// RUN: %clang_cc1 -fsyntax-only -verify %s // struct A {}; struct B { void foo(int b) { switch (a) { // expected-error{{use of undeclared identifier 'a'}} default: return; } switch (b) { case 17 // expected-error{{expected ':' after 'case'}} break; default // expected-error{{expected ':' after 'default'}} return; } } void test2() { enum X { Xa, Xb } x; switch (x) { // expected-warning {{enumeration value 'Xb' not handled in switch}} case Xa; // expected-error {{expected ':' after 'case'}} break; } switch (x) { default; // expected-error {{expected ':' after 'default'}} break; } } int test3(int i) { switch (i) { case 1: return 0; 2: return 1; // expected-error {{expected 'case' keyword before expression}} default: return 5; } } }; int test4(int i) { switch (i) 1: return -1; // expected-error {{expected 'case' keyword before expression}} return 0; } int test5(int i) { switch (i) { case 1: case 2: case 3: return 1; { 4:5:6:7: return 2; // expected-error 4{{expected 'case' keyword before expression}} } default: return -1; } } int test6(int i) { switch (i) { case 1: case 4: // This class provides extra single colon tokens. Make sure no // errors are seen here. class foo{ public: protected: private: }; case 2: 5: // expected-error {{expected 'case' keyword before expression}} default: return 1; } } int test7(int i) { switch (i) { case false ? 1 : 2: true ? 1 : 2: // expected-error {{expected 'case' keyword before expression}} case 10: 14 ? 3 : 4; // expected-warning {{expression result unused}} default: return 1; } } enum foo { A, B, C}; int test8( foo x ) { switch (x) { A: return 0; // FIXME: give a warning for unused labels that could also be // a case expression. default: return 1; } } // Stress test to make sure Clang doesn't crash. void test9(int x) { switch(x) { case 1: return; 2: case; // expected-error {{expected 'case' keyword before expression}} \ expected-error {{expected expression}} 4:5:6: return; // expected-error 3{{expected 'case' keyword before expression}} 7: :x; // expected-error {{expected 'case' keyword before expression}} \ expected-error {{expected expression}} 8:: x; // expected-error {{expected ';' after expression}} \ expected-error {{no member named 'x' in the global namespace}} \ expected-warning {{expression result unused}} 9:: :y; // expected-error {{expected ';' after expression}} \ expected-error {{expected unqualified-id}} \ expected-warning {{expression result unused}} :; // expected-error {{expected expression}} ::; // expected-error {{expected unqualified-id}} } } void test10(int x) { switch (x) { case 1: { struct Inner { void g(int y) { 2: y++; // expected-error {{expected ';' after expression}} \ // expected-warning {{expression result unused}} } }; break; } } } template struct test11 { enum { E }; void f(int x) { switch (x) { E: break; // FIXME: give a 'case' fix-it for unused labels that // could also be an expression an a case label. E+1: break; // expected-error {{expected 'case' keyword before expression}} } } }; void test12(int x) { switch (x) { 0: // expected-error {{expected 'case' keyword before expression}} while (x) { 1: // expected-error {{expected 'case' keyword before expression}} for (;x;) { 2: // expected-error {{expected 'case' keyword before expression}} if (x > 0) { 3: // expected-error {{expected 'case' keyword before expression}} --x; } } } } } void missing_statement_case(int x) { switch (x) { case 1: case 0: // expected-error {{label at end of compound statement: expected statement}} } } void missing_statement_default(int x) { switch (x) { case 0: default: // expected-error {{label at end of compound statement: expected statement}} } }