CN116629217A - Processing method of process file, electronic equipment and storage medium - Google Patents

Abstract

The application relates to a processing method of a process file, electronic equipment and a storage medium, wherein the method comprises the following steps: displaying an editing interface, wherein the editing interface is used for editing file contents of the process file; and responding to the instruction for outputting the model, outputting the process model corresponding to the process file based on the file content in the editing interface so as to preview the process file. According to the application, visual previewing is carried out on the process file in a mode of outputting the model, so that the file content is more intuitively displayed, the file content of the process file can be quickly adjusted, and the efficiency is improved.

Description

Processing method of process file, electronic equipment and storage medium

Technical Field

The present application relates to the field of integrated circuits, and in particular, to a processing method of a process file, an electronic device, and a storage medium.

Background

Parasitic parameter extraction of interconnect lines is a very important element in integrated circuit design. When designing an integrated circuit, a designer obtains the time delay and the power consumption of the integrated circuit according to parasitic parameters such as the resistance, the capacitance and the like of an interconnection line in the integrated circuit, so as to judge whether the design meets the requirements in terms of functions, frequency and power consumption, and the design can be changed and optimized.

The extraction technology of the parasitic parameters mainly comprises a field solver technology and a model matching technology, wherein the model matching technology is used for calling the field solver to establish a parasitic parameter library (captab), and solving the parasitic parameters of the larger-scale integrated circuit through model matching on the basis that the parasitic parameter library is established. The core input file used in the computation by the field solver is a pre-generated process file corresponding to a process model of the integrated circuit that describes the particular process structure of the integrated circuit to relate the layout file of the integrated circuit to the actual integrated circuit design. When the process file is generated, the file content is required to be accurately corresponding to the circuit design, so that the requirement on staff is high, and the accuracy of the file content is ensured mainly through a complicated operation process, so that the efficiency is low.

Disclosure of Invention

Aiming at the technical problems, the application provides a processing method, electronic equipment and a storage medium of a process file, which are used for visually previewing the process file in a mode of outputting a model, so that the file content is more intuitively displayed, the file content of the process file is favorably and rapidly adjusted, and the efficiency is improved.

In order to solve the technical problems, the application provides a processing method of a process file, which comprises the following steps:

displaying an editing interface, wherein the editing interface is used for editing file contents of a process file;

and responding to the instruction of outputting the model, outputting the process model corresponding to the process file based on the file content in the editing interface so as to preview the process file.

Wherein, in response to the instruction for outputting the model, after outputting the process model corresponding to the process file based on the file content in the editing interface, the method further comprises:

responding to an instruction for modifying the process file, and entering the editing interface;

and modifying the process file according to the file content edited in the editing interface.

Wherein the process model is displayed simultaneously with the editing interface.

The editing interface is also used for outputting an input template which accords with the grammar rule and is used for editing the file content and/or outputting grammar prompt information aiming at the file content when the file content is edited.

When the editing interface is used for outputting an input template which accords with a grammar rule and is used for editing the file content, the method further comprises the following steps after the editing interface is displayed:

responding to an instruction for selecting a currently edited target circuit layer, and displaying a process keyword list corresponding to the target circuit layer on the editing interface, wherein the process keyword list comprises a plurality of process keywords;

responding to an instruction for selecting a target process keyword in the process keyword list, and displaying the input template corresponding to the target process keyword on the editing interface;

and responding to an instruction for inputting a target parameter value, inputting the target parameter value in the input template of the target process keyword to obtain file content of the target circuit layer corresponding to the target process keyword, wherein the file content comprises the input template and the target parameter value in the input template.

When the editing interface is used for outputting the grammar prompting information aiming at the file content, after the editing interface is displayed, the method further comprises the following steps:

responding to the file content of the process file edited in the editing interface, and carrying out grammar detection on the file content according to the grammar rule of the process file;

and displaying grammar prompt information at a corresponding position in the file content according to the detection result.

Wherein the method further comprises:

responding to an instruction for storing the process file, and carrying out grammar detection on file contents edited in the editing interface according to grammar rules of the process file;

generating detection data according to the detection result;

and acquiring the edited process file according to the file content edited in the editing interface, and storing the detection data.

