CN114844864A - Configuration method and device of DMX equipment information - Google Patents

Abstract

The invention discloses a configuration method and a device of DMX equipment information, the method analyzes the address occupation position of the equipment on an equipment distribution diagram by configuring the address, the address configuration length and the like according to the end point of the equipment, can improve the analysis accuracy of the address occupation position, and automatically configures the address occupation information of the equipment on the equipment distribution diagram, such as: the initial address occupies the position, equipment identification etc., show on the address occupation position that corresponds directly perceivedly, be convenient for the user directly perceivedly clearly knows the address occupation condition of every equipment on the equipment distribution map, know the concrete in service behavior of address on the equipment distribution map at a glance, need not the address of user's artificial remembering equipment, be favorable to improving equipment's control efficiency and accuracy, and when equipment appears unusually, through the address occupation condition of equipment on the equipment distribution map, be favorable to seeking fast, unusual investigation efficiency and accuracy have been improved, and be favorable to alleviateing user's work burden, user experience sense has been promoted.

Description

Configuration method and device of DMX equipment information

Technical Field

The present invention relates to the field of device control technologies, and in particular, to a method and an apparatus for configuring DMX device information.

Background

In practical applications, generally, a lighting device to be controlled is set at an address of a corresponding device distribution diagram, and when the lighting device needs to be controlled, a plurality of Digital Multiplex (DMX) devices on the device distribution diagram are often controlled in a centralized manner by a DMX controller, so as to obtain a desired lighting effect, thereby improving the control efficiency of the lighting device to a certain extent.

However, practice shows that the existing luminaire device control method can only check whether the address on the device distribution diagram is occupied by the device or not, but cannot know the specific occupation situation of each address, thereby greatly reducing the control efficiency and accuracy of the device. Therefore, it is important to provide a technical solution for a user to intuitively and clearly know the occupation situation of each address on the device distribution map so as to improve the control efficiency and accuracy of the device.

Disclosure of Invention

The invention provides a configuration method and a configuration device of DMX equipment information, which can facilitate a user to intuitively and clearly know the occupation condition of each address on an equipment distribution diagram and are beneficial to improving the control efficiency and the accuracy of the equipment.

In order to solve the above technical problem, a first aspect of the present invention discloses a method for configuring DMX device information, where the method includes:

determining configuration information of each target device in a plurality of target devices in a current scene, wherein the configuration information of each target device comprises configuration address information of the target device, the configuration address information of each target device comprises an endpoint configuration address, an address configuration length and/or all configuration addresses of the target device, and all the target devices are DMX type devices;

analyzing the address occupation position of each target device on a device distribution diagram according to the configuration address information of each target device, and generating the address occupation information of each target device on the device distribution diagram according to the configuration information of each target device, wherein the address occupation information of each target device on the device distribution diagram includes the endpoint address occupation position of the target device on the device distribution diagram, the device identifier of the target device and/or the address occupation length of the target device on the device distribution diagram, and the endpoint address occupation position of each target device on the device distribution diagram includes the starting address occupation position of the target device on the device distribution diagram;

and displaying the address occupation information of each target device on the device distribution diagram at the address occupation position of the target device on the device distribution diagram.

As an alternative implementation, in the first aspect of the present invention, the method further includes:

judging whether the target equipment with crossed address occupation exists in all the target equipment or not according to the configuration address information of all the target equipment;

when judging that the target equipment with the crossed occupied address does not exist, executing the operation of analyzing the occupied address position of the target equipment on the equipment distribution diagram according to the configuration address information of each target equipment;

the method further comprises the following steps:

when the target equipment with the address cross occupation is judged to exist, equipment division is carried out on all the target equipment according to configuration address information of all the target equipment to obtain at least one equipment group, each equipment group comprises at least one target equipment, the equipment type corresponding to each equipment group comprises the equipment type with the address cross occupation or the equipment type with the non-address cross occupation, all the target equipment contained in each equipment group in all the equipment groups are not repeated, all the configuration addresses corresponding to each equipment group are not repeated, and when the equipment type corresponding to the equipment group is the equipment type with the address cross occupation, all the target equipment contained in the equipment group is sequentially adjacent equipment;

generating a data set corresponding to each device group according to information of each target device in each device group, wherein the information of each target device comprises configuration information of the target device, the data set corresponding to each device group comprises configuration address information corresponding to the device group, and the configuration address information corresponding to each device group comprises an endpoint configuration address of the device group;

determining address occupation information of each device group on the device distribution diagram according to configuration address information corresponding to the device group and included in a data set corresponding to each device group, wherein the address occupation information of each device group on the device distribution diagram includes an address occupation position of the device group on the device distribution diagram;

outputting display information of each equipment group at the address occupation position of each equipment group on the equipment distribution diagram, wherein the display information of each equipment group comprises the address occupation information corresponding to the equipment group;

when the device type corresponding to the device group is the address cross occupation device type, the display information of the device group further includes an address cross occupation identifier of the device group.

As an alternative implementation, in the first aspect of the present invention, the method further includes:

when the target equipment with the address cross occupation is judged to exist, sequencing all the target equipment by using a preset sequencing strategy according to identification information corresponding to each target equipment to obtain all the sequenced target equipment, wherein the preset sequencing strategy comprises a sequencing strategy that identification numbers are changed from small to large or a sequencing strategy that the identification numbers are changed from large to small, and the identification information corresponding to each target equipment comprises an endpoint configuration address of the target equipment and/or a serial number identification of the target equipment;

wherein, the device partitioning is performed on all the target devices according to the configuration address information of all the target devices to obtain at least one device group, and the method includes:

and according to the sorted configuration address information of all the target devices, performing device division on all the target devices to obtain at least one device group.

As an optional implementation manner, in the first aspect of the present invention, the performing device division on all the target devices according to the sorted configuration address information of all the target devices to obtain at least one device group includes:

according to the configuration address information corresponding to each sorted target device, traversing the configuration address of each target device in a preset traversal mode, sequentially dividing all adjacent target devices with overlapped configuration addresses to obtain at least one first device group, and sequentially dividing the target devices without overlapped configuration addresses with other target devices to obtain at least one second device group, wherein the preset traversal mode is used for representing traversal from the configuration address with the minimum sequence number in all the sorted target devices to the direction with the maximum sequence number or traversal from the configuration address with the maximum sequence number in all the sorted target devices to the direction with the minimum sequence number;

the device type corresponding to each first device group is an address cross occupation device type; and the device type corresponding to each second device group is a non-address cross occupation device type.

As an optional implementation manner, in the first aspect of the present invention, the sequentially performing device division on all adjacent target devices whose configuration addresses coincide with each other to obtain at least one first device group, and sequentially performing device division on the target devices whose configuration addresses do not coincide with each other to obtain at least one second device group includes:

judging whether the configuration address of the previous target device is overlapped with the configuration address of the next target device, and dividing the previous target device into a device group when judging that the overlap does not exist, wherein when the current target device is the target device at the end point, the device group is a second device group and only contains the previous target device; when the previous target device is not the target device at the endpoint, the device group is a first device group and comprises the previous target device and other previous traversed target devices except the next target device and not divided into the device group;

when the coincidence is judged to exist, updating the next target device to the previous target device and updating the next target device adjacent to the next target device, and repeatedly executing the operation of judging whether the configuration address of the previous target device is coincided with the configuration address of the next target device or not until the configuration address of the previous target device is not coincided with the configuration address of the next target device, and dividing all adjacent target devices with coincided configuration addresses into a first device group until all target devices are completely traversed.

As an optional implementation manner, in the first aspect of the present invention, the information of each target device further includes a device identifier of the target device and/or a function attribute of the target device;

wherein, the determining, according to the configuration address information corresponding to the device group included in the data set corresponding to each device group, the address occupation information of the device group on the device distribution diagram includes:

determining address occupation information of each equipment group on the equipment distribution diagram according to configuration address information corresponding to the equipment group and information of each target equipment of the equipment group, wherein the configuration address information is included in a data set corresponding to each equipment group;

the display information of each device group further comprises a device identifier of each target device in the device group and/or a function attribute of the target device;

the address occupation information corresponding to each device group further includes one or more of all address occupation positions of the device group, the address occupation length of the device group, cross occupied address position information in all address occupation positions of the device group, and the number of devices occupying the address position, wherein the cross occupied address position information includes one or more of the number of the address position, the number of devices occupying the address position, and the functional attribute of the address position.

