TWI726539B - Processing method of range selector - Google Patents

Abstract

A processing method of a range selector comprises: executing the range selector via a processor to generate a map setting interface; outputting the map setting interface via a display device; receiving a first instruction by the map setting interface, wherein the first instruction includes setting a node type and setting a node number; instructing the range selector to generate a node map according to the node type and the node number by the processor; outputting the node map by the display device; and determining whether the map setting interface receives a second instruction via the processor, if the map setting interface receives the second instruction, the processor instructs the range selector to mark at least one non-selectable range on the node map.

Description

How to deal with interval selectors

The present invention relates to a processing method of an interval selector.

The interval selector is an application used to generate a node map. The current common interval selectors include three types of interval selectors: calendar type, bubble slider label type, and slider label type. These interval selectors have some shortcomings that are not convenient to use. For example, for these three range selectors, users cannot define the node type, number of nodes, and display status of the selectable range of the node map by themselves. In terms of the calendar-type interval selector, it can only be executed on a personal computer and cannot be executed on a mobile communication device. Taking the bubble slider label type of interval selector, the generated node map can only display the range of the selected interval, but not the node.

In view of this, there is indeed a need for an improved node map generation method in order to improve the above-mentioned shortcomings.

The present invention provides a processing method for an interval selector. Since the user can define the node type and the number of nodes of the node map by himself, node maps suitable for various fields can be generated, so it has higher practicability.

According to an embodiment of the present invention, a method for processing an interval selector disclosed includes: executing the interval selector with a processor to generate a map setting interface; outputting the map setting interface with a display device; and using the map setting interface Receiving a first instruction, the first instruction including setting a node type and a node number; using the processor to instruct the interval selector to generate a node map according to the node type and the number of nodes; using the processor to instruct the display device Output this A node map, wherein the node map includes a plurality of line segments, a plurality of nodes, and a plurality of node names; and the processor determines whether the map setting interface receives a second instruction, and if the map setting interface receives the first instruction The second instruction is to use the processor to instruct the interval selector to mark at least one non-selectable interval range on the node map.

The processing method of the interval selector disclosed in the present invention can self-define the node type, the number of nodes and the map track type of the node map according to the different needs of users. For the non-selectable range on the node map, the line segment type and line color of the non-selectable range can be adjusted through the map setting interface. For the selected interval range on the node map, the line segment type, line color and node status of the selected interval range can also be adjusted through the map setting interface. It can be seen that the method according to the present invention can generate node maps suitable for various fields, and obviously has higher practicability.

The above description of the disclosure and the following description of the implementation manners are used to demonstrate and explain the spirit and principle of the present invention, and to provide a further explanation of the patent application scope of the present invention.

Step 1~Step 5

S10~S14: steps

S20~S25: steps

S231~S233: steps

FIG. 1 is a flowchart of the first stage of the processing method of the interval selector disclosed in an embodiment of the present invention

FIG. 2 is a schematic diagram showing an embodiment of a node map generated according to the method of FIG. 1.

FIG. 3 is a flowchart of the second stage of the processing method of the interval selector disclosed in an embodiment of the present invention.

FIG. 4 is a detailed step diagram of step 23 in FIG. 3.

FIG. 5 is a schematic diagram showing an embodiment of a node map generated according to the method of FIG. 1 and FIG. 3.

FIG. 6 is a schematic diagram showing another embodiment of the node map generated according to the method of FIG. 1 and FIG. 3.

The detailed features and advantages of the present invention will be described in detail in the following embodiments. The content is sufficient to enable anyone familiar with the relevant art to understand the technical content of the present invention and implement it accordingly, and according to the content disclosed in this specification, the scope of patent application and the drawings. Anyone who is familiar with relevant skills can easily understand the purpose and advantages of the present invention. The following examples further illustrate the viewpoints of the present invention in detail, but do not limit the scope of the present invention by any viewpoint.

The processing method of the interval selector provided by an embodiment of the present invention includes two stages, which are described in FIG. 1 and FIG. 3 respectively.

