The following definitions are from a posting by Boris Beizer on the topic of "integration testing" in the c.s.t. newsgroup.
The definitions of integration tests are after Leung and White. Note that the definitions of unit, component, integration, and integration testing are recursive:
Unit. The smallest compilable component. A unit typically is the work of one programmer (At least in principle). As defined, it does not include any called sub-components (for procedural languages) or communicating components in general.
Unit Testing: in unit testing called components (or communicating components) are replaced with stubs, simulators, or trusted components. Calling components are replaced with drivers or trusted super-components. The unit is tested in isolation.
component: a unit is a component. The integration of one or more components is a component.
Note: The reason for "one or more" as contrasted to "Two or more" is to allow for components that call themselves recursively.
component testing: the same as unit testing except that all stubs and simulators are replaced with the real thing.
Two components (actually one or more) are said to be integrated when: a. They have been compiled, linked, and loaded together. b. They have successfully passed the integration tests at the interface between them.
Thus, components A and B are integrated to create a new, larger, component (A,B). Note that this does not conflict with the idea of incremental integration -- it just means that A is a big component and B, the component added, is a small one.
Integration testing: carrying out integration tests.
Integration tests (After Leung and White) for procedural languages. This is easily generalized for OO languages by using the equivalent constructs for message passing. In the following, the word "call" is to be understood in the most general sense of a data flow and is not restricted to just formal subroutine calls and returns -- for example, passage of data through global data structures and/or the use of pointers.
Let A and B be two components in which A calls B. Let Ta be the component level tests of A Let Tb be the component level tests of B Tab The tests in A's suite that cause A to call B. Tbsa The tests in B's suite for which it is possible to sensitize A -- the inputs are to A, not B. Tbsa + Tab == the integration test suite (+ = union).
Note: Sensitize is a technical term. It means inputs that will cause a routine to go down a specified path. The inputs are to A. Not every input to A will cause A to traverse a path in which B is called. Tbsa is the set of tests which do cause A to follow a path in which B is called. The outcome of the test of B may or may not be affected.
There have been variations on these definitions, but the key point is that it is pretty darn formal and there's a goodly hunk of testing theory, especially as concerns integration testing, OO testing, and regression testing, based on them.
As to the difference between integration testing and system testing. System testing specifically goes after behaviors and bugs that are properties of the entire system as distinct from properties attributable to components (unless, of course, the component in question is the entire system). Examples of system testing issues: resource loss bugs, throughput bugs, performance, security, recovery, transaction synchronization bugs (often misnamed "timing bugs").
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