CN109814791A - Method, apparatus, storage medium and the electronic equipment of process flow node - Google Patents
Method, apparatus, storage medium and the electronic equipment of process flow node Download PDFInfo
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- CN109814791A CN109814791A CN201811565796.XA CN201811565796A CN109814791A CN 109814791 A CN109814791 A CN 109814791A CN 201811565796 A CN201811565796 A CN 201811565796A CN 109814791 A CN109814791 A CN 109814791A
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Abstract
This disclosure relates to a kind of method, apparatus, storage medium and the electronic equipment of process flow node, flow operations end is determined in the first pass processing interface at the flow operations end to collaboration process node;Described when collaboration process node is towed, the mobile message to collaboration process node is obtained;Determine whether the mobile message meets default cooperation condition;When determining that the mobile message meets the default cooperation condition, the current location to collaboration process node on first pass processing interface is obtained;The mobile message and the current location are sent to process cooperation end, so that process cooperation end can control target flow nodes simulation in second procedure processing interface moving process to collaboration process node in first pass processing interface according to the mobile message according to the current location.
Description
Technical field
This disclosure relates to which flow template establishes field, and in particular, to a kind of method, apparatus of process flow node,
Storage medium and electronic equipment.
Background technique
Flow template defines operation flow, including the connection path between node and node, is mainly used in interaction
Cooperating operation system in, for across tissue Complicated Flow design, usually by multiple tissue responsible persons online cooperate complete flow
Journey design, i.e., each process design for organizing to be responsible in department.
When traditional process template cooperating, the mode changing section process of periodic synchronization is generallyd use, it can according to
The modification information of predeterminated frequency to cooperation end transmission flow node can be according to higher in order to keep the synchronism of cooperating
Predeterminated frequency carry out the synchronization of nodal information, but this needs to occupy a large amount of Internet resources, causes the burden of network communication, is
The burden of the network communication is reduced, can reduce the predeterminated frequency, but this end that can make to cooperate again can not real time inspection other groups
Interior process is knitted, so that the efficiency of flow template foundation can be reduced.
Summary of the invention
The disclosure provides method, apparatus, storage medium and the electronic equipment of a kind of process flow node.
In a first aspect, providing a kind of method of process flow node, it is applied to flow operations end, which comprises
It determines in the first pass processing interface at flow operations end to collaboration process node;It is described to collaboration process node described
When towed in one flow processing interface, the mobile message when collaboration process node when towed is obtained;Described in determination
Whether mobile message meets default cooperation condition;When determining that the mobile message meets the default cooperation condition, institute is obtained
State the current location to collaboration process node on first pass processing interface;By the mobile message and the present bit
It sets and is sent to process cooperation end, so that process cooperation end determines in the second procedure processing interface at process cooperation end
It is described after the corresponding target flow nodes of collaboration process node, according to the current location according to the mobile message control institute
State the simulation in second procedure processing interface of target flow nodes it is described to collaboration process node at the first pass
Manage the moving process in interface.
Optionally, the mobile message includes movement speed and moving direction, and the default cooperation condition includes: according to institute
It states movement speed and determines that the absolute value of the translational acceleration when collaboration process node when towed is more than or equal in advance
If acceleration rate threshold;And/or the moving direction changes.
Second aspect provides a kind of method of process flow node, is applied to process cooperation end, which comprises
Flow operations end determines in the first pass processing interface at the flow operations end to collaboration process node, and described wait cooperate
After flow nodes are towed, receive process operating side send the mobile message when collaboration process node when towed and
The current location to collaboration process node on first pass processing interface;Second at process cooperation end
Journey handles determining described to the corresponding target flow nodes of collaboration process node in interface;According to the current location according to described
Mobile message controls the target flow nodes and exists described in simulation to collaboration process node in second procedure processing interface
Moving process in first pass processing interface.
Optionally, the mobile message includes movement speed and moving direction, it is described according to the current location according to institute
It is described to collaboration process node to state the simulation in second procedure processing interface of the mobile message control target flow nodes
Moving process in first pass processing interface includes: in the target process node motion to the current location
When, the target flow nodes are controlled in second procedure processing interface according to the movement speed and the moving direction
It is mobile.
Optionally, the mobile message further includes the identification information to collaboration process node, described in the process
Cooperate end second procedure processing interface in determine that described to the corresponding target flow nodes of collaboration process node includes: described
Second procedure is handled in the flow nodes at interface, and the corresponding flow nodes of the identification information are determined as the target process section
Point.
The third aspect provides a kind of device of process flow node, is applied to flow operations end, and described device includes: the
One determining module, for determining in the first pass at flow operations end processing interface to collaboration process node;First obtains mould
Block, for when collaboration process node is towed in first pass processing interface, being obtained described wait the stream that cooperates described
Mobile message of Cheng Jiedian when towed;Second determining module, for determining whether the mobile message meets default cooperation
Condition;Second obtains module, described wait cooperate for obtaining when determining that the mobile message meets the default cooperation condition
Current location of the flow nodes on first pass processing interface;Sending module, for by the mobile message and described
Current location is sent to process cooperation end, and the second procedure so as to process cooperation end at process cooperation end handles interface
Described in middle determination after the corresponding target flow nodes of collaboration process node, according to the current location according to the mobile message
Control target flow nodes simulation in second procedure processing interface it is described to collaboration process node described first
Moving process in flow processing interface.
Optionally, the mobile message includes movement speed and moving direction, and the default cooperation condition includes: according to institute
It states movement speed and determines that the absolute value of the translational acceleration when collaboration process node when towed is more than or equal in advance
If acceleration rate threshold;And/or the moving direction changes.
