Source code for mindspore.train.callback._summary_collector

# Copyright 2020 Huawei Technologies Co., Ltd
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"""Summary collector callback."""

import os
import re
import json
from json.decoder import JSONDecodeError

from importlib import import_module

import numpy as np

from mindspore import log as logger
from mindspore import context
from mindspore.common.tensor import Tensor
from mindspore.common.parameter import Parameter
from mindspore.train.summary.summary_record import SummaryRecord
from mindspore.train.summary.enums import PluginEnum, ModeEnum
from mindspore.train.callback import Callback, ModelCheckpoint
from mindspore.train import lineage_pb2
from mindspore.train.callback._dataset_graph import DatasetGraph
from mindspore.nn.optim.optimizer import Optimizer
from mindspore.nn.loss.loss import _Loss
from mindspore.train._utils import check_value_type

HYPER_CONFIG_ENV_NAME = "MINDINSIGHT_HYPER_CONFIG"
HYPER_CONFIG_LEN_LIMIT = 100000


class LineageMetadata:
    """Initialize parameters used in model lineage management."""
    train_dataset_path = 'train_dataset_path'
    valid_dataset_path = 'valid_dataset_path'
    train_network = 'train_network'
    loss_function = 'loss_function'
    loss = 'loss'
    optimizer = 'optimizer'
    learning_rate = 'learning_rate'
    epoch = 'epoch'
    step_num = 'step_num'
    parallel_mode = 'parallel_mode'
    device_num = 'device_num'
    batch_size = 'batch_size'
    model_path = 'model_path'
    model_ckpt = 'model_ckpt'
    model_size = 'model_size'
    metrics = 'metrics'
    train_dataset_size = 'train_dataset_size'
    valid_dataset_size = 'valid_dataset_size'


[docs]class SummaryCollector(Callback): """ SummaryCollector can help you to collect some common information. It can help you to collect loss, learning late, computational graph and so on. SummaryCollector also enables the summary operator to collect data from a summary file. Note: 1. Multiple SummaryCollector instances in callback list are not allowed. 2. Not all information is collected at the training phase or at the eval phase. 3. SummaryCollector always record the data collected by the summary operator. 4. SummaryCollector only supports Linux systems. Args: summary_dir (str): The collected data will be persisted to this directory. If the directory does not exist, it will be created automatically. collect_freq (int): Set the frequency of data collection, it should be greater then zero, and the unit is `step`. Default: 10. If a frequency is set, we will collect data when (current steps % freq) equals to 0, and the first step will be collected at any time. It is important to note that if the data sink mode is used, the unit will become the `epoch`. It is not recommended to collect data too frequently, which can affect performance. collect_specified_data (Union[None, dict]): Perform custom operations on the collected data. Default: None. By default, if set to None, all data is collected as the default behavior. You can customize the collected data with a dictionary. For example, you can set {'collect_metric': False} to control not collecting metrics. The data that supports control is shown below. - collect_metric: Whether to collect training metrics, currently only the loss is collected. The first output will be treated as the loss and it will be averaged. Optional: True/False. Default: True. - collect_graph: Whether to collect the computational graph. Currently, only training computational graph is collected. Optional: True/False. Default: True. - collect_train_lineage: Whether to collect lineage data for the training phase, this field will be displayed on the lineage page of Mindinsight. Optional: True/False. Default: True. - collect_eval_lineage: Whether to collect lineage data for the evaluation phase, this field will be displayed on the lineage page of Mindinsight. Optional: True/False. Default: True. - collect_input_data: Whether to collect dataset for each training. Currently only image data is supported. Optional: True/False. Default: True. - collect_dataset_graph: Whether to collect dataset graph for the training