# Copyright 2016 The TensorFlow Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ============================================================================== """Provides an API for generating Event protocol buffers.""" from __future__ import absolute_import from __future__ import division from __future__ import print_function import os.path import time from tensorflow.core.framework import graph_pb2 from tensorflow.core.framework import summary_pb2 from tensorflow.core.protobuf import meta_graph_pb2 from tensorflow.core.util import event_pb2 from tensorflow.python.eager import context from tensorflow.python.framework import meta_graph from tensorflow.python.framework import ops from tensorflow.python.platform import gfile from tensorflow.python.platform import tf_logging as logging from tensorflow.python.summary import plugin_asset from tensorflow.python.summary.writer.event_file_writer import EventFileWriter from tensorflow.python.summary.writer.event_file_writer_v2 import EventFileWriterV2 from tensorflow.python.util.tf_export import tf_export _PLUGINS_DIR = "plugins" class SummaryToEventTransformer(object): """Abstractly implements the SummaryWriter API. This API basically implements a number of endpoints (add_summary, add_session_log, etc). The endpoints all generate an event protobuf, which is passed to the contained event_writer. """ def __init__(self, event_writer, graph=None, graph_def=None): """Creates a `SummaryWriter` and an event file. On construction the summary writer creates a new event file in `logdir`. This event file will contain `Event` protocol buffers constructed when you call one of the following functions: `add_summary()`, `add_session_log()`, `add_event()`, or `add_graph()`. If you pass a `Graph` to the constructor it is added to the event file. (This is equivalent to calling `add_graph()` later). TensorBoard will pick the graph from the file and display it graphically so you can interactively explore the graph you built. You will usually pass the graph from the session in which you launched it: ```python ...create a graph... # Launch the graph in a session. sess = tf.Session() # Create a summary writer, add the 'graph' to the event file. writer = tf.summary.FileWriter(, sess.graph) ``` Args: event_writer: An EventWriter. Implements add_event and get_logdir. graph: A `Graph` object, such as `sess.graph`. graph_def: DEPRECATED: Use the `graph` argument instead. """ self.event_writer = event_writer # For storing used tags for session.run() outputs. self._session_run_tags = {} if graph is not None or graph_def is not None: # Calling it with both graph and graph_def for backward compatibility. self.add_graph(graph=graph, graph_def=graph_def) # Also export the meta_graph_def in this case. # graph may itself be a graph_def due to positional arguments maybe_graph_as_def = (graph.as_graph_def(add_shapes=True) if isinstance(graph, ops.Graph) else graph) self.add_meta_graph( meta_graph.create_meta_graph_def(graph_def=graph_def or maybe_graph_as_def)) # This set contains tags of Summary Values that have been encountered # already. The motivation here is that the SummaryWriter only keeps the # metadata property (which is a SummaryMetadata proto) of the first Summary # Value encountered for each tag. The SummaryWriter strips away the # SummaryMetadata for all subsequent Summary Values with tags seen # previously. This saves space. self._seen_summary_tags = set() def add_summary(self, summary, global_step=None): """Adds a `Summary` protocol buffer to the event file. This method wraps the provided summary in an `Event` protocol buffer and adds it to the event file. You can pass the result of evaluating any summary op, using @{tf.Session.run} or @{tf.Tensor.eval}, to this function. Alternatively, you can pass a `tf.Summary` protocol buffer that you populate with your own data. The latter is commonly done to report evaluation results in event files. Args: summary: A `Summary` protocol buffer, optionally serialized as a string. global_step: Number. Optional global step value to record with the summary. """ if isinstance(summary, bytes): summ = summary_pb2.Summary() summ.ParseFromString(summary) summary = summ # We strip metadata from values with tags that we have seen before in order # to save space - we just store the metadata on the first value with a # specific tag. for value in summary.value: if not value.metadata: continue if value.tag in self._seen_summary_tags: # This tag has been encountered before. Strip the metadata. value.ClearField("metadata") continue # We encounter a value with a tag we have not encountered previously. And # it has metadata. Remember to strip metadata from future values with this # tag string. self._seen_summary_tags.add(value.tag) event = event_pb2.Event(summary=summary) self._add_event(event, global_step) def add_session_log(self, session_log, global_step=None): """Adds a `SessionLog` protocol buffer to the event file. This method wraps the provided session in an `Event` protocol buffer and adds it to the event file. Args: session_log: A `SessionLog` protocol buffer. global_step: Number. Optional global step value to record with the summary. """ event = event_pb2.Event(session_log=session_log) self._add_event(event, global_step) def _add_graph_def(self, graph_def, global_step=None): graph_bytes = graph_def.SerializeToString() event = event_pb2.Event(graph_def=graph_bytes) self._add_event(event, global_step) def add_graph(self, graph, global_step=None, graph_def=None): """Adds a `Graph` to the event file. The graph described by the protocol buffer will be displayed by TensorBoard. Most users pass a graph in the constructor instead. Args: graph: A `Graph` object, such as `sess.graph`. global_step: Number. Optional global step counter to record with the graph. graph_def: DEPRECATED. Use the `graph` parameter instead. Raises: ValueError: If both graph and graph_def are passed to the method. """ if graph is not None and graph_def is not None: raise ValueError("Please pass only graph, or graph_def (deprecated), " "but not both.") if isinstance(graph, ops.Graph) or isinstance(graph_def, ops.Graph): # The user passed a `Graph`. # Check if the user passed it via the graph or the graph_def argument and # correct for that. if not isinstance(graph, ops.Graph): logging.warning("When passing a `Graph` object, please use the `graph`" " named argument instead of `graph_def`.") graph = graph_def # Serialize the graph with additional info. true_graph_def = graph.as_graph_def(add_shapes=True) self._write_plugin_assets(graph) elif (isinstance(graph, graph_pb2.GraphDef) or isinstance(graph_def, graph_pb2.GraphDef)): # The user passed a `GraphDef`. logging.warning("Passing a `GraphDef` to the SummaryWriter is deprecated." " Pass a `Graph` object instead, such as `sess.graph`.") # Check if the user passed it via the graph or the graph_def argument and # correct for that. if isinstance(graph, graph_pb2.GraphDef): true_graph_def = graph else: true_graph_def = graph_def else: # The user passed neither `Graph`, nor `GraphDef`. raise TypeError("The passed graph must be an instance of `Graph` " "or the deprecated `GraphDef`") # Finally, add the graph_def to the summary writer. self._add_graph_def(true_graph_def, global_step) def _write_plugin_assets(self, graph): plugin_assets = plugin_asset.get_all_plugin_assets(graph) logdir = self.event_writer.get_logdir() for asset_container in plugin_assets: plugin_name = asset_container.plugin_name plugin_dir = os.path.join(logdir, _PLUGINS_DIR, plugin_name) gfile.MakeDirs(plugin_dir) assets = asset_container.assets() for (asset_name, content) in assets.items(): asset_path = os.path.join(plugin_dir, asset_name) with gfile.Open(asset_path, "w") as f: f.write(content) def add_meta_graph(self, meta_graph_def, global_step=None): """Adds a `MetaGraphDef` to the event file. The `MetaGraphDef` allows running the given graph via `saver.import_meta_graph()`. Args: meta_graph_def: A `MetaGraphDef` object, often as returned by `saver.export_meta_graph()`. global_step: Number. Optional global step counter to record with the graph. Raises: TypeError: If both `meta_graph_def` is not an instance of `MetaGraphDef`. """ if not isinstance(meta_graph_def, meta_graph_pb2.MetaGraphDef): raise TypeError("meta_graph_def must be type MetaGraphDef, saw type: %s" % type(meta_graph_def)) meta_graph_bytes = meta_graph_def.SerializeToString() event = event_pb2.Event(meta_graph_def=meta_graph_bytes) self._add_event(event, global_step) def add_run_metadata(self, run_metadata, tag, global_step=None): """Adds a metadata information for a single session.run() call. Args: run_metadata: A `RunMetadata` protobuf object. tag: The tag name for this metadata. global_step: Number. Optional global step counter to record with the StepStats. Raises: ValueError: If the provided tag was already used for this type of event. """ if tag in self._session_run_tags: raise ValueError("The provided tag was already used for this event type") self._session_run_tags[tag] = True tagged_metadata = event_pb2.TaggedRunMetadata() tagged_metadata.tag = tag # Store the `RunMetadata` object as bytes in order to have postponed # (lazy) deserialization when used later. tagged_metadata.run_metadata = run_metadata.SerializeToString() event = event_pb2.Event(tagged_run_metadata=tagged_metadata) self._add_event(event, global_step) def _add_event(self, event, step): event.wall_time = time.time() if step is not None: event.step = int(step) self.event_writer.add_event(event) @tf_export("summary.FileWriter") class FileWriter(SummaryToEventTransformer): """Writes `Summary` protocol buffers to event files. The `FileWriter` class provides a mechanism to create an event file in a given directory and add summaries and events to it. The class updates the file contents asynchronously. This allows a training program to call methods to add data to the file directly from the training loop, without slowing down training. When constructed with a `tf.Session` parameter, a `FileWriter` instead forms a compatibility layer over new graph-based summaries (`tf.contrib.summary`) to facilitate the use of new summary writing with pre-existing code that expects a `FileWriter` instance. """ def __init__(self, logdir, graph=None, max_queue=10, flush_secs=120, graph_def=None, filename_suffix=None, session=None): """Creates a `FileWriter`, optionally shared within the given session. Typically, constructing a file writer creates a new event file in `logdir`. This event file will contain `Event` protocol buffers constructed when you call one of the following functions: `add_summary()`, `add_session_log()`, `add_event()`, or `add_graph()`. If you pass a `Graph` to the constructor it is added to the event file. (This is equivalent to calling `add_graph()` later). TensorBoard will pick the graph from the file and display it graphically so you can interactively explore the graph you built. You will usually pass the graph from the session in which you launched it: ```python ...create a graph... # Launch the graph in a session. sess = tf.Session() # Create a summary writer, add the 'graph' to the event file. writer = tf.summary.FileWriter(, sess.graph) ``` The `session` argument to the constructor makes the returned `FileWriter` a a compatibility layer over new graph-based summaries (`tf.contrib.summary`). Crucially, this means the underlying writer resource and events file will be shared with any other `FileWriter` using the same `session` and `logdir`, and with any `tf.contrib.summary.SummaryWriter` in this session using the the same shared resource name (which by default scoped to the logdir). If no such resource exists, one will be created using the remaining arguments to this constructor, but if one already exists those arguments are ignored. In either case, ops will be added to `session.graph` to control the underlying file writer resource. See `tf.contrib.summary` for more details. Args: logdir: A string. Directory where event file will be written. graph: A `Graph` object, such as `sess.graph`. max_queue: Integer. Size of the queue for pending events and summaries. flush_secs: Number. How often, in seconds, to flush the pending events and summaries to disk. graph_def: DEPRECATED: Use the `graph` argument instead. filename_suffix: A string. Every event file's name is suffixed with `suffix`. session: A `tf.Session` object. See details above. Raises: RuntimeError: If called with eager execution enabled. @compatibility(eager) `FileWriter` is not compatible with eager execution. To write TensorBoard summaries under eager execution, use `tf.contrib.summary` instead. @end_compatbility """ if context.executing_eagerly(): raise RuntimeError( "tf.summary.FileWriter is not compatible with eager execution. " "Use tf.contrib.summary instead.") if session is not None: event_writer = EventFileWriterV2( session, logdir, max_queue, flush_secs, filename_suffix) else: event_writer = EventFileWriter(logdir, max_queue, flush_secs, filename_suffix) super(FileWriter, self).__init__(event_writer, graph, graph_def) def __enter__(self): """Make usable with "with" statement.""" return self def __exit__(self, unused_type, unused_value, unused_traceback): """Make usable with "with" statement.""" self.close() def get_logdir(self): """Returns the directory where event file will be written.""" return self.event_writer.get_logdir() def add_event(self, event): """Adds an event to the event file. Args: event: An `Event` protocol buffer. """ self.event_writer.add_event(event) def flush(self): """Flushes the event file to disk. Call this method to make sure that all pending events have been written to disk. """ self.event_writer.flush() def close(self): """Flushes the event file to disk and close the file. Call this method when you do not need the summary writer anymore. """ self.event_writer.close() def reopen(self): """Reopens the EventFileWriter. Can be called after `close()` to add more events in the same directory. The events will go into a new events file. Does nothing if the EventFileWriter was not closed. """ self.event_writer.reopen()