CN104932709B - Electronic equipment and intelligent input method thereof - Google Patents

Abstract

The invention discloses an electronic device and an intelligent input method thereof, wherein the method comprises the following steps: inputting a first initial Chinese character in a spelling input state; splitting the first initial Chinese character into at least two split structures; selecting a split structure of the first initial Chinese character to generate the target Chinese character, or selecting a split structure of the first initial Chinese character to be combined with at least one other Chinese character and/or the composition structure to generate the target Chinese character. By the mode, the user can smoothly input the unknown font, so that the user experience is improved.

Description

Electronic equipment and intelligent input method thereof

Technical Field

The invention relates to the technical field of electronic equipment, in particular to electronic equipment and an intelligent input method thereof.

Background

At present, various electronic devices have been increasingly widely used. In an application of the electronic device, a human-computer interaction is usually required, for example, a user inputs information into the electronic device through an input interface, and the electronic device further corresponds to the input and outputs a corresponding signal. Among them, inputting information into electronic devices by an input method is one of the most common ways. Electronic devices typically include a number of input methods to provide a user with a selection. However, for some rare words or words which are difficult to remember immediately, the user cannot quickly enter the rare words or the words which are difficult to remember to the electronic equipment. This causes inconvenience to the user.

Disclosure of Invention

The invention mainly solves the technical problem of providing the electronic equipment and the intelligent input method thereof, which can enable a user to smoothly input unknown fonts, thereby improving the user experience.

In order to solve the technical problems, the invention adopts a technical scheme that: an intelligent input method of an electronic device is provided, the method comprising the steps of: inputting a first initial Chinese character in a spelling input state; splitting the first initial Chinese character into at least two split structures; selecting a split structure of the first initial Chinese character to generate the target Chinese character, or selecting a split structure of the first initial Chinese character to be combined with at least one other Chinese character and/or the composition structure to generate the target Chinese character.

Wherein the step of selecting a split Chinese character or a split structure of the first initial Chinese character to be combined with at least one other Chinese character and/or constituent structure to generate the target Chinese character further comprises:

selecting a font structure of a target Chinese character for splicing and combining, wherein the font structure comprises a left structure, a right structure, an upper structure, a lower structure, a left-middle-right structure, an upper-middle-lower structure, an upper-right surrounding structure, an upper-left surrounding structure, a lower-left surrounding structure, an upper-three surrounding structure, a lower-three surrounding structure, a left-three surrounding structure, a full surrounding structure and an embedded structure.

The step of selecting one split Chinese character or one split structure of the first initial Chinese character to be combined with at least one other Chinese character and/or composition structure to generate the target Chinese character comprises the following steps:

a second initial chinese character is input,

splitting the second initial Chinese character into at least two split structures;

and selecting a split structure of the first initial Chinese character and a split structure of the second initial Chinese character to combine to generate the target Chinese character.

The step of selecting one split Chinese character or one split structure of the first initial Chinese character to be combined with at least one other Chinese character and/or composition structure to generate the target Chinese character comprises the following steps:

inputting a second initial Chinese character or a composition structure;

and selecting a split structure of the first initial Chinese character to be combined with the second initial Chinese character or the composition structure to generate the target Chinese character.

The method for splitting the first initial Chinese character into at least two split structures comprises the following steps:

the first initial Chinese character is split into at least two split structures by adopting a radical splitting command or a stroke splitting command.

In order to solve the technical problem, the invention adopts another technical scheme that: provided is an electronic device having an intelligent input method, the electronic device including:

the input module is used for inputting a first initial Chinese character in a piecing input state;

the splitting module is used for splitting the first initial Chinese character into at least two splitting structures;

and the generating module is used for selecting a split structure of the first initial Chinese character to generate the target Chinese character, or selecting a split structure of the first initial Chinese character to be combined with at least one other Chinese character and/or the composition structure to generate the target Chinese character.

The generating module selects a font structure of the target Chinese character to be spliced and combined, wherein the font structure comprises a left structure, a right structure, an upper structure, a lower structure, a left structure, a middle structure, a lower structure, an upper right surrounding structure, an upper left surrounding structure, a lower left surrounding structure, an upper three surrounding structure, a lower three surrounding structure, a left three surrounding structure, a full surrounding structure and an embedded structure.

Wherein, the input module further inputs a second initial Chinese character;

the splitting module is used for further splitting the second initial Chinese character into at least two splitting structures;

the generation module further selects a split structure of the first initial Chinese character and a split structure of the second initial Chinese character to be combined to generate the target Chinese character.

