Intelegentny_Pszczelarz/.venv/Lib/site-packages/tensorboard/plugins/graph/graphs_plugin.py

# Copyright 2017 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.
# ==============================================================================
"""The TensorBoard Graphs plugin."""


import json
from werkzeug import wrappers

from tensorboard import errors
from tensorboard import plugin_util
from tensorboard.backend import http_util
from tensorboard.backend import process_graph
from tensorboard.compat.proto import config_pb2
from tensorboard.compat.proto import graph_pb2
from tensorboard.data import provider
from tensorboard.plugins import base_plugin
from tensorboard.plugins.graph import graph_util
from tensorboard.plugins.graph import keras_util
from tensorboard.plugins.graph import metadata
from tensorboard.util import tb_logging

logger = tb_logging.get_logger()


class GraphsPlugin(base_plugin.TBPlugin):
    """Graphs Plugin for TensorBoard."""

    plugin_name = metadata.PLUGIN_NAME

    def __init__(self, context):
        """Instantiates GraphsPlugin via TensorBoard core.

        Args:
          context: A base_plugin.TBContext instance.
        """
        self._data_provider = context.data_provider

    def get_plugin_apps(self):
        return {
            "/graph": self.graph_route,
            "/info": self.info_route,
            "/run_metadata": self.run_metadata_route,
        }

    def is_active(self):
        """The graphs plugin is active iff any run has a graph or metadata."""
        return False  # `list_plugins` as called by TB core suffices

    def data_plugin_names(self):
        return (
            metadata.PLUGIN_NAME,
            metadata.PLUGIN_NAME_RUN_METADATA,
            metadata.PLUGIN_NAME_RUN_METADATA_WITH_GRAPH,
            metadata.PLUGIN_NAME_KERAS_MODEL,
            metadata.PLUGIN_NAME_TAGGED_RUN_METADATA,
        )

    def frontend_metadata(self):
        return base_plugin.FrontendMetadata(
            element_name="tf-graph-dashboard",
            # TODO(@chihuahua): Reconcile this setting with Health Pills.
            disable_reload=True,
        )

    def info_impl(self, ctx, experiment=None):
        """Returns a dict of all runs and their data availabilities."""
        result = {}

        def add_row_item(run, tag=None):
            run_item = result.setdefault(
                run,
                {
                    "run": run,
                    "tags": {},
                    # A run-wide GraphDef of ops.
                    "run_graph": False,
                },
            )

            tag_item = None
            if tag:
                tag_item = run_item.get("tags").setdefault(
                    tag,
                    {
                        "tag": tag,
                        "conceptual_graph": False,
                        # A tagged GraphDef of ops.
                        "op_graph": False,
                        "profile": False,
                    },
                )
            return (run_item, tag_item)

        mapping = self._data_provider.list_blob_sequences(
            ctx,
            experiment_id=experiment,
            plugin_name=metadata.PLUGIN_NAME_RUN_METADATA_WITH_GRAPH,
        )
        for (run_name, tags) in mapping.items():
            for (tag, tag_data) in tags.items():
                # The Summary op is defined in TensorFlow and does not use a stringified proto
                # as a content of plugin data. It contains single string that denotes a version.
                # https://github.com/tensorflow/tensorflow/blob/11f4ecb54708865ec757ca64e4805957b05d7570/tensorflow/python/ops/summary_ops_v2.py#L789-L790
                if tag_data.plugin_content != b"1":
                    logger.warning(
                        "Ignoring unrecognizable version of RunMetadata."
                    )
                    continue
                (_, tag_item) = add_row_item(run_name, tag)
                tag_item["op_graph"] = True