The responding to the instruction for outputting the model outputs the process model corresponding to the process file based on the file content in the editing interface so as to preview the process file, and the method comprises the following steps:

determining a target type of a model to be output in response to an instruction for outputting the model;

and processing the file content in the editing interface according to the target type, and outputting a process model corresponding to the process file according to a processing result so as to preview the process file.

The target type includes at least one of a three-dimensional view model, a two-dimensional top view model, a two-dimensional cross-sectional view model and a two-dimensional hierarchical relationship model, and the outputting the process model corresponding to the process file according to the processing result includes:

and outputting corresponding process models in different windows according to the processing results corresponding to different target types.

The process model to be output is a process model of the process file corresponding to the target device, and after the process model corresponding to the process file is output based on the file content in the editing interface, the process model further comprises:

and responding to the instruction of switching the target device, and outputting a process model of the process file corresponding to the switched target device.

The application also provides a processing method of the process file, which comprises the following steps:

selecting a process file;

responding to an instruction of outputting a model, outputting a process model corresponding to the process file, and previewing the process file;

responsive to an instruction to modify the process file, displaying an editing interface, the editing interface comprising file content of the process file;

and modifying the process file according to the file content edited in the editing interface.

The application also provides an electronic device comprising a storage medium and a controller, wherein the storage medium is stored with a management program, and the management program realizes the steps of the processing method of any one of the process files when being executed by the controller.

The application also provides a storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the process file processing method as described in any of the above.

The application discloses a processing method of a process file, electronic equipment and a storage medium, wherein the method comprises the following steps: displaying an editing interface, wherein the editing interface is used for editing file contents of the process file; and responding to the instruction for outputting the model, outputting the process model corresponding to the process file based on the file content in the editing interface so as to preview the process file. According to the application, visual previewing is carried out on the process file in a mode of outputting the model, so that the file content is more intuitively displayed, the file content of the process file can be quickly adjusted, and the efficiency is improved.

Drawings

FIG. 1 is a flow diagram illustrating a method of processing a process file according to one embodiment;

FIG. 2 is a schematic diagram of an editing interface shown according to one embodiment;

FIG. 3 is a schematic diagram illustrating an interface for outputting a process model, according to one embodiment.

Detailed Description

In order that the application may be readily understood, a more complete description of the application will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the application. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items. In the present application, "each" includes one and two or more numbers.

FIG. 1 is a flow diagram illustrating a method of processing a process file according to one embodiment. As shown in fig. 1, the processing method of the process file of the present application includes the following steps:

s1, displaying an editing interface, wherein the editing interface is used for editing file contents of a process file;

s2, responding to the instruction of outputting the model, outputting the process model corresponding to the process file based on the file content in the editing interface, and previewing the process file.

The method of the application can be applied to parasitic parameter extraction of integrated circuits or other applications for establishing process files in the field of integrated circuits. After the process file is obtained through editing, the process file can be visually previewed in a mode of outputting the model, so that the file content is more intuitively displayed, a user can quickly find inaccurate file content through the visually displayed model, further, the file content of the process file is quickly adjusted, and the efficiency is improved. Therefore, the application realizes the deep fusion and the high complementation of the process file editing and the process file visualization, so that the editing process is just seen and the seeing is just edited, the operation flow is effectively simplified, and the accuracy of the file content is improved.

Alternatively, the process model is output based on the file content of the process file, and the editing interface may be displayed at the same time when the process model is output. A user can judge whether the process file has a place which is not consistent with the circuit design through a visually displayed model, for example, whether a structure presented by a certain layer in a transistor is consistent with the circuit design, so that inaccurate file contents in the process file can be quickly found, and the file contents are edited again in an editing interface to obtain a modified process file. Therefore, by performing visual preview on the process file, the process file is edited in the editing process, namely the process file is seen and the process file is edited in the editing process, and the efficiency of modifying the process file is improved.

Optionally, after outputting the process model corresponding to the process file based on the file content in the editing interface in response to the instruction for outputting the model in step S2, the method further includes:

responding to an instruction for modifying the process file, and entering an editing interface;

and modifying the process file according to the file content edited in the editing interface.

After entering the editing interface, the editing interface can be displayed simultaneously with the process model, and a user can quickly position the content to be modified from the process model, so that the corresponding file content is found out at the editing interface for modification, and the editing process is just seen and just seen, and the editing process is just seen, so that the efficiency of modifying the process file is improved.

