/external/stlport/test/unit/ |
plusminus_test.cpp | 33 int input1 [4] = { 1, 6, 11, 8 }; local 36 int total = inner_product(input1, input1 + 4, input2, 0, plus<int>(), multiplies <int>()); 42 int input1 [4] = { 1, 5, 7, 8 }; local 47 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, minus<int>());
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logic_test.cpp | 35 bool input1 [4] = { true, true, false, true }; local 39 transform((bool*)input1, (bool*)input1 + 4, (bool*)input2, (bool*)output, logical_and<bool>()); 55 bool input1 [4] = { true, true, false, true }; local 59 transform((bool*)input1, (bool*)input1 + 4, (bool*)input2, (bool*)output, logical_or<bool>());
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modulus_test.cpp | 30 int input1 [4] = { 6, 8, 10, 2 }; local 35 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, modulus<int>());
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neq_test.cpp | 44 int input1 [4] = { 1, 7, 2, 2 }; local 48 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, not_equal_to<int>());
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ptr2_test.cpp | 45 int input1 [4] = { 7, 2, 3, 5 }; local 49 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, pointer_to_binary_function<int, int, int>(sum)); 58 int input1 [4] = { 7, 2, 3, 5 }; local 62 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, ptr_fun(sum));
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/ndk/tests/device/test-gnustl-full/unit/ |
plusminus_test.cpp | 33 int input1 [4] = { 1, 6, 11, 8 }; local 36 int total = inner_product(input1, input1 + 4, input2, 0, plus<int>(), multiplies <int>()); 42 int input1 [4] = { 1, 5, 7, 8 }; local 47 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, minus<int>());
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logic_test.cpp | 35 bool input1 [4] = { true, true, false, true }; local 39 transform((bool*)input1, (bool*)input1 + 4, (bool*)input2, (bool*)output, logical_and<bool>()); 55 bool input1 [4] = { true, true, false, true }; local 59 transform((bool*)input1, (bool*)input1 + 4, (bool*)input2, (bool*)output, logical_or<bool>());
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modulus_test.cpp | 30 int input1 [4] = { 6, 8, 10, 2 }; local 35 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, modulus<int>());
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neq_test.cpp | 44 int input1 [4] = { 1, 7, 2, 2 }; local 48 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, not_equal_to<int>());
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ptr2_test.cpp | 45 int input1 [4] = { 7, 2, 3, 5 }; local 49 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, pointer_to_binary_function<int, int, int>(sum)); 58 int input1 [4] = { 7, 2, 3, 5 }; local 62 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, ptr_fun(sum));
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/ndk/tests/device/test-stlport/unit/ |
plusminus_test.cpp | 33 int input1 [4] = { 1, 6, 11, 8 }; local 36 int total = inner_product(input1, input1 + 4, input2, 0, plus<int>(), multiplies <int>()); 42 int input1 [4] = { 1, 5, 7, 8 }; local 47 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, minus<int>());
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logic_test.cpp | 35 bool input1 [4] = { true, true, false, true }; local 39 transform((bool*)input1, (bool*)input1 + 4, (bool*)input2, (bool*)output, logical_and<bool>()); 55 bool input1 [4] = { true, true, false, true }; local 59 transform((bool*)input1, (bool*)input1 + 4, (bool*)input2, (bool*)output, logical_or<bool>());
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modulus_test.cpp | 30 int input1 [4] = { 6, 8, 10, 2 }; local 35 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, modulus<int>());
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neq_test.cpp | 44 int input1 [4] = { 1, 7, 2, 2 }; local 48 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, not_equal_to<int>());
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ptr2_test.cpp | 45 int input1 [4] = { 7, 2, 3, 5 }; local 49 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, pointer_to_binary_function<int, int, int>(sum)); 58 int input1 [4] = { 7, 2, 3, 5 }; local 62 transform((int*)input1, (int*)input1 + 4, (int*)input2, (int*)output, ptr_fun(sum));
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/external/sqlite/android/ |
PhoneNumberUtilsTest.cpp | 34 #define EXPECT(function, input1, input2, expected, total, error) \ 36 const char *i1_cache = input1; \ 51 #define EXPECT_EQ(input1, input2) \ 52 EXPECT(phone_number_compare_strict, (input1), (input2), true, \ 56 #define EXPECT_NE(input1, input2) \ 57 EXPECT(phone_number_compare_strict, (input1), (input2), false, \
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/frameworks/compile/libbcc/runtime/test/timing/ |
divdi3.c | 16 INPUT_TYPE FUNCTION_NAME(INPUT_TYPE input1, INPUT_TYPE input2); 19 INPUT_TYPE input1[INPUT_SIZE]; local 27 input1[i] = (((int64_t)rand() << 36) | (uint64_t)rand()) >> (rand() & 63); 39 FUNCTION_NAME(input1[i], input2[i]);
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moddi3.c | 16 INPUT_TYPE FUNCTION_NAME(INPUT_TYPE input1, INPUT_TYPE input2); 19 INPUT_TYPE input1[INPUT_SIZE]; local 27 input1[i] = (((int64_t)rand() << 36) | (uint64_t)rand()) >> (rand() & 63); 39 FUNCTION_NAME(input1[i], input2[i]);
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muldi3.c | 16 INPUT_TYPE FUNCTION_NAME(INPUT_TYPE input1, INPUT_TYPE input2); 19 INPUT_TYPE input1[INPUT_SIZE]; local 27 input1[i] = (((int64_t)rand() << 36) | (uint64_t)rand()) >> (rand() & 63); 39 FUNCTION_NAME(input1[i], input2[i]);
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udivdi3.c | 16 INPUT_TYPE FUNCTION_NAME(INPUT_TYPE input1, INPUT_TYPE input2); 19 INPUT_TYPE input1[INPUT_SIZE]; local 27 input1[i] = (((uint64_t)rand() << 36) | (uint64_t)rand()) >> (rand() & 63); 39 FUNCTION_NAME(input1[i], input2[i]);
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umoddi3.c | 16 INPUT_TYPE FUNCTION_NAME(INPUT_TYPE input1, INPUT_TYPE input2); 19 INPUT_TYPE input1[INPUT_SIZE]; local 27 input1[i] = (((uint64_t)rand() << 36) | (uint64_t)rand()) >> (rand() & 63); 39 FUNCTION_NAME(input1[i], input2[i]);
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/external/webkit/Source/WebCore/svg/ |
SVGFETileElement.cpp | 88 FilterEffect* input1 = filterBuilder->getEffectById(in1()); local 90 if (!input1) 94 effect->inputEffects().append(input1);
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SVGFEComponentTransferElement.cpp | 83 FilterEffect* input1 = filterBuilder->getEffectById(in1()); local 85 if (!input1) 105 effect->inputEffects().append(input1);
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SVGFEBlendElement.cpp | 130 FilterEffect* input1 = filterBuilder->getEffectById(in1()); local 133 if (!input1 || !input2) 139 inputEffects.append(input1);
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/external/chromium/crypto/ |
sha2_unittest.cc | 12 std::string input1 = "abc"; local 23 crypto::SHA256HashString(input1, output1, sizeof(output1)); 28 crypto::SHA256HashString(input1, 37 std::string input1 = "abc"; local 47 std::string output1 = crypto::SHA256HashString(input1);
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