// RUN: %clang_analyze_cc1 -std=c++11 -analyzer-checker=alpha.clone.CloneChecker -analyzer-config alpha.clone.CloneChecker:MinimumCloneComplexity=10 -verify %s // This tests if we search for clones in functions. void log(); int max(int a, int b) { // expected-warning{{Duplicate code detected}} log(); if (a > b) return a; return b; } int maxClone(int x, int y) { // expected-note{{Similar code here}} log(); if (x > y) return x; return y; } // Functions below are not clones and should not be reported. // The next two functions test that statement classes are still respected when // checking for clones in expressions. This will show that the statement // specific data of all base classes is collected, and not just the data of the // first base class. int testBaseClass(int a, int b) { // no-warning log(); if (a > b) return true ? a : b; return b; } int testBaseClass2(int a, int b) { // no-warning log(); if (a > b) return __builtin_choose_expr(true, a, b); return b; } // No clone because of the different comparison operator. int min1(int a, int b) { // no-warning log(); if (a < b) return a; return b; } // No clone because of the different pattern in which the variables are used. int min2(int a, int b) { // no-warning log(); if (a > b) return b; return a; } int foo(int a, int b) { // no-warning return a + b; } |