542 lines
20 KiB
Python
542 lines
20 KiB
Python
"""
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Motor de evaluación híbrida que usa SymPy como base con clases especializadas
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"""
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import sympy
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from sympy import symbols, Symbol, sympify, solve, Eq, simplify
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from typing import Dict, Any, Optional, Tuple, List, Union
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import ast
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import re
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from contextlib import contextmanager
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from bracket_parser import BracketParser
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from interactive_results import PlotResult # 🔧 IMPORTACIÓN CORREGIDA
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from hybrid_base_types import (
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HybridCalcType, HybridHex, HybridBin, HybridDec,
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HybridIP4, HybridChr, Hex, Bin, Dec, IP4, Chr
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)
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class HybridEvaluationEngine:
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"""
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Motor de evaluación híbrida que combina SymPy con clases especializadas
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"""
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def __init__(self):
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self.parser = BracketParser()
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self.symbol_table: Dict[str, Any] = {}
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self.equations: List[sympy.Eq] = []
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self.last_result = None
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# Contexto base con funciones y clases
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self._setup_base_context()
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# Debug mode
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self.debug = False
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def _setup_base_context(self):
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"""Configura el contexto base con funciones matemáticas y clases"""
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# Funciones matemáticas de SymPy
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math_functions = {
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'pi': sympy.pi,
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'e': sympy.E,
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'I': sympy.I,
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'oo': sympy.oo,
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'sin': sympy.sin,
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'cos': sympy.cos,
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'tan': sympy.tan,
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'asin': sympy.asin,
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'acos': sympy.acos,
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'atan': sympy.atan,
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'sinh': sympy.sinh,
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'cosh': sympy.cosh,
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'tanh': sympy.tanh,
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'exp': sympy.exp,
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'log': sympy.log,
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'ln': sympy.log,
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'sqrt': sympy.sqrt,
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'abs': sympy.Abs,
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'sign': sympy.sign,
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'floor': sympy.floor,
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'ceiling': sympy.ceiling,
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'factorial': sympy.factorial,
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# Funciones de cálculo
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'diff': sympy.diff,
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'integrate': sympy.integrate,
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'limit': sympy.limit,
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'series': sympy.series,
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'solve': sympy.solve,
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'simplify': sympy.simplify,
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'expand': sympy.expand,
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'factor': sympy.factor,
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'collect': sympy.collect,
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'cancel': sympy.cancel,
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'apart': sympy.apart,
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'together': sympy.together,
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# Álgebra lineal
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'Matrix': sympy.Matrix,
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'det': lambda m: m.det() if hasattr(m, 'det') else sympy.det(m),
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'inv': lambda m: m.inv() if hasattr(m, 'inv') else sympy.Matrix(m).inv(),
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# Plotting (será manejado por resultados interactivos)
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'plot': self._create_plot_placeholder,
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'plot3d': self._create_plot3d_placeholder,
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}
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# Clases especializadas
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specialized_classes = {
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'Hex': Hex,
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'Bin': Bin,
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'Dec': Dec,
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'IP4': IP4,
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'Chr': Chr,
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# Alias en minúsculas
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'hex': Hex,
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'bin': Bin,
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'dec': Dec,
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'ip4': IP4,
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'chr': Chr,
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}
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# Funciones de utilidad
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utility_functions = {
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'_add_equation': self._add_equation,
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'_assign_variable': self._assign_variable,
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'help': self._help_function,
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'evalf': lambda expr, n=15: expr.evalf(n) if hasattr(expr, 'evalf') else float(expr),
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}
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self.base_context = {
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**math_functions,
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**specialized_classes,
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**utility_functions
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}
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def _create_plot_placeholder(self, *args, **kwargs):
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"""Crear placeholder para plots que será manejado por resultados interactivos"""
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if self.debug:
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print(f"🎯 Creando PlotResult con args: {args}, kwargs: {kwargs}")
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return PlotResult('plot', args, kwargs)
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def _create_plot3d_placeholder(self, *args, **kwargs):
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"""Crear placeholder para plots 3D"""
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if self.debug:
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print(f"🎯 Creando PlotResult 3D con args: {args}, kwargs: {kwargs}")
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return PlotResult('plot3d', args, kwargs)
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def _help_function(self, obj=None):
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"""Función de ayuda integrada"""
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if obj is None:
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return "Ayuda disponible. Use help(función) para ayuda específica."