As an alternative implementation, in the first aspect of the present invention, the method further includes:

judging whether a target equipment group with addresses which have a multiple relation with the maximum address arrangement number in the predetermined address arrangement direction exists in all the equipment groups according to all the addresses contained in the data sets of all the equipment groups;

when the data set corresponding to each equipment group does not exist, the operation of determining the address occupation information of the equipment group on the equipment distribution diagram is executed according to the configuration address information corresponding to the equipment group and included in the data set corresponding to each equipment group;

when the device group address distribution graph exists, splitting all addresses of each target device group by taking the maximum address distribution quantity as a reference to obtain a first sub device group and a second sub device group of each target device group after the address splitting, and executing the operation of determining address occupation information of the device group on the device distribution graph according to configuration address information corresponding to the device group and included in a data set corresponding to each device group;

wherein the address occupation positions of the first sub-device group corresponding to each target device group on the device distribution diagram are in different queues from the address occupation positions of the second sub-device group corresponding to the target device group on the device distribution diagram.

As an alternative implementation, in the first aspect of the present invention, the method further includes:

detecting whether an editing request triggered by a user for the target equipment on the equipment distribution diagram is received;

when detecting that an editing request corresponding to the target equipment is received, outputting an editing prompt aiming at the target equipment to the user according to the editing request corresponding to the target equipment, wherein the editing prompt comprises an editing frame of the target equipment;

and detecting information input by the user in an edit box of the target equipment, and synchronously displaying the information input by the user at the address position of the target equipment in the equipment distribution diagram.

The second aspect of the present invention discloses a device for configuring DMX device information, where the device includes:

a determining module, configured to determine configuration information of each target device in a plurality of target devices in a current scenario, where the configuration information of each target device includes configuration address information of the target device, the configuration address information of each target device includes an endpoint configuration address, an address configuration length, and/or all configuration addresses of the target device, and all the target devices are DMX-type devices;

the analysis module is used for analyzing the address occupation position of the target equipment on the equipment distribution diagram according to the configuration address information of each target equipment;

a generating module, configured to generate address occupation information of each target device on the device profile according to configuration information of the target device, where the address occupation information of each target device on the device profile includes an endpoint address occupation position of the target device on the device profile, a device identifier of the target device, and/or an address occupation length of the target device on the device profile, and the endpoint address occupation position of each target device on the device profile includes a starting address occupation position of the target device on the device profile;

and the visualization module is used for displaying the address occupation information of each target device on the device distribution diagram at the address occupation position of the target device on the device distribution diagram.

As an alternative embodiment, in the second aspect of the present invention, the apparatus further comprises:

the judging module is used for judging whether the target equipment with the address cross occupation exists in all the target equipment or not according to the configuration address information of all the target equipment; when the target equipment which is occupied by the address in a crossed manner is judged to be absent, triggering the analysis module to execute the operation of analyzing the address occupation position of the target equipment on the equipment distribution diagram according to the configuration address information of each target equipment;

a dividing module, configured to, when the determining module determines that the target device with address cross occupation exists, perform device division on all the target devices according to configuration address information of all the target devices to obtain at least one device group, where each device group includes at least one target device, and a device type corresponding to each device group includes an address cross occupation device type or a non-address cross occupation device type, and all the target devices included in each device group in all the device groups are not repeated and all the configuration addresses corresponding to each device group are not repeated, where, when the device type corresponding to the device group is the address cross occupation device type, all the target devices included in the device group are sequentially adjacent devices;

the generating module is further configured to generate a data set corresponding to each device group according to information of each target device in each device group, where the information of each target device includes configuration information of the target device, the data set corresponding to each device group includes configuration address information corresponding to the device group, and the configuration address information corresponding to each device group includes an endpoint configuration address of the device group;

the determining module is further configured to determine, according to configuration address information corresponding to each device group included in the data set corresponding to each device group, address occupation information of the device group on the device distribution diagram, where the address occupation information of each device group on the device distribution diagram includes an address occupation position of the device group on the device distribution diagram;

the visualization module is further configured to output display information of each device group at an address occupation position of the device group on the device distribution map, where the display information of each device group includes address occupation information corresponding to the device group;

when the device type corresponding to the device group is the address cross occupation device type, the display information of the device group further includes an address cross occupation identifier of the device group.

As an optional embodiment, in the second aspect of the present invention, the apparatus further comprises:

the sequencing module is used for sequencing all the target devices according to a preset sequencing strategy by using identification information corresponding to each target device when the judging module judges that the target devices with address cross occupation exist, so as to obtain all the sequenced target devices, wherein the preset sequencing strategy comprises a sequencing strategy that identification numbers are arranged from small to large or a sequencing strategy that the identification numbers are arranged from large to small, and the identification information corresponding to each target device comprises an endpoint configuration address of the target device and/or a serial number identification of the target device;

the method for the partitioning module to partition all the target devices according to the configuration address information of all the target devices to obtain at least one device group specifically includes:

and according to the sorted configuration address information of all the target devices, performing device division on all the target devices to obtain at least one device group.

As an optional implementation manner, in the second aspect of the present invention, a manner that the dividing module performs device division on all the target devices according to the sorted configuration address information of all the target devices to obtain at least one device group specifically includes:

according to the configuration address information corresponding to each sorted target device, traversing the configuration address of each target device in a preset traversal mode, sequentially dividing all adjacent target devices with overlapped configuration addresses to obtain at least one first device group, and sequentially dividing the target devices without overlapped configuration addresses with other target devices to obtain at least one second device group, wherein the preset traversal mode is used for representing traversal from the configuration address with the minimum sequence number in all the sorted target devices to the direction with the maximum sequence number or traversal from the configuration address with the maximum sequence number in all the sorted target devices to the direction with the minimum sequence number;

the device type corresponding to each first device group is an address cross occupation device type; and the device type corresponding to each second device group is a non-address cross occupation device type.

As an optional implementation manner, in the second aspect of the present invention, a manner that the partitioning module sequentially performs device partitioning on all adjacent target devices whose configuration addresses coincide to obtain at least one first device group, and sequentially performs device partitioning on the target device that does not have the configuration address coincide with other target devices to obtain at least one second device group specifically includes:

judging whether the configuration address of the previous target device is overlapped with the configuration address of the next target device, and dividing the previous target device into a device group when judging that the overlap does not exist, wherein when the current target device is the target device at the end point, the device group is a second device group and only contains the previous target device; when the previous target device is not the target device at the endpoint, the device group is a first device group and comprises the previous target device and other previous traversed target devices except the next target device and not divided into the device group;

when the coincidence is judged to exist, updating the next target device to the previous target device and updating the next target device adjacent to the next target device, and repeatedly executing the operation of judging whether the configuration address of the previous target device is coincided with the configuration address of the next target device or not until the configuration address of the previous target device is not coincided with the configuration address of the next target device, and dividing all adjacent target devices with coincided configuration addresses into a first device group until all target devices are completely traversed.

As an optional implementation manner, in the second aspect of the present invention, the information of each target device further includes a device identifier of the target device and/or a function attribute of the target device;

the determining module determines, according to the configuration address information corresponding to each device group included in the data set corresponding to each device group, the address occupation information of the device group on the device distribution map in a manner that specifically includes:

determining address occupation information of each equipment group on the equipment distribution diagram according to configuration address information corresponding to the equipment group and information of each target equipment of the equipment group, wherein the configuration address information is included in a data set corresponding to each equipment group;

the display information of each device group further comprises a device identifier of each target device in the device group and/or a function attribute of the target device;

the address occupation information corresponding to each device group further includes one or more of all address occupation positions of the device group, the address occupation length of the device group, cross occupied address position information in all address occupation positions of the device group, and the number of devices occupying the address position, wherein the cross occupied address position information includes one or more of the number of the address position, the number of devices occupying the address position, and the functional attribute of the address position.

As an optional implementation manner, in the second aspect of the present invention, the determining module is further configured to determine, according to all addresses included in the data sets of all the device groups, whether there is a target device group in all the device groups, where the target device group has an address that is in a multiple relationship with the maximum address arrangement number in the predetermined address arrangement direction; when the data set does not exist, triggering the determining module to execute the operation of determining the address occupation information of the equipment group on the equipment distribution diagram according to the configuration address information corresponding to the equipment group and included in the data set corresponding to each equipment group;

the dividing module is further configured to, when the judging module judges that the address assignment information exists, split all addresses of each target device group based on the maximum address assignment number to obtain a first sub device group and a second sub device group of each target device group after the address assignment is split, and trigger the determining module to execute the operation of determining the address occupation information of the device group on the device assignment map according to the configuration address information corresponding to the device group included in the data set corresponding to each device group;

wherein the address occupation positions of the first sub-device group corresponding to each target device group on the device distribution diagram are in different queues from the address occupation positions of the second sub-device group corresponding to the target device group on the device distribution diagram.

