论文信息 - A comparison of modified reconstructability analysis and Ashenhurst‐Curtis decomposition of Boolean functions

A comparison of modified reconstructability analysis and Ashenhurst‐Curtis decomposition of Boolean functions

This paper describes a graph-theoretic complexity measure and illustrates how it can be used to manage and control program complexity. The paper first explains how the graph-theory concepts apply and gives an intuitive explanation of the graph concepts in programming terms. The control graphs of several actual Fortran programs are then presented to illustrate the correlation between intuitive complexity and the graph-theoretic complexity. Several properties of the graph-theoretic complexity are then proved which show, for example, that complexity is independent of physical size (adding or subtracting functional statements leaves complexity unchanged) and complexity depends only on the decision structure of a program.

Anas N. Al-Rabadi | Thomas J. McCabe | T. McCabe | Marek Perkowski | Martin Zwick

[1] C. Hermite. Extraits de lettres de M. Ch. Hermite à M. Jacobi sur différents objects de la théorie des nombres. , 1850 .

[2] Sze-Tsen Hu. ON THE DECOMPOSITION OF SWITCHING FUNCTIONS , 1961 .

[3] H. Allen Curtis. A Generalized Tree Circuit , 1961, JACM.

[4] H. Allen Curtis. Generalized Tree Circuit—The Basic Building Block of an Extended Decomposition Theory , 1963, JACM.

[5] Harlan D. Mills,et al. Mathematical foundations of structured programming , 1972 .

[6] Donald E. Knuth,et al. Structured Programming with go to Statements , 1974, CSUR.

[7] S. Rao Kosaraju. Analysis of Structured Programs , 1974, J. Comput. Syst. Sci..

[8] Michael Marcotty,et al. A genealogy of control structures , 1975, CACM.