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Simatic_XML_Parser_to_SCL/processors/process_math.py

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# processors/process_math.py
# -*- coding: utf-8 -*-
import sympy
import traceback
# Usar las nuevas utilidades
from .processor_utils import get_sympy_representation, sympy_expr_to_scl, get_target_scl_name, format_variable_name
from .symbol_manager import SymbolManager
SCL_SUFFIX = "_sympy_processed"
def process_math(instruction, network_id, sympy_map, symbol_manager: SymbolManager, data):
"""
Genera SCL para operaciones matemáticas (SUB, MUL, DIV), simplificando EN.
"""
instr_uid = instruction["instruction_uid"]
instr_type_original = instruction.get("type", "") # SUB, MUL, DIV
if instr_type_original.endswith(SCL_SUFFIX) or "_error" in instr_type_original:
return False
# Mapa de tipos a operadores SCL string
op_map = {"SUB": "-", "MUL": "*", "DIV": "/"}
scl_operator = op_map.get(instr_type_original.upper())
if not scl_operator:
instruction["scl"] = f"// ERROR: Operación matemática no soportada: {instr_type_original}"
instruction["type"] = instr_type_original + "_error"
return True
# Obtener EN (SymPy), IN1, IN2 (SymPy o Constante/String)
en_input = instruction["inputs"].get("en")
in1_info = instruction["inputs"].get("in1")
in2_info = instruction["inputs"].get("in2")
sympy_en_expr = get_sympy_representation(en_input, network_id, sympy_map, symbol_manager) if en_input else sympy.true
op1_sympy_or_const = get_sympy_representation(in1_info, network_id, sympy_map, symbol_manager)
op2_sympy_or_const = get_sympy_representation(in2_info, network_id, sympy_map, symbol_manager)
# Obtener destino SCL
target_scl_name = get_target_scl_name(instruction, "out", network_id, default_to_temp=True)
# Verificar dependencias
if sympy_en_expr is None or op1_sympy_or_const is None or op2_sympy_or_const is None or target_scl_name is None:
return False
# Convertir operandos SymPy/Constante a SCL strings
op1_scl = sympy_expr_to_scl(op1_sympy_or_const, symbol_manager)
op2_scl = sympy_expr_to_scl(op2_sympy_or_const, symbol_manager)
# Añadir paréntesis si contienen operadores (más seguro)
# La función sympy_expr_to_scl debería idealmente manejar esto, pero doble chequeo simple:
op1_scl_formatted = f"({op1_scl})" if re.search(r'[+\-*/ ]', op1_scl) else op1_scl
op2_scl_formatted = f"({op2_scl})" if re.search(r'[+\-*/ ]', op2_scl) else op2_scl
# Generar SCL Core
scl_core = f"{target_scl_name} := {op1_scl_formatted} {scl_operator} {op2_scl_formatted};"
# Aplicar Condición EN (Simplificando EN)
scl_final = ""
if sympy_en_expr != sympy.true:
try:
#simplified_en_expr = sympy.simplify_logic(sympy_en_expr, force=True)
simplified_en_expr = sympy.logic.boolalg.to_dnf(sympy_en_expr, simplify=True)
except Exception as e:
print(f"Error simplifying EN for {instr_type_original} {instr_uid}: {e}")
simplified_en_expr = sympy_en_expr # Fallback
en_condition_scl = sympy_expr_to_scl(simplified_en_expr, symbol_manager)
indented_core = "\n".join([f" {line}" for line in scl_core.splitlines()])
scl_final = f"IF {en_condition_scl} THEN\n{indented_core}\nEND_IF;"
else:
scl_final = scl_core
# Actualizar instrucción y mapa
instruction["scl"] = scl_final # SCL final generado
instruction["type"] = instr_type_original + SCL_SUFFIX
# Propagar valor de salida (nombre SCL del destino) y ENO (expresión SymPy)
map_key_out = (network_id, instr_uid, "out")
sympy_map[map_key_out] = target_scl_name # Guardar nombre del destino
map_key_eno = (network_id, instr_uid, "eno")
sympy_map[map_key_eno] = sympy_en_expr # Guardar la expresión SymPy para ENO
return True
# --- Processor Information Function ---
def get_processor_info():
"""Devuelve info para SUB, MUL, DIV."""
return [
{'type_name': 'sub', 'processor_func': process_math, 'priority': 4},
{'type_name': 'mul', 'processor_func': process_math, 'priority': 4},
{'type_name': 'div', 'processor_func': process_math, 'priority': 4}
]
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