Wherein, the input module further inputs a second initial Chinese character or a composition structure;

the generation module further selects a split structure of the first initial Chinese character to be combined with the second initial Chinese character or the composition structure to generate the target Chinese character.

The splitting module specifically splits the first initial Chinese character into at least two split structures by adopting a radical splitting command or a stroke splitting command.

The invention has the beneficial effects that: different from the prior art, the input method of the invention inputs the first initial Chinese character in a pieced input state, splits the first initial Chinese character into at least two split structures, and finally selects one split structure of the first initial Chinese character to generate the target Chinese character, or selects one split structure of the first initial Chinese character to combine with at least one other Chinese character and/or composition structure to generate the target Chinese character. Therefore, when the user does not know the Chinese character to be input, the user can input the known Chinese character, split the known Chinese character and combine the split structures to generate the unknown Chinese character, so that the user can smoothly input the unknown Chinese character, and the user experience is improved.

Drawings

Fig. 1 is a flowchart of an intelligent input method for an electronic device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

Referring to fig. 1, fig. 1 is a flowchart illustrating an intelligent input method for an electronic device according to an embodiment of the present invention. As shown in fig. 1, the method of an embodiment of the present invention comprises the steps of:

step S1: under the condition of spelling input, the first initial Chinese character is input.

Before this step, a command to enter the pieced-together state needs to be input first, which may be specifically a preset shortcut key, such as an @ key, a Q key, and the like. It may also be a predetermined action, such as double-clicking a predetermined window or shaking the electronic device when the input window is opened, etc. The present embodiment does not limit the command for entering the pieced state, and the command for entering the pieced state is within the protection scope of the present embodiment.

Step S2: the first initial Chinese character is split into at least two split structures.

Step S3: selecting a split structure of the first initial Chinese character to generate the target Chinese character, or selecting a split structure of the first initial Chinese character to be combined with at least one other Chinese character and/or the composition structure to generate the target Chinese character.

Therefore, in this embodiment, when the user does not recognize the Chinese character to be input, the recognized Chinese character can be input, the recognized Chinese character is split, and then the split Chinese character is generated into the target Chinese character, or the split structure is selected to be combined with other Chinese characters and/or the constituent structure to generate the target Chinese character, so that the user can smoothly input the unknown Chinese character, and the user experience is improved.

The splitting in step S2 may be performed by using a radical splitting command or a stroke splitting command to split the first initial chinese character into at least two split structures. A split command option may be provided for user selection before step S2, and the splitting operation may be performed after the user selection. It should be noted that both the radical splitting command and the stroke splitting command are preferably splitting commands corresponding to default splitting modes of the system, that is, if the user selects the radical splitting command or the stroke splitting command, the system provides the default radical splitting mode or the default stroke splitting mode, respectively. The default splitting mode of a specific system will be described in detail below.

In this embodiment, the user is also provided with another splitting command, namely a free splitting command. That is, after the free splitting command is selected, the structure to be split needs to be further selected, and then the preset command is clicked to split the structure.

It is noted that the user can switch to other split commands regardless of which split command the user selects. The specific operation may be to provide a switching option for the user, after the user selects a splitting command, if the splitting result does not meet the requirement of the user, the user may click the switching option, and after the system receives the switching selection input by the user, the system provides the splitting command option for the user to select so as to switch to the splitting command required by the user.

Specifically, in the radical splitting command, the system stores the font structure style of the Chinese characters in advance. The font structure includes left and right structure, upper and lower structure, left side in right structure, upper and lower structure, upper right surrounding structure, upper left surrounding structure, lower left surrounding structure, upper three surrounding structure, lower three surrounding structure, three surrounding structures on the left side, fully surrounding structure and mosaic structure.

When the user selects the component splitting command, the first initial Chinese character is split according to the structural style of the default font of the system, for example, the Chinese character is 'clear', and the Chinese character can be split into 'wide' and 'blue' structures according to the left and right structures of the default font of the system. As another example, the word "neglect" can be split into two structures, i.e., "don't care" and "heart", according to the default upper and lower structures of the system. And as for the 'foot' word, the three structures of 'month', 'go' and '' can be split according to the default left, middle and right structures of the system.

In this embodiment, there may be more than one default radical splitting manner for the system. For example, the aforementioned "foot" word, the default splitting manner of the system may further include splitting in left and right structures, i.e. splitting into "month" and "but" structures. Thereby providing more default splitting schemes for user selection.