phase. Optional: True/False. Default: True. - histogram_regular: Collect weight and bias for parameter distribution page and displayed in MindInsight. This field allows regular strings to control which parameters to collect. Default: None, it means only the first five parameters are collected. It is not recommended to collect too many parameters at once, as it can affect performance. Note that if you collect too many parameters and run out of memory, the training will fail. keep_default_action (bool): This field affects the collection behavior of the 'collect_specified_data' field. Optional: True/False, Default: True. True: it means that after specified data is set, non-specified data is collected as the default behavior. False: it means that after specified data is set, only the specified data is collected, and the others are not collected. custom_lineage_data (Union[dict, None]): Allows you to customize the data and present it on the MingInsight lineage page. In the custom data, the type of the key supports str, and the type of value supports str, int and float. Default: None, it means there is no custom data. collect_tensor_freq (Optional[int]): The same semantics as the `collect_freq`, but controls TensorSummary only. Because TensorSummary data is too large to be compared with other summary data, this parameter is used to reduce its collection. By default, The maximum number of steps for collecting TensorSummary data is 20, but it will not exceed the number of steps for collecting other summary data. Default: None, which means to follow the behavior as described above. For example, given `collect_freq=10`, when the total steps is 600, TensorSummary will be collected 20 steps, while other summary data 61 steps, but when the total steps is 20, both TensorSummary and other summary will be collected 3 steps. Also note that when in parallel mode, the total steps will be splitted evenly, which will affect the number of steps TensorSummary will be collected. max_file_size (Optional[int]): The maximum size in bytes of each file that can be written to the disk. Default: None, which means no limit. For example, to write not larger than 4GB, specify `max_file_size=4 * 1024**3`. Raises: ValueError: If the parameter value is not expected. TypeError: If the parameter type is not expected. RuntimeError: If an error occurs during data collection. Examples: >>> # Simple usage: >>> from mindspore.train import Model >>> summary_collector = SummaryCollector(summary_dir='./summary_dir') >>> dataset = get_dataset('/path/to/MNIST') >>> network = LeNet5() >>> model = Model(network) >>> model.train(epoch=1, dataset=dataset, callbacks=summary_collector) >>> >>> # Do not collect metric and collect the first layer parameter, others are collected by default >>> specified={'collect_metric': False, 'histogram_regular': '^conv1.*'} >>> summary_collector = SummaryCollector(summary_dir='./summary_dir', collect_specified_data=specified) >>> model.train(epoch=1, dataset=dataset, callbacks=summary_collector) >>> >>> # Only collect metric, custom lineage data and record data that collected by the summary operator, >>> # others are not collected >>> specified = {'collect_metric': True} >>> summary_collector = SummaryCollector('./summary_dir', >>> collect_specified_data=specified, >>> keep_default_action=False, >>> custom_lineage_data={'version': 'resnet50_v1'} >>> ) >>> model.train(epoch=1, dataset=dataset, callbacks=summary_collector) """ _DEFAULT_SPECIFIED_DATA = { 'collect_metric': True, 'collect_graph': True, 'collect_train_lineage': True, 'collect_eval_lineage': True, 'collect_input_data': True, 'collect_dataset_graph': True, 'histogram_regular': None } def __init__(self, summary_dir, collect_freq=10, collect_specified_data=None, keep_default_action=True, custom_lineage_data=None, collect_tensor_freq=None, max_file_size=None): super(SummaryCollector, self).