| /frameworks/ml/nn/runtime/test/specs/V1_3/ |
| D | split_quant8_signed.mod.py | 22 output2 = Output("output2", "TENSOR_QUANT8_ASYMM_SIGNED", "{2}, 1.0, -128") variable
25 (output0, output1, output2))
32 output2: [-123, -122],
66 output2 = Output("output2", "TENSOR_QUANT8_ASYMM_SIGNED", "{2, 1}, 2.0, -125") variable
69 (output0, output1, output2))
76 output2: [-125, -122],
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| D | expand_dims_quant8_signed.mod.py | 21 output2 = Output("output", "TENSOR_FLOAT32", "{2, 2, 1}") variable
22 output3 = output2
26 model2 = Model().Operation("EXPAND_DIMS", input0, 2).To(output2)
33 (model2, output2),
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| /frameworks/ml/nn/runtime/test/specs/V1_2/ |
| D | expand_dims.mod.py | 21 output2 = Output("output", "TENSOR_FLOAT32", "{2, 2, 1}") variable
22 output3 = output2
26 model2 = Model().Operation("EXPAND_DIMS", input0, 2).To(output2)
33 (model2, output2),
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| D | split_quant8_3.mod.py | 23 output2 = Output("output2", "TENSOR_QUANT8_ASYMM", "{2, 1}, 2.0, 3") variable
25 model = Model().Operation("SPLIT", input0, axis, num_splits).To((output0, output1, output2))
35 output2: [3, 6],
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| D | split_int32_1.mod.py | 23 output2 = Output("output2", "TENSOR_INT32", "{2}") variable
25 model = Model().Operation("SPLIT", input0, axis, num_splits).To((output0, output1, output2))
34 output2: [5, 6],
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| D | split_float_3.mod.py | 23 output2 = Output("output2", "TENSOR_FLOAT32", "{2, 1}") variable
25 model = Model().Operation("SPLIT", input0, axis, num_splits).To((output0, output1, output2))
35 output2: [3.0, 6.0],
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| D | split_float_1.mod.py | 23 output2 = Output("output2", "TENSOR_FLOAT32", "{2}") variable
25 model = Model().Operation("SPLIT", input0, axis, num_splits).To((output0, output1, output2))
34 output2: [5.0, 6.0],
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| D | split_quant8_1.mod.py | 23 output2 = Output("output2", "TENSOR_QUANT8_ASYMM", "{2}, 1.0, 0") variable
25 model = Model().Operation("SPLIT", input0, axis, num_splits).To((output0, output1, output2))
34 output2: [5, 6],
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| D | split_int32_3.mod.py | 23 output2 = Output("output2", "TENSOR_INT32", "{2, 1}") variable
25 model = Model().Operation("SPLIT", input0, axis, num_splits).To((output0, output1, output2))
35 output2: [3, 6],
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| /frameworks/ml/nn/runtime/test/ |
| D | TestTrivialModel.cpp | 215 Matrix3x4 output1, output2; in TEST_F() local
217 memset(&output2, 0, sizeof(output2)); in TEST_F()
234 ASSERT_EQ(execution2.setOutput(0, output2, sizeof(Matrix3x4)), Result::NO_ERROR); in TEST_F()
245 ASSERT_EQ(CompareMatrices(expected3b, output2), 0); in TEST_F()
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| /frameworks/base/tests/net/java/com/android/server/connectivity/ |
| D | IpConnectivityMetricsTest.java | 98 String output2 = getdump("flush"); in testBufferFlushing() local
99 assertFalse("".equals(output2)); in testBufferFlushing()
123 String output2 = getdump("flush"); in testRateLimiting() local
124 assertEquals("", output2); in testRateLimiting()
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| /frameworks/av/services/audiopolicy/common/managerdefinitions/src/ |
| D | AudioOutputDescriptor.cpp | 600 const sp<SwAudioOutputDescriptor>& output2, in openDuplicating() argument
606 *ioHandle = mClientInterface->openDuplicateOutput(output2->mIoHandle, output1->mIoHandle); in openDuplicating()
614 mOutput2 = output2; in openDuplicating()
615 mSamplingRate = output2->mSamplingRate; in openDuplicating()
616 mFormat = output2->mFormat; in openDuplicating()
617 mChannelMask = output2->mChannelMask; in openDuplicating()
618 mLatency = output2->mLatency; in openDuplicating()
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| /frameworks/av/services/audiopolicy/service/ |
| D | AudioPolicyClientImpl.cpp | 56 audio_io_handle_t output2) in openDuplicateOutput() argument
63 return af->openDuplicateOutput(output1, output2); in openDuplicateOutput()
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| D | AudioPolicyService.h | 643 …irtual audio_io_handle_t openDuplicateOutput(audio_io_handle_t output1, audio_io_handle_t output2);
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| D | AudioPolicyService.cpp | 1862 audio_io_handle_t output2);
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| /frameworks/ml/nn/runtime/test/fibonacci_extension/ |
| D | FibonacciExtensionTest.cpp | 310 uint32_t output2 = mModel.addOperand(&outputType); // Extra output. in TEST_F() local
313 {input}, {output1, output2}); in TEST_F()
314 mModel.identifyInputsAndOutputs({input}, {output1, output2}); in TEST_F()
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| /frameworks/base/media/tests/MediaFrameworkTest/src/com/android/mediaframeworktest/integration/ |
| D | CameraDeviceBinderTest.java | 322 OutputConfiguration output2 = new OutputConfiguration(surface2); in testCreateStreamTwo() local
324 int streamId2 = mCameraUser.createStream(output2); in testCreateStreamTwo()
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| /frameworks/av/services/audiopolicy/ |
| D | AudioPolicyInterface.h | 318 …al audio_io_handle_t openDuplicateOutput(audio_io_handle_t output1, audio_io_handle_t output2) = 0;
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| /frameworks/av/media/libaudioclient/ |
| D | IAudioFlinger.cpp | 428 audio_io_handle_t output2) in openDuplicateOutput() argument
433 data.writeInt32((int32_t) output2); in openDuplicateOutput()
1245 audio_io_handle_t output2 = (audio_io_handle_t) data.readInt32(); in onTransact() local
1246 reply->writeInt32((int32_t) openDuplicateOutput(output1, output2)); in onTransact()
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| /frameworks/av/services/audiopolicy/common/managerdefinitions/include/ |
| D | AudioOutputDescriptor.h | 370 const sp<SwAudioOutputDescriptor>& output2,
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| /frameworks/av/media/libaudioclient/include/media/ |
| D | IAudioFlinger.h | 412 audio_io_handle_t output2) = 0;
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| /frameworks/av/services/audioflinger/ |
| D | AudioFlinger.h | 187 audio_io_handle_t output2);
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| D | AudioFlinger.cpp | 2554 audio_io_handle_t output2) in openDuplicateOutput() argument
2558 MixerThread *thread2 = checkMixerThread_l(output2); in openDuplicateOutput()
2562 output2); in openDuplicateOutput()
|