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if hasattr(obj, '__doc__') and obj.__doc__:
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return obj.__doc__
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elif hasattr(obj, 'Helper'):
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return obj.Helper("")
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else:
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return f"No hay ayuda disponible para {obj}"
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def evaluate_line(self, line: str) -> 'EvaluationResult':
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"""
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Evalúa una línea de código y retorna el resultado
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"""
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try:
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# 1. Parsear la línea
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parsed_line, parse_info = self.parser.parse_line(line)
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if self.debug:
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print(f"Parse: '{line}' → '{parsed_line}' ({parse_info})")
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# 2. Manejar casos especiales
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if parse_info == "comment":
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return EvaluationResult(None, "comment", original_line=line)
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elif parse_info == "equation":
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return self._evaluate_equation_addition(parsed_line, line)
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elif parse_info == "assignment":
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return self._evaluate_assignment(parsed_line, line)
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# 3. Evaluación SymPy
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return self._evaluate_sympy_expression(parsed_line, parse_info, line)
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except Exception as e:
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return EvaluationResult(
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None, "error",
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error=str(e),
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original_line=line
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)
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def _evaluate_assignment(self, parsed_line: str, original_line: str) -> 'EvaluationResult':
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"""Maneja la asignación de variables"""
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try:
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# Ejecutar _assign_variable
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result = self._eval_in_context(parsed_line)
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# Extraer nombre de variable y valor del resultado
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parts = original_line.split('=', 1)
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var_name = parts[0].strip()
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# Obtener el valor asignado
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assigned_value = self.symbol_table.get(var_name)
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return EvaluationResult(
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assigned_value, "assignment",
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symbolic_result=result,
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original_line=original_line
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)
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except Exception as e:
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return EvaluationResult(
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None, "error",
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error=f"Error en asignación: {e}",
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original_line=original_line
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)
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def _evaluate_equation_addition(self, parsed_line: str, original_line: str) -> 'EvaluationResult':
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"""Maneja la adición de ecuaciones al sistema"""
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try:
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# Ejecutar _add_equation
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result = self._eval_in_context(parsed_line)
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return EvaluationResult(
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result, "equation_added",
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symbolic_result=f"Ecuación agregada: {original_line}",
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original_line=original_line
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)
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except Exception as e:
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return EvaluationResult(
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None, "error",
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error=f"Error agregando ecuación: {e}",
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original_line=original_line
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)
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def _evaluate_sympy_expression(self, expression: str, parse_info: str, original_line: str) -> 'EvaluationResult':
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"""Evalúa una expresión usando SymPy"""
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try:
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# Evaluar en contexto SymPy
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result = self._eval_in_context(expression)
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if self.debug:
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print(f"🔍 Resultado evaluación: {result} (tipo: {type(result)})")
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if isinstance(result, PlotResult):
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print(f" 📊 Es PlotResult: plot_type={result.plot_type}")
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# Actualizar last_result
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self.last_result = result
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# Intentar evaluación numérica si es posible
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numeric_result = None
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if hasattr(result, 'evalf'):
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try:
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numeric_eval = result.evalf()
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if numeric_eval != result:
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numeric_result = numeric_eval
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except:
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pass
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return EvaluationResult(
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result, "expression",
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symbolic_result=result,
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numeric_result=numeric_result,
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parse_info=parse_info,
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original_line=original_line
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)
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except NameError as e:
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# Intentar crear símbolos automáticamente
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return self._handle_undefined_symbols(expression, original_line, e)
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except Exception as e:
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return EvaluationResult(
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None, "error",
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error=str(e),
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original_line=original_line
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)
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def _handle_undefined_symbols(self, expression: str, original_line: str, error: Exception) -> 'EvaluationResult':
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"""Maneja símbolos no definidos creándolos automáticamente"""
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try:
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# Extraer nombres de variables de la expresión
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var_names = self._extract_variable_names(expression)
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# Crear símbolos automáticamente
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new_symbols = {}
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for name in var_names:
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if name not in self.symbol_table and name not in self.base_context:
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new_symbols[name] = Symbol(name)
