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Software Engineering

Software Engineering. SM ?. Outline of this presentation. What is SM The Need for SM Type of SM Size Oriented Metric Function Oriented Metric. Software Metric. A metric is a measurement of some aspect of the software product or the software process. Software Metric. What is SM.

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Software Engineering

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  1. Software Engineering SM ?

  2. Outline of this presentation • What is SM • The Need for SM • Type of SM • Size Oriented Metric • Function Oriented Metric

  3. Software Metric • A metric is a measurementof some aspect of the software product or the software process

  4. Software Metric What is SM • We take metrics for a variety of reasons • to measure the qualityof a product • to assess the productivityof the people building the product • to assess the benefits (productivity and quality) of new software tools • to form a baseline so we can estimate for new tools • to help justify requests for new tools or additional training

  5. Software Metric The Need for SM • Software Development in general • has excessive costs • (especially in maintenance) • low productivity • poor quality • lack of standards

  6. Software Metric The Need for SM • Reasons being that we fail to: • set measurable targets • measure the real costs in projects • quantify the quality • properly evaluate new tools and techniques

  7. Software Metric Types of Metric • Size-oriented Metrics • Function-oriented Metrics • Technical Metrics • Human-oriented Metrics • Productivity Metrics • Quality Metrics

  8. Software Metric Types of Metric • Size-oriented Metrics • direct measures of the output and quality of the SE process • Function-oriented Metrics • indirect measures of the output and quality of the SE process

  9. Software Metric Types of Metric • Technical Metrics • focus on the character of the software, e.g. coupling and cohesion • Human-oriented Metrics • information about the method by which people build and use systems

  10. Software Metric Types of Metric • Productivity Metrics • focus on the output of the software engineering process • Quality Metrics • focus on the conformance of the software to the implicit and explicit user requirements (fitness for use)

  11. Software Metric Size Oriented Metric • Built on the past experiences of organisations • Direct measures of the software • Generally based on the idea of Line of Code or Source Line of Code

  12. Software Metric Size Oriented Metric (cont.) • Primary Examples: • Size of a product = Kilo Lines of Code (KLOC) • Productivity = KLOC/person-month • Quality = number of faults/KLOC • Cost = $/KLOC • Documentation = Pages of Documentation/KLOC

  13. Software Metric Size Oriented Metric Comments on Line of Code • Defined as one line of text in a source file • Modified by a number of factors depending upon your Source Line of Code (SLOC) Counting Standard • Simplest Standard • Don’t count blank lines • Don’t count comments • Count everything else

  14. Software Metric Size Oriented Metric Advantages on Line of Code • Artifact of software development which is easily counted • Many existing methods use LOC as a key input • A large body of literature and data based on LOC already exists

  15. Software Metric Size Oriented Metric Disadvantages of Line of Code • Programming language-dependent • Well-designed, but shorter programs are penalised • Does not easily accommodate non-procedural languages • Reuse can be difficult to factor in • Difficult to develop a figure for LOC early in the development

  16. Software Metric FUNCTION Oriented Metric • Concentrate on measuring the functionality of a system • Are generally independent of the programming language used • The first and by far the most popular is the Function Point & Feature Point

  17. Software Metric FUNCTION Oriented Metric • FUNCTION POINT • Developed by Albrecht in 1979 for IBM • Function points are derived using • countable measures of the software requirements domain • assessments of the software complexity

  18. FP = COUNT-TOTAL X [ 0.65 + 0.01 x Fi ] Software Metric FUNCTION Oriented Metric Calculating Function Point where Fi are the 14 complexity adjustment values (gives ±35%)

  19. Software Metric FUNCTION Oriented Metric Calculating Count Total for Function Point based on: • Number of user inputs • Number of user outputs • Number of user inquiries • Number of files • Number of external interfaces

  20. Software Metric FUNCTION Oriented Metric • Number of user inputs • each user input which provides distinct application data to the software is counted • Number of user outputs • each user output that provides application data to the user is counted, e.g. screens, reports, error messages

  21. Software Metric FUNCTION Oriented Metric • Number of user inquiries • An on-line input that results in the generation of some immediate software response in the form of an output • Number of files • each logical master file, i.e. a logical grouping of data that may be part of a database or a separate file • Number of external interfaces • all machine-readable interfaces that are used to transmit information to another system are counted

  22. Weighting Factor Measurement parameter Count Simple Average Complex Total Number of user Inputs x3 x4 x6 = Number of user outputs x4 x5 x7 = Number of user Inquiries x3 x4 x6 = Number of files x7 x10 x15 = Number of external interfaces x5 x7 x10 = COUNT TOTAL= + ? Software Metric FUNCTION Oriented Metric Calculating Count Total

  23. Software Metric FUNCTION Oriented Metric • We now assess the software complexity • Rate each of the factors on the next 2 slides according to the following scale: • 0 - No influence • 1 - Incidental • 2 - Moderate • 3 - Average • 4 - Significant • 5 - Essential Calculating Complexity Adjustment

  24. Software Metric 14 Complexity Adjustment Questions FUNCTION Oriented Metric • Does the system require reliable backup and recovery? • Are data communications required? • Are there distributed processing functions? • Is performance critical? • Will the system run in an existing, heavily utilised operational environment? • Does the system require on-line data entry? • Does the on-line data entry require the input transaction to be built over multiple screens or operations?

  25. Software Metric FUNCTION Oriented Metric • Are the master files updated on-line? • Are the inputs, outputs, files or inquiries complex? • Is the internal processing complex? • Is the code designed to be reusable? • Are conversion and installation included in the design? • Is the system designed for multiple installations in different organisations? • Is the application designed to facilitate change and ease of use by the user? 14 Complexity Adjustment Questions

  26. Software Metric FUNCTION Oriented Metric Advantage • Programming language-independent • Based on data which are known early in the project • Significant bodies of data available

  27. Software Metric FUNCTION Oriented Metric Disadvantages • Developed for business systems and therefore only valid for that domain ( Feature Points which extend Function Points by also measuring algorithmic numbers solves this to some extent ) • Many aspects are subjective and have not been validated • Function Points have no physical meaning, it’s just a number

  28. Language Lines of Code per Function Point ADA 83 71 C 128 C++ 49 CLOS 27 COBOL 85 91 Eiffel 21 C++ 21 Smalltalk 21 Visual Basic 32 Software Metric FUNCTION Oriented Metric Some Figures Small project : < 2000 Function Points Medium Project : 2,000 to 10,000 Function Points Large Project : > 10,000 Function Points

  29. FP = COUNT-TOTAL X [ 0.65 + 0.01 x Fi ] Software Metric FUNCTION Oriented Metric Calculating Feature Point where Fi are the 14 complexity adjustment values (gives ±35%)

  30. Software Metric FUNCTION Oriented Metric Calculating Count Total for Feature Point base on • Number of user inputs • Number of user outputs • Number of user inquiries • Number of files • Number of external interfaces • Number of algorithm

  31. Software Metric FUNCTION Oriented Metric • Number of algorithm • all complex algorithm in creating program and in every aspect of • Inputs • Outputs • Inquiries • Files • External interfaces Calculating Count Total for Feature Point

  32. Weighting Measurement parameter Count Factor Total Number of user Inputs x4 = Number of user outputs x5 = Number of user Inquiries x4 = Number of files x7 = Number of external interfaces x7 = Number of algorithm x3 = Count total + ? Software Metric FUNCTION Oriented Metric Calculating Count Total for Feature Point

  33. Any Questions?

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