Intelegentny_Pszczelarz/.venv/Lib/site-packages/tensorflow/tools/compatibility/ast_edits.py

# 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.
# ==============================================================================
"""Upgrader for Python scripts according to an API change specification."""

import ast
import collections
import os
import re
import shutil
import sys
import tempfile
import traceback

import pasta


# Some regular expressions we will need for parsing
FIND_OPEN = re.compile(r"^\s*(\[).*$")
FIND_STRING_CHARS = re.compile(r"['\"]")


INFO = "INFO"
WARNING = "WARNING"
ERROR = "ERROR"


ImportRename = collections.namedtuple(
    "ImportRename", ["new_name", "excluded_prefixes"])


def full_name_node(name, ctx=ast.Load()):
  """Make an Attribute or Name node for name.

  Translate a qualified name into nested Attribute nodes (and a Name node).

  Args:
    name: The name to translate to a node.
    ctx: What context this name is used in. Defaults to Load()

  Returns:
    A Name or Attribute node.
  """
  names = name.split(".")
  names.reverse()
  node = ast.Name(id=names.pop(), ctx=ast.Load())
  while names:
    node = ast.Attribute(value=node, attr=names.pop(), ctx=ast.Load())

  # Change outermost ctx to the one given to us (inner ones should be Load).
  node.ctx = ctx
  return node


def get_arg_value(node, arg_name, arg_pos=None):
  """Get the value of an argument from a ast.Call node.

  This function goes through the positional and keyword arguments to check
  whether a given argument was used, and if so, returns its value (the node
  representing its value).

  This cannot introspect *args or **args, but it safely handles *args in
  Python3.5+.

  Args:
    node: The ast.Call node to extract arg values from.
    arg_name: The name of the argument to extract.
    arg_pos: The position of the argument (in case it's passed as a positional
      argument).

  Returns:
    A tuple (arg_present, arg_value) containing a boolean indicating whether
    the argument is present, and its value in case it is.
  """
  # Check keyword args
  if arg_name is not None:
    for kw in node.keywords:
      if kw.arg == arg_name:
        return (True, kw.value)

  # Check positional args
  if arg_pos is not None:
    idx = 0
    for arg in node.args:
      if sys.version_info[:2] >= (3, 5) and isinstance(arg, ast.Starred):
        continue  # Can't parse Starred
      if idx == arg_pos:
        return (True, arg)
      idx += 1

  return (False, None)


def uses_star_args_in_call(node):
  """Check if an ast.Call node uses arbitrary-length positional *args.

  This function works with the AST call node format of Python3.5+
  as well as the different AST format of earlier versions of Python.

  Args:
    node: The ast.Call node to check arg values for.

  Returns:
    True if the node uses starred variadic positional args or keyword args.
    False if it does not.
  """
  if sys.version_info[:2] >= (3, 5):
    # Check for an *args usage in python 3.5+
    for arg in node.args:
      if isinstance(arg, ast.Starred):
        return True
  else:
    if node.starargs:
      return True
  return False


def uses_star_kwargs_in_call(node):
  """Check if an ast.Call node uses arbitrary-length **kwargs.

  This function works with the AST call node format of Python3.5+
  as well as the different AST format of earlier versions of Python.

  Args:
    node: The ast.Call node to check arg values for.

  Returns:
    True if the node uses starred variadic positional args or keyword args.
    False if it does not.
  """
  if sys.version_info[:2] >= (3, 5):
    # Check for a **kwarg usage in python 3.5+
    for keyword in node.keywords:
      if keyword.arg is None:
        return True
  else:
    if node.kwargs:
      return True
  return False


def uses_star_args_or_kwargs_in_call(node):
  """Check if an ast.Call node uses arbitrary-length *args or **kwargs.

  This function works with the AST call node format of Python3.5+
  as well as the different AST format of earlier versions of Python.

  Args:
    node: The ast.Call node to check arg values for.

  Returns:
    True if the node uses starred variadic positional args or keyword args.
    False if it does not.
  """
  return uses_star_args_in_call(node) or uses_star_kwargs_in_call(node)


def excluded_from_module_rename(module, import_rename_spec):
  """Check if this module import should not be renamed.

  Args:
    module: (string) module name.
    import_rename_spec: ImportRename instance.

