1. Introduction to Software Testing Chapter 1 Introduction Paul Ammann & Jeff Offutt www.introsoftwaretesting.com

2. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 2 A Talk in 3 Parts 1.Why do we test ? 2.What should we do during testing ? 3.How do we get to this future of testing ? We are in the middle of a revolution in how software is tested Research is finally meeting practice

3. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 3 A few spectacular software failures

4. The First Bugs Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 4 “It has been just so in all of my inventions. The first step is an intuition, and comes with a burst, then difficulties arise—this thing gives out and [it is] then that 'Bugs'—as such little faults and difficulties are called—show themselves and months of intense watching, study and labor are requisite...” – Thomas Edison “an analyzing process must equally have been performed in order to furnish the Analytical Engine with the necessary operative data; and that herein may also lie a possible source of error. Granted that the actual mechanism is unerring in its processes, the cards may give it wrong orders. ” – Ada, Countess Lovelace (notes on Babbage’s Analytical Engine) Hopper’s “bug” (moth stuck in a relay on an early machine)

5. Failures in Production Software n NASA’s Mars lander, September 1999, crashed due to a units integration fault—over $50 million US ! n Huge losses due to web application failures –Financial services : $6.5 million per hour –Credit card sales applications : $2.4 million per hour n In Dec 2006, amazon.com’s BOGO offer turned into a double discount n 2007 : Symantec says that most security vulnerabilities are due to faulty software n Stronger testing could solve most of these problems Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 5 World-wide monetary loss due to poor software is staggering Thanks to Dr. Sreedevi Sampath

6. Bypass Testing Results Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 6 v — Vasileios Papadimitriou. Masters thesis, Automating Bypass Testing for Web Applications, GMU 2006

7. Why Does Testing Matter? Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 7 n NIST report, “The Economic Impacts of Inadequate Infrastructure for Software Testing” (2002) –Inadequate software testing costs the US alone between $22 and $59 billion annually –Better approaches could cut this amount in half n Major failures: Ariane 5 explosion, Mars Polar Lander, Intel’s Pentium FDIV bug n Insufficient testing of safety-critical software can cost lives: n THERAC-25 radiation machine: 3 dead n We want our programs to be reliable –Testing is how, in most cases, we find out if they are Mars Polar Lander crash site? THERAC-25 design Ariane 5: exception-handling bug : forced self destruct on maiden flight (64-bit to 16-bit conversion: about 370 million $ lost)

8. Software is a Skin that Surrounds Our Civilization Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 8

9. Airbus 319 Safety Critical Software Control Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 9 Loss of autopilot Loss of both the commander’s and the co ‑ pilot’s primary flight and navigation displays Loss of most flight deck lighting and intercom

10. Northeast Blackout of 2003 Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 10 Affected 10 million people in Ontario, Canada Affected 40 million people in 8 US states Financial losses of $6 Billion USD 508 generating units and 256 power plants shut down The alarm system in the energy management system failed due to a software error and operators were not informed of the power overload in the system

11. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 11 Software testing is getting more important

12. Testing in the 21st Century n We are going through a time of change n Software defines behavior –network routers, finance, switching networks, other infrastructure n Today’s software market : –is much bigger –is more competitive –has more users n Agile processes put increased pressure on testers n Embedded Control Applications –airplanes, air traffic control –spaceships –watches –ovens –remote controllers Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 12 – PDAs – memory seats – DVD players – garage door openers – cell phones Industry is going through a revolution in what testing means to the success of software products

13. Testing in the 21st Century n More safety critical, real-time software n Enterprise applications means bigger programs, more users n Embedded software is ubiquitous … check your pockets n Paradoxically, free software increases our expectations ! n Security is now all about software faults –Secure software is reliable software n The web offers a new deployment platform –Very competitive and very available to more users –Web apps are distributed –Web apps must be highly reliable Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 13 Industry desperately needs our inventions !