Optionally, the editing interface is further configured to output an input template for editing the file content and/or output syntax prompt information for the file content, where the input template conforms to the syntax rules when editing the file content. When the file content of the process file is edited, the application can provide an input template conforming to the grammar rule and/or carry out grammar prompt on the editing interface, thereby being beneficial to quickly generating the process file conforming to the grammar rule, reducing the requirement on personnel and improving the grammar accuracy of the process file.

Optionally, when the editing interface is used for outputting the input template which accords with the grammar rule and is used for editing the file content, after outputting the editing interface, the method further comprises the following steps:

responding to an instruction for selecting a currently edited target circuit layer, displaying a process keyword list corresponding to the target circuit layer on an editing interface, wherein the process keyword list comprises a plurality of process keywords;

responding to an instruction for selecting a target process keyword in the process keyword list, and displaying an input template corresponding to the target process keyword on an editing interface;

and in response to an instruction for inputting the target parameter value, inputting the target parameter value in an input template of the target process keyword to obtain file content of the target circuit layer corresponding to the target process keyword, wherein the file content comprises the input template and the target parameter value in the input template.

The target circuit layer refers to a layer in the integrated circuit corresponding to the content of the file currently edited, for example, a gate layer, an insulating layer, a flat layer, etc., and the target circuit layer may be one layer of the whole circuit or one layer of a certain device in the integrated circuit. The process keywords are used to characterize the design process of each component in the circuit layer, including, for example, the line width, line length, thickness, etc. of the connection line, or the aperture of the connection hole, etc. The editing interface comprises at least one window, different windows are used for carrying out different editing operations, and the number of the windows can be adjusted according to the currently triggered editing instructions. In one implementation, referring to FIG. 2, the editing interface includes a window for creating and selecting a target layer, which may be located at the leftmost side of the editing interface. The editing interface further includes a first window for displaying the content of the current document, in which an input template corresponding to the target process keyword is displayed, the input template including name information (such as thickness THK, width min_w, interval min_s) of the process keyword and regions for inputting corresponding parameter values (such as a, b, c) of the process keyword, the information being arranged according to the syntax requirement of the process document on the process keyword, thereby forming an input template corresponding to the currently selected process keyword, and the document content of the target circuit layer corresponding to the process keyword can be obtained by filling the regions for inputting the parameter values, such as specific values of line width, line length, aperture, thickness, etc., with the parameter values required for inputting. In the example shown in fig. 2, the input templates are presented in an overall editable form, and it is understood that, in actual implementation, only the area for inputting parameter values in the input templates may be an editable area, so as to avoid misoperation on other information when parameter values are input.

With continued reference to fig. 2, the editing interface further includes a second window for displaying a list of process keywords corresponding to the target circuit layer, where the second window may be displayed in real time or in response to an instruction to add a process keyword. In the process keyword list, a process keyword corresponding to the target circuit layer is displayed, and the user can add an input template corresponding to the process keyword in the first window by selecting the process keyword in the process keyword list. By selecting a plurality of process keywords in the process keyword list, an input template corresponding to the whole target circuit layer can be obtained, so that file contents corresponding to the target circuit layer can be edited quickly.

By the method, a user does not need to excessively memorize process keywords required by different layers of an integrated circuit or a circuit device and grammar rules corresponding to the different process keywords, so that the threshold of editing the process file is reduced, and meanwhile, the editing efficiency and the file content input accuracy are improved.

Optionally, when the editing interface is used for outputting the grammar prompting information for the file content, after outputting the editing interface, the method further comprises:

responding to the file content of the process file edited in the editing interface, and carrying out grammar detection on the file content according to the grammar rule of the process file;

and displaying grammar prompt information in the file content according to the detection result so as to carry out grammar prompt.

The function of outputting the grammar prompting information for the file content is suitable for a form that a user does not use an input template for inputting, and naturally, the grammar prompting can be performed under the condition that the user uses the input template for inputting, so that the accuracy of inputting the content is further improved. When a user edits the file content of the process file in the editing interface, grammar detection is carried out on the current file content, the grammar detection comprises whether the file content accords with the grammar rule of the target circuit layer or not, and at least one of specific grammar elements in the file content is identified, and the grammar elements comprise keywords, brackets, specific character strings, annotation information and the like. In one implementation, the function of outputting the syntax hint for the file content may include the following:

(1) Grammar coloring

Specific elements in the file contents are colored with different colors so as to be distinguished, so that a user can quickly check or modify the file contents. For example, the process key is in one color and the type of layer is in another color. In addition, other syntax elements (such as string text and annotation information) may be colored;

(2) Error and warning sign

When editing file content, warning and marking errors such as content which does not accord with grammar rules, at the moment, a user may see different color wave underlines (called wave curves) in codes or prompt bulbs to display in your codes, for example, red wave lines indicate grammar errors, blue indicates editor errors, green indicates warnings and purple indicates other types of errors;

(3) Bracket matching

When the insertion point is located on the left bracket in the file content, the left bracket and the right bracket will be highlighted, thereby providing the user with immediate feedback about the error or missing bracket;

(4) Structure visualization

In the file content, the brackets in pairs can be connected by a dotted line, so that a user can more easily distinguish the left bracket pair from the right bracket pair, and the user can more quickly find codes in the file content.

In addition, in the file content, a line number may also be displayed in the left margin of the window, and a color mark corresponding to the modification of the trace file may be displayed in the left margin (e.g., a yellow column is used on the left margin of the unsaved modification, which column will turn green after the modification has been saved). When the file content is edited, the method also supports the operations of revocation, text copying, text pasting, text cutting, text searching, text replacement and line number jumping, so that the operation is simpler when the input template is not used for file editing, and the accuracy of the input content is improved.

Through the mode, when a user selects a required editing mode (using an input template or not using the input template), the process file which accords with the grammar rule and has accurate file content can be easily and accurately obtained.

Optionally, the method of the present application further comprises:

responding to an instruction for storing the process file, and carrying out grammar detection on the file content edited in the editing interface according to the grammar rule of the process file;

generating detection data according to the detection result;

and generating a process file according to the file content edited in the editing interface, and storing detection data.

When the user edits by using the input template or directly edits by using the text, the file content is saved, namely, grammar detection can be performed on the file content edited in the editing interface according to the grammar rule of the process file, wherein the grammar detection comprises grammar error detection, process keyword mutual exclusion detection and the like, detection data are generated according to the detection result, and the detection data can be prompted in a popup window and log mode and stored, so that the user can conveniently check and correct the grammar problem of the file. In actual implementation, grammar detection is used as an auxiliary tool, and grammar problems are detected and the storage of file contents is not affected. Therefore, by carrying out grammar detection on the file content when the process file is stored, grammar problems existing in the whole file content can be checked, and even if the file content is edited by using the input template, whether the input parameter value meets the requirement can be checked, so that the grammar and the content accuracy of the process file can be further improved.

Optionally, step S2 outputs, in response to the instruction for outputting the model, a process model corresponding to the process file based on the file content in the editing interface, so as to preview the process file, including:

determining a target type of a model to be output in response to an instruction for outputting the model;

and processing the file content in the editing interface according to the target type, and outputting a process model corresponding to the process file according to the processing result so as to preview the process file.

After a process file meeting grammar rules is obtained by editing, whether the file content meets design requirements is unknown. By outputting the process model corresponding to the process file, a user can check graphic information presented by the data of the file content from different dimensions and angles, and further, the file content with problems can be found out rapidly, for example, a certain area of a certain layer of a certain device can be found out to be inconsistent with the design rapidly through checking the model, so that the file content of the process file can be regulated rapidly, and the efficiency is improved.

Optionally, the target type includes at least one of a three-dimensional view model, a two-dimensional top view model, a two-dimensional cross-sectional view model, and a two-dimensional hierarchical relationship model, and outputting a process model corresponding to the process file according to the processing result, including:

and outputting corresponding process models in different windows according to the processing results corresponding to different target types.

The three-dimensional view model is used for globally viewing the 3D structure of the process model, so that a user can have very visual knowledge of the process file. The process model is formed by splicing n cuboid and quadrangular prism platforms. The user may operate to rotate, zoom in or out on the 3D model, and may also select a local 3D structure in the 3D model to view its properties, including, for example, layers included in the 3D structure, graphics coordinate information, and so on, alone. Therefore, the user combines the 3D model, the attribute and the graphic coordinate information to judge whether the content numerical value of the process file is correct or not, and the checking efficiency is high. If the local detail of the whole model needs to be checked, a function of switching the rotation center of the 3D model can be started, the local 3D structure of the model is selected after the function is started, and the rotation center of the model is switched to the selected 3D structure.

