KR20000032054A - System for visual specification supporting tools based on formal method and specification method - Google Patents

Abstract

PURPOSE: A system for visual specification supporting tools and a specification method based on a set pattern technique are provided to strictly verify a specification by introducing a visual method into a formal specification using a formal method. CONSTITUTION: A visual formal specification composer(100) is configured for a user to compose and edit a required specification of software by combining the visualized object of formal specification type dragging from a visual object library constructed by applied filed. High function library storing element by applied filed(200) and application library storing element(700) construct the visual formal specification object which is composed from the visual formal specification composer(100). A visual formal specification compiler element(300) reads the visual formal specification and interprets a visual model, thereby converting to a formal specification language. A formal specification library storing element stores a formal specification language produced through the visual formal specification compiler element. A formal specification language processor(500) performs formal verification of specification based on the text by inputting formal language code stored in the formal specification library storing element.

Description

Visual specification support tool system and specification method based on formal techniques

The present invention relates to a visual specification support tool system and a specification method based on a formal method that allows a beginner in a formal language to easily visualize the formal specification and verify the simulation on a visual model.

As the size and function of software development becomes more complex and it becomes more difficult to maintain high reliability, the necessity of specification method based on formal technique is increasing. Orthopedic techniques are proven to improve the integrity of software by introducing and verifying mathematical methods in the specification of user requirements.However, the mathematical background of orthodontic techniques is based on a rigorous mathematical theory. Because it can not be used without this, there is a problem that the user of the formal specification must be extremely limited.

'94 Rational's report shows that two-thirds of software errors are due to incorrect user requirements. To overcome this problem, the formal specification technique is introduced in the user requirements specification process. Because the formal specification is based on a rigorous mathematical theory, it is possible to verify the software during the requirements specification process, but it has a disadvantage in that it is difficult to understand and write the specification language. Until now, many specification languages have appeared and used, but most of them are text-based mathematical semantic languages and graphic languages, but they also represent mathematical semantics. Therefore, it is difficult for general users to use them.

Accordingly, the present invention provides a visual specification support tool and a specification method based on a formal technique to visualize a formal specification in order to solve the above problems, so that even a beginner in a formal language can easily create a specification and verify a simulation on a visual model. The purpose is to provide.

In order to achieve the above object, the visual specification support tool system based on the formal technique according to the present invention draws a visualized object of the formal specification type from the visual object library constructed for each application area and combines them to create a software specification. A visual formal specification generator for editing, a high-performance library storage means and an application library storage means for building a visual formal specification object created from the visual formal specification builder, and a visual formal specification stored in the application library storage means. A visual formal specification compiler means for interpreting the visual model and converting it into a formal specification language, a formal specification library storage means for storing a formal specification language calculated by the visual formal specification compiler means, Characterized in that configured to include a group of the text-based language shaping formal specification language processor to the code as input to perform a formal validation of the specification contained in the formal specification library storage means.

In order to achieve the above object, a visual specification method based on a formal technique according to the present invention includes a step in which a user performs visual specification editing on a software specification using a visual specification method, and checks syntax error on the edited visual specification. Performing a step, giving a warning message to the user according to the syntax error checking result, editing the visual model again, or interpreting the visual model, and generating a formal specification in text form through the interpretation of the visual model. It is characterized in that it comprises the step of performing the specification verification by the formal specification processor after inputting to the formal specification library.

The present invention introduces a visual modeling method of formal specification and provides a visual formal specification language for realizing it. This allows you to create visual model of the specification by constructing the area-specific canonical specification object in the application library included in the tool and dragging it from the specification editor in the form of icons (Drag and Drop), so that even users without formal mathematical knowledge It is to be able to write and verify.

1 is a block diagram of a visual specification support tool system based on a formal technique according to the present invention.

2 is a functional block diagram of a visual specification support tool based on a formal technique in accordance with the present invention.

3 is a flowchart illustrating a visual specification method based on a formal technique according to the present invention.

<Explanation of symbols for main parts of the drawings>

100: visual formal specification builder 200: library for each application field

300: visual formal specification compiler 400: formal specification library

500: Orthopedic Language Processor 600: Visual Orthopedic Tool

610: Visual specification language 620: Visual modeling

630: visual model transformation 640: formal specification processing

650: application library 700: application library

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a block diagram of a visual specification support tool system based on a formal technique according to the present invention.

The visual formal specification builder 100 is a part in which a user creates and edits a specification of software. We draw the specification by dragging the visualized objects of the formal specification type from the visual object library built for each application area and combining them. The visual formal specification builder 100 can be divided into two parts, the graphic specification editor 101 and the graphic library editor 102. The graphic specification editor 101 allows the user to edit the specification. The editor 102 is a part for constructing a library object. Application-specific high-performance library storage means 200 and the application library storage means 700 is a part in which a visual formal specification object is constructed. Visual objects are composed of basic objects that form the basic units of the formal specification language and composite objects that form the semantic basic units of the application field by combining these basic objects. There are also model operators that provide relational operations between visual objects and user application models, which are small application structures that are frequently used in the target area and consist of combinations of complex objects. The visual formal specification compiler 300 reads the visual specification stored in the application library storage unit 700, interprets the visual model, and converts the visual model into a formal specification language. This is divided into a syntax interpreter 301 and a semantic interpreter 302, the syntax interpreter 301 is a part for the grammatical interpretation of the visual model, the semantic interpreter 302 is responsible for the semantic interpretation of the visual model. The formal specification language calculated by the visual formal specification compiler 300 is stored in the formal specification library 400. This is an error-free formal language code and is the basic unit code for specification verification. The formal specification language processor 500 is a part responsible for formal verification of the specification by inputting text-based formal language codes stored in the formal specification library 400. It is divided into a simulator 501, an authenticator 502, and a source code generator 503. First, a formal language code inputted as an input is parsed and converted into an intermediate code in a tree form. The purpose of the tool is to use the tool to verify that the written visual specification is error-prone, including methods such as specification simulation and proof of specification, and can generate executable source code from the specification. The formal specification language processor 500 performs this function and executes the verification function from the intermediate code converted from the formal language.