Fourth aspect provides a kind of device of process flow node, is applied to process cooperation end, described device includes: to connect
Module is received, for determining in the first pass processing interface at the flow operations end to collaboration process section at flow operations end
Point, and it is described after collaboration process node is towed, receive described being dragged to collaboration process node of process operating side transmission
Mobile message and the current location to collaboration process node on the first pass processing interface when draging;Third determines
Module, it is described to the corresponding target of collaboration process node for being determined in the second procedure processing interface at process cooperation end
Flow nodes;Control module exists for controlling the target flow nodes according to the mobile message according to the current location
Simulation being moved through in first pass processing interface to collaboration process node in second procedure processing interface
Journey.
Optionally, the mobile message includes movement speed and moving direction, the control module, in the target
When flow nodes are moved to the current location, control the target flow nodes the second procedure processing interface according to
The movement speed and the moving direction are mobile.
Optionally, the mobile message further includes the identification information to collaboration process node, and the third determines mould
Block, in the flow nodes at second procedure processing interface, the corresponding flow nodes of the identification information to be determined as
The target flow nodes.
5th aspect, provides a kind of computer readable storage medium, is stored thereon with computer program, the program is processed
The step of disclosure first aspect the method is realized when device executes.
6th aspect, provides a kind of electronic equipment, comprising: memory is stored thereon with computer program;Processor is used
In executing the computer program in the memory, the step of to realize disclosure first aspect the method.
7th aspect, provides a kind of computer readable storage medium, is stored thereon with computer program, the program is processed
The step of disclosure second aspect the method is realized when device executes.
Eighth aspect provides a kind of electronic equipment, comprising: memory is stored thereon with computer program;Processor is used
In executing the computer program in the memory, the step of to realize disclosure second aspect the method.
Through the above technical solutions, flow operations end can be handled in interface really in the first pass at the flow operations end
It is fixed to be obtained when collaboration process node is towed in first pass processing interface to collaboration process node, and described
The mobile message when collaboration process node when towed;Determine whether the mobile message meets default cooperation condition;
When determining that the mobile message meets the default cooperation condition, to collaboration process node in the first pass described in acquisition
Handle the current location on interface;The mobile message and the current location are sent to process cooperation end, so as to the stream
The end Cheng Xiezuo determines described to the corresponding target of collaboration process node in the second procedure processing interface at process cooperation end
After flow nodes, the target flow nodes are controlled in the second procedure according to the mobile message according to the current location
Handle the moving process to collaboration process node in first pass processing interface of simulation in interface, that is to say, that
The flow operations end is when determining that mobile message when collaboration process node is towed meets the default cooperation condition, just meeting
Mobile message and current location as described in process cooperation end transmission to collaboration process node, can reduce network communication in this way
Number, so as to reduce the burden of network communication, in addition, the process cooperates, end is receiving the mobile message and described
When current location, can according to the current location according to the mobile message control with it is described corresponding to collaboration process node
The simulation in the second procedure processing interface at process cooperation end of target flow nodes it is described to collaboration process node described
First pass handles the moving process in interface, thereby may be ensured that flow template sets the reality of timing procedure cooperation end cooperating
Shi Xing.
Other feature and advantage of the disclosure will the following detailed description will be given in the detailed implementation section.
Detailed description of the invention
Attached drawing is and to constitute part of specification for providing further understanding of the disclosure, with following tool
Body embodiment is used to explain the disclosure together, but does not constitute the limitation to the disclosure.In the accompanying drawings:
Fig. 1 is a kind of schematic diagram of a scenario of process flow node shown according to an exemplary embodiment;
Fig. 2 is the flow chart of the method for the first process flow node shown according to an exemplary embodiment;
Fig. 3 is the flow chart of the method for second of process flow node shown according to an exemplary embodiment;
Fig. 4 is the flow chart of the method for the third process flow node shown according to an exemplary embodiment;
Fig. 5 is the block diagram of the device of the first process flow node shown according to an exemplary embodiment;
Fig. 6 is the block diagram of the device of second of process flow node shown according to an exemplary embodiment;
Fig. 7 is the block diagram of a kind of electronic equipment shown according to an exemplary embodiment.
Specific embodiment
It is described in detail below in conjunction with specific embodiment of the attached drawing to the disclosure.It should be understood that this place is retouched
The specific embodiment stated is only used for describing and explaining the disclosure, is not limited to the disclosure.
Fig. 1 is a kind of schematic diagram of a scenario of process flow node shown according to an exemplary embodiment, below with reference to Fig. 1
The application scenarios of the disclosure are introduced, establishing in scene in actual flow template usually can be by process design tool
(such as the process design software of installation at the terminal) completes the foundation of flow template, and specifically, process design personnel can be such as
(first pass processing interface can be to be mounted on process behaviour at the first pass processing interface at flow operations end shown in FIG. 1
Make the interface of the process design software on end) in execute the relevant operations such as newly-built node, towing node, for inter-organization complexity
Process design, being cooperated by the process design personnel of multiple tissues by process as shown in Figure 1, (process cooperates end can at end
Think one or more, that only illustrates in Fig. 1 draws a process cooperation end) it cooperates complete process design online, at this point,
When the nodal information at flow operations end changes (position of such as newly-built node or history node changes), need
By the node change information of respective nodes (the node change information may include mobile message and current location described below)
It is synchronized to process cooperation end, to facilitate the process design personnel at process cooperation end that can view the stream of other tissues in time
Cheng Bianhua, for example, it is newly-built to work as position 1 of the process design personnel of department A in the first pass processing interface at flow operations end
" node a ", and be 10cm/s according to movement speed by node a, moving direction (V indicates the moving direction in Fig. 1) is 30
Degree (angle can handle moving direction and the angle of X-axis positive direction on interface in the first pass for node a) is dragged
When draging, the process cooperation end of the department B for the completion flow template foundation that cooperates with department A need to also be handled in interface in second procedure
Position 1 creates target flow nodes " node a1 " corresponding with " node a ", and from position 1 (such as position coordinates be (122,
122) position) start to be moved according to the movement speed of 10cm/s and 30 degree of moving direction control " node a1 ", from
And guarantee the node a at flow operations end variation synchronous with the process cooperation node a1 at end.