As an alternative embodiment, in the second aspect of the present invention, the apparatus further comprises:

the detection module is used for detecting whether an editing request triggered by a user aiming at the target equipment on the equipment distribution diagram is received;

the communication module is used for outputting an editing prompt aiming at the target equipment to the user according to the editing request corresponding to the target equipment when the detection module detects that the editing request corresponding to the target equipment is received, wherein the editing prompt comprises an editing frame of the target equipment;

the communication module is further used for detecting information input by the user in an edit box of the target device;

the visualization module is further configured to synchronously display the information input by the user at the address position of the target device on the device distribution map.

The third aspect of the present invention discloses another apparatus for configuring DMX device information, where the apparatus includes:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program code stored in the memory to execute part or all of the steps of any configuration method of the DMX device information disclosed by the first aspect of the invention.

The fourth aspect of the present invention discloses a computer storage medium, where the computer storage medium stores computer instructions, and when the computer instructions are called, the computer instructions are used to execute part or all of the steps in any method for configuring DMX device information disclosed in the first aspect of the present invention.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, the configuration information of each target device in a plurality of target devices in a current scene is determined, the configuration information of each target device comprises the configuration address information of the target device, the configuration address information of each target device comprises an endpoint configuration address, an address configuration length and/or all configuration addresses of the target device, and all the target devices are DMX type devices; analyzing the address occupation position of each target device on the device distribution diagram according to the configuration address information of each target device, and generating the address occupation information of each target device on the device distribution diagram according to the configuration information of each target device, wherein the address occupation information of each target device on the device distribution diagram comprises the endpoint address occupation position of the target device on the device distribution diagram, the device identification of the target device and/or the address occupation length of the target device on the device distribution diagram, and the endpoint address occupation position of each target device on the device distribution diagram comprises the starting address occupation position of the target device on the device distribution diagram; and displaying the address occupation information of each target device on the device distribution diagram at the address occupation position of the target device on the device distribution diagram. Therefore, the invention analyzes the address occupation position of the target device on the device distribution diagram according to the information of the endpoint configuration address, the address configuration length and/or all configuration addresses of the target device, can improve the analysis accuracy of the address occupation position, and automatically occupies the address occupation information of the target device on the device distribution diagram, such as: the initial address occupies the position, the address occupies the length, equipment identification etc., show on the address occupation position that corresponds directly perceivedly, be convenient for the user directly perceivedly clearly know the address occupation condition of every target device on the equipment distribution diagram, know the specific in service behavior of address on the equipment distribution diagram promptly at a glance, need not the address that the user was for remembering target device, be favorable to improving equipment's control efficiency and accuracy, and when equipment appears unusually, through the address occupation condition of target device on the equipment distribution diagram, be favorable to seeking fast, unusual investigation efficiency and accuracy have been improved, and be favorable to alleviateing user's work burden, user experience sense has been promoted.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic flowchart of a method for configuring DMX device information according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of another DMX device information configuration method according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a configuration apparatus of DMX device information according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of another configuration apparatus for DMX device information according to an embodiment of the disclosure;

fig. 5 is a schematic structural diagram of another configuration apparatus for DMX device information according to an embodiment of the present disclosure;

FIG. 6 is a schematic structural diagram of an arrangement of all addresses in a device profile according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a partitioning device group according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of another partitioning device group disclosed in the embodiment of the present invention;

FIG. 9 is a schematic structural diagram of another partitioned device group disclosed in the embodiment of the present invention;

FIG. 10 is a schematic diagram of a device component pair display according to an embodiment of the present disclosure;

fig. 11 is a schematic structural diagram of an equipment distribution diagram after an equipment group is divided according to an embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The terms "first," "second," and the like in the description and claims of the present invention and in the above-described drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or article.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The invention discloses a configuration method and a device of DMX equipment information, which can analyze the address occupation position of target equipment on an equipment distribution diagram by configuring information such as an address, an address configuration length and/or all configuration addresses according to an end point of the target equipment, can improve the analysis accuracy of the address occupation position, and automatically configure the address occupation information of the target equipment on the equipment distribution diagram, such as: the initial address occupies the position, the address occupies the length, equipment identification etc., show on the address occupation position that corresponds directly perceivedly, be convenient for the user directly perceivedly clearly know the address occupation condition of every target device on the equipment distribution diagram, know the specific in service behavior of address on the equipment distribution diagram promptly at a glance, need not the address that the user was for remembering target device, be favorable to improving equipment's control efficiency and accuracy, and when equipment appears unusually, through the address occupation condition of target device on the equipment distribution diagram, be favorable to seeking fast, unusual investigation efficiency and accuracy have been improved, and be favorable to alleviateing user's work burden, user experience sense has been promoted. The following respectively describes the configuration method and apparatus of DMX device information described in the present invention in detail.

Example one

Referring to fig. 1, fig. 1 is a schematic flow chart illustrating a method for configuring DMX device information according to an embodiment of the present invention. The method described in fig. 1 may be applied to any one of scenes that require lighting equipment, such as a stage scene, a podium scene, a concert scene, and a bar scene, in which a configuration device of DMX device information is provided, where the configuration device of DMX device information includes any one of lighting control equipment, a lighting control platform, a lighting control system, and a lighting control server (including a local server or a cloud server). As shown in fig. 1, the configuration method of the DMX device information may include the following operations:

101. determining configuration information of each target device in a plurality of target devices in a current scene, wherein the configuration information of each target device comprises configuration address information of the target device.

In the embodiment of the invention, all target devices are DMX type devices. And, optionally, the configuration address information of each target device includes an endpoint configuration address, an address configuration length, and/or all configuration addresses of the target device. Wherein the endpoint configuration address of each target device comprises a starting endpoint configuration address and/or an ending endpoint configuration address. Therefore, the more the configuration address information of the target device contains, the more the determination efficiency and accuracy of the address occupation position and the address occupation information of the target device are improved. The configuration information of each target device may be a configuration file derived from the target device, or may be derived from other files, which is not limited in the embodiment of the present invention. Further, the configuration information of each target device further includes function configuration information of the target device, where the function configuration information of each target device includes one or more of light emission brightness configuration information, light emission angle configuration information, and light emission intensity configuration information of the target device.

102. And analyzing the address occupation position of each target device on the device distribution diagram according to the configuration address information of the target device.

In the embodiment of the present invention, a preset number (for example, 512) of addresses are set on the device distribution diagram, where all the addresses correspond to number identifiers, such as 1, 2, and 3. Further, the arrangement direction of all the addresses of the device distribution map sorted from small to large or from large to small may include one of a longitudinal arrangement direction, a transverse arrangement direction, and an oblique arrangement wind direction. The serial number identifiers of all the addresses in the arrangement direction sequentially increase or sequentially decrease, and the embodiment of the present invention is not limited. Fig. 6 is a schematic diagram of an apparatus distribution diagram shown in fig. 6 according to an embodiment of the present invention, where an arrangement direction of the apparatus distribution diagram shown in fig. 6 is a horizontal arrangement direction, that is, addresses increase from left to right.

103. And generating address occupation information of each target device on the device distribution diagram according to the configuration information of the target device.

In this embodiment of the present invention, the address occupation information of each target device on the device profile includes an endpoint address occupation location of the target device on the device profile, a device identifier of the target device, and/or an address occupation length of the target device on the device profile. The endpoint address occupation position of each target device on the device profile comprises a start address occupation position and/or an end address occupation position of the target device on the device profile, and the device identification of each target device comprises but is not limited to one of the device name, the device number and the device model of the target device. Further, the address occupation information of each target device on the device distribution diagram further includes one or more of a start occupation time, a real-time occupation duration and a preset occupation duration of the target device on the device distribution diagram. Therefore, the more the content of the address occupation information of the target equipment on the equipment distribution diagram is, the more the visualization accuracy and comprehensiveness of the address occupation information of the target equipment on the equipment distribution diagram are facilitated, the more the user can visually and clearly know the address occupation condition of the target equipment on the equipment distribution diagram, and the processing accuracy of the target equipment can be improved when the user needs to participate in processing the target equipment, such as control and editing.

104. And displaying the address occupation information of each target device on the device distribution diagram at the address occupation position of the target device on the device distribution diagram.

In the embodiment of the present invention, the device profile may be used for the visual configuration apparatus to automatically control the target device and/or for the user to trigger the address occupation location on the device profile to control the target device. Such as: and adjusting the light of the equipment.