  Returns:
    True if this import should not be renamed according to the
    import_rename_spec.
  """
  for excluded_prefix in import_rename_spec.excluded_prefixes:
    if module.startswith(excluded_prefix):
      return True
  return False


class APIChangeSpec:
  """This class defines the transformations that need to happen.

  This class must provide the following fields:

  * `function_keyword_renames`: maps function names to a map of old -> new
    argument names
  * `symbol_renames`: maps function names to new function names
  * `change_to_function`: a set of function names that have changed (for
    notifications)
  * `function_reorders`: maps functions whose argument order has changed to the
    list of arguments in the new order
  * `function_warnings`: maps full names of functions to warnings that will be
    printed out if the function is used. (e.g. tf.nn.convolution())
  * `function_transformers`: maps function names to custom handlers
  * `module_deprecations`: maps module names to warnings that will be printed
    if the module is still used after all other transformations have run
  * `import_renames`: maps import name (must be a short name without '.')
    to ImportRename instance.

  For an example, see `TFAPIChangeSpec`.
  """

  def preprocess(self, root_node):  # pylint: disable=unused-argument
    """Preprocess a parse tree. Return a preprocessed node, logs and errors."""
    return root_node, [], []

  def clear_preprocessing(self):
    """Restore this APIChangeSpec to before it preprocessed a file.

    This is needed if preprocessing a file changed any rewriting rules.
    """
    pass


class NoUpdateSpec(APIChangeSpec):
  """A specification of an API change which doesn't change anything."""

  def __init__(self):
    self.function_handle = {}
    self.function_reorders = {}
    self.function_keyword_renames = {}
    self.symbol_renames = {}
    self.function_warnings = {}
    self.change_to_function = {}
    self.module_deprecations = {}
    self.function_transformers = {}
    self.import_renames = {}


class _PastaEditVisitor(ast.NodeVisitor):
  """AST Visitor that processes function calls.

  Updates function calls from old API version to new API version using a given
  change spec.
  """

  def __init__(self, api_change_spec):
    self._api_change_spec = api_change_spec
    self._log = []   # Holds 4-tuples: severity, line, col, msg.
    self._stack = []  # Allow easy access to parents.

  # Overridden to maintain a stack of nodes to allow for parent access
  def visit(self, node):
    self._stack.append(node)
    super(_PastaEditVisitor, self).visit(node)
    self._stack.pop()

  @property
  def errors(self):
    return [log for log in self._log if log[0] == ERROR]

  @property
  def warnings(self):
    return [log for log in self._log if log[0] == WARNING]

  @property
  def warnings_and_errors(self):
    return [log for log in self._log if log[0] in (WARNING, ERROR)]

  @property
  def info(self):
    return [log for log in self._log if log[0] == INFO]

  @property
  def log(self):
    return self._log

  def add_log(self, severity, lineno, col, msg):
    self._log.append((severity, lineno, col, msg))
    print("%s line %d:%d: %s" % (severity, lineno, col, msg))

  def add_logs(self, logs):
    """Record a log and print it.

    The log should be a tuple `(severity, lineno, col_offset, msg)`, which will
    be printed and recorded. It is part of the log available in the `self.log`
    property.

    Args:
      logs: The logs to add. Must be a list of tuples
        `(severity, lineno, col_offset, msg)`.
    """
    self._log.extend(logs)
    for log in logs:
      print("%s line %d:%d: %s" % log)

  def _get_applicable_entries(self, transformer_field, full_name, name):
    """Get all list entries indexed by name that apply to full_name or name."""
    # Transformers are indexed to full name, name, or no name
    # as a performance optimization.
    function_transformers = getattr(self._api_change_spec,
                                    transformer_field, {})

    glob_name = "*." + name if name else None
    transformers = []
    if full_name in function_transformers:
      transformers.append(function_transformers[full_name])
    if glob_name in function_transformers:
      transformers.append(function_transformers[glob_name])
    if "*" in function_transformers:
      transformers.append(function_transformers["*"])
    return transformers

  def _get_applicable_dict(self, transformer_field, full_name, name):
    """Get all dict entries indexed by name that apply to full_name or name."""
    # Transformers are indexed to full name, name, or no name
    # as a performance optimization.
    function_transformers = getattr(self._api_change_spec,
                                    transformer_field, {})

    glob_name = "*." + name if name else None
    transformers = function_transformers.get("*", {}).copy()
    transformers.update(function_transformers.get(glob_name, {}))
    transformers.update(function_transformers.get(full_name, {}))
    return transformers

  def _get_full_name(self, node):
    """Traverse an Attribute node to generate a full name, e.g., "tf.foo.bar".