The two-dimensional plan view model is obtained by flattening a 3D model in the Z direction, and the 3D model formed by combining n rectangular solids and a quadrangular prism is compressed into n rectangles. The rectangular parallelepiped is flattened in the Z direction to obtain a rectangle, the rectangular prism table is flattened in the Z direction to obtain a rectangle corresponding to the top surface of the rectangular prism table, a rectangle with Z/2 height and a rectangle corresponding to the bottom surface of the rectangular prism table, and the rectangle with Z/2 height is adopted as the flattened rectangle of the rectangular prism table by default. The user can see the 2D design condition of the model through the two-dimensional plan view model, and the user can perform operations such as shrinking, enlarging, clicking and the like on the plan view model. And checking the corresponding 2D graph through clicking, and at the moment, marking, for example highlighting, the 3D structure corresponding to the 2D graph in the three-dimensional view model, and synchronously refreshing and displaying the content corresponding to the 2D graph through a window for displaying the attribute and the graph coordinate information.

The three-dimensional view model can be opened to cut a tangent line on the X axis or the Y axis, and the section of the three-dimensional view model in the X axis direction and the Y axis direction, namely the two-dimensional section model, can be obtained by selecting the tangent line. The cuboid is cut into a rectangle, the quadrangular frustum pyramid is cut into a trapezoid or the rectangle, and the final two-dimensional sectional model is a 2D graph formed by the rectangle and the trapezoid. The user can zoom in, zoom out, or select the graphic by manipulating the two-dimensional sectional view model. And checking the corresponding 2D graph in the two-dimensional cross-sectional view model by clicking, and identifying, for example highlighting, a 3D structure corresponding to the 2D graph in the three-dimensional view model, and synchronously refreshing and displaying the content corresponding to the 2D graph through a window for displaying the attribute and the graph coordinate information.

The two-dimensional hierarchical relation model shows that the process file corresponds to the 2D graph of each layer of the circuit or the device, and can well reflect the graphs corresponding to different height sections in the process file. The two-dimensional hierarchical relationship model also supports zoom-out, zoom-in, and click operations.

Different types of models can be displayed through different windows, in one implementation, the windows are tiled on the current interface according to a specific arrangement mode, a user can select proper window layout and display content of the windows according to actual needs of the user, and when the model is actually realized, the windows can be displayed on the current interface in a mutually layered mode, and the positions of the windows can be adjusted according to moving operation of the windows. In addition, a window for editing file content, a window for selecting a target circuit layer, a target network and a window for selecting a target device can be displayed in the current interface, wherein the target network can be a network structure crossing different circuit layers, such as pins, RC networks and the like, and the target device comprises a triode, a diode, a resistor, a capacitor and the like.

Window layouts include a single window layout, a double window layout, a three window layout, a four window layout, a five window layout, etc., as shown in fig. 2 and 3, a user may operate in the top operation field of the interface to switch window layouts. The upper left corner of each window is provided with a window content switching button, the button is clicked to display a selection menu, and the menu contains options such as an editing window, a three-dimensional view model, a two-dimensional top view model, a two-dimensional cross-sectional view model, a two-dimensional hierarchical relation model, target circuit layer control, device selection and the like of a process file, and a user can switch the content of the current window through the menu options. Referring to fig. 3, for illustrating a four-window layout, the upper left corner displays the current window content of "three-dimensional view", "two-dimensional top view", "two-dimensional cross-sectional view" and "display layer", when the current window content is selected as "three-dimensional view", the three-dimensional view model is displayed, when the current window content is selected as "two-dimensional top view", the two-dimensional top view model is displayed, when the current window content is selected as "two-dimensional cross-sectional view", the two-dimensional cross-sectional view model is displayed, and when the current window content is selected as "display layer", the current window is used for switching the displayed layers. In one implementation, when editing a process file, a user recommends to use a single window layout firstly, the window at the moment is used as an editing interface, and after the editing is completed, the process file is switched to a double window layout, a three window layout, a four window layout or a five window layout so as to carry out visual preview on the process file.

Optionally, the model to be output is a process model of the process file corresponding to the target device, and after outputting the process model corresponding to the process file based on the file content in the editing interface, the method further includes:

and responding to the instruction of switching the target device, and outputting a process model of the process file corresponding to the switched target device.

