// RUN: %clang_cc1 -verify=expected,ge50,lt51 -fopenmp -ferror-limit 200 %s -Wno-openmp-target -Wuninitialized // RUN: %clang_cc1 -verify=expected,lt50,lt51 -fopenmp -fopenmp-version=40 -ferror-limit 200 %s -Wno-openmp-target -Wuninitialized // RUN: %clang_cc1 -verify=expected,lt50,lt51 -fopenmp -fopenmp-version=45 -ferror-limit 200 %s -Wno-openmp-target -Wuninitialized // RUN: %clang_cc1 -verify=expected,ge50,lt51 -fopenmp -fopenmp-version=50 -ferror-limit 200 %s -Wno-openmp-target -Wuninitialized // RUN: %clang_cc1 -verify=expected,ge50,ge51 -fopenmp -fopenmp-version=51 -ferror-limit 200 %s -Wno-openmp-target -Wuninitialized // RUN: %clang_cc1 -DCCODE -verify -fopenmp -ferror-limit 200 -x c %s -Wno-openmp -Wuninitialized // RUN: %clang_cc1 -verify=expected,ge50,lt51 -fopenmp-simd -ferror-limit 200 %s -Wno-openmp-target -Wuninitialized // RUN: %clang_cc1 -verify=expected,lt50,lt51 -fopenmp-simd -fopenmp-version=40 -ferror-limit 200 %s -Wno-openmp-target -Wuninitialized // RUN: %clang_cc1 -verify=expected,lt50,lt51 -fopenmp-simd -fopenmp-version=45 -ferror-limit 200 %s -Wno-openmp-target -Wuninitialized // RUN: %clang_cc1 -verify=expected,ge50,lt51 -fopenmp-simd -fopenmp-version=50 -ferror-limit 200 %s -Wno-openmp-target -Wuninitialized // RUN: %clang_cc1 -verify=expected,ge50,ge51 -fopenmp-simd -fopenmp-version=51 -ferror-limit 200 %s -Wno-openmp-target -Wuninitialized // RUN: %clang_cc1 -DCCODE -verify -fopenmp-simd -ferror-limit 200 -x c %s -Wno-openmp-mapping -Wuninitialized #ifdef CCODE void foo(int arg) { const int n = 0; double marr[10][10][10]; #pragma omp target map(marr[2][0:2][0:2]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr[:][0:][:]) {} #pragma omp target map(marr[:][1:][:]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr[:][n:][:]) {} } #else void xxx(int argc) { int map; // expected-note {{initialize the variable 'map' to silence this warning}} #pragma omp target map(tofrom: map) // expected-warning {{variable 'map' is uninitialized when used here}} for (int i = 0; i < 10; ++i) ; } struct SREF { int &a; int b; SREF(int &a) : a(a) {} }; template struct SA { static int ss; #pragma omp threadprivate(ss) // expected-note {{defined as threadprivate or thread local}} float a; int b[12]; float *c; T d; float e[I]; T *f; int bf : 20; void func(int arg) { SREF sref(arg); #pragma omp target { a = 0.0; func(arg); bf = 20; } #pragma omp target map(arg,a,d,sref.b) {} #pragma omp target map(arg[2:2],a,d) // expected-error {{subscripted value is not an array or pointer}} {} #pragma omp target map(arg,a*2) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} ge50-error {{expected addressable lvalue in 'map' clause}} {} #pragma omp target map(arg,(c+1)[2]) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} {} #pragma omp target map(arg,a[:2],d) // expected-error {{subscripted value is not an array or pointer}} {} #pragma omp target map(arg,a,d[:2]) // expected-error {{subscripted value is not an array or pointer}} {} #pragma omp target map(to:ss) // expected-error {{threadprivate variables are not allowed in 'map' clause}} {} #pragma omp target map(to:b,e) {} #pragma omp target map(to:b,e) map(to:b) // expected-error {{variable already marked as mapped in current construct}} expected-note {{used here}} {} #pragma omp target map(to:b[:2],e) {} #pragma omp target map(to:b,e[:]) {} #pragma omp target map(b[-1:]) // expected-error {{array section must be a subset of the original array}} {} #pragma omp target map(b[:-1]) // expected-error {{section length is evaluated to a negative value -1}} {} #pragma omp target map(b[true:true]) {} #pragma omp target map(: c,f) // expected-error {{missing map type}} {} #pragma omp target map(always, tofrom: c,f) {} #pragma omp target map(always, tofrom: c[1:2],f) {} #pragma omp target map(always, tofrom: c,f[1:2]) {} #pragma omp target map(always, tofrom: c[:],f) // expected-error {{section length is unspecified and cannot be inferred because subscripted value is not an array}} {} #pragma omp target map(always, tofrom: c,f[:]) // expected-error {{section length is unspecified and cannot be inferred because subscripted value is not an array}} {} #pragma omp target