// RUN: %clang_cc1 -std=c++11 -fopenmp-version=51 -verify \ // RUN: -fopenmp -ferror-limit 200 %s -Wuninitialized // RUN: %clang_cc1 -std=c++11 -fopenmp-version=51 -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 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(argc); }