// RUN: %clang_cc1 -std=c++11 -verify \
// RUN: -fopenmp -ferror-limit 200 %s -Wuninitialized
// RUN: %clang_cc1 -std=c++11 -verify \
// RUN: -fopenmp-simd -ferror-limit 200 %s -Wuninitialized
struct ST {
int *a;
};
typedef int arr[10];
typedef ST STarr[10];
struct SA {
const int d = 5;
const int da[5] = { 0 };
ST e;
ST g[10];
STarr &rg = g;
int i;
int &j = i;
int *k = &j;
int *&z = k;
int aa[10];
arr &raa = aa;
void func(int arg) {
#pragma omp target has_device_addr // expected-error {{expected '(' after 'has_device_addr'}}
{}
#pragma omp target has_device_addr( // expected-error {{expected ')'}} expected-note {{to match this '('}} expected-error {{expected expression}}
{}
#pragma omp target has_device_addr() // expected-error {{expected expression}}
{}
#pragma omp target has_device_addr(alloc) // expected-error {{use of undeclared identifier 'alloc'}}
{}
#pragma omp target has_device_addr(arg // expected-error {{expected ')'}} expected-note {{to match this '('}}
{}
#pragma omp target has_device_addr(i) // OK
{}
#pragma omp target has_device_addr(j) // OK
{}
#pragma omp target has_device_addr(k) // OK
{}
#pragma omp target has_device_addr(z) // OK
{}
#pragma omp target has_device_addr(aa) // OK
{}
#pragma omp target has_device_addr(raa) // OK
{}
#pragma omp target has_device_addr(e) // OK
{}
#pragma omp target has_device_addr(g) // OK
{}
#pragma omp target has_device_addr(rg) // OK
{}
#pragma omp target has_device_addr(k,i,j) // OK
{}
#pragma omp target has_device_addr(d) // OK
{}
#pragma omp target has_device_addr(da) // OK
{}
return;
}
};
struct SB {
unsigned A;
unsigned B;
float Arr[100];
float *Ptr;
float *foo() {
return &Arr[0];
}
};
struct SC {
unsigned A : 2;
unsigned B : 3;
unsigned C;
unsigned D;
float Arr[100];
SB S;
SB ArrS[100];
SB *PtrS;
SB *&RPtrS;
float *Ptr;
SC(SB *&_RPtrS) : RPtrS(_RPtrS) {}
};
union SD {
unsigned A;
float B;
};
struct S1;
extern S1 a;
class S2 {
mutable int a;
public:
S2():a(0) { }
S2(S2 &s2):a(s2.a) { }
static float S2s;
static const float S2sc;
};
const float S2::S2sc = 0;
const S2 b;
const S2 ba[5];
class S3 {
int a;
public:
S3():a(0) { }
S3(S3 &s3):a(s3.a) { }
};
const S3 c;
const S3 ca[5];
extern const int f;
class S4 {
int a;
S4();
S4(const S4 &s4);
public:
S4(int v):a(v) { }
};
class S5 {
int a;
S5():a(0) {}
S5(const S5 &s5):a(s5.a) { }
public:
S5(int v):a(v) { }
};
S3 h;
#pragma omp threadprivate(h)
typedef struct {
int a;
} S6;
template <typename T, int I>
T tmain(T argc) {
const T d = 5;
const T da[5] = { 0 };
S4 e(4);
S5 g(5);
S6 h[10];
auto &rh = h;
T i;
T &j = i;
T *k = &j;
T *&z = k;
T aa[10];
auto &raa = aa;
S6 *ps;
#pragma omp target has_device_addr // expected-error {{expected '(' after 'has_device_addr'}}
{}
#pragma omp target has_device_addr( // expected-error {{expected ')'}} expected-note {{to match this '('}} expected-error {{expected expression}}
{}
#pragma omp target has_device_addr() // expected-error {{expected expression}}
{}
#pragma omp target has_device_addr(alloc) // expected-error {{use of undeclared identifier 'alloc'}}
{}
#pragma omp target has_device_addr(argc // expected-error {{expected ')'}} expected-note {{to match this '('}}
{}
#pragma omp target has_device_addr(i) // OK
{}
#pragma omp target has_device_addr(j) // OK
{}
#pragma omp target has_device_addr(k) // OK
{}
#pragma omp target has_device_addr(z) // OK
{}
#pragma omp target has_device_addr(aa) // OK
{}
#pragma omp target has_device_addr(raa) // OK
{}
#pragma omp target has_device_addr(e) // OK
{}
#pragma omp target has_device_addr(g) // OK
{}
#pragma omp target has_device_addr(h) // OK
{}
#pragma omp target has_device_addr(rh) // OK
{}
#pragma omp target has_device_addr(k,i,j) // OK
{}
#pragma omp target has_device_addr(d) // OK
{}
#pragma omp target has_device_addr(da) // OK
{}
#pragma omp target map(ps) has_device_addr(ps) // expected-error{{variable already marked as mapped in current construct}} expected-note{{used here}}
{}
