387 lines
14 KiB
Python
387 lines
14 KiB
Python
from textwrap import dedent
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from parso import split_lines
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from jedi import debug
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from jedi.api.exceptions import RefactoringError
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from jedi.api.refactoring import Refactoring, EXPRESSION_PARTS
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from jedi.common import indent_block
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from jedi.parser_utils import function_is_classmethod, function_is_staticmethod
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_DEFINITION_SCOPES = ('suite', 'file_input')
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_VARIABLE_EXCTRACTABLE = EXPRESSION_PARTS + \
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('atom testlist_star_expr testlist test lambdef lambdef_nocond '
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'keyword name number string fstring').split()
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def extract_variable(inference_state, path, module_node, name, pos, until_pos):
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nodes = _find_nodes(module_node, pos, until_pos)
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debug.dbg('Extracting nodes: %s', nodes)
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is_expression, message = _is_expression_with_error(nodes)
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if not is_expression:
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raise RefactoringError(message)
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generated_code = name + ' = ' + _expression_nodes_to_string(nodes)
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file_to_node_changes = {path: _replace(nodes, name, generated_code, pos)}
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return Refactoring(inference_state, file_to_node_changes)
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def _is_expression_with_error(nodes):
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"""
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Returns a tuple (is_expression, error_string).
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"""
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if any(node.type == 'name' and node.is_definition() for node in nodes):
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return False, 'Cannot extract a name that defines something'
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if nodes[0].type not in _VARIABLE_EXCTRACTABLE:
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return False, 'Cannot extract a "%s"' % nodes[0].type
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return True, ''
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def _find_nodes(module_node, pos, until_pos):
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"""
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Looks up a module and tries to find the appropriate amount of nodes that
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are in there.
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"""
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start_node = module_node.get_leaf_for_position(pos, include_prefixes=True)
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if until_pos is None:
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if start_node.type == 'operator':
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next_leaf = start_node.get_next_leaf()
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if next_leaf is not None and next_leaf.start_pos == pos:
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start_node = next_leaf
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if _is_not_extractable_syntax(start_node):
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start_node = start_node.parent
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if start_node.parent.type == 'trailer':
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start_node = start_node.parent.parent
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while start_node.parent.type in EXPRESSION_PARTS:
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start_node = start_node.parent
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nodes = [start_node]
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else:
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# Get the next leaf if we are at the end of a leaf
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if start_node.end_pos == pos:
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next_leaf = start_node.get_next_leaf()
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if next_leaf is not None:
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start_node = next_leaf
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# Some syntax is not exactable, just use its parent
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if _is_not_extractable_syntax(start_node):
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start_node = start_node.parent
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# Find the end
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end_leaf = module_node.get_leaf_for_position(until_pos, include_prefixes=True)
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if end_leaf.start_pos > until_pos:
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end_leaf = end_leaf.get_previous_leaf()
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if end_leaf is None:
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raise RefactoringError('Cannot extract anything from that')
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parent_node = start_node
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while parent_node.end_pos < end_leaf.end_pos:
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parent_node = parent_node.parent
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nodes = _remove_unwanted_expression_nodes(parent_node, pos, until_pos)
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# If the user marks just a return statement, we return the expression
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# instead of the whole statement, because the user obviously wants to
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# extract that part.
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if len(nodes) == 1 and start_node.type in ('return_stmt', 'yield_expr'):
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return [nodes[0].children[1]]
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return nodes
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def _replace(nodes, expression_replacement, extracted, pos,
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insert_before_leaf=None, remaining_prefix=None):
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# Now try to replace the nodes found with a variable and move the code
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# before the current statement.
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definition = _get_parent_definition(nodes[0])
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if insert_before_leaf is None:
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insert_before_leaf = definition.get_first_leaf()
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first_node_leaf = nodes[0].get_first_leaf()
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lines = split_lines(insert_before_leaf.prefix, keepends=True)
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if first_node_leaf is insert_before_leaf:
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if remaining_prefix is not None:
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# The remaining prefix has already been calculated.
