Implementation method of general input edit control suitable for intelligent instrument

Abstract

The invention discloses an implementation method of a general input edit control suitable for an intelligent instrument, which belongs to the field of intelligent instruments. The implementation method comprises the following steps of (1) defining a value type, physical significance and continuity or discretization; (2) defining a keypress response algorithm; (3) defining attributes of input parameters; (4) defining the format of an instrument parameter response function. According to the implementation method of the general input edit control suitable for the intelligent instrument, a consistent optional attribute definition input mode is designed, the input attributes are defined for combination, a numerical index is input, and input response functions and function lookup modes are normalized, so that various types of integer numerical value input, floating-point numerical value input, symbol input and input association are integrally realized, software development and maintenance are facilitated, the development and maintenance efficiency of the instrument is improved, the operating efficiency is improved, and the cost is low.

Description

technical field [0001] The invention belongs to the field of intelligent instruments, and in particular relates to a method for realizing a universal input editing control suitable for intelligent instruments. Background technique [0002] The basic means for users to control smart instruments is to input various parameters through the panel of the instrument, especially the input method of numerical parameters. How to make it easier for users to input instrument parameters and reduce the number of operations is very important to improve the test efficiency of users. Generally, the input of the instrument is input and confirmed through the keyboard of the instrument. [0003] There are many kinds of parameter setting and input for smart instruments, such as frequency, amplitude, power level, etc. Each parameter has different types and meanings and input restrictions. Some can only input integers, and some can input floating points. At the same time, each The input attribute...

AI Technical Summary

Problems solved by technology

[0003] There are many kinds of parameter setting and input for smart instruments, such as frequency, amplitude, power level, etc. Each parameter has different types and meanings and input restrictions. Some can only input integers, and some can input floating points. At the same time, each The input attribute of the parameter can be an integer value input, a floating point input, a symbol input, etc. The disadvantage of the prior art is that for parameters with different meanings and formats, it is necessary to design respective input controls to realize it, and to complete the input string to For the conversion of various required types of input values, for various numerical character input, it is necessary to design their own parameter analysis and limit function, which leads to the inability of the instrument software to achieve consistent programming processing, and the complexity of software development is not convenient for the development of instrument software functions. Extended maintenance affects the reliability of the software, and it is not convenient for the realization of instrument consistency control style

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