FIG. 1 is a flowchart of the first stage of the processing method of the interval selector disclosed in an embodiment of the present invention. As shown in FIG. 1, in step S10, a processor of a host executes an interval selector to generate a map setting interface. The interval selector is an application program stored in a memory of the host, and its purpose is to generate nodes. Map, and the host can be a personal computer, a server, or various types of mobile communication devices. In step S11, a display device of the host is used to output a map setting interface. Then enter step S12, and receive a first instruction through the map setting interface, the first instruction including setting a node type, a number of nodes, and a map track type of the node map. For example, the map setting interface has a first field for setting the node type, a second field for setting the number of nodes, and a first menu for setting the map track type. The user can output the expected node type in the first field, such as time, step, meeting room number, etc., and can input the expected number of nodes in the second field, and select the desired map track type in the first menu. For example, a straight line, an S-shaped curve, or a circle. Then step S13 is entered, and the processor instructs the interval selector to generate a node map according to the node type, the number of nodes, and the map trajectory type. Then go to step S14 to output the node map with the display device. Wherein, the node map displayed on the display interface includes a plurality of nodes, a plurality of line segments connecting the nodes, and a plurality of node names respectively marked on the nodes.

In other embodiments, the first instruction may further include setting the node interval of the node map. For example, when the node type is set to time, the node interval may be set to various time segments of different lengths, such as 15 minutes, half an hour, One hour or one and a half hours, but not limited to this.

FIG. 2 is a schematic diagram showing an embodiment of a node map generated according to the method of FIG. 1. As shown in Figure 2, if the node type, number of nodes, and map trajectory type set in step S12 are steps, 5 nodes, and straight lines, respectively, the node map displayed in step S14 includes the first node to The fifth node, and the first straight line segment to the fourth straight line segment and step 1 to step 5. Steps 1 to 5 are marked on the first node to the fifth node, respectively. The first straight line segment connects between the first node and the second node, the second straight line segment connects between the second node and the third node, the third straight line segment connects between the third node and the fourth node, and the fourth straight line segment Connect the fourth node and the fifth node.

FIG. 3 is a flowchart of the second stage of the processing method of the interval selector disclosed in an embodiment of the present invention. As shown in FIG. 3, after step S14 in FIG. 1, step S20 is then entered. In step S20, the processor is used to determine whether the map setting interface receives a second instruction, where the second instruction is to set at least one non-selectable range in the map setting interface. In detail, the map setting interface has a The third and fourth fields are used to set the range of non-selectable intervals. If the third and fifth nodes are entered in the third and fourth fields, respectively, the third and fifth nodes of the node map will be set The interval belongs to the range of non-selectable interval. If the user then re-enters the seventh node and the eighth node in the third field and the fourth field, the seventh node and the eighth node of the node map are further set to be in the non-selectable range. At this time, the node There are two non-selectable interval ranges on the map.

The content of the second instruction is to set an unselectable interval as an example. If the judgment result of step S20 is affirmative, step S21 is entered, and the processor instructs the interval selector to mark the unselectable interval range on the node map. At this time, the node map displayed on the display interface includes one non-selectable interval range and multiple selectable interval ranges. In addition, the interval selector has preset the selectable interval range and the non-selectable interval range to have different line segment types, so as to allow the use of The person can more clearly distinguish the range of the optional interval and the range of the non-selectable interval.

In other embodiments, the map setting interface has a second menu for adjusting the line segment types of the unselectable interval range. When there are multiple unselectable interval ranges, the user can select multiple line segment types through the second menu ( For example, a dotted chain line, a dotted line), so that the multiple non-selectable interval ranges have different line segment types.

After step S21, proceed to step S22. If the judgment result of step S20 is negative, then go directly to step S22.

In step S22, the processor determines whether the map setting interface receives a third instruction, wherein the third instruction is to set a plurality of selected interval ranges on the map setting interface. Among them, each selected interval range is between two nodes, and a line segment is connected between the two nodes corresponding to the selected interval range. If the judgment result of step S22 is affirmative, then step S23 is entered, and the processor instructs the interval selector to mark a plurality of selected interval ranges on the node map.

If the judgment result of step S22 is negative, go to step S24. In step S24, the processor is used to determine whether the map setting interface receives a fourth instruction, where the fourth instruction is to set a selected interval range on the map setting interface. If the judgment result of step S24 is affirmative, step S25 is entered, and the processor instructs the interval selector to mark a selected interval range on the node map. If the judgment result of step S24 is negative, the method ends.