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lines[:-1] = remaining_prefix
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lines[-1:-1] = [indent_block(extracted, lines[-1]) + '\n']
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extracted_prefix = ''.join(lines)
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replacement_dct = {}
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if first_node_leaf is insert_before_leaf:
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replacement_dct[nodes[0]] = extracted_prefix + expression_replacement
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else:
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if remaining_prefix is None:
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p = first_node_leaf.prefix
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else:
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p = remaining_prefix + _get_indentation(nodes[0])
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replacement_dct[nodes[0]] = p + expression_replacement
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replacement_dct[insert_before_leaf] = extracted_prefix + insert_before_leaf.value
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for node in nodes[1:]:
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replacement_dct[node] = ''
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return replacement_dct
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def _expression_nodes_to_string(nodes):
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return ''.join(n.get_code(include_prefix=i != 0) for i, n in enumerate(nodes))
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def _suite_nodes_to_string(nodes, pos):
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n = nodes[0]
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prefix, part_of_code = _split_prefix_at(n.get_first_leaf(), pos[0] - 1)
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code = part_of_code + n.get_code(include_prefix=False) \
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+ ''.join(n.get_code() for n in nodes[1:])
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return prefix, code
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def _split_prefix_at(leaf, until_line):
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"""
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Returns a tuple of the leaf's prefix, split at the until_line
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position.
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"""
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# second means the second returned part
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second_line_count = leaf.start_pos[0] - until_line
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lines = split_lines(leaf.prefix, keepends=True)
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return ''.join(lines[:-second_line_count]), ''.join(lines[-second_line_count:])
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def _get_indentation(node):
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return split_lines(node.get_first_leaf().prefix)[-1]
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def _get_parent_definition(node):
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"""
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Returns the statement where a node is defined.
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"""
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while node is not None:
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if node.parent.type in _DEFINITION_SCOPES:
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return node
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node = node.parent
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raise NotImplementedError('We should never even get here')
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def _remove_unwanted_expression_nodes(parent_node, pos, until_pos):
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"""
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This function makes it so for `1 * 2 + 3` you can extract `2 + 3`, even
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though it is not part of the expression.
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"""
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typ = parent_node.type
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is_suite_part = typ in ('suite', 'file_input')
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if typ in EXPRESSION_PARTS or is_suite_part:
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nodes = parent_node.children
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for i, n in enumerate(nodes):
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if n.end_pos > pos:
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start_index = i
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if n.type == 'operator':
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start_index -= 1
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break
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for i, n in reversed(list(enumerate(nodes))):
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if n.start_pos < until_pos:
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end_index = i
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if n.type == 'operator':
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end_index += 1
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# Something like `not foo or bar` should not be cut after not
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for n2 in nodes[i:]:
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if _is_not_extractable_syntax(n2):
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end_index += 1
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else:
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break
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break
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nodes = nodes[start_index:end_index + 1]
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if not is_suite_part:
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nodes[0:1] = _remove_unwanted_expression_nodes(nodes[0], pos, until_pos)
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nodes[-1:] = _remove_unwanted_expression_nodes(nodes[-1], pos, until_pos)
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return nodes
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return [parent_node]
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def _is_not_extractable_syntax(node):
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return node.type == 'operator' \
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or node.type == 'keyword' and node.value not in ('None', 'True', 'False')
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def extract_function(inference_state, path, module_context, name, pos, until_pos):
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nodes = _find_nodes(module_context.tree_node, pos, until_pos)
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assert len(nodes)
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is_expression, _ = _is_expression_with_error(nodes)
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context = module_context.create_context(nodes[0])
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is_bound_method = context.is_bound_method()
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params, return_variables = list(_find_inputs_and_outputs(module_context, context, nodes))
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# Find variables
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# Is a class method / method
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if context.is_module():
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insert_before_leaf = None # Leaf will be determined later
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else:
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node = _get_code_insertion_node(context.tree_node, is_bound_method)
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insert_before_leaf = node.get_first_leaf()
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if is_expression:
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code_block = 'return ' + _expression_nodes_to_string(nodes) + '\n'
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remaining_prefix = None
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has_ending_return_stmt = False
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else:
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has_ending_return_stmt = _is_node_ending_return_stmt(nodes[-1])
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if not has_ending_return_stmt:
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# Find the actually used variables (of the defined ones). If none are
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# used (e.g. if the range covers the whole function), return the last
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# defined variable.
