/external/libcxx/test/numerics/numarray/template.slice.array/slice.arr.fill/ |
H A D | assign_value.pass.cpp | 22 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 23 v1[std::slice(1, 5, 3)] = 20; 24 assert(v1.size() == 16); 25 assert(v1[ 0] == 0); 26 assert(v1[ 1] == 20); 27 assert(v1[ 2] == 2); 28 assert(v1[ 3] == 3); 29 assert(v1[ 4] == 20); 30 assert(v1[ 5] == 5); 31 assert(v1[ [all...] |
/external/libcxx/test/numerics/numarray/template.valarray/valarray.sub/ |
H A D | slice_non_const.pass.cpp | 23 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 25 v1[std::slice(1, 5, 3)] = v2; 26 assert(v1.size() == 16); 27 assert(v1[ 0] == 0); 28 assert(v1[ 1] == -1); 29 assert(v1[ 2] == 2); 30 assert(v1[ 3] == 3); 31 assert(v1[ 4] == -2); 32 assert(v1[ 5] == 5); 33 assert(v1[ [all...] |
H A D | gslice_const.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 0); 40 assert(v1[ 4] == -1); 41 assert(v1[ 5] == -2); 42 assert(v1[ [all...] |
/external/libcxx/test/numerics/numarray/template.gslice.array/gslice.array.assign/ |
H A D | gslice_array.pass.cpp | 29 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 35 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 39 assert(v1.size() == 41); 40 assert(v1[ 0] == 0); 41 assert(v1[ 1] == 1); 42 assert(v1[ 2] == 2); 43 assert(v1[ 3] == -3); 44 assert(v1[ 4] == -4); 45 assert(v1[ 5] == -5); 46 assert(v1[ [all...] |
H A D | valarray.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 0); 40 assert(v1[ 4] == -1); 41 assert(v1[ 5] == -2); 42 assert(v1[ [all...] |
/external/libcxx/test/numerics/numarray/template.gslice.array/gslice.array.comp.assign/ |
H A D | addition.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 3); 40 assert(v1[ 4] == 3); 41 assert(v1[ 5] == 3); 42 assert(v1[ [all...] |
H A D | and.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 1); 40 assert(v1[ 4] == 0); 41 assert(v1[ 5] == 1); 42 assert(v1[ [all...] |
H A D | divide.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 3); 40 assert(v1[ 4] == 2); 41 assert(v1[ 5] == 1); 42 assert(v1[ [all...] |
H A D | modulo.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 0); 40 assert(v1[ 4] == 0); 41 assert(v1[ 5] == 2); 42 assert(v1[ [all...] |
H A D | multiply.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 3); 40 assert(v1[ 4] == 8); 41 assert(v1[ 5] == 15); 42 assert(v1[ [all...] |
H A D | or.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 3); 40 assert(v1[ 4] == 6); 41 assert(v1[ 5] == 7); 42 assert(v1[ [all...] |
H A D | shift_left.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 6); 40 assert(v1[ 4] == 16); 41 assert(v1[ 5] == 40); 42 assert(v1[ [all...] |
H A D | shift_right.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 1); 40 assert(v1[ 4] == 1); 41 assert(v1[ 5] == 0); 42 assert(v1[ [all...] |
H A D | subtraction.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 2); 40 assert(v1[ 4] == 2); 41 assert(v1[ 5] == 2); 42 assert(v1[ [all...] |
H A D | xor.pass.cpp | 27 std::valarray<int> v1(a1, sizeof(a1)/sizeof(a1[0])); 33 v1[std::gslice(3, sizes(sz, sizeof(sz)/sizeof(sz[0])), 35 assert(v1.size() == 41); 36 assert(v1[ 0] == 0); 37 assert(v1[ 1] == 1); 38 assert(v1[ 2] == 2); 39 assert(v1[ 3] == 2); 40 assert(v1[ 4] == 6); 41 assert(v1[ 5] == 6); 42 assert(v1[ [all...] |
