| /external/tensorflow/tensorflow/lite/kernels/ |
| comparisons_test.cc | 38 ComparisonOpModel(const TensorData& input1, const TensorData& input2,
41 input2_ = AddInput(input2);
48 int input2() { return input2_; } function in class:tflite::__anon46006::ComparisonOpModel
99 model.PopulateTensor<bool>(model.input2(), {true, true, false, false});
110 model.PopulateTensor<float>(model.input2(), {0.1, 0.2, 0.6, 0.5});
121 model.PopulateTensor<int>(model.input2(), {1, 2, 7, 5});
132 model.PopulateTensor<int>(model.input2(), {7});
143 model.PopulateTensor<int>(model.input2(), {7, 1, 2, 4});
155 model.PopulateTensor<bool>(model.input2(), {true, true, false, false});
166 model.PopulateTensor<float>(model.input2(), {0.1, 0.2, 0.6, 0.5})
[all...] |
| mfcc_test.cc | 40 BaseMfccOpModel(const TensorData& input1, const TensorData& input2,
43 input2_ = AddInput(input2);
60 int input2() { return input2_; } function in class:tflite::ops::custom::__anon46066::BaseMfccOpModel
80 m.PopulateTensor<int>(m.input2(), {22050});
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| mul_test.cc | 28 BaseMulOpModel(const TensorData& input1, const TensorData& input2,
32 input2_ = AddInput(input2);
40 int input2() { return input2_; } function in class:tflite::__anon46069::BaseMulOpModel
93 m.PopulateTensor<float>(m.input2(), {0.1, 0.2, 0.3, 0.5});
104 m.PopulateTensor<float>(m.input2(), {0.1, 0.2, 0.3, 5});
118 m.PopulateTensor<float>(m.input2(), {0.1, 0.2, 0.3, 0.5, 1.1, 0.1});
135 m.PopulateTensor<float>(m.input2(), {0.1});
149 m.PopulateTensor<int32_t>(m.input2(), {1, 2, 3, 5});
159 m.PopulateTensor<int32_t>(m.input2(), {1, 2, 3, 5});
172 m.PopulateTensor<int32_t>(m.input2(), {1, 2, 3, 5, 11, 1})
[all...] |
| logical_test.cc | 38 int input2() { return input2_; } function in class:tflite::__anon46060::LogicalOpModel
68 model.PopulateTensor<bool>(model.input2(), {true, false, true, false});
78 model.PopulateTensor<bool>(model.input2(), {false});
88 model.PopulateTensor<bool>(model.input2(), {true, false, true, false});
98 model.PopulateTensor<bool>(model.input2(), {true});
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| sub.cc | 146 const TfLiteTensor* input2, TfLiteTensor* output,
157 TF_LITE_ENSURE_EQ(context, input2->params.zero_point, 0);
167 CheckedLog2(input2->params.scale, &input2_scale_log2_rounded);
198 const TfLiteTensor* input2 = GetInput(context, node, kInputTensor2); local
201 TF_LITE_ENSURE_EQ(context, input1->type, input2->type);
202 output->type = input2->type;
204 data->requires_broadcast = !HaveSameShapes(input1, input2);
209 context, input1, input2, &output_size));
215 TF_LITE_ENSURE_OK(context, Prepare8BitSubOp(context, input1, input2, output,
218 TF_LITE_ENSURE_OK(context, PrepareInt16SubOp(context, input1, input2,
348 const TfLiteTensor* input2 = GetInput(context, node, kInputTensor2); local
[all...] |
| maximum_minimum.cc | 41 input2 = GetInput(context, node, kInputTensor2);
45 const TfLiteTensor* input2; member in struct:tflite::ops::builtin::maximum_minimum::OpContext
54 TF_LITE_ENSURE_EQ(context, op_context.input1->type, op_context.input2->type);
58 !HaveSameShapes(op_context.input1, op_context.input2);
64 op_context.input2, &output_size));
92 GetTensorShape(op_context.input2),
93 GetTensorData<data_type>(op_context.input2),
|
| sub_test.cc | 28 BaseSubOpModel(const TensorData& input1, const TensorData& input2,
