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| # Copyright (c) SenseTime Research. All rights reserved. | |
| # Copyright (c) 2019, NVIDIA Corporation. All rights reserved. | |
| # | |
| # This work is made available under the Nvidia Source Code License-NC. | |
| # To view a copy of this license, visit | |
| # https://nvlabs.github.io/stylegan2/license.html | |
| """Helper for adding automatically tracked values to Tensorboard. | |
| Autosummary creates an identity op that internally keeps track of the input | |
| values and automatically shows up in TensorBoard. The reported value | |
| represents an average over input components. The average is accumulated | |
| constantly over time and flushed when save_summaries() is called. | |
| Notes: | |
| - The output tensor must be used as an input for something else in the | |
| graph. Otherwise, the autosummary op will not get executed, and the average | |
| value will not get accumulated. | |
| - It is perfectly fine to include autosummaries with the same name in | |
| several places throughout the graph, even if they are executed concurrently. | |
| - It is ok to also pass in a python scalar or numpy array. In this case, it | |
| is added to the average immediately. | |
| """ | |
| from collections import OrderedDict | |
| import numpy as np | |
| import tensorflow as tf | |
| from tensorboard import summary as summary_lib | |
| from tensorboard.plugins.custom_scalar import layout_pb2 | |
| from . import tfutil | |
| from .tfutil import TfExpression | |
| from .tfutil import TfExpressionEx | |
| # Enable "Custom scalars" tab in TensorBoard for advanced formatting. | |
| # Disabled by default to reduce tfevents file size. | |
| enable_custom_scalars = False | |
| _dtype = tf.float64 | |
| _vars = OrderedDict() # name => [var, ...] | |
| _immediate = OrderedDict() # name => update_op, update_value | |
| _finalized = False | |
| _merge_op = None | |
| def _create_var(name: str, value_expr: TfExpression) -> TfExpression: | |
| """Internal helper for creating autosummary accumulators.""" | |
| assert not _finalized | |
| name_id = name.replace("/", "_") | |
| v = tf.cast(value_expr, _dtype) | |
| if v.shape.is_fully_defined(): | |
| size = np.prod(v.shape.as_list()) | |
| size_expr = tf.constant(size, dtype=_dtype) | |
| else: | |
| size = None | |
| size_expr = tf.reduce_prod(tf.cast(tf.shape(v), _dtype)) | |
| if size == 1: | |
| if v.shape.ndims != 0: | |
| v = tf.reshape(v, []) | |
| v = [size_expr, v, tf.square(v)] | |
| else: | |
| v = [size_expr, tf.reduce_sum(v), tf.reduce_sum(tf.square(v))] | |
| v = tf.cond(tf.is_finite(v[1]), lambda: tf.stack( | |
| v), lambda: tf.zeros(3, dtype=_dtype)) | |
| with tfutil.absolute_name_scope("Autosummary/" + name_id), tf.control_dependencies(None): | |
| # [sum(1), sum(x), sum(x**2)] | |
| var = tf.Variable(tf.zeros(3, dtype=_dtype), trainable=False) | |
| update_op = tf.cond(tf.is_variable_initialized( | |
| var), lambda: tf.assign_add(var, v), lambda: tf.assign(var, v)) | |
| if name in _vars: | |
| _vars[name].append(var) | |
| else: | |
| _vars[name] = [var] | |
| return update_op | |
| def autosummary(name: str, value: TfExpressionEx, passthru: TfExpressionEx = None, condition: TfExpressionEx = True) -> TfExpressionEx: | |
| """Create a new autosummary. | |
| Args: | |
| name: Name to use in TensorBoard | |
| value: TensorFlow expression or python value to track | |
| passthru: Optionally return this TF node without modifications but tack an autosummary update side-effect to this node. | |
| Example use of the passthru mechanism: | |
| n = autosummary('l2loss', loss, passthru=n) | |
| This is a shorthand for the following code: | |
| with tf.control_dependencies([autosummary('l2loss', loss)]): | |
| n = tf.identity(n) | |
| """ | |
| tfutil.assert_tf_initialized() | |
| name_id = name.replace("/", "_") | |
| if tfutil.is_tf_expression(value): | |
| with tf.name_scope("summary_" + name_id), tf.device(value.device): | |