As can be seen, the method described in the embodiment of the present invention analyzes the address occupation position of the target device on the device distribution diagram by configuring the address, the address configuration length, and/or all configuration addresses according to the endpoint of the target device, so as to improve the accuracy of analyzing the address occupation position, and automatically allocate the address occupation information of the target device on the device distribution diagram, such as: the initial address occupies the position, the address occupies the length, equipment identification etc., show on the address occupation position that corresponds directly perceivedly, be convenient for the user directly perceivedly clearly know the address occupation condition of every target device on the equipment distribution diagram, know the specific in service behavior of address on the equipment distribution diagram promptly at a glance, need not the address that the user was for remembering target device, be favorable to improving equipment's control efficiency and accuracy, and when equipment appears unusually, through the address occupation condition of target device on the equipment distribution diagram, be favorable to seeking fast, unusual investigation efficiency and accuracy have been improved, and be favorable to alleviateing user's work burden, user experience sense has been promoted.

In an optional embodiment, the method may further comprise the steps of:

judging whether target equipment with crossed addresses exists in all the target equipment or not according to the configured address information of all the target equipment;

when judging that the target equipment with the crossed occupied address does not exist, executing the operation of analyzing the occupied address position of the target equipment on the equipment distribution diagram according to the configuration address information of each target equipment;

the method further comprises the following steps:

when the target equipment with the crossed occupied address is judged to exist, equipment division is carried out on all the target equipment according to the configuration address information of all the target equipment to obtain at least one equipment group;

generating a data set corresponding to each device group according to information of each target device in each device group, wherein the information of each target device comprises configuration information of the target device, the data set corresponding to each device group comprises configuration address information corresponding to the device group, and the configuration address information corresponding to each device group comprises an endpoint configuration address of the device group;

determining address occupation information of each equipment group on the equipment distribution diagram according to configuration address information corresponding to the equipment group and included in the data set corresponding to the equipment group, wherein the address occupation information of each equipment group on the equipment distribution diagram includes an address occupation position of the equipment group on the equipment distribution diagram;

and outputting display information of each equipment group at the address occupation position of each equipment group on the equipment distribution diagram, wherein the display information of each equipment group comprises the address occupation information corresponding to the equipment group.

In this optional embodiment, optionally, the determining, according to the configuration address information of all the target devices, whether there is a target device whose address is occupied crosswise in all the target devices includes:

and judging whether target equipment with coincident (same) addresses exists in all the target equipment or not according to the endpoint configuration address and the address configuration length of each target equipment and/or the endpoint configuration address and all the configuration addresses, and determining the target equipment with crossed addresses in all the target equipment when judging that the target equipment exists.

In this optional embodiment, each device group includes at least one target device, and the device type corresponding to each device group includes an address cross occupation device type or a non-address cross occupation device type, and all target devices included in each device group in all device groups are not repeated and all configuration addresses corresponding to each device group are not repeated, where when the device type corresponding to the device group is the address cross occupation device type, all target devices included in the device group are sequentially adjacent devices.

In this optional embodiment, when the device type corresponding to the device group is the address cross occupancy device type, the display information of the device group further includes an address cross occupancy identifier of the device group. The address cross occupancy identifier of the device group may be greater than or equal to 1 according to the number in the device group, where the address cross occupancy identifier of the device group may be a common identifier (that is, the address cross occupancy identifiers of all the device groups are the same, such as triangular symbols), or may be an individualized address cross occupancy identifier. When the address cross occupancy identifier of the device group is the personalized address cross occupancy identifier, the method for determining the personalized address cross occupancy identifier may be as follows:

determining each target address occupied by address crossing and information of all target devices occupying the target address from all addresses of the equipment group according to configuration address information corresponding to the equipment group;

and generating the address cross occupation identifier of the equipment group according to the number of all target addresses in the equipment group, the function information corresponding to each target address in the equipment group and the information of all target equipment occupying the target address.

The function information corresponding to the target address includes function types of functions to be implemented by all target devices occupying the target address, and the information of the target device includes a device identifier of the target device. Further, the information of the target device further includes a preset duration and/or a start time when the target device occupies the target address, and/or a rank of the target device.

Therefore, after the configuration address information of the target device is obtained, the optional embodiment further judges whether the target device with the address cross occupied exists or not, if the target device with the address cross occupied does not exist, the optional embodiment continues to execute the subsequent operation of determining the address occupied position of the target device on the device distribution diagram, and the accuracy and the reliability of the operation can be improved; when the device group is judged to exist, all adjacent target devices with configuration addresses overlapped are grouped, and then the address occupation positions of the device group on the device distribution diagram are determined, so that the accuracy and the efficiency of determining the address occupation information of the target devices can be improved, the visual display of the address occupation information of the target devices in groups is facilitated, the visual display efficiency and the accuracy of the address occupation information of the target devices are improved, and a user can visually and accurately know the address cross occupation condition of each group of devices; and generating the address cross occupation identifier of the equipment group according to the common function to be realized by the cross occupied address in the equipment group, the information of the target equipment of the cross occupied address and the number of the cross addresses in the equipment group, and generating the address cross occupation identifier of the individualized equipment group, thereby being beneficial to improving the visualization, the identification accuracy and the reliability of the equipment group with the address cross occupation.

In another optional embodiment, the method may further comprise the steps of:

when judging that target equipment with crossed address occupation exists, sequencing all the target equipment by a preset sequencing strategy according to identification information corresponding to each target equipment to obtain all the sequenced target equipment, wherein the preset sequencing strategy comprises a sequencing strategy that identification numbers are sequenced from small to large or a sequencing strategy that the identification numbers are sequenced from large to small, and the identification information corresponding to each target equipment comprises an endpoint configuration address of the target equipment and/or a serial number identification of the target equipment;

the method for dividing all target devices into devices according to the configuration address information of all target devices to obtain at least one device group includes:

and according to the sorted configuration address information of all the target devices, performing device division on all the target devices to obtain at least one device group.

Therefore, in the optional embodiment, when the target device with the address cross occupation is judged to exist, the devices are sorted first and then grouped, so that the grouping efficiency and accuracy of the devices can be improved, the efficiency, the accuracy and the reliability of determining the address occupation information of the target device in the device group can be improved, and the efficiency and the accuracy of determining the address cross occupation information of the devices can be improved.

In yet another optional embodiment, the device partitioning is performed on all the target devices according to the sorted configuration address information of all the target devices to obtain at least one device group, where the method includes:

traversing the configuration address of each target device in a preset traversal mode according to the sequenced configuration address information corresponding to each target device, sequentially dividing all adjacent target devices with overlapped (same) configuration addresses to obtain at least one first device group, and sequentially dividing the target devices without overlapped configuration addresses with other target devices to obtain at least one second device group;

in this optional embodiment, the device type corresponding to each first device group is an address cross occupation device type; and the device type corresponding to each second device group is a non-address cross occupation device type.

In this optional embodiment, the preset traversal mode is used to indicate a mode of traversing from the configuration address with the smallest sequence number in all the sorted target devices to the direction with the largest sequence number, or traversing from the configuration address with the largest sequence number in all the sorted target devices to the direction with the smallest sequence number.

Therefore, in the optional embodiment, the target devices are grouped by sequentially traversing the sorted configuration address information of the target devices, and the grouping accuracy and efficiency of the target devices can be improved.

In another optional embodiment, sequentially performing device division on all neighboring target devices whose configuration addresses coincide with each other to obtain at least one first device group, and sequentially performing device division on target devices whose configuration addresses do not coincide with each other to obtain at least one second device group, includes:

judging whether the configuration address of the previous target device is overlapped with the configuration address of the next target device, and dividing the previous target device into a device group when judging that the overlapping does not exist, wherein when the current target device is the target device at the end point, the device group is a second device group and only comprises the previous target device; when the previous target device is not the target device at the endpoint, the device group is a first device group and comprises the previous target device and other previous traversed target devices except the next target device and not divided into the device group;

when the coincidence is judged to exist, updating the next target device to be the previous target device and updating the next target device adjacent to the next target device to be the next target device, and repeatedly executing the operation of judging whether the configuration address of the previous target device and the configuration address of the next target device coincide or not until the configuration address of the previous target device and the configuration address of the next target device do not coincide, and dividing all adjacent target devices with the configuration addresses coinciding into a first device group until all target devices traverse completely.

In this optional embodiment, it should be noted that, in the process of dividing the device group into the target devices, when it is determined that two adjacent target devices have address cross occupation, a device group is established for the two target devices, and if the address cross occupation exists between the next target device and the previous target device, the device group is added; or after traversing all the adjacent target devices which are adjacent and have address cross occupation, establishing the device group.

