@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }
@Override public <U> Condition<U> and(Step<? super T, U> mapping) { return notMatched(); } }