map(always) // expected-error {{use of undeclared identifier 'always'}} {} #pragma omp target map(close, tofrom: c,f) {} #pragma omp target map(close, tofrom: c[1:2],f) {} #pragma omp target map(close, tofrom: c,f[1:2]) {} #pragma omp target map(close, tofrom: c[:],f) // expected-error {{section length is unspecified and cannot be inferred because subscripted value is not an array}} {} #pragma omp target map(close, tofrom: c,f[:]) // expected-error {{section length is unspecified and cannot be inferred because subscripted value is not an array}} {} #pragma omp target map(close) // expected-error {{use of undeclared identifier 'close'}} {} // lt51-error@+1 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target map(present, tofrom: c,f) {} // lt51-error@+1 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target map(present, tofrom: c[1:2],f) {} // lt51-error@+1 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target map(present, tofrom: c,f[1:2]) {} // expected-error@+2 {{section length is unspecified and cannot be inferred because subscripted value is not an array}} // lt51-error@+1 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target map(present, tofrom: c[:],f) {} // expected-error@+2 {{section length is unspecified and cannot be inferred because subscripted value is not an array}} // lt51-error@+1 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target map(present, tofrom: c,f[:]) {} // expected-error@+1 {{use of undeclared identifier 'present'}} #pragma omp target map(present) {} #pragma omp target map(close, close, tofrom: a) // expected-error {{same map type modifier has been specified more than once}} {} #pragma omp target map(always, close, always, close, tofrom: a) // expected-error 2 {{same map type modifier has been specified more than once}} {} // ge51-error@+2 {{same map type modifier has been specified more than once}} // lt51-error@+1 2 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target map(present, present, tofrom: a) {} // expected-error@+3 2 {{same map type modifier has been specified more than once}} // ge51-error@+2 1 {{same map type modifier has been specified more than once}} // lt51-error@+1 2 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target map(always, close, present, always, close, present, tofrom: a) {} #pragma omp target map( , tofrom: a) // expected-error {{missing map type modifier}} {} #pragma omp target map( , , tofrom: a) // expected-error {{missing map type modifier}} expected-error {{missing map type modifier}} {} #pragma omp target map( , , : a) // expected-error {{missing map type modifier}} expected-error {{missing map type modifier}} expected-error {{missing map type}} {} // ge51-error@+3 2 {{incorrect map type modifier, expected 'always', 'close', 'mapper', or 'present'}} // lt51-error@+2 2 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} // expected-error@+1 {{incorrect map type, expected one of 'to', 'from', 'tofrom', 'alloc', 'release', or 'delete'}} #pragma omp target map( d, f, bf: a) {} // expected-error@+4 {{missing map type modifier}} // ge51-error@+3 {{incorrect map type modifier, expected 'always', 'close', 'mapper', or 'present'}} // lt51-error@+2 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} // expected-error@+1 {{missing map type}} #pragma omp target map( , f, : a) {} #pragma omp target map(always close: a) // expected-error {{missing map type}} {} #pragma omp target map(always close bf: a) // expected-error {{incorrect map type, expected one of 'to', 'from', 'tofrom', 'alloc', 'release', or 'delete'}} {} // ge51-error@+3 {{incorrect map type modifier, expected 'always', 'close', 'mapper', or 'present'}} // lt51-error@+2 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} // expected-error@+1 {{missing map type}} #pragma omp target map(always tofrom close: a) {} // ge51-error@+2 {{incorrect map type modifier, expected 'always', 'close', 'mapper', or 'present'}} // lt51-error@+1 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target map(tofrom from: a) {} #pragma omp target map(close bf: a) // expected-error {{incorrect map type, expected one of 'to', 'from', 'tofrom', 'alloc', 'release', or 