14. Mismatch in Needs and Goals n Industry wants testing to be simple and easy –Testers with no background in computing or math n Universities are graduating scientists –Industry needs engineers n Testing needs to be done more rigorously n Agile processes put lots of demands on testing –Programmers must unit test – with no training, education or tools ! –Tests are key components of functional requirements – but who builds those tests ? Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 14 Bottom line—lots of crappy software

15. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 15 Here! Test This! MicroSteff – big software system for the mac V.1.5.1 Jan/2007 Verdatim DataLife MF2-HD 1.44 MB Big software program Jan/2007 My first “professional” job A stack of computer printouts—and no documentation

16. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 16 Cost of Testing n In the real-world, testing is the principle post-design activity n Restricting early testing usually increases cost n Extensive hardware-software integration requires more testing You’re going to spend at least half of your development budget on testing, whether you want to or not

17. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 17 Part 1 : Why Test? n Written test objectives and requirements are rare n What are your planned coverage levels? n How much testing is enough? n Common objective – spend the budget … If you don’t know why you’re conducting a test, it won’t be very helpful

18. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 18 Why Test? n 1980: “The software shall be easily maintainable” n Threshold reliability requirements? n What fact is each test trying to verify? n Requirements definition teams should include testers! If you don’t start planning for each test when the functional requirements are formed, you’ll never know why you’re conducting the test

19. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 19 Cost of Not Testing n Not testing is even more expensive n Planning for testing after development is prohibitively expensive n A test station for circuit boards costs half a million dollars … n Software test tools cost less than $10,000 !!! Program Managers often say: “Testing is too expensive.”

20. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 20 Caveat: Impact of New Tools and Techniques They’re teaching a new way of plowing over at the Grange tonight - you going? Naw - I already don’t plow as good as I know how... “Knowing is not enough, we must apply. Willing is not enough, we must do.” Goethe

21. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 21 Part 2 : What ? But … what should we do ? 1.Types of test activities 2.Software testing terms 3.Changing notions of testing –test coverage criteria –criteria based on structures

22. Types of Test Activities n Testing can be broken up into four general types of activities 1.Test Design 2.Test Automation 3.Test Execution 4.Test Evaluation n Each type of activity requires different skills, background knowledge, education and training n No reasonable software development organization uses the same people for requirements, design, implementation, integration and configuration control Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 22 Why do test organizations still use the same people for all four test activities?? This is clearly a waste of resources 1.a) Criteria-based 1.b) Human-based

23. 1. Test Design – (a) Criteria-Based n This is the most technical job in software testing n Requires knowledge of : –Discrete math –Programming –Testing n Requires much of a traditional CS degree n This is intellectually stimulating, rewarding, and challenging n Test design is analogous to software architecture on the development side n Using people who are not qualified to design tests is a sure way to get ineffective tests Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 23 Design test values to satisfy coverage criteria or other engineering goal

24. 1. Test Design – (b) Human-Based n This is much harder than it may seem to developers n Criteria-based approaches can be blind to special situations n Requires knowledge of : –Domain, testing, and user interfaces n Requires almost no traditional CS –A background in the domain of the software is essential –An empirical background is very helpful (biology, psychology, …) –A logic background is very helpful (law, philosophy, math, …) n This is intellectually stimulating, rewarding, and challenging –But not to typical CS majors – they want to solve problems and build things Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 24 Design test values based on domain knowledge of the program and human knowledge of testing

25. 2. Test Automation n This is slightly less technical n Requires knowledge of programming –Fairly straightforward programming – small pieces and simple algorithms n Requires very little theory n Very boring for test designers n Programming is out of reach for many domain experts n Who is responsible for determining and embedding the expected outputs ? –Test designers may not always know the expected outputs –Test evaluators need to get involved early to help with this Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 25 Embed test values into executable scripts

26. 3. Test Execution n This is easy – and trivial if the tests are well automated n Requires basic computer skills –Interns –Employees with no technical background n Asking qualified test designers to execute tests is a sure way to convince them to look for a development job n If, for example, GUI tests are not well automated, this requires a lot of manual labor n Test executors have to be very careful and meticulous with bookkeeping Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 26 Run tests on the software and record the results

27. 4. Test Evaluation n This is much harder than it may seem n Requires knowledge of : –Domain –Testing –User interfaces and psychology n Usually requires almost no traditional CS –A background in the domain of the software is essential –An empirical background is very helpful (biology, psychology, …) –A logic background is very helpful (law, philosophy, math, …) n This is intellectually stimulating, rewarding, and challenging –But not to typical CS majors – they want to solve problems and build things Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 27 Evaluate results of testing, report to developers