It in the related technology, is the synchronism for guaranteeing cooperating, flow operations end needs to send to process cooperation end in real time
The change information of respective nodes, but this can occupy a large amount of network bandwidth, cause network burden;For the burden for mitigating network, stream
Journey operating side can also send the change information of respective nodes to process cooperation end at regular intervals, but this can to flow again
It the end Cheng Xiezuo can not flow change in real time inspection its hetero-organization.
To solve the problems, such as present in the relevant technologies, the disclosure provides a kind of method, apparatus of process flow node, storage
Medium and electronic equipment, flow operations end determine the flow operations end when collaboration process node is towed, obtaining should be to
The mobile message of collaboration process node, and when determining that the mobile message meets default cooperation condition, the cooperation of Cai Huixiang process
End sends this and waits for mobile message and the current location of collaboration process node, can reduce the number of network communication in this way, so as to
To reduce the burden of network communication, in addition, the process cooperates, end is when receiving the mobile message and the current location, Ke Yigen
According to the current location according to the mobile message control with should be to the corresponding target flow nodes of collaboration process node in process association
Make end second procedure processing interface in simulate this wait for collaboration process node the first pass processing interface in moving process,
It thereby may be ensured that the real-time of process cooperation end cooperating.
With reference to the accompanying drawing, the specific embodiment of the disclosure is illustrated.
Fig. 2 is a kind of flow chart of the method for process flow node shown according to an exemplary embodiment, is applied to stream
Journey operating side, as shown in Fig. 2, method includes the following steps:
S201 is determined in the first pass processing interface at flow operations end to collaboration process node.
Wherein, the flow operations end and the subsequent process cooperation end mentioned may include that computer, mobile phone etc. can pass through
The terminal of process design tool (such as process design application program) Establishing process template, it is generally the case that the flow operations end can
To include terminal that node is pulled by user, the process end that cooperates may include belonging to same operation system with the flow operations end
Other cooperation terminals, as shown in Figure 1, first pass processing interface may include process design circle on the flow operations end
Face should may include the node that user creates in first pass processing interface to collaboration process node, and also may include this
First pass handles existing history node in interface.
In one possible implementation, flow operations end subscriber can be mounted on the flow operations end by logging in
Process design application program carries out the foundation of flow template, and therefore, in this step, which can be according to user's
Trigger action (such as clicking operation, pressing operation or drag operation) determines should be to collaboration process node, for example, such as Fig. 1 institute
Show, get user trigger the first pass processing interface in existing " node a " when, can should " node a " be determined as
Should be to collaboration process node, when get user and created " node b " in first pass processing interface, it can should
" node b " is determined as this to collaboration process node, is merely illustrative herein, the disclosure is not construed as limiting this.
S202, this when collaboration process node the first pass processing interface in it is towed when, obtain should wait cooperate stream
Mobile message of Cheng Jiedian when towed.
Wherein, which may include the identification information, movement speed and the movement side that wait for collaboration process node
To etc. information, the identification information may include user be should be to information such as the preset title of collaboration process node or ID numbers, should
Moving direction can wait for the angle table of the collaboration process node moving direction on the flow processing interface and X-axis positive direction with this
Show.
In one possible implementation, which can pre-establish a node pair for each node
This, which is used to save the identification information of corresponding node, current location information, current movement speed and current
The information such as moving direction, therefore, in this step, which can wait for the node copy of collaboration process node at this
Middle acquisition mobile message, in addition, the flow operations end determines that this waits for the movement speed of collaboration process node and moving direction
Specific implementation can refer to associated description in the prior art, and therefore not to repeat here.
S203, determines whether the mobile message meets default cooperation condition.
Wherein, which may include: and is determined to be dragged to collaboration process node according to the movement speed
The absolute value of translational acceleration when draging is more than or equal to predetermined acceleration threshold value;And/or the moving direction changes.
In view of in actual application scenarios, when this waits for that collaboration process node during towed, exists under normal conditions
Inflection point occur, (such as when this is when collaboration process node is towed, last moment moves along X-axis positive direction, and subsequent time becomes along Y
Axis negative direction is mobile, is at this time the case where inflection point occur) when, movement speed can be substantially reduced, at this point, the translational acceleration
The absolute value of absolute value can significantly increase, in addition, when this waits for collaboration process node from the A point quilt in first pass processing interface
When towing to the farther away B point of distance A point, which can obviously accelerate, at this point, the absolute value of the translational acceleration is absolute
Value can also significantly increase, and because process cooperation end needs to synchronize in time in the second procedure processing interface at process cooperation end
This waits for the mobile message of collaboration process node, therefore, is determining the translational acceleration when collaboration process node when towed
Absolute value when being more than or equal to predetermined acceleration threshold value, it is default to determine that this waits for that the mobile message of collaboration process node meets this
Cooperation condition;In addition, determining that this (should as worked as when moving direction of collaboration process node during towed changes
When collaboration process node is towed, the moving direction of last moment and the angle of X-axis positive direction are 30 degree, the subsequent time shifting
The angle of dynamic direction and X-axis positive direction becomes 45 degree), it is also desirable to the mobile message is sent to process cooperation end in time, because
This is determining this when moving direction of collaboration process node when towed changes, and determining should be to collaboration process node
Mobile message meet the default cooperation condition;Certainly, determine should when collaboration process node when towed translational acceleration
Absolute value be more than or equal to predetermined acceleration threshold value, and when the moving direction also changes, determining should be wait the stream that cooperates
The mobile message of Cheng Jiedian meets the default cooperation condition.
In one possible implementation, which can determine according to the movement speed in the mobile message
The absolute value of the translational acceleration when collaboration process node when towed, for example, can be by calculating in preset time period
The variable quantity of the movement speed obtains the absolute value of the translational acceleration.