__init__() self._summary_dir = self._process_summary_dir(summary_dir) self._record = None self._check_positive('collect_freq', collect_freq) self._collect_freq = collect_freq self._check_positive('collect_tensor_freq', collect_tensor_freq, allow_none=True) self._collect_tensor_freq = collect_tensor_freq self._tensor_collect_range = None self._check_positive('max_file_size', max_file_size, allow_none=True) self._max_file_size = max_file_size self._check_action(keep_default_action) self._collect_specified_data = self._process_specified_data(collect_specified_data, keep_default_action) msg = f"For 'collect_specified_data' the value after processing is: {self._collect_specified_data}." logger.info(msg) self._custom_lineage_data = self._process_custom_lineage_data(custom_lineage_data) self._temp_optimizer = None self._has_saved_graph = False self._has_saved_custom_data = False self._is_parse_loss_success = True self._first_step = True self._dataset_sink_mode = True def __enter__(self): self._record = SummaryRecord(log_dir=self._summary_dir, max_file_size=self._max_file_size) self._first_step, self._dataset_sink_mode = True, True return self def __exit__(self, *err): self._record.close() @staticmethod def _process_summary_dir(summary_dir): """Check the summary dir, and create a new directory if it not exists.""" check_value_type('summary_dir', summary_dir, str) summary_dir = summary_dir.strip() if not summary_dir: raise ValueError('For `summary_dir` the value should be a valid string of path, but got empty string.') summary_dir = os.path.realpath(summary_dir) if not os.path.exists(summary_dir): os.makedirs(summary_dir, exist_ok=True) else: if not os.path.isdir(summary_dir): raise NotADirectoryError('For `summary_dir` it should be a directory path.') return summary_dir @staticmethod def _check_positive(name, value, allow_none=False): """Check if the value to be int type and positive.""" if allow_none and value is None: return check_value_type(name, value, int) if value <= 0: raise ValueError(f'For `{name}` the value should be greater than 0, but got `{value}`.') def _process_custom_lineage_data(self, custom_lineage_data): """ Check user custom lineage data. Args: custom_lineage_data (dict): The user custom defined data. Raises: TypeError: If the type of parameters is invalid. """ if custom_lineage_data is None: custom_lineage_data = {} self._check_custom_lineage_type('custom_lineage_data', custom_lineage_data) auto_custom_lineage_data = self._collect_optimizer_custom_lineage_data() self._check_custom_lineage_type('auto_custom_lineage_data', auto_custom_lineage_data) # the priority of user defined info is higher than auto collected info auto_custom_lineage_data.update(custom_lineage_data) custom_lineage_data = auto_custom_lineage_data return custom_lineage_data def _check_custom_lineage_type(self, param_name, custom_lineage): """Check custom lineage type.""" check_value_type(param_name, custom_lineage, [dict, type(None)]) for key, value in custom_lineage.items(): check_value_type(f'{param_name} -> {key}', key, str) check_value_type(f'the value of {param_name} -> {key}', value, (int, str, float)) def _collect_optimizer_custom_lineage_data(self): """Collect custom lineage data if mindoptimizer has set the hyper config""" auto_custom_lineage_data = {} hyper_config = os.environ.get(HYPER_CONFIG_ENV_NAME) if hyper_config is None: logger.debug("Hyper config is not in system environment.") return auto_custom_lineage_data if len(hyper_config) > HYPER_CONFIG_LEN_LIMIT: logger.warning("Hyper config is too long. The length limit is %s, the length of " "hyper_config is %s." % (HYPER_CONFIG_LEN_LIMIT, len(hyper_config))) return auto_custom_lineage_data try: hyper_config = json.loads(hyper_config) except (TypeError, JSONDecodeError) as exc: logger.warning("Hyper config decode error. Detail: %s." % str(exc)) return auto_custom_lineage_data custom_lineage_data = hyper_config.get("custom_lineage_data") if custom_lineage_data is None: logger.info("No custom lineage data in hyper config. Please check the custom lineage data " "if custom parameters exist in the configuration file.") auto_custom_lineage_data = custom_lineage_data if custom_lineage_data is not None else {} return auto_custom_lineage_data @staticmethod def _check_action(action): """Check action type.""" check_value_type('keep_default_action', action, bool) def _process_specified_data(self, specified_data, action): """Check