        # Tensors associated with plugin name metadata.PLUGIN_NAME_RUN_METADATA
        # contain both op graph and profile information.
        mapping = self._data_provider.list_blob_sequences(
            ctx,
            experiment_id=experiment,
            plugin_name=metadata.PLUGIN_NAME_RUN_METADATA,
        )
        for (run_name, tags) in mapping.items():
            for (tag, tag_data) in tags.items():
                if tag_data.plugin_content != b"1":
                    logger.warning(
                        "Ignoring unrecognizable version of RunMetadata."
                    )
                    continue
                (_, tag_item) = add_row_item(run_name, tag)
                tag_item["profile"] = True
                tag_item["op_graph"] = True

        # Tensors associated with plugin name metadata.PLUGIN_NAME_KERAS_MODEL
        # contain serialized Keras model in JSON format.
        mapping = self._data_provider.list_blob_sequences(
            ctx,
            experiment_id=experiment,
            plugin_name=metadata.PLUGIN_NAME_KERAS_MODEL,
        )
        for (run_name, tags) in mapping.items():
            for (tag, tag_data) in tags.items():
                if tag_data.plugin_content != b"1":
                    logger.warning(
                        "Ignoring unrecognizable version of RunMetadata."
                    )
                    continue
                (_, tag_item) = add_row_item(run_name, tag)
                tag_item["conceptual_graph"] = True

        mapping = self._data_provider.list_blob_sequences(
            ctx,
            experiment_id=experiment,
            plugin_name=metadata.PLUGIN_NAME,
        )
        for (run_name, tags) in mapping.items():
            if metadata.RUN_GRAPH_NAME in tags:
                (run_item, _) = add_row_item(run_name, None)
                run_item["run_graph"] = True

        # Top level `Event.tagged_run_metadata` represents profile data only.
        mapping = self._data_provider.list_blob_sequences(
            ctx,
            experiment_id=experiment,
            plugin_name=metadata.PLUGIN_NAME_TAGGED_RUN_METADATA,
        )
        for (run_name, tags) in mapping.items():
            for tag in tags:
                (_, tag_item) = add_row_item(run_name, tag)
                tag_item["profile"] = True

        return result

    def _read_blob(self, ctx, experiment, plugin_names, run, tag):
        for plugin_name in plugin_names:
            blob_sequences = self._data_provider.read_blob_sequences(
                ctx,
                experiment_id=experiment,
                plugin_name=plugin_name,
                run_tag_filter=provider.RunTagFilter(runs=[run], tags=[tag]),
                downsample=1,
            )
            blob_sequence_data = blob_sequences.get(run, {}).get(tag, ())
            try:
                blob_ref = blob_sequence_data[0].values[0]
            except IndexError:
                continue
            return self._data_provider.read_blob(
                ctx, blob_key=blob_ref.blob_key
            )
        raise errors.NotFoundError()

    def graph_impl(
        self,
        ctx,
        run,
        tag,
        is_conceptual,
        experiment=None,
        limit_attr_size=None,
        large_attrs_key=None,
    ):
        """Result of the form `(body, mime_type)`; may raise `NotFound`."""
        if is_conceptual:
            keras_model_config = json.loads(
                self._read_blob(
                    ctx,
                    experiment,
                    [metadata.PLUGIN_NAME_KERAS_MODEL],
                    run,
                    tag,
                )
            )
            graph = keras_util.keras_model_to_graph_def(keras_model_config)

        elif tag is None:
            graph_raw = self._read_blob(
                ctx,
                experiment,
                [metadata.PLUGIN_NAME],
                run,
                metadata.RUN_GRAPH_NAME,
            )
            graph = graph_pb2.GraphDef.FromString(graph_raw)

        else:
            # Op graph: could be either of two plugins. (Cf. `info_impl`.)
            plugins = [
                metadata.PLUGIN_NAME_RUN_METADATA,
                metadata.PLUGIN_NAME_RUN_METADATA_WITH_GRAPH,
            ]
            raw_run_metadata = self._read_blob(
                ctx, experiment, plugins, run, tag
            )
            run_metadata = config_pb2.RunMetadata.FromString(raw_run_metadata)
            graph = graph_util.merge_graph_defs(
                [
                    func_graph.pre_optimization_graph
                    for func_graph in run_metadata.function_graphs
                ]
            )