It should be noted that when determining that the mobile message is unsatisfactory for the default cooperation condition, the flow operations end not to
Process cooperation end sends the mobile message and the current location, in this way, can be with the number of less network communication, to reduce network
Burden.
S204, when determining that the mobile message meets the default cooperation condition, obtain should to collaboration process node this
Current location on one flow processing interface.
The mobile message and the current location are sent to process cooperation end by S205, so that process cooperation end is in the stream
Determining in the second procedure processing interface at the end Cheng Xiezuo should be after the corresponding target flow nodes of collaboration process node, according to deserving
Front position controls target flow nodes simulation in second procedure processing interface according to the mobile message and is somebody's turn to do to collaboration process
Moving process of the node in first pass processing interface.
It, can be with when the flow operations end determines that the mobile message when collaboration process node meets the default cooperation condition
Determine that significant change occurs when movement speed of collaboration process node when towed in this, and/or determining should be to collaboration process section
Moving direction of point when towed changes, and because process cooperation end needs at the second procedure at process cooperation end
Reason synchronizes the mobile message for waiting for collaboration process node in interface in time, therefore, is determining that this waits for the movement of collaboration process node
When information meets the default cooperation condition, need that the mobile message and the current location are sent to process cooperation end in time, with
Just process cooperation end can control with should be to the corresponding target flow nodes of collaboration process node on second procedure processing circle
It is mobile according to the movement speed and moving direction of newest acquisition in face.
Using the above method, flow operations end is in shifting when collaboration process node is towed for determining the flow operations end
When dynamic information meets default cooperation condition, Cai Huixiang process cooperation end sends the mobile message for waiting for collaboration process node and current
Position can reduce the number of network communication in this way, so as to reduce the burden of network communication, the end in addition, process cooperates
When receiving the mobile message and the current location, it can be controlled and be somebody's turn to do wait assist according to the mobile message according to the current location
Making the corresponding target flow nodes of flow nodes, simulation should be wait the stream that cooperates in the second procedure processing interface at process cooperation end
Moving process of the Cheng Jiedian in first pass processing interface thereby may be ensured that flow template sets timing procedure cooperation end association
The real-time of biconditional operation.
Fig. 3 is a kind of flow chart of the method for process flow node shown according to an exemplary embodiment, is applied to stream
The end Cheng Xiezuo, as shown in figure 3, method includes the following steps:
S301 is determined in the first pass processing interface at the flow operations end to collaboration process section at flow operations end
Point, and being somebody's turn to do when collaboration process node when towed for process operating side transmission should be received after collaboration process node is towed
Mobile message and should to collaboration process node the first pass processing interface on current location.
Wherein, the flow operations end and process cooperation end may include that computer, mobile phone etc. can pass through process design
The terminal of tool (such as process design application program) Establishing process template, it is generally the case that the flow operations end may include section
The terminal that point is pulled by user, process cooperation end may include the other associations for belonging to same operation system with the flow operations end
Make terminal, it, should be to as shown in Figure 1, first pass processing interface may include process design interface on the flow operations end
Collaboration process node may include the node that user creates in first pass processing interface, also may include the first pass
Handle existing history node in interface;The mobile message may include that this waits for the identification information of collaboration process node, mobile speed
The information such as degree and moving direction, the identification information may include that user is to be somebody's turn to do to the preset title of collaboration process node or ID
Number etc. information, the moving direction moving direction of the collaboration process node on the flow processing interface and the process can be waited for this
The angle for handling the straight and even direction of interfacial water indicates that the current location may include that the flow operations end is somebody's turn to do determining to collaboration process
When the mobile message of node meets default cooperation condition, what is got should handle boundary in the first pass to collaboration process node
Position on face.
S302, determining in the second procedure processing interface at process cooperation end should be to the corresponding target of collaboration process node
Flow nodes.
Wherein, the target flow nodes be the process cooperate end second procedure handle interface in the flow operations end
It should be to the corresponding node of collaboration process node, for example, as shown in Figure 1, when that should be first pass processing to collaboration process node
When " node a " in interface, which is " the node a1 " in the second procedure processing interface in Fig. 1.
It should be noted that this wait for collaboration process node be the flow operations end subscriber first pass handle interface in
When any node selected in existing history node, which cooperates, and end can basis should in second procedure processing interface
Identification information determines the target flow nodes, when this waits for that collaboration process node is the flow operations end subscriber in first pass processing
In interface create node when, the process cooperation end can receive the flow operations end transmission newly-built node mobile message and
Current location, then according to the mobile message of the newly-built node received and current location in second procedure processing interface
Newly-built target flow nodes corresponding with newly-built node in first pass processing interface.
It in this step, can be in the flow nodes that the second procedure handles interface, by the corresponding stream of the identification information
Cheng Jiedian is determined as the target flow nodes.
S303 controls the target flow nodes according to the mobile message according to the current location and handles boundary in the second procedure
This is simulated in face waits for moving process of the collaboration process node in first pass processing interface.
In this step, the target flow nodes can be controlled at the target process node motion to the current location
It is mobile according to the movement speed and the moving direction in second procedure processing interface.
It should be noted that in this step, process cooperation end is current to this in the control target process node motion
It is that the target process node motion is controlled according to the mobile message that receives of process cooperation end last time to deserving when position
Then front position controls the target flow nodes in second procedure processing interface according to current recently received shifting again
The movement speed and the moving direction in dynamic information are moved, and control being somebody's turn to do in second procedure processing interface to reach
In target flow nodes and the first pass processing interface should be to the purpose of the synchronous variation of collaboration process node.
In one possible implementation, process cooperation end in current recently received mobile message and is deserved
When front position, the position and recently received this first by the target flow nodes in second procedure processing interface are current
Position is compared, when position of the target flow nodes in second procedure processing interface and recently received this are current
When position is not consistent, need first to adjust position of the target flow nodes in second procedure processing interface to newest reception
To (process of the adjustment is movement speed and moving direction in the mobile message received according to the last time the current location
It is adjusted), the target flow nodes are then controlled in second procedure processing interface from the recently received present bit
It sets and starts to be moved according to the current recently received movement speed and the moving direction.