Therefore, in the optional embodiment, the configuration address information of the target devices adjacent to each other in the front and back is compared one by one, and the device groups are divided in sequence, so that the efficiency and the accuracy of dividing the device groups can be improved.

The following description is given with reference to the schematic diagram, to illustrate the device group division of the target device with address cross occupancy in a manner that when it is determined that two adjacent target devices have address cross occupancy, a device group is established for the two target devices, and if the next target device has address cross occupancy with the previous target device, the device group division of the target device with address cross occupancy is added to the device group:

as shown in fig. 7, there are two devices, device 1 and device 2, respectively, where the initial configuration address of device 1 is 3 and the address configuration length is 4, then device 1 occupies addresses 3, 4, 5, and 6 on the device distribution diagram, and the initial configuration address of device 2 is 5 and the address configuration length is 4, then device 2 occupies addresses 5, 6, 7, and 8 on the device distribution diagram, and it can be known that the configuration addresses 5 and 6 of device 2 are the same (coincide with) the configuration addresses 5 and 6 of device 1, then it is determined that device 1 and device 2 are devices whose addresses are crossly occupied, the union is 3, 4, 5, 6, 7, and 8, device 1 and device 2 are divided into a device group, i.e., object a, where the initial configuration address of object a is 3 and the address configuration length is 6, and device 1 and device 2 are added under object a; further, as shown in fig. 8, the object a and the device 3 are further subjected to address cross-occupation determination, if there is no cross, a data set of the object a is generated, and the data set of the object a is added at the end of the intermediate interval with the device 3, i.e. the address 8, as shown in fig. 9, if there is a cross (coincidence or the same) between the addresses of the object a and the device 3, the device 3 is incorporated into the object a until there is no address cross-occupation with the next device, as shown in fig. 8, if there is no cross (coincidence or the same) between the addresses of the object a and the device 3, and the device 3 has no address cross-occupation with the next device, the device 3 is divided into a device group, i.e. the object B, at which time, the device included in the object B includes only the device 3, and a data set of the object B is generated, and the data set of the object B is added at the end 11 of the maximum address of the device 3, and so on, obtaining individual device groups, where the data set of each device group includes the starting spouse address, the address configuration length, and the contained devices of the device, as shown in fig. 7, the object a includes the device 1, the device 2, the address configuration length 6, the endpoint configuration addresses are respectively 3 and 8, and the crossing addresses are 5 and 6, as shown in fig. 8, the object a includes the device 1, the device 2, the device 3, the address configuration length 8, the endpoint configuration addresses are respectively 3 and 10, and the crossing addresses of the device 1 and the device 2 are 5 and 6, the crossing addresses of the device 2 and the device are 8, as shown in fig. 9, and the object B includes the device, the address configuration length 3, and the endpoint configuration addresses are respectively 9 and 11.

In yet another optional embodiment, the information of each target device further includes a device identifier of the target device and/or a functional attribute of the target device; the determining, according to the configuration address information corresponding to the device group included in the data set corresponding to each device group, address occupation information of the device group on the device distribution diagram includes:

determining address occupation information of each equipment group on an equipment distribution diagram according to configuration address information corresponding to the equipment group and information of each target equipment of the equipment group, wherein the configuration address information is included in a data set corresponding to each equipment group;

the display information of each equipment group also comprises the equipment identification of each target equipment in the equipment group and/or the function attribute of the target equipment;

the address occupation information corresponding to each device group further includes one or more of all address occupation positions of the device group, the address occupation length of the device group, cross occupied address position information in all address occupation positions of the device group and the number of devices occupying the address position, wherein the cross occupied address position information includes one or more of the number of the address position, the number of devices occupying the address position and the functional attribute of the address position.

Therefore, in the optional embodiment, the device identifier and/or the functional attribute of the target device in the device group are/is combined with the configuration address information of the device group to determine the address occupation information of the device group on the device distribution diagram, so that the determination accuracy and reliability of the address occupation information of the device group can be improved, the specific address cross occupation information in the device group is visualized, a user can visually know the specific occupation information of each address on the device distribution diagram, and the user can edit the devices on the device distribution diagram according to actual needs.

In yet another alternative embodiment, the method may further comprise the steps of:

judging whether a target equipment group with addresses which have a multiple relation with the maximum address arrangement number in the address arrangement direction determined in advance exists in all the equipment groups according to all the addresses contained in the data sets of all the equipment groups;

when the data set does not exist, executing the operation of determining the address occupation information of the equipment group on the equipment distribution diagram according to the configuration address information corresponding to the equipment group and included in the data set corresponding to each equipment group;

when the device group address distribution graph exists, splitting all addresses of each target device group by taking the maximum address distribution quantity as a reference to obtain a first sub device group and a second sub device group of which the addresses of each target device group are split, and executing the operation of determining the address occupation information of the device group on the device distribution graph according to the configuration address information corresponding to the device group and included in the data set corresponding to each device group;

and the address occupation positions of the first sub-device group corresponding to each target device group on the device distribution diagram and the address occupation positions of the second sub-device group corresponding to the target device group on the device distribution diagram are in different queues.

It can be seen that, in the optional embodiment, after the target devices are grouped and the data set of the device group is obtained, it is further determined whether the configuration addresses of the device group have configuration addresses that need to be queued, and if yes, the address occupation of the target devices of the device group is queued, which is further beneficial to determining accuracy and reliability of the address occupation information of the target devices on the device distribution map, and is further beneficial to improving visualization accuracy and reliability of the address occupation information of the target devices.

The following description will be given, with reference to the schematic diagram, to exemplify a target device group having an address having a multiple relationship with the maximum address arrangement number in the predetermined address arrangement direction:

as shown in fig. 10, the maximum address arrangement number is 16, the configuration addresses of the device groups, that is, the object a are 14, 15, 16, 17, 18, 19, and 20, and at this time, if the configuration address 16 exists in the object a, the object a is split into an object 1 (corresponding to the first sub-device group) and an object 2 (corresponding to the second sub-device group), and the object 2 is moved downward.

And as shown in fig. 11, there are 10 device groups in total, where the initial occupied address of each device group and the device name of the device group are displayed at the address occupied position corresponding to each device group, and the address length of each device group is the number of address occupied bits. And when the addresses of the equipment groups do not occupy the positions corresponding to the display in one row, jumping to the next row for display.

Example two

Referring to fig. 2, fig. 2 is a schematic flowchart illustrating another DMX device information configuration method according to an embodiment of the present invention. The method described in fig. 2 may be applied to any one of scenes that need to be used for the lighting apparatuses, such as a stage scene, a podium scene, a concert scene, and a bar scene, in which the configuration device for the DMX apparatus information is provided, where the configuration device for the DMX apparatus information includes a lighting apparatus control apparatus, a lighting apparatus control platform, a lighting apparatus control system, and a lighting apparatus control server (including a local server or a cloud server), and where the configuration device for the DMX apparatus information can establish a communication connection with the user apparatus. As shown in fig. 2, the configuration method of the DMX device information may include the following operations:

201. determining configuration information of each target device in a plurality of target devices in a current scene, wherein the configuration information of each target device comprises configuration address information of the target device, the configuration address information of each target device comprises an endpoint configuration address, an address configuration length and/or all configuration addresses of the target device, and all target devices are DMX type devices.

202. And analyzing the address occupation position of each target device on the device distribution diagram according to the configuration address information of the target device.

203. And generating address occupation information of each target device on the device distribution diagram according to the configuration information of the target device, wherein the address occupation information of each target device on the device distribution diagram comprises an endpoint address occupation position of the target device on the device distribution diagram, a device identification of the target device and/or an address occupation length of the target device on the device distribution diagram.

The endpoint address occupancy location of each target device on the device profile includes a starting address occupancy location of the target device on the device profile.

204. And displaying the address occupation information of each target device on the device distribution diagram at the address occupation position of the target device on the device distribution diagram.

In the embodiment of the present invention, for the related description of steps 201 to 204, please refer to the detailed description of steps 101 to 104 in the first embodiment, which is not repeated herein.

205. Whether an editing request triggered by a user for a target device on a device profile is received is detected. When detecting that an editing request corresponding to the target device is received, step 206 may be triggered to be executed; and when detecting that the editing request corresponding to the target equipment is not received, ending the process.

In the embodiment of the present invention, the edit request is used to request to edit the target device occupying the address individually or to edit the target device occupying the address crossly. Further, the edit request may be triggered at an address occupation location where the target device is located on the device profile, or triggered by voice, such as: i want to edit the target device with address 100. The edit request is used for requesting, but not limited to, edit related information (such as device name, address cross-occupation identifier, etc.) of the target device in the device group and/or rename the device group, or delete the target device in the device group.