28. Other Activities n Test management : Sets policy, organizes team, interfaces with development, chooses criteria, decides how much automation is needed, … n Test maintenance : Tests must be saved for reuse as software evolves –Requires cooperation of test designers and automators –Deciding when to trim the test suite is partly policy and partly technical – and in general, very hard ! –Tests should be put in configuration control n Test documentation : All parties participate –Each test must document “why” – criterion and test requirement satisfied or a rationale for human-designed tests –Traceability throughout the process must be ensured –Documentation must be kept in the automated tests Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 28

29. Approximate Number of Personnel n A mature test organization only one test designer to work with several test automators, executors and evaluators n Improved automation will reduce the number of test executors –Theoretically to zero … but not in practice n Putting the wrong people on the wrong tasks leads to inefficiency, low job satisfaction and low job performance –A qualified test designer will be bored with other tasks and look for a job in development –A qualified test evaluator will not understand the benefits of test criteria n Test evaluators have the domain knowledge, so they must be free to add tests that “blind” engineering processes will not think of Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 29

30. Types of Test Activities – Summary n These four general test activities are quite different n It is a poor use of resources to use people inappropriately Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 30 1a.DesignDesign test values to satisfy engineering goals CriteriaRequires knowledge of discrete math, programming and testing 1b.DesignDesign test values from domain knowledge and intuition HumanRequires knowledge of domain, UI, testing 2.AutomationEmbed test values into executable scripts Requires knowledge of scripting 3.ExecutionRun tests on the software and record the results Requires very little knowledge 4.EvaluationEvaluate results of testing, report to developers Requires domain knowledge Most test teams use the same people for ALL FOUR activities !!

31. Applying Test Activities Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 31 To use our people effectively and to test efficiently we need a process that lets test designers raise their level of abstraction

32. Model-Driven Test Design Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 32 software artifact model / structure test requirements refined requirements / test specs input values test cases test scripts test results pass / fail IMPLEMENTATION ABSTRACTION LEVEL DESIGN ABSTRACTION LEVEL test requirements

33. Model-Driven Test Design – Steps Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 33 software artifact model / structure test requirements refined requirements / test specs input values test cases test scripts test results pass / fail IMPLEMENTATION ABSTRACTION LEVEL DESIGN ABSTRACTION LEVEL analysis criterionrefine generate prefix postfix expected automate execute evaluate test requirements domain analysis feedback

34. Model-Driven Test Design – Activities Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 34 software artifact model / structure test requirements refined requirements / test specs input values test cases test scripts test results pass / fail IMPLEMENTATION ABSTRACTION LEVEL DESIGN ABSTRACTION LEVEL Test Design Test Execution Test Evaluation Raising our abstraction level makes test design MUCH easier

35. Types of Activities in the Book Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 35 Most of this book is on test design Other activities are well covered elsewhere

36. Software Testing Terms n Like any field, software testing comes with a large number of specialized terms that have particular meanings in this context n Some of the following terms are standardized, some are used consistently throughout the literature and the industry, but some vary by author, topic, or test organization n The definitions here are intended to be the most commonly used Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 36

37. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 37 Important Terms Validation & Verification ( IEEE ) n Validation : The process of evaluating software at the end of software development to ensure compliance with intended usage n Verification : The process of determining whether the products of a given phase of the software development process fulfill the requirements established during the previous phase IV&V stands for “independent verification and validation”

38. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 38 Test Engineer & Test Managers n Test Engineer : An IT professional who is in charge of one or more technical test activities –designing test inputs –producing test values –running test scripts –analyzing results –reporting results to developers and managers n Test Manager : In charge of one or more test engineers –sets test policies and processes –interacts with other managers on the project –otherwise helps the engineers do their work

39. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 39 Test Engineer Activities Test Designs Output Executable Tests ComputerEvaluate P Test Manager Test Engineer Test Engineer design instantiate execute

40. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 40 Static and Dynamic Testing n Static Testing : Testing without executing the program –This include software inspections and some forms of analyses –Very effective at finding certain kinds of problems – especially “potential” faults, that is, problems that could lead to faults when the program is modified n Dynamic Testing : Testing by executing the program with real inputs

41. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 41 Software Faults, Errors & Failures n Software Fault : A static defect in the software n Software Error : An incorrect internal state that is the manifestation of some fault n Software Failure : External, incorrect behavior with respect to the requirements or other description of the expected behavior Faults in software are design mistakes and will always exist

42. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 42 Testing & Debugging n Testing : Finding inputs that cause the software to fail n Debugging : The process of finding a fault given a failure

43. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 43 Fault & Failure Model Three conditions necessary for a failure to be observed 1.Reachability : The location or locations in the program that contain the fault must be reached 2.Infection : The state of the program must be incorrect 3.Propagation : The infected state must propagate to cause some output of the program to be incorrect

44. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 44 Test Case n Test Case Values : The values that directly satisfy one test requirement n Expected Results : The result that will be produced when executing the test if the program satisfies it intended behavior

45. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 45 Observability and Controllability n Software Observability : How easy it is to observe the behavior of a program in terms of its outputs, effects on the environment and other hardware and software components –Software that affects hardware devices, databases, or remote files have low observability n Software Controllability : How easy it is to provide a program with the needed inputs, in terms of values, operations, and behaviors –Easy to control software with inputs from keyboards –Inputs from hardware sensors or distributed software is harder –Data abstraction reduces controllability and observability

46. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 46 Inputs to Affect Controllability and Observability n Prefix Values : Any inputs necessary to put the software into the appropriate state to receive the test case values n Postfix Values : Any inputs that need to be sent to the software after the test case values n Two types of postfix values 1.Verification Values : Values necessary to see the results of the test case values 2.Exit Commands : Values needed to terminate the program or otherwise return it to a stable state n Executable Test Script : A test case that is prepared in a form to be executed automatically on the test software and produce a report

47. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 47 Top-Down and Bottom-Up Testing n Top-Down Testing : Test the main procedure, then go down through procedures it calls, and so on n Bottom-Up Testing : Test the leaves in the tree (procedures that make no calls), and move up to the root. –Each procedure is not tested until all of its children have been tested

48. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 48 White-box and Black-box Testing n Black-box testing : Deriving tests from external descriptions of the software, including specifications, requirements, and design n White-box testing : Deriving tests from the source code internals of the software, specifically including branches, individual conditions, and statements This view is really out of date. The more general question is: from what level of abstraction to we derive tests?

49. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 49 Changing Notions of Testing n Old view of testing is of testing at specific software development phases –Unit, module, integration, system … n New view is in terms of structures and criteria –Graphs, logical expressions, syntax, input space

50. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 50 Old : Testing at Different Levels Class A method mA1() method mA2() Class B method mB1() method mB2() main Class P n Acceptance testing: Is the software acceptable to the user? n Integration testing: Test how modules interact with each other n System testing: Test the overall functionality of the system n Module testing: Test each class, file, module or component n Unit testing: Test each unit (method) individually

51. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 51 Old : Find a Graph and Cover It n Tailored to: –a particular software artifact code, design, specifications –a particular phase of the lifecycle requirements, specification, design, implementation n This viewpoint obscures underlying similarities n Graphs do not characterize all testing techniques well n Four abstract models suffice …

52. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 52 New : Test Coverage Criteria  Test Requirements : Specific things that must be satisfied or covered during testing  Test Criterion : A collection of rules and a process that define test requirements A tester’s job is simple :Define a model of the software, then find ways to cover it Testing researchers have defined dozens of criteria, but they are all really just a few criteria on four types of structures …

53. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 53 New : Criteria Based on Structures 1.Graphs 2.Logical Expressions 3.Input Domain Characterization 4.Syntactic Structures (not X or not Y) and A and B if (x > y) z = x - y; else z = 2 * x; Structures : Four ways to model software A: {0, 1, >1} B: {600, 700, 800} C: {swe, cs, isa, infs}

54. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 54 1. Graph Coverage – Structural 6 5 3 2 17 4 Node (Statement) Cover every node 12567 1343567 This graph may represent statements & branches methods & calls components & signals states and transitions Edge (Branch) Cover every edge 12567 1343567 1357 Path Cover every path 12567 1257 13567 1357 1343567 134357 …

55. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 55 Defs & Uses Pairs (x, 1, (1,2)), (x, 1, (1,3)) (y, 1, 4), (y, 1, 6) (a, 2, (5,6)), (a, 2, (5,7)), (a, 3, (5,6)), (a, 3, (5,7)), (m, 2, 7), (m, 4, 7), (m, 6, 7) 1. Graph Coverage – Data Flow 6 5 3 2 17 4 This graph contains: defs: nodes & edges where variables get values uses: nodes & edges where values are accessed def = {x, y} def = {a, m} def = {a} def = {m} use = {x} use = {a} use = {y} use = {m} use = {y} All Defs Every def used once 1, 2, 5, 6, 7 1, 2, 5, 7 1, 3, 4, 3, 5, 7 All Uses Every def “reaches” every use 1, 2, 5, 6, 7 1, 2, 5, 7 1, 3, 5, 6, 7 1, 3, 5, 7 1, 3, 4, 3, 5,7

56. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 56 1. Graph - FSM Example Memory Seats in a Lexus ES 300 Driver 1 Configuration Driver 2 Configuration [Ignition = off] | Button2 [Ignition = off] | Button1 Modified Configuration sideMirrors ()[Ignition = on] | lumbar ()[Ignition = on] | seatBottom ()[Ignition = on] | seatBack () [Ignition = on] | New Configuration Driver 1 New Configuration Driver 2 [Ignition = on] | Reset AND Button1 [Ignition = on] | Reset AND Button2 Ignition = off (to Modified) Guard (safety constraint) Trigger (input)

57. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 57 2. Logical Expressions ( (a > b) or G ) and (x < y) Transitions Software Specifications Program Decision Statements Logical Expressions

58. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 58 2. Logical Expressions n Predicate Coverage : Each predicate must be true and false –( (a>b) or G ) and (x < y) = True, False n Clause Coverage : Each clause must be true and false –(a > b) = True, False –G = True, False –(x < y) = True, False n Combinatorial Coverage : Various combinations of clauses –Active Clause Coverage: Each clause must determine the predicate’s result ( (a > b) or G ) and (x < y)

59. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 59 2. Logic – Active Clause Coverage ( (a > b) or G ) and (x < y) 1 T F T 2 F F T duplicate 3 F T T 4 F F T 5 T T T 6 T T F With these values for G and (x b) determines the value of the predicate

60. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 60 3. Input Domain Characterization n Describe the input domain of the software –Identify inputs, parameters, or other categorization –Partition each input into finite sets of representative values –Choose combinations of values n System level –Number of students { 0, 1, >1 } –Level of course { 600, 700, 800 } –Major { swe, cs, isa, infs } n Unit level –Parameters F (int X, int Y) –Possible values X: { 2 }, Y : { 10, 20, 30 } –Tests F (-5, 10), F (0, 20), F (1, 30), F (2, 10), F (5, 20)

61. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 61 4. Syntactic Structures n Based on a grammar, or other syntactic definition n Primary example is mutation testing 1.Induce small changes to the program: mutants 2.Find tests that cause the mutant programs to fail: killing mutants 3.Failure is defined as different output from the original program 4.Check the output of useful tests on the original program n Example program and mutants if (x > y) z = x - y; else z = 2 * x; if (x > y)  if (x >= y) z = x - y;  z = x + y;  z = x – m; else z = 2 * x;

62. Source of Structures n These structures can be extracted from lots of software artifacts –Graphs can be extracted from UML use cases, finite state machines, source code, … –Logical expressions can be extracted from decisions in program source, guards on transitions, conditionals in use cases, … n Model-based testing derives tests from a model that describes some aspects of the system under test –The model usually describes part of the behavior –The source is usually not considered a model Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 62

63. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 63 Coverage Overview Four Structures for Modeling Software Graphs Logic Input Space Syntax Use cases Specs Design Source Applied to DNF Specs FSMs Source Input Models Integ Source

64. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 64 Coverage n Infeasible test requirements : test requirements that cannot be satisfied –No test case values exist that meet the test requirements –Dead code –Detection of infeasible test requirements is formally undecidable for most test criteria n Thus, 100% coverage is impossible in practice Given a set of test requirements TR for coverage criterion C, a test set T satisfies C coverage if and only if for every test requirement tr in TR, there is at least one test t in T such that t satisfies tr

65. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 65 Two Ways to Use Test Criteria 1.Directly generate test values to satisfy the criterion often assumed by the research community most obvious way to use criteria very hard without automated tools 2.Generate test values externally and measure against the criterion usually favored by industry –sometimes misleading –if tests do not reach 100% coverage, what does that mean? Test criteria are sometimes called metrics

66. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 66 Generators and Recognizers n Generator : A procedure that automatically generates values to satisfy a criterion n Recognizer : A procedure that decides whether a given set of test values satisfies a criterion n Both problems are provably undecidable for most criteria n It is possible to recognize whether test cases satisfy a criterion far more often than it is possible to generate tests that satisfy the criterion n Coverage analysis tools are quite plentiful

67. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 67 Comparing Criteria with Subsumption n Criteria Subsumption : A test criterion C1 subsumes C2 if and only if every set of test cases that satisfies criterion C1 also satisfies C2 n Must be true for every set of test cases n Example : If a test set has covered every branch in a program (satisfied the branch criterion), then the test set is guaranteed to also have covered every statement

68. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 68 Test Coverage Criteria n Traditional software testing is expensive and labor-intensive n Formal coverage criteria are used to decide which test inputs to use n More likely that the tester will find problems n Greater assurance that the software is of high quality and reliability n A goal or stopping rule for testing n Criteria makes testing more efficient and effective But how do we start to apply these ideas in practice?

69. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 69 Part 3 : How ? How do we get there ? Now we know why and what …

70. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 70 Testing Levels Based on Test Process Maturity  Level 0 : There’s no difference between testing and debugging  Level 1 : The purpose of testing is to show correctness  Level 2 : The purpose of testing is to show that the software doesn’t work  Level 3 : The purpose of testing is not to prove anything specific, but to reduce the risk of using the software  Level 4 : Testing is a mental discipline that helps all IT professionals develop higher quality software

71. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 71 Level 0 Thinking n Testing is the same as debugging n Does not distinguish between incorrect behavior and mistakes in the program n Does not help develop software that is reliable or safe This is what we teach undergraduate CS majors

72. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 72 Level 1 Thinking n Purpose is to show correctness n Correctness is impossible to achieve n What do we know if no failures? –Good software or bad tests? n Test engineers have no: –Strict goal –Real stopping rule –Formal test technique –Test managers are powerless This is what hardware engineers often expect

73. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 73 Level 2 Thinking n Purpose is to show failures n Looking for failures is a negative activity n Puts testers and developers into an adversarial relationship n What if there are no failures? This describes most software companies. How can we move to a team approach ??

74. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 74 Level 3 Thinking n Testing can only show the presence of failures n Whenever we use software, we incur some risk n Risk may be small and consequences unimportant n Risk may be great and the consequences catastrophic n Testers and developers work together to reduce risk This describes a few “enlightened” software companies

75. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 75 Level 4 Thinking A mental discipline that increases quality n Testing is only one way to increase quality n Test engineers can become technical leaders of the project n Primary responsibility to measure and improve software quality n Their expertise should help the developers This is the way “traditional” engineering works

76. How to Improve Testing ? n Testers need more and better software tools n Testers need to adopt practices and techniques that lead to more efficient and effective testing –More education –Different management organizational strategies n Testing / QA teams need more technical expertise –Developer expertise has been increasing dramatically n Testing / QA teams need to specialize more –This same trend happened for development in the 1990s Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 76

77. Four Roadblocks to Adoption Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 77 1. Lack of test education 2. Necessity to change process 3. Usability of tools 4. Weak and ineffective tools Number of UG CS programs in US that require testing ? 0 Number of MS CS programs in US that require testing ? Number of UG testing classes in the US ? 0 ~25 Most test tools don’t do much – but most users do not realize they could be better Adoption of many test techniques and tools require changes in development process Many testing tools require the user to know the underlying theory to use them This is very expensive for most software companies Do we need to know how an internal combustion engine works to drive ? Do we need to understand parsing and code generation to use a compiler ? Few tools solve the key technical problem – generating test values automatically Bill Gates says half of MS engineers are testers, programmers spend half their time testing

78. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 78 Summary n More testing saves money –Planning for testing saves lots of money n Testing is no longer an “art form” –Engineers have a tool box of test criteria n When testers become engineers, the product gets better –The developers get better

79. Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 79 Open Questions n Which criteria work best on embedded, highly reliable software? –Which software structure to use? n How can we best automate this testing with robust tools? –Deriving the software structure –Constructing the test requirements –Creating values from test requirements –Creating full test scripts –Solution to the “mapping problem” n Empirical validation n Technology transition n Application to new domains

80. Summary of Today’s New Ideas n Why do we test – to reduce the risk of using the software n Four types of test activities – test design, automation, execution and evaluation n Software terms – faults, failures, the RIP model, observability and controllability n Four structures – test requirements and criteria n Test process maturity levels – level 4 is a mental discipline that improves the quality of the software Introduction to Software Testing (Ch 1), www.introsoftwaretesting.com © Ammann & Offutt 80 Earlier and better testing can empower the test manager