Wherein a process file generally includes file contents corresponding to a plurality of devices, a process model can be checked one by using models corresponding to the devices. After the target device is selected in the windows of the selected target devices, triggering an instruction for switching the target devices, and at the moment, refreshing the contents of other windows synchronously to output a process model of the process file corresponding to the switched target devices. In actual implementation, the options of the target device are mutually exclusive, and when the next device is selected, the graph of the previous device is refreshed.

The processing method of the process file comprises the following steps: displaying an editing interface, wherein the editing interface is used for editing file contents of the process file; and responding to the instruction of outputting the model, editing file content in the interface to output a process model corresponding to the process file, so as to preview the process file. According to the application, visual previewing is carried out on the process file in a mode of outputting the model, so that the file content is more intuitively displayed, the file content of the process file can be quickly adjusted, and the efficiency is improved. In addition, the display editing interface is also used for outputting an input template which accords with the grammar rule and is used for editing the file content and/or outputting grammar prompt information aiming at the file content when the file content is edited. When the file content of the process file is edited, the application can provide an input template conforming to the grammar rule and/or carry out grammar prompt on the editing interface, thereby being beneficial to quickly generating the process file conforming to the grammar rule, reducing the requirement on personnel and improving the grammar accuracy of the process file.

The application also provides another processing method of the process file, which comprises the following steps:

s10, selecting a process file;

s20, responding to an instruction of outputting the model, outputting a process model corresponding to the process file so as to preview the process file;

s30, responding to an instruction for modifying the process file, displaying an editing interface, wherein the editing interface comprises file contents of the process file;

s40, modifying the process file according to the file content edited in the editing interface.

The method can adopt a mode of directly importing the process file, and the process file is visually previewed in a mode of outputting a model, so that the file content is more intuitively displayed, the file content of the process file can be quickly adjusted, and the efficiency is improved.

Optionally, the editing interface is displayed simultaneously with the process model.

Optionally, before S10, the method further includes:

responding to an instruction for creating a process file, and displaying an editing interface;

and generating a process file according to the file content edited in the editing interface.

The editing interfaces used to create the process file and modify the process file may be the same editing interface or different editing interfaces.

Optionally, when the process file is created, the editing interface is further used for outputting an input template which accords with the grammar rule and is used for editing the file content and/or outputting grammar prompt information for the file content.

Optionally, when the editing interface is used for outputting an input template which accords with the grammar rule and is used for editing file contents, generating the process file according to the file contents edited in the editing interface, including:

responding to an instruction for selecting a currently edited target circuit layer, displaying a process keyword list corresponding to the target circuit layer on an editing interface, wherein the process keyword list comprises a plurality of process keywords;

responding to an instruction for selecting a target process keyword in the process keyword list, and displaying an input template corresponding to the target process keyword on an editing interface;

in response to an instruction for inputting the target parameter value, inputting the target parameter value in an input template of the target process keyword to obtain file content of the target circuit layer corresponding to the target process keyword, wherein the file content comprises the input template and the target parameter value in the input template;

and generating a process file according to the file content corresponding to at least one target circuit layer.

Optionally, when the editing interface is used for outputting the grammar prompting information for the file content, generating the process file according to the file content edited in the editing interface, including:

responding to the file content of the process file edited in the editing interface, and carrying out grammar detection on the file content according to the grammar rule of the process file;

displaying grammar prompt information at a corresponding position in the file content according to the detection result;

and generating a process file according to the content of the file which is currently edited.

Optionally, generating the process file according to the file content edited in the editing interface further includes:

responding to an instruction for storing the process file, and carrying out grammar detection on the file content edited in the editing interface according to the grammar rule of the process file;

generating detection data according to the detection result;

and generating a process file according to the file content edited in the editing interface, and storing detection data.

Optionally, in response to an instruction for outputting the model, outputting the process model corresponding to the process file to preview the process file, including:

determining a target type of a model to be output in response to an instruction for outputting the model;

and processing the process file according to the target type, and outputting a process model corresponding to the process file according to the processing result so as to preview the process file.

Optionally, the target type includes at least one of a three-dimensional view model, a two-dimensional top view model, a two-dimensional cross-sectional view model, and a two-dimensional hierarchical relationship model, and outputting a process model corresponding to the process file according to the processing result, including:

and outputting corresponding process models in different windows according to the processing results corresponding to different target types.

