// RUN: %clang_cc1 -fexperimental-new-constant-interpreter -std=c++11 -verify %s // RUN: %clang_cc1 -fexperimental-new-constant-interpreter -std=c++20 -verify %s // RUN: %clang_cc1 -std=c++11 -verify=ref %s // RUN: %clang_cc1 -std=c++20 -verify=ref %s #define INT_MIN (~__INT_MAX__) #define INT_MAX __INT_MAX__ static_assert(true, ""); static_assert(false, ""); // expected-error{{failed}} ref-error{{failed}} static_assert(nullptr == nullptr, ""); static_assert(1 == 1, ""); static_assert(1 == 3, ""); // expected-error{{failed}} ref-error{{failed}} constexpr int number = 10; static_assert(number == 10, ""); static_assert(number != 10, ""); // expected-error{{failed}} \ // ref-error{{failed}} \ // expected-note{{evaluates to}} \ // ref-note{{evaluates to}} constexpr bool b = number; static_assert(b, ""); constexpr int one = true; static_assert(one == 1, ""); namespace IntegralCasts { constexpr int i = 12; constexpr unsigned int ui = i; static_assert(ui == 12, ""); constexpr unsigned int ub = !false; static_assert(ub == 1, ""); constexpr int si = ui; static_assert(si == 12, ""); constexpr int sb = true; static_assert(sb == 1, ""); constexpr int zero = 0; constexpr unsigned int uzero = 0; constexpr bool bs = i; static_assert(bs, ""); constexpr bool bu = ui; static_assert(bu, ""); constexpr bool ns = zero; static_assert(!ns, ""); constexpr bool nu = uzero; static_assert(!nu, ""); }; constexpr int UninitI; // expected-error {{must be initialized by a constant expression}} \ // ref-error {{must be initialized by a constant expression}} constexpr int *UninitPtr; // expected-error {{must be initialized by a constant expression}} \ // ref-error {{must be initialized by a constant expression}} constexpr bool getTrue() { return true; } constexpr bool getFalse() { return false; } constexpr void* getNull() { return nullptr; } constexpr int neg(int m) { return -m; } constexpr bool inv(bool b) { return !b; } static_assert(12, ""); static_assert(12 == -(-(12)), ""); static_assert(!false, ""); static_assert(!!true, ""); static_assert(!!true == !false, ""); static_assert(true == 1, ""); static_assert(false == 0, ""); static_assert(!5 == false, ""); static_assert(!0, ""); static_assert(-true, ""); static_assert(-false, ""); //expected-error{{failed}} ref-error{{failed}} static_assert(~0 == -1, ""); static_assert(~1 == -2, ""); static_assert(~-1 == 0, ""); static_assert(~255 == -256, ""); static_assert(~INT_MIN == INT_MAX, ""); static_assert(~INT_MAX == INT_MIN, ""); static_assert(-(1 << 31), ""); // expected-error {{not an integral constant expression}} \ // expected-note {{outside the range of representable values}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{outside the range of representable values}} \ enum E {}; constexpr E e = static_cast(0); static_assert(~e == -1, ""); constexpr int m = 10; constexpr const int *p = &m; static_assert(p != nullptr, ""); static_assert(*p == 10, ""); constexpr const int* getIntPointer() { return &m; } static_assert(getIntPointer() == &m, ""); static_assert(*getIntPointer() == 10, ""); constexpr int gimme(int k) { return k; } static_assert(gimme(5) == 5, ""); namespace PointerToBool { constexpr void *N = nullptr; constexpr bool B = N; static_assert(!B, ""); static_assert(!N, ""); constexpr float F = 1.0; constexpr const float *FP = &F; static_assert(FP, ""); static_assert(!!FP, ""); } namespace SizeOf { constexpr int soint = sizeof(int); constexpr int souint = sizeof(unsigned int); static_assert(soint == souint, ""); static_assert(sizeof(&soint) == sizeof(void*), ""); static_assert(sizeof(&soint) == sizeof(nullptr), ""); static_assert(sizeof(long) == sizeof(unsigned long), ""); static_assert(sizeof(char) == sizeof(unsigned char), ""); constexpr int N = 4; constexpr int arr[N] = {1,2,3,4}; static_assert(sizeof(arr) == N * sizeof(int), ""); static_assert(sizeof(arr) == N * sizeof(arr[0]), ""); constexpr bool arrB[N] = {true, true, true, true}; static_assert(sizeof(arrB) == N * sizeof(bool), ""); static_assert(sizeof(bool) == 1, ""); static_assert(sizeof(char) == 1, ""); constexpr int F = sizeof(void); // expected-error{{incomplete type 'void'}} \ // ref-error{{incomplete type 'void'}} constexpr int F2 = sizeof(gimme); // expected-error{{to a function type}} \ // ref-error{{to a function type}} /// FIXME: The following code should be accepted. struct S { void func(); }; constexpr void (S::*Func)() = &S::func; // expected-error {{must be initialized by a constant expression}} \ // expected-error {{interpreter failed to evaluate an expression}} static_assert(sizeof(Func) == sizeof(&S::func), ""); void func() { int n = 12; constexpr int oofda = sizeof(int[n++]); // expected-error {{must be initialized by a constant expression}} \ // ref-error {{must be initialized by a constant expression}} } #if __cplusplus >= 202002L /// FIXME: The following code should be accepted. consteval int foo(int n) { // ref-error {{consteval function never produces a constant expression}} return sizeof(int[n]); // ref-note 3{{not valid in a constant expression}} \ // expected-note {{not valid in a constant expression}} } constinit int var = foo(5); // ref-error {{not a constant expression}} \ // ref-note 2{{in call to}} \ // ref-error {{does not have a constant initializer}} \ // ref-note {{required by 'constinit' specifier}} \ // expected-error {{is not a constant expression}} \ // expected-note {{in call to}} \ // expected-error {{does not have a constant initializer}} \ // expected-note {{required by 'constinit' specifier}} \ #endif }; namespace rem { static_assert(2 % 2 == 0, ""); static_assert(2 % 1 == 0, ""); static_assert(-3 % 4 == -3, ""); static_assert(4 % -2 == 0, ""); static_assert(-3 % -4 == -3, ""); constexpr int zero() { return 0; } static_assert(10 % zero() == 20, ""); // ref-error {{not an integral constant expression}} \ // ref-note {{division by zero}} \ // expected-error {{not an integral constant expression}} \ // expected-note {{division by zero}} static_assert(true % true == 0, ""); static_assert(false % true == 0, ""); static_assert(true % false == 10, ""); // ref-error {{not an integral constant expression}} \ // ref-note {{division by zero}} \ // expected-error {{not an integral constant expression}} \ // expected-note {{division by zero}} constexpr int x = INT_MIN % - 1; // ref-error {{must be initialized by a constant expression}} \ // ref-note {{value 2147483648 is outside the range}} \ // expected-error {{must be initialized by a constant expression}} \ // expected-note {{value 2147483648 is outside the range}} \ }; namespace div { constexpr int zero() { return 0; } static_assert(12 / 3 == 4, ""); static_assert(12 / zero() == 12, ""); // ref-error {{not an integral constant expression}} \ // ref-note {{division by zero}} \ // expected-error {{not an integral constant expression}} \ // expected-note {{division by zero}} static_assert(12 / -3 == -4, ""); static_assert(-12 / 3 == -4, ""); constexpr int LHS = 12; constexpr long unsigned RHS = 3; static_assert(LHS / RHS == 4, ""); constexpr int x = INT_MIN / - 1; // ref-error {{must be initialized by a constant expression}} \ // ref-note {{value 2147483648 is outside the range}} \ // expected-error {{must be initialized by a constant expression}} \ // expected-note {{value 2147483648 is outside the range}} \ }; namespace cond { constexpr bool isEven(int n) { return n % 2 == 0 ? true : false; } static_assert(isEven(2), ""); static_assert(!isEven(3), ""); static_assert(isEven(100), ""); constexpr int M = 5 ? 10 : 20; static_assert(M == 10, ""); static_assert(5 ? 13 : 16 == 13, ""); static_assert(0 ? 