32 input2_ = AddInput(input2);
40 int input2() { return input2_; } function in class:tflite::__anon46105::BaseSubOpModel
94 m.PopulateTensor<float>(m.input2(), {0.1, 0.2, 0.3, 0.8});
105 m.PopulateTensor<float>(m.input2(), {0.1, 0.2, 0.3, 0.8});
119 m.PopulateTensor<float>(m.input2(), {0.1, 0.2, 0.3, 0.8, -1.1, 0.1});
136 m.PopulateTensor<float>(m.input2(), {0.5});
150 m.PopulateTensor<int32_t>(m.input2(), {1, 2, 3, 5});
160 m.PopulateTensor<int32_t>(m.input2(), {1, 2, 3, 5});
173 m.PopulateTensor<int32_t>(m.input2(), {1, 2, 3, 5, 11, 1})
[all...] |
| maximum_minimum_test.cc | 29 const TensorData& input2, const TensorType& output) {
31 input2_ = AddInput(input2);
62 const TensorData& input2, const TensorData& output,
66 MaxMinOpModel m(op, input1, input2, output.type);
76 const TensorData& input2, const TensorData& output,
80 MaxMinOpModel m(op, input1, input2, output.type);
|
| add_test.cc | 28 BaseAddOpModel(const TensorData& input1, const TensorData& input2,
32 input2_ = AddInput(input2);
40 int input2() { return input2_; } function in class:tflite::__anon45993::BaseAddOpModel
94 m.PopulateTensor<float>(m.input2(), {0.1, 0.2, 0.3, 0.5});
104 m.PopulateTensor<float>(m.input2(), {0.1, 0.2, 0.3, 0.5});
117 m.PopulateTensor<float>(m.input2(), {0.1, 0.2, 0.3, 0.5, 1.1, 0.1});
133 m.PopulateTensor<float>(m.input2(), {0.1});
147 m.PopulateTensor<int32_t>(m.input2(), {1, 2, 3, 5});
157 m.PopulateTensor<int32_t>(m.input2(), {1, 2, 3, 5});
170 m.PopulateTensor<int32_t>(m.input2(), {1, 2, 3, 5, 11, 1})
[all...] |
| detection_postprocess_test.cc | 41 const TensorData& input2,
48 input2_ = AddInput(input2);
74 int input2() { return input2_; } function in class:tflite::ops::custom::__anon46011::BaseDetectionPostprocessOpModel
210 m.QuantizeAndPopulate<uint8_t>(m.input2(), inputs2[0]);
252 const TensorData& input1, const TensorData& input2,
257 input2_ = AddInput(input2);
285 int input2() { return input2_; } function in class:tflite::ops::custom::__anon46011::DetectionPostprocessOpModelwithRegularNMS
421 m.QuantizeAndPopulate<uint8_t>(m.input2(), inputs2[0]);
533 m.QuantizeAndPopulate<uint8_t>(m.input2(), inputs2[0]);
|
| kernel_util.cc | 200 bool HaveSameShapes(const TfLiteTensor* input1, const TfLiteTensor* input2) {
201 return TfLiteIntArrayEqual(input1->dims, input2->dims);
209 const TfLiteTensor* input2,
212 int64_t dims2 = NumDimensions(input2);
222 int64_t d2 = i >= dims2 ? 1 : SizeOfDimension(input2, dims2 - i - 1);
|
| /external/tensorflow/tensorflow/python/kernel_tests/ |
| string_join_op_test.py | 31 input2 = [["b"], ["c"]]
46 output = string_ops.string_join([input2] * 2, separator="")
50 string_ops.string_join([input0, input2]).eval()
|
| /external/eigen/unsupported/test/ |
| cxx11_tensor_custom_op.cpp | 62 DSizes<DenseIndex, 3> dimensions(const Tensor<float, 3>& input1, const Tensor<float, 3>& input2) const {
65 result[1] = input2.dimension(1);
66 result[2] = input2.dimension(2);
71 void eval(const Tensor<float, 3>& input1, const Tensor<float, 3>& input2,
78 output.template chip<2>(i).device(device) = input1.chip<2>(i).contract(input2.chip<2>(i), dims);
|
| cxx11_tensor_ref.cpp | 52 Tensor<int, 1> input2(6);
53 input2.setRandom();
55 TensorRef<Tensor<int, 1>> ref3(input1 + input2);
56 TensorRef<Tensor<int, 1>> ref4 = input1 + input2;