    This is the inverse of `full_name_node`.

    Args:
      node: A Node of type Attribute.

    Returns:
      a '.'-delimited full-name or None if node was not Attribute or Name.
      i.e. `foo()+b).bar` returns None, while `a.b.c` would return "a.b.c".
    """
    curr = node
    items = []
    while not isinstance(curr, ast.Name):
      if not isinstance(curr, ast.Attribute):
        return None
      items.append(curr.attr)
      curr = curr.value
    items.append(curr.id)
    return ".".join(reversed(items))

  def _maybe_add_warning(self, node, full_name):
    """Adds an error to be printed about full_name at node."""
    function_warnings = self._api_change_spec.function_warnings
    if full_name in function_warnings:
      level, message = function_warnings[full_name]
      message = message.replace("<function name>", full_name)
      self.add_log(level, node.lineno, node.col_offset,
                   "%s requires manual check. %s" % (full_name, message))
      return True
    else:
      return False

  def _maybe_add_module_deprecation_warning(self, node, full_name, whole_name):
    """Adds a warning if full_name is a deprecated module."""
    warnings = self._api_change_spec.module_deprecations
    if full_name in warnings:
      level, message = warnings[full_name]
      message = message.replace("<function name>", whole_name)
      self.add_log(level, node.lineno, node.col_offset,
                   "Using member %s in deprecated module %s. %s" % (whole_name,
                                                                    full_name,
                                                                    message))
      return True
    else:
      return False

  def _maybe_add_call_warning(self, node, full_name, name):
    """Print a warning when specific functions are called with selected args.

    The function _print_warning_for_function matches the full name of the called
    function, e.g., tf.foo.bar(). This function matches the function name that
    is called, as long as the function is an attribute. For example,
    `tf.foo.bar()` and `foo.bar()` are matched, but not `bar()`.

    Args:
      node: ast.Call object
      full_name: The precomputed full name of the callable, if one exists, None
        otherwise.
      name: The precomputed name of the callable, if one exists, None otherwise.

    Returns:
      Whether an error was recorded.
    """
    # Only look for *.-warnings here, the other will be handled by the Attribute
    # visitor. Also, do not warn for bare functions, only if the call func is
    # an attribute.
    warned = False
    if isinstance(node.func, ast.Attribute):
      warned = self._maybe_add_warning(node, "*." + name)

    # All arg warnings are handled here, since only we have the args
    arg_warnings = self._get_applicable_dict("function_arg_warnings",
                                             full_name, name)

    variadic_args = uses_star_args_or_kwargs_in_call(node)

    for (kwarg, arg), (level, warning) in sorted(arg_warnings.items()):
      present, _ = get_arg_value(node, kwarg, arg) or variadic_args
      if present:
        warned = True
        warning_message = warning.replace("<function name>", full_name or name)
        template = "%s called with %s argument, requires manual check: %s"
        if variadic_args:
          template = ("%s called with *args or **kwargs that may include %s, "
                      "requires manual check: %s")
        self.add_log(level, node.lineno, node.col_offset,
                     template % (full_name or name, kwarg, warning_message))

    return warned

  def _maybe_rename(self, parent, node, full_name):
    """Replace node (Attribute or Name) with a node representing full_name."""
    new_name = self._api_change_spec.symbol_renames.get(full_name, None)
    if new_name:
      self.add_log(INFO, node.lineno, node.col_offset,
                   "Renamed %r to %r" % (full_name, new_name))
      new_node = full_name_node(new_name, node.ctx)
      ast.copy_location(new_node, node)
      pasta.ast_utils.replace_child(parent, node, new_node)
      return True
    else:
      return False

  def _maybe_change_to_function_call(self, parent, node, full_name):
    """Wraps node (typically, an Attribute or Expr) in a Call."""
    if full_name in self._api_change_spec.change_to_function:
      if not isinstance(parent, ast.Call):
        # ast.Call's constructor is really picky about how many arguments it
        # wants, and also, it changed between Py2 and Py3.
        new_node = ast.Call(node, [], [])
        pasta.ast_utils.replace_child(parent, node, new_node)
        ast.copy_location(new_node, node)
        self.add_log(INFO, node.lineno, node.col_offset,
                     "Changed %r to a function call" % full_name)
        return True
    return False