        # This next line might raise a ValueError if the limit parameters
        # are invalid (size is negative, size present but key absent, etc.).
        process_graph.prepare_graph_for_ui(
            graph, limit_attr_size, large_attrs_key
        )
        return (str(graph), "text/x-protobuf")  # pbtxt

    def run_metadata_impl(self, ctx, experiment, run, tag):
        """Result of the form `(body, mime_type)`; may raise `NotFound`."""
        # Profile graph: could be either of two plugins. (Cf. `info_impl`.)
        plugins = [
            metadata.PLUGIN_NAME_TAGGED_RUN_METADATA,
            metadata.PLUGIN_NAME_RUN_METADATA,
        ]
        raw_run_metadata = self._read_blob(ctx, experiment, plugins, run, tag)
        run_metadata = config_pb2.RunMetadata.FromString(raw_run_metadata)
        return (str(run_metadata), "text/x-protobuf")  # pbtxt

    @wrappers.Request.application
    def info_route(self, request):
        ctx = plugin_util.context(request.environ)
        experiment = plugin_util.experiment_id(request.environ)
        info = self.info_impl(ctx, experiment)
        return http_util.Respond(request, info, "application/json")

    @wrappers.Request.application
    def graph_route(self, request):
        """Given a single run, return the graph definition in protobuf
        format."""
        ctx = plugin_util.context(request.environ)
        experiment = plugin_util.experiment_id(request.environ)
        run = request.args.get("run")
        tag = request.args.get("tag")
        conceptual_arg = request.args.get("conceptual", False)
        is_conceptual = True if conceptual_arg == "true" else False

        if run is None:
            return http_util.Respond(
                request, 'query parameter "run" is required', "text/plain", 400
            )

        limit_attr_size = request.args.get("limit_attr_size", None)
        if limit_attr_size is not None:
            try:
                limit_attr_size = int(limit_attr_size)
            except ValueError:
                return http_util.Respond(
                    request,
                    "query parameter `limit_attr_size` must be an integer",
                    "text/plain",
                    400,
                )

        large_attrs_key = request.args.get("large_attrs_key", None)

        try:
            result = self.graph_impl(
                ctx,
                run,
                tag,
                is_conceptual,
                experiment,
                limit_attr_size,
                large_attrs_key,
            )
        except ValueError as e:
            return http_util.Respond(request, e.message, "text/plain", code=400)
        (body, mime_type) = result
        return http_util.Respond(request, body, mime_type)

    @wrappers.Request.application
    def run_metadata_route(self, request):
        """Given a tag and a run, return the session.run() metadata."""
        ctx = plugin_util.context(request.environ)
        experiment = plugin_util.experiment_id(request.environ)
        tag = request.args.get("tag")
        run = request.args.get("run")
        if tag is None:
            return http_util.Respond(
                request, 'query parameter "tag" is required', "text/plain", 400
            )
        if run is None:
            return http_util.Respond(
                request, 'query parameter "run" is required', "text/plain", 400
            )
        (body, mime_type) = self.run_metadata_impl(ctx, experiment, run, tag)
        return http_util.Respond(request, body, mime_type)
feature: "ANN commit 2" 2023-06-19 00:49:18 +02:00			`# Copyright 2017 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.`
			`# ==============================================================================`
			`"""The TensorBoard Graphs plugin."""`


			`import json`
			`from werkzeug import wrappers`

			`from tensorboard import errors`
			`from tensorboard import plugin_util`
			`from tensorboard.backend import http_util`
			`from tensorboard.backend import process_graph`
			`from tensorboard.compat.proto import config_pb2`
			`from tensorboard.compat.proto import graph_pb2`
			`from tensorboard.data import provider`
			`from tensorboard.plugins import base_plugin`
			`from tensorboard.plugins.graph import graph_util`
			`from tensorboard.plugins.graph import keras_util`
			`from tensorboard.plugins.graph import metadata`
			`from tensorboard.util import tb_logging`