FIG. 4 is a detailed step diagram of step 23 in FIG. 3. As shown in FIG. 4, in step S231, the interval selector is used to generate a plurality of different start and end label pairs according to the selected interval ranges. In step S232, the processor instructs the interval selector to mark the start and end label pairs respectively on the selected node pairs corresponding to the selected interval ranges. Specifically, if the selected interval range is set between the third node and the fourth node, the third node and the fourth node belong to the selected node pair. In step S233, the processor instructs the interval selector to change the display state of a node in each selected node pair and the display state of a line segment between each selected node pair. The above-mentioned changed display state may include the change of the color of the node in the selected node pair and the change of the color, thickness or line type of the line segment between the selected node pair.

FIG. 5 is a schematic diagram showing an embodiment of a node map generated according to the method of FIG. 1 and FIG. 3. As shown in Figure 5, the node map contains a selected interval range, the selected interval range is between the first node (8:00) and the second node (8:30), and the starting point label is marked on the first node , And the end label is marked on the second node. The node map also contains three non-selectable interval ranges. The first non-selectable interval range is between the third node (9:00) and the fourth node (9:30). The second non-selectable interval range is between the ninth node (12:00) and the thirteenth node (14:00). The third non-selectable interval range is between the fifteenth node (15:00) and the seventeenth node (16:00). The node map also includes multiple selectable interval ranges, and the first selectable interval range is between the second node (8:30) and the third node (9:00). The second optional interval range is between the fourth node (9:30) and the ninth node (12:00). The third optional interval range is between the thirteenth node (14:00) and the fifteenth node (15:00). The fourth optional interval range is between the seventeenth node (16:00) and the twentieth node (17:30). The line segment within the selected interval is a solid line with the first color, and the interior of the node marked by the start label is in a filled state. The line segment in the range of the selectable interval is a solid line with the second color, and the interior of each node in the range of the selectable interval is in an unfilled state. The line segment within the first non-selectable interval is a dashed line with the third color, the line segment within the second non-selectable interval is a dashed line with the fourth color, and the line segment within the third non-selectable interval is a fourth color dotted line.

FIG. 6 is a schematic diagram showing another embodiment of the node map generated according to the method of FIG. 1 and FIG. 3. As shown in FIG. 6, there are two selected interval ranges on the node map, and the first selected interval range is between the first node (8:00) and the second node (8:30). The second selected interval range is between the ninth node (12:00) and the eleventh node (13:00). The first starting point label and the first ending point label are respectively marked on the first node and the second node, and the second starting point label and the second ending point label are respectively marked on the ninth node and the eleventh node. The node map also includes multiple optional interval ranges. The first optional interval range is between the second node (8:30) and the ninth node (12:00), and the second optional interval range is between Between the eleventh node (13:00) and the twentieth node (17:30). The line segment in each selected interval is the solid line with the first color and the inner part of the node marked by the start label. The part is filled up. The line segment in the range of the selectable interval is a solid line with the second color, and the interior of each node in the range of the selectable interval is in an unfilled state.

In an embodiment, a first label and a second label on the node map are marked in a selected interval range. When the interval selector moves the first label to the adjacent first node and the second node on the node map, the interval selector is used to determine the first distance between the first label and the first node and the distance between the first label and the second node. When the first distance is less than the second distance, the first label is marked on the first node; when the second distance is less than the first distance, the first label is marked on the second node.

After the interval selector has marked the first label on the first node or the second node, the interval selector is used to determine whether the interval between the first node and the second node belongs to the non-selectable interval range. If the interval between the first node and the second node belongs to If the interval range is not selectable, the interval selector further judges whether the moved first label is a starting label. When the first label is the start label and is marked on the first node, move the first label to the second node with the interval selector, and then move the second label to the third node on the node map, and the third node is adjacent to The second node. When the first label is the start label and is marked on the second node, the second label is moved to the third node on the node map with the interval selector. When the first label is not the start label and is marked on the first node, it means that the first label is the end label and the second label is the start label. The interval selector is used to first move the first label to the third node, and then Move the second label to the second node. When the first label is not the start label and is marked on the second node, the interval selector is used to first move the first label to the third node, and then move the second label to the second node.

In summary, the processing method of the interval selector disclosed in the present invention can self-define the node type, the number of nodes, and the map track type of the node map according to the different needs of users. For the non-selectable range on the node map, the line segment type and line color of the non-selectable range can be adjusted through the map setting interface. For the selected interval range on the node map, the line segment type, line color and node status of the selected interval range can also be adjusted through the map setting interface. It can be seen that the method according to the present invention can generate nodes suitable for various fields The map is obviously of higher practicability.

