manner, at this time, the staying position and the staying time of the dial fish at the corresponding positions in the display screen need to be identified to determine whether the staying position is located in the target area, if yes, the dial fish is adjusted to the initial position, if no, whether the staying time is greater than the preset duration limit value is determined, if yes, the dial fish is adjusted to the initial position, otherwise, no processing is performed to overcome the problem of seizing of the dial fish.

Fig. 3 shows a block diagram of a dial fish swimming system based on an intelligent wearable device of the present invention.

As shown in fig. 3, the invention discloses a dial fish swimming system based on intelligent wearing equipment, which comprises a memory and a processor, wherein the memory comprises a dial fish swimming method program based on the intelligent wearing equipment, and the dial fish swimming method program based on the intelligent wearing equipment realizes the following steps when being executed by the processor:

initializing intelligent wearing equipment and acquiring a screen display position of a dial fish on the intelligent wearing equipment;

when the dial fish moves on the display screen, calculating the position relation of the dial fish on the display screen of the intelligent wearable device, wherein,

judging whether the dial fish reaches the boundary of the display screen, if not, controlling the dial fish to continue swimming; if yes, changing the current swimming parameters of the dial fish, wherein the swimming parameters comprise a swimming gesture and/or a swimming direction.

It should be noted that, in this embodiment, the dial background of the intelligent wearable device is initialized to be a dynamic water background, a screen display position of the dial fish on the intelligent wearable device is obtained, when the dial fish moves on a display screen, a position relationship of the dial fish on the display screen of the intelligent wearable device is calculated, specifically, the dial fish can change positions based on a preset refreshing function to realize the back and forth movement of the dial fish in the dial, wherein the refreshing function is used for changing the coordinates of the dial fish without repeated description herein, and is a function of position change selectable by a person skilled in the art, when the dial fish moves, whether the current dial fish reaches the boundary of the display screen is judged, so that the movement parameters of the dial fish are adjusted, and if not, the dial fish is controlled to continue moving; if yes, changing the current swimming parameters of the dial fish, wherein the swimming parameters comprise a swimming gesture and/or a swimming direction.

According to the embodiment of the invention, the intelligent wearing equipment is initialized, and the screen display position of the dial fish on the intelligent wearing equipment is obtained, specifically comprising:

setting the display screen background as a dynamic water background to initialize the intelligent wearable device;

acquiring a dial coordinate system of the intelligent wearable device, and acquiring dial specification parameters based on the dial coordinate system, wherein the dial specification parameters comprise dial width, dial height, dial resistance and refreshing time;

the method comprises the steps of obtaining dial fish specification parameters based on a dial coordinate system, wherein the dial fish specification parameters comprise dial fish coordinates, dial fish speed, dial fish acceleration and dial fish power.

It should be noted that, in this embodiment, the display screen background needs to be set as a dynamic water background so that the intelligent wearable device may be initialized, and accordingly, taking the intelligent watch as an example, a dial coordinate system of the intelligent watch is obtained so that a current dial specification parameter may be obtained, where the dial specification parameter corresponds to a dial width, a dial height, a dial resistance and a refresh time, where the refresh time is related to a coordinate of a dial fish, and accordingly, when the dial fish is displayed on the display screen, the dial fish specification parameter may be obtained based on the dial coordinate system, where the dial fish specification parameter includes a dial fish coordinate, a dial fish speed, a dial fish acceleration and a dial fish power.

According to the embodiment of the invention, when the dial fish moves on the display screen, the position relation of the dial fish on the display screen of the intelligent wearable device is calculated, and the method specifically comprises the following steps:

when the dial fish moves on the display screen, calculating the position relation between the dial fish and the boundary of the display screen based on the coordinates of the dial fish, wherein,

calculating the distance between the dial fish coordinates and a first boundary of the display screen to obtain a first position relationship, wherein the first boundary comprises a left boundary and a right boundary of the display screen;

and calculating the distance between the dial fish coordinates and a second boundary of the display screen to obtain a second position relationship, wherein the second boundary comprises an upper boundary and a lower boundary of the display screen.

