Halstead complexity measures

Halstead complexity measures are software metrics introduced by Maurice Howard Halstead in 1977[1] as part of his treatise on establishing an empirical science of software development. Halstead made the observation that metrics of the software should reflect the implementation or expression of algorithms in different languages, but be independent of their execution on a specific platform. These metrics are therefore computed statically from the code.

Halstead's goal was to identify measurable properties of software, and the relations between them. This is similar to the identification of measurable properties of matter (like the volume, mass, and pressure of a gas) and the relationships between them (analogous to the gas equation). Thus his metrics are actually not just complexity metrics.

Calculation

For a given problem, Let:

$\,\eta _{1}$ = the number of distinct operators
$\,\eta _{2}$ = the number of distinct operands
$\,N_{1}$ = the total number of operators
$\,N_{2}$ = the total number of operands

From these numbers, several measures can be calculated:

Program vocabulary: $\eta =\eta _{1}+\eta _{2}\,$
Program length: $N=N_{1}+N_{2}\,$
Calculated estimated program length: ${\hat {N}}=\eta _{1}\log _{2}\eta _{1}+\eta _{2}\log _{2}\eta _{2}$
Volume: $V=N\times \log _{2}\eta$
Difficulty : $D={\eta _{1} \over 2}\times {N_{2} \over \eta _{2}}$
Effort: $E=D\times V$

The difficulty measure is related to the difficulty of the program to write or understand, e.g. when doing code review.

The effort measure translates into actual coding time using the following relation,

Time required to program: $T={E \over 18}$ seconds

Halstead's delivered bugs (B) is an estimate for the number of errors in the implementation.

Number of delivered bugs : $B={E^{2 \over 3} \over 3000}$ or, more recently, $B={V \over 3000}$ is accepted .

Example

Consider the following C program:

main()
{
    int a, b, c, avg;
    scanf("%d %d %d", &a, &b, &c);
    avg = (a + b + c) / 3;
    printf("avg = %d", avg);
}

The unique operators are: main, (), {}, int, scanf, &, =, +, /, printf, ,, ;

The unique operands are: a, b, c, avg, "%d %d %d", 3, "avg = %d"

$\eta _{1}=12$ , $\eta _{2}=7$ , $\eta =19$
$N_{1}=27$ , $N_{2}=15$ , $N=42$
Calculated Estimated Program Length: ${\hat {N}}=12\times log_{2}12+7\times log_{2}7=62.67$
Volume: $V=42\times log_{2}19=178.4$
Difficulty: $D={12 \over 2}\times {15 \over 7}=12.85$
Effort: $E=12.85\times 178.4=2292.44$
Time required to program: $T={2292.44 \over 18}=127.357$ seconds
Number of delivered bugs: $B={2292.44^{2 \over 3} \over 3000}=0.05$

gollark: Ah. So the matrix maps the values of all the variables to the outputs of each equation, and the same output can be attained in multiple ways sometimes.

gollark: No, I mean how do you use that to get intuition for number of solutions of some equations.

gollark: I've seen it with intersecting lines/planes(/hyperplanes), how does it work to interpret it as a transformation?

gollark: I don't think it tries to clarify the actual underlying foundational stuff much.

gollark: This is basically the last bit of a chapter containing various integration methods.

References

Halstead, Maurice H. (1977). Elements of Software Science. Amsterdam: Elsevier North-Holland, Inc. ISBN 0-444-00205-7.

External links

The Halstead metrics - Extensive discussion on the calculation and use of Halstead Metrics in an object-oriented environment (with specific reference to Java).
Calculation of Halstead metrics - Measurement of Halstead Metrics.
Explanation with a Sample Program - Example (on Page 6 of the PDF)
Script computing Halstead Metrics and using them for commented code detection
IBM

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[1] Halstead, Maurice H. (1977). Elements of Software Science. Amsterdam: Elsevier North-Holland, Inc. ISBN 0-444-00205-7.

Halstead complexity measures

Calculation

Example

See also

References

External links