			`logger = tb_logging.get_logger()`


			`class GraphsPlugin(base_plugin.TBPlugin):`
			`"""Graphs Plugin for TensorBoard."""`

			`plugin_name = metadata.PLUGIN_NAME`

			`def __init__(self, context):`
			`"""Instantiates GraphsPlugin via TensorBoard core.`

			`Args:`
			`context: A base_plugin.TBContext instance.`
			`"""`
			`self._data_provider = context.data_provider`

			`def get_plugin_apps(self):`
			`return {`
			`"/graph": self.graph_route,`
			`"/info": self.info_route,`
			`"/run_metadata": self.run_metadata_route,`
			`}`

			`def is_active(self):`
			`"""The graphs plugin is active iff any run has a graph or metadata."""`
			return False # `list_plugins` as called by TB core suffices

			`def data_plugin_names(self):`
			`return (`
			`metadata.PLUGIN_NAME,`
			`metadata.PLUGIN_NAME_RUN_METADATA,`
			`metadata.PLUGIN_NAME_RUN_METADATA_WITH_GRAPH,`
			`metadata.PLUGIN_NAME_KERAS_MODEL,`
			`metadata.PLUGIN_NAME_TAGGED_RUN_METADATA,`
			`)`

			`def frontend_metadata(self):`
			`return base_plugin.FrontendMetadata(`
			`element_name="tf-graph-dashboard",`
			`# TODO(@chihuahua): Reconcile this setting with Health Pills.`
			`disable_reload=True,`
			`)`

			`def info_impl(self, ctx, experiment=None):`
			`"""Returns a dict of all runs and their data availabilities."""`
			`result = {}`

			`def add_row_item(run, tag=None):`
			`run_item = result.setdefault(`
			`run,`
			`{`
			`"run": run,`
			`"tags": {},`
			`# A run-wide GraphDef of ops.`
			`"run_graph": False,`
			`},`
			`)`

			`tag_item = None`
			`if tag:`
			`tag_item = run_item.get("tags").setdefault(`
			`tag,`
			`{`
			`"tag": tag,`
			`"conceptual_graph": False,`
			`# A tagged GraphDef of ops.`
			`"op_graph": False,`
			`"profile": False,`
			`},`
			`)`
			`return (run_item, tag_item)`

			`mapping = self._data_provider.list_blob_sequences(`
			`ctx,`
			`experiment_id=experiment,`
			`plugin_name=metadata.PLUGIN_NAME_RUN_METADATA_WITH_GRAPH,`
			`)`
			`for (run_name, tags) in mapping.items():`
			`for (tag, tag_data) in tags.items():`
			`# The Summary op is defined in TensorFlow and does not use a stringified proto`
			`# as a content of plugin data. It contains single string that denotes a version.`
			`# https://github.com/tensorflow/tensorflow/blob/11f4ecb54708865ec757ca64e4805957b05d7570/tensorflow/python/ops/summary_ops_v2.py#L789-L790`
			`if tag_data.plugin_content != b"1":`
			`logger.warning(`
			`"Ignoring unrecognizable version of RunMetadata."`
			`)`
			`continue`
			`(_, tag_item) = add_row_item(run_name, tag)`
			`tag_item["op_graph"] = True`

			`# Tensors associated with plugin name metadata.PLUGIN_NAME_RUN_METADATA`
			`# contain both op graph and profile information.`
			`mapping = self._data_provider.list_blob_sequences(`
			`ctx,`
			`experiment_id=experiment,`
			`plugin_name=metadata.PLUGIN_NAME_RUN_METADATA,`
			`)`
			`for (run_name, tags) in mapping.items():`
			`for (tag, tag_data) in tags.items():`
			`if tag_data.plugin_content != b"1":`
			`logger.warning(`
			`"Ignoring unrecognizable version of RunMetadata."`
			`)`
			`continue`
			`(_, tag_item) = add_row_item(run_name, tag)`
			`tag_item["profile"] = True`
			`tag_item["op_graph"] = True`