206. And outputting an editing prompt aiming at the target equipment to a user according to the editing request corresponding to the target equipment, wherein the editing prompt comprises an editing frame of the target equipment.

207. And detecting information input by a user in an edit box of the target equipment, and synchronously displaying the information input by the user at the address position of the target equipment in the equipment distribution diagram.

It should be noted that, the steps 205 to 207 may occur between any of the steps 201 and 204, or may occur simultaneously with any of the steps 201 and 204, and the embodiment of the invention is not limited thereto.

Therefore, the embodiment of the present invention analyzes the address occupation position of the target device on the device distribution diagram according to the endpoint configuration address, the address configuration length, and/or all configuration addresses of the target device, so as to improve the accuracy of analyzing the address occupation position, and automatically occupy the address occupation information of the target device on the device distribution diagram, such as: the initial address occupation position, the address occupation length, the equipment identification and the like are visually displayed on the corresponding address occupation position, so that a user can visually and clearly know the address occupation condition of each target equipment on the equipment distribution diagram, namely, the specific use condition of the address on the equipment distribution diagram is clearly known, the user does not need to manually remember the address of the target equipment, the control efficiency and the accuracy of the equipment are favorably improved, when the equipment is abnormal, the quick search is favorably realized through the address occupation condition of the target equipment on the equipment distribution diagram, the abnormal troubleshooting efficiency and the accuracy are improved, the workload of the user is favorably reduced, and the user experience is improved; when an editing request triggered by the target equipment on the equipment distribution diagram is detected, the corresponding editing frame is automatically output so that the user can input corresponding information, and the corresponding information is synchronously visualized on the equipment distribution diagram, so that the user can visually and clearly know the editing and check the editing, and the control accuracy and reliability of the target equipment are improved.

In an optional embodiment, after detecting the information input by the user in the edit box of the target device, and before synchronously displaying the information input by the user in the address position of the target device in the device profile, the method may further include the following steps:

determining the type of information input by a user and the data volume of the information, and generating a visual mode of the information input by the user according to the address occupation information of the equipment group where the target equipment is located;

the method for synchronously displaying the information input by the user at the address position of the target equipment in the equipment distribution diagram comprises the following steps:

and synchronously displaying the information input by the user on the address position of the target equipment in the equipment distribution diagram in a visualization mode corresponding to the target equipment.

Therefore, after the information input by the user is detected, the optional embodiment further generates a matched visualization mode according to the information input by the user, the data volume and the address occupation information of the device group where the information is located, visualizes the information input by the user, and can improve the visualization accuracy and reliability of the information input by the user.

EXAMPLE III

Referring to fig. 3, fig. 3 is a schematic structural diagram of a configuration apparatus for DMX device information according to an embodiment of the present invention. The device described in fig. 3 may include any one of a lamp control device, a lamp control platform, a lamp control system, and a lamp control server (including a local server or a cloud server) in any one of a stage scene, a podium scene, a concert scene, a bar scene, and the like. As shown in fig. 3, the configuring means of the DMX device information may include:

a determining module 301, configured to determine configuration information of each target device in a plurality of target devices in a current scenario, where the configuration information of each target device includes configuration address information of the target device, the configuration address information of each target device includes an endpoint configuration address, an address configuration length, and/or all configuration addresses of the target device, and all target devices are DMX type devices.

An analyzing module 302, configured to analyze an address occupation location of each target device on the device distribution map according to the configuration address information of the target device.

A generating module 303, configured to generate address occupation information of each target device on the device profile according to the configuration information of the target device, where the address occupation information of each target device on the device profile includes an endpoint address occupation location of the target device on the device profile, a device identifier of the target device, and/or an address occupation length of the target device on the device profile. The endpoint address occupation position of each target device on the device profile comprises a start address occupation position and/or an end address occupation position of the target device on the device profile, and the device identification of each target device comprises but is not limited to one of the device name, the device number and the device model of the target device.

And the visualization module 304 is configured to display the address occupation information of each target device on the device distribution map at the address occupation position of the target device on the device distribution map.

It can be seen that, by implementing the apparatus described in fig. 3, analyzing the address occupation location of the target device on the device distribution diagram according to the endpoint configuration address, the address configuration length, and/or all configuration addresses of the target device, the accuracy of analyzing the address occupation location can be improved, and the address occupation information of the target device on the device distribution diagram can be automatically obtained, for example: the initial address occupies the position, the address occupies the length, equipment identification etc., show on the address occupation position that corresponds directly perceivedly, be convenient for the user directly perceivedly clearly know the address occupation condition of every target device on the equipment distribution diagram, know the specific in service behavior of address on the equipment distribution diagram promptly at a glance, need not the address that the user was for remembering target device, be favorable to improving equipment's control efficiency and accuracy, and when equipment appears unusually, through the address occupation condition of target device on the equipment distribution diagram, be favorable to seeking fast, unusual investigation efficiency and accuracy have been improved, and be favorable to alleviateing user's work burden, user experience sense has been promoted.

In an alternative embodiment, as shown in fig. 4, the apparatus may further include:

a determining module 305, configured to determine whether there is a target device occupied by address crossing in all target devices according to the configured address information of all target devices; when it is determined that there is no target device whose address is occupied in a cross manner, the analysis module 302 is triggered to execute the above-mentioned operation of analyzing the address occupied position of the target device on the device distribution diagram according to the configuration address information of each target device;

a dividing module 306, configured to, when the determining module 305 determines that there is a target device with an address crossing occupancy, perform device division on all target devices according to the configuration address information of all target devices to obtain at least one device group, where each device group includes at least one target device, and the device type corresponding to each device group includes an address crossing occupancy device type or a non-address crossing occupancy device type, and all target devices included in each device group in all device groups are not repeated and all configuration addresses corresponding to each device group are not repeated, where, when the device type corresponding to a device group is an address crossing occupancy device type, all target devices included in the device group are sequentially adjacent devices.

The generating module 303 is further configured to generate a data set corresponding to each device group according to information of each target device in each device group, and generate a data set corresponding to the device group according to information of each target device in each device group, where the information of each target device includes configuration information of the target device, the data set corresponding to each device group includes configuration address information corresponding to the device group, and the configuration address information corresponding to each device group includes an endpoint configuration address of the device group.

The determining module 301 is further configured to determine, according to the configuration address information corresponding to the device group included in the data set corresponding to each device group, address occupation information of the device group on the device profile, where the address occupation information of each device group on the device profile includes an address occupation position of the device group on the device profile.

The visualization module 304 is further configured to output display information of each device group at an address occupation position of the device group on the device distribution map, where the display information of each device group includes address occupation information corresponding to the device group.

When the device type corresponding to the device group is the address cross occupation device type, the display information of the device group further includes the address cross occupation identifier of the device group.

It can be seen that, by implementing the apparatus described in fig. 4, after obtaining the configuration address information of the target device, it can be further determined whether there is a target device whose address is occupied crosswise, and if there is no target device, the apparatus continues to perform the subsequent operation of determining the address occupied position of the target device on the device distribution diagram, so as to improve the accuracy and reliability of the operation; when the target equipment is judged to exist, all adjacent target equipment with coincident configuration addresses are grouped, and then the address occupation positions of the equipment groups on the equipment distribution map are determined, so that the accuracy and the efficiency of determining the address occupation information of the target equipment can be improved, the visual display of the address occupation information of the target equipment in groups is facilitated, the visual display efficiency and the accuracy of the address occupation information of the target equipment are improved, and a user can visually and accurately know the address cross occupation condition of each group of equipment.

In another alternative embodiment, as shown in fig. 4, the apparatus may further include:

a sorting module 307, configured to, when the determining module 305 determines that there are target devices that are occupied by addresses in a crossing manner, sort all the target devices according to the identification information corresponding to each target device by using a preset sorting policy, to obtain all the sorted target devices, where the preset sorting policy includes a sorting policy in which identification numbers are sorted from small to large or a sorting policy in which identification numbers are sorted from large to small, and the identification information corresponding to each target device includes an endpoint configuration address of the target device and/or a number identifier of the target device.

The method for the partitioning module 306 to partition all target devices according to the configuration address information of all target devices to obtain at least one device group specifically includes:

and according to the sorted configuration address information of all the target devices, performing device division on all the target devices to obtain at least one device group.

