254 lines
9.8 KiB
Python
254 lines
9.8 KiB
Python
#!/usr/bin/env python
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# coding=utf-8
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# Copyright 2023 The HuggingFace Inc. team. All rights reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import ast
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import difflib
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from collections.abc import Mapping
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from typing import Any, Callable, Dict
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class InterpretorError(ValueError):
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"""
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An error raised when the interpretor cannot evaluate a Python expression, due to syntax error or unsupported
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operations.
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"""
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pass
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def evaluate(code: str, tools: Dict[str, Callable], state=None, chat_mode=False):
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"""
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Evaluate a python expression using the content of the variables stored in a state and only evaluating a given set
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of functions.
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This function will recurse through the nodes of the tree provided.
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Args:
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code (`str`):
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The code to evaluate.
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tools (`Dict[str, Callable]`):
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The functions that may be called during the evaluation. Any call to another function will fail with an
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`InterpretorError`.
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state (`Dict[str, Any]`):
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A dictionary mapping variable names to values. The `state` should contain the initial inputs but will be
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updated by this function to contain all variables as they are evaluated.
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chat_mode (`bool`, *optional*, defaults to `False`):
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Whether or not the function is called from `Agent.chat`.
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"""
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try:
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expression = ast.parse(code)
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except SyntaxError as e:
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print("The code generated by the agent is not valid.\n", e)
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return
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if state is None:
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state = {}
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result = None
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for idx, node in enumerate(expression.body):
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try:
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line_result = evaluate_ast(node, state, tools)
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except InterpretorError as e:
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msg = f"Evaluation of the code stopped at line {idx} before the end because of the following error"
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if chat_mode:
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msg += (
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f". Copy paste the following error message and send it back to the agent:\nI get an error: '{e}'"
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)
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else:
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msg += f":\n{e}"
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print(msg)
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break
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if line_result is not None:
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result = line_result
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return result
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def evaluate_ast(expression: ast.AST, state: Dict[str, Any], tools: Dict[str, Callable]):
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"""
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Evaluate an absract syntax tree using the content of the variables stored in a state and only evaluating a given
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set of functions.
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This function will recurse trough the nodes of the tree provided.
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Args:
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expression (`ast.AST`):
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The code to evaluate, as an abastract syntax tree.
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state (`Dict[str, Any]`):
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A dictionary mapping variable names to values. The `state` is updated if need be when the evaluation
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encounters assignements.
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tools (`Dict[str, Callable]`):
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The functions that may be called during the evaluation. Any call to another function will fail with an
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`InterpretorError`.
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"""
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if isinstance(expression, ast.Assign):
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# Assignement -> we evaluate the assignement which should update the state
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# We return the variable assigned as it may be used to determine the final result.
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return evaluate_assign(expression, state, tools)
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elif isinstance(expression, ast.Call):
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# Function call -> we return the value of the function call
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return evaluate_call(expression, state, tools)
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elif isinstance(expression, ast.Constant):
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# Constant -> just return the value
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return expression.value
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elif isinstance(expression, ast.Dict):
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# Dict -> evaluate all keys and values
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keys = [evaluate_ast(k, state, tools) for k in expression.keys]
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values = [evaluate_ast(v, state, tools) for v in expression.values]
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return dict(zip(keys, values))
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elif isinstance(expression, ast.Expr):
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# Expression -> evaluate the content
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return evaluate_ast(expression.value, state, tools)
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elif isinstance(expression, ast.For):
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# For loop -> execute the loop
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return evaluate_for(expression, state, tools)
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elif isinstance(expression, ast.FormattedValue):
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# Formatted value (part of f-string) -> evaluate the content and return
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return evaluate_ast(expression.value, state, tools)
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elif isinstance(expression, ast.If):
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# If -> execute the right branch
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return evaluate_if(expression, state, tools)
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elif hasattr(ast, "Index") and isinstance(expression, ast.Index):
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return evaluate_ast(expression.value, state, tools)
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elif isinstance(expression, ast.JoinedStr):
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return "".join([str(evaluate_ast(v, state, tools)) for v in expression.values])
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elif isinstance(expression, ast.List):
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# List -> evaluate all elements
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return [evaluate_ast(elt, state, tools) for elt in expression.elts]
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elif isinstance(expression, ast.Name):
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# Name -> pick up the value in the state
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return evaluate_name(expression, state, tools)
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elif isinstance(expression, ast.Subscript):
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# Subscript -> return the value of the indexing
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return evaluate_subscript(expression, state, tools)
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else:
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# For now we refuse anything else. Let's add things as we need them.