specified data type and value.""" if specified_data is None: if action: return dict(self._DEFAULT_SPECIFIED_DATA) return dict() check_value_type('collect_specified_data', specified_data, [dict, type(None)]) for param_name in specified_data: check_value_type(param_name, param_name, [str]) unexpected_params = set(specified_data) - set(self._DEFAULT_SPECIFIED_DATA) if unexpected_params: raise ValueError(f'For `collect_specified_data` the keys {unexpected_params} are unsupported, ' f'expect the follow keys: {list(self._DEFAULT_SPECIFIED_DATA.keys())}') if 'histogram_regular' in specified_data: check_value_type('histogram_regular', specified_data.get('histogram_regular'), (str, type(None))) bool_items = set(self._DEFAULT_SPECIFIED_DATA) - {'histogram_regular'} for item in bool_items: if item in specified_data: check_value_type(item, specified_data.get(item), bool) if action: result = dict(self._DEFAULT_SPECIFIED_DATA) result.update(specified_data) else: result = specified_data return result def begin(self, run_context): cb_params = run_context.original_args() self._check_callbacks(cb_params) if cb_params.mode not in ModeEnum.to_list(): raise ValueError('Only support `train` (model.train) and `eval` (model.eval) mode, ' 'but got `{cb_params.mode}` mode.') self._record.set_mode(cb_params.mode) def step_end(self, run_context): cb_params = run_context.original_args() if cb_params.mode != ModeEnum.TRAIN.value: return if not self._has_saved_graph: self._collect_graphs(cb_params) self._collect_dataset_graph(cb_params) self._has_saved_graph = True self._record.record(cb_params.cur_step_num) if self._custom_lineage_data and not self._has_saved_custom_data: packaged_custom_data = self._package_custom_lineage_data(self._custom_lineage_data) self._record.add_value('custom_lineage_data', 'custom_lineage_data', packaged_custom_data) self._has_saved_custom_data = True self._record.record(cb_params.cur_step_num) if self._first_step: # Notice: This way of determining whether dataset sink mode is True does not work in the eval scenario self._dataset_sink_mode = cb_params.cur_step_num == cb_params.batch_num self._tensor_collect_range = self._get_tensor_collect_range(cb_params, self._dataset_sink_mode) self._collect_at_step_end(cb_params, plugin_filter=None) self._first_step = False self._record.flush() else: current = cb_params.cur_epoch_num if self._dataset_sink_mode else cb_params.cur_step_num if current % self._collect_freq == 0 and current in self._tensor_collect_range: self._collect_at_step_end(cb_params, plugin_filter=None) elif current in self._tensor_collect_range: self._collect_at_step_end(cb_params, lambda plugin: plugin == PluginEnum.TENSOR.value) elif current % self._collect_freq == 0: self._collect_at_step_end(cb_params, lambda plugin: plugin != PluginEnum.TENSOR.value) def _get_tensor_collect_range(self, cb_params, dataset_sink_mode): """Get tensor collect range.""" total_step = cb_params.epoch_num if not dataset_sink_mode: total_step *= cb_params.batch_num if self._collect_tensor_freq is not None: # `total_step + 1`: `total_step` would be a value of `cb_params.cur_step_num`. return range(0, total_step + 1, self._collect_tensor_freq) summary_to_collect = len(range(0, total_step + 1, self._collect_freq)) default_tensor_summary_limit = 20 if summary_to_collect > default_tensor_summary_limit: tensor_freq = total_step // (default_tensor_summary_limit - 1) if tensor_freq > 1: return range(0, total_step + 1, tensor_freq)[:default_tensor_summary_limit] # `cb_params.cur_step_num` counting from `1`, when `1` is in the range, take `1` more steps. return range(0, total_step + 1)[:default_tensor_summary_limit + 1] return range(0, total_step + 1, self._collect_freq) def _collect_at_step_end(self, cb_params, plugin_filter): self._collect_input_data(cb_params) self._collect_metric(cb_params) self._collect_histogram(cb_params) self._record.record(cb_params.cur_step_num, plugin_filter=plugin_filter) def epoch_end(self, run_context): self._record.flush() def end(self, run_context): cb_params = run_context.original_args() if cb_params.mode == ModeEnum.TRAIN.value: self._collect_train_lineage(cb_params) else: self._collect_eval_lineage(cb_params) # This is a workaround to avoid record '_summary_tensor_cache'. self._record.set_mode('eval') # There's nothing special about setting step to 0 here, just to satisfy the interface call self._record.record(step=0) def _check_callbacks(self, cb_params): """Check there if there are duplicate instances of SummaryCollector.""" callbacks = cb_params.list_callback is_find = False for callback in callbacks: if type(callback).