  def _maybe_add_arg_names(self, node, full_name):
    """Make args into keyword args if function called full_name requires it."""
    function_reorders = self._api_change_spec.function_reorders

    if full_name in function_reorders:
      if uses_star_args_in_call(node):
        self.add_log(WARNING, node.lineno, node.col_offset,
                     "(Manual check required) upgrading %s may require "
                     "re-ordering the call arguments, but it was passed "
                     "variable-length positional *args. The upgrade "
                     "script cannot handle these automatically." % full_name)

      reordered = function_reorders[full_name]
      new_args = []
      new_keywords = []
      idx = 0
      for arg in node.args:
        if sys.version_info[:2] >= (3, 5) and isinstance(arg, ast.Starred):
          continue  # Can't move Starred to keywords
        keyword_arg = reordered[idx]
        if keyword_arg:
          new_keywords.append(ast.keyword(arg=keyword_arg, value=arg))
        else:
          new_args.append(arg)
        idx += 1

      if new_keywords:
        self.add_log(INFO, node.lineno, node.col_offset,
                     "Added keywords to args of function %r" % full_name)
        node.args = new_args
        node.keywords = new_keywords + (node.keywords or [])
        return True
    return False

  def _maybe_modify_args(self, node, full_name, name):
    """Rename keyword args if the function called full_name requires it."""
    renamed_keywords = self._get_applicable_dict("function_keyword_renames",
                                                 full_name, name)

    if not renamed_keywords:
      return False

    if uses_star_kwargs_in_call(node):
      self.add_log(WARNING, node.lineno, node.col_offset,
                   "(Manual check required) upgrading %s may require "
                   "renaming or removing call arguments, but it was passed "
                   "variable-length *args or **kwargs. The upgrade "
                   "script cannot handle these automatically." %
                   (full_name or name))
    modified = False
    new_keywords = []
    for keyword in node.keywords:
      argkey = keyword.arg
      if argkey in renamed_keywords:
        modified = True
        if renamed_keywords[argkey] is None:
          lineno = getattr(keyword, "lineno", node.lineno)
          col_offset = getattr(keyword, "col_offset", node.col_offset)
          self.add_log(INFO, lineno, col_offset,
                       "Removed argument %s for function %s" % (
                           argkey, full_name or name))
        else:
          keyword.arg = renamed_keywords[argkey]
          lineno = getattr(keyword, "lineno", node.lineno)
          col_offset = getattr(keyword, "col_offset", node.col_offset)
          self.add_log(INFO, lineno, col_offset,
                       "Renamed keyword argument for %s from %s to %s" % (
                           full_name, argkey, renamed_keywords[argkey]))
          new_keywords.append(keyword)
      else:
        new_keywords.append(keyword)

    if modified:
      node.keywords = new_keywords
    return modified

  def visit_Call(self, node):  # pylint: disable=invalid-name
    """Handle visiting a call node in the AST.

    Args:
      node: Current Node
    """
    assert self._stack[-1] is node

    # Get the name for this call, so we can index stuff with it.
    full_name = self._get_full_name(node.func)
    if full_name:
      name = full_name.split(".")[-1]
    elif isinstance(node.func, ast.Name):
      name = node.func.id
    elif isinstance(node.func, ast.Attribute):
      name = node.func.attr
    else:
      name = None

    # Call standard transformers for this node.
    # Make sure warnings come first, since args or names triggering warnings
    # may be removed by the other transformations.
    self._maybe_add_call_warning(node, full_name, name)
    # Make all args into kwargs
    self._maybe_add_arg_names(node, full_name)
    # Argument name changes or deletions
    self._maybe_modify_args(node, full_name, name)

    # Call transformers. These have the ability to modify the node, and if they
    # do, will return the new node they created (or the same node if they just
    # changed it). The are given the parent, but we will take care of
    # integrating their changes into the parent if they return a new node.
    #
    # These are matched on the old name, since renaming is performed by the
    # Attribute visitor, which happens later.
    transformers = self._get_applicable_entries("function_transformers",
                                                full_name, name)

    parent = self._stack[-2]

    if transformers:
      if uses_star_args_or_kwargs_in_call(node):
        self.add_log(WARNING, node.lineno, node.col_offset,
                     "(Manual check required) upgrading %s may require "
                     "modifying call arguments, but it was passed "
                     "variable-length *args or **kwargs. The upgrade "
                     "script cannot handle these automatically." %
                     (full_name or name))