Although the present invention is disclosed in the foregoing embodiments, it is not intended to limit the present invention. All changes and modifications made without departing from the spirit and scope of the present invention fall within the scope of the patent protection of the present invention. For the scope of protection defined by the present invention, please refer to the attached scope of patent application.

S10~S14: steps

Claims (10)

A processing method for an interval selector includes: executing the interval selector with a processor to generate a map setting interface; outputting the map setting interface with a display device; receiving a first command with the map setting interface, the first The instructions include setting a node type and a number of nodes; using the processor to instruct the interval selector to generate a node map according to the node type and the number of nodes; using the processor to instruct the display device to output the node map, wherein the node map It includes multiple line segments, multiple nodes, and multiple node names; and the processor determines whether the map setting interface receives a second instruction, and if the map setting interface receives the second instruction, the processing The indicator instructs the interval selector to mark at least one non-selectable interval range on the node map. The processing method of an interval selector according to claim 1, wherein when the interval selector marks the non-selectable interval range on the node map, the node map includes a plurality of selectable interval ranges and the non-selectable interval range, The type of the line segment of each selectable interval range is different from the type of the line segment of the non-selectable interval range. The processing method of the interval selector according to claim 1, further comprising: using the processor to instruct the interval selector to mark the at least one non-selectable interval range after the node map, and using the processor to determine whether the map setting interface receives To a third instruction, if the map setting interface receives the third instruction, the processor instructs the interval selector to mark a plurality of selected interval ranges on the node map. The processing method of an interval selector according to claim 3, wherein marking a plurality of selected interval ranges with the processor instructing the interval selector includes: instructing the interval selector to generate a plurality of start and end label pairs by the processor ; And the processor instructs the interval selector to mark the start and end label pairs in the selected interval ranges respectively. The processing method of the section selector according to claim 3, further comprising: after the processor determines whether the map setting interface receives the third instruction, if the processor determines that the map setting interface does not receive the third instruction , The processor determines whether the map setting interface receives a fourth instruction, and if the map setting interface receives the fourth instruction, the processor instructs the interval selector to mark a selected interval range on the Node map. The processing method of the interval selector according to claim 1, wherein a first label and a second label on the node map are marked in a selected interval range, when the interval selector moves the first label to the node When a first node and a second node are adjacent to each other on the map, the interval selector is used to determine a first distance between the first label and the first node and a distance between the first label and the second node. A second distance, when the first distance is less than the second distance, mark the first label on the first node, when the second distance is less than the first distance, mark the first label on the second node . The processing method of the interval selector according to claim 6, which further includes that after the interval selector marks the first label on the first node or the second node, the interval selector is used to determine whether the first node and Whether the two nodes belong to the non-selectable interval range, if the first node and the second node belong to the non-selectable interval range, the interval selector further determines whether the first label is a starting label, when When the first label is the start label and the first label is marked on the first node, move the first label to the second node with the interval selector, Then move the second label to a third node on the node map, and the third node is adjacent to the second node. The processing method of the interval selector according to claim 6, which further includes that after the interval selector marks the first label on the first node or the second node, the interval selector is used to determine whether the first node and Whether the two nodes belong to the non-selectable interval range, if the first node and the second node belong to the non-selectable interval range, the interval selector further determines whether the first label is a starting label, when When the first label is the start label and the first label is marked on the second node, the second label is used in the range selector to a third node on the node map, and the third node is adjacent to The second node. The processing method of the interval selector according to claim 6, which further includes that after the interval selector marks the first label on the first node or the second node, the interval selector is used to determine whether the first node and Whether the two nodes belong to the non-selectable interval range, if the first node and the second node belong to the non-selectable interval range, the interval selector further determines whether the first label is a starting label, when When the first label is not the start label and the first label is marked on the first node, the range selector is used to move the first label to a third node, and the third node is adjacent to the second node , And then move a second label to the second node. The processing method of the interval selector according to claim 6, which further includes that after the interval selector marks the first label on the first node or the second node, the interval selector is used to determine whether the first node and Whether the two nodes belong to the non-selectable interval range, if the first node and the second node belong to the non-selectable interval range, the interval selector further determines whether the first label is a starting label, when The first label is not the start label and the When the first label is marked on the second node, the interval selector is used to move the first label to a third node, the third node is adjacent to the second node, and then a second label is moved to the second node .

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