__name__ == self.__class__.__name__: if not is_find: is_find = True continue raise ValueError(f"There are more than one {self.__class__.__name__} instance in callback list," f"but expected only one {self.__class__.__name__} instance.") @staticmethod def _package_custom_lineage_data(custom_lineage_data): """ Package user-defined lineage data into binary data. Args: custom_lineage_data (dict): User custom lineage data. Returns: UserDefinedInfo, a object of lineage_pb2.UserDefinedInfo. """ user_defined_info = lineage_pb2.UserDefinedInfo() for key, value in custom_lineage_data.items(): if isinstance(value, int): attr_name = "map_int32" elif isinstance(value, float): attr_name = "map_double" else: attr_name = "map_str" user_info = user_defined_info.user_info.add() getattr(user_info, attr_name)[key] = value return user_defined_info def _collect_input_data(self, cb_params): """Only support to collect image data.""" if not self._collect_specified_data.get('collect_input_data'): return if self._dataset_sink_mode and context.get_context('device_target') == 'Ascend': self._collect_specified_data['collect_input_data'] = False logger.warning('On Ascend device, SummaryCollector is not supported to record input data ' 'in dataset sink mode.') return input_data = getattr(cb_params, 'train_dataset_element', None) if input_data is None: self._collect_specified_data['collect_input_data'] = False logger.info("The 'train_dataset_element' in cb_params is None, " "so 'SummaryCollector' will not record the input data.") return if isinstance(input_data, (list, tuple)) and input_data: input_data = input_data[0] try: self._record.add_value(PluginEnum.IMAGE.value, 'input_data/auto', input_data) except (TypeError, ValueError): logger.warning('The input data of network are not image, so will not collect by SummaryCollector.') self._collect_specified_data['collect_input_data'] = False return def _collect_dataset_graph(self, cb_params): """Only collect train dataset graph.""" if not self._collect_specified_data.get('collect_dataset_graph'): return # After analysis, we think that the validated dataset graph and the training dataset graph # should be consistent under normal scenarios, so only the training dataset graph is collected. if cb_params.mode == ModeEnum.TRAIN.value: train_dataset = cb_params.train_dataset dataset_graph = DatasetGraph() graph_bytes = dataset_graph.package_dataset_graph(train_dataset) self._record.add_value('dataset_graph', 'train_dataset', graph_bytes) def _collect_graphs(self, cb_params): """Collect the graph of train network and eval network.""" if not self._collect_specified_data.get('collect_graph'): return network = cb_params.train_network if cb_params.mode == ModeEnum.TRAIN.value else cb_params.eval_network graph_proto = network.get_func_graph_proto() if graph_proto is None: return self._record.add_value(PluginEnum.GRAPH.value, 'train_network/auto', graph_proto) def _collect_metric(self, cb_params): """Collect metric, currently only collection Loss is supported.""" if not self._collect_specified_data.get('collect_metric'): return loss = self._get_loss(cb_params) if loss is None: return try: self._record.add_value(PluginEnum.SCALAR.value, 'loss/auto', loss) except ValueError: logger.warning("The output of network is not a scalar, so will not collect loss in SummaryCollector.") self._collect_specified_data['collect_metric'] = False def _get_loss(self, cb_params): """ Get loss from the network output. Args: cb_params (_InternalCallbackParam): Callback parameters. Returns: Union[Tensor, None], if parse loss success, will return a Tensor value(shape is [1]), else return None. """ if not self._is_parse_loss_success: # If parsing has failed before, avoid repeating it return None output = cb_params.net_outputs if output is None: logger.warning("Can not find any output by this network, so will not collect loss in SummaryCollector.") self._is_parse_loss_success = False return None if isinstance(output, (int, float, Tensor)): loss = output elif isinstance(output, (list, tuple)) and output: # If the output is a list, since the default network returns loss first, # we assume that the first one is loss. loss = output[0] else: logger.warning("The output type could not be identified, so no loss was recorded in SummaryCollector.") self._is_parse_loss_success = False return None if not isinstance(loss, Tensor): loss = Tensor(loss) loss = Tensor(np.mean(loss.asnumpy())) return loss def _get_optimizer(self, cb_params): """ Get optimizer from the cb_params or parse from the network. Args: cb_params (_InternalCallbackParam): Callback parameters. Returns: Union[Optimizer, None], if parse optimizer success, will return a optimizer, else return None. """ # 'optimizer_failed' means find optimizer failed, so we will not collect data about optimizer. optimizer_failed = 'Failed' if self._temp_optimizer == optimizer_failed: return None if self._temp_optimizer is not None: return self._temp_optimizer optimizer = cb_params.optimizer if optimizer is None: network = cb_params.train_network if cb_params.mode == 'train' else cb_params.eval_network optimizer = self._parse_optimizer_by_network(network) if optimizer is None or not isinstance(optimizer, Optimizer): logger.warning("Can not find optimizer in network, or the optimizer does not inherit MindSpore's " "optimizer, so we will not collect data about optimizer in SummaryCollector.") optimizer = None self._temp_optimizer = optimizer if optimizer is not None else optimizer_failed return optimizer @staticmethod def _parse_optimizer_by_network(network): """Parse optimizer from network, if parse success will return a optimizer, else return None.""" optimizer = None for _, cell in network.cells_and_names(): if isinstance(cell, Optimizer): return cell try: optimizer = getattr(cell, 'optimizer') except AttributeError: continue if not isinstance(optimizer, Optimizer): continue # Optimizer found successfully break return optimizer def _collect_histogram(self, cb_params): """Collect histogram data, contain the parameter weight and bias.""" # Note: if there is not a key named `histogram_regular` in `self._collect_specified_data`, # it means we will not collect histogram data. if 'histogram_regular' not in self._collect_specified_data: return optimizer = self._get_optimizer(cb_params) if optimizer is None: return parameters = optimizer.parameters regular = self._collect_specified_data.get('histogram_regular') if regular is not None: for parameter in parameters: if re.match(regular, parameter.name): self._record.add_value(PluginEnum.HISTOGRAM.value, parameter.name+'/auto', parameter.data) return # Note: If `histogram_regular` in `self._collect_specified_data` and the value is None, # we will collect the first five parameters. default_parameter_count = 5 for parameter in parameters[:default_parameter_count]: self._record.add_value(PluginEnum.HISTOGRAM.value, parameter.name+'/auto', parameter.data) @staticmethod def _get_learning_rate(optimizer): """ parse the learning rate from optimizer. Args: optimizer (Optimizer): A optimizer which inherit the MindSpore Optimizer class. Returns: Union[Tensor, None], if parse learning rate success, will return a Tensor, else return None. """ learning_rate = optimizer.learning_rate if not isinstance(learning_rate, Parameter): logger.warning("The learning rate detected in the optimizer is not a Parameter type, " "so it is not recorded. Its type is %r.", type(learning_rate).