13 : 16 == 16, ""); static_assert(number ?: -15 == number, ""); static_assert(0 ?: 100 == 100 , ""); #if __cplusplus >= 201402L constexpr int N = 20; constexpr int foo() { int m = N > 0 ? 5 : 10; return m == 5 ? isEven(m) : true; } static_assert(foo() == false, ""); constexpr int dontCallMe(unsigned m) { if (m == 0) return 0; return dontCallMe(m - 2); } // Can't call this because it will run into infinite recursion. constexpr int assertNotReached() { return dontCallMe(3); } constexpr int testCond() { return true ? 5 : assertNotReached(); } constexpr int testCond2() { return false ? assertNotReached() : 10; } static_assert(testCond() == 5, ""); static_assert(testCond2() == 10, ""); #endif }; namespace band { static_assert((10 & 1) == 0, ""); static_assert((10 & 10) == 10, ""); static_assert((1337 & -1) == 1337, ""); static_assert((0 & gimme(12)) == 0, ""); }; namespace bitOr { static_assert((10 | 1) == 11, ""); static_assert((10 | 10) == 10, ""); static_assert((1337 | -1) == -1, ""); static_assert((0 | gimme(12)) == 12, ""); static_assert((12 | true) == 13, ""); }; namespace bitXor { #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wxor-used-as-pow" static_assert((10 ^ 1) == 11, ""); static_assert((10 ^ 10) == 0, ""); enum { ONE = 1, }; static_assert((1337 ^ -1) == -1338, ""); static_assert((0 | gimme(12)) == 12, ""); static_assert((12 ^ true) == 13, ""); static_assert((12 ^ ONE) == 13, ""); #pragma clang diagnostic pop }; #if __cplusplus >= 201402L constexpr bool IgnoredUnary() { bool bo = true; !bo; // expected-warning {{expression result unused}} \ // ref-warning {{expression result unused}} return bo; } static_assert(IgnoredUnary(), ""); #endif namespace strings { constexpr const char *S = "abc"; static_assert(S[0] == 97, ""); static_assert(S[1] == 98, ""); static_assert(S[2] == 99, ""); static_assert(S[3] == 0, ""); static_assert("foobar"[2] == 'o', ""); static_assert(2["foobar"] == 'o', ""); constexpr const wchar_t *wide = L"bar"; static_assert(wide[0] == L'b', ""); constexpr const char32_t *u32 = U"abc"; static_assert(u32[1] == U'b', ""); constexpr char32_t c = U'\U0001F60E'; static_assert(c == 0x0001F60EL, ""); constexpr char k = -1; static_assert(k == -1, ""); static_assert('\N{LATIN CAPITAL LETTER E}' == 'E', ""); static_assert('\t' == 9, ""); #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wmultichar" constexpr int mc = 'abc'; static_assert(mc == 'abc', ""); __WCHAR_TYPE__ wm = L'abc'; // ref-error{{wide character literals may not contain multiple characters}} \ // expected-error{{wide character literals may not contain multiple characters}} __WCHAR_TYPE__ wu = u'abc'; // ref-error{{Unicode character literals may not contain multiple characters}} \ // expected-error{{Unicode character literals may not contain multiple characters}} __WCHAR_TYPE__ wU = U'abc'; // ref-error{{Unicode character literals may not contain multiple characters}} \ // expected-error{{Unicode character literals may not contain multiple characters}} #if __cplusplus > 201103L __WCHAR_TYPE__ wu8 = u8'abc'; // ref-error{{Unicode character literals may not contain multiple characters}} \ // expected-error{{Unicode character literals may not contain multiple characters}} #endif #pragma clang diagnostic pop constexpr char foo[12] = "abc"; static_assert(foo[0] == 'a', ""); static_assert(foo[1] == 'b', ""); static_assert(foo[2] == 'c', ""); static_assert(foo[3] == 0, ""); static_assert(foo[11] == 0, ""); constexpr char foo2[] = "abc\0def"; static_assert(foo2[0] == 'a', ""); static_assert(foo2[3] == '\0', ""); static_assert(foo2[6] == 'f', ""); static_assert(foo2[7] == '\0', ""); static_assert(foo2[8] == '\0', ""); // expected-error {{not an integral constant expression}} \ // expected-note {{read of dereferenced one-past-the-end pointer}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{read