'delete'}} {} #pragma omp target map(([b[I]][bf])f) // lt50-error {{expected ',' or ']' in lambda capture list}} lt50-error {{expected ')'}} lt50-note {{to match this '('}} {} 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; }; void SAclient(int arg) { SA s; s.func(arg); // expected-note {{in instantiation of member function}} double marr[10][10][10]; double marr2[5][10][1]; double mvla[5][arg][10]; double ***mptr; const int n = 0; const int m = 1; double mvla2[5][arg][m+n+10]; SB *p; SD u; SC r(p),t(p); #pragma omp target map(r) {} #pragma omp target map(marr[2] [0:2] [0:2]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr[:] [0:2] [0:2]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr[2][3] [0:2]) {} #pragma omp target map(marr[:][:][:]) {} #pragma omp target map(marr[:2][:][:]) {} #pragma omp target map(marr [arg:][:][:]) {} #pragma omp target map(marr [arg:]) {} #pragma omp target map(marr [arg:][:arg][:]) // correct if arg is the size of dimension 2 {} #pragma omp target map(marr[:arg][:]) {} #pragma omp target map(marr[:arg] [n:]) {} #pragma omp target map(marr[:][:arg] [n:]) // correct if arg is the size of dimension 2 {} #pragma omp target map(marr[:][:m] [n:]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr [n:m][:arg] [n:]) {} #pragma omp target map(marr[:2][:1][:]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr[:2] [1:][:]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr[:2][:][:1]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr[:2][:] [1:]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr[:1][:2][:]) {} #pragma omp target map(marr[:1][0][:]) {} #pragma omp target map(marr[:arg][:2][:]) // correct if arg is 1 {} #pragma omp target map(marr[:1] [3:1][:2]) {} #pragma omp target map(marr[:1] [3:arg][:2]) // correct if arg is 1 {} #pragma omp target map(marr[:1] [3:2][:2]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr[:2][:10][:]) {} #pragma omp target map(marr[:2][:][:5 + 5]) {} #pragma omp target map(marr[:2] [2 + 2 - 4:] [0:5 + 5]) {} #pragma omp target map(marr[:1][:2][0]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(marr2[:1][:2][0]) {} #pragma omp target map(mvla[:1][:][0]) // correct if the size of dimension 2 is 1. {} #pragma omp target map(mvla[:2][:arg][:]) // correct if arg is the size of dimension 2. {} #pragma omp target map(mvla[:1][:2][0]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(mvla[1] [2:arg][:]) {} #pragma omp target map(mvla[:1][:][:]) {} #pragma omp target map(mvla2[:1][:2][:11]) {} #pragma omp target map(mvla2[:1][:2][:10]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(mptr[:2] [2 + 2 - 4:1] [0:5 + 5]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(mptr[:1][:2 - 1] [2:4 - 3]) {} #pragma omp target map(mptr[:1][:arg] [2:4 - 3]) // correct if arg is 1. {} #pragma omp target map(mptr[:1][:2 - 1] [0:2]) {} #pragma omp target map(mptr[:1][:2] [0:2]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(mptr[:1][:] [0:2]) // expected-error {{section length is unspecified and cannot be inferred because subscripted value is not an array}} {} #pragma omp target map(mptr[:2][:1] [0:2]) // expected-error {{array section does not specify contiguous storage}} {} #pragma omp target map(r.ArrS[0].B) {} #pragma omp target map(r.ArrS[:1].B) // expected-error {{OpenMP array section is not allowed here}} {} #pragma omp target map(r.ArrS[:arg].B) // expected-error {{OpenMP array section is not allowed here}} {} #pragma omp target map(r.ArrS[0].Arr [1:23]) {} #pragma omp target map(r.ArrS[0].Arr [1:arg]) {} #pragma omp target map(r.ArrS[0].Arr [arg:23]) {} #pragma omp target map(r.ArrS[0].Error) // expected-error {{no member named 'Error' in 'SB'}} {} #pragma omp target map(r.ArrS[0].A, r.ArrS[1].A) // expected-error {{multiple array elements associated with the same variable are not allowed in map clauses of the same construct}} expected-note {{used here}} {} #pragma omp target map(r.ArrS[0].A, t.ArrS[1].A) {} #pragma omp target map(r.PtrS[0], r.PtrS->B) // expected-error {{same pointer dereferenced in multiple different ways in map clause expressions}} expected-note {{used here}} {} #pragma omp target map(r.PtrS, r.PtrS->B) // expected-error {{pointer cannot be mapped along with a section derived from itself}} expected-note {{used here}} {} #pragma omp target map(r.PtrS->A, r.PtrS->B) {} #pragma omp target map(r.RPtrS[0], r.RPtrS->B) // expected-error {{same pointer dereferenced in multiple different ways in map clause expressions}} expected-note {{used here}} {} #pragma omp target map(r.RPtrS, r.RPtrS->B) // expected-error {{pointer cannot be mapped along with a section derived from itself}} expected-note {{used here}} {} #pragma omp target map(r.RPtrS->A, r.RPtrS->B) {} #pragma omp target map(r.S.Arr[:12]) {} #pragma omp target map(r.S.foo() [:12]) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} ge50-error {{expected addressable lvalue in 'map' clause}} {} #pragma omp target map(r.C, r.D) {} #pragma omp target map(r.C, r.C) // expected-error {{variable already marked as mapped in current construct}} expected-note {{used here}} {} #pragma omp target map(r.C) map(r.C) // expected-error {{variable already marked as mapped in current construct}} expected-note {{used here}} {} #pragma omp target map(r.C, r.S) // this would be an error only caught at runtime - Sema would have to make sure there is not way for the missing data between fields to be mapped somewhere else. {} #pragma omp target map(r, r.S) // expected-error {{variable already marked as mapped in current construct}} expected-note {{used here}} {} #pragma omp target map(r.C, t.C) {} #pragma omp target map(r.A) // expected-error {{bit fields cannot be used to specify storage in a 'map' clause}} {} #pragma omp target map(r.Arr) {} #pragma omp target map(r.Arr [3:5]) {} #pragma omp target map(r.Ptr [3:5]) {} #pragma omp target map(r.ArrS [3:5].A) // expected-error {{OpenMP array section is not allowed here}} {} #pragma omp target map(r.ArrS [3:5].Arr [6:7]) // expected-error {{OpenMP array section is not allowed here}} {} #pragma omp target map(r.ArrS[3].Arr [6:7]) {} #pragma omp target map(r.S.Arr [4:5]) {} #pragma omp target map(r.S.Ptr [4:5]) {} #pragma omp target map(r.S.Ptr[:]) // expected-error {{section length is unspecified and cannot be inferred because subscripted value is not an array}} {} #pragma omp target map((p + 1)->A) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} {} #pragma omp target map(u.B) // expected-error {{mapping of union members is not allowed}} {} #pragma omp target { u.B = 0; r.S.foo(); } #pragma omp target data map(to \ : r.C) //expected-note {{used here}} { #pragma omp target map(r.D) // expected-error {{original storage of expression in data environment is shared but data environment do not fully contain mapped expression storage}} {} } #pragma omp target data map(to \ : t.Ptr) //expected-note {{used here}} { #pragma omp target map(t.Ptr[:23]) // expected-error {{pointer cannot be mapped along with a section derived from itself}} {} } #pragma omp target data map(to \ : t.C, t.D) { #pragma omp target data map(to \ : t.C) { #pragma omp target map(t.D) {} } } #pragma omp target data map(marr[:][:][:]) { #pragma omp target data map(marr) {} } #pragma omp target data map(to \ : t) { #pragma omp target data map(to \ : t.C) { #pragma omp target map(t.D) {} } } } void foo() { } bool foobool(int argc) { return argc; } struct S1; // expected-note 2 {{declared here}} 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) { } }; template struct S6; template<> struct S6 { virtual void foo(); }; S3 h; #pragma omp threadprivate(h) // expected-note 2 {{defined as threadprivate or thread local}} typedef int from; struct dim { double x, y; }; template class Array1D { public: unsigned n1; unsigned size; T * dptr; inline T& operator() (unsigned i1) { return dptr[i1]; } Array1D() {n1=0;size=0;dptr=nullptr;} }; template // expected-note {{declared here}} T tmain(T argc) { const T d = 5; const T da[5] = { 0 }; S4 e(4); S5 g(5); T i, t[20]; T &j = i; T *k = &j; T x; T y; T to, tofrom, always, close, present; const T (&l)[5] = da; #pragma omp target map // expected-error {{expected '(' after 'map'}} {} #pragma omp target map( // expected-error {{expected ')'}} expected-note {{to match this '('}} expected-error {{expected expression}} {} #pragma omp target map() // expected-error {{expected expression}} {} #pragma omp target map(alloc) // expected-error {{use of undeclared identifier 'alloc'}} {} #pragma omp target map(to argc // expected-error {{expected ')'}} expected-note {{to match this '('}} expected-error {{expected ',' or ')' in 'map' clause}} {} #pragma omp target map(to:) // expected-error {{expected expression}} {} #pragma omp target map(from: argc, // expected-error {{expected expression}} expected-error {{expected ')'}} expected-note {{to match this '('}} {} #pragma omp target map(x: y) // expected-error {{incorrect map type, expected one of 'to', 'from', 'tofrom', 'alloc', 'release', or 'delete'}} {} #pragma omp target map(x) foo(); #pragma omp target map(tofrom: t[:I]) foo(); #pragma omp target map(T: a) // expected-error {{incorrect map type, expected one of 'to', 'from', 'tofrom', 'alloc', 'release', or 'delete'}} expected-error {{incomplete type 'S1' where a complete type is required}} foo(); #pragma omp target map(T) // expected-error {{'T' does not refer to a value}} foo(); #pragma omp target map(I) // lt50-error 2 {{expected expression containing only member accesses and/or array sections based on named variables}} ge50-error 2 {{expected addressable lvalue in 'map' clause}} foo(); #pragma omp target map(S2::S2s) foo(); #pragma omp target map(S2::S2sc) foo(); #pragma omp target map(x) foo(); #pragma omp target map(to: x) foo(); #pragma omp target map(to: to) foo(); #pragma omp target map(to) foo(); #pragma omp target map(to, x) foo(); #pragma omp target data map(to x) // expected-error {{expected ',' or ')' in 'map' clause}} #pragma omp target data map(tofrom: argc > 0 ? x : y) // lt50-error 2 {{expected expression containing only member accesses and/or array sections based on named variables}} ge50-error 2 {{expected addressable lvalue in 'map' clause}} #pragma omp target data map(argc) #pragma omp target data map(S1) // expected-error {{'S1' does not refer to a value}} #pragma omp target data map(a, b, c, d, f) // expected-error {{incomplete type 'S1' where a complete type is required}} warn-warning 2 {{Type 'const S2' is not trivially copyable and not guaranteed to be mapped correctly}} warn-warning 2 {{Type 'const S3' is not trivially copyable and not guaranteed to be mapped correctly}} #pragma omp target data map(ba) // warn-warning 2 {{Type 'const S2 [5]' is not trivially copyable and not guaranteed to be mapped correctly}} #pragma omp target data map(ca) // warn-warning 2 {{Type 'const S3 [5]' is not trivially copyable and not guaranteed to be mapped correctly}} #pragma omp target data map(da) #pragma omp target data map(S2::S2s) #pragma omp target data map(S2::S2sc) #pragma omp target data map(e, g) // warn-warning 2 {{Type 'S4' is not trivially copyable and not guaranteed to be mapped correctly}} warn-warning 2 {{Type 'S5' is not trivially copyable and not guaranteed to be mapped correctly}} #pragma omp target data map(h) // expected-error {{threadprivate variables are not allowed in 'map' clause}} #pragma omp target data map(k) map(k) // expected-error 2 {{variable already marked as mapped in current construct}} expected-note 2 {{used here}} #pragma omp target map(k), map(k[:5]) // expected-error 2 {{pointer cannot be mapped along with a section derived from itself}} expected-note 2 {{used here}} foo(); #pragma omp target data map(da) #pragma omp target map(da[:4]) foo(); #pragma omp target data map(k, j, l) // expected-note 2 {{used here}} #pragma omp target data map(k[:4]) // expected-error 2 {{pointer cannot be mapped along with a section derived from itself}} #pragma omp target data map(j) #pragma omp target map(l) map(l[:5]) // expected-error 2 {{variable already marked as mapped in current construct}} expected-note 2 {{used here}} foo(); #pragma omp target data map(k[:4], j, l[:5]) // expected-note 2 {{used here}} #pragma omp target data map(k) // expected-error 2 {{pointer cannot be mapped along with a section derived from itself}} #pragma omp target data map(j) #pragma omp target map(l) foo(); #pragma omp target data map(always, tofrom: x) #pragma omp target data map(always: x) // expected-error {{missing map type}} // ge51-error@+3 {{incorrect map