In this embodiment, as shown in fig. 2, a scene diagram of a dial fish moving on a dial is displayed, and when the dial fish moves on a display screen, a positional relationship with a boundary of the display screen is calculated based on the dial fish coordinates, wherein a first positional relationship is obtained by calculating a distance between the dial fish coordinates and a first boundary of the display screen, specifically, a shortest euclidean distance between the coordinates and the first boundary is calculated, and the first boundary includes a left boundary and a right boundary of the display screen; calculating the distance between the dial fish coordinates and the second boundary of the display screen to obtain a second position relationship, specifically calculating the shortest Euclidean distance between the coordinates and the second boundary, wherein the second boundary comprises an upper boundary and a lower boundary of the display screen, and distinguishing the two first boundaries from the second boundary is due to different modified swimming parameters when dial fish corresponding to different boundaries touch, and specifically, the following description is given.

According to the embodiment of the invention, the step of judging whether the dial fish reaches the boundary of the display screen or not, if not, controlling the dial fish to continue swimming comprises the following steps:

judging whether the dial fish reaches the boundary of the display screen based on the first position relation and the second position relation, wherein,

and when the first position relation or the second position relation is not a preset value, indicating that the current dial fish does not reach the boundary of the display screen, and controlling the dial fish to continue swimming.

In this embodiment, since the dial fish needs to determine whether the dial fish reaches the boundary of the display screen according to the corresponding position relationship when the dial fish moves, a point contacting the boundary may be used as the calculation coordinate of the dial fish, or the preset value may be a uniform number value or a different number value for different boundaries, and the calculation coordinate is taken as an example, where when the shortest euclidean distance between the dial fish and the first boundary in the first position relationship is equal to the corresponding preset value, it indicates that the dial fish has reached the first boundary of the display screen, and the movement parameter needs to be adjusted, and when the point is not equal to the first boundary, it indicates that the dial fish does not reach the boundary of the display screen, the dial fish is controlled to continue moving.

According to the embodiment of the invention, the judging whether the dial fish reaches the boundary of the display screen or not, if yes, changing the current swimming parameters of the dial fish specifically includes:

when the first position relation is the preset value, indicating that the current dial fish reaches the left boundary or the right boundary of the display screen;

changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing a swimming posture and a swimming direction, changing the speed of the dial fish and/or the acceleration of the dial fish and/or the power of the dial fish to change the swimming posture, and changing the advancing direction of the dial fish to update the swimming direction.

It should be noted that, in the foregoing embodiment, when the dial fish corresponding to the different boundaries is described as touching, the modified swimming parameter is different, and in this embodiment, when the dial fish touches the first boundary, that is, when the first positional relationship is the preset value, it indicates that the current dial fish reaches the left boundary or the right boundary of the display screen, and at this time, the current swimming parameter of the dial fish is modified, where the modification includes modification of the swimming posture and the swimming direction, where the modification of the speed of the dial fish and/or the acceleration of the dial fish and/or the power of the dial fish changes the swimming posture, and modification of the advancing direction of the dial fish updates the swimming direction.

According to the embodiment of the invention, the step of judging whether the dial fish reaches the boundary of the display screen or not, if yes, changing the current swimming parameters of the dial fish, further comprises:

when the second position relation is the preset value and the first position relation is not the preset value, indicating that the current dial fish reaches the upper boundary or the lower boundary of the display screen;

changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing the swimming direction, and particularly changing the advancing direction of the dial fish to update the swimming direction.

It should be noted that, in this embodiment, when the dial fish corresponding to the different boundaries is touched, the modified swimming parameter is different, and in this embodiment, when the dial fish touches a second boundary, that is, when the second positional relationship is the preset value and the first positional relationship is not the preset value, it is indicated that the current dial fish reaches the upper boundary or the lower boundary of the display screen; changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing the swimming direction, and particularly changing the advancing direction of the dial fish to update the swimming direction.

It should be noted that the changing the swimming posture and the advancing direction of the dial fish to update the swimming direction specifically includes:

when the dial fish contacts the second boundary, the counter direction based on the current advancing direction of the dial fish is used as the moving direction so as to control the dial fish to move reversely;

when the dial fish touches the first boundary, the vertical speed component of the current dial fish speed in the upper and lower boundary directions is turned to change the swimming direction so as to control the dial fish to swim.

In this embodiment, when the dial fish touches the second boundary, the direction opposite to the current forward direction is used as the corresponding swimming direction of the dial fish, so as to control the dial fish to perform reverse swimming, and when the dial fish touches the first boundary, the original transverse velocity in the direction is not changed, but the original vertical velocity component is turned to change the corresponding swimming direction, so as to control the dial fish to perform swimming.

It is worth mentioning that the modifying the swimming posture further includes:

after the dial fish touches the first boundary and the swimming direction is changed, the acceleration of the dial fish is doubled;

and/or zeroing dial fish power.