It should be noted that, if the user finds that the structure split by the system is not the structure required by the user after selecting the component splitting command, the user can select the switching command to switch to the required splitting command. Specifically, the user switch split command includes two cases:

the first case is: the user switches the splitting command on the basis of the split structure, and can directly click the switching option, and the operation of the system at the moment also comprises two operations:

the first operation is: and further splitting the split structure by using a self default splitting mode. For example, after the 'anyn' word is split into two structures of 'alpha' and 'non', the system receives the user directly clicks the switching option and selects the stroke splitting command, and then the system further finely splits the 'alpha' and 'non' into a structure of 'horizontal stroke', 'horizontal stroke' and 'horizontal stroke' according to the default splitting mode of the stroke splitting.

The second operation is: and further prompting the user to select a structure which needs to be further split and then performing more detailed splitting. Continuing to exemplify the splitting of the 'ren' character, after the 'ren' character is split into two structures of 'alpha' and 'non', when the system receives a command that a user directly clicks a switching option and selects a stroke splitting command, the system further provides an option of a specific structure for the user to select, and after the system receives the command that the user selects the specific structure, the specific structure selected by the user is finely split. If the user selects the structure, "[ alpha ]", it will be broken down into "" horizontal "" and "". The "non" structure is no longer carefully disassembled.

The second case is: the user needs to reselect the splitting command on the basis of not splitting the first initial Chinese character, and at the moment, the system provides a return command for the user, so that the user exits from the current splitting command after selecting the return command, and further prompts the user to reselect the splitting command. Then the first initial Chinese character is split according to the splitting command selected by the user.

In this embodiment, for the second case, the system may be further configured to provide only another splitting command option except for the original splitting command when the user reselects, so as to reduce the splitting command option, and facilitate quick selection by the user. For example, the user prefers to select the radical split command, and when the split command needs to be reselected, the system can only provide the user with two options of the stroke split command and the free split command. Of course, the split command options provided by the system may also be all split command options, and are not limited herein.

In the stroke splitting, as in the radical splitting described above, the system stores the default stroke first, and when the user selects the stroke splitting command, the first initial Chinese character is split according to the default mode. It should be understood that when the stroke is split, if there is more than one same stroke in the split strokes of the first initial Chinese character, the system may display the stroke only once, such as the "king" character, and when the stroke is split, the system may split into two structures of "one" and "i", and display the three structures of "one" only once, of course, the stroke splitting may also take on various splitting modes, such as the "king" character may also be split into "one" and "soil" or "stem" and "one" or "three" and "i".

In this embodiment, the stroke splitting is preferably a splitting mode including splitting into simplest strokes, for example, the aforementioned "king" word, and the system preferably selects a default stroke splitting mode that should split the simplest strokes of the "king", that is, the splitting result includes "one" and "i". The other two splitting modes for the king character are set as required.

Similar to the principle of radical splitting, in the process of stroke splitting, if the structure split by the default splitting mode of the system is not required by the user, the user can switch the splitting command. The specific switching is as described above, and is not described herein again.

In the free splitting, if the user selects the free splitting command, the system will further prompt the user to select a structure to be split, for example, a "jade" character, and if the user's desired structure is a "" structure, while the stroke splitting of the system is split into only "one", "earth" and "left-falling" or "dry", "one" and "left-falling" or "one", "one-thin-line" and "left-falling" or "three", "one-thin-line" and "left-falling". The user can select the free splitting command at this time, then select the structure "" to be split through a key or a screen (touch screen), and then click a preset command, so that the "jade" is split into two structures, namely "one" and "".

The above is a detailed description of the splitting manner corresponding to each splitting command in step S2 in this embodiment.

After the first initial Chinese character is split into at least two split structures in step S2, the user is further prompted to select the structure to be combined. After the user selects the desired split structure, two generation scenarios are typically included:

the first generation case: if the user directly clicks the generation command, step S3 generates the corresponding target chinese character according to the split structure selected by the user. For example, the first initial Chinese character "Qing" as described above is divided into a "not to be included" and a "blue" division structure, and the user selects the "blue" structure to generate, then step S3 directly generates the "blue" character.

The second generation case: and further inputting other initial Chinese characters or composition structures, and performing related operations to generate a target Chinese character. The composition structure may be the structure of Chinese characters directly input by a common input method, such as (pronunciation tou). The user is now first provided with an input command which in turn comprises a command to enter the pieced together state and a command to enter the ordinary state.