Using the above method, process cooperation end only flow operations end determine the flow operations end to collaboration process section
When mobile message when point is towed meets default cooperation condition, being somebody's turn to do to collaboration process section for process operating side transmission can be just received
The mobile message of point and current location, can reduce the number of network communication in this way, so as to reduce the burden of network communication,
In addition, the process cooperates, end, can be according to the current location according to the shifting when receiving the mobile message and the current location
Dynamic information control with should to the corresponding target flow nodes of collaboration process node process cooperation end second procedure processing circle
This is simulated in face and waits for moving process of the collaboration process node in first pass processing interface, thereby may be ensured that flow template
The real-time of end cooperating if timing procedure cooperates improves the efficiency that flow template is established.
Fig. 4 is a kind of flow chart of the method for process flow node shown according to an exemplary embodiment, such as Fig. 4 institute
Show, method includes the following steps:
S401, flow operations end determine in the first pass processing interface at the flow operations end to collaboration process node.
Wherein, the flow operations end and the subsequent process cooperation end mentioned may include that computer, mobile phone etc. can pass through
The terminal of process design tool (such as process design application program) Establishing process template, first pass processing interface may include
Process design interface on the flow operations end should may include user to collaboration process node at first pass processing interface
In create node, also may include first pass processing interface in existing history node.
In one possible implementation, flow operations end subscriber can be mounted on the flow operations end by logging in
Process design application program carries out the foundation of flow template, and therefore, in this step, which can be according to user's
Trigger action (such as clicking operation, pressing operation or drag operation) determines should be to collaboration process node, for example, such as Fig. 1 institute
Show, get user trigger the first pass processing interface in existing " node a " when, can should " node a " be determined as
Should be to collaboration process node, when get user and created " node b " in first pass processing interface, it can should
" node b " is determined as this to collaboration process node, is merely illustrative herein, the disclosure is not construed as limiting this.
S402, the flow operations end should be towed in first pass processing interface to collaboration process node in determination
When, obtain the mobile message when collaboration process node when towed.
Wherein, which may include the identification information, movement speed and the movement side that wait for collaboration process node
To etc. information, the identification information may include user be should be to information such as the preset title of collaboration process node or ID numbers, should
Moving direction can wait for the angle table of the collaboration process node moving direction on the flow processing interface and X-axis positive direction with this
Show.
In one possible implementation, which can pre-establish a node pair for each node
This, which is used to save the identification information of corresponding node, current location information, current movement speed and current
The information such as moving direction, therefore, in this step, which can wait for the node copy of collaboration process node at this
Middle acquisition mobile message, in addition, the flow operations end determines that this waits for the movement speed of collaboration process node and moving direction
Specific implementation can refer to associated description in the prior art, and therefore not to repeat here.
S403, the flow operations end determine whether the mobile message meets default cooperation condition.
Wherein, which may include being determined to be somebody's turn to do to collaboration process node towed according to the movement speed
When translational acceleration absolute value be more than or equal to predetermined acceleration threshold value;And/or the moving direction changes.
In view of in actual application scenarios, when this waits for that collaboration process node during towed, exists under normal conditions
Inflection point occur, (such as when this is when collaboration process node is towed, last moment moves along X-axis positive direction, and subsequent time becomes along Y
Axis negative direction is mobile, is at this time the case where inflection point occur) when, movement speed can be substantially reduced, at this point, the translational acceleration
The absolute value of absolute value can significantly increase, in addition, when this waits for collaboration process node from the A point quilt in first pass processing interface
When towing to the farther away B point of distance A point, which can obviously accelerate, at this point, the absolute value of the translational acceleration is absolute
Value can also significantly increase, and because process cooperation end needs to synchronize in time in the second procedure processing interface at process cooperation end
This waits for the mobile message of collaboration process node, therefore, is determining the translational acceleration when collaboration process node when towed
Absolute value when being more than or equal to predetermined acceleration threshold value, it is default to determine that this waits for that the mobile message of collaboration process node meets this
Cooperation condition;In addition, determining that this (should as worked as when moving direction of collaboration process node during towed changes
When collaboration process node is towed, the moving direction of last moment and the angle of X-axis positive direction are 30 degree, the subsequent time shifting
The angle of dynamic direction and X-axis positive direction becomes 45 degree), it is also desirable to the mobile message is sent to process cooperation end in time, because
This is determining this when moving direction of collaboration process node when towed changes, and determining should be to collaboration process node
Mobile message meet the default cooperation condition;Certainly, determine should when collaboration process node when towed translational acceleration
Absolute value be more than or equal to predetermined acceleration threshold value, and when the moving direction also changes, determining should be wait the stream that cooperates
The mobile message of Cheng Jiedian meets the default cooperation condition.
In one possible implementation, which can determine according to the movement speed in the mobile message
The absolute value of the translational acceleration when collaboration process node when towed, for example, can be by calculating in preset time period
The variable quantity of the movement speed obtains the absolute value of the translational acceleration.
It should be noted that when determining that the mobile message is unsatisfactory for the default cooperation condition, the flow operations end not to
Process cooperation end sends the mobile message and the current location, in this way, can be with the number of less network communication, to reduce network
Burden.
S404, when determining that the mobile message meets the default cooperation condition, obtaining should be wait the stream that cooperates at the flow operations end
Current location of the Cheng Jiedian on first pass processing interface.
The mobile message and the current location are sent to process cooperation end, the mobile message by S405, the flow operations end
Movement speed, moving direction and the identification information of collaboration process node are waited for including this.