of dereferenced one-past-the-end pointer}} constexpr char foo3[4] = "abc"; static_assert(foo3[3] == '\0', ""); static_assert(foo3[4] == '\0', ""); // expected-error {{not an integral constant expression}} \ // expected-note {{read of dereferenced one-past-the-end pointer}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{read of dereferenced one-past-the-end pointer}} constexpr char foo4[2] = "abcd"; // expected-error {{initializer-string for char array is too long}} \ // ref-error {{initializer-string for char array is too long}} static_assert(foo4[0] == 'a', ""); static_assert(foo4[1] == 'b', ""); static_assert(foo4[2] == '\0', ""); // expected-error {{not an integral constant expression}} \ // expected-note {{read of dereferenced one-past-the-end pointer}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{read of dereferenced one-past-the-end pointer}} constexpr char foo5[12] = "abc\xff"; #if defined(__CHAR_UNSIGNED__) || __CHAR_BIT__ > 8 static_assert(foo5[3] == 255, ""); #else static_assert(foo5[3] == -1, ""); #endif }; #if __cplusplus > 201402L namespace IncDec { constexpr int zero() { int a = 0; a++; ++a; a--; --a; return a; } static_assert(zero() == 0, ""); constexpr int preInc() { int a = 0; return ++a; } static_assert(preInc() == 1, ""); constexpr int postInc() { int a = 0; return a++; } static_assert(postInc() == 0, ""); constexpr int preDec() { int a = 0; return --a; } static_assert(preDec() == -1, ""); constexpr int postDec() { int a = 0; return a--; } static_assert(postDec() == 0, ""); constexpr int three() { int a = 0; return ++a + ++a; // expected-warning {{multiple unsequenced modifications to 'a'}} \ // ref-warning {{multiple unsequenced modifications to 'a'}} \ } static_assert(three() == 3, ""); constexpr bool incBool() { bool b = false; return ++b; // expected-error {{ISO C++17 does not allow incrementing expression of type bool}} \ // ref-error {{ISO C++17 does not allow incrementing expression of type bool}} } static_assert(incBool(), ""); constexpr int uninit() { int a; ++a; // ref-note {{increment of uninitialized}} \ // FIXME: Should also be rejected by new interpreter return 1; } static_assert(uninit(), ""); // ref-error {{not an integral constant expression}} \ // ref-note {{in call to 'uninit()'}} constexpr int OverFlow() { // ref-error {{never produces a constant expression}} \ // expected-error {{never produces a constant expression}} int a = INT_MAX; ++a; // ref-note 2{{is outside the range}} \ // expected-note 2{{is outside the range}} return -1; } static_assert(OverFlow() == -1, ""); // expected-error {{not an integral constant expression}} \ // expected-note {{in call to 'OverFlow()'}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{in call to 'OverFlow()'}} constexpr int UnderFlow() { // ref-error {{never produces a constant expression}} \ // expected-error {{never produces a constant expression}} int a = INT_MIN; --a; // ref-note 2{{is outside the range}} \ // expected-note 2{{is outside the range}} return -1; } static_assert(UnderFlow() == -1, ""); // expected-error {{not an integral constant expression}} \ // expected-note {{in call to 'UnderFlow()'}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{in call to 'UnderFlow()'}} constexpr int getTwo() { int i = 1; return (i += 1); } static_assert(getTwo() == 2, ""); constexpr int sub(int a) { return (a -= 2); } static_assert(sub(7) == 5, ""); constexpr int add(int a, int b) { a += b; // expected-note {{is outside the range of representable values}} \ // ref-note {{is outside the range of representable values}} return a; } static_assert(add(1, 2) == 3, ""); static_assert(add(INT_MAX, 1) == 0, ""); // expected-error {{not an integral constant expression}} \ // expected-note {{in call to 'add}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{in