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self.symbol_table[name] = Symbol(name)
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if new_symbols:
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# Reintentar evaluación
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result = self._eval_in_context(expression)
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symbol_names = list(new_symbols.keys())
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info_msg = f"Símbolos creados: {', '.join(symbol_names)}"
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return EvaluationResult(
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result, "symbolic_with_new_vars",
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symbolic_result=result,
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info=info_msg,
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original_line=original_line
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)
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else:
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raise error
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except Exception as e:
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return EvaluationResult(
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None, "error",
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error=str(e),
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original_line=original_line
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)
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def _extract_variable_names(self, expression: str) -> List[str]:
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"""Extrae nombres de variables de una expresión"""
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try:
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# Usar SymPy para extraer símbolos
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expr = sympify(expression, locals=self._get_full_context())
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return [str(symbol) for symbol in expr.free_symbols]
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except:
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# Fallback: usar regex
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pattern = r'\b[a-zA-Z_][a-zA-Z0-9_]*\b'
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names = re.findall(pattern, expression)
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# Filtrar funciones conocidas
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return [name for name in names if name not in self.base_context]
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def _eval_in_context(self, expression: str) -> Any:
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"""Evalúa una expresión en el contexto completo"""
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context = self._get_full_context()
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# Casos especiales para funciones del sistema
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if expression.strip().startswith('_add_equation'):
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return eval(expression, {"__builtins__": {}}, context)
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elif expression.strip().startswith('_assign_variable'):
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return eval(expression, {"__builtins__": {}}, context)
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else:
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try:
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# Primero intentar evaluación directa para objetos especializados
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try:
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result = eval(expression, {"__builtins__": {}}, context)
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# Si el resultado es un objeto híbrido, integrarlo con SymPy si es necesario
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if isinstance(result, HybridCalcType):
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return result
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elif isinstance(result, PlotResult):
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if self.debug:
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print(f" 📊 PlotResult detectado en eval: {result}")
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return result
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elif hasattr(result, '__iter__') and not isinstance(result, str):
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# Si es una lista/tupla, verificar si contiene objetos híbridos
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return result
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else:
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return result
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except (NameError, TypeError) as eval_error:
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# Si eval falla, intentar con SymPy
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try:
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result = sympify(expression, locals=context)
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return result
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except:
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# Si ambos fallan, re-lanzar el error original de eval
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raise eval_error
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except SyntaxError as syntax_error:
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# Para errores de sintaxis, intentar SymPy directamente
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try:
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result = sympify(expression, locals=context)
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return result
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except:
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raise syntax_error
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def _get_full_context(self) -> Dict[str, Any]:
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"""Obtiene el contexto completo para evaluación"""
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context = self.base_context.copy()
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context.update(self.symbol_table)
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context['last'] = self.last_result
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return context
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def _assign_variable(self, var_name: str, expression) -> str:
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"""Asigna un valor a una variable"""
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try:
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# Evaluar la expresión
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if isinstance(expression, str):
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value = sympify(expression, locals=self._get_full_context())
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else:
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value = expression
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# Asignar al contexto
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self.symbol_table[var_name] = value
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return f"{var_name} = {value}"
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except Exception as e:
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raise ValueError(f"Error asignando variable '{var_name}': {e}")
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def _add_equation(self, equation_str: str) -> str:
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"""Agrega una ecuación al sistema"""
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try:
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# Parsear ecuación
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if '=' in equation_str and '==' not in equation_str:
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# Ecuación simple: convertir a igualdad SymPy
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left, right = equation_str.split('=', 1)
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left_expr = sympify(left.strip(), locals=self._get_full_context())
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right_expr = sympify(right.strip(), locals=self._get_full_context())
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equation = Eq(left_expr, right_expr)
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else:
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# Ya es una comparación válida de SymPy
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equation = sympify(equation_str, locals=self._get_full_context())
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self.equations.append(equation)
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return f"Ecuación {len(self.equations)}: {equation}"
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except Exception as e:
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raise ValueError(f"Error parseando ecuación '{equation_str}': {e}")
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def solve_system(self, variables: Optional[List[str]] = None) -> Dict[str, Any]:
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"""Resuelve el sistema de ecuaciones"""