Optionally, the model to be output is a process model of the process file corresponding to the target device, and after outputting the process model corresponding to the process file, the method further includes:

and responding to the instruction of switching the target device, and outputting a process model of the process file corresponding to the switched target device.

The specific implementation process of the above steps is the same as that of the first embodiment, and will not be repeated here.

The application also provides an electronic device, which comprises a storage medium and a controller, wherein the storage medium is stored with a management program, and the management program realizes the steps of the processing method of the process file in the embodiment when being executed by the controller.

The present application also provides a storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the process file processing method described in the above embodiments.

The above examples illustrate only a few embodiments of the application, which are described in detail and are not to be construed as limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (13)

1. A method of processing a process document, the method comprising the steps of:

displaying an editing interface, wherein the editing interface is used for editing file contents of a process file;

and responding to the instruction of outputting the model, outputting the process model corresponding to the process file based on the file content in the editing interface so as to preview the process file.

2. The method of claim 1, wherein after outputting the process model corresponding to the process file based on file content in the editing interface in response to an instruction to output the model, the method further comprises:

responding to an instruction for modifying the process file, and entering the editing interface;

and modifying the process file according to the file content edited in the editing interface.

3. The method of claim 1 or 2, wherein the process model is displayed simultaneously with the editing interface.

4. The method of claim 1, wherein the editing interface is further configured to output an input template for editing the file content and/or output syntax prompting information for the file content in compliance with a syntax rule when editing the file content.

5. The method of claim 4, wherein when the editing interface is used for outputting an input template for editing the file content according to the grammar rule, the method further comprises, after displaying the editing interface:

responding to an instruction for selecting a currently edited target circuit layer, and displaying a process keyword list corresponding to the target circuit layer on the editing interface, wherein the process keyword list comprises a plurality of process keywords;

responding to an instruction for selecting a target process keyword in the process keyword list, and displaying the input template corresponding to the target process keyword on the editing interface;

and responding to an instruction for inputting a target parameter value, inputting the target parameter value in the input template of the target process keyword to obtain file content of the target circuit layer corresponding to the target process keyword, wherein the file content comprises the input template and the target parameter value in the input template.

6. The method of claim 4, wherein when the editing interface is used to output the syntax prompting for the file content, the method further comprises, after displaying the editing interface:

responding to the file content of the process file edited in the editing interface, and carrying out grammar detection on the file content according to the grammar rule of the process file;

and displaying grammar prompt information at a corresponding position in the file content according to the detection result.

7. The method according to claim 5 or 6, characterized in that the method further comprises:

responding to an instruction for storing the process file, and carrying out grammar detection on file contents edited in the editing interface according to grammar rules of the process file;

generating detection data according to the detection result;

and acquiring the edited process file according to the file content edited in the editing interface, and storing the detection data.

8. The method of claim 1, wherein outputting the process model corresponding to the process file based on file content in the editing interface to preview the process file in response to the instruction to output the model comprises:

determining a target type of a model to be output in response to an instruction for outputting the model;

and processing the file content in the editing interface according to the target type, and outputting a process model corresponding to the process file according to a processing result so as to preview the process file.

9. The method of claim 8, wherein the target type includes at least one of a three-dimensional view model, a two-dimensional top view model, a two-dimensional cross-sectional view model, and a two-dimensional hierarchical relationship model, and wherein outputting the process model corresponding to the process file according to the processing result includes:

and outputting corresponding process models in different windows according to the processing results corresponding to different target types.

10. The method according to claim 8 or 9, wherein the model to be outputted is a process model of the process file corresponding to a target device, and after the process model corresponding to the process file is outputted based on file contents in the editing interface, further comprising:

and responding to the instruction of switching the target device, and outputting a process model of the process file corresponding to the switched target device.

11. A method of processing a process document, the method comprising the steps of:

selecting a process file;

responding to an instruction of outputting a model, outputting a process model corresponding to the process file, and previewing the process file;

responsive to an instruction to modify the process file, displaying an editing interface, the editing interface comprising file content of the process file;

and modifying the process file according to the file content edited in the editing interface.

12. An electronic device comprising a storage medium and a controller, wherein the storage medium has stored thereon a management program which, when executed by the controller, performs the steps of the process file processing method according to any one of claims 1 to 11.

13. A storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the process file processing method according to any of claims 1 to 11.