It can be seen that, by implementing the apparatus described in fig. 4, when it is determined that there is a target device with address cross occupancy, by sorting the devices first and then grouping the devices, the grouping efficiency and accuracy of the devices can be improved, which is beneficial to improving the efficiency, accuracy and reliability of determining the address occupancy information of the target device in the device group, and is especially beneficial to improving the efficiency and accuracy of determining the address cross occupancy information of the device.

In yet another optional embodiment, the method for the partitioning module 306 to partition all the target devices according to the sorted configuration address information of all the target devices to obtain at least one device group specifically includes:

traversing the configuration address of each target device in a preset traversal mode according to the sequenced configuration address information corresponding to each target device, sequentially dividing all adjacent target devices with overlapped (same) configuration addresses to obtain at least one first device group, and sequentially dividing the target devices without overlapped configuration addresses with other target devices to obtain at least one second device group;

in this optional embodiment, the device type corresponding to each first device group is an address cross occupation device type; and the device type corresponding to each second device group is a non-address cross occupation device type.

In this alternative embodiment, the preset traversal mode may be a mode of traversing from the address with the smallest sequence number in all the sorted target devices to the direction with the largest sequence number.

Therefore, by implementing the apparatus described in fig. 4, the target devices can be grouped by sequentially traversing the sorted configuration address information of the target devices, and the grouping accuracy and efficiency of the target devices can be improved.

As an optional implementation manner, the manner of sequentially performing device division on all adjacent target devices whose configuration addresses are overlapped to obtain at least one first device group and sequentially performing device division on the target device whose configuration addresses are not overlapped to other target devices to obtain at least one second device group by the dividing module 306 specifically includes:

judging whether the configuration address of the previous target device is overlapped with the configuration address of the next target device, and dividing the previous target device into a device group when judging that the overlapping does not exist, wherein when the current target device is the target device at the end point, the device group is a second device group and only comprises the previous target device; when the previous target device is not the target device at the endpoint, the device group is a first device group and comprises the previous target device and other previous traversed target devices except the next target device and not divided into the device group;

when the coincidence is judged to exist, updating the next target device to be the previous target device and updating the next target device adjacent to the next target device to be the next target device, and repeatedly executing the operation of judging whether the configuration address of the previous target device and the configuration address of the next target device coincide or not until the configuration address of the previous target device and the configuration address of the next target device do not coincide, and dividing all adjacent target devices with the configuration addresses coinciding into a first device group until all target devices traverse completely.

Therefore, by implementing the apparatus described in fig. 4, the configuration address information of the target devices adjacent to each other can be compared one by one, and the device groups can be divided in sequence, so that the efficiency and accuracy of dividing the device groups can be improved.

In yet another alternative embodiment, the information of each target device further includes a device identification of the target device and/or a functional attribute of the target device. The determining module 301 specifically determines, according to the configuration address information corresponding to each device group included in the data set corresponding to each device group, the address occupation information of the device group on the device distribution diagram, including:

according to the configuration address information corresponding to each equipment group and the information of each target equipment of the equipment group, which are included in the data set corresponding to each equipment group, determining the address occupation information of the equipment group on the equipment distribution diagram;

the display information of each equipment group also comprises equipment identification of each target equipment in the equipment group and/or functional attribute of the target equipment;

the address occupation information corresponding to each device group further includes one or more of all address occupation positions of the device group, the address occupation length of the device group, cross occupied address position information in all address occupation positions of the device group and the number of devices occupying the address position, wherein the cross occupied address position information includes one or more of the number of the address position, the number of devices occupying the address position and the functional attribute of the address position.

It can be seen that, by implementing the apparatus described in fig. 4, the address occupation information of the device group on the device distribution diagram can be determined together by combining the device identifier and/or the functional attribute of the target device in the device group with the configuration address information of the device group, so that the determination accuracy and reliability of the address occupation information of the device group can be improved, and the specific address cross occupation information in the device group is visualized together, which is further beneficial for the user to intuitively know the specific occupation information of each address on the device distribution diagram, and is further beneficial for the user to edit the devices on the device distribution diagram according to actual needs.

In yet another alternative embodiment, as shown in fig. 4, the apparatus further comprises:

the determining module 305 is further configured to determine, according to all addresses included in the data set of all the device groups, whether a target device group having an address with a multiple relation to the maximum address arrangement number in the predetermined address arrangement direction exists in all the device groups; when the data set does not exist, the trigger determining module 301 performs the above-mentioned operation of determining the address occupation information of the device group on the device distribution map according to the configuration address information corresponding to the device group included in the data set corresponding to each device group.

It should be noted that the determining module 305 and the generating module 303 have a communication relationship, which is not shown in fig. 4.

The dividing module 306 is further configured to, when the determining module 305 determines that the address assignment information exists, split all addresses of each target device group by using the maximum address assignment number as a reference, obtain a first sub device group and a second sub device group of each target device group after the address assignment is split, and trigger the determining module 301 to perform the above-mentioned operation of determining the address occupation information of the device group on the device distribution map according to the configuration address information corresponding to the device group included in the data set corresponding to each device group.

And the address occupation positions of the first sub-device group corresponding to each target device group on the device distribution diagram and the address occupation positions of the second sub-device group corresponding to the target device group on the device distribution diagram are in different queues.

It can be seen that, by implementing the apparatus described in fig. 4, after grouping the target devices and obtaining the data set of the device group, it can be further determined whether there is a configuration address that needs to be queued in the configuration addresses of the device group, and if so, queuing the address occupation of the target devices of the device group, which is further beneficial to determining accuracy and reliability of the address occupation information of the target devices on the device distribution map, and further beneficial to improving the visualization accuracy and reliability of the address occupation information of the target devices.

In yet another alternative embodiment, as shown in fig. 4, the apparatus may further include:

the detecting module 308 is configured to detect whether an editing request triggered by a user for a target device on the device profile is received.

The communication module 309 is configured to, when the detection module 308 detects that the editing request corresponding to the target device is received, output an editing prompt for the target device to the user according to the editing request corresponding to the target device, where the editing prompt includes an editing frame of the target device.

The communication module 309 is further configured to detect information input by the user in the edit box of the target device.

The visualization module 304 is further configured to synchronously display the information input by the user at the address position of the target device in the device distribution map.

It can be seen that, by implementing the apparatus described in fig. 4, when an editing request triggered by a target device on the device profile is detected, the corresponding editing box can be automatically output so that a user can input corresponding information, and the corresponding editing box can be synchronously visualized on the device profile, so that the user can intuitively and clearly know the editing performed and verify the editing performed, thereby facilitating improvement of control accuracy and reliability of the target device.

Example four

Referring to fig. 5, fig. 5 is a schematic structural diagram of another configuration apparatus for DMX device information according to an embodiment of the present invention. As shown in fig. 5, the configuring means of the DMX device information may include:

a memory 401 storing executable program code;

a processor 402 coupled with the memory 401;

further, an input interface 403 and an output interface 404 coupled to the processor 402 may be included;

the processor 402 calls the executable program code stored in the memory 402 to execute some or all of the steps of the configuration method of the DMX device information disclosed in the first embodiment or the second embodiment of the present invention.

EXAMPLE five

The embodiment of the invention discloses a computer storage medium, which stores computer instructions, and when the computer instructions are called, the computer instructions are used for executing part or all of the steps of the configuration method of the DMX equipment information disclosed by the first embodiment or the second embodiment of the invention.

The above-described embodiments of the apparatus are merely illustrative, and the modules described as separate components may or may not be physically separate, and the components shown as modules may or may not be physical modules, may be located in one place, or may be distributed on a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above detailed description of the embodiments, those skilled in the art will clearly understand that the embodiments may be implemented by software plus a necessary general hardware platform, and may also be implemented by hardware. Based on such understanding, the above technical solutions may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, where the storage medium includes a Read-Only Memory (ROM), a Random Access Memory (RAM), a Programmable Read-Only Memory (PROM), an Erasable Programmable Read-Only Memory (EPROM), a One-time Programmable Read-Only Memory (OTPROM), an Electrically Erasable Programmable Read-Only Memory (EEPROM), a Compact Disc-Read-Only Memory (CD-ROM), or other disk memories, CD-ROMs, or other magnetic disks, A tape memory, or any other medium readable by a computer that can be used to carry or store data.

