I try to match this kind of method calls of some fluent API. There can be an arbitrary number of method calls (at least 2 calls, but no upper limit). The whole expression should be matched. Actually, the goal is to find chained method calls in a fluent api which omit doIt(), as in this case the fluent API does nothing.


I tried something like


and use different "occurence counts" like 0,∞ for $a$, and 0,1 for $b$, but this still only matches FooClass.some("fluent")


Assuming all the fluent api methods return an instance of FooClass, the following should work. Start with the existing template method calls and add a semicolon to search for statements:


Click Edit variables:

  1. set Expression type of Instance to FooClass
  2. set Text/Regexp of MethodCall to doit and enable Invert condition
  • The API methods don't return instances of FooClass, but it seems it is still possible to use an expression type matching multiple classes (FooClass|BarClass) as I will post in an answer
    – user140547
    Jun 19 '16 at 14:52

A solution based on the answer of Bas Leijdekkers, if anyone has a similar problem.

Using these class definitions for the example:

static class FooClass{

    static BarClass bar(){
       return new BarClass();

static class BarClass{

     Bar2Class bar2(){
        return new Bar2Class();

    BarClass self(){return this;}

static class Bar2Class{

    FinalClass bar3(){
        return new FinalClass();
    Bar2Class self(){return this;}

static class FinalClass{
    void doIt(){
    FinalClass doSomethingElse(){
        return this;

I ended up with two-three expressions:

  1. Matching the static method FooClass.bar(). No inverted doItcondition needed


  2. Matching the intermediate classes FooClass,BarClass. No inverted doItcondition needed


    Expression type of the instance is (FooClass|BarClass)

  3. Matching the classes Bar2Class, FinalClass. The difference is here that it is possible to make a valid expression by adding doIt() to the expression. This probably only works when there is only one final call.


    Expression type of the instance is (Bar2Class|FinalClass) Here using the inverted constraint on the method call doIt

    The replacement template is $Instance$.$MethodCall$($Parameter$).doIt();

These structural search pattern can then also be used as inspections in IntelliJ.

Test cases:




    FooClass.bar().bar2().bar3(); // do it can be added



    FooClass.bar().bar2().bar3().doSomethingElse(); // do it can be added

    FooClass.bar().bar2().self().bar3().doSomethingElse(); // do it can be added

    FooClass.bar().bar2().bar3().doSomethingElse().doIt(); // all but this are invalid and found by the inspections

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