			`# Tensors associated with plugin name metadata.PLUGIN_NAME_KERAS_MODEL`
			`# contain serialized Keras model in JSON format.`
			`mapping = self._data_provider.list_blob_sequences(`
			`ctx,`
			`experiment_id=experiment,`
			`plugin_name=metadata.PLUGIN_NAME_KERAS_MODEL,`
			`)`
			`for (run_name, tags) in mapping.items():`
			`for (tag, tag_data) in tags.items():`
			`if tag_data.plugin_content != b"1":`
			`logger.warning(`
			`"Ignoring unrecognizable version of RunMetadata."`
			`)`
			`continue`
			`(_, tag_item) = add_row_item(run_name, tag)`
			`tag_item["conceptual_graph"] = True`

			`mapping = self._data_provider.list_blob_sequences(`
			`ctx,`
			`experiment_id=experiment,`
			`plugin_name=metadata.PLUGIN_NAME,`
			`)`
			`for (run_name, tags) in mapping.items():`
			`if metadata.RUN_GRAPH_NAME in tags:`
			`(run_item, _) = add_row_item(run_name, None)`
			`run_item["run_graph"] = True`

			# Top level `Event.tagged_run_metadata` represents profile data only.
			`mapping = self._data_provider.list_blob_sequences(`
			`ctx,`
			`experiment_id=experiment,`
			`plugin_name=metadata.PLUGIN_NAME_TAGGED_RUN_METADATA,`
			`)`
			`for (run_name, tags) in mapping.items():`
			`for tag in tags:`
			`(_, tag_item) = add_row_item(run_name, tag)`
			`tag_item["profile"] = True`

			`return result`

			`def _read_blob(self, ctx, experiment, plugin_names, run, tag):`
			`for plugin_name in plugin_names:`
			`blob_sequences = self._data_provider.read_blob_sequences(`
			`ctx,`
			`experiment_id=experiment,`
			`plugin_name=plugin_name,`
			`run_tag_filter=provider.RunTagFilter(runs=[run], tags=[tag]),`
			`downsample=1,`
			`)`
			`blob_sequence_data = blob_sequences.get(run, {}).get(tag, ())`
			`try:`
			`blob_ref = blob_sequence_data[0].values[0]`
			`except IndexError:`
			`continue`
			`return self._data_provider.read_blob(`
			`ctx, blob_key=blob_ref.blob_key`
			`)`
			`raise errors.NotFoundError()`

			`def graph_impl(`
			`self,`
			`ctx,`
			`run,`
			`tag,`
			`is_conceptual,`
			`experiment=None,`
			`limit_attr_size=None,`
			`large_attrs_key=None,`
			`):`
			"""Result of the form `(body, mime_type)`; may raise `NotFound`."""
			`if is_conceptual:`
			`keras_model_config = json.loads(`
			`self._read_blob(`
			`ctx,`
			`experiment,`
			`[metadata.PLUGIN_NAME_KERAS_MODEL],`
			`run,`
			`tag,`
			`)`
			`)`
			`graph = keras_util.keras_model_to_graph_def(keras_model_config)`

			`elif tag is None:`
			`graph_raw = self._read_blob(`
			`ctx,`
			`experiment,`
			`[metadata.PLUGIN_NAME],`
			`run,`
			`metadata.RUN_GRAPH_NAME,`
			`)`
			`graph = graph_pb2.GraphDef.FromString(graph_raw)`