/external/libcxx/test/numerics/numarray/template.indirect.array/indirect.array.assign/ |
H A D | indirect_array.pass.cpp | 34 std::valarray<int> v1(a1, N1); 37 v1[ia] = v2[ia]; 38 assert(v1.size() == 41); 39 assert(v1[ 0] == 0); 40 assert(v1[ 1] == 1); 41 assert(v1[ 2] == 2); 42 assert(v1[ 3] == -3); 43 assert(v1[ 4] == -4); 44 assert(v1[ 5] == -5); 45 assert(v1[ [all...] |
/external/llvm/test/MC/AArch64/ |
H A D | neon-across.s | 9 saddlv h0, v1.8b 10 saddlv h0, v1.16b 11 saddlv s0, v1.4h 12 saddlv s0, v1.8h 13 saddlv d0, v1.4s 15 // CHECK: saddlv h0, v1.8b // encoding: [0x20,0x38,0x30,0x0e] 16 // CHECK: saddlv h0, v1.16b // encoding: [0x20,0x38,0x30,0x4e] 17 // CHECK: saddlv s0, v1.4h // encoding: [0x20,0x38,0x70,0x0e] 18 // CHECK: saddlv s0, v1.8h // encoding: [0x20,0x38,0x70,0x4e] 19 // CHECK: saddlv d0, v1 [all...] |
/external/stlport/test/unit/ |
H A D | nthelm_test.cpp | 51 vector <int> v1(numbers, numbers+10); 52 nth_element(v1.begin(), v1.begin() + v1.size() / 2, v1.end()); 54 CPPUNIT_ASSERT(v1[0]==1); 55 CPPUNIT_ASSERT(v1[1]==1); 56 CPPUNIT_ASSERT(v1[2]==4); 57 CPPUNIT_ASSERT(v1[3]==2); 58 CPPUNIT_ASSERT(v1[ [all...] |
/external/libcxx/test/numerics/numarray/template.mask.array/mask.array.assign/ |
H A D | mask_array.pass.cpp | 29 std::valarray<int> v1(a1, N1); 33 v1[vb1] = v2[vb2]; 34 assert(v1.size() == 16); 35 assert(v1[ 0] == -1); 36 assert(v1[ 1] == 1); 37 assert(v1[ 2] == 2); 38 assert(v1[ 3] == -3); 39 assert(v1[ 4] == -4); 40 assert(v1[ 5] == 5); 41 assert(v1[ [all...] |
H A D | valarray.pass.cpp | 27 std::valarray<int> v1(a1, N1); 31 v1[vb] = v2; 32 assert(v1.size() == 16); 33 assert(v1[ 0] == 1); 34 assert(v1[ 1] == 1); 35 assert(v1[ 2] == 2); 36 assert(v1[ 3] == 2); 37 assert(v1[ 4] == 3); 38 assert(v1[ 5] == 5); 39 assert(v1[ [all...] |
/external/libcxx/test/numerics/numarray/template.mask.array/mask.array.comp.assign/ |
H A D | addition.pass.cpp | 27 std::valarray<int> v1(a1, N1); 31 v1[vb] += v2; 32 assert(v1.size() == 16); 33 assert(v1[ 0] == 1); 34 assert(v1[ 1] == 1); 35 assert(v1[ 2] == 2); 36 assert(v1[ 3] == 5); 37 assert(v1[ 4] == 7); 38 assert(v1[ 5] == 5); 39 assert(v1[ [all...] |
H A D | and.pass.cpp | 27 std::valarray<int> v1(a1, N1); 31 v1[vb] &= v2; 32 assert(v1.size() == 16); 33 assert(v1[ 0] == 0); 34 assert(v1[ 1] == 1); 35 assert(v1[ 2] == 2); 36 assert(v1[ 3] == 2); 37 assert(v1[ 4] == 0); 38 assert(v1[ 5] == 5); 39 assert(v1[ [all...] |
H A D | divide.pass.cpp | 27 std::valarray<int> v1(a1, N1); 31 v1[vb] /= v2; 32 assert(v1.size() == 16); 33 assert(v1[ 0] == 0); 34 assert(v1[ 1] == 1); 35 assert(v1[ 2] == 2); 36 assert(v1[ 3] == 1); 37 assert(v1[ 4] == 1); 38 assert(v1[ 5] == 5); 39 assert(v1[ [all...] |
H A D | modulo.pass.cpp | 27 std::valarray<int> v1(a1, N1); 31 v1[vb] %= v2; 32 assert(v1.size() == 16); 33 assert(v1[ 0] == 0); 34 assert(v1[ 1] == 1); 35 assert(v1[ 2] == 2); 36 assert(v1[ 3] == 1); 37 assert(v1[ 4] == 1); 38 assert(v1[ 5] == 5); 39 assert(v1[ [all...] |
H A D | multiply.pass.cpp | 27 std::valarray<int> v1(a1, N1); 31 v1[vb] *= v2; 32 assert(v1.size() == 16); 33 assert(v1[ 0] == 0); 34 assert(v1[ 1] == 1); 35 assert(v1[ 2] == 2); 36 assert(v1[ 3] == 6); 37 assert(v1[ 4] == 12); 38 assert(v1[ 5] == 5); 39 assert(v1[ [all...] |