__name__) return None return learning_rate.data def _collect_train_lineage(self, cb_params): """Collect train lineage data, the detail refer to lineage_pb2.TrainLineage.""" if not self._collect_specified_data.get('collect_train_lineage'): return train_lineage = {} loss = self._get_loss(cb_params) if loss is not None: loss_numpy = loss.asnumpy() loss = float(np.atleast_1d(loss_numpy)[0]) train_lineage[LineageMetadata.loss] = loss else: train_lineage[LineageMetadata.loss] = None optimizer = self._get_optimizer(cb_params) learning_rate = self._get_learning_rate(optimizer) if optimizer is not None else None if learning_rate is not None: train_lineage[LineageMetadata.learning_rate] = list(np.atleast_1d(learning_rate.asnumpy()))[0] else: train_lineage[LineageMetadata.learning_rate] = None train_lineage[LineageMetadata.optimizer] = type(optimizer).__name__ if optimizer else None train_lineage[LineageMetadata.train_network] = type(cb_params.network).__name__ loss_fn = self._get_loss_fn(cb_params) train_lineage[LineageMetadata.loss_function] = type(loss_fn).__name__ if loss_fn else None train_lineage[LineageMetadata.epoch] = cb_params.epoch_num train_lineage[LineageMetadata.step_num] = cb_params.cur_step_num train_lineage[LineageMetadata.parallel_mode] = cb_params.parallel_mode train_lineage[LineageMetadata.device_num] = cb_params.device_number ckpt_file_path = self._get_ckpt_file_path(cb_params) train_lineage[LineageMetadata.model_path] = json.dumps(dict(ckpt=ckpt_file_path)) model_size = os.path.getsize(ckpt_file_path) if ckpt_file_path else 0 train_lineage[LineageMetadata.model_size] = model_size self._parse_dataset(cb_params, train_lineage) train_lineage_message = self._package_train_lineage_message(train_lineage) self._record.add_value(PluginEnum.TRAIN_LINEAGE.value, 'train_lineage', train_lineage_message) @staticmethod def _package_train_lineage_message(train_lineage): """ Package train lineage data into binary data. Args: train_lineage (dict): The train lineage dict, refer to the attribute of `_collect_train_lineage` method. Returns: TrainLineage, a object of lineage_pb2.TrainLineage. """ lineage_message = lineage_pb2.TrainLineage() if train_lineage.get(LineageMetadata.train_network) is not None: lineage_message.algorithm.network = train_lineage.get(LineageMetadata.train_network) if train_lineage.get(LineageMetadata.loss) is not None: lineage_message.algorithm.loss = train_lineage.get(LineageMetadata.loss) # Construct train_dataset message. if train_lineage.get(LineageMetadata.train_dataset_path) is not None: lineage_message.train_dataset.train_dataset_path = train_lineage.get(LineageMetadata.train_dataset_path) if train_lineage.get(LineageMetadata.train_dataset_size) is not None: lineage_message.train_dataset.train_dataset_size = train_lineage.get(LineageMetadata.train_dataset_size) # Construct model message lineage_message.model.path = train_lineage.get(LineageMetadata.model_path) lineage_message.model.size = train_lineage.get(LineageMetadata.model_size) # Construct hyper_parameters message. if train_lineage.get(LineageMetadata.learning_rate) is not None: lineage_message.hyper_parameters.learning_rate = train_lineage.get(LineageMetadata.learning_rate) if train_lineage.get(LineageMetadata.optimizer) is not None: lineage_message.hyper_parameters.optimizer = train_lineage.get(LineageMetadata.optimizer) if train_lineage.get(LineageMetadata.loss_function) is not None: lineage_message.hyper_parameters.loss_function = train_lineage.get(LineageMetadata.loss_function) if train_lineage.get(LineageMetadata.parallel_mode) is not None: lineage_message.hyper_parameters.parallel_mode = train_lineage.get(LineageMetadata.parallel_mode) lineage_message.hyper_parameters.epoch = train_lineage.get(LineageMetadata.epoch) lineage_message.hyper_parameters.device_num = train_lineage.get(LineageMetadata.device_num) lineage_message.hyper_parameters.batch_size = train_lineage.get(LineageMetadata.batch_size) return lineage_message def _parse_dataset(self, cb_params, lineage_dict): """ Analyze Dataset to get the dataset path and dataset size. Args: cb_params (_InternalCallbackParam): Callback parameters. lineage_dict (dict): The lineage dict, refer to the attribute of `_collect_train_lineage` method or `_collect_eval_lineage`. Returns: dict, the lineage metadata. """ dataset = cb_params.train_dataset if cb_params.mode == ModeEnum.TRAIN.value else cb_params.valid_dataset try: dataset_path = self._get_dataset_path(dataset) except IndexError: dataset_path = None if dataset_path and