			`else:`
			# Op graph: could be either of two plugins. (Cf. `info_impl`.)
			`plugins = [`
			`metadata.PLUGIN_NAME_RUN_METADATA,`
			`metadata.PLUGIN_NAME_RUN_METADATA_WITH_GRAPH,`
			`]`
			`raw_run_metadata = self._read_blob(`
			`ctx, experiment, plugins, run, tag`
			`)`
			`run_metadata = config_pb2.RunMetadata.FromString(raw_run_metadata)`
			`graph = graph_util.merge_graph_defs(`
			`[`
			`func_graph.pre_optimization_graph`
			`for func_graph in run_metadata.function_graphs`
			`]`
			`)`

			`# This next line might raise a ValueError if the limit parameters`
			`# are invalid (size is negative, size present but key absent, etc.).`
			`process_graph.prepare_graph_for_ui(`
			`graph, limit_attr_size, large_attrs_key`
			`)`
			`return (str(graph), "text/x-protobuf") # pbtxt`

			`def run_metadata_impl(self, ctx, experiment, run, tag):`
			"""Result of the form `(body, mime_type)`; may raise `NotFound`."""
			# Profile graph: could be either of two plugins. (Cf. `info_impl`.)
			`plugins = [`
			`metadata.PLUGIN_NAME_TAGGED_RUN_METADATA,`
			`metadata.PLUGIN_NAME_RUN_METADATA,`
			`]`
			`raw_run_metadata = self._read_blob(ctx, experiment, plugins, run, tag)`
			`run_metadata = config_pb2.RunMetadata.FromString(raw_run_metadata)`
			`return (str(run_metadata), "text/x-protobuf") # pbtxt`

			`@wrappers.Request.application`
			`def info_route(self, request):`
			`ctx = plugin_util.context(request.environ)`
			`experiment = plugin_util.experiment_id(request.environ)`
			`info = self.info_impl(ctx, experiment)`
			`return http_util.Respond(request, info, "application/json")`

			`@wrappers.Request.application`
			`def graph_route(self, request):`
			`"""Given a single run, return the graph definition in protobuf`
			`format."""`
			`ctx = plugin_util.context(request.environ)`
			`experiment = plugin_util.experiment_id(request.environ)`
			`run = request.args.get("run")`
			`tag = request.args.get("tag")`
			`conceptual_arg = request.args.get("conceptual", False)`
			`is_conceptual = True if conceptual_arg == "true" else False`

			`if run is None:`
			`return http_util.Respond(`
			`request, 'query parameter "run" is required', "text/plain", 400`
			`)`

			`limit_attr_size = request.args.get("limit_attr_size", None)`
			`if limit_attr_size is not None:`
			`try:`
			`limit_attr_size = int(limit_attr_size)`
			`except ValueError:`
			`return http_util.Respond(`
			`request,`
			"query parameter `limit_attr_size` must be an integer",
			`"text/plain",`
			`400,`
			`)`

			`large_attrs_key = request.args.get("large_attrs_key", None)`

			`try:`
			`result = self.graph_impl(`
			`ctx,`
			`run,`
			`tag,`
			`is_conceptual,`
			`experiment,`
			`limit_attr_size,`
			`large_attrs_key,`
			`)`
			`except ValueError as e:`
			`return http_util.Respond(request, e.message, "text/plain", code=400)`
			`(body, mime_type) = result`
			`return http_util.Respond(request, body, mime_type)`

			`@wrappers.Request.application`
			`def run_metadata_route(self, request):`
			`"""Given a tag and a run, return the session.run() metadata."""`
			`ctx = plugin_util.context(request.environ)`
			`experiment = plugin_util.experiment_id(request.environ)`
			`tag = request.args.get("tag")`
			`run = request.args.get("run")`
			`if tag is None:`
			`return http_util.Respond(`
			`request, 'query parameter "tag" is required', "text/plain", 400`
			`)`
			`if run is None:`
			`return http_util.Respond(`
			`request, 'query parameter "run" is required', "text/plain", 400`
			`)`
			`(body, mime_type) = self.run_metadata_impl(ctx, experiment, run, tag)`
			`return http_util.Respond(request, body, mime_type)`