Blame - python/pyarmnn/test/test_tflite_parser.py - ml/armnn

blob: 8735eef3fb6e609f351b4c8ab59bca558820aa20 [file] [log] [blame]

Richard Burton	dc0c6ed	2020-04-08 16:39:05 +0100	[diff] [blame]	1	# Copyright © 2020 Arm Ltd. All rights reserved.
				2	# SPDX-License-Identifier: MIT
				3	import os
				4
				5	import pytest
				6	import pyarmnn as ann
				7	import numpy as np
				8
				9
Jan Eilers	841aca1	2020-08-12 14:59:06 +0100	[diff] [blame]	10	def test_TfLiteParserOptions_default_values():
				11	parserOptions = ann.TfLiteParserOptions()
				12	assert parserOptions.m_InferAndValidate == False
				13	assert parserOptions.m_StandInLayerForUnsupported == False
				14
				15
Richard Burton	dc0c6ed	2020-04-08 16:39:05 +0100	[diff] [blame]	16	@pytest.fixture()
				17	def parser(shared_data_folder):
				18	"""
				19	Parse and setup the test network to be used for the tests below
				20	"""
				21	parser = ann.ITfLiteParser()
				22	parser.CreateNetworkFromBinaryFile(os.path.join(shared_data_folder, 'mock_model.tflite'))
				23
				24	yield parser
				25
				26
				27	def test_tflite_parser_swig_destroy():
				28	assert ann.ITfLiteParser.__swig_destroy__, "There is a swig python destructor defined"
				29	assert ann.ITfLiteParser.__swig_destroy__.__name__ == "delete_ITfLiteParser"
				30
				31
				32	def test_check_tflite_parser_swig_ownership(parser):
				33	# Check to see that SWIG has ownership for parser. This instructs SWIG to take
				34	# ownership of the return value. This allows the value to be automatically
				35	# garbage-collected when it is no longer in use
				36	assert parser.thisown
				37
				38
Jan Eilers	841aca1	2020-08-12 14:59:06 +0100	[diff] [blame]	39	def test_tflite_parser_with_optional_options():
				40	parserOptions = ann.TfLiteParserOptions()
				41	parserOptions.m_InferAndValidate = True
				42	parser = ann.ITfLiteParser(parserOptions)
				43	assert parser.thisown
				44
				45
				46	def create_with_opt() :
				47	parserOptions = ann.TfLiteParserOptions()
				48	parserOptions.m_InferAndValidate = True
				49	return ann.ITfLiteParser(parserOptions)
				50
				51	def test_tflite_parser_with_optional_options_out_of_scope(shared_data_folder):
				52	parser = create_with_opt()
				53	network = parser.CreateNetworkFromBinaryFile(os.path.join(shared_data_folder, "mock_model.tflite"))
				54
				55	graphs_count = parser.GetSubgraphCount()
				56	graph_id = graphs_count - 1
				57
				58	input_names = parser.GetSubgraphInputTensorNames(graph_id)
				59	input_binding_info = parser.GetNetworkInputBindingInfo(graph_id, input_names[0])
				60
				61	output_names = parser.GetSubgraphOutputTensorNames(graph_id)
				62
				63	preferred_backends = [ann.BackendId('CpuAcc'), ann.BackendId('CpuRef')]
				64
				65	options = ann.CreationOptions()
				66	runtime = ann.IRuntime(options)
				67
				68	opt_network, messages = ann.Optimize(network, preferred_backends, runtime.GetDeviceSpec(), ann.OptimizerOptions())
				69	assert 0 == len(messages)
				70
				71	net_id, messages = runtime.LoadNetwork(opt_network)
				72	assert "" == messages
				73
				74
Richard Burton	dc0c6ed	2020-04-08 16:39:05 +0100	[diff] [blame]	75	def test_tflite_get_sub_graph_count(parser):
				76	graphs_count = parser.GetSubgraphCount()
				77	assert graphs_count == 1
				78
				79
				80	def test_tflite_get_network_input_binding_info(parser):
				81	graphs_count = parser.GetSubgraphCount()
				82	graph_id = graphs_count - 1
				83
				84	input_names = parser.GetSubgraphInputTensorNames(graph_id)
				85
				86	input_binding_info = parser.GetNetworkInputBindingInfo(graph_id, input_names[0])
				87
				88	tensor = input_binding_info[1]
				89	assert tensor.GetDataType() == 2
				90	assert tensor.GetNumDimensions() == 4
				91	assert tensor.GetNumElements() == 784
				92	assert tensor.GetQuantizationOffset() == 128
				93	assert tensor.GetQuantizationScale() == 0.007843137718737125
				94
