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import org.checkerframework.checker.index.qual.LTEqLengthOf;
import org.checkerframework.checker.index.qual.LTLengthOf;
class RefineLTE {
int[] arr = {1};
void testLTL(@LTLengthOf("arr") int test) {
// The reason for the parsing is so that the Value Checker
// can't figure it out but normal humans can.
// :: error: (assignment.type.incompatible)
@LTLengthOf("arr") int a = Integer.parseInt("1");
// :: error: (assignment.type.incompatible)
@LTLengthOf("arr") int a3 = Integer.parseInt("3");
int b = 2;
if (b <= test) {
@LTLengthOf("arr") int c = b;
}
// :: error: (assignment.type.incompatible)
@LTLengthOf("arr") int c1 = b;
if (b <= a) {
int potato = 7;
} else {
// :: error: (assignment.type.incompatible)
@LTLengthOf("arr") int d = b;
}
}
void testLTEL(@LTEqLengthOf("arr") int test) {
// :: error: (assignment.type.incompatible)
@LTEqLengthOf("arr") int a = Integer.parseInt("1");
// :: error: (assignment.type.incompatible)
@LTEqLengthOf("arr") int a3 = Integer.parseInt("3");
int b = 2;
if (b <= test) {
@LTEqLengthOf("arr") int c = b;
}
// :: error: (assignment.type.incompatible)
@LTLengthOf("arr") int c1 = b;
if (b <= a) {
int potato = 7;
} else {
// :: error: (assignment.type.incompatible)
@LTLengthOf("arr") int d = b;
}
}
}
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