If the user selects the command to enter the spelling mode, the process returns to step S1 to input the second initial chinese character. In step S2, the second initial chinese character is further split into at least two split structures, and the specific splitting is as described above and will not be described herein again. At this time, step S3 selects a split structure of the first initial chinese character and a split structure of the second initial chinese character to combine to generate the target chinese character. For example, the first initial Chinese character is the Chinese character named as Qing and is divided into a Chinese character Zhi and a Chinese character Qing, and the second initial Chinese character is the Chinese character named as ren and is divided into two divided structures of Xin and nonan. If the target Chinese character required to be formed by the user is 'Qian' character, the split structures of 'alpha' and 'cyan' are selected, then the generation command is clicked, and the selected split structures are combined to form the target Chinese character.

The method for generating the target Chinese character under the condition comprises a default generating mode or a freely selected generating mode of the system.

The default generating method of the system is similar to the default splitting method of the system described above, and the system stores font structures including a left structure, a right structure, a top-bottom structure, a left-middle-right structure, a top-middle-bottom structure, a top-right surrounding structure, a top-left surrounding structure, a bottom-left surrounding structure, a top-three surrounding structure, a bottom-three surrounding structure, a left-three surrounding structure, a full surrounding structure, and an embedded structure. And when the user clicks a generation command, selecting the font structure of the target Chinese character for splicing and combining. That is, when the user clicks the generation command, the piecing combination of the default structure is performed according to the split part selected by the user. Such as the composition of the "qian" word described hereinbefore.

It should be noted that the default generation mode sometimes includes more than one target chinese character, for example, if the split structure selected by the user is "kou" and "winter", the system generates "map" and "dong" characters according to the stored structure, so as to provide more options for the user to select.

The above discloses a way to synthesize a target structure by two split structures. It should be understood that the desired target Chinese character can also be synthesized by three or more split structures. If the target Chinese character is to be synthesized by more than three splitting structures, the third initial Chinese character is continuously input as the input principle of the second initial Chinese character, then the splitting operation is carried out, and then the spelling and combination operation is carried out. For example, if a "leg" character is to be generated, after a first initial Chinese character "foot" is input and split into a "moon" and a "minus" split structure, a second Chinese character "Da" is input continuously, then the first Chinese character "Da" and the "big" split structure are split into the "radical" and the "big" split structure in the splitting manner as described above, a third initial Chinese character "Liang" is input continuously and split into a "Zhuang" and a "Geng" split structure, and then the "moon", "radical" and "Geng" split structures are selected and then combined to generate a target Chinese character "leg". The principle of combining more than three split structures into the required target Chinese character is the same, and the description is omitted here.

If the target Chinese character generated by the default generation mode of the system is not the target Chinese character required by the user, the user can freely select the generation mode. At this time, the system may provide a generation option to the user, and when the user selects the free generation mode, the user is prompted to move the selected split structure. For example, if the target chinese character is the "" character, and if the split structure is the "king" and the "bobbing", the user selects the free generation method, moves the "bobbing" structure to the proper position of the "king", and then clicks on the generation command, the system generates the "" character from the position selected by the user.

In the second case, the user selects the command to enter the spelling state, then inputs the initial Chinese character for splitting, and then selects the splitting structure to generate the target Chinese character. The following will describe a scheme for generating a target chinese character by a user selecting a command to enter a normal state in the second case.

When the user selects the command of entering the ordinary state, the Chinese characters or the composition structure input by the user are not split. But directly combines the split structure of the first initial Chinese character selected by the user with the second initial Chinese character or the composition structure to generate the target Chinese character. For example, if the user selects the split structure of "" and the Chinese character input by the user in the normal state is "" and "" then the system will automatically generate the default target Chinese character "" only "". As another example, if the user selected split structure is "down" and the input constituent structure is "" in the normal state, the system defaults to "wide" for the target Chinese character being generated.

Similar to the situation that the target Chinese character is combined by splicing three or more split structures as described above. When the user selects to enter the common state, two or more Chinese characters or composition structures can be input to generate the target Chinese character with the split structure selected by the user, for example, composition structure is input and the target Chinese character is formed by splicing and combining the Chinese characters and the split structure selected by the user into the target Chinese character temple.

Wherein, one or two or more Chinese characters or constituent structures and two or more split structures selected by the user can be input to form the target Chinese character, for example, input the horizontal and vertical constituent structures and the user-selected branched and horizontal constituent structures to form the target Chinese character.

It should be noted that the default generation mode and the free generation mode of the system can be selected regardless of whether the split structure or the Chinese character or the combined structure is selected to be spliced to form the target Chinese character.