				95
				96	def test_tflite_get_network_output_binding_info(parser):
				97	graphs_count = parser.GetSubgraphCount()
				98	graph_id = graphs_count - 1
				99
				100	output_names = parser.GetSubgraphOutputTensorNames(graph_id)
				101
				102	output_binding_info1 = parser.GetNetworkOutputBindingInfo(graph_id, output_names[0])
				103
				104	# Check the tensor info retrieved from GetNetworkOutputBindingInfo
				105	tensor1 = output_binding_info1[1]
				106
				107	assert tensor1.GetDataType() == 2
				108	assert tensor1.GetNumDimensions() == 2
				109	assert tensor1.GetNumElements() == 10
				110	assert tensor1.GetQuantizationOffset() == 0
				111	assert tensor1.GetQuantizationScale() == 0.00390625
				112
				113
				114	def test_tflite_get_subgraph_input_tensor_names(parser):
				115	graphs_count = parser.GetSubgraphCount()
				116	graph_id = graphs_count - 1
				117
				118	input_names = parser.GetSubgraphInputTensorNames(graph_id)
				119
				120	assert input_names == ('input_1',)
				121
				122
				123	def test_tflite_get_subgraph_output_tensor_names(parser):
				124	graphs_count = parser.GetSubgraphCount()
				125	graph_id = graphs_count - 1
				126
				127	output_names = parser.GetSubgraphOutputTensorNames(graph_id)
				128
				129	assert output_names[0] == 'dense/Softmax'
				130
				131
				132	def test_tflite_filenotfound_exception(shared_data_folder):
				133	parser = ann.ITfLiteParser()
				134
				135	with pytest.raises(RuntimeError) as err:
				136	parser.CreateNetworkFromBinaryFile(os.path.join(shared_data_folder, 'some_unknown_network.tflite'))
				137
				138	# Only check for part of the exception since the exception returns
				139	# absolute path which will change on different machines.
				140	assert 'Cannot find the file' in str(err.value)
				141
				142
				143	def test_tflite_parser_end_to_end(shared_data_folder):
				144	parser = ann.ITfLiteParser()
				145
				146	network = parser.CreateNetworkFromBinaryFile(os.path.join(shared_data_folder, "mock_model.tflite"))
				147
				148	graphs_count = parser.GetSubgraphCount()
				149	graph_id = graphs_count - 1
				150
				151	input_names = parser.GetSubgraphInputTensorNames(graph_id)
				152	input_binding_info = parser.GetNetworkInputBindingInfo(graph_id, input_names[0])
				153
				154	output_names = parser.GetSubgraphOutputTensorNames(graph_id)
				155
				156	preferred_backends = [ann.BackendId('CpuAcc'), ann.BackendId('CpuRef')]
				157
				158	options = ann.CreationOptions()
				159	runtime = ann.IRuntime(options)
				160
				161	opt_network, messages = ann.Optimize(network, preferred_backends, runtime.GetDeviceSpec(), ann.OptimizerOptions())
				162	assert 0 == len(messages)
				163
				164	net_id, messages = runtime.LoadNetwork(opt_network)
				165	assert "" == messages
				166
				167	# Load test image data stored in input_lite.npy
				168	input_tensor_data = np.load(os.path.join(shared_data_folder, 'tflite_parser/input_lite.npy'))
				169	input_tensors = ann.make_input_tensors([input_binding_info], [input_tensor_data])
				170
				171	output_tensors = []
				172	for index, output_name in enumerate(output_names):
				173	out_bind_info = parser.GetNetworkOutputBindingInfo(graph_id, output_name)
				174	out_tensor_info = out_bind_info[1]
				175	out_tensor_id = out_bind_info[0]
				176	output_tensors.append((out_tensor_id,
				177	ann.Tensor(out_tensor_info)))
				178
				179	runtime.EnqueueWorkload(net_id, input_tensors, output_tensors)
				180
				181	output_vectors = []
				182	for index, out_tensor in enumerate(output_tensors):
				183	output_vectors.append(out_tensor[1].get_memory_area())
				184
				185	# Load golden output file for result comparison.
				186	expected_outputs = np.load(os.path.join(shared_data_folder, 'tflite_parser/golden_output_lite.npy'))
				187
				188	# Check that output matches golden output
				189	assert (expected_outputs == output_vectors[0]).all()