It, can be with when the flow operations end determines that the mobile message when collaboration process node meets the default cooperation condition
Determine that significant change occurs when movement speed of collaboration process node when towed in this, and/or determining should be to collaboration process section
Moving direction of point when towed changes, and because process cooperation end needs at the second procedure at process cooperation end
Reason synchronizes the mobile message for waiting for collaboration process node in interface in time, therefore, is determining that this waits for the movement of collaboration process node
When information meets the default cooperation condition, need that the mobile message and the current location are sent to process cooperation end in time, with
Just process cooperation end can control with should be to the corresponding target flow nodes of collaboration process node on second procedure processing circle
It is mobile according to the movement speed and moving direction of newest acquisition in face.
S406, process cooperates end in the second procedure processing interface at process cooperation end, and the identification information is corresponding
Flow nodes are determined as the target flow nodes.
Wherein, the target flow nodes be the process cooperate end second procedure handle interface in the flow operations end
It should be to the corresponding node of collaboration process node, for example, as shown in Figure 1, when that should be first pass processing to collaboration process node
When " node a " in interface, which is " the node a1 " in the second procedure processing interface in Fig. 1.
It should be noted that this wait for collaboration process node be the flow operations end subscriber first pass handle interface in
When any node selected in existing history node, which cooperates, and end can basis should in second procedure processing interface
Identification information determines the target flow nodes, when this waits for that collaboration process node is the flow operations end subscriber in first pass processing
In interface create node when, the process cooperation end can receive the flow operations end transmission newly-built node mobile message and
Current location, then according to the mobile message of the newly-built node received and current location in second procedure processing interface
Newly-built target flow nodes corresponding with newly-built node in first pass processing interface.
S407, process cooperate end at the target process node motion to the current location, control the target flow nodes
It is mobile according to the movement speed and the moving direction in second procedure processing interface.
It should be noted that in this step, process cooperation end is current to this in the control target process node motion
It is that the target process node motion is controlled according to the mobile message that receives of process cooperation end last time to deserving when position
Then front position controls the target flow nodes in second procedure processing interface according to current recently received shifting again
The movement speed and the moving direction in dynamic information are moved, and control being somebody's turn to do in second procedure processing interface to reach
In target flow nodes and the first pass processing interface should be to the purpose of the synchronous variation of collaboration process node.
In one possible implementation, process cooperation end in current recently received mobile message and is deserved
When front position, the position and recently received this first by the target flow nodes in second procedure processing interface are current
Position is compared, when position of the target flow nodes in second procedure processing interface and recently received this are current
When position is not consistent, need first to adjust position of the target flow nodes in second procedure processing interface to newest reception
To (process of the adjustment is movement speed and moving direction in the mobile message received according to the last time the current location
It is adjusted), then to control the target flow nodes current from recently received this in second procedure processing interface
Position starts to be moved according to the current recently received movement speed and the moving direction.
Illustratively, by first pass shown in FIG. 1 processing interface in " node a " be should to collaboration process node for into
Row explanation, at this point, " the node a1 " in second procedure shown in FIG. 1 processing interface is to wait for collaboration process node " node with this
Corresponding target flow nodes of a ", it is assumed that the process cooperation end last time received should be to collaboration process node " node a "
Mobile message be " name: node a;direction:'60';Speed:'20' ", what the last time received is somebody's turn to do to collaboration process
The current location of node " node a " is " position:{ x:122;Y:122 } ", current recently received is somebody's turn to do to collaboration process
The mobile message of node " node a " is " name: node a;direction:'50';Speed:'30' ", it is current recently received
Should to collaboration process node " node a " current location be " position:{ x:110;Y:110 } ", process cooperation end exists
After last time receives the mobile message and the current location, can control the target flow nodes " node a1 " from coordinate is
The current location of (122,122) starts, and is 20cm/s, the mobile side that the angle with positive direction of the x-axis is 60 degree according to movement speed
It is moved in second procedure processing interface, later, which cooperates end in current recently received mobile message
Behind the current location, it is first determined the position of the target flow nodes " node a1 " whether with recently received coordinate be
The current location of (110,110) is identical, when being that the current location of (110,110) is not identical in the position of " node a1 " and coordinate,
It can be 20cm/s according to movement speed, the moving direction control " node a1 " that the angle with positive direction of the x-axis is 60 degree is moved to
Coordinate is the current location of (110,110), then controls " node a1 " and starts from the current location that coordinate is (110,110), presses
According to movement speed be 30cm/s, the moving direction that the angle with positive direction of the x-axis is 50 degree the second procedure processing interface in into
Row movement, thus guarantee the target flow nodes " node a1 " with should to " node a " holding of collaboration process node it is synchronous variation, on
It states example to be merely illustrative, the disclosure is not construed as limiting this.
Using the above method, flow operations end is in shifting when collaboration process node is towed for determining the flow operations end
When dynamic information meets default cooperation condition, Cai Huixiang process cooperation end sends the mobile message for waiting for collaboration process node and current
Position can reduce the number of network communication in this way, so as to reduce the burden of network communication, the end in addition, process cooperates
When receiving the mobile message and the current location, it can be controlled and be somebody's turn to do wait assist according to the mobile message according to the current location
Making the corresponding target flow nodes of flow nodes, simulation should be wait the stream that cooperates in the second procedure processing interface at process cooperation end
Moving process of the Cheng Jiedian in first pass processing interface thereby may be ensured that flow template sets timing procedure cooperation end association
The real-time of biconditional operation.
Fig. 5 is a kind of block diagram of the device of process flow node shown according to an exemplary embodiment, is applied to process
Operating side, as shown in figure 5, the device includes:
First determining module 501, for determining in the first pass at flow operations end processing interface to collaboration process section
Point;
First obtain module 502, for this when collaboration process node the first pass processing interface in it is towed when,
Obtain the mobile message when collaboration process node when towed;
Second determining module 503, for determining whether the mobile message meets default cooperation condition;
Second obtains module 504, for when determining that the mobile message meets the default cooperation condition, obtaining should be wait to cooperate
Current location of the flow nodes on first pass processing interface;
Sending module 505, for the mobile message and the current location to be sent to process cooperation end, so as to process association
Make end and handles determining in interface be somebody's turn to do to the corresponding target flow nodes of collaboration process node in the second procedure at process cooperation end
Afterwards, target flow nodes simulation in second procedure processing interface is controlled according to the mobile message according to the current location to be somebody's turn to do
To moving process of the collaboration process node in first pass processing interface.
