Statement coverage is said to make sure that every statement in the code is executed at least once.
Decision/branch coverage is said to test that each branch/output of a decisions is tested, i.e. all statements in both false/true branches will be executed.
But is it not the same? In Statement coverage I need to execute all statements so I guess it can be only done by running all possible ways. I know I am missing something here..

  • I guess this question is better for By the way decision and branch coverage are not the same thing! – Adriano Repetti Jan 25 '13 at 10:03
  • @Adriano Yes, wiki says so but a lot of other sources say it is the same. – Pietrossek Jan 25 '13 at 10:09
  • Not just wiki, formal definition for "decision" is each condition to enter the code path of a branch (then branch is the whole condition). Imagine, for example, the short circuit in C/C++. You may decide to use them as synonyms or not. – Adriano Repetti Jan 25 '13 at 10:15
  • 1
    Moreover a statement may not be executed even if the branch where it is has been executed because of, for example, jumps, exceptions and/or other asynchronous conditions (locks, signals, events). That's why decision coverage and statement coverage may differ. – Adriano Repetti Jan 25 '13 at 10:18

The answer by Paul isn't quite right, at least I think so (according to ISTQB's definitions). There's quite significant difference between statement, decision/branch and condition coverage. I'll use the sample from the other answer but modified a bit, so I can show all three test coverage examples. Tests written here gives 100% test coverage for each type.

if(a || b)) {
    test1 = true;
else {
    if(c) {
      test2 = true

We have two statements here - if(a||b) and if(c), to fully explain those coverage differences:

  1. statement coverage have to test each statement at least once, so we need just two tests:
    • a=true b=false - that gives us path if(a||b) true -> test1 = true
    • a=false, b=false and c=true - that gives us path: if(a||b) false -> else -> if(c) -> test2=true.

This way we executed each and every statement.

  1. branch/decision coverage needs one more test:

    • a=false, b=false, c=false - that leads us to that second if but we are executing false branch from that statement, that wasn't executed in statement coverage

    That way we have all the branches tested, meaning we went through all the paths.

  2. condition coverage needs another test:

    • a=false, b=true - that leads through the same path as first test but executes the other decision in OR statement (a||b) to go through it.

That way we have all conditions tested, meaning that we went through all paths (branches) and triggered it with each condition we could - first 'if' statement was true in first test because of a=true triggered it and in the last test because b=true triggered it. Of course someone can argue that case with a=true and b=true should be tested as well, but when we will check how 'or' works then we can see it isn't needed and also variable c can be of any value as in those tests it is not evaluated.

At least I interpreted it this way. If someone is still interested :)

EDIT: In most sources I found lately decision/branch coverage terms are equivalent and the term I described as decision coverage is in fact condition coverage hence that update of the answer.

  • 2
    I don't think that's correct. According to the ISTQB glossary ( "statement coverage: The percentage of executable statements that have been exercised by a test suite. " In your "statement coverage" example, test1 = true; is never executed, but it obviously is an executable statement. – Frank Schmitt Aug 25 '15 at 9:32
  • But test1 is not statement, it's variable that in that case is edge we can reach. 'if' is statement (conditional statement to be exact). Maybe I'm missing something here, but I understand it this way. – Faflok Aug 25 '15 at 9:59
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    test1 = true; is a variable assignment and therefore an executable statement. – Frank Schmitt Aug 25 '15 at 10:00
  • Could be your way, I'm not oracle here :) I just understand it as conditional statement are the logic we have to test - testing each variable assignment (or print or whatever we will have in that branch) isn't the case. Speaking as a tester ;) – Faflok Aug 25 '15 at 10:04
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    Item 3 is incorrect, since decision coverage does not require each separate condition in a complex decision point to be exercised. When that is required, we have condition coverage. – Rogério Oct 6 '16 at 19:52

You may have a statement like:

if(a || b || (c && d && !e)) {
    test1 = true;
} else {
    test2 = false;

If your code coverage says both the test1 and test2 lines are hit then you have statement coverage, but to get full branch coverage you will need to test when a is true, when a is false but b is true, when a and b are false but c and d are true and e is false, etc.

Branch coverage covers every potential combination of branch choices and so is harder to achieve 100% coverage.

  • Not sure why this was never voted as answer. Good explanation! – Christopher Wirt Feb 9 '15 at 17:42
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    This is false. Branch coverage need only cover all edges in the control flow graph. The boolean evaluation branches out into two edges. Look at the above answer for the correct answer. – Outlier Mar 25 '16 at 21:24
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    @PaulRutland What you're describing is condition coverage, not branch coverage. – Adam Palaniuk Sep 15 '16 at 22:15

I can add this to the above which I found to be missing, If the tests have complete branch coverage then we can say it also has complete statement coverage, but not the vice versa.

100% branch coverage => 100% statement coverage

100% statement coverage does not imply 100% branch coverage

the reason is in branch coverage apart from executing all the statements, we should also verify if the tests executes all branches, which can be interpreted as covering all edges in the control flow branch

     bool statement1 = true;

a = true, b = true will give 100% statement coverage, but not branch coverage

enter image description here

In the branch coverage we need to cover all the edges, which we missed in the statement coverage shown as red lines in the above image

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