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raise InterpretorError(f"{expression.__class__.__name__} is not supported.")
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def evaluate_assign(assign, state, tools):
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var_names = assign.targets
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result = evaluate_ast(assign.value, state, tools)
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if len(var_names) == 1:
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state[var_names[0].id] = result
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else:
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if len(result) != len(var_names):
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raise InterpretorError(f"Expected {len(var_names)} values but got {len(result)}.")
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for var_name, r in zip(var_names, result):
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state[var_name.id] = r
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return result
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def evaluate_call(call, state, tools):
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if not isinstance(call.func, ast.Name):
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raise InterpretorError(
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f"It is not permitted to evaluate other functions than the provided tools (tried to execute {call.func} of "
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f"type {type(call.func)}."
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)
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func_name = call.func.id
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if func_name not in tools:
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raise InterpretorError(
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f"It is not permitted to evaluate other functions than the provided tools (tried to execute {call.func.id})."
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)
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func = tools[func_name]
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# Todo deal with args
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args = [evaluate_ast(arg, state, tools) for arg in call.args]
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kwargs = {keyword.arg: evaluate_ast(keyword.value, state, tools) for keyword in call.keywords}
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return func(*args, **kwargs)
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def evaluate_subscript(subscript, state, tools):
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index = evaluate_ast(subscript.slice, state, tools)
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value = evaluate_ast(subscript.value, state, tools)
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if isinstance(value, (list, tuple)):
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return value[int(index)]
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if index in value:
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return value[index]
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if isinstance(index, str) and isinstance(value, Mapping):
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close_matches = difflib.get_close_matches(index, list(value.keys()))
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if len(close_matches) > 0:
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return value[close_matches[0]]
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raise InterpretorError(f"Could not index {value} with '{index}'.")
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def evaluate_name(name, state, tools):
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if name.id in state:
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return state[name.id]
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close_matches = difflib.get_close_matches(name.id, list(state.keys()))
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if len(close_matches) > 0:
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return state[close_matches[0]]
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raise InterpretorError(f"The variable `{name.id}` is not defined.")
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def evaluate_condition(condition, state, tools):
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if len(condition.ops) > 1:
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raise InterpretorError("Cannot evaluate conditions with multiple operators")
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left = evaluate_ast(condition.left, state, tools)
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comparator = condition.ops[0]
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right = evaluate_ast(condition.comparators[0], state, tools)
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if isinstance(comparator, ast.Eq):
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return left == right
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elif isinstance(comparator, ast.NotEq):
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return left != right
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elif isinstance(comparator, ast.Lt):
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return left < right
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elif isinstance(comparator, ast.LtE):
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return left <= right
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elif isinstance(comparator, ast.Gt):
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return left > right
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elif isinstance(comparator, ast.GtE):
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return left >= right
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elif isinstance(comparator, ast.Is):
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return left is right
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elif isinstance(comparator, ast.IsNot):
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return left is not right
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elif isinstance(comparator, ast.In):
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return left in right
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elif isinstance(comparator, ast.NotIn):
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return left not in right
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else:
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raise InterpretorError(f"Operator not supported: {comparator}")
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def evaluate_if(if_statement, state, tools):
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result = None
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if evaluate_condition(if_statement.test, state, tools):
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for line in if_statement.body:
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line_result = evaluate_ast(line, state, tools)
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if line_result is not None:
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result = line_result
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else:
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for line in if_statement.orelse:
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line_result = evaluate_ast(line, state, tools)
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if line_result is not None:
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result = line_result
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return result
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def evaluate_for(for_loop, state, tools):
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result = None
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iterator = evaluate_ast(for_loop.iter, state, tools)
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for counter in iterator:
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state[for_loop.target.id] = counter
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for expression in for_loop.body:
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line_result = evaluate_ast(expression, state, tools)
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if line_result is not None:
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result = line_result
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return result
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