Optionally, which includes movement speed and moving direction, which includes: according to the movement
Speed determines that the absolute value of the translational acceleration when collaboration process node when towed is more than or equal to predetermined acceleration
Threshold value;And/or the moving direction changes.
Using above-mentioned apparatus, flow operations end is in shifting when collaboration process node is towed for determining the flow operations end
When dynamic information meets default cooperation condition, Cai Huixiang process cooperation end sends the mobile message for waiting for collaboration process node and current
Position can reduce the number of network communication in this way, so as to reduce the burden of network communication, the end in addition, process cooperates
When receiving the mobile message and the current location, it can be controlled and be somebody's turn to do wait assist according to the mobile message according to the current location
Making the corresponding target flow nodes of flow nodes, simulation should be wait the stream that cooperates in the second procedure processing interface at process cooperation end
Moving process of the Cheng Jiedian in first pass processing interface thereby may be ensured that flow template sets timing procedure cooperation end association
The real-time of biconditional operation.
Fig. 6 is a kind of block diagram of the device of process flow node shown according to an exemplary embodiment, is applied to process
Cooperate end, as shown in fig. 6, the device includes:
Receiving module 601, for flow operations end the flow operations end first pass processing interface in determine to
Collaboration process node, and being somebody's turn to do to collaboration process node for process operating side transmission should be received after collaboration process node is towed
Mobile message when towed handles the current location on interface in the first pass to collaboration process node with this;
Third determining module 602, should be wait the stream that cooperates for determining in the second procedure processing interface at process cooperation end
The corresponding target flow nodes of Cheng Jiedian;
Control module 603, for according to the current location according to the mobile message control the target flow nodes this
This is simulated in two flow processing interfaces waits for moving process of the collaboration process node in first pass processing interface.
Optionally, which includes movement speed and moving direction, the control module 603, in the target stream
When journey node motion to the current location, the target flow nodes are controlled in second procedure processing interface according to movement speed
Degree and the moving direction are mobile.
Optionally, which further includes the identification information for waiting for collaboration process node, the third determining module 602,
For in the flow nodes at second procedure processing interface, the corresponding flow nodes of the identification information to be determined as the target stream
Cheng Jiedian.
About the device in above-described embodiment, wherein modules execute the concrete mode of operation in related this method
Embodiment in be described in detail, no detailed explanation will be given here.
Using above-mentioned apparatus, flow operations end is in shifting when collaboration process node is towed for determining the flow operations end
When dynamic information meets default cooperation condition, Cai Huixiang process cooperation end sends the mobile message for waiting for collaboration process node and current
Position can reduce the number of network communication in this way, so as to reduce the burden of network communication, the end in addition, process cooperates
When receiving the mobile message and the current location, it can be controlled and be somebody's turn to do wait assist according to the mobile message according to the current location
Making the corresponding target flow nodes of flow nodes, simulation should be wait the stream that cooperates in the second procedure processing interface at process cooperation end
Moving process of the Cheng Jiedian in first pass processing interface thereby may be ensured that flow template sets timing procedure cooperation end association
The real-time of biconditional operation.
Fig. 7 is the block diagram of a kind of electronic equipment 700 shown according to an exemplary embodiment.As shown in fig. 7, the electronics is set
Standby 700 may include: processor 701, memory 702.The electronic equipment 700 can also include multimedia component 703, input/
Export one or more of (I/O) interface 704 and communication component 705.
Wherein, processor 701 is used to control the integrated operation of the electronic equipment 700, to complete above-mentioned process flow section
All or part of the steps in the method for point.Memory 702 is for storing various types of data to support in the electronic equipment
700 operation, these data for example may include any application or method for operating on the electronic equipment 700
Instruction and the relevant data of application program, such as contact data, the message of transmitting-receiving, picture, audio, video etc..This is deposited
Reservoir 702 can realize by any kind of volatibility or non-volatile memory device or their combination, for example, it is static with
Machine accesses memory (Static Random Access Memory, abbreviation SRAM), electrically erasable programmable read-only memory
(Electrically Erasable Programmable Read-Only Memory, abbreviation EEPROM), erasable programmable
Read-only memory (Erasable Programmable Read-Only Memory, abbreviation EPROM), programmable read only memory
(Programmable Read-Only Memory, abbreviation PROM), and read-only memory (Read-Only Memory, referred to as
ROM), magnetic memory, flash memory, disk or CD.Multimedia component 703 may include screen and audio component.Wherein
Screen for example can be touch screen, and audio component is used for output and/or input audio signal.For example, audio component may include
One microphone, microphone is for receiving external audio signal.The received audio signal can be further stored in storage
Device 702 is sent by communication component 705.Audio component further includes at least one loudspeaker, is used for output audio signal.I/O
Interface 704 provides interface between processor 701 and other interface modules, other above-mentioned interface modules can be keyboard, mouse,
Button etc..These buttons can be virtual push button or entity button.Communication component 705 is for the electronic equipment 700 and other
Wired or wireless communication is carried out between equipment.Wireless communication, such as Wi-Fi, bluetooth, near-field communication (Near Field
Communication, abbreviation NFC), 2G, 3G, 4G, NB-IOT, eMTC or other 5G etc. or they one or more of
Combination, it is not limited here.Therefore the corresponding communication component 705 may include: Wi-Fi module, bluetooth module, NFC mould
Block etc..