| condition = tf.convert_to_tensor(condition, name='condition') | |
| update_op = tf.cond(condition, lambda: tf.group( | |
| _create_var(name, value)), tf.no_op) | |
| with tf.control_dependencies([update_op]): | |
| return tf.identity(value if passthru is None else passthru) | |
| else: # python scalar or numpy array | |
| assert not tfutil.is_tf_expression(passthru) | |
| assert not tfutil.is_tf_expression(condition) | |
| if condition: | |
| if name not in _immediate: | |
| with tfutil.absolute_name_scope("Autosummary/" + name_id), tf.device(None), tf.control_dependencies(None): | |
| update_value = tf.placeholder(_dtype) | |
| update_op = _create_var(name, update_value) | |
| _immediate[name] = update_op, update_value | |
| update_op, update_value = _immediate[name] | |
| tfutil.run(update_op, {update_value: value}) | |
| return value if passthru is None else passthru | |
| def finalize_autosummaries() -> None: | |
| """Create the necessary ops to include autosummaries in TensorBoard report. | |
| Note: This should be done only once per graph. | |
| """ | |
| global _finalized | |
| tfutil.assert_tf_initialized() | |
| if _finalized: | |
| return None | |
| _finalized = True | |
| tfutil.init_uninitialized_vars( | |
| [var for vars_list in _vars.values() for var in vars_list]) | |
| # Create summary ops. | |
| with tf.device(None), tf.control_dependencies(None): | |
| for name, vars_list in _vars.items(): | |
| name_id = name.replace("/", "_") | |
| with tfutil.absolute_name_scope("Autosummary/" + name_id): | |
| moments = tf.add_n(vars_list) | |
| moments /= moments[0] | |
| # read before resetting | |
| with tf.control_dependencies([moments]): | |
| reset_ops = [tf.assign(var, tf.zeros( | |
| 3, dtype=_dtype)) for var in vars_list] | |
| # reset before reporting | |
| with tf.name_scope(None), tf.control_dependencies(reset_ops): | |
| mean = moments[1] | |
| std = tf.sqrt(moments[2] - tf.square(moments[1])) | |
| tf.summary.scalar(name, mean) | |
| if enable_custom_scalars: | |
| tf.summary.scalar( | |
| "xCustomScalars/" + name + "/margin_lo", mean - std) | |
| tf.summary.scalar( | |
| "xCustomScalars/" + name + "/margin_hi", mean + std) | |
| # Setup layout for custom scalars. | |
| layout = None | |
| if enable_custom_scalars: | |
| cat_dict = OrderedDict() | |
| for series_name in sorted(_vars.keys()): | |
| p = series_name.split("/") | |
| cat = p[0] if len(p) >= 2 else "" | |
| chart = "/".join(p[1:-1]) if len(p) >= 3 else p[-1] | |
| if cat not in cat_dict: | |
| cat_dict[cat] = OrderedDict() | |
| if chart not in cat_dict[cat]: | |
| cat_dict[cat][chart] = [] | |
| cat_dict[cat][chart].append(series_name) | |
| categories = [] | |
| for cat_name, chart_dict in cat_dict.items(): | |
| charts = [] | |
| for chart_name, series_names in chart_dict.items(): | |
| series = [] | |
| for series_name in series_names: | |
| series.append(layout_pb2.MarginChartContent.Series( | |
| value=series_name, | |
| lower="xCustomScalars/" + series_name + "/margin_lo", | |
| upper="xCustomScalars/" + series_name + "/margin_hi")) | |
| margin = layout_pb2.MarginChartContent(series=series) | |
| charts.append(layout_pb2.Chart( | |
| title=chart_name, margin=margin)) | |
| categories.append(layout_pb2.Category( | |
| title=cat_name, chart=charts)) | |
| layout = summary_lib.custom_scalar_pb( | |
| layout_pb2.Layout(category=categories)) | |
| return layout | |
| def save_summaries(file_writer, global_step=None): | |
| """Call FileWriter.add_summary() with all summaries in the default graph, | |
| automatically finalizing and merging them on the first call. | |
| """ | |
| global _merge_op | |
| tfutil.assert_tf_initialized() | |
| if _merge_op is None: | |
| layout = finalize_autosummaries() | |
| if layout is not None: | |
| file_writer.add_summary(layout) | |
| with tf.device(None), tf.control_dependencies(None): | |
| _merge_op = tf.summary.merge_all() | |
| file_writer.add_summary(_merge_op.eval(), global_step) | |