os.path.isfile(dataset_path): dataset_dir = os.path.dirname(dataset_path) else: dataset_dir = dataset_path batch_num = dataset.get_dataset_size() batch_size = dataset.get_batch_size() dataset_size = int(batch_num * batch_size) lineage_dict[LineageMetadata.batch_size] = batch_size if cb_params.mode == ModeEnum.TRAIN.value: lineage_dict[LineageMetadata.train_dataset_path] = dataset_dir lineage_dict[LineageMetadata.train_dataset_size] = dataset_size else: lineage_dict[LineageMetadata.valid_dataset_path] = dataset_dir lineage_dict[LineageMetadata.valid_dataset_size] = dataset_size return lineage_dict def _get_dataset_path(self, output_dataset): """ Get dataset path of MindDataset object. Args: output_dataset (Union[Dataset, ImageFolderDataset, MnistDataset, Cifar10Dataset, Cifar100Dataset, VOCDataset, CelebADataset, MindDataset, ManifestDataset, TFRecordDataset, TextFileDataset]): Refer to mindspore.dataset.Dataset. Returns: str, dataset path. Raises: IndexError: it means get dataset path failed. """ dataset_package = import_module('mindspore.dataset') dataset_dir_set = (dataset_package.ImageFolderDataset, dataset_package.MnistDataset, dataset_package.Cifar10Dataset, dataset_package.Cifar100Dataset, dataset_package.VOCDataset, dataset_package.CelebADataset) dataset_file_set = (dataset_package.MindDataset, dataset_package.ManifestDataset) dataset_files_set = (dataset_package.TFRecordDataset, dataset_package.TextFileDataset) if isinstance(output_dataset, dataset_file_set): return output_dataset.dataset_file if isinstance(output_dataset, dataset_dir_set): return output_dataset.dataset_dir if isinstance(output_dataset, dataset_files_set): return output_dataset.dataset_files[0] return self._get_dataset_path(output_dataset.children[0]) @staticmethod def _get_ckpt_file_path(cb_params): """ Get checkpoint file path from MindSpore callback list. Args: cb_params (_InternalCallbackParam): Callback parameters. Returns: Union[str, None], if parse success will checkpoint file absolute path, else return None. """ callbacks = cb_params.list_callback ckpt_file_path = None for callback in callbacks: if isinstance(callback, ModelCheckpoint): ckpt_file_path = callback.latest_ckpt_file_name if ckpt_file_path: ckpt_file_path = os.path.realpath(ckpt_file_path) return ckpt_file_path @staticmethod def _get_loss_fn(cb_params): """ Get loss function by cb_params and analyzing network. Args: cb_params (_InternalCallbackParam): Callback parameters. Returns: Union[Cell, None], a Cell object, if parse failed, will return None. """ loss_fn = cb_params.loss_fn if loss_fn is not None: return loss_fn if cb_params.mode == ModeEnum.TRAIN.value: network = cb_params.train_network else: network = cb_params.eval_network for _, cell in network.cells_and_names(): if isinstance(cell, _Loss): loss_fn = cell break return loss_fn def _collect_eval_lineage(self, cb_params): """Collect eval lineage data, the detail refer to lineage_pb2.EvaluationLineage.""" if not self._collect_specified_data.get('collect_eval_lineage'): return eval_lineage = dict() eval_lineage[LineageMetadata.metrics] = json.dumps(cb_params.metrics) self._parse_dataset(cb_params, eval_lineage) eval_lineage_message = self._package_eval_lineage_message(eval_lineage) self._record.add_value(PluginEnum.EVAL_LINEAGE.value, 'eval_lineage', eval_lineage_message) @staticmethod def _package_eval_lineage_message(eval_lineage): """ Package eval lineage data into binary data. Args: eval_lineage (dict): The eval lineage dict, refer to the attribute of `_collect_eval_lineage` method. Returns: EvaluationLineage, a object of lineage_pb2.EvaluationLineage. """ lineage_message = lineage_pb2.EvaluationLineage() if eval_lineage.get(LineageMetadata.metrics) is not None: lineage_message.metric = eval_lineage.get(LineageMetadata.metrics) if eval_lineage.get(LineageMetadata.valid_dataset_path) is not None: lineage_message.valid_dataset.valid_dataset_path = eval_lineage.get(LineageMetadata.valid_dataset_path) if eval_lineage.get(LineageMetadata.valid_dataset_size) is not None: lineage_message.valid_dataset.valid_dataset_size = eval_lineage.get(LineageMetadata.valid_dataset_size) return lineage_message