It should be noted that, in this embodiment, since the fish collides with the wall when swimming, the acceleration of the dial fish may be doubled to simulate the frightened avoidance behavior of the fish, and/or the dial fish power may be zeroed to simulate the avoidance behavior of the fish striking the fish.

It is worth mentioning that the method further comprises:

identifying the stay position and stay time of the dial fish at a certain position in a display screen;

judging whether the stay position is positioned in a target area, if so, adjusting the dial fish to an initial position, if not, judging whether the stay time is larger than a preset duration limit value, if so, adjusting the dial fish to the initial position, and if not, performing no processing.

It should be noted that, in this embodiment, since the dial fish may appear at a certain point for a long time, the corresponding reason may be that the dial fish is in a resting state or a seizing state in a bionic manner, at this time, the staying position and the staying time of the dial fish at the corresponding positions in the display screen need to be identified to determine whether the staying position is located in the target area, if yes, the dial fish is adjusted to the initial position, if no, whether the staying time is greater than the preset duration limit value is determined, if yes, the dial fish is adjusted to the initial position, otherwise, no processing is performed to overcome the problem of seizing of the dial fish.

A third aspect of the present invention provides a computer readable storage medium, where the computer readable storage medium includes a dial fish swimming method program based on an intelligent wearable device, where the dial fish swimming method program based on the intelligent wearable device, when executed by a processor, implements the steps of a dial fish swimming method based on the intelligent wearable device as described in any one of the above.

According to the dial fish swimming method, system and storage medium based on the intelligent wearable equipment, the dial fish is free from jumping swimming under the power, acceleration is gentle due to the influence of setting resistance, the speed is not infinitely increased, the dial fish can swim more truly, user experience is improved, and in addition, compared with the display of a GIF dynamic diagram in the prior art, the storage space of the wearable equipment is saved.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above described device embodiments are only illustrative, e.g. the division of the units is only one logical function division, and there may be other divisions in practice, such as: multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. In addition, the various components shown or discussed may be coupled or directly coupled or communicatively coupled to each other via some interface, whether indirectly coupled or communicatively coupled to devices or units, whether electrically, mechanically, or otherwise.

The units described above as separate components may or may not be physically separate, and components shown as units may or may not be physical units; can be located in one place or distributed to a plurality of network units; some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present invention may be integrated in one processing unit, or each unit may be separately used as one unit, or two or more units may be integrated in one unit; the integrated units may be implemented in hardware or in hardware plus software functional units.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the above method embodiments may be implemented by hardware related to program instructions, and the foregoing program may be stored in a computer readable storage medium, where the program, when executed, performs steps including the above method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk or an optical disk, or the like, which can store program codes.

Alternatively, the above-described integrated units of the present invention may be stored in a computer-readable storage medium if implemented in the form of software functional modules and sold or used as separate products. Based on such understanding, the technical solutions of the embodiments of the present invention may be embodied in essence or a part contributing to the prior art in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, ROM, RAM, magnetic or optical disk, or other medium capable of storing program code.

Claims (10)

1. The dial fish swimming method based on the intelligent wearable equipment is characterized by comprising the following steps of:

initializing intelligent wearing equipment and acquiring a screen display position of a dial fish on the intelligent wearing equipment;

when the dial fish moves on the display screen, calculating the position relation of the dial fish on the display screen of the intelligent wearable device, wherein,

judging whether the dial fish reaches the boundary of the display screen, if not, controlling the dial fish to continue swimming; if yes, changing the current swimming parameters of the dial fish, wherein the swimming parameters comprise a swimming gesture and/or a swimming direction.

2. The method for swimming the dial fish based on the intelligent wearable device according to claim 1, wherein the initializing the intelligent wearable device and obtaining the screen display position of the dial fish on the intelligent wearable device specifically comprises:

setting the display screen background as a dynamic water background to initialize the intelligent wearable device;

acquiring a dial coordinate system of the intelligent wearable device, and acquiring dial specification parameters based on the dial coordinate system, wherein the dial specification parameters comprise dial width, dial height, dial resistance and refreshing time;

the method comprises the steps of obtaining dial fish specification parameters based on a dial coordinate system, wherein the dial fish specification parameters comprise dial fish coordinates, dial fish speed, dial fish acceleration and dial fish power.