    for transformer in transformers:
      logs = []
      new_node = transformer(parent, node, full_name, name, logs)
      self.add_logs(logs)
      if new_node and new_node is not node:
        pasta.ast_utils.replace_child(parent, node, new_node)
        node = new_node
        self._stack[-1] = node

    self.generic_visit(node)

  def visit_Attribute(self, node):  # pylint: disable=invalid-name
    """Handle bare Attributes i.e. [tf.foo, tf.bar]."""
    assert self._stack[-1] is node

    full_name = self._get_full_name(node)
    if full_name:
      parent = self._stack[-2]

      # Make sure the warning comes first, otherwise the name may have changed
      self._maybe_add_warning(node, full_name)

      # Once we did a modification, node is invalid and not worth inspecting
      # further. Also, we only perform modifications for simple nodes, so
      # There'd be no point in descending further.
      if self._maybe_rename(parent, node, full_name):
        return
      if self._maybe_change_to_function_call(parent, node, full_name):
        return

      # The isinstance check is enough -- a bare Attribute is never root.
      i = 2
      while isinstance(self._stack[-i], ast.Attribute):
        i += 1
      whole_name = pasta.dump(self._stack[-(i-1)])

      self._maybe_add_module_deprecation_warning(node, full_name, whole_name)

    self.generic_visit(node)

  def visit_Import(self, node):  # pylint: disable=invalid-name
    """Handle visiting an import node in the AST.

    Args:
      node: Current Node
    """
    new_aliases = []
    import_updated = False
    import_renames = getattr(self._api_change_spec, "import_renames", {})
    max_submodule_depth = getattr(self._api_change_spec, "max_submodule_depth",
                                  1)
    inserts_after_imports = getattr(self._api_change_spec,
                                    "inserts_after_imports", {})

    # This loop processes imports in the format
    # import foo as f, bar as b
    for import_alias in node.names:
      all_import_components = import_alias.name.split(".")
      # Look for rename, starting with longest import levels.
      found_update = False
      for i in reversed(list(range(1, max_submodule_depth + 1))):
        import_component = all_import_components[0]
        for j in range(1, min(i, len(all_import_components))):
          import_component += "." + all_import_components[j]
        import_rename_spec = import_renames.get(import_component, None)

        if not import_rename_spec or excluded_from_module_rename(
            import_alias.name, import_rename_spec):
          continue

        new_name = (
            import_rename_spec.new_name +
            import_alias.name[len(import_component):])

        # If current import is
        #   import foo
        # then new import should preserve imported name:
        #   import new_foo as foo
        # This happens when module has just one component.
        new_asname = import_alias.asname
        if not new_asname and "." not in import_alias.name:
          new_asname = import_alias.name

        new_alias = ast.alias(name=new_name, asname=new_asname)
        new_aliases.append(new_alias)
        import_updated = True
        found_update = True

        # Insert any followup lines that should happen after this import.
        full_import = (import_alias.name, import_alias.asname)
        insert_offset = 1
        for line_to_insert in inserts_after_imports.get(full_import, []):
          assert self._stack[-1] is node
          parent = self._stack[-2]

          new_line_node = pasta.parse(line_to_insert)
          ast.copy_location(new_line_node, node)
          parent.body.insert(
              parent.body.index(node) + insert_offset, new_line_node)
          insert_offset += 1

          # Insert a newline after the import if necessary
          old_suffix = pasta.base.formatting.get(node, "suffix")
          if old_suffix is None:
            old_suffix = os.linesep
          if os.linesep not in old_suffix:
            pasta.base.formatting.set(node, "suffix", old_suffix + os.linesep)

          # Apply indentation to new node.
          pasta.base.formatting.set(new_line_node, "prefix",
                                    pasta.base.formatting.get(node, "prefix"))
          pasta.base.formatting.set(new_line_node, "suffix", os.linesep)
          self.add_log(
              INFO, node.lineno, node.col_offset,
              "Adding `%s` after import of %s" %
              (new_line_node, import_alias.name))
        # Find one match, break
        if found_update:
          break
      # No rename is found for all levels
      if not found_update:
        new_aliases.append(import_alias)  # no change needed

    # Replace the node if at least one import needs to be updated.
    if import_updated:
      assert self._stack[-1] is node
      parent = self._stack[-2]

      new_node = ast.Import(new_aliases)
      ast.copy_location(new_node, node)
      pasta.ast_utils.replace_child(parent, node, new_node)
      self.add_log(
          INFO, node.lineno, node.col_offset,
          "Changed import from %r to %r." %
          (pasta.dump(node), pasta.dump(new_node)))

    self.generic_visit(node)

  def visit_ImportFrom(self, node):  # pylint: disable=invalid-name
    """Handle visiting an import-from node in the AST.