In summary, the present invention provides an intelligent input method, which can help a user input an unknown target Chinese character by splitting the Chinese character, thereby improving the user experience.

The embodiment of the invention also provides the electronic equipment with the intelligent input method. Please refer to fig. 2.

As shown in fig. 2, an electronic device 10 provided by the embodiment of the present invention includes an input module 11, a splitting module 12, and a generating module 13.

The input module 11 is used for inputting a first initial Chinese character in a spelling input state. It should be understood that the input action is user-initiated, and the input module 11 provides the user with the first initial Chinese character, and may be a keyboard, a key or a touch screen.

The splitting module 12 is configured to split the first initial chinese character into at least two split structures.

Optionally, the splitting module 12 specifically splits the first initial Chinese character into at least two split structures by using a radical splitting command, a stroke splitting command, or a free splitting command. The specific splitting manner is as described above, and is not described herein again.

The generating module 13 is used for selecting a split structure of the first initial Chinese character to generate the target Chinese character, or selecting a split structure of the first initial Chinese character to combine with at least another Chinese character and/or the composition structure to generate the target Chinese character. The font structure of the target Chinese character can be selected for spelling and combination. The font structure comprises a left structure, a right structure, an upper structure, a lower structure, a left middle structure, a right structure, an upper middle structure, a right upper surrounding structure, a left lower surrounding structure, an upper three surrounding structure, a lower three surrounding structure, a left three surrounding structure, a full surrounding structure and an embedded structure.

Optionally, the input module 11 further inputs a second initial chinese character. The splitting module 12 further splits the second initial Chinese character into at least two split structures. The generating module 13 further selects a split structure of the first initial Chinese character and a split structure of the second initial Chinese character to combine to generate the target Chinese character.

Optionally, the input module 11 further inputs a second initial chinese character or constituent structure. The generating module 13 further selects a split structure of the first initial Chinese character to combine with the second initial Chinese character or the constituent structure to generate the target Chinese character.

The specific operations of the input module 11, the splitting module 12 and the generating module 13 are as described above, and are not described herein again.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (6)

1. An intelligent input method for an electronic device, the method comprising the steps of:

inputting a first initial Chinese character in a spelling input state;

splitting the first initial Chinese character into at least two split structures;

selecting a split structure of the first initial Chinese character to generate a target Chinese character, or inputting a second initial Chinese character and splitting the second initial Chinese character into at least two split structures; and selecting a split structure of the first initial Chinese character and a split structure of the second initial Chinese character to be combined to generate the target Chinese character.

2. The intelligent input method of claim 1, wherein the step of selecting a split structure of the first initial Chinese character and a split structure of the second initial Chinese character in combination to generate the target Chinese character further comprises:

selecting the font structure of the target Chinese character to be spliced and combined, wherein the font structure comprises a left structure, a right structure, an upper structure, a lower structure, a left-middle-right structure, an upper-middle-lower structure, a right-upper surrounding structure, an upper-left surrounding structure, a left-lower surrounding structure, an upper-three surrounding structure, a lower-three surrounding structure, a left-three surrounding structure, a full surrounding structure and an embedded structure.

3. The intelligent input method of claim 1, wherein the step of splitting the first initial chinese character into at least two split structures comprises:

and splitting the first initial Chinese character into at least two split structures by adopting a radical splitting command or a stroke splitting command.

4. An electronic device with an intelligent input method, the electronic device comprising:

the input module is used for inputting a first initial Chinese character in a piecing input state;

the splitting module is used for splitting the first initial Chinese character into at least two splitting structures;

the generating module is used for selecting a split structure of the first initial Chinese character to generate a target Chinese character, and the input module is further used for inputting a second initial Chinese character; the splitting module further splits the second initial Chinese character into at least two split structures; the generation module further selects a split structure of the first initial Chinese character and a split structure of the second initial Chinese character to be combined to generate the target Chinese character.

5. The electronic device of claim 4, wherein the generating module selects a font structure of the target Chinese character for a piecing combination, wherein the font structure comprises a left-right structure, a top-bottom structure, a left-middle-right structure, a top-middle-bottom structure, a top-right surrounding structure, a top-left surrounding structure, a bottom-left surrounding structure, a top-three surrounding structure, a bottom-three surrounding structure, a left-three surrounding structure, a full surrounding structure, and a mosaic structure.

6. The electronic device of claim 4,

the splitting module specifically splits the first initial Chinese character into at least two split structures by adopting a radical splitting command or a stroke splitting command.

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