60 VERIFY_IS_NOT_EQUAL(ref3.data(), input2.data());
61 VERIFY_IS_NOT_EQUAL(ref4.data(), input2.data());
64 VERIFY_IS_EQUAL(ref3(i), input1(i) + input2(i));
65 VERIFY_IS_EQUAL(ref4(i), input1(i) + input2(i));
|
| /external/webrtc/webrtc/modules/audio_coding/codecs/isac/fix/source/ |
| lattice_mips.c | 122 // *ptr2 = input2 * (*ptr2) + input0 * (*ptr0));
129 int32_t input2, // Inverse coeff (1/input1)
169 "mult $ac0, %[t0], %[input2] \n\t"
170 "mult $ac1, %[t1], %[input2] \n\t"
171 "mult $ac2, %[t2], %[input2] \n\t"
172 "mult $ac3, %[t3], %[input2] \n\t"
221 "mult $ac0, %[t0], %[input2] \n\t"
241 [input2] "r" (input2)
255 "sra %[t16a], %[input2], 16 \n\t
[all...] |
| /external/skia/tests/ |
| GrSKSLPrettyPrintTest.cpp | 17 const SkString input2("{nowin a function;{indenting;{abit more;dreadedfor((;;)(;)((;;);)){"
94 testStr.push_back(input2.c_str());
95 lengths.push_back((int)input2.size());
|
| /external/skqp/tests/ |
| GrSKSLPrettyPrintTest.cpp | 17 const SkString input2("{nowin a function;{indenting;{abit more;dreadedfor((;;)(;)((;;);)){"
94 testStr.push_back(input2.c_str());
95 lengths.push_back((int)input2.size());
|
| /external/libchrome/crypto/ |
| secure_hash_unittest.cc | 38 std::string input2(10001, 'd'); // 'd' repeated 10001 times
62 // Updating ctx1 and ctx2 with input2 should produce equivalent results.
63 ctx1->Update(input2.data(), input2.size());
66 ctx2->Update(input2.data(), input2.size());
86 std::string input2(10001, 'd'); // 'd' repeated 10001 times
91 // Call Update() twice on input1 and input2.
95 ctx1->Update(input2.data(), input2.size())
[all...] |
| /external/libprotobuf-mutator/src/libfuzzer/ |
| libfuzzer_macro.cc | 108 const InputReader& input2, OutputWriter* output,
114 input2.Read(message2);
136 TextInputReader input2(data2, size2);
138 return CrossOverMessages(seed, input1, input2, &output, message1, message2);
154 BinaryInputReader input2(data2, size2);
156 return CrossOverMessages(seed, input1, input2, &output, message1, message2);
172 protobuf::Message* input2) {
175 input2);
|
| libfuzzer_macro.h | 51 Proto input2; \
53 max_out_size, seed, &input1, &input2); \
84 protobuf::Message* input2);
|
| /external/adhd/cras/src/dsp/ |
| dsp_util.c | 86 static void interleave_stereo(float *input1, float *input2,
99 "ld1 {v1.4s}, [%[input2]], #16 \n"
112 [input2]"+r"(input2),
127 f = *input2++ * 32768.0f;
190 static void interleave_stereo(float *input1, float *input2,
205 "vld1.32 {d4-d5}, [%[input2]]! \n"
226 [input2]"+r"(input2),
242 f = *input2++ * 32768.0f
[all...] |
| /external/tensorflow/tensorflow/lite/toco/ |
| toco_convert_test.cc | 80 input: "input2"
108 name: "input2"
115 input: "input2"
|
| /external/tensorflow/tensorflow/compiler/tests/ |
| clustering_test.py | 44 input2 = constant_op.constant(val2, name="const2")
45 output = math_ops.add(input1, input2)
56 input2 = constant_op.constant(val2, name="const2")
58 output = math_ops.add(input1, input2)
|
| /art/test/565-checker-doublenegbitwise/src/ |
| Main.java | 42 public static <T> T $noinline$runSmaliTest(String name, Class<T> klass, T input1, T input2) {
49 return inputKlass.cast(m.invoke(null, input1, input2));
|
| /external/tensorflow/tensorflow/core/kernels/ |
| stateful_random_ops_cpu_gpu.h | 37 PHILOX_DEVICE_INLINE int64 Uint32sToInt64(uint32 input1, uint32 input2) {
39 auto u64_2 = static_cast<uint64>(input2);
|