type modifier, expected 'always', 'close', 'mapper', or 'present'}} // lt51-error@+2 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} // expected-error@+1 {{missing map type}} #pragma omp target data map(tofrom, always: x) #pragma omp target data map(always, tofrom: always, tofrom, x) #pragma omp target map(tofrom j) // expected-error {{expected ',' or ')' in 'map' clause}} foo(); #pragma omp target data map(close, tofrom: x) #pragma omp target data map(close: x) // expected-error {{missing map type}} // ge51-error@+3 {{incorrect map type modifier, expected 'always', 'close', 'mapper', or 'present'}} // lt51-error@+2 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} // expected-error@+1 {{missing map type}} #pragma omp target data map(tofrom, close: x) #pragma omp target data map(close, tofrom: close, tofrom, x) foo(); // lt51-error@+1 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target data map(present, tofrom: x) // ge51-error@+2 {{missing map type}} // lt51-error@+1 {{incorrect map type, expected one of 'to', 'from', 'tofrom', 'alloc', 'release', or 'delete'}} #pragma omp target data map(present: x) // ge51-error@+4 {{incorrect map type modifier, expected 'always', 'close', 'mapper', or 'present'}} // lt51-error@+3 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} // ge51-error@+2 {{missing map type}} // lt51-error@+1 {{incorrect map type, expected one of 'to', 'from', 'tofrom', 'alloc', 'release', or 'delete'}} #pragma omp target data map(tofrom, present: x) // lt51-error@+1 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target data map(present, tofrom: present, tofrom, x) foo(); T marr[10][10], iarr[5]; #pragma omp target data map(marr[10][0:2:2]) // expected-error {{expected ']'}} expected-note {{to match this '['}} {} #pragma omp target data map(iarr[:2:d]) // expected-error {{expected ']'}} expected-note {{to match this '['}} {} return 0; } struct SA1{ int a; struct SA1 *p; int b[10]; }; struct SB1{ int a; struct SA1 s; struct SA1 sa[10]; struct SA1 *sp[10]; struct SA1 *p; }; struct SC1{ int a; struct SB1 s; struct SB1 *p; int b[10]; }; class S8 { public: virtual void foo() = 0; } *s8; class S9 { public: virtual void foo() {} } s9; int main(int argc, char **argv) { const int d = 5; const int da[5] = { 0 }; S4 e(4); S5 g(5); int i; int &j = i; int *k = &j; S6 m; int x; int y; int to, tofrom, always, close, present; const int (&l)[5] = da; SC1 s; SC1 *p; int Arr[10]; #pragma omp target data map // expected-error {{expected '(' after 'map'}} lt50-error {{expected at least one 'map' or 'use_device_ptr' clause for '#pragma omp target data'}} ge50-error {{expected at least one 'map', 'use_device_ptr', or 'use_device_addr' clause for '#pragma omp target data'}} #pragma omp target data map( // expected-error {{expected ')'}} expected-note {{to match this '('}} expected-error {{expected expression}} #pragma omp target data map() // expected-error {{expected expression}} #pragma omp target data map(alloc) // expected-error {{use of undeclared identifier 'alloc'}} #pragma omp target data map(to argc // expected-error {{expected ')'}} expected-note {{to match this '('}} expected-error {{expected ',' or ')' in 'map' clause}} #pragma omp target data map(to:) // expected-error {{expected expression}} #pragma omp target data map(from: argc, // expected-error {{expected expression}} expected-error {{expected ')'}} expected-note {{to match this '('}} #pragma omp target data map(x: y) // expected-error {{incorrect map type, expected one of 'to', 'from', 'tofrom', 'alloc', 'release', or 'delete'}} #pragma omp target map(x) foo(); #pragma omp target map(to: x) foo(); #pragma omp target map(to: to) foo(); #pragma omp target map(to) foo(); #pragma omp target map(to, x) foo(); #pragma omp target data map(to x) // expected-error {{expected ',' or ')' in 'map' clause}} #pragma omp target data map(tofrom: argc > 0 ? argv[1] : argv[2]) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} ge50-error {{expected addressable lvalue in 'map' clause}} #pragma omp target data map(argc) #pragma omp target data map(S1) // expected-error {{'S1' does not refer to a value}} #pragma omp target data map(a, b, c, d, f) // expected-error {{incomplete type 'S1' where a complete type is required}} warn-warning {{Type 'const S2' is not trivially copyable and not guaranteed to be mapped correctly}} warn-warning {{Type 'const S3' is not trivially copyable and not guaranteed to be mapped correctly}} #pragma omp target data map(argv[1]) #pragma omp target data map(ba) // warn-warning {{Type 'const S2 [5]' is not trivially copyable and not guaranteed to be mapped correctly}} #pragma omp target data map(ca) // warn-warning {{Type 'const S3 [5]' is not trivially copyable and not guaranteed to be mapped correctly}} #pragma omp target data map(da) #pragma omp target data map(S2::S2s) #pragma omp target data map(S2::S2sc) #pragma omp target data map(e, g) // warn-warning {{Type 'S4' is not trivially copyable and not guaranteed to be mapped correctly}} warn-warning {{Type 'S5' is not trivially copyable and not guaranteed to be mapped correctly}} #pragma omp target data map(h) // expected-error {{threadprivate variables are not allowed in 'map' clause}} #pragma omp target data map(k), map(k) // expected-error {{variable already marked as mapped in current construct}} expected-note {{used here}} #pragma omp target map(k), map(k[:5]) // expected-error {{pointer cannot be mapped along with a section derived from itself}} expected-note {{used here}} foo(); #pragma omp target data map(da) #pragma omp target map(da[:4]) foo(); #pragma omp target data map(k, j, l) // expected-note {{used here}} #pragma omp target data map(k[:4]) // expected-error {{pointer cannot be mapped along with a section derived from itself}} #pragma omp target data map(j) #pragma omp target map(l) map(l[:5]) // expected-error {{variable already marked as mapped in current construct}} expected-note {{used here}} foo(); #pragma omp target data map(k[:4], j, l[:5]) // expected-note {{used here}} #pragma omp target data map(k) // expected-error {{pointer cannot be mapped along with a section derived from itself}} #pragma omp target data map(j) #pragma omp target map(l) foo(); #pragma omp target data map(always, tofrom: x) #pragma omp target data map(always: x) // expected-error {{missing map type}} // ge51-error@+3 {{incorrect map type modifier, expected 'always', 'close', 'mapper', or 'present'}} // lt51-error@+2 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} // expected-error@+1 {{missing map type}} #pragma omp target data map(tofrom, always: x) #pragma omp target data map(always, tofrom: always, tofrom, x) #pragma omp target map(tofrom j) // expected-error {{expected ',' or ')' in 'map' clause}} foo(); #pragma omp target data map(close, tofrom: x) #pragma omp target data map(close: x) // expected-error {{missing map type}} // ge51-error@+3 {{incorrect map type modifier, expected 'always', 'close', 'mapper', or 'present'}} // lt51-error@+2 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} // expected-error@+1 {{missing map type}} #pragma omp target data map(tofrom, close: x) foo(); // lt51-error@+1 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} #pragma omp target data map(present, tofrom: x) // ge51-error@+2 {{missing map type}} // lt51-error@+1 {{incorrect map type, expected one of 'to', 'from', 'tofrom', 'alloc', 'release', or 'delete'}} #pragma omp target data map(present: x) // ge51-error@+4 {{incorrect map type modifier, expected 'always', 'close', 'mapper', or 'present'}} // lt51-error@+3 {{incorrect map type modifier, expected 'always', 'close', or 'mapper'}} // ge51-error@+2 {{missing map type}} // lt51-error@+1 {{incorrect map type, expected one of 'to', 'from', 'tofrom', 'alloc', 'release', or 'delete'}} #pragma omp target data map(tofrom, present: x) foo(); #pragma omp target private(j) map(j) // expected-error {{private variable cannot be in a map clause in '#pragma omp target' directive}} expected-note {{defined as private}} {} #pragma omp target firstprivate(j) map(j) // expected-error {{firstprivate variable cannot be in a map clause in '#pragma omp target' directive}} expected-note {{defined as firstprivate}} {} #pragma omp target map(m) // warn-warning {{Type 'S6' is not trivially copyable and not guaranteed to be mapped correctly}} {} // expected-note@+1 {{used here}} #pragma omp target map(s.s.s) // expected-error@+1 {{variable already marked as mapped in current construct}} { s.a++; } // expected-note@+1 {{used here}} #pragma omp target map(s.s.s.a) // expected-error@+1 {{variable already marked as mapped in current construct}} { s.a++; } // expected-note@+1 {{used here}} #pragma omp target map(s.b[:5]) // expected-error@+1 {{variable already marked as mapped in current construct}} { s.a++; } #pragma omp target map(s.p[:5]) { s.a++; } // expected-note@+1 {{used here}} #pragma omp target map(s.s.sa[3].a) // expected-error@+1 {{variable already marked as mapped in current construct}} { s.a++; } // expected-note@+1 {{used here}} #pragma omp target map(s.s.sp[3]->a) // expected-error@+1 {{variable already marked as mapped in current construct}} { s.a++; } // expected-note@+1 {{used here}} #pragma omp target map(s.p->a) // expected-error@+1 {{variable already marked as mapped in current construct}} { s.a++; } // expected-note@+1 {{used here}} #pragma omp target map(s.s.p->a) // expected-error@+1 {{variable already marked as mapped in current construct}} { s.a++; } // expected-note@+1 {{used here}} #pragma omp target map(s.s.s.b[:2]) // expected-error@+1 {{variable already marked as mapped in current construct}} { s.a++; } // expected-note@+1 {{used here}} #pragma omp target map(s.s.p->b[:2]) // expected-error@+1 {{variable already marked as mapped in current construct}} { s.a++; } // expected-note@+1 {{used here}} #pragma omp target map(s.p->p->p->a) // expected-error@+1 {{variable already marked as mapped in current construct}} { s.a++; } #pragma omp target map(s.s.s.b[:2]) { s.s.s.b[0]++; } #pragma omp target map(s8[0:1], s9) // warn-warning {{Type 'class S8' is not trivially copyable and not guaranteed to be mapped correctly}} warn-warning {{Type 'class S9' is not trivially copyable and not guaranteed to be mapped correctly}} {} int **BB, *offset, *a; #pragma omp target map(**(BB+*offset)) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} {} #pragma omp target map(**(BB+y)) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} {} #pragma omp target map(*(a+*offset)) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} {} #pragma omp target map(**(*offset+BB)) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} {} #pragma omp target map(**(y+BB)) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} {} #pragma omp target map(*(*offset+a)) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} {} #pragma omp target map(**(*offset+BB+*a)) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} {} #pragma omp target map(**(*(*(&offset))+BB+*a)) // lt50-error {{expected expression containing only member accesses and/or array sections based on named variables}} {} #pragma omp target map(*(a+(a))) // expected-error {{invalid operands to binary expression ('int *' and 'int *')}} {} #pragma omp target map(*(1+*a+*a)) // expected-error {{indirection requires pointer operand ('int' invalid)}} {} #pragma omp target map(delete: a) // expected-error {{map type 'delete' is not allowed for '#pragma omp target'}} {} #pragma omp target map(release: a) // expected-error {{map type 'release' is not allowed for '#pragma omp target'}} {} int marr[10][10], iarr[5]; #pragma omp target map(marr[10][0:2:2]) // expected-error {{expected ']'}} expected-note {{to match this '['}} {} #pragma omp target map(iarr[:2:d]) // expected-error {{expected ']'}} expected-note {{to match this '['}} {} #pragma omp target data map(Arr[0:4]) // lt50-note {{used here}} { #pragma omp target Arr[0] = 2; // lt50-error {{original storage of expression in data environment is shared but data environment do not fully contain mapped expression storage}} } Array1D pos; #pragma omp target enter data map(to:pos) #pragma omp target enter data map(to:pos.dptr[0:pos.size]) #pragma omp target teams distribute parallel for for(int i=0; i<100; i++) { pos(i).x = i; pos(i).y = i+1; } return tmain(argc)+tmain(argc); // expected-note {{in instantiation of function template specialization 'tmain' requested here}} expected-note {{in instantiation of function template specialization 'tmain' requested here}} } #endif