call to 'add}} constexpr int sub(int a, int b) { a -= b; // expected-note {{is outside the range of representable values}} \ // ref-note {{is outside the range of representable values}} return a; } static_assert(sub(10, 20) == -10, ""); static_assert(sub(INT_MIN, 1) == 0, ""); // expected-error {{not an integral constant expression}} \ // expected-note {{in call to 'sub}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{in call to 'sub}} constexpr int subAll(int a) { return (a -= a); } static_assert(subAll(213) == 0, ""); constexpr bool BoolOr(bool b1, bool b2) { bool a; a = b1; a |= b2; return a; } static_assert(BoolOr(true, true), ""); static_assert(BoolOr(true, false), ""); static_assert(BoolOr(false, true), ""); static_assert(!BoolOr(false, false), ""); constexpr int IntOr(unsigned a, unsigned b) { unsigned r; r = a; r |= b; return r; } static_assert(IntOr(10, 1) == 11, ""); static_assert(IntOr(1337, -1) == -1, ""); static_assert(IntOr(0, 12) == 12, ""); constexpr bool BoolAnd(bool b1, bool b2) { bool a; a = b1; a &= b2; return a; } static_assert(BoolAnd(true, true), ""); static_assert(!BoolAnd(true, false), ""); static_assert(!BoolAnd(false, true), ""); static_assert(!BoolAnd(false, false), ""); constexpr int IntAnd(unsigned a, unsigned b) { unsigned r; r = a; r &= b; return r; } static_assert(IntAnd(10, 1) == 0, ""); static_assert(IntAnd(1337, -1) == 1337, ""); static_assert(IntAnd(0, 12) == 0, ""); constexpr bool BoolXor(bool b1, bool b2) { bool a; a = b1; a ^= b2; return a; } static_assert(!BoolXor(true, true), ""); static_assert(BoolXor(true, false), ""); static_assert(BoolXor(false, true), ""); static_assert(!BoolXor(false, false), ""); constexpr int IntXor(unsigned a, unsigned b) { unsigned r; r = a; r ^= b; return r; } static_assert(IntXor(10, 1) == 11, ""); static_assert(IntXor(10, 10) == 0, ""); static_assert(IntXor(12, true) == 13, ""); constexpr bool BoolRem(bool b1, bool b2) { bool a; a = b1; a %= b2; return a; } static_assert(!BoolRem(true, true), ""); static_assert(!BoolRem(false, true), ""); constexpr int IntRem(int a, int b) { int r; r = a; r %= b; // expected-note {{division by zero}} \ // ref-note {{division by zero}} \ // expected-note {{outside the range of representable values}} \ // ref-note {{outside the range of representable values}} return r; } static_assert(IntRem(2, 2) == 0, ""); static_assert(IntRem(2, 1) == 0, ""); static_assert(IntRem(9, 7) == 2, ""); static_assert(IntRem(5, 0) == 0, ""); // expected-error {{not an integral constant expression}} \ // expected-note {{in call to 'IntRem(5, 0)'}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{in call to 'IntRem(5, 0)'}} static_assert(IntRem(INT_MIN, -1) == 0, ""); // expected-error {{not an integral constant expression}} \ // expected-note {{in call to 'IntRem}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{in call to 'IntRem}} constexpr bool BoolDiv(bool b1, bool b2) { bool a; a = b1; a /= b2; return a; } static_assert(BoolDiv(true, true), ""); static_assert(!BoolDiv(false, true), ""); constexpr int IntDiv(int a, int b) { int r; r = a; r /= b; // expected-note {{division by zero}} \ // ref-note {{division by zero}} \ // expected-note {{outside the range of representable values}} \ // ref-note {{outside the range of representable values}} return r; } static_assert(IntDiv(2, 2) == 1, ""); static_assert(IntDiv(12, 20) == 0, ""); static_assert(IntDiv(2, 1) == 2, ""); static_assert(IntDiv(9, 7) == 1, ""); static_assert(IntDiv(5, 0) == 0, ""); // expected-error {{not an integral constant expression}} \ // expected-note {{in call to 'IntDiv(5, 0)'}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{in call to 'IntDiv(5, 0)'}} static_assert(IntDiv(INT_MIN, -1) == 0, ""); // expected-error {{not an integral constant expression}} \ // expected-note {{in call to 'IntDiv}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{in call to 'IntDiv}} constexpr bool BoolMul(bool b1, bool b2) { bool a; a = b1; a *= b2; return a; } static_assert(BoolMul(true, true), ""); static_assert(!BoolMul(true, false), ""); static_assert(!BoolMul(false, true), ""); static_assert(!BoolMul(false, false), ""); constexpr int IntMul(int a, int b) { int r; r = a; r *= b; // expected-note {{is outside the range of representable values of type 'int'}} \ // ref-note {{is outside the range of representable values of type 'int'}} return r; } static_assert(IntMul(2, 2) == 4, ""); static_assert(IntMul(12, 20) == 240, ""); static_assert(IntMul(2, 1) == 2, ""); static_assert(IntMul(9, 7) == 63, ""); static_assert(IntMul(INT_MAX, 2) == 0, ""); // expected-error {{not an integral constant expression}} \ // expected-note {{in call to 'IntMul}} \ // ref-error {{not an integral constant expression}} \ // ref-note {{in call to 'IntMul}} constexpr int arr[] = {1,2,3}; constexpr int ptrInc1() { const int *p = arr; p += 2; return *p; } static_assert(ptrInc1() == 3, ""); constexpr int ptrInc2() { const int *p = arr; return *(p += 1); } static_assert(ptrInc2() == 2, ""); constexpr int ptrInc3() { // expected-error {{never produces a constant expression}} \ // ref-error {{never produces a constant expression}} const int *p = arr; p += 12; // expected-note {{cannot refer to element 12 of array of 3 elements}} \ // ref-note {{cannot refer to element 12 of array of 3 elements}} return *p; } constexpr int ptrIncDec1() { const int *p = arr; p += 2; p -= 1; return *p; } static_assert(ptrIncDec1() == 2, ""); constexpr int ptrDec1() { // expected-error {{never produces a constant expression}} \ // ref-error {{never produces a constant expression}} const int *p = arr; p -= 1; // expected-note {{cannot refer to element -1 of array of 3 elements}} \ // ref-note {{cannot refer to element -1 of array of 3 elements}} return *p; } /// This used to leave a 0 on the stack instead of the previous /// value of a. constexpr int bug1Inc() { int a = 3; int b = a++; return b; } static_assert(bug1Inc() == 3); constexpr int bug1Dec() { int a = 3; int b = a--; return b; } static_assert(bug1Dec() == 3); }; #endif namespace CompoundLiterals { constexpr int get5() { return (int[]){1,2,3,4,5}[4]; } static_assert(get5() == 5, ""); constexpr int get6(int f = (int[]){1,2,6}[2]) { // ref-note {{subexpression not valid in a constant expression}} \ // ref-note {{declared here}} return f; } static_assert(get6(6) == 6, ""); // FIXME: Who's right here? static_assert(get6() == 6, ""); // ref-error {{not an integral constant expression}} constexpr int x = (int){3}; static_assert(x == 3, ""); #if __cplusplus >= 201402L constexpr int getX() { int x = (int){3}; x = (int){5}; return x; } static_assert(getX() == 5, ""); #endif #if __cplusplus >= 202002L constexpr int get3() { int m; m = (int){3}; return m; } static_assert(get3() == 3, ""); #endif }; namespace TypeTraits { static_assert(__is_trivial(int), ""); static_assert(__is_trivial(float), ""); static_assert(__is_trivial(E), ""); struct S{}; static_assert(__is_trivial(S), ""); struct S2 { S2() {} }; static_assert(!__is_trivial(S2), ""); template struct S3 { constexpr bool foo() const { return __is_trivial(T); } }; struct T { ~T() {} }; struct U {}; static_assert(S3{}.foo(), ""); static_assert(!S3{}.foo(), ""); } #if __cplusplus >= 201402L constexpr int ignoredDecls() { static_assert(true, ""); struct F { int a; }; enum E { b }; using A = int; typedef int Z; return F{12}.a; } static_assert(ignoredDecls() == 12, ""); struct A{}; constexpr int ignoredExprs() { (void)(1 / 2); A a; a; // expected-warning {{unused}} \ // ref-warning {{unused}} (void)a; (a); // expected-warning {{unused}} \ // ref-warning {{unused}} return 0; } #endif