    Args:
      node: Current Node
    """
    if not node.module:
      self.generic_visit(node)
      return

    from_import = node.module

    # Look for rename based on first component of from-import.
    # i.e. based on foo in foo.bar.
    from_import_first_component = from_import.split(".")[0]
    import_renames = getattr(self._api_change_spec, "import_renames", {})
    import_rename_spec = import_renames.get(from_import_first_component, None)
    if not import_rename_spec:
      self.generic_visit(node)
      return

    # Split module aliases into the ones that require import update
    # and those that don't. For e.g. if we want to rename "a" to "b"
    # unless we import "a.c" in the following:
    # from a import c, d
    # we want to update import for "d" but not for "c".
    updated_aliases = []
    same_aliases = []
    for import_alias in node.names:
      full_module_name = "%s.%s" % (from_import, import_alias.name)
      if excluded_from_module_rename(full_module_name, import_rename_spec):
        same_aliases.append(import_alias)
      else:
        updated_aliases.append(import_alias)

    if not updated_aliases:
      self.generic_visit(node)
      return

    assert self._stack[-1] is node
    parent = self._stack[-2]

    # Replace first component of from-import with new name.
    new_from_import = (
        import_rename_spec.new_name +
        from_import[len(from_import_first_component):])
    updated_node = ast.ImportFrom(new_from_import, updated_aliases, node.level)
    ast.copy_location(updated_node, node)
    pasta.ast_utils.replace_child(parent, node, updated_node)

    # If some imports had to stay the same, add another import for them.
    additional_import_log = ""
    if same_aliases:
      same_node = ast.ImportFrom(from_import, same_aliases, node.level,
                                 col_offset=node.col_offset, lineno=node.lineno)
      ast.copy_location(same_node, node)
      parent.body.insert(parent.body.index(updated_node), same_node)
      # Apply indentation to new node.
      pasta.base.formatting.set(
          same_node, "prefix",
          pasta.base.formatting.get(updated_node, "prefix"))
      additional_import_log = " and %r" % pasta.dump(same_node)

    self.add_log(
        INFO, node.lineno, node.col_offset,
        "Changed import from %r to %r%s." %
        (pasta.dump(node),
         pasta.dump(updated_node),
         additional_import_log))

    self.generic_visit(node)


class AnalysisResult:
  """This class represents an analysis result and how it should be logged.

  This class must provide the following fields:

  * `log_level`: The log level to which this detection should be logged
  * `log_message`: The message that should be logged for this detection

  For an example, see `VersionedTFImport`.
  """


class APIAnalysisSpec:
  """This class defines how `AnalysisResult`s should be generated.

  It specifies how to map imports and symbols to `AnalysisResult`s.

  This class must provide the following fields:

  * `symbols_to_detect`: maps function names to `AnalysisResult`s
  * `imports_to_detect`: maps imports represented as (full module name, alias)
    tuples to `AnalysisResult`s
    notifications)

  For an example, see `TFAPIImportAnalysisSpec`.
  """


class PastaAnalyzeVisitor(_PastaEditVisitor):
  """AST Visitor that looks for specific API usage without editing anything.

  This is used before any rewriting is done to detect if any symbols are used
  that require changing imports or disabling rewriting altogether.
  """

  def __init__(self, api_analysis_spec):
    super(PastaAnalyzeVisitor, self).__init__(NoUpdateSpec())
    self._api_analysis_spec = api_analysis_spec
    self._results = []   # Holds AnalysisResult objects

  @property
  def results(self):
    return self._results

  def add_result(self, analysis_result):
    self._results.append(analysis_result)

  def visit_Attribute(self, node):  # pylint: disable=invalid-name
    """Handle bare Attributes i.e. [tf.foo, tf.bar]."""
    full_name = self._get_full_name(node)
    if full_name:
      detection = self._api_analysis_spec.symbols_to_detect.get(full_name, None)
      if detection:
        self.add_result(detection)
        self.add_log(
            detection.log_level, node.lineno, node.col_offset,
            detection.log_message)

    self.generic_visit(node)

  def visit_Import(self, node):  # pylint: disable=invalid-name
    """Handle visiting an import node in the AST.