#pragma omp target has_device_addr(ps) map(ps) // expected-error{{variable already marked as mapped in current construct}} expected-note{{used here}}
{}
#pragma omp target map(ps->a) has_device_addr(ps) // expected-error{{variable already marked as mapped in current construct}} expected-note{{used here}}
{}
#pragma omp target has_device_addr(ps) map(ps->a) // expected-error{{pointer cannot be mapped along with a section derived from itself}} expected-note{{used here}}
{}
#pragma omp target has_device_addr(ps) firstprivate(ps) // expected-error{{firstprivate variable cannot be in a has_device_addr clause in '#pragma omp target' directive}}
{}
#pragma omp target firstprivate(ps) has_device_addr(ps) // expected-error{{firstprivate variable cannot be in a has_device_addr clause in '#pragma omp target' directive}} expected-note{{defined as firstprivate}}
{}
#pragma omp target has_device_addr(ps) private(ps) // expected-error{{private variable cannot be in a has_device_addr clause in '#pragma omp target' directive}}
{}
#pragma omp target private(ps) has_device_addr(ps) // expected-error{{private variable cannot be in a has_device_addr clause in '#pragma omp target' directive}} expected-note{{defined as private}}
{}
return 0;
}
int main(int argc, char **argv) {
const int d = 5;
const int da[5] = { 0 };
S4 e(4);
S5 g(5);
S6 h[10];
auto &rh = h;
int i;
int &j = i;
int *k = &j;
int *&z = k;
int aa[10];
auto &raa = aa;
S6 *ps;
#pragma omp target has_device_addr // expected-error {{expected '(' after 'has_device_addr'}}
{}
#pragma omp target has_device_addr( // expected-error {{expected ')'}} expected-note {{to match this '('}} expected-error {{expected expression}}
{}
#pragma omp target has_device_addr() // expected-error {{expected expression}}
{}
#pragma omp target has_device_addr(alloc) // expected-error {{use of undeclared identifier 'alloc'}}
{}
#pragma omp target has_device_addr(argc // expected-error {{expected ')'}} expected-note {{to match this '('}}
{}
#pragma omp target has_device_addr(i) // OK
{}
#pragma omp target has_device_addr(j) // OK
{}
#pragma omp target has_device_addr(k) // OK
{}
#pragma omp target has_device_addr(z) // OK
{}
#pragma omp target has_device_addr(aa) // OK
{}
#pragma omp target has_device_addr(raa) // OK
{}
#pragma omp target has_device_addr(e) // OK
{}
#pragma omp target has_device_addr(g) // OK
{}
#pragma omp target has_device_addr(h) // OK
{}
#pragma omp target has_device_addr(rh) // OK
{}
#pragma omp target has_device_addr(k,i,j) // OK
{}
#pragma omp target has_device_addr(d) // OK
{}
#pragma omp target has_device_addr(da) // OK
{}
#pragma omp target map(ps) has_device_addr(ps) // expected-error{{variable already marked as mapped in current construct}} expected-note{{used here}}
{}
#pragma omp target has_device_addr(ps) map(ps) // expected-error{{variable already marked as mapped in current construct}} expected-note{{used here}}
{}
#pragma omp target map(ps->a) has_device_addr(ps) // expected-error{{variable already marked as mapped in current construct}} expected-note{{used here}}
{}
#pragma omp target has_device_addr(ps) map(ps->a) // expected-error{{pointer cannot be mapped along with a section derived from itself}} expected-note{{used here}}
{}
#pragma omp target has_device_addr(ps) firstprivate(ps) // expected-error{{firstprivate variable cannot be in a has_device_addr clause in '#pragma omp target' directive}}
{}
#pragma omp target firstprivate(ps) has_device_addr(ps) // expected-error{{firstprivate variable cannot be in a has_device_addr clause in '#pragma omp target' directive}} expected-note{{defined as firstprivate}}
{}
#pragma omp target has_device_addr(ps) private(ps) // expected-error{{private variable cannot be in a has_device_addr clause in '#pragma omp target' directive}}
{}
#pragma omp target private(ps) has_device_addr(ps) // expected-error{{private variable cannot be in a has_device_addr clause in '#pragma omp target' directive}} expected-note{{defined as private}}
{}
return tmain<int, 3>(argc);
}