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if not self.equations:
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raise ValueError("No hay ecuaciones en el sistema")
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if variables is None:
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# Obtener todas las variables libres
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all_symbols = set()
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for eq in self.equations:
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all_symbols.update(eq.free_symbols)
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variables = [str(s) for s in all_symbols]
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# Convertir nombres a símbolos
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symbol_vars = []
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for var_name in variables:
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if var_name in self.symbol_table:
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symbol_vars.append(self.symbol_table[var_name])
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else:
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symbol_vars.append(Symbol(var_name))
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# Resolver sistema
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solutions = solve(self.equations, symbol_vars)
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# Convertir resultado a diccionario con nombres de variables
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if isinstance(solutions, dict):
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result = {}
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for symbol, value in solutions.items():
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result[str(symbol)] = value
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# Actualizar tabla de símbolos
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self.symbol_table[str(symbol)] = value
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return result
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elif isinstance(solutions, list):
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# Múltiples soluciones
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return {"solutions": solutions}
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else:
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return {"result": solutions}
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def assign_variable(self, name: str, value: Any):
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"""Asigna un valor a una variable"""
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self.symbol_table[name] = value
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def get_variable(self, name: str) -> Optional[Any]:
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"""Obtiene el valor de una variable"""
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return self.symbol_table.get(name)
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def clear_equations(self):
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"""Limpia todas las ecuaciones"""
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self.equations.clear()
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def clear_variables(self):
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"""Limpia todas las variables"""
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self.symbol_table.clear()
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def clear_all(self):
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"""Limpia ecuaciones y variables"""
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self.clear_equations()
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self.clear_variables()
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class EvaluationResult:
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"""Resultado de evaluación con información contextual"""
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def __init__(self,
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result: Any,
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result_type: str,
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symbolic_result: Any = None,
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numeric_result: Any = None,
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error: Optional[str] = None,
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info: Optional[str] = None,
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parse_info: Optional[str] = None,
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original_line: Optional[str] = None):
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self.result = result
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self.result_type = result_type
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self.symbolic_result = symbolic_result or result
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self.numeric_result = numeric_result
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self.error = error
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self.info = info
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self.parse_info = parse_info
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self.original_line = original_line
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@property
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def is_error(self) -> bool:
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return self.result_type == "error"
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@property
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def is_interactive(self) -> bool:
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"""Determina si el resultado requiere interactividad"""
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# 🔧 CORRECCIÓN: Importar PlotResult desde el lugar correcto
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from interactive_results import PlotResult
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return isinstance(self.result, (PlotResult, sympy.Matrix)) or \
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(isinstance(self.result, list) and len(self.result) > 3)
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def __str__(self):
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if self.is_error:
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return f"Error: {self.error}"
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elif self.result is not None:
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return str(self.result)
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return ""
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# Funciones de testing
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def test_evaluation_engine():
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"""Test del motor de evaluación"""
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engine = HybridEvaluationEngine()
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engine.debug = True
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test_cases = [
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# Expresiones básicas
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"2 + 3",
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"x + 2",
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"sin(pi/2)",
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# Sintaxis con corchetes
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"Hex[FF]",
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"IP4[192.168.1.1/24]",
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# 🧪 PLOTS - Casos específicos para testing
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"plot(sin(x), (x, -pi, pi))",
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"plot(x**2, (x, -5, 5))",
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# Ecuaciones
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"x + 2 = 5",
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"y**2 = 16",
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# Solve
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"solve(x + 2 - 5, x)",
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# Variables
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"a = 10",
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"b = a + 5",
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# Funciones avanzadas
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"diff(x**2, x)",
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"integrate(x**2, x)",
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]
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print("=== Test Motor de Evaluación ===")
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for test in test_cases:
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result = engine.evaluate_line(test)
|
|
print(f"'{test}' → {result} (type: {result.result_type})")
|
|
|
|
# 🔍 Información adicional para plots
|
|
if 'plot' in test:
|
|
print(f" 🎯 Es interactivo: {result.is_interactive}")
|
|
if isinstance(result.result, PlotResult):
|
|
print(f" 📊 PlotResult confirmado: {result.result.plot_type}")
|
|
|
|
if result.info:
|
|
print(f" Info: {result.info}")
|
|
|
|
|
|
if __name__ == "__main__":
|
|
test_evaluation_engine()
|