    Args:
      node: Current Node
    """
    for import_alias in node.names:
      # Detect based on full import name and alias)
      full_import = (import_alias.name, import_alias.asname)
      detection = (self._api_analysis_spec
                   .imports_to_detect.get(full_import, None))
      if detection:
        self.add_result(detection)
        self.add_log(
            detection.log_level, node.lineno, node.col_offset,
            detection.log_message)

    self.generic_visit(node)

  def visit_ImportFrom(self, node):  # pylint: disable=invalid-name
    """Handle visiting an import-from node in the AST.

    Args:
      node: Current Node
    """
    if not node.module:
      self.generic_visit(node)
      return

    from_import = node.module

    for import_alias in node.names:
      # Detect based on full import name(to & as)
      full_module_name = "%s.%s" % (from_import, import_alias.name)
      full_import = (full_module_name, import_alias.asname)
      detection = (self._api_analysis_spec
                   .imports_to_detect.get(full_import, None))
      if detection:
        self.add_result(detection)
        self.add_log(
            detection.log_level, node.lineno, node.col_offset,
            detection.log_message)

    self.generic_visit(node)


class ASTCodeUpgrader:
  """Handles upgrading a set of Python files using a given API change spec."""

  def __init__(self, api_change_spec):
    if not isinstance(api_change_spec, APIChangeSpec):
      raise TypeError("Must pass APIChangeSpec to ASTCodeUpgrader, got %s" %
                      type(api_change_spec))
    self._api_change_spec = api_change_spec

  def process_file(self,
                   in_filename,
                   out_filename,
                   no_change_to_outfile_on_error=False):
    """Process the given python file for incompatible changes.

    Args:
      in_filename: filename to parse
      out_filename: output file to write to
      no_change_to_outfile_on_error: not modify the output file on errors
    Returns:
      A tuple representing number of files processed, log of actions, errors
    """

    # Write to a temporary file, just in case we are doing an implace modify.
    # pylint: disable=g-backslash-continuation
    with open(in_filename, "r") as in_file, \
        tempfile.NamedTemporaryFile("w", delete=False) as temp_file:
      ret = self.process_opened_file(in_filename, in_file, out_filename,
                                     temp_file)
    # pylint: enable=g-backslash-continuation

    if no_change_to_outfile_on_error and ret[0] == 0:
      os.remove(temp_file.name)
    else:
      shutil.move(temp_file.name, out_filename)
    return ret

  def format_log(self, log, in_filename):
    log_string = "%d:%d: %s: %s" % (log[1], log[2], log[0], log[3])
    if in_filename:
      return in_filename + ":" + log_string
    else:
      return log_string

  def update_string_pasta(self, text, in_filename):
    """Updates a file using pasta."""
    try:
      t = pasta.parse(text)
    except (SyntaxError, ValueError, TypeError):
      log = ["ERROR: Failed to parse.\n" + traceback.format_exc()]
      return 0, "", log, []

    t, preprocess_logs, preprocess_errors = self._api_change_spec.preprocess(t)

    visitor = _PastaEditVisitor(self._api_change_spec)
    visitor.visit(t)

    self._api_change_spec.clear_preprocessing()

    logs = [self.format_log(log, None) for log in (preprocess_logs +
                                                   visitor.log)]
    errors = [self.format_log(error, in_filename)
              for error in (preprocess_errors +
                            visitor.warnings_and_errors)]
    return 1, pasta.dump(t), logs, errors

  def _format_log(self, log, in_filename, out_filename):
    text = "-" * 80 + "\n"
    text += "Processing file %r\n outputting to %r\n" % (in_filename,
                                                         out_filename)
    text += "-" * 80 + "\n\n"
    text += "\n".join(log) + "\n"
    text += "-" * 80 + "\n\n"
    return text

  def process_opened_file(self, in_filename, in_file, out_filename, out_file):
    """Process the given python file for incompatible changes.

    This function is split out to facilitate StringIO testing from
    tf_upgrade_test.py.