3. The method for swimming the dial fish based on the intelligent wearable device according to claim 2, wherein the calculating the position relationship of the dial fish on the display screen of the intelligent wearable device when the dial fish moves on the display screen specifically comprises:

when the dial fish moves on the display screen, calculating the position relation between the dial fish and the boundary of the display screen based on the coordinates of the dial fish, wherein,

calculating the distance between the dial fish coordinates and a first boundary of the display screen to obtain a first position relationship, wherein the first boundary comprises a left boundary and a right boundary of the display screen;

and calculating the distance between the dial fish coordinates and a second boundary of the display screen to obtain a second position relationship, wherein the second boundary comprises an upper boundary and a lower boundary of the display screen.

4. The method for swimming a dial fish based on intelligent wearable equipment according to claim 3, wherein the step of judging whether the dial fish reaches the boundary of the display screen or not, if not, controlling the dial fish to continue swimming comprises the following steps:

judging whether the dial fish reaches the boundary of the display screen based on the first position relation and the second position relation, wherein,

and when the first position relation or the second position relation is not a preset value, indicating that the current dial fish does not reach the boundary of the display screen, and controlling the dial fish to continue swimming.

5. The method for swimming the dial fish based on the intelligent wearable device according to claim 4, wherein the determining whether the dial fish reaches the boundary of the display screen, if yes, changing the current swimming parameters of the dial fish, specifically includes:

when the first position relation is the preset value, indicating that the current dial fish reaches the left boundary or the right boundary of the display screen;

changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing a swimming posture and a swimming direction, changing the speed of the dial fish and/or the acceleration of the dial fish and/or the power of the dial fish to change the swimming posture, and changing the advancing direction of the dial fish to update the swimming direction.

6. The method for swimming the dial fish based on the intelligent wearable device according to claim 5, wherein the determining whether the dial fish reaches the boundary of the display screen, if yes, changing the current swimming parameters of the dial fish, further comprises:

when the second position relation is the preset value and the first position relation is not the preset value, indicating that the current dial fish reaches the upper boundary or the lower boundary of the display screen;

changing the current swimming parameters of the dial fish, wherein the current swimming parameters comprise changing the swimming direction, and particularly changing the advancing direction of the dial fish to update the swimming direction.

7. The dial fish swimming system based on the intelligent wearable device is characterized by comprising a memory and a processor, wherein the memory comprises a dial fish swimming method program based on the intelligent wearable device, and the dial fish swimming method program based on the intelligent wearable device is executed by the processor to realize the following steps:

initializing intelligent wearing equipment and acquiring a screen display position of a dial fish on the intelligent wearing equipment;

when the dial fish moves on the display screen, calculating the position relation of the dial fish on the display screen of the intelligent wearable device, wherein,

judging whether the dial fish reaches the boundary of the display screen, if not, controlling the dial fish to continue swimming; if yes, changing the current swimming parameters of the dial fish, wherein the swimming parameters comprise a swimming gesture and/or a swimming direction.

8. The dial fish swimming system based on the intelligent wearable device according to claim 7, wherein the initializing the intelligent wearable device and obtaining the screen display position of the dial fish on the intelligent wearable device specifically comprises:

setting the display screen background as a dynamic water background to initialize the intelligent wearable device;

acquiring a dial coordinate system of the intelligent wearable device, and acquiring dial specification parameters based on the dial coordinate system, wherein the dial specification parameters comprise dial width, dial height, dial resistance and refreshing time;

the method comprises the steps of obtaining dial fish specification parameters based on a dial coordinate system, wherein the dial fish specification parameters comprise dial fish coordinates, dial fish speed, dial fish acceleration and dial fish power.

9. The dial fish swimming system based on the intelligent wearable device according to claim 8, wherein the calculating the position relationship of the dial fish on the display screen of the intelligent wearable device when the dial fish moves on the display screen specifically comprises:

when the dial fish moves on the display screen, calculating the position relation between the dial fish and the boundary of the display screen based on the coordinates of the dial fish, wherein,

calculating the distance between the dial fish coordinates and a first boundary of the display screen to obtain a first position relationship, wherein the first boundary comprises a left boundary and a right boundary of the display screen;

and calculating the distance between the dial fish coordinates and a second boundary of the display screen to obtain a second position relationship, wherein the second boundary comprises an upper boundary and a lower boundary of the display screen.

10. A computer readable storage medium, wherein the computer readable storage medium includes a dial fish swimming method program based on an intelligent wearable device, and when the dial fish swimming method program based on the intelligent wearable device is executed by a processor, the steps of the dial fish swimming method based on the intelligent wearable device are implemented as described in any one of claims 1 to 6.