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return_variables = list(_find_needed_output_variables(
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context,
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nodes[0].parent,
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nodes[-1].end_pos,
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return_variables
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)) or [return_variables[-1]] if return_variables else []
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remaining_prefix, code_block = _suite_nodes_to_string(nodes, pos)
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after_leaf = nodes[-1].get_next_leaf()
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first, second = _split_prefix_at(after_leaf, until_pos[0])
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code_block += first
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code_block = dedent(code_block)
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if not has_ending_return_stmt:
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output_var_str = ', '.join(return_variables)
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code_block += 'return ' + output_var_str + '\n'
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# Check if we have to raise RefactoringError
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_check_for_non_extractables(nodes[:-1] if has_ending_return_stmt else nodes)
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decorator = ''
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self_param = None
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if is_bound_method:
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if not function_is_staticmethod(context.tree_node):
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function_param_names = context.get_value().get_param_names()
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if len(function_param_names):
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self_param = function_param_names[0].string_name
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params = [p for p in params if p != self_param]
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if function_is_classmethod(context.tree_node):
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decorator = '@classmethod\n'
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else:
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code_block += '\n'
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function_code = '%sdef %s(%s):\n%s' % (
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decorator,
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name,
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', '.join(params if self_param is None else [self_param] + params),
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indent_block(code_block)
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)
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function_call = '%s(%s)' % (
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('' if self_param is None else self_param + '.') + name,
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', '.join(params)
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)
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if is_expression:
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replacement = function_call
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else:
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if has_ending_return_stmt:
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replacement = 'return ' + function_call + '\n'
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else:
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replacement = output_var_str + ' = ' + function_call + '\n'
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replacement_dct = _replace(nodes, replacement, function_code, pos,
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insert_before_leaf, remaining_prefix)
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if not is_expression:
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replacement_dct[after_leaf] = second + after_leaf.value
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file_to_node_changes = {path: replacement_dct}
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return Refactoring(inference_state, file_to_node_changes)
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def _check_for_non_extractables(nodes):
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for n in nodes:
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try:
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children = n.children
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except AttributeError:
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if n.value == 'return':
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raise RefactoringError(
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'Can only extract return statements if they are at the end.')
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if n.value == 'yield':
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raise RefactoringError('Cannot extract yield statements.')
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else:
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_check_for_non_extractables(children)
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def _is_name_input(module_context, names, first, last):
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for name in names:
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if name.api_type == 'param' or not name.parent_context.is_module():
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if name.get_root_context() is not module_context:
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return True
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if name.start_pos is None or not (first <= name.start_pos < last):
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return True
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return False
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def _find_inputs_and_outputs(module_context, context, nodes):
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first = nodes[0].start_pos
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last = nodes[-1].end_pos
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inputs = []
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outputs = []
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for name in _find_non_global_names(nodes):
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if name.is_definition():
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if name not in outputs:
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outputs.append(name.value)
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else:
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if name.value not in inputs:
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name_definitions = context.goto(name, name.start_pos)
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if not name_definitions \
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or _is_name_input(module_context, name_definitions, first, last):
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inputs.append(name.value)
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# Check if outputs are really needed:
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return inputs, outputs
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def _find_non_global_names(nodes):
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for node in nodes:
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try:
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children = node.children
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except AttributeError:
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if node.type == 'name':
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yield node
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else:
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# We only want to check foo in foo.bar
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if node.type == 'trailer' and node.children[0] == '.':
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continue
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for x in _find_non_global_names(children): # Python 2...
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yield x
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def _get_code_insertion_node(node, is_bound_method):
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if not is_bound_method or function_is_staticmethod(node):
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while node.parent.type != 'file_input':
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node = node.parent
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while node.parent.type in ('async_funcdef', 'decorated', 'async_stmt'):
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node = node.parent
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return node
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def _find_needed_output_variables(context, search_node, at_least_pos, return_variables):
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"""
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Searches everything after at_least_pos in a node and checks if any of the
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return_variables are used in there and returns those.
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"""
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for node in search_node.children:
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if node.start_pos < at_least_pos:
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continue
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return_variables = set(return_variables)
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for name in _find_non_global_names([node]):
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if not name.is_definition() and name.value in return_variables:
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return_variables.remove(name.value)
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yield name.value
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def _is_node_ending_return_stmt(node):
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t = node.type
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if t == 'simple_stmt':
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return _is_node_ending_return_stmt(node.children[0])
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return t == 'return_stmt'
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