2 is a functional block diagram of a visual specification support tool system based on a formal technique according to the present invention. The visual formal specification builder 600 is composed of five functional modules.

First, the visual specification language 610 should be defined. It defines a language structure 611 describing the overall appearance of the visual specification language, a visual formal language grammar 612 describing the rules of the language, and a visual formal language semantic structure 613 describing the semantics of the language. ).

In order to specify the visual language, the user requires visual modeling (620) technology, and a visual formal specification method (621) is established to represent the process of visual formal specification and provides a method for the user to create a model. A visual modeling technique 622 is set up and a visual model library 623 is provided.

The created visual model is converted into a formal specification language through a visual model transformation process 630, and the semantic information store 631 stores semantic information of the visual model, and the semantic model interpreter 632 uses this information to interpret the model. Will be done. The visual model information generated through the model analysis process is converted into a textual specification language by the visual model compiler 633.

The converted formal specification language is converted back into an intermediate language through the formal specification process 640 and used for verification of the specification. The specification verification includes simulation (641) for checking the semantic errors of the specification while interacting with the user, and proof (642) for verifying the integrity of the specification error through mathematical logic process, and the user in the formal specification processor (640). There is a source code generator 643 that generates executable user code from the specification written by the user. Specialized for each application area and accumulated area knowledge allows users to easily create specifications.

This area knowledge is accumulated in the application library 650. The application library 650 is constructed of a library 651 for each application area, a modeling method 652 for each application area, and a visual formal specification development method 653, and a modeling method specialized for each area is set.

3 is a flowchart illustrating a visual specification method based on a formal technique according to the present invention.

The user uses the tool to edit the specification of the software requirements in a visual specification method (710). The specification editor allows visual modeling to the user by calling the visual objects accumulated in the area library. In the process of creating the specification, syntax checking 720 of the visual specification is performed to check the syntax error of the specification (730), and if an error is found, a warning message is given to the user and edited again. When the specification is completed, the visual model is interpreted (740) and a textual specification is generated (750). The generated formal specification is input to the formal specification library (760) and the input formal specification is converted into intermediate code by the formal specification processor and used for specification verification (770). Validation of the specification is performed through a visual simulation (780) to examine the semantics of the dynamic specification, specification specification (790) to prove the mathematical logic of the specification and to generate executable user code through the source code generator (800) Do it.

The present invention described above can be variously substituted, modified and changed within the scope without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains and the accompanying drawings. It is not limited to.

As described above, the present invention enables the users who are not familiar with the formal language by using the visual method in the formal specification, which enables the precise verification of the specification using the formal method, and by introducing the easy-to-use visual method, the high reliability and high It is possible to apply formal techniques to areas requiring safety and general software development and to verify dynamic simulation on visual models during software development.

Claims (6)

A visual formal specification builder for creating and editing the software specification by dragging and combining the visualized objects of the formal specification type from the visual object library built for each application area; Application-specific high-performance library storage means and application library storage means for constructing a visual formal specification object created from the visual formal specification builder; A visual formal specification compiler means for reading a visual formal specification stored in the application library storage means to interpret the visual model and convert the visual model into a formal specification language; A formal specification library storage means for storing a formal specification language calculated by the visual formal specification compiler means; And a formal specification language processor configured to perform formal verification of the specification by inputting text-based formal language codes stored in the formal specification library storage means. The method of claim 1, The visual formal specification creator is a graphical specification editor for editing the specification by the user, A visual specification support tool system based on formal techniques, including a graphical library editor for building library objects. The method of claim 1, The visual formal specification compiler is a syntax analysis for the grammatical interpretation of the visual model, A visual specification support tool system based on a formal method, comprising a semantic interpreter for semantic interpretation of visual models. The method of claim 1, The formal specification language processor includes: a simulator for performing semantic checking of visual dynamic specifications; A specification prover for performing mathematical logical proof of the specification, A visual specification support tool system based on formal techniques, comprising a source code generator for generating executable user code. The user performing visual specification editing of the software specification by visual specification method; Performing syntax error checking on the edited visual specification; Giving a warning message to the user and re-editing or interpreting the visual model according to the syntax error checking result; Generating a formal specification in text form through the interpretation of the visual model, inputting the generated formal specification into a formal specification library, and performing specification verification by a formal specification processor. Visual specification method. The method of claim 5, In the verification of the specification, a semantic check of the dynamic specification is performed through visual simulation, a mathematical logic proof of the specification is performed through the specification proof, and a user code executable by the source code generator is generated. Based visual specification method.