In one exemplary embodiment, electronic equipment 700 can be by one or more application specific integrated circuit
(Application Specific Integrated Circuit, abbreviation ASIC), digital signal processor (Digital
Signal Processor, abbreviation DSP), digital signal processing appts (Digital Signal Processing Device,
Abbreviation DSPD), programmable logic device (Programmable Logic Device, abbreviation PLD), field programmable gate array
(Field Programmable Gate Array, abbreviation FPGA), controller, microcontroller, microprocessor or other electronics member
Part realization, the method for executing above-mentioned process flow node.
In a further exemplary embodiment, a kind of computer readable storage medium including program instruction is additionally provided, it should
The method of process flow node described in above-mentioned first aspect or second aspect is realized when program instruction is executed by processor
Step.For example, the computer readable storage medium can be the above-mentioned memory 702 including program instruction, above procedure instruction
The method to complete above-mentioned process flow node can be executed by the processor 701 of electronic equipment 700.
The preferred embodiment of the disclosure is described in detail in conjunction with attached drawing above, still, the disclosure is not limited to above-mentioned reality
The detail in mode is applied, in the range of the technology design of the disclosure, a variety of letters can be carried out to the technical solution of the disclosure
Monotropic type, these simple variants belong to the protection scope of the disclosure.
It is further to note that specific technical features described in the above specific embodiments, in not lance
In the case where shield, can be combined in any appropriate way, in order to avoid unnecessary repetition, the disclosure to it is various can
No further explanation will be given for the combination of energy.
In addition, any combination can also be carried out between a variety of different embodiments of the disclosure, as long as it is without prejudice to originally
Disclosed thought equally should be considered as disclosure disclosure of that.
Claims (10)
1. a kind of method of process flow node, which is characterized in that be applied to flow operations end, which comprises
It determines in the first pass processing interface at flow operations end to collaboration process node;
Described when collaboration process node is towed in first pass processing interface, obtain described to collaboration process section
Mobile message of point when towed;
Determine whether the mobile message meets default cooperation condition;
When determining that the mobile message meets the default cooperation condition, to collaboration process node described first described in acquisition
Current location on flow processing interface;
The mobile message and the current location are sent to process cooperation end, so that process cooperation end is in the process
Described in being determined in the second procedure processing interface at cooperation end after the corresponding target flow nodes of collaboration process node, according to described
Current location controls the target flow nodes according to the mobile message and handles in interface described in simulation in the second procedure
To moving process of the collaboration process node in first pass processing interface.
2. the method according to claim 1, wherein the mobile message includes movement speed and moving direction,
The default cooperation condition includes:
Determine that the absolute value of the translational acceleration when collaboration process node when towed is greater than according to the movement speed
Or it is equal to predetermined acceleration threshold value;And/or
The moving direction changes.
3. a kind of method of process flow node, which is characterized in that be applied to process cooperation end, which comprises
It is determined in the first pass processing interface at the flow operations end to collaboration process node at flow operations end, and described
After collaboration process node is towed, the movement when collaboration process node when towed that process operating side is sent is received
Information and the current location to collaboration process node on first pass processing interface;
It is determined in the second procedure processing interface at process cooperation end described to the corresponding target process of collaboration process node
Node;
The target flow nodes, which are controlled, according to the mobile message according to the current location handles boundary in the second procedure
The moving process to collaboration process node in first pass processing interface is simulated in face.
4. according to the method described in claim 3, it is characterized in that, the mobile message includes movement speed and moving direction,
It is described that the target flow nodes are controlled on second procedure processing circle according to the mobile message according to the current location
Include: to moving process of the collaboration process node in first pass processing interface described in being simulated in face
At the target process node motion to the current location, the target flow nodes are controlled in the second procedure
It handles mobile according to the movement speed and the moving direction in interface.
5. a kind of device of process flow node, which is characterized in that be applied to flow operations end, described device includes:
First determining module, for determining in the first pass at flow operations end processing interface to collaboration process node;
First obtains module, for when collaboration process node is towed in first pass processing interface, obtaining described
Take the mobile message when collaboration process node when towed;
Second determining module, for determining whether the mobile message meets default cooperation condition;
Second obtains module, described wait cooperate for obtaining when determining that the mobile message meets the default cooperation condition
Current location of the flow nodes on first pass processing interface;
Sending module, for the mobile message and the current location to be sent to process cooperation end, so as to process association
It is determining described to the corresponding target process of collaboration process node in the second procedure processing interface at process cooperation end to make end
After node, the target flow nodes are controlled according to the mobile message according to the current location and are handled in the second procedure
The moving process to collaboration process node in first pass processing interface is simulated in interface.
6. a kind of device of process flow node, which is characterized in that be applied to process cooperation end, described device includes:
Receiving module, for being determined in the first pass processing interface at the flow operations end wait the stream that cooperates at flow operations end
Cheng Jiedian, and it is described after collaboration process node is towed, receive described the existing to collaboration process node of process operating side transmission
Mobile message and the current location to collaboration process node on the first pass processing interface when towed;
Third determining module, it is described to collaboration process section for being determined in the second procedure processing interface at process cooperation end
The corresponding target flow nodes of point;
Control module, for controlling the target flow nodes described the according to the mobile message according to the current location
The moving process to collaboration process node in first pass processing interface is simulated in two flow processing interfaces.
7. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the program is held by processor
The step of method as claimed in claim 1 or 2 is realized when row.
8. a kind of electronic equipment characterized by comprising
Memory is stored thereon with computer program;
Processor, for executing the computer program in the memory, to realize method as claimed in claim 1 or 2
Step.
9. a kind of computer readable storage medium, is stored thereon with computer program, which is characterized in that the program is held by processor
The step of claim 3 or 4 the method are realized when row.
10. a kind of electronic equipment characterized by comprising
Memory is stored thereon with computer program;
Processor, for executing the computer program in the memory, to realize claim 3 or 4 the methods
Step.
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