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seanyen / tensorflow python
Repository URL to install this package:
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Version:
1.14.0 ▾
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# Copyright 2018 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.
# ==============================================================================
"""Handles directives.
This converter removes the directive functions from the code and moves the
information they specify into AST annotations. It is a specialized form of
static analysis, one that is specific to AutoGraph.
Note that this requires that the actual directive functions are static - that
is, they do not change at runtime. So if you do something like this:
tf.autograph.set_loop_options = <new function>
Then the directive will may no longer be recognized. Furthermore, if the
converted function is cached, such an action action may be irreversible.
"""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import gast
from tensorflow.python.autograph.core import converter
from tensorflow.python.autograph.lang import directives
from tensorflow.python.autograph.pyct import anno
from tensorflow.python.util import tf_inspect
ENCLOSING_LOOP = 'enclosing_loop'
STATIC_VALUE = 'static_value'
"""Used for AST annotations, see visit_Name."""
def _map_args(call_node, function):
"""Maps AST call nodes to the actual function's arguments.
Args:
call_node: ast.Call
function: Callable[..., Any], the actual function matching call_node
Returns:
Dict[Text, ast.AST], mapping each of the function's argument names to
the respective AST node.
Raises:
ValueError: if the default arguments are not correctly set
"""
args = call_node.args
kwds = {kwd.arg: kwd.value for kwd in call_node.keywords}
call_args = tf_inspect.getcallargs(function, *args, **kwds)
# Keyword arguments not specified in kwds will be mapped to their defaults,
# which are Python values. Since we don't currently have a way to transform
# those into AST references, we simply remove them. By convention, directives
# use UNSPECIFIED as default value for for optional arguments. No other
# defaults should be present.
unexpected_defaults = []
for k in call_args:
if (k not in kwds
and call_args[k] not in args
and call_args[k] is not directives.UNSPECIFIED):
unexpected_defaults.append(k)
if unexpected_defaults:
raise ValueError('Unexpected keyword argument values, %s, for function %s'
% (zip(unexpected_defaults,
[call_args[k] for k in unexpected_defaults]),
function))
return {k: v for k, v in call_args.items() if v is not directives.UNSPECIFIED}
class DirectivesTransformer(converter.Base):
"""Parses compiler directives and converts them into AST annotations."""
def _process_symbol_directive(self, call_node, directive):
if len(call_node.args) < 1:
raise ValueError('"%s" requires a positional first argument'
' as the target' % directive.__name__)
target = call_node.args[0]
defs = anno.getanno(target, anno.Static.ORIG_DEFINITIONS)
for def_ in defs:
def_.directives[directive] = _map_args(call_node, directive)
return call_node
def _process_statement_directive(self, call_node, directive):
if self.local_scope_level < 2:
raise ValueError(
'"%s" must be used inside a statement' % directive.__name__)
target = self.get_local(ENCLOSING_LOOP)
node_anno = anno.getanno(target, converter.AgAnno.DIRECTIVES, {})
node_anno[directive] = _map_args(call_node, directive)
anno.setanno(target, converter.AgAnno.DIRECTIVES, node_anno)
return call_node
def visit_Name(self, node):
node = self.generic_visit(node)
if isinstance(node.ctx, gast.Load):
defs = anno.getanno(node, anno.Static.DEFINITIONS, ())
is_defined = bool(defs)
if not is_defined and node.id in self.ctx.info.namespace:
anno.setanno(node, STATIC_VALUE, self.ctx.info.namespace[node.id])
return node
def visit_Attribute(self, node):
node = self.generic_visit(node)
parent_val = anno.getanno(node.value, STATIC_VALUE, default=None)
if parent_val is not None and tf_inspect.ismodule(parent_val):
if hasattr(parent_val, node.attr):
anno.setanno(node, STATIC_VALUE, getattr(parent_val, node.attr))
return node
def visit_Expr(self, node):
node = self.generic_visit(node)
if isinstance(node.value, gast.Call):
call_node = node.value
static_val = anno.getanno(call_node.func, STATIC_VALUE, default=None)
if static_val is not None:
# Note: directive calls are not output in the generated code, hence
# the removal from the code by returning None.
if static_val is directives.set_element_type:
self._process_symbol_directive(call_node, static_val)
return None
elif static_val is directives.set_loop_options:
self._process_statement_directive(call_node, static_val)
return None
return node
# TODO(mdan): This will be insufficient for other control flow.
# That means that if we ever have a directive that affects things other than
# loops, we'll need support for parallel scopes, or have multiple converters.
def _track_and_visit_loop(self, node):
self.enter_local_scope()
self.set_local(ENCLOSING_LOOP, node)
node = self.generic_visit(node)
self.exit_local_scope()
return node
def visit_While(self, node):
return self._track_and_visit_loop(node)
def visit_For(self, node):
return self._track_and_visit_loop(node)
def transform(node, ctx):
return DirectivesTransformer(ctx).visit(node)