    Args:
      in_filename: filename to parse
      in_file: opened file (or StringIO)
      out_filename: output file to write to
      out_file: opened file (or StringIO)
    Returns:
      A tuple representing number of files processed, log of actions, errors
    """
    lines = in_file.readlines()
    processed_file, new_file_content, log, process_errors = (
        self.update_string_pasta("".join(lines), in_filename))

    if out_file and processed_file:
      out_file.write(new_file_content)

    return (processed_file,
            self._format_log(log, in_filename, out_filename),
            process_errors)

  def process_tree(self, root_directory, output_root_directory,
                   copy_other_files):
    """Processes upgrades on an entire tree of python files in place.

    Note that only Python files. If you have custom code in other languages,
    you will need to manually upgrade those.

    Args:
      root_directory: Directory to walk and process.
      output_root_directory: Directory to use as base.
      copy_other_files: Copy files that are not touched by this converter.

    Returns:
      A tuple of files processed, the report string for all files, and a dict
        mapping filenames to errors encountered in that file.
    """

    if output_root_directory == root_directory:
      return self.process_tree_inplace(root_directory)

    # make sure output directory doesn't exist
    if output_root_directory and os.path.exists(output_root_directory):
      print("Output directory %r must not already exist." %
            (output_root_directory))
      sys.exit(1)

    # make sure output directory does not overlap with root_directory
    norm_root = os.path.split(os.path.normpath(root_directory))
    norm_output = os.path.split(os.path.normpath(output_root_directory))
    if norm_root == norm_output:
      print("Output directory %r same as input directory %r" %
            (root_directory, output_root_directory))
      sys.exit(1)

    # Collect list of files to process (we do this to correctly handle if the
    # user puts the output directory in some sub directory of the input dir)
    files_to_process = []
    files_to_copy = []
    for dir_name, _, file_list in os.walk(root_directory):
      py_files = [f for f in file_list if f.endswith(".py")]
      copy_files = [f for f in file_list if not f.endswith(".py")]
      for filename in py_files:
        fullpath = os.path.join(dir_name, filename)
        fullpath_output = os.path.join(output_root_directory,
                                       os.path.relpath(fullpath,
                                                       root_directory))
        files_to_process.append((fullpath, fullpath_output))
      if copy_other_files:
        for filename in copy_files:
          fullpath = os.path.join(dir_name, filename)
          fullpath_output = os.path.join(output_root_directory,
                                         os.path.relpath(
                                             fullpath, root_directory))
          files_to_copy.append((fullpath, fullpath_output))

    file_count = 0
    tree_errors = {}
    report = ""
    report += ("=" * 80) + "\n"
    report += "Input tree: %r\n" % root_directory
    report += ("=" * 80) + "\n"

    for input_path, output_path in files_to_process:
      output_directory = os.path.dirname(output_path)
      if not os.path.isdir(output_directory):
        os.makedirs(output_directory)

      if os.path.islink(input_path):
        link_target = os.readlink(input_path)
        link_target_output = os.path.join(
            output_root_directory, os.path.relpath(link_target, root_directory))
        if (link_target, link_target_output) in files_to_process:
          # Create a link to the new location of the target file
          os.symlink(link_target_output, output_path)
        else:
          report += "Copying symlink %s without modifying its target %s" % (
              input_path, link_target)
          os.symlink(link_target, output_path)
        continue

      file_count += 1
      _, l_report, l_errors = self.process_file(input_path, output_path)
      tree_errors[input_path] = l_errors
      report += l_report

    for input_path, output_path in files_to_copy:
      output_directory = os.path.dirname(output_path)
      if not os.path.isdir(output_directory):
        os.makedirs(output_directory)
      shutil.copy(input_path, output_path)
    return file_count, report, tree_errors

  def process_tree_inplace(self, root_directory):
    """Process a directory of python files in place."""
    files_to_process = []
    for dir_name, _, file_list in os.walk(root_directory):
      py_files = [
          os.path.join(dir_name, f) for f in file_list if f.endswith(".py")
      ]
      files_to_process += py_files

    file_count = 0
    tree_errors = {}
    report = ""
    report += ("=" * 80) + "\n"
    report += "Input tree: %r\n" % root_directory
    report += ("=" * 80) + "\n"

    for path in files_to_process:
      if os.path.islink(path):
        report += "Skipping symlink %s.\n" % path
        continue
      file_count += 1
      _, l_report, l_errors = self.process_file(path, path)
      tree_errors[path] = l_errors
      report += l_report

    return file_count, report, tree_errors