Finally, it should be noted that: the configuration method and apparatus for DMX device information disclosed in the embodiments of the present invention are only preferred embodiments of the present invention, and are only used for illustrating the technical solutions of the present invention, not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art; the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A configuration method of DMX device information is characterized in that the method comprises the following steps:

determining configuration information of each target device in a plurality of target devices in a current scene, wherein the configuration information of each target device comprises configuration address information of the target device, the configuration address information of each target device comprises an endpoint configuration address, an address configuration length and/or all configuration addresses of the target device, and all the target devices are DMX type devices;

analyzing the address occupation position of each target device on a device distribution diagram according to the configuration address information of each target device, and generating the address occupation information of each target device on the device distribution diagram according to the configuration information of each target device, wherein the address occupation information of each target device on the device distribution diagram includes the endpoint address occupation position of the target device on the device distribution diagram, the device identifier of the target device and/or the address occupation length of the target device on the device distribution diagram, and the endpoint address occupation position of each target device on the device distribution diagram includes the starting address occupation position of the target device on the device distribution diagram;

and displaying the address occupation information of each target device on the device distribution diagram at the address occupation position of the target device on the device distribution diagram.

2. The method of configuring DMX device information according to claim 1, further comprising:

judging whether the target equipment with crossed address occupation exists in all the target equipment or not according to the configuration address information of all the target equipment;

when the target equipment with the crossed occupied address is judged to be absent, the operation of analyzing the occupied address position of the target equipment on the equipment distribution diagram according to the configuration address information of each target equipment is executed;

the method further comprises the following steps:

when the target equipment with the address cross occupation is judged to exist, equipment division is carried out on all the target equipment according to configuration address information of all the target equipment to obtain at least one equipment group, each equipment group comprises at least one target equipment, the equipment type corresponding to each equipment group comprises the equipment type with the address cross occupation or the equipment type with the non-address cross occupation, all the target equipment contained in each equipment group in all the equipment groups are not repeated, all the configuration addresses corresponding to each equipment group are not repeated, and when the equipment type corresponding to the equipment group is the equipment type with the address cross occupation, all the target equipment contained in the equipment group is sequentially adjacent equipment;

generating a data set corresponding to each device group according to information of each target device in each device group, wherein the information of each target device comprises configuration information of the target device, the data set corresponding to each device group comprises configuration address information corresponding to the device group, and the configuration address information corresponding to each device group comprises an endpoint configuration address of the device group;

determining address occupation information of each device group on the device distribution diagram according to configuration address information corresponding to the device group and included in a data set corresponding to each device group, wherein the address occupation information of each device group on the device distribution diagram includes an address occupation position of the device group on the device distribution diagram;

outputting display information of each equipment group at the address occupation position of each equipment group on the equipment distribution diagram, wherein the display information of each equipment group comprises the address occupation information corresponding to the equipment group;

when the device type corresponding to the device group is the address cross occupation device type, the display information of the device group further includes an address cross occupation identifier of the device group.

3. The method of configuring DMX device information according to claim 2, further comprising:

when the target equipment with the address cross occupation is judged to exist, sequencing all the target equipment by using a preset sequencing strategy according to identification information corresponding to each target equipment to obtain all the sequenced target equipment, wherein the preset sequencing strategy comprises a sequencing strategy that identification numbers are changed from small to large or a sequencing strategy that the identification numbers are changed from large to small, and the identification information corresponding to each target equipment comprises an endpoint configuration address of the target equipment and/or a serial number identification of the target equipment;

wherein, the device partitioning is performed on all the target devices according to the configuration address information of all the target devices to obtain at least one device group, and the method includes:

and according to the sorted configuration address information of all the target devices, performing device division on all the target devices to obtain at least one device group.

4. The method according to claim 3, wherein the performing device division on all the target devices according to the sorted configuration address information of all the target devices to obtain at least one device group includes:

according to the configuration address information corresponding to each sorted target device, traversing the configuration address of each target device in a preset traversal mode, sequentially dividing all adjacent target devices with overlapped configuration addresses to obtain at least one first device group, and sequentially dividing the target devices without overlapped configuration addresses with other target devices to obtain at least one second device group, wherein the preset traversal mode is used for representing traversal from the configuration address with the minimum sequence number in all the sorted target devices to the direction with the maximum sequence number or traversal from the configuration address with the maximum sequence number in all the sorted target devices to the direction with the minimum sequence number;

the device type corresponding to each first device group is an address cross occupation device type; and the device type corresponding to each second device group is a non-address cross occupation device type.

5. The method according to claim 4, wherein the sequentially performing device division on all adjacent target devices whose configuration addresses coincide with each other to obtain at least one first device group, and sequentially performing device division on the target devices whose configuration addresses do not coincide with each other to obtain at least one second device group includes:

judging whether the configuration address of the previous target device is overlapped with the configuration address of the next target device, and dividing the previous target device into a device group when judging that the overlap does not exist, wherein when the current target device is the target device at the end point, the device group is a second device group and only contains the previous target device; when the previous target device is not the target device at the endpoint, the device group is a first device group and comprises the previous target device and other previous traversed target devices except the next target device and not divided into the device group;

when the coincidence is judged to exist, updating the next target device to the previous target device and updating the next target device adjacent to the next target device, and repeatedly executing the operation of judging whether the configuration address of the previous target device is coincided with the configuration address of the next target device or not until the configuration address of the previous target device is not coincided with the configuration address of the next target device, and dividing all adjacent target devices with coincided configuration addresses into a first device group until all target devices are completely traversed.

6. The method for configuring DMX device information according to any of claims 2-5, wherein the information of each target device further comprises a device identifier of the target device and/or a functional attribute of the target device;

wherein, the determining, according to the configuration address information corresponding to the device group included in the data set corresponding to each device group, the address occupation information of the device group on the device distribution diagram includes:

determining address occupation information of each equipment group on the equipment distribution diagram according to configuration address information corresponding to the equipment group and information of each target equipment of the equipment group, wherein the configuration address information is included in a data set corresponding to each equipment group;

the display information of each device group further comprises a device identifier of each target device in the device group and/or a function attribute of the target device;

the address occupation information corresponding to each device group further includes one or more of all address occupation positions of the device group, the address occupation length of the device group, cross occupied address position information in all address occupation positions of the device group, and the number of devices occupying the address position, wherein the cross occupied address position information includes one or more of the number of the address position, the number of devices occupying the address position, and the functional attribute of the address position.

7. The method for configuring DMX device information according to any of claims 2-5, wherein the method further comprises:

judging whether a target equipment group with addresses which have a multiple relation with the maximum address arrangement number in the predetermined address arrangement direction exists in all the equipment groups according to all the addresses contained in the data sets of all the equipment groups;

when the data set corresponding to each equipment group does not exist, the operation of determining the address occupation information of the equipment group on the equipment distribution diagram is executed according to the configuration address information corresponding to the equipment group and included in the data set corresponding to each equipment group;

when the device group address distribution graph exists, splitting all addresses of each target device group by taking the maximum address distribution quantity as a reference to obtain a first sub device group and a second sub device group of each target device group after the address splitting, and executing the operation of determining address occupation information of the device group on the device distribution graph according to configuration address information corresponding to the device group and included in a data set corresponding to each device group;

wherein the address occupation positions of the first sub-device group corresponding to each target device group on the device distribution diagram are in different queues from the address occupation positions of the second sub-device group corresponding to the target device group on the device distribution diagram.

8. The method for configuring DMX device information according to any of claims 1-5, wherein the method further comprises:

detecting whether an editing request triggered by a user for the target equipment on the equipment distribution diagram is received;

when detecting that an editing request corresponding to the target equipment is received, outputting an editing prompt aiming at the target equipment to the user according to the editing request corresponding to the target equipment, wherein the editing prompt comprises an editing frame of the target equipment;

and detecting information input by the user in an edit box of the target equipment, and synchronously displaying the information input by the user at the address position of the target equipment in the equipment distribution diagram.

9. An apparatus for configuring DMX device information, the apparatus comprising:

a determining module, configured to determine configuration information of each target device in a plurality of target devices in a current scenario, where the configuration information of each target device includes configuration address information of the target device, the configuration address information of each target device includes an endpoint configuration address, an address configuration length, and/or all configuration addresses of the target device, and all the target devices are DMX-type devices;

the analysis module is used for analyzing the address occupation position of the target equipment on the equipment distribution diagram according to the configuration address information of each target equipment;

a generating module, configured to generate address occupation information of each target device on the device profile according to configuration information of the target device, where the address occupation information of each target device on the device profile includes an endpoint address occupation position of the target device on the device profile, a device identifier of the target device, and/or an address occupation length of the target device on the device profile, and the endpoint address occupation position of each target device on the device profile includes a starting address occupation position of the target device on the device profile;

and the visualization module is used for displaying the address occupation information of each target device on the device distribution diagram at the address occupation position of the target device on the device distribution diagram.

10. An apparatus for configuring DMX device information, the apparatus comprising:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